Abstract: A device implements a method of determining a cut resistance of a sample. The device includes a blade wherein the blade and the sample are relatively movable and a first apparatus that transfers energy to at least one of the sample and the blade to cause relative movement thereof in a direction parallel to a surface of the sample such that the blade contacts and cuts the sample until the imparted energy is expended and relative movement is terminated. A second apparatus measures a parameter of the relative movement to obtain an indication of the cut resistance of the sample.

Abstract: A safety device for water dispenser includes a magnetic tube, and a float. The tube sticks up on bottom of a water container. A first, and a second magnet switches are disposed in the tube, and connected in series. The float is movably fitted around the tube, and has a magnet ring, which can, when moved close to the first switch, make the first switch become conductible if there is sufficient water in the container. A weighted magnet ring is movably fitted around the tube. The weighted ring is normally close to the second switch due to gravity to make the same become conductible. Therefore, heating device of the dispenser can be activated when there is sufficient water. When the container are made to fall over, the weighted ring moves away from the corresponding switch to leave the same not-conductible, preventing the heating device from being activated.

Abstract: An in-vitro method is provided for determining an optimal combination of materials with respect to a particular menstrual flow condition for use in a feminine care absorbent article. The method involves using a simulated menstrual fluid at a controlled subject flow rate that corresponds to an actual menstrual flow condition, and observing the performance of different material combinations in the in-vitro test as an indication of their respective performance in actual use.

Abstract: A device for sensing the level of liquid, particularly for submersed pumps, comprising capacitors with two plates arranged one above the other, wherein the plates are arranged in vertical succession at different levels.

Abstract: A touch sensor 10 having a stylus 12 with a tip 12A making contact with a test piece W has an operational control structure including an oscillator 3 which oscillates the stylus 12 in the axial direction; a detecting circuit 4 which detects changes of oscillation of the stylus 12; an adjustor unit 5 which removes noise added to an output signal from the detecting circuit 4; a fine motion mechanism controller 6 which controls the operation of a fine motion mechanism 21 in such a manner that the change of the quantity of state of the detection signal is maintained constant; and a PZT driver 7 which operates the fine motion mechanism 21. The measuring force during surface configuration measurement can be adjusted by adjusting an alternating signal to be applied to the touch sensor or by reducing the noise added to the detection signal without making modifications to a shape or structure of the touch sensor.

Abstract: The invention relates to an apparatus for determining the filling level of a filling material in a container having a signal production unit which produces measurement signals, having at least one antenna which transmits the measurement signals in the direction of the surface of the filling material and which receives the measurement signals reflected on the surface of the filling material, and having a control/evaluation unit which uses the delay time of the measurement signals to determine the filling level of the filling material in the container. The apparatus allows a filling level measurement device, which operates on the delay-time principle, to be mounted on a container in a cost-effective and simple manner.

Abstract: An improved boiler water-level controller. According to one aspect of the present invention, a positive blowdown signal is presented to indicate to the operator that the alarm probe is in steam; performing blowdown until this indicator turns on helps ensure that the alarm probe is working properly. According to another aspect of the present invention, the controller uses a novel methodology of sensing water level using conductivity probes. An embodiment of this methodology uses the charging and discharging of a capacitor through a resistive value to sense the presence of water.

Abstract: A manual sample injector includes a syringe holder, a plunger driver, and an interface. An interface-control lever attached to the interface can assume “extraction”, “injection”, and “safety” orientations. In its safety orientation, the interface-control lever maintains a syringe needle in a retracted position for safety. Mounting the sample injector on a sample vial forces the interface-control lever to its extraction orientation, which allows the syringe needle to extend into the sample vial for sample extraction. The extent of the needle into the sample vial can be adjusted for precise extraction of sample from non-uniform vial contents. Mounting the injector on an injection port forces the interface-control lever to its injection orientation so that the syringe needle can be extended to an appropriate depth for sample injection.

Abstract: An material level monitoring and reporting system uses special micropower impulse radar level sensing probes, with one such probe being inserted into each of a plurality of material containment structures, such as storage tanks. The micropower impulse radar probes use flexible waveguides which extend downward to the tank bottom such that micropower radar impulses travel to and from the liquid surface via a wave guide, with the lapse between emission and reception of the impulse indicating a distance from the probe, and thus a liquid level. Each level sensing probe is connected to a communication link which collects level and status information from the level sensing probes and transmits it to a monitoring site. The material level data may be collected from a plurality of intermediate monitoring sites by a central monitoring sites.

Abstract: Testing process and apparatus for determining absorption properties of a porous specimen. The porous specimen is brought in a predetermined state of contact with the body of water held by a reservoir, for inducing water absorption in the porous specimen. A weight of the porous specimen is monitored for a predetermined time period once the contact is established to produce weight data over time. The predetermined state of contact is maintained substantially constant during the time period by permanent circulation of water in the reservoir. The absorption properties of the porous specimen are determined as a function of the weight data over time.

Abstract: A device for determining and/or monitoring the level of a medium in a container or for ascertaining the density of a medium in the container embodied as a vibration detector. According to the invention the vibration detector still functions reliably even under extreme process conditions and upon abrupt changes in process conditions. The vibration detector has a tubular inner part provided, which is dimensioned such that it is positioned between the housing wall and a drive/receiving unit, and that the tubular inner part is connected to the housing or to the diaphragm.

Abstract: An apparatus for noninvasively monitoring the flow and/or the composition of a flowing liquid using ultrasound is described. The position of the resonance peaks for a fluid excited by a swept-frequency ultrasonic signal have been found to change frequency both in response to a change in composition and in response to a change in the flow velocity thereof. Additionally, the distance between successive resonance peaks does not change as a function of flow, but rather in response to a change in composition. Thus, a measurement of both parameters (resonance position and resonance spacing), once calibrated, permits the simultaneous determination of flow rate and composition using the apparatus and method of the present invention.

Abstract: Tilt and vibration sensor and method for forming the sensor with a piezoresistive membrane having a weight affixed proximate its center for detecting the tilt and vibration of a body. The membrane may include four piezoresistors placed proximate the edges of the membrane at the points of maximum stress when the membrane is subject to a uniform applied pressure. The piezoresistors may form a Wheatstone bridge circuit to generate a first and second output voltage in response to changes in resistance of the piezoresistors under the uniform applied pressure. The first output voltage may be indicative of the angle of inclination of a body and the second output voltage may be indicative of the vibration of the body. The membrane may be fabricated from a silicon wafer using known photolithography and etching processes. The membrane may be connected with a voltage source and secured within an appropriate housing to be placed in an operational environment.

Abstract: This invention relates to a level-measuring device in which a signal generating device, a sampling device and a transmitting and/or receiving device are optimally connected to one another for various applications and signal shapes. The signal generating device generates both a radio-frequency transmit signal and a sampling control signal for sampling the radio-frequency signal. The sampling device, the signal generating device and the transmitting and/or receiving device being connected by a coupling device which comprises one of: a transformer; at least one line node; a &lgr;/4 coupler and a circulator.

Abstract: A measurement head for a device for measuring the level of a product in a container comprises a transmitter/receiver unit to transmit a scanning signal and receive an echo of the scanning signal returned by the product, a fastening element to fasten the transmitter/receiver unit to a support and at least one actuator to move the transmitter/receiver unit relative to the fastening element.

Abstract: A non-invasive system and method for measuring liquid level in a vessel utilizes a pair of ultrasonic transducers mounted spaced apart externally on the vessel wall. One of the transducers excites a single pulse of sonic energy that produces a flexural, or elastic, wave in the wall and the second transducer receives the flexural wave to produce an electrical signal waveform corresponding to the travel time of the flexural wave between the two transducers. The electrical waveform signals produced at different times are compared to determine if a phase delay exists between two waveform signals, which indicates that there has been a change in the liquid level condition in the vessel interior space between the two transducers. Measuring the phase delay, or time delay, between the flexural wave components produced at two different times is used to indicate presence or absence of the liquid at a point on the vessel and/or the height of the liquid in the space.

Abstract: A monitoring system such as a septic tank monitoring system for distinguishing between and identifying the location of a sedimentary layer, a scum layer, and any intervening liquid zone in a septic tank with an elongate sensing probe for being disposed in the septic tank, a plurality of sensors disposed along the sensing probe, and a remote monitor operably associated with the plurality of sensors for providing a remote indication to a septic tank operator of the location of the sedimentary layer, the scum layer, and any intervening liquid zone in the septic tank based on the signals from the plurality of sensors so that a septic tank operator can monitor the contents and condition of the septic tank without a need for excavating and physically inspecting the septic tank.

Abstract: The invention relates to an indicator system for fluid levels, including two or more optically and/or thermally conducting fibers, preferably suitable for indicating the fluid level of a lubricant in the case of piston internal combustion engines. In this case, the fibers are either provided at the end with a substance varying in optical properties under the action of heat, or contain chambers which are filled with an appropriate substance.

Abstract: A web is passed over a surface (11) which is at least partly curved in the running direction of the web, which extends across the web in the cross direction, and which is placed at a distance from the web, in which connection an air cushion is formed between the moving web and the curved surface. The temperature and moisture of the web are measured indirectly by measuring the temperature and moisture of the air cushion by several detectors (41) which are in communication with openings (40) formed in the curved surface in spaced relationship with one another in the cross direction of the web.

Abstract: A liquid level and weight sensor utilizes a pressure sensor of any type positioned at the base of the liquid or weight. A second pressure sensor is positioned external to the liquid or weight to measure the ambient pressure. Ambient pressure is subtracted from the total pressure indicated by the base positioned pressure sensor to determine the actual pressure exerted by the liquid or weight on the base positioned sensor. The actual pressure is then utilized in the calculation of liquid level or weight. The determination of liquid level requires that both the pressure and density of the liquid be known. When the density of the liquid is not known, a third pressure sensor is inserted in the tank at a known level above the first. The differential pressure and differential level are determinative of the liquid's density.