Abstract: A space divider of a milking parlor arrangement for at least one milking parlor for milking milk-producing animals, wherein the space divider is arranged approximately parallel to a longitudinal axis of the animal to be milked, has an arm device having a milking cluster, which can be adjusted from a parking position to a working position and back. The arm device is arranged with the milking cluster in the parking position in the space divider and can be adjusted into the working position laterally to the animal to be milked between the front and rear legs thereof in fully automatic operation or semiautomatic operation. The space divider is designed in such a way that no additional space is required between adjacent animals, so that many animals can be milked in a milking parlor arrangement while the smallest possible amount of space is required.

Abstract: A milking system configured to milk animals includes at least one milking station, a milk tank, a transport conduit, a valve arrangement, and a cleaning arrangement that includes a delivery arrangement configured to deliver a first liquid into the milk transport conduit and to deliver a second liquid into the milk transport conduit, a pump, a controller configured to control the delivery arrangement, and a detector configured to detect that a delivery of the first liquid into milk transport conduit has ended. The detector is connected to the controller, which is configured, as a response to a signal from the detector that the delivery of the first liquid has ended, to activate the delivery arrangement to deliver the second liquid into the milk transport conduit subsequently to the ending of the delivery of the first liquid while there is a column of first liquid in the milk transport conduit.

Abstract: A valve has a plurality of material inlet ports, a flushing inlet port, and an outlet port each connected to a respective supply of one of last two different liquid materials. A movable valve body in the valve has a passage and is shiftable between a plurality of positions in each of which a respective one of the inlet ports is connected to the outlet port via the passage. A controller moves the valve body between the positions such that, after each time the valve body is in a position connecting one of the material inlet ports to the outlet port and material has passed through the passage, the valve body is moved into a position connecting the passage with the flushing inlet port for flushing out the passage.

Abstract: An apparatus has a plurality of inlet ports each connectable to a material supply container and an outlet port. A disk-shaped valve body has a first side and an opposite second side with a straight throughgoing passage from the first side to the second side, the body being displaceable relative to the inlet ports to provide a switchable connection between a respective one of the plurality of inlet ports and the outlet port. The passage can be also be connected with a respective one of the various inlet ports to enable feeding of different materials successively to the outlet port. One of the inlet ports is a flushing medium inlet port of a flushing device, and the passage can connected with the flushing medium inlet port by displacement of the valve body for flushing the passage.

Abstract: A device can clean at least one pipetting needle with a washing station. In the device, the inside and an outside of the pipetting needle are brought into contact at least for a portion with a washing liquid, at least temporarily during a cleaning process, and with at least one movement apparatus, by which a relative movement is brought about between the pipetting needle and the washing station at least temporarily before, after, or during the cleaning process. The device has a drying device, which subjects at least one region of the pipetting needle brought into contact with washing liquid during the cleaning process to at least one flow of a drying agent.

Abstract: Provided are gas distribution apparatus with a delivery channel having an inlet end, an outlet end and a plurality of apertures spaced along the length. The inlet end is connectable to an inlet gas source and the outlet end is connectible with a vacuum source. Also provided are gas distribution apparatus with spiral delivery channels, intertwined spiral delivery channels, splitting delivery channels, merging delivery channels and shaped delivery channels in which an inlet end and outlet end are configured for rapid exchange of gas within the delivery channels.

Abstract: The invention relates to a teat cup cleaning unit comprising a distribution unit which has an inlet and at least two outlets for a cleaning liquid. The distribution unit has a calming chamber and a distribution chamber. The calming chamber is connected to the distribution chamber via an opening. The inlet opens into the calming chamber. A cleaning liquid leaves the distribution chamber through the passages leading to the outlets.

Abstract: A cleaning system for milking cups containing a dispensing device into which at least two different cleaning fluids can be introduced inside the milking cup in such a way as to enable an efficient intermediate disinfection between individual milking processes.

Abstract: The invention relates to a teat cup cleaning unit comprising a distribution unit which has an inlet (4) and at least two outlets (5) for a cleaning liquid. The distribution unit has a calming chamber (6) and a distribution chamber (7). The calming chamber (6) is connected to the distribution chamber (7) via an opening (8). The inlet (4) opens into the calming chamber (6). A cleaning liquid leaves the distribution chamber (7) through the passages (9) leading to the outlets (5).

Abstract: A method of preparing a sealing surface of a container for application of a seal. A lip of the container may be heated, rinsed, and dried to establish the sealing surface. Then the seal may be applied to the sealing surface.

Abstract: A compressor wash system for compressor washing includes stages of fluid delivery lines coupled at one end to a pump output and at the other end to a corresponding nozzle set. A control valve is connected to the fluid delivery line between the pump and the nozzle set, selectively supplying fluid between the pump and the nozzle set. Each nozzle of a nozzle set is positioned on an inlet of the compressor to allow the stages to wash a portion of the compressor. Nozzle sets are positioned around a bellmouth assembly and/or around an inlet cone of the compressor inlet, with a nozzle spray tip of each nozzle extending into an inlet air flow path of the compressor. Fluid may be directed to one or more of the stages in a sequencing pattern determined and configured to wash the compressor. Templates and installation guides are utilized to position the nozzles.

Abstract: A compressor wash system for compressor washing includes stages of fluid delivery lines coupled at one end to a pump output and at the other end to a corresponding nozzle set. A control valve is connected to the fluid delivery line between the pump and the nozzle set, selectively supplying fluid between the pump and the nozzle set. Each nozzle of a nozzle set is positioned on an inlet of the compressor to allow the stages to wash a portion of the compressor. Nozzle sets are positioned around a bellmouth assembly and/or around an inlet cone of the compressor inlet, with a nozzle spray tip of each nozzle extending into an inlet air flow path of the compressor. Fluid may be directed to one or more of the stages in a sequencing pattern determined and configured to wash the compressor. Templates and installation guides are utilized to position the nozzles.

Abstract: An engine wash manifold assembly for delivering wash liquid to an engine with a radial air passage includes a feeder body, an inlet on the feeder body to receive wash fluid, a first nozzle in fluid communication with the feeder body and configured to direct wash fluid into the radial passage, and a securing device configured to support the feeder body relative to a mounting location.

Abstract: Embodiments of the present invention include a hose handling system having a hose guide plumbed via a wash line to a fluid delivery device. The hose guide includes a pulley installed on a frame member, and a spray nozzle adapted to dispense a wash mixture. The hose guide is adapted to guide a hose as the hose is inserted into or withdrawn from a manhole, with the hose traversing the pulley. The wash mixture can be delivered through a wash line to the hose guide, which sprays the wash mixture on the hose in order to reduce or eliminate gross contamination or microbial contamination on the hose. The wash mixture typically, but not necessarily, has a freezing point below 32° F. and includes: a quaternary ammonium compound, an alcohol or glycol, an alcohol ethoxylate, and a fragrance.

Abstract: The present application thus provides a compressor wash system for use about a bellmouth of a compressor of a gas turbine engine. The compressor wash system may include a bellmouth wash nozzle positioned about the bellmouth of the compressor and a wash door assembly positioned about a lower half of the bellmouth such that the wash door assembly may be closed when the bellmouth wash nozzle is activated.

Abstract: A method and apparatus for cleaning, treating and inspecting tubular goods including, without limitation, continuous tubing. Tubing is fed through a box-like housing having an inner chamber. As the tubing proceeds through the housing, the exterior surface of the tubing passes through an initial squeegee wiper to remove moisture, debris and environmental contaminants. Thereafter, the external surface of the pipe is washed using a high pressure liquid spray followed by another wiper squeegee and gas (typically air) dry station. After the pipe is sufficiently dry, liquid rust inhibitor and/or other treating fluid can be applied to the outer surface of the pipe before the pipe exits the housing.

Abstract: A collector for collecting wash liquid from an engine washing operation including an inlet duct to receive wash liquid from the wash operation; a plurality of droplet separators to retain the wash liquid within the collector while allowing air to flow out of the collector; a base to receive the wash liquid; an outlet connected to the base to discharge wash liquid from the collector; and a plurality of wheels connected to the base for moving the collector.

Abstract: An engine wash system for delivering wash liquid to an engine with a lift fan and a main engine, the lift fan including a plurality of inlet guide vanes and a nose cone, and the main engine connected to the lift fan by a shaft, the engine wash system includes a lift fan manifold to deliver wash liquid to the lift fan; and a main engine manifold to deliver wash liquid to the main engine, wherein the lift fan manifold and the main engine manifold can deliver the wash liquid simultaneously.

Abstract: A receptacle cleaning assembly for use with electrical connectors includes a receptacle washing fixture having a manifold body with a solution inlet and outlet. A plurality of nozzles, in communication with the solution inlet, are coupled with the manifold body and are arranged in a pattern corresponding to female connector receptacles. An interface seal is coupled with the manifold body. The plurality of nozzles extend through the interface seal, and the interface seal is configured to seal along a face of the connector. At least one solution return passage extends through the interface seal from an exterior of the plurality of nozzles to the solution outlet. An alignment skirt extends from the manifold body, and couples and aligns the connector receptacles with the plurality of nozzles. In another example, the receptacle cleaning assembly includes a receptacle brush fixture including a plurality of reciprocating brushes for use in the female connector receptacles.

Abstract: A needle washing mechanism allowing the selection of an appropriate needle cleaning liquid without having to take volatility into consideration is presented. The needle washing mechanism has: needles standing on a base side by side and each of which has a path inside thereof through which a liquid passes; washing ports having washing holes including openings; and a needle cleaning liquid supply means for supplying a needle cleaning liquid to each of the washing holes, and includes cap sections, which are provided on the outer circumferential surface of the needles, for closing the openings of the washing holes when the needles are inserted into the washing holes. The washing ports are biased toward the openings by means of biasing means. In addition, disposal passages for discharging the needle cleaning liquid from the washing holes are provided in the washing ports.

Abstract: The invention is directed to an arrangement of two conduits, wherein the conduits are positioned parallel with respect to each other and wherein each conduit is provided with means suitable to remove solids from its surface and positioned along the length of one of the two sides of the conduit, wherein the means are one or more pairs of oppositely oriented nozzles, each nozzle having an outflow opening for gas directed, along the surface of the conduit, towards the outflow opening of the other nozzle of said pair, wherein the pairs of oppositely oriented nozzles of one conduit are arranged in a staggered configuration relative to the pairs of oppositely oriented nozzles of the other conduit.

Abstract: A gutter cleaning device comprising a nozzle body preferably detachably coupled to a wand in fluid communication with a pressurized water source, the nozzle body having a fluid passage means providing fluid communication to a first nozzle obtusely offset from a coplanar, simultaneously operating, second nozzle wherein the first nozzle and the second nozzle are offset about 158 degrees.

Abstract: An apparatus for cleaning substrates on a carrier, which has in the interior thereof a plurality of longitudinal passages, which run parallel to one another and are connected to the outside at the underside of the carrier via openings. There is provided a plurality of elongated pipes, which are arranged on a pipe holder and are connected in a fluid-conducting manner to a fluid supply. A centering template is provided, which encompasses the pipes and is displaceable in the longitudinal direction thereof between an attachment position in the end region of the pipes away from the pipe holder and a working position, which lies between the attachment position and the pipe holder. The centering template bears against the carrier, such that the pipes are then aligned exactly with the longitudinal passages.

Abstract: A hydrodynamic nozzle comprising a nozzle body having a first, forward end and a second, rear end, in the rear end a section-wise centrally located intake for rinsing water, internal rinsing water channels by which rinsing water is directed from the rinsing water intake to multiple rinsing water discharges mouthing in the rear end of the nozzle body in a radially outer region with respect to the rinsing water intake. The hydrodynamic nozzle has a passage for air extending through the nozzle body, said air passage connecting an air intake, mouthing in the forward end of the nozzle body, to an air discharge mouthing in the rear end of the nozzle body, wherein the air discharge is defined partly through an outer wall located radially inside the rinsing water discharges, and partly through an inner wall located radially outside the rinsing water intake.

Abstract: An apparatus for rinsing plastics material containers, with a conveying device which conveys the plastics material containers along a pre-set conveying path, with a plurality of spraying devices which act upon an inner space of the plastics material containers with a gaseous medium and which are designed to be movable at least locally with the plastics material containers, with a reservoir for the gaseous medium and at least one connecting line by way of which the reservoir is connected in terms of flow to the spraying devices. The apparatus has an ionizing unit which is arranged between the reservoir and the spraying devices and which ionizes centrally the gaseous medium arriving at the spraying devices.

Abstract: A clean-in-place device for a milk conveying system. The milk conveying system includes at least two separate areas (A, B) with surfaces difficult to clean. The clean-in-place device includes a steam source (24), steam passages (25, 26) extending between the steam source (24) and a respective outlet opening (25a, 26a) from which it is possible to supply steam to these areas (A, B) of the milk conveying system and control unit (7, 27) adapted to control the supply of steam from the steam source (24) to these areas (A, B) of the milk conveying system.

Abstract: The invention relates to a cleaning device for a portioning utensil used for portioning ice cream or the like, which can be used in a receptacle. Cleaning fluid being fed to a valve support can be conducted through at least two rinsing rods and can be discharged via nozzles being located on the rinsing rods. An actuation mechanism switches a valve within the valve support. In order to be able to optimally clean the receptacle and the cleaning device, it is proposed to insert a splash guard separately into the receptacle and/or to design the rinsing rods such that the same can be detached, especially by hand.

Abstract: The invention provides probe washing cups and methods. A probe washing cup has a washing well and a waste cup. A drying section is disposed between an open end of the probe washing cup and an inlet plane of the washing well. The drying section has a channel that is aligned with the washing well. The channel has an opening for receiving the probe therethrough.

Abstract: A system and apparatus for use in flushing at least a portion of a motor with a cleansing fluid. A water inlet apparatus (10) and inlet (20) for flushing a boat motor with fresh water is provided and a system incorporating the apparatus (10) (and inlet 20) is also provided. In particular, the system and apparatus are used to flush a boat motor with fresh water after use. The apparatus has one or more inlets adapted to receive a fresh water source (e.g. a hose) and a valve, such as a diaphragm valve, that selectively allows flow of the fresh water into the motor instead of its usual water source (e.g. salt water). Preferably the valve is automatic and is actuated under pressure of the incoming fresh water. The inlet(s) are secured in a surface of the boat inside a basin, which may have a cover (optional) to protect the inlet(s) from the weather/elements.

Abstract: An autoclave for the sterilization of clinical dental instruments is described, of the type comprising a sterilization chamber (1) equipped with a series of appliance fittings (4) for the inflow and outflow of fluids, and apt to contain a load of instruments onto which to carry through a sterilization cycle, characterized in that said appliance fittings (4) are gathered on at least one connection body or partition (3), with which a reducing container (7) is quickly able to be engaged and disengaged, which container has a volume apt to contain at least one instrument to be sterilized, the inner volume of such container (7) communicating with said appliance fittings (4) and said container (7) being apt to be entirely contained within said sterilization chamber (1). The small-volume container for said autoclave is further described, as well as a full treatment system employing said container.

Abstract: A cleaning apparatus for cleaning measuring probes (18) of a gas turbine engine (1). The invention further relates to a method for cleaning measuring probes (18) of an gas turbine engine (1). The apparatus comprises distribution means (30) comprising a plurality of supply means (31, 32, 33), each comprising connection means (33) arranged for connection to a probe (18), and each supply means (31, 32, 33) being arranged to, when connected to a probe (18), distribute pressurized cleaning liquid to said measuring probe (18), wherein a substantially simultaneous cleaning of probes connected to said distribution means (30) via said supply means (31, 32, 33) can be obtained.

Abstract: A pair of parallel metal lances is driven by a transversal drive into and out of heat exchanger tubes. The lances are supported by a plurality of spaced apart, retractable door supports so that the transversal drive mechanism can approach the tube sheet of the heat exchanger tubes as closely as possible. A pair of rotational drive motors rotates the lances at a user controllable speed. As the lances are moved into the tubes, the interlocked support doors retract one at a time, sequentially. Similarly, as the lances are withdrawn from the tubes, the support doors close one at a time in an interlocked fashion.

Abstract: The invention relates to a teat cup cleaning unit comprising a distribution unit which has an inlet (4) and at least two outlets (5) for a cleaning liquid. The distribution unit has a calming chamber (6) and a distribution chamber (7). The calming chamber (6) is connected to the distribution chamber (7) via an opening (8). The inlet (4) opens into the calming chamber (6). A cleaning liquid leaves the distribution chamber (7) through the passages (9) leading to the outlets (5).

Abstract: Illustrated and described are a method and a device for the simultaneous cleaning of a plurality of pipe conduits or pipe conduit systems, particularly in each case having different pipe cross sections, wherein the cleaning takes place with a liquid cleaning medium, which is taken from a reservoir by a feed pump and fed to the systems to be cleaned. The invention makes provision for the cleaning medium stream to be fed to the first system to be cleaned and after leaving the first system to be cleaned, as cleaning medium stream, to be divided into two component streams, one component stream of which is used for cleaning the second or further system and the other component stream is again fed to the reservoir. In addition the second or further system to be cleaned is assigned a feed pump, whose speed and direction of rotation are variable for determining or regulating the cleaning method.

Abstract: A multi-chambered deposition pin wash station is provided. The wash station includes a lower chamber and an upper drain basin connected by a plurality of wash tubes. Cleaning fluid is provided to the lower chamber and passes through the cleaning tubes into the upper drain basin. The cleaning tubes are adapted to clean a single deposition pin with a single tube per wash cycle.

Abstract: The invention relates to equipment consisting of a stationary base (2) to which a rotary frame (3) is attached, which includes: on the one hand, means for supporting the containers (1) to be cleaned, on the other hand, in correlation with said containers (1), insufflation tubes (4) forming the rods of cylinders (6), suitable for being inserted, on the fly, into the correlating containers. The insufflation tubes comprise a ring (15) the travel of which is adjustable by means of abutments (16) arranged on a plate. Said plate-abutment (16), shared by all the insufflation tubes (4), can be controlled by means of a screw (17) and nut (18) system or by any other means, to adjust the position of the nozzles (9) located at the end of said tubes (4) to adapt said position according to the size of the containers (1).

Abstract: A method and apparatus 30 are provided for cleaning of bottle filling equipment 10 that has a plurality of elevated valves 18, each valve being in flow communication with filling liquid supply means 14. The method includes storing a manifold 32 that has a plurality of cleaning openings 42 in a configuration resembling that of the valves, in a position that allows clear visibility and access to the operation of the valves. The manifold 32 is lowered relative to the valves 18, so that it is below the valves and is positioned underneath the valves, with each cleaning opening 42 in flow communication with a valve. The valves 18 are rinsed with liquid flowing through the filling liquid supply 14, the valves and the manifold 32. Afterwards, the manifold 32 is removed from the valves 18 and returned to its stored position.

Abstract: The present invention relates to a box cleaner including an ultrasonic cleaning bath having a receiving space to be filled with DIW and an ultrasonic wave generator arranged at a bottom thereof; a tray for loading a wafer shipping box thereon; a lift for providing a driving force to put the tray into the ultrasonic cleaning bath and take the tray out of the ultrasonic cleaning bath; and a drying system for drying the cleaned shipping box, wherein a gas sprayer is installed in the ultrasonic cleaning bath for spraying gas into the cleaned shipping box to push the DIW out of the shipping box, thereby draining the DIW.

Abstract: Apparatus and method for dispensing a gas using a gas source coupled in selective flow relationship with a gas manifold. The gas manifold includes flow circuitry for discharging gas to a gas-using zone, and the gas source includes a pressure-regulated gas source vessel containing the gas at superatmospheric pressure. The pressure-regulated gas source vessel can be arranged with a pressure regulator at or within the vessel and a flow control valve coupled in flow relationship to the vessel, so that gas dispensed from the vessel flows through the regulator prior to flow through the flow control valve, and into the gas manifold. The apparatus and method permit an enhancement of the safety of storage and dispensing of toxic or otherwise hazardous gases used in semiconductor processes.

Abstract: An improved method and apparatus for flushing the residue from internal surfaces of cavities in, for example, turbine blades. In accordance with one aspect of the invention, provision is made for simultaneously flushing the internal cavities of a plurality of turbine blades, with each blade having a plurality of cavities therein.

Abstract: In an endoscope washer disinfector, a bath comprises a mounting plane on which an endoscope with a duct is mounted and a wall member. A connector has two ends consisting of one end located to penetrate through the wall member and to be secured watertightly to the wall member. The one end faces an opening of the duct of the endoscope mounted in the bath. The other end is connected to a fluid source storing fluid for washing and disinfecting the endoscope. A nozzle is movable in the connector along an inner passage thereof and moved toward the one end of the connector to protrude from the one end to realize a watertight and detachable connection with the opening of the duct. The fluid is supplied to the duct when the fluid is supplied from the fluid source.

Abstract: An object is to smoothly clean a nozzle portion of a beverage dispenser, the beverage dispenser discharges and supplies beverage ingredients from beverage supplying nozzles, and comprises a cleaning device to clean the beverage supplying nozzles, and this cleaning device executes a cleaning operation including: a steam jetting step of jetting high-temperature steam to the beverage supplying nozzles; a water jetting step of jetting water or hot water to the beverage supplying nozzles; and a drying step of drying the surfaces of the beverage supplying nozzles.

Abstract: Apparatus and method for dispensing a gas using a gas source coupled in selective flow relationship with a gas manifold. The gas manifold includes flow circuitry for discharging gas to a gas-using zone, and the gas source includes a pressure-regulated gas source vessel containing the gas at superatmospheric pressure. The pressure-regulated gas source vessel can be arranged with a pressure regulator at or within the vessel and a flow control valve coupled in flow relationship to the vessel, so that gas dispensed from the vessel flows through the regulator prior to flow through the flow control valve, and into the gas manifold. The apparatus and method permit an enhancement of the safety of storage and dispensing of toxic or otherwise hazardous gases used in semiconductor processes.

Abstract: Residual concrete in the drum of a ready mixed concrete truck is removed by high-pressure water. A nozzle is mounted on the leading end of a torpedo-shaped nozzle housing that is hingedly mounted to an elongate boom. The boom enters the mouth of the drum at an angle that matches the angle of the drum. The hinge allows the nozzle housing to pivot with respect to the elongate boom so that the nozzle is close to the residual concrete. The boom is retracted toward the mouth with the drum rotating in the mix direction and the nozzle oscillating so that it cuts through a swath of concrete. As the boom retracts, the torpedo-shaped nozzle housing maintains the nozzle close to the residual concrete on the drum and both sides of the helical fins. The nozzle sweeps an arc from about eighty to one hundred twenty degrees as it oscillates.

Abstract: A washing device (1) for spray guns (16) and their components (16?, 16?) equipped with separate automatic (6) and manual (7) washing zones, comprises a boxed casing (2) suitable for housing in its interior a washing zone (3) and a collection and feeding zone (4). According to the invention, said device is characterized in that the washing zone is subdivided into a first zone (6) for automatic washing, and at least a second zone (7) for manual washing, and in that a swinging separation door (29), hinged on top by hinges (30) to the structure of the boxed casing (2), separates said two washing zones (6, 7) from each other.

Abstract: A multi-chambered deposition pin wash station is provided. The wash station includes a lower chamber and an upper drain basin connected by a plurality of wash tubes. Cleaning fluid is provided to the lower chamber and passes through the cleaning tubes into the upper drain basin. The cleaning tubes are adapted to clean a single deposition pin with a single tube per wash cycle.

Abstract: An aqueous tube cleaning apparatus and method includes a cleaning receptacle and a vertical receptacle, which is taller than the cleaning receptacle. A tube, or bundle of tubes, is placed in the cleaning receptacle, extending through an inlet port from the vertical receptacle, and a gate is closed to clamp the tubes in place. The vertical receptacle is then filled with a fluid, and the pressure created by gravity forces the fluid through and around the tubes, cleansing the inner and outer surfaces of the tubes.

Abstract: Tool for treating microelectronic workpieces with one or more treatment materials, including liquids, gases, fluidized solids, dispersions, combinations of these, and the like. The invention provides an approach for rapid, efficient rinsing of wetted surface(s), and is particularly advantageous when used to rinse the lower surface of moveable barrier structures such as a barrier plate that overlies a workpiece being treated in such a manner to define a tapering flow channel over the workpiece. Rather than spray rinsing liquid onto the surface in a manner that generates undue splashing, droplet, or mist generation, the liquid is flowingly dispensed, preferably under laminar flow conditions, onto a surface that is in fluid communication with the surface to be rinsed. A smooth, uniform wetting and sheeting action results to accomplish rinsing with a significantly reduced risk of generating particle contamination.

Abstract: An improved method and apparatus for flushing the residue from internal surfaces of cavities in, for example, turbine blades. In accordance with one aspect of the invention, provision is made for simultaneously flushing the internal cavities of a plurality of turbine blades, with each blade having a plurality of cavities therein.

Abstract: An assembly structured to clean the head portion of a stethoscope comprising a housing including a path of travel along which the head portion passes during cleaning. A supply of cleaning fluid is associated with a dispensing assembly which is cooperatively disposed relative to an activating assembly. The activating assembly is manually operated due to moveable engagement with the head portion as it travels along the path of travel. The activating assembly is thereby operatively positioned to activate the dispenser assembly when engaged by the head portion as it passes along the path of travel. The dispensing assembly delivers the cleaning fluid to an applicator assembly which distributes the cleaning fluid to the head portion and facilitates the cleaning thereof and removal of excess cleaning fluid there from.