Patent application number | Description | Published |
20100310981 | DEVELOPING AGENT AND METHOD FOR PRODUCING THE SAME - According to one embodiment, a method for producing a developing agent includes pulverizing a mixture in the form of coarse particles of a toner material including a coloring agent and a binder resin by mechanical shearing, aggregating and fusing the resulting fine particles. The solid content concentration in a dispersion liquid including the aggregated particles is from 5.0% to 40.0%, the volume average particle diameter of the aggregated particles is from 1.0 μm to 10.0 μm, and the ratio of the standard deviation to the volume average particle diameter is 30.0% or less. | 12-09-2010 |
20110014558 | DEVELOPING AGENT AND METHOD FOR PRODUCING THE SAME - According to one embodiment, a method for producing a developing agent including aggregating fine particles of a toner material containing a binder resin and a coloring agent in a dispersion liquid in which the fine particles are dispersed in an aqueous medium to form aggregated particles, and washing the aggregated particles and drying the washed aggregated particles, forming toner particles is provided. An electrical conductivity of the toner particles is measured by a toner electrical conductivity evaluation method. A sample toner is prepared by adhering an additive to surfaces of the toner particles, and a content ratio of a sodium element to a carbon element in a region to which the additive is not adhered of the toner is measured. The washing of the toner particles is repeated until each of the measurement values becomes a predetermined reference value or less. | 01-20-2011 |
20110165509 | TONER - Disclosed is a decolorable toner containing a binder resin and a coloring agent which contains a color former compound and a color developing agent and has a capsule structure such that it is covered with an outer shell, and having a volume average particle diameter of from 5.0 to 15.0 μm and a number-based particle size distribution CV of 35% or less. | 07-07-2011 |
20120070771 | ELECTROPHOTOGRAPHIC TONER - Disclosed is an electrophotographic toner, comprising: toner base particles having a volume average particle diameter of 3 μm or more and 7 μm or less; OTES-treated silica particles which are treated with octyltriethoxysilane (OTES) and are externally added to the toner base particles; and silica-coated titanium oxide particles which are coated with silica and are externally added to the toner base particles along with the OTES-treated silica particles, wherein the ratio (A) of the amount of the OTES-treated silica particles to the amount of the toner base particles, the ratio (B) of the amount of the silica-coated titanium oxide particles to the amount of the toner base particles, and the ratio (C) of the amount of particles to be externally added to the toner base particles to the amount of the toner base particles satisfy the following relations: 1% by mass≦(A)≦6.9% by mass; 0.1% by mass≦(B)≦2% by mass; 3% by mass≦(C)≦7% by mass; and 0.15≦(A)/(C)<1. | 03-22-2012 |
20120328978 | DEVELOPING AGENT, METHOD FOR EVALUATING DEVELOPING AGENT, AND METHOD FOR PRODUCING DEVELOPING AGENT - According to one embodiment, a developing agent includes a binder resin and a coloring agent, wherein when the developing agent is subjected to methanol extraction, and a filtrate of the resulting extract is subjected to HPLC measurement, the ratio of a peak area at a retention time of 10 minutes or less to the total peak area is 15.0% or less. | 12-27-2012 |
Patent application number | Description | Published |
20090127444 | Raindrop detection apparatus - A raindrop detection apparatus includes a light emitting unit for emitting light to an inner side of a windshield, a light receiving unit for receiving the light reflected by an outer surface of the windshield, a first lens unit which is arranged between the windshield and the light emitting unit to convert the light from the light emitting unit into parallel light, and a second lens unit which is arranged between the windshield and the light receiving unit to converge the reflected light at the light receiving unit. The second lens unit is larger than a radial cross section of the reflected light. An amount of raindrop landed on the outer surface of the windshield is detected based on an intensity of the light received by the light receiving unit. | 05-21-2009 |
20120242468 | VEHICLE PRESENCE NOTIFICATION APPARATUS - A vehicle presence notification apparatus may include a dynamic speaker for radiating a notification sound from a vehicle in an audible frequency, and a sound pressure supplement unit is provided to control a sound pressure of the notification sound. The apparatus may further include a parametric speaker for generating a supersonic sound of the notification sound from a supersonic sound generation unit. The supersonic sound is emitted from a sound emission opening. The parametric speaker may further include a reflected sound pressure detecting unit for detecting a sound pressure generated by a reflection of the supersonic sound from the sound emission opening. The sound pressure supplement unit increases the sound pressure of the notification sound radiated by the dynamic speaker based on the sound pressure detected by the reflected sound pressure detecting unit. | 09-27-2012 |
20150036143 | RAIN SENSOR - A rain sensor equipped to a transparent substrate includes a light emitter emitting irradiation lights toward the transparent substrate, light receivers receiving reflected lights of the irradiation lights being reflected on the transparent substrate, a defining section defining an incident angle of each reflected light with respect to each light receiver, and a detection section detecting rainfall amount based on signals output from the light receivers. The light emitter emits the irradiation lights toward an irradiation region defined on the transparent substrate. The irradiation region is divided into multiple detection regions. The detection regions correspond to respective light receivers. The defining section defines the incident angle of each reflected light reflected on the detection region such that each reflected light enters corresponding light receiver. The detection section detects the rainfall amount based on the signals output from the light receivers corresponding to the irradiation regions. | 02-05-2015 |
20150346089 | ADHERING MATTER DETERMINATION DEVICE - An adhering matter determination portion includes an irradiation portion, a light receiving portion and a determination portion. The irradiation portion radiates a light to a plurality of different areas of a transparent plate. The light receiving portion converts reflected waves reflected at the different areas into electrical signals. The determination portion compares at least one of detection signals outputted from the light receiving portion with a determination threshold. When the detection signal is lower than the determination threshold, the determination portion determines that there is an adhering matter on the transparent plate. The determination portion compares the detection signals. When a difference of the detection signals is higher than a condensation determination value, the determination portion determines that the adhering matter is raindrops. When the difference of the detection signals is lower than the condensation determination value, the determination portion determines that the adhering matter is dewdrops. | 12-03-2015 |