DE3823859A1 - Device for testing the degree of penetration of moisture of nappies (diapers) - Google Patents

Abstract

In modern nappies (diapers), a penetration of moisture cannot be determined by eye (visually). In order to make possible testing of the degree of penetration of moisture without contact by hand, a rod-shaped probe is proposed which is provided with a contact head (2) on which two electrodes (4, 5) are arranged at a distance from each other. The degree of penetration of moisture can now be determined, via an electrical measuring circuit (16) and a display (17) connected to the electrodes (4, 5), by means of simple contact of the inside of the nappy with the electrodes. <IMAGE>

Description

In hospitals and nursing homes in particular in patients with incontinence the need for the templates or diapers to check whether an early change necessary is. A visual inspection is at moderate diapers with a waterproof outer film are and in the form of closed diaper pants become no longer possible, so here the nursing staff the test must be done by hand, which is hygienic African reasons is not appropriate.

The invention has for its object to a device create that the nursing staff enables the through moisturizing a diaper without direct contact Check by hand.

According to the invention, this object is achieved by that an essentially rod-shaped button at one end is provided with a contact head that on the contact head  at least two electrodes spaced apart are and that the electrodes with a measuring circuit for Measurement of the change in the electrical (ohmic) resistance standes are connected to a display device and an electrical power supply is connected. A Such a button can be on the patient between the body and Diaper to be inserted. The measuring circuit provides is an open measuring circuit, which only over the electrodes can be closed. The electrodes are like this arranged that they are simultaneously on the inner surface the diaper can come to the system. As long as a diaper is dry or only slightly damp, for example wise through sweating, then flows because of the high resistance in the diaper surface only a little Current, so accordingly none or one below a predeterminable tolerance limit is displayed. However, if the diaper is soaked, it results from the good conductivity of human urine accordingly low resistance and thus a high current flow, so that can be read on the display that the diaper is wet and must be replaced.

In an expedient embodiment of the invention, that the contact head is essentially flat and convex at least on one side of the surface and that the electrodes are on the bulging surface are arranged. With such a design of the head it is possible to push the button without complaints for the patient insert between body and diaper, taking through the convex bulge of at least one surface side There is a guarantee that the diaper area to be tested here comes into contact with both electrodes. Is expedient it furthermore if the electrodes in turn have a have domed surface and the area of contact protrude head.  

In another embodiment of the invention, that at least part of the contact head as an electrode is trained. This offers the possibility of simpler Wiring, because then the contact head and the associated Rod which forms a supply line to the measuring circuit while the electrode with the cable connected to it the other Forms supply line to the measuring circuit.

In a further embodiment of the invention, that the contact head is attached to an elastically flexible rod is increasing. This combines the handling of the device folds, so that the contact head even under a lying Patient can be inserted.

In an advantageous embodiment of the invention is also provided that the rod facing away from the contact head End is provided with a handle that the measuring circuit including the power supply arranged in the handle and that the handle carries the measuring display. This Ausge staltung has the advantage that the device is small and handy can be built and accordingly by the nursing staff can be carried in the coat pocket.

In an advantageous further embodiment of the invention provided that the measurement display by at least two, before preferably different colored LEDs is formed. By using LEDs, the reading of the measurement signal simplified. For example, for the display "dry" predefined a green LED be a red light emitting diode for the display "wet" is specified. The measuring circuit is now designed that the red LED only lights up when a correspondingly high degree of moisture penetration of the test Diaper a correspondingly large current flow or less There is resistance. The ad can still go so far be refined, for example, by several lights diodes also in different colors, for example "yellow", intermediate values can also be displayed.  

In a further embodiment of the invention, that the contact head bulges at least on its front edge is trained. This shape has the advantage that no pain is inflicted on the patient if that Device is guided along the body.

In an advantageous embodiment of the invention is also provided that a switch on the handle, preferably a key switch is arranged, via which the device is targeted can be put into operation. The circuit can be provided in such a way that with Actuator tion of the push button switch, for example when using of LEDs, via the green LED at the same time Ready for operation is displayed and that only at a appropriate moisture in the diaper this LED goes out and one or more other LEDs light up This ensures that the power source, for example, a normal flashlight battery is unnecessarily burdened. In particular, it ensures that no current flows, for example when filing on a table or in your pocket during transport metallic objects make contact between the electrodes is produced and thus an unnecessary current flow takes place.

The invention is based on schematic drawings of a Embodiment explained in more detail. Show it:

Fig. 1 shows an embodiment view in an up,

Fig. 2 shows the device. Fig. 1 in a view pages,

Fig. 3 is a schematic diagram of the measuring circuit.

The device shown in Fig. 1 in a plan essentially consists of a rod 1 , which is made of an elastically flexible material, for example a corresponding plastic, which can also be reinforced, for example, glass fiber. At one end, the rod runs out into a contact head 2 , which is bead-shaped at least in the region of its front edge 3 and which is provided on one side with two electrodes 4 and 5 arranged at a distance from one another. Instead of the arrangement of two separate electrodes, as shown, it is also possible to arrange only one electrode and also to produce the rest of the body of the contact head from an electrically conductive material, on which the electrode is then attached in an electrically insulated manner. The other end of the rod 1 is provided with a handle 6 designed as a housing, in which the measuring circuit and the current source, for example a battery or a rechargeable battery, are accommodated. On the top of the handle 6 , a display 7 is provided, which is formed in the illustrated embodiment by LEDs 8 , 9 and 10 . The arrangement can be made so that the light emitting diode 8 glows green and indicates operational readiness of the device and only goes out when the device is in use, when a current flows or a reduction in resistance when a moist surface is touched between the two electrodes 4 and 5 is measurable. The light-emitting diode 9 can light up yellow, for example, when the diaper is only slightly wetted. The light-emitting diode 10 lights up red, for example, and when a diaper change is indicated due to a high degree of moisture penetration.

On the side of the handle is still the actuating element of a switch 11 , for example a push button switch, via which the device can be put into operational readiness.

The device is used in such a way that the contact head 2 is inserted between the body and the diaper for testing, the electrodes 4 and 5 facing the inside of the diaper. When the switch 11 is actuated, the display 7 can then be used to read whether a diaper change is required.

The measuring circuit is indicated schematically in Fig. 3. One pole of the rechargeable battery 12 is connected to the electrode 4 via a feed line 13 and the other pole is connected to the electrode 5 via a feed line 14 . Here, the feed line 13 can be interrupted by the key switch 11 . A ballast resistor 15 is arranged in the feed line 14 , which is designed such that no current flows between the two electrodes 4 and 5 to be measured and the arrangement works as a voltage measurement. The measuring circuit 16 is connected in parallel to the two electrodes 4 and 5 to the feed lines 13 , 14 and is shown only schematically here. When a dry diaper is touched, the resistance between the two electrodes 4 and 5 is practically infinite, while with a wet diaper there is very little resistance due to the very good conductivity of the human urine.

The handle 6 can be integrally connected to the rod 1 and have only one opening for the battery to be replaced, while all other parts are tightly embedded in the handle. The key switch can be arranged as a wet switch with an intermediate film or in the form of a contact film on the handle, so that the electrical part, except for the battery chamber and the connections for the battery, are enclosed in a gas-tight and liquid-tight manner. This configuration offers the possibility of completely washing the device at least with a sterilization solution after removing the battery. The lid of the battery compartment is expediently connected to the remaining part of the handle by means of screws, so that an inserted ring seal also causes a liquid-tight seal of the battery compartment, which allows the device to be cleaned in the usual sterilization intervals even when the battery is functional.

Claims (9)

1. Apparatus for testing the degree of moisture penetration of diapers, characterized in that an essentially rod-shaped button is provided at one end with a contact head ( 2 ), that at least two electrodes ( 4 , 5 ) are arranged at a distance from one another on the contact head ( 2 ) are and that the electrodes ( 4 , 5 ) are connected to a measuring circuit ( 16 ) for measuring the change in electrical (ohmic) resistance, which is connected to a display device ( 7 ) and an electrical power supply ( 12 ). 2. Apparatus according to claim 1, characterized in that the contact head ( 2 ) is substantially flat and is convex at least on one surface side, and that the electrodes ( 4 , 5 ) are arranged on the bulged surface. 3. Apparatus according to claim 1 or 2, characterized in that the electrodes ( 4 , 5 ) in turn have a curved upper surface and the surface of the contact head ( 2 ) protrude. 4. Device according to one of claims 1 to 3, characterized in that at least part of the contact head ( 2 ) is designed as an electrode. 5. Device according to one of claims 1 to 4, characterized in that the contact head ( 2 ) is attached to an elastically flexible rod ( 1 ). 6. Device according to one of claims 1 to 5, characterized in that the rod at its contact head ( 2 ) abge end is provided with a handle ( 6 ) that the measuring circuit ( 16 ) including the power supply ( 12 ) in handle (6) is arranged and that the handle (6), the indicator gauge (7) bears. 7. Device according to one of claims 1 to 6, characterized in that the measuring display ( 7 ) is formed by at least two, preferably differently colored light-emitting diodes ( 8 , 9 , 10 ). 8. Device according to one of claims 1 to 7, characterized in that the contact head ( 2 ) is bead-shaped at least on its front edge. 9. Device according to one of claims 1 to 8, characterized in that the current source ( 12 ) via a switch ( 11 ), preferably a push button switch can be switched on.