JP2008008230A5 - - Google Patents

Claims (20)

A housing containing first, second, third and fourth chambers and containing gas;
Forming the first and second chambers arranged in the vertical direction by partitioning the inside of the housing, and applying a pressure change to the gas by the vibration;
Forming the third and fourth chambers arranged in the vertical direction by partitioning the inside of the housing, and applying a pressure change to the gas by the vibration;
A first flow path group communicating with the first chamber; a second flow path group communicating with the second chamber and arranged in a horizontal direction so as to be aligned with the first flow path group; A third flow path group communicating with the third chamber; a fourth flow path group communicating with the fourth chamber and arranged to line up with the third flow path group in the horizontal direction; And a nozzle body that discharges the gas from the first, second, third, and fourth flow path groups by the pressure change. The jet generator according to claim 1,
The jet generator according to claim 1, wherein the first and second vibrating bodies vibrate in the same phase. The jet generator according to claim 1,
The jet generator according to claim 1, wherein the first and second vibrating bodies vibrate in opposite phases. The jet generator according to claim 3,
The first flow path group and the fourth flow path group are arranged so as to be aligned in the vertical direction, and the second flow path group and the third flow path group are aligned in the vertical direction. Arranged side by side,
The jet generator is
Provided in the nozzle body, at least among the first flow path group and the fourth flow path group, and between the second flow path group and the third flow path group. A jet flow generating device further comprising a partition plate arranged on one side. A housing containing first, second, third and fourth chambers and containing gas;
Forming the first and second chambers arranged in the vertical direction by partitioning the inside of the housing, and applying a pressure change to the gas by the vibration;
Forming the third and fourth chambers arranged in the vertical direction by partitioning the inside of the housing, and applying a pressure change to the gas by the vibration;
A first flow path group communicating with the first chamber; a second flow path group communicating with the second chamber; and a third flow path communicating with the third chamber and in the horizontal direction. A third flow path group arranged in line with the group, a fourth flow path group in communication with the fourth chamber, and arranged in line with the second flow path group in the horizontal direction; And a nozzle body that discharges the gas from the first, second, third, and fourth flow path groups by the pressure change. The jet generator according to claim 5,
The jet generator according to claim 1, wherein the first and second vibrating bodies vibrate in the same phase. The jet generator according to claim 5,
The jet generator according to claim 1, wherein the first and second vibrating bodies vibrate in opposite phases. The jet generator according to claim 7,
The first flow path group and the second flow path group are arranged so as to be aligned in the vertical direction, and the third flow path group and the fourth flow path group are in the vertical direction. Arranged side by side,
The jet generator is
Provided in the nozzle body, at least among the first flow path group and the second flow path group, and between the third flow path group and the fourth flow path group. A jet flow generating device further comprising a partition plate arranged on one side. A housing containing first, second, third and fourth chambers and containing gas;
Forming the first and second chambers arranged in the vertical direction by partitioning the inside of the housing, and applying a pressure change to the gas by the vibration;
Forming the third and fourth chambers arranged in the vertical direction by partitioning the inside of the housing, and applying a pressure change to the gas by the vibration;
A first flow path group communicating with the first chamber; and a second flow path group communicating with the second chamber; and from the first and second flow path groups due to the pressure change. A first nozzle body for discharging the gas in a first direction;
A third flow path group communicating with the third chamber; and a fourth flow path group communicating with the fourth chamber; and from the third and fourth flow path groups by the pressure change. And a second nozzle body for discharging the gas in a second direction different from the first direction. A housing containing first, second, third and fourth chambers and containing gas;
Forming the first and second chambers arranged in the vertical direction by partitioning the inside of the housing, and applying a pressure change to the gas by the vibration;
Forming the third and fourth chambers arranged in the vertical direction by partitioning the inside of the housing, and applying a pressure change to the gas by the vibration;
A first flow path group arranged in the uppermost row, communicating with the first chamber, and a second flow path from the uppermost row, lined up with the first flow path group, communicating with the second chamber. A second flow path group arranged in such a manner as to communicate with the third chamber, and a third flow path arranged to line up with the first flow path group in the third row from the top row A fourth channel group that communicates with the fourth chamber and is arranged so as not to overlap the first channel group in the fourth column from the uppermost column in the up-down direction. A nozzle body for discharging the gas from the first, second, third and fourth flow path groups by the pressure change;
A first partition plate provided between the first flow path group and the second flow path group;
A jet flow generating device comprising: a second partition plate provided between the third flow path group and the fourth flow path group. A housing containing first, second, third and fourth chambers and containing gas;
Forming the first and second chambers arranged in the vertical direction by partitioning the inside of the housing, and applying a pressure change to the gas by the vibration;
Forming the third and fourth chambers arranged in the vertical direction by partitioning the inside of the housing, and applying a pressure change to the gas by the vibration;
The first channel group that communicates with the first chamber and communicates with the first flow path group arranged in the uppermost row, the second chamber, and the third chamber, and the first channel in the second row from the uppermost row. A second flow path group arranged so as to be aligned with the flow path group, and communicated with the fourth chamber, in the vertical direction with respect to the first flow path group in the third row from the top row. A third flow path group arranged so as not to overlap, and a nozzle body that discharges the gas from the first, second, third and fourth flow path groups by the pressure change,
A first partition plate provided between the first flow path group and the second flow path group;
A jet flow generator comprising: a second partition plate provided between the second flow path group and the third flow path group. The first, second, third, and fourth chambers are provided inside, and the first and second chambers arranged in the vertical direction by partitioning the inside of the housing from the housing containing gas. Forming a chamber, and forming the third and fourth chambers arranged in the vertical direction by partitioning the inside of the housing with a first vibrating body that changes the pressure of the gas by the vibration; A nozzle body for use in a jet generating device comprising: a second vibrating body that applies a pressure change to the gas by the vibration;
A first flow path group communicating with the first chamber and discharging the gas by the pressure change;
A second flow path group that communicates with the second chamber and is arranged to be aligned with the first flow path group in a horizontal direction and discharges the gas by the pressure change;
A third flow path group communicating with the third chamber and discharging the gas by the pressure change;
A fourth flow path group that communicates with the fourth chamber and that is arranged to be aligned with the third flow path group in the horizontal direction and that discharges the gas by the pressure change. Nozzle body. The jet generator according to claim 12,
The first flow path group and the fourth flow path group are arranged so as to be aligned in the vertical direction, and the second flow path group and the third flow path group are aligned in the vertical direction. Arranged side by side,
A partition plate disposed in at least one of the first flow path group and the fourth flow path group and between the second flow path group and the third flow path group. A nozzle body further comprising: The first, second, third, and fourth chambers are provided inside, and the first and second chambers arranged in the vertical direction by partitioning the inside of the housing from the housing containing gas. Forming a chamber, and forming the third and fourth chambers arranged in the vertical direction by partitioning the inside of the housing with a first vibrating body that changes the pressure of the gas by the vibration; A nozzle body for use in a jet generating device comprising: a second vibrating body that applies a pressure change to the gas by the vibration;
A first flow path group communicating with the first chamber and discharging the gas by the pressure change;
A second flow path group communicating with the second chamber and discharging the gas by the pressure change;
A third flow path group that communicates with the third chamber and is arranged so as to be aligned with the first flow path group in a horizontal direction, and discharges the gas by the pressure change;
A fourth channel group communicating with the fourth chamber and arranged in line with the second channel group in the horizontal direction and discharging the gas by the pressure change. Nozzle body. The jet generator according to claim 14,
The first flow path group and the second flow path group are arranged so as to be aligned in the vertical direction, and the third flow path group and the fourth flow path group are in the vertical direction. Arranged side by side,
A partition plate disposed in at least one of the first flow path group and the second flow path group and between the third flow path group and the fourth flow path group. A nozzle body further comprising: The first, second, third, and fourth chambers are provided inside, and the first and second chambers arranged in the vertical direction by partitioning the inside of the housing from the housing containing gas. Forming a chamber, and forming the third and fourth chambers arranged in the vertical direction by partitioning the inside of the housing with a first vibrating body that changes the pressure of the gas by the vibration; A nozzle body for use in a jet generating device comprising: a second vibrating body that applies a pressure change to the gas by the vibration;
A first channel group that communicates with the first chamber and is arranged in an uppermost row, and discharges the gas by the pressure change;
A second channel group that communicates with the second chamber and is arranged to line up with the first channel group in the second column from the top row, and discharges the gas by the pressure change;
A third channel group that communicates with the third chamber, is arranged to be aligned with the first channel group in the third column from the top row, and discharges the gas by the pressure change;
The fourth chamber communicates with the fourth chamber, is arranged in the fourth row from the top row so as not to overlap the first flow path group in the vertical direction, and discharges the gas by the pressure change. A channel group of
A first partition plate provided between the first flow path group and the second flow path group;
A nozzle body comprising: a second partition plate provided between the third flow path group and the fourth flow path group. The first, second, third, and fourth chambers are provided inside, and the first and second chambers arranged in the vertical direction by partitioning the inside of the housing from the housing containing gas. Forming a chamber, and forming the third and fourth chambers arranged in the vertical direction by partitioning the inside of the housing with a first vibrating body that changes the pressure of the gas by the vibration; A nozzle body for use in a jet generating device comprising: a second vibrating body that applies a pressure change to the gas by the vibration;
A first channel group that communicates with the first chamber and is arranged in an uppermost row, and discharges the gas by the pressure change;
A second flow that communicates with the second chamber and the third chamber, is arranged to be aligned with the first flow path group in the second row from the uppermost row, and discharges the gas by the pressure change. Road groups,
The third chamber communicated with the fourth chamber, arranged in the third row from the top row so as not to overlap the first flow path group in the vertical direction, and discharges the gas by the pressure change. A channel group of
A first partition plate provided between the first flow path group and the second flow path group;
A nozzle body comprising: a second partition plate provided between the second flow path group and the third flow path group. A heating element;
A housing containing first, second, third and fourth chambers and containing gas;
Forming the first and second chambers arranged in the vertical direction by partitioning the inside of the housing, and applying a pressure change to the gas by the vibration;
Forming the third and fourth chambers arranged in the vertical direction by partitioning the inside of the housing, and applying a pressure change to the gas by the vibration;
A first flow path group communicating with the first chamber; a second flow path group communicating with the second chamber and arranged in a horizontal direction so as to be aligned with the first flow path group; A third flow path group communicating with the third chamber; a third flow path group communicating with the fourth chamber; and arranged to be aligned with the third flow path group in the horizontal direction. And a nozzle body that discharges the gas from the first, second, third, and fourth flow path groups toward the heating element by the pressure change. Electronic equipment characterized by A heating element;
A housing containing first, second, third and fourth chambers and containing gas;
Forming the first and second chambers arranged in the vertical direction by partitioning the inside of the housing, and applying a pressure change to the gas by the vibration;
Forming the third and fourth chambers arranged in the vertical direction by partitioning the inside of the housing, and applying a pressure change to the gas by the vibration;
A first flow path group communicating with the first chamber; a second flow path group communicating with the second chamber; and a third flow path communicating with the third chamber and in the horizontal direction. A third flow path group arranged in line with the group, a fourth flow path group in communication with the fourth chamber, and arranged in line with the second flow path group in the horizontal direction; And a nozzle body that discharges the gas from the first, second, third, and fourth flow path groups toward the heating element due to the pressure change. . A first heating element;
A second heating element;
A housing containing first, second, third and fourth chambers and containing gas;
Forming the first and second chambers arranged in the vertical direction by partitioning the inside of the housing, and applying a pressure change to the gas by the vibration;
Forming the third and fourth chambers arranged in the vertical direction by partitioning the inside of the housing, and applying a pressure change to the gas by the vibration;
A first flow path group communicating with the first chamber; and a second flow path group communicating with the second chamber; and from the first and second flow path groups due to the pressure change. A first nozzle body for discharging the gas in a first direction toward the first heating element;
A third flow path group communicating with the third chamber; and a fourth flow path group communicating with the fourth chamber; and from the third and fourth flow path groups by the pressure change. An electronic apparatus comprising: a second nozzle body that discharges the gas toward the second heating element in a second direction different from the first direction.