Abstract: An electric transmission communication unit and an electric reception communication unit are arranged on a base material, and include a flat plate-like first electrode that transmits electric power in a non-contact manner, a flat plate-like second electrode that is arranged side by side with the first electrode on the base material and transmits electric power in a non-contact manner, and a slot antenna that transmits or receives radio waves via a slit formed on the first electrode. For a power transmitting communication device, the first electrode and the second electrode of the electric transmission communication unit are arranged being opposed to the first electrode and the second electrode of the electric reception communication unit so that power transmission can be performed, and the slot antenna of the electric transmission communication unit is arranged being opposed to the slot antenna of the electric reception communication unit in a communicable manner.

Abstract: A coupling electrode of a communication coupler intersects with an orthogonal plane that is orthogonal to a coil axial line direction of a power transmission coil. That is, the coupling electrode of the communication coupler is not in parallel with the orthogonal plane orthogonal to the coil axial line direction of the power transmission coil. For example, the coupling electrode of the communication coupler is perpendicular to the orthogonal plane being orthogonal to the coil axial line direction, and includes the coil axial line direction in a plane of the coupling electrode.

Abstract: A coupling electrode of a communication coupler is installed at an opening of a substrate and is, viewed from an orthogonal direction orthogonal to a coil axial direction of a power transmission coil, positioned to the substrate side in the coil axial direction than a coil end portion of the power transmission coil opposite side to the substrate. For example, an end portion of the coupling electrode on a communication side in the coil axial direction positions, viewed from the orthogonal direction, at the same position as a surface of the substrate opposite to the power transmission coil, in the coil axial direction.

Abstract: A battery monitoring device which is mounted in a vehicle and detects state information of a battery including a plurality of cells connected in series, the battery monitoring device is provided with a detection unit mounted on the battery, and a mounting member mounted on the battery. The detection unit comprises a board including a circuit for detecting the state information of the battery, and a first non-contact communication unit which is mounted on the board and performs non-contact communication via electromagnetic wave. The mounting member comprises a second non-contact communication unit which performs non-contact communication via the electromagnetic wave. The first non-contact communication unit transfers the state information of the battery to the second non-contact communication unit, and the second non-contact communication unit transfers the state information of the battery transferred from the first non-contact communication unit to a host device.

Abstract: A coupling electrode of a communication coupler is installed at an opening of a substrate and is, viewed from an orthogonal direction orthogonal to a coil axial direction of a power transmission coil, positioned to the substrate side in the coil axial direction than a coil end portion of the power transmission coil opposite side to the substrate. For example, an end portion of the coupling electrode on a communication side in the coil axial direction positions, viewed from the orthogonal direction, at the same position as a surface of the substrate opposite to the power transmission coil, in the coil axial direction.

Abstract: An electric transmission communication unit and an electric reception communication unit are arranged on a base material, and include a flat plate-like first electrode that transmits electric power in a non-contact manner, a flat plate-like second electrode that is arranged side by side with the first electrode on the base material and transmits electric power in a non-contact manner, and a slot antenna that transmits or receives radio waves via a slit formed on the first electrode. For a power transmitting communication device, the first electrode and the second electrode of the electric transmission communication unit are arranged being opposed to the first electrode and the second electrode of the electric reception communication unit so that power transmission can be performed, and the slot antenna of the electric transmission communication unit is arranged being opposed to the slot antenna of the electric reception communication unit in a communicable manner.

Abstract: A coupling electrode of a communication coupler intersects with an orthogonal plane that is orthogonal to a coil axial line direction of a power transmission coil. That is, the coupling electrode of the communication coupler is not in parallel with the orthogonal plane orthogonal to the coil axial line direction of the power transmission coil. For example, the coupling electrode of the communication coupler is perpendicular to the orthogonal plane being orthogonal to the coil axial line direction, and includes the coil axial line direction in a plane of the coupling electrode.

Abstract: A battery monitoring device which is mounted in a vehicle and detects state information of a battery including a plurality of cells connected in series, the battery monitoring device is provided with a detection unit mounted on the battery, and a mounting member mounted on the battery. The detection unit comprises a board including a circuit for detecting the state information of the battery, and a first non-contact communication unit which is mounted on the board and performs non-contact communication via electromagnetic wave. The mounting member comprises a second non-contact communication unit which performs non-contact communication via the electromagnetic wave. The first non-contact communication unit transfers the state information of the battery to the second non-contact communication unit, and the second non-contact communication unit transfers the state information of the battery transferred from the first non-contact communication unit to a host device.

Abstract: A germination promotor for promoting germination of plants, the germination promotor being adapted to hold seeds within a condition of high moisture percent in order to sprout the seeds promptly and uniformly without need for water irrigation, with the result that a high uniform germination and also a high germination percentage are obtained.

Abstract: A method for restoring a dried aqueous organic gel capsule which includes aqueous organic gel hardened with a metal ion and then has been solidified by drying, wherein the method comprises immersing the solidified capsule in an aqueous solution containing the metal ion.

Abstract: A rotary valve of a multi-circuit type consists of an outer valve body with a cylindrical hole therethrough and an inner valve body rotatably inserted into the cylindrical hole of the outer valve body. The outer valve body is at a plurality of heights provided with outer fluid lines extending through the wall of the outer valve body to the cylindrical hole, and with fittings on its outer surface that connect to the outer fluid lines. The inner valve body has on its outer periphery annular passages made fluid-tight and communicated with respective outer fluid lines of the outer valve body when the inner valve body is inserted into the outer valve body. The inner valve body further has inner fluid lines that communicate one of the annular passages with a respective one of the fittings mounted around the flange of the inner valve body. To one or the other of the fittings on the outer and inner valve bodies are connected pipeways on the fluid inlet side or pipeways on the fluid outlet side.

Abstract: For feeding seeds contained in a tank main body of a seeds feeding section to a gel coating section by means of suction tips arranged in a seeds transfer section in order to coat them with a gellant, a total of eight through bores are formed along the upper end of the peripheral wall of the tank main body at positions corresponding to the suction tip and arranged at regular intervals so that an annular adaptor having a through bore running through the center thereof is fitted into each of the through bores. The inner peripheral wall of the through bore has a large diameter section located on the outer peripheral side of the peripheral wall for receiving a suction tip and a small diameter section smaller than the large diameter section located on the inner peripheral side of the peripheral wall for allowing seeds to pass therethrough from the tank main body.

Abstract: A hollow needle catches each seed in a seed vessel by suction, and a nozzle section receives the seed to form a gel film. An air blow-out nozzle opens toward the tip of the hollow needle. The mechanism includes an air cylinder for elevating the seed vessel, a lowering pipe line and a lifting pipe line each connected to the cylinder, a cylinder operating solenoid valve by way of which the pipe lines communicates with an air pressure source, and a branch pipe line communicating the lowering pipe line with the air blow-out nozzle. Further, air blows out from the air blow-out nozzle as synchronizing with the descent of the seed vessel.

Abstract: The gel-covering apparatus has an inexpensive configuration that can supply the gelling agent to the seed covering portions under uniform pressure when performing simultaneously a plurality of same processes of covering the seeds with gelling agent. The gelling agent is supplied and filled into the closed spaces (73m) formed between the eight passages (73c) and the plungers (73h) in the nozzle block (73). The eight pressurizing air cylinders (77) connected to the eight gel supply passages (73B) communicating with the spaces (73m) are operated to pressurize the gelling agent in the spaces (73m) through the gel passages (75a) to cause the plungers (73h) in respective passages (73c) to move up, opening the valves (73b) at the lower ends of the passages (73c).

Abstract: The covered seed hardening apparatus of this invention has a construction suited for performing simultaneous parallel processes of hardening the gelling agent of seeds. The seeds covered with the gelling agent are dropped from the valves (73b) of the gel covering section (7) into the liquid hardener in the front half of the feed liquid tank (111a) on the reaction tank (111b) side of the flow regulating barrage (111g) in the hardening tank (111) of the gel hardening section (11). The covered seeds immersed in the hardener are moved through the hardener in the guide direction Y by the guide paddles (113b) after the guide paddles (113b) dip into the hardener in the reaction tank (111b) on the feed liquid tank (111a) side until the guide paddles (113b) move to a point in the reaction tank (111b) near the inclined surface (111m) of the hardner stopping barrage (111k) and come out of the hardener.

Abstract: Each suction tip on a support member is moved between a seed-sucking position and a seed-supplying position by a drive source (20) at a supplying unit, and a seed vessel is moved up and down by a drive source (40). A pressurizing plunger is moved front by a drive source (50) at a nozzle unit and pressurizes the gel inside a gel flow channel to move a cutting plunger up and open a valve to allow gel to be discharged. A part of the gel discharged drops, and the remainder forms a layer on which a seed is supplied. A counter of a controller counts the number of unsuccessful seed-sucking operations, and when the counted value reaches a predetermined number of times, the running of the apparatus is stopped. If a suction tip does not suck a seed at the seed-supplying position, instead of moving the pressurizing plunger front, another suction tip is moved to the positions.

Abstract: In a working nozzle for a gel coating apparatus, a nozzle plunger (15) has, in addition to a valve portion (15b), located at its lower end, for opening or shutting the small-diameter portion of a plunger insertion hole (4), a flange (16) which is located above the valve portion and can be brought into contact with or separated from an edge of the small-diameter hole portion (5). This prevents leakage of gel during shutting of the small diameter. The nozzle plunger has also a gel accommodating groove (17) provided on the outer periphery of said valve portion and adjoining to a lower surface of the flange, thereby permitting the sharp cutting of the gel when the valve shuts. The nozzle plunger has a step (25) provided at the lower end of its inner periphery and having a larger diameter than larger than the inner diameter of the valve portion, thus preventing stagnancy of seeds within the nozzle plunger.

Abstract: A product collecting device for use in an apparatus for coating seed with gel includes a product receiving case, a top portion of which is open, arranged in a downward direction of water wash bath. A partition wall is provided for a bottom wall of the product receiving case. A product collecting port is provided for one side of the partition wall. The other side of the partition wall is provided with a draining hole located directly under a carrying out side end portion of the water wash bath. A draining chute which covers the other side of bottom wall, is inclined downward toward the product collecting port water breaking hole is provide in such a way that a length of the water breaking hole is long along the direction both of inclination and hardening.

Abstract: The present invention provides a gel-coated seed processing device that comprises a gel-processing nozzle for coating the seed supplied thereto, a curing vessel which is disposed under the gel-processing nozzle and accommodate a curing agent for curing the surface of the gel-coated seeds, and a washing vessel for washing off the surface of the gel-coated seeds after being immersed in the curing vessel, wherein the curing vessel is composed of; a curing vessel main body for accommodating a gelatinizing agent in a receiving section thereof for receiving the gel-coated seeds dropped down thereto and in a gel conveying channel in connection with the receiving section, a pump for circulating the curing agent from the receiving section to the upstream thereof by way of the gel conveying channel, a rectifying plate disposed in the upstream of the receiving section to make the curing agent overflow the horizontal upper end brim thereof, and a horizontal guide wall extendedly disposed in the downstream side of the rec