Abstract: A printing apparatus includes a carriage on which a print head is mounted and that discharges an ink from the print head while moving the carriage along a predetermined direction and further includes a space width adjustment unit that causes a width of a space above the carriage within the printing apparatus to be larger in an acceleration region in which the carriage is accelerated from a stopped state than in a constant velocity region in which the carriage is moved at a constant velocity after the acceleration region. The space width adjustment unit causes the width of the space above the carriage in the constant velocity region to be smaller than or equal to a paper gap that is a distance between the carriage and a print medium which is below the carriage and which receives the ink discharged from the print head.

Abstract: A barium titanate piezoelectric ceramic having good piezoelectric properties and mechanical strength and a piezoelectric element that includes the ceramic are provided. A method for making a piezoelectric ceramic includes forming a compact composed of an oxide powder containing barium titanate particles, sintering the compact, and decreasing the temperature of the compact after the sintering. The sintering includes (A) increasing the temperature of the compact to a first temperature within a temperature range of a shrinking process of the compact; (B) increasing the temperature of the compact to a second temperature within a temperature range of a liquid phase sintering process of the compact after (A); (C) decreasing the temperature of the compact to a third temperature within the temperature range of the shrinking process of the compact after (B); and (D) retaining the third temperature after (C).

Abstract: Provided is a lead-free piezoelectric ceramics having enhanced mechanical quality factor (Qm) and mechanical strength. The piezoelectric ceramics, includes at least a first crystal grain and a second crystal grain. The first crystal grain has an average equivalent circle diameter of 2 ?m or more and 30 ?m or less. The first crystal grain includes a perovskite-type metal oxide represented by the following general formula (1) as a main component, and the second crystal grain includes a perovskite-type metal oxide represented by the following general formula (2) as a main component: (1) xBaTiO3-yCaTiO3-zCaZrO3; and (2) x?BaTiO3-y?CaTiO3-z?CaZrO3, provided that x, y, z, x?, y?, and z? satisfy x+y+z=1, x?+y?+z?=1, 0?x??0.15, 0.85?y??1, 0?z??0.05, x>x?, 0<y<y?, and z>0.

Abstract: A piezoelectric ceramic compatibly represents both an excellent piezoelectric constant and an excellent mechanical quality factor. The piezoelectric ceramic contains a metal oxide expressed by general formula (1) shown below and Mn by not less than 0.04 weight parts and not more than 0.36 weight parts relative to 100 weight parts of the metal oxide in terms of metal. The piezoelectric ceramic includes a plurality of first crystal grains having a perovskite structure and a plurality of second crystal grains existing at grain boundaries between the first crystal grains. The second crystal grains contain at least a metal oxide expressed by general formula (2) shown below: (Ba1-xCax)a(Ti1-yZry)O3??(1) where 0.09?x?0.30, 0.025?y?0.085 and 0.986?a?1.020; (Ba1-vCav)b(Ti1-wZrw)cOd??(2) where 0?v?1, 0?w?1, 1?b?6, 2?c?19, b+2c?1?d?b+2c and b<c where b, c and d are integers.

Abstract: A barium titanate piezoelectric ceramic having good piezoelectric properties and mechanical strength and a piezoelectric element that includes the ceramic are provided. A method for making a piezoelectric ceramic includes forming a compact containing barium titanate particles, sintering the compact, and decreasing the temperature of the compact. The sintering includes (A) increasing the temperature of the compact to a temperature range of a shrinking process of the compact; (B) increasing the temperature of the compact to a temperature range of a liquid phase sintering process of the compact; (C) decreasing the temperature of the compact to the temperature range of the shrinking process of the compact; and (D) retaining the third temperature.

Abstract: In a piezoelectric device, a first electrode and a second electrode are disposed to be opposed to each other on plate surfaces of the piezoelectric device, a first electrode plane of the piezoelectric device is fixedly bonded to a plate surface of a vibrating plate, a piezoelectric material forming the piezoelectric device is polarized in a direction parallel to the first electrode plane, the piezoelectric device is fixed to a base through a second electrode plane of the piezoelectric device, and the piezoelectric device generates a thickness-shear vibration with the fixed second electrode plane being a reference plane. The piezoelectric vibration generated by the piezoelectric device generates a flexural vibration in the vibrating plate, to thereby remove dust adhering to a surface of the vibrating plate.

Abstract: A piezoelectric element that can decrease the output voltage for detection relative to the input voltage for driving without requiring a step-down circuit between a detection phase electrode and a phase comparator and an oscillatory wave motor including the piezoelectric element are provided. A piezoelectric element includes a piezoelectric material having a first surface and a second surface, a common electrode disposed on the first surface, and a drive phase electrode and a detection phase electrode disposed on the second surface. An absolute value d(1) of a piezoelectric constant of the piezoelectric material in a portion (1) sandwiched between the drive phase electrode and the common electrode and an absolute value d(2) of a piezoelectric constant of the piezoelectric material in a portion (2) sandwiched between the detection phase electrode and the common electrode satisfy d(2)<d(1). An oscillatory wave motor includes this piezoelectric element.

Abstract: To provide a lead-free piezoelectric material having a high and stable piezoelectric constant in a wide operating temperature range. The piezoelectric material contains a perovskite type metal oxide having the general formula (1), Mn, Mg, (Ba1-xCax)a(Ti1-y-zSnyZrz)O3??(1) (wherein x is in the range of 0.050?x?0.200, y is in the range of 0.010?y?0.040, and z is in the range of 0?z?0.040, provided that x?0.375(y+z)+0.050, and a is in the range of 0.9925+b?a?1.0025+b) wherein the amount b (mol) of Mn on a metal basis per mole of the metal oxide is in the range of 0.0048?b?0.0400, and the Mg content on a metal basis per 100 parts by weight of the metal oxide is 0.100 parts by weight or less.

Abstract: In a dust removing device including a vibration plate, which includes on its surface an optical effective region B having a substantially right-angled quadrate shape and an outer region A, and a piezoelectric element, when a region positioned in one end portion of the piezoelectric element in a direction along a side O of the piezoelectric element and spanning along the side P over a length b inwards from a line, which is an extension of a side N, N? of the optical effective region B and which intersects the piezoelectric element, is denoted by an near-end zone ? of the piezoelectric element, an absolute value of piezoelectric constant of the piezoelectric material in a region not including the near-end zone ?, is denoted by d, and an absolute value of the piezoelectric constant in the near-end zone ? is denoted by d0, relation of d>d0 is satisfied.

Abstract: A lead-free piezoelectric material that has stable, excellent piezoelectric constant and mechanical quality factor in a wide operating temperature range is provided. A piezoelectric material include a perovskite-type metal oxide represented by (Ba1-xCax)a(Ti1-yZry)O3 (where 1.00?a?1.01, 0.155?x?0.300, 0.041?y?0.069) as a main component, and manganese incorporated in the perovskite-type metal oxide. The manganese content relative to 100 parts by weight of the perovskite-type metal oxide is 0.12 parts by weight or more and 0.40 parts by weight or less on a metal basis.

Abstract: A piezoelectric element that can decrease the output voltage for detection relative to the input voltage for driving without requiring a step-down circuit between a detection phase electrode and a phase comparator and an oscillatory wave motor including the piezoelectric element are provided. A piezoelectric element includes a piezoelectric material having a first surface and a second surface, a common electrode disposed on the first surface, and a drive phase electrode and a detection phase electrode disposed on the second surface. An absolute value d(1) of a piezoelectric constant of the piezoelectric material in a portion (1) sandwiched between the drive phase electrode and the common electrode and an absolute value d(2) of a piezoelectric constant of the piezoelectric material in a portion (2) sandwiched between the detection phase electrode and the common electrode satisfy d(2)<d(1). An oscillatory wave motor includes this piezoelectric element.

Abstract: A vibration wave driving device including a lead-free piezoelectric material that can be driven with high reliability over a wide operating temperature range, an image pickup device including the vibration wave driving device, and an optical apparatus including the vibration wave driving device are provided. The vibration wave driving device generates a vibration wave by applying an AC voltage to a piezoelectric element, and includes the piezoelectric element and a capacitor that satisfy 20[° C.]?T?(Cmax)?T?(Pmax)?75[° C.] and 0.50??(Cc)/?(Cmax)?0.80.

Abstract: An indoor unit according to the present invention includes a securing plate provided at an upper edge of a sidewall of a drain pan that collects drain water generated from an indoor heat exchanger, and an antimicrobial-agent-containing case that contains an antimicrobial agent and includes a case frame positioned in an area where the drain water is collected, a case-attaching portion conforming to the securing plate and being detachably attached to the securing plate, and an arm connecting the case frame and the case-attaching portion. The antimicrobial-agent-containing case is attached to the securing plate from an opening of an air inlet from which air is taken into a body.

Abstract: A lead-free piezoelectric element that stably operates in a wide operating temperature range contains a lead-free piezoelectric material. The piezoelectric element includes a first electrode, a second electrode, and a piezoelectric material that includes a perovskite-type metal oxide represented by (Ba1-xCax)a(Ti1-yZry)O3 (1.00?a?1.01, 0.02?x?0.30, 0.020?y?0.095, and y?x) as a main component and manganese incorporated in the perovskite-type metal oxide. The manganese content relative to 100 parts by weight of the perovskite-type metal oxide is 0.02 parts by weight or more and 0.40 parts by weight or less on a metal basis.

Abstract: A lead-free piezoelectric material that does not undergo depolarization in a wide operating temperature range and has a good piezoelectric constant is provided. A piezoelectric material include a perovskite-type metal oxide represented by (Ba1-xCax)a(Ti1-yZry)O3 (where 1.00?a?1.01, 0.125?x?0.175, and 0.055?y?0.090) as a main component, and manganese incorporated in the perovskite-type metal oxide. The manganese content relative to 100 parts by weight of the perovskite-type metal oxide is 0.02 parts by weight or more and 0.10 parts by weight or less on a metal basis.

Abstract: A lead-free piezoelectric element that stably operates in a wide operating temperature range contains a lead-free piezoelectric material. The piezoelectric element includes a first electrode, a second electrode, and a piezoelectric material that includes a perovskite-type metal oxide represented by (Ba1-xCax)a(Ti1-yZry)O3 (1.00?a?1.01, 0.02?x?0.30, 0.020?y?0.095, and y?x) as a main component and manganese incorporated in the perovskite-type metal oxide. The manganese content relative to 100 parts by weight of the perovskite-type metal oxide is 0.02 parts by weight or more and 0.40 parts by weight or less on a metal basis.

Abstract: A dust removal apparatus includes a vibrating plate, a piezoelectric element, a power supply that applies the piezoelectric element with an alternating voltage; and a control circuit that changes a frequency of the alternating voltage, in which the piezoelectric element includes first and second electrodes and a piezoelectric material, a phase transition temperature T from a first crystal phase to a second crystal phase of the piezoelectric material is ?40° C.?T?85° C., the change of the frequency is for repeating a frequency sweep operation from a first frequency to a second frequency, and when a frequency at which an audible vibration is generated during the sweep operation is set as fns, a frequency at which the audible vibration is ended is set as fne, and a changing time from fns to fne during the sweep operation is set as ?tn, ?tn?10 ms is satisfied.

Abstract: Provided is a lead-free piezoelectric ceramics having enhanced mechanical quality factor (Qm) and mechanical strength. The piezoelectric ceramics, includes at least a first crystal grain and a second crystal grain. The first crystal grain has an average equivalent circle diameter of 2 ?m or more and 30 ?m or less. The first crystal grain includes a perovskite-type metal oxide represented by the following general formula (1) as a main component, and the second crystal grain includes a perovskite-type metal oxide represented by the following general formula (2) as a main component: (1) xBaTiO3-yCaTiO3-zCaZrO3; and (2) x?BaTiO3-y?CaTiO3-z?CaZrO3, provided that x, y, z, x?, y?, and z? satisfy x+y+z=1, x?+y?+z?=1, 0?x??0.15, 0.85?y??1, 0?z?0.05, x>x?, 0<y<y?, and z>0.

Abstract: A piezoelectric ceramic compatibly represents both an excellent piezoelectric constant and an excellent mechanical quality factor. The piezoelectric ceramic contains a metal oxide expressed by general formula (1) shown below and Mn by not less than 0.04 weight parts and not more than 0.36 weight parts relative to 100 weight parts of the metal oxide in terms of metal. The piezoelectric ceramic includes a plurality of first crystal grains having a perovskite structure and a plurality of second crystal grains existing at grain boundaries between the first crystal grains. The second crystal grains contain at least a metal oxide expressed by general formula (2) shown below: (Ba1-xCax)a(Ti1-yZry)O3??(1) where 0.09?x?0.30, 0.025?y?0.085 and 0.986?a?1.020; (Ba1-vCav)b(Ti1-wZrw)cOd??(2) where 0?v?1, 0?w?1, 1?b?6, 2?c?19, b+2c?1?d?b+2c and b<c where b, c and d are integers.

Abstract: A piezoelectric ceramic includes: a metal oxide represented by General Formula (1); and 0.04 parts by weight or more and 0.36 parts by weight or less of Mn and 0.042 parts by weight or more and 0.850 parts by weight or less of Bi on a metal basis relative to 100 parts by weight of the metal oxide, wherein the piezoelectric ceramic includes a plurality of first crystal grains having a perovskite structure, and a plurality of second crystal grains provided at a grain boundary between the first crystal grains and having a crystal structure different from that of the first crystal grain, and the second crystal grain mainly contains at least one metal oxide selected from Ba4Ti12O27 and Ba6Ti17O40. (Ba1-xCax)a(Ti1-yZry)O3??(1) (where 0.09?x?0.30, 0.025?y?0.085, 0.986?a?1.