Abstract: A mist-generating device includes: a droplet generating unit that generates, in a third liquid, a functional droplet including a first liquid that is spherical and a second liquid that covers an entirety of the first liquid and has a volatility lower than a volatility of the first liquid; and a mist-generating unit that generates a multilayer mist obtained by atomizing the third liquid containing the functional droplet.

Abstract: Crystals of the compound represented by formula (1), a method for the production thereof, and a method for producing an antibody-drug conjugate using the crystals.

Abstract: An active matrix substrate includes a plurality of thin film transistors including an oxide semiconductor layer, an interlayer insulating layer, a plurality of pixel electrodes arranged above the interlayer insulating layer, a common electrode arranged between the pixel electrode and the interlayer insulating layer and also configured to function as a touch sensor electrode, a first dielectric layer arranged between the interlayer insulating layer and the common electrode, a second dielectric layer arranged between the common electrode and the pixel electrode, a plurality of touch wiring lines arranged between the interlayer insulating layer and the common electrode and formed of a third conductive film, and a plurality of pixel contact portions, in which each of the plurality of pixel contact portions includes a drain electrode of the thin film transistor, a connection electrode formed of the third conductive film and electrically connected to the drain electrode in a lower opening formed in the interlayer i

Abstract: This rolling resistance measurement device for measuring the rolling resistance of a tire comprises: a cylindrical load wheel that has an outer circumferential surface that is in contact with the tread surface of a tire; a bearing part that rotatably supports the load wheel or tire; a load measurement unit that measures the load applied to a rotary shaft for the load wheel or tire; a supply part that supplies a lubricating oil to the bearing part; and a control unit. The control unit comprises a parasitic loss acquisition unit that acquires the parasitic loss accompanying the rotation of the tire T and load wheel and a supply control unit that controls the supply part on the basis of the acquired parasitic loss.

Abstract: The present invention relates to a method for recycling an intermediate film for laminated glass, comprising a step of separating a layer comprising an A layer and a layer comprising a B layer from the intermediate film for laminated glass (1) comprising at least the A layer and the B layer.

Abstract: A tire conveying apparatus includes a conveyor for conveying a tire, a position sensor, and a controller for controlling the conveyor. The controller includes a determination unit which determines whether or not the tire is positioned within an allowable area for a reference area set in a conveyance path of the conveyor, based on a detection result of the position sensor, and a center conveyor control unit which drives the conveyor such that the tire is positioned within the allowable area, if a determination that the tire is not positioned within the allowable area is made.

Abstract: This tire electrical resistance measurement device is provided with an inner circumferential-side probe and an outer circumferential-side probe. The inner circumferential-side probe is disposed on the inner circumferential side of a tire and is capable of coming into contact with the inner circumference of the tire. The outer circumferential-side probe is disposed on the outer circumferential side of the tire and is capable of coming into contact with a tread portion of the tire by moving relative to the tire in a radial direction of the tire. The outer circumferential-side probe extends in the width direction of the tire and is deformable in the radial direction so as to follow a protrusion-recess shape of the tread portion in the width direction. The outer circumferential-side probe is electrically conductive at least at a contact surface that comes into contact with the tread portion.

Abstract: A first carrying arm (64) and a second carrying arm (65) provided in a first post (61) and a third carrying arm (73) and a fourth carrying arm (74) provided in a second post (62) are provided, the first carrying arm (64) is turned in a direction following the third carrying arm (73) from a side opposite to a side on which the third carrying arm (73) collecting an upper rim turns to carry another upper rim to an upper spindle, and the second carrying arm (65) is turned in a direction following the fourth carrying arm (74) from a side opposite to a side on which the fourth carrying arm (74) collecting a lower rim turns to carry another lower rim to a lower spindle.

Abstract: Data transmission systems and methods. In one embodiment, a data transmission system includes a plurality of imaging devices, a plurality of control devices, and an information processing device. One of the plurality of control devices operates as a master control device and a remainder of the plurality of control devices operate as client control devices. The information processing device is configured to transmit an acquisition request for one or more images captured by a first imaging device of the plurality of imaging devices to the master control device. The master control device is configured to transfer the acquisition request to one of the client control devices that controls the first imaging device. In response to receiving the acquisition request, the one of the client control devices is configured to transfer a list of images captured by the first imaging device to the information processing device.

Abstract: There is provided a data transmission system including a plurality of image capturing devices, a plurality of control devices each configured to control a different one of the image capturing devices, and an information processing device configured to communicate with the control devices, in which, on the basis of a predetermined rule, the information processing device obtains, from the control devices, image captured by the image capturing devices at a timing in accordance with the rule.

Abstract: A rotating body load measuring device (100) according to the present invention detects a force acting on a rotating body (30) that is formed in a columnar shape and rotates around a central axis (L60) of a shaft body (60) protruding from a center of an end face, in a state where a main load is applied to the rotating body (30) in a main load direction (P) that is one direction in a radial direction, and includes a load cell (70) having a measurement center (C70) and capable of measuring forces acting in at least three directions with the measurement center (C70) as a reference, in which the load cell (70) is disposed such that the measurement center (C70) and the central axis (L60) overlap when viewed in the main load direction (P), and is connected to the shaft body (60).

Abstract: The present invention includes a shaft that protrudes further toward a lower spindle side than an upper rim and includes a plurality of engagement grooves arranged in an up-down direction at an outer periphery of a lower end accommodated in a hollow portion of the lower spindle; a shaft support part that rotatably supports an upper end of the shaft; an engagement part that is accommodated within the hollow portion and is engaged with any one engagement groove of the plurality of engagement grooves; a first elevating part that is configured to integrally move the upper spindle, the shaft, and the shaft support part in the up-down direction; and a second elevating part that adjusts the length of the shaft protruding below the upper rim by changing the distance between the shaft support part and the upper spindle.

Abstract: Data transmission systems and methods. In one embodiment, a data transmission system includes a plurality of imaging devices, a plurality of control devices, and an information processing device. One of the plurality of control devices operates as a master control device and a remainder of the plurality of control devices operate as client control devices. The information processing device is configured to transmit an acquisition request for one or more images captured by a first imaging device of the plurality of imaging devices to the master control device. The master control device is configured to transfer the acquisition request to one of the client control devices that controls the first imaging device. In response to receiving the acquisition request, the one of the client control devices is configured to transfer a list of images captured by the first imaging device to the information processing device.

Abstract: The present invention includes a shaft that protrudes further toward a lower spindle side than an upper rim and includes a plurality of engagement grooves arranged in an up-down direction at an outer periphery of a lower end accommodated in a hollow portion of the lower spindle; a shaft support part that rotatably supports an upper end of the shaft; an engagement part that is accommodated within the hollow portion and is engaged with any one engagement groove of the plurality of engagement grooves; a first elevating part that is configured to integrally move the upper spindle, the shaft, and the shaft support part in the up-down direction; and a second elevating part that adjusts the length of the shaft protruding below the upper rim by changing the distance between the shaft support part and the upper spindle.

Abstract: A rotating body load measuring device according to the present invention includes: a first support section which supports one end portion of a shaft body, which protrudes from one end face of a rotating body, so as to be immovable in a first direction and a second direction along a central axis; a second support section which supports the other end portion of the shaft body, which protrudes from the other end face of the rotating body, so as to be immovable in the first direction and movable in the second direction; and a measuring part capable of measuring a force acting in the first direction on at least one of the first support section and the second support section from the shaft body and capable of measuring a force acting in the second direction on the first support section from the shaft body.

Abstract: A first carrying arm (64) and a second carrying arm (65) provided in a first post (61) and a third carrying arm (73) and a fourth carrying arm (74) provided in a second post (62) are provided, the first carrying arm (64) is turned in a direction following the third carrying arm (73) from a side opposite to a side on which the third carrying arm (73) collecting an upper rim turns to carry another upper rim to an upper spindle, and the second carrying arm (65) is turned in a direction following the fourth carrying arm (74) from a side opposite to a side on which the fourth carrying arm (74) collecting a lower rim turns to carry another lower rim to a lower spindle.

Abstract: A rim exchanger includes a rim stocker. The rim stocker has an upper rim support portion that supports an upper rim, and a lower rim support portion that supports a lower rim. The upper rim support portion and the lower rim support portion have a pair of support arms separated from each other. A portion between an end of one support arm and an end of the other support arm forms an open end where a rim body enters a portion between the pair of support arms. An upper surface of one support arm forms a protrusion portion support surface which supports a protrusion portion of a rim from below.

Abstract: A heat exchanger (100) for an aircraft engine includes a core (1) and radiating fins (2). The radiating fins are configured such that a ratio y/Y of a height y from a surface (10) of the core to a formation position of a connecting portion (23) to a total height Y of each of the radiating fins (2) from the surface of the core satisfies a relationship of 0.34<y/Y<0.64.

Abstract: The present invention includes a shaft that protrudes further toward a lower spindle side than an upper rim and includes a plurality of engagement grooves arranged in an up-down direction at an outer periphery of a lower end accommodated in a hollow portion of the lower spindle; a shaft support part that rotatably supports an upper end of the shaft; an engagement part that is accommodated within the hollow portion and is engaged with any one engagement groove of the plurality of engagement grooves; a first elevating part that is configured to integrally move the upper spindle, the shaft, and the shaft support part in the up-down direction; and a second elevating part that adjusts the length of the shaft protruding below the upper rim by changing the distance between the shaft support part and the upper spindle.

Abstract: A master disk which simulates a tire and is used at the time of confirmation or correction of measurement accuracy of a geometry measuring device for measuring the surface shape of a tire, of a tire testing machine, includes: a simulated tire section simulating a tire; a lower tubular section having a cylindrical shape, in which the tip side thereof is connected to the lower end side of the simulated tire section so as to be coaxial with the simulated tire section and a guide surface inclined in a tapered shape so as to have a larger diameter toward the base end side is formed on the base end side of an inner peripheral surface; and a neck section and a flange section which are provided on the upper end side of the simulated tire section and detachably engaged with test rim moving and exchanging means of a tire holding device of the tire testing machine.