The plasma torch according to the present invention rotates the generated plasma P along the central axis T and ejects it in the axial direction, and also causes the plasma P to melt the powder of the thermal spray material and discharge it to the outside from the front nozzle opening. The current vector and the magnetic flux vector are orthogonal. A vector of current flowing between the first discharge surface 39 of the cathode 36 and the second discharge surface 49 of the second electrode 41 in order to generate plasma P, and a vector of magnetic flux of a magnetic field synthesized by the first magnet 37, the second magnet 42, the third magnet M3, and the fourth magnet M4, are orthogonal.
An air-conditioned garment 100 is configured such that an air flow passage 100 is formed in which, when air conditioning the air-conditioned garment 100, outside air taken into a garment body 10 through a first air-conditioning hole T1A and a second air-conditioning hole T2A passes through a rear air-conditioning space existing between a rear portion 10Y of the garment body 10 and a wearer's back, and flows between the inside surface 20in of a collar part 20 and behind the back of the head of the wearer, and the collar part 20 has a shape covering at least the rear of the back of the head, upward from the neck of the wearer.
A41D 13/002 - Vêtements protecteurs de travail ou de sport, p. ex. blouses de chirurgien ou vêtements protégeant des coups ou des chocs avec des conditions d'environnement interne qui sont commandées
A41D 13/005 - Vêtements protecteurs de travail ou de sport, p. ex. blouses de chirurgien ou vêtements protégeant des coups ou des chocs avec des conditions d'environnement interne qui sont commandées avec une température commandée
This air-conditioning fan unit is used by being attached to an air-conditioning garment for air-conditioning of an inside space formed between the unit and a wearer when worn by the wearer and has an intake port part through which outside air is taken in from the outside of the air-conditioning garment and a discharge port part through which a flow of air is discharged into the interior of the air-conditioning garment. The air-conditioning fan unit comprises: a first cylindrical part with one end and the other end positioned between the intake port part and the discharge port part; a second cylindrical part with one end and the other end positioned between the intake port part and the discharge port part; and a fan part which is accommodated inside a space surrounded by the first cylindrical part and the second cylindrical part and which has multiple fins disposed so as to generate a flow of air from the intake port part toward the discharge port part by rotating about a rotational center line; wherein the discharge port part is provided with multiple ribs by which the direction of the discharged flow of air is adjusted from the direction of the flow of air taken in from the intake port part SH to a preset direction.
A41D 13/002 - Vêtements protecteurs de travail ou de sport, p. ex. blouses de chirurgien ou vêtements protégeant des coups ou des chocs avec des conditions d'environnement interne qui sont commandées
F04D 29/54 - Moyens de guidage du fluide, p. ex. diffuseurs
F04D 25/08 - Ensembles comprenant des pompes et leurs moyens d'entraînement le fluide énergétique étant l'air, p. ex. pour la ventilation
This air-conditioned garment comprises: a garment body that can be worn by a wearer; an attachment part that is provided to the rear portion of the garment body, that has an air-conditioning hole penetrating between the inner surface and the outer surface of the garment body, and that enables a temperature adjustment device that introduces outside air via the air-conditioning hole inside the air-conditioned garment to be attached thereto/removed therefrom; and a collar part that is provided at the upper end of the garment body, that covers at least a portion of the back of the wearer's neck when being worn by the wearer, and that has a ventilation space adjustment part for adjusting the size of a ventilation space between the back of the wearer's neck and the inner surface of the collar part.
A41D 13/002 - Vêtements protecteurs de travail ou de sport, p. ex. blouses de chirurgien ou vêtements protégeant des coups ou des chocs avec des conditions d'environnement interne qui sont commandées
Gas Transfer Type Ultrasonic Gushing Fine Powder Quantitative Feeding System And Gas Transfer Type Ultrasonic Gushing Fine Powder Quantitative Feeding Method
The present invention provides a method for quantitatively and stably supplying fine powder and a system for implementing the method. In this invention, in a state in which at least part of the ultrasonic vibration gushing portion is in contact with the fine powder surface of the surface layer of the fine powder stored in the fine powder storage container, the powder inlet of the feed nozzle takes in the fine powder rising from the fine powder surface onto the ultrasonic vibration gushing portion through the passage region of the ultrasonic vibration gushing portion, together with the carrier gas, by ultrasonically vibrating at least part of the ultrasonic vibration gutting portion.
B05B 7/14 - Appareillages de pulvérisation pour débiter des liquides ou d'autres matériaux fluides provenant de plusieurs sources, p. ex. un liquide et de l'air, une poudre et un gaz agencés pour projeter des matériaux en particules
Provided is air conditioning fan unit that is attached and applied to an air-conditioned garment for air-conditioning an inner space which exists between the air-conditioned garment and a wearer when the wearer is wearing the air-conditioned garment, and that has an air intake opening for taking in outside air from outside the air-conditioned garment and an air discharge opening for discharging airflow inside the air-conditioned garment, said air conditioning fan unit comprising: a first cylindrical part that is positioned between the air intake opening and the air discharge opening and that has one end and another end; a second cylindrical part that is positioned between the air intake opening and the air discharge opening and that has one end and another end; and a fan part that is accommodated in a space surrounded by the first cylindrical part and the second cylindrical part, and that has a plurality of fins which are provided so as to generate airflow from the air intake opening toward the air discharge opening by rotation about an axis of rotation.
A41D 13/002 - Vêtements protecteurs de travail ou de sport, p. ex. blouses de chirurgien ou vêtements protégeant des coups ou des chocs avec des conditions d'environnement interne qui sont commandées
7.
PLASMA TORCH, PLASMA SPRAYING DEVICE, AND METHOD FOR CONTROLLING PLASMA TORCH
A plasma torch according to the present invention ejects generated plasma P in an axial direction while rotating the plasma P about a central axis T, causes a powder of a thermal spraying material to melt by means of the plasma P, and emits the same to the outside from a nozzle. A vector of an electric current flowing between a first electric discharge surface 39 of a cathode 36 and a second electric discharge surface 49 of a second electrode 41 in order to generate the plasma P, and a vector of magnetic flux of a magnetic field synthesized by means of a first magnet 37, a second magnet 42, a third magnet M3 and a fourth magnet M4 intersect at right angles.
GAS TRANSFER TYPE SYSTEM FOR SUPPLYING CONSTANT VOLUME OF FINE POWDER BY ULTRASONIC FLOW, AND GAS TRANSFER TYPE METHOD FOR SUPPLYING CONSTANT VOLUME OF FINE POWDER BY ULTRASONIC FLOW
The present invention provides a method for stably supplying a constant volume of fine powder and a system for implementing the method. In the present invention, ultrasonic vibration is carried out in a state in which at least a part of an ultrasonic-vibrational flow unit is in contact with the fine powder surface of the surface layer of fine powder that is accommodated in a fine powder accommodation container, and thereby fine powder which flows up to the ultrasonic-vibrational flow unit from the fine powder surface via a passage region of the ultrasonic-vibrational flow unit is taken in from a powder suction port of a supply nozzle together with a transferring gas.
To provide a method for quantitatively and stably feeding fine powder and a system for carrying out the method. The present invention is characterized in that a gas transfer type fine powder quantitative feeding method for quantitatively transferring and feeding fine powder filled in a gas transfer type fine powder quantitative feeder to a fine powder using device by a carrier gas, wherein
when a mixed fluid of the fine powder and the carrier gas is transferred from the gas transfer type fine powder quantitative feeder to the fine powder using device, a water content in the carrier gas is adjusted to suppress an amount of static electricity that is generated in the mixed fluid.
B65G 53/66 - Utilisation de dispositifs indicateurs ou de commande, p. ex. pour commander la pression du gaz, pour régler le pourcentage matériaux-gaz, pour signaler ou éviter l'embouteillage des matériaux
Air humidifiers; electric space cooling apparatus; heating
apparatus; electric heaters; microbubble generators for
water purification; microbubble generators for the treatment
of wastewater; microbubble generators for baths;
pasteurisers; water ionizers for household purposes;
electric torches; electric flashlights; electric lamps; LED
light bulbs; lighting apparatus and installations; electric
luminaires; warming pans; pocket warmers; boilers, other
than parts of machines and engines; emulsion fuel injectors
for heating boilers; emulsion fuel injectors for heating
apparatus; emulsion fuel injectors for air-conditioning
apparatus for industrial purposes; garbage incinerators for
industrial purposes; emulsion fuel injectors for garbage
incinerators for industrial purposes.
Microbubble generators for water purification; microbubble
generators for the treatment of wastewater; microbubble
generators for baths; pasteurisers; water ionizers for
household purposes.
12.
GAS CONVEYOR TYPE FINE POWDER CONSTANT VOLUME SUPPLY METHOD AND SYSTEM
The present invention provides a method for stably supplying a constant volume of fine powder and a system for implementing the method. This gas conveyor type fine powder constant volume supply method conveys and supplies, using a conveyor gas, a constant volume of fine powder loaded into a gas conveyor type fine powder constant volume supplying device to a fine powder using device, said method being characterized in that the amount of moisture contained in the conveyor gas is regulated and, when a mixed fluid of the fine powder and the conveyor gas is transported to the fine powder using device from the gas conveyor type fine powder constant volume supplying device, the amount of static electricity generated in the mixed fluid is suppressed.
The present invention pertains to an aqueous composition for generating fine-bubbles having desired properties, and a fine-bubble generation device. More specifically, the present invention pertains to an aqueous composition for generating fine-bubbles having properties suitable for use in cleaning, and a small, low-cost fine-bubble generation device in which no equipment such as a large pump is required. Furthermore, the present invention pertains to a cleaning method using fine-bubbles generated using said aqueous composition and/or fine-bubble generation device.
Provided is a carbonization furnace with superior carbonization efficiency and carbide yield. The carbonization furnace (1) comprises a roughly cylindrical main body (10) and a cylindrical body (20) that is accommodated in the main body (10), and is provided with a carbonizing region (50) formed by the side wall of the main body (10) and the cylindrical body (20) where organic waste products are carbonized, and a non-combustion region (60) that is positioned below the carbonizing region (50) and formed by the side wall of the main body (10) and the cylindrical body (20) where the abovementioned carbonized organic waste products are extinguished. The cylindrical body (20) has a double wall structure that has an outer wall provided with air supply ports (23) and an inner wall that is provided to face the abovementioned outer wall. Air is supplied to the abovementioned carbonizing region (50) from the abovementioned air supply ports (23) via a preheating chamber that is formed between the abovementioned outer wall and inner wall.
