A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
SANITARY DEVICE
PROBLEM TO BE SOLVED: To efficiently discharge ion from a blowout port by restraining an ion generator from receiving thermal influence of a heater.SOLUTION: An air warmer 10 having an ion generator 11 is provided with an air-blowing passage 20 for partitioning a first air-blowing passage 22 and a second air-blowing passage 23 on the downstream side of a fan 15. The first air-blowing passage 22 is provided with an air-blowing cylindrical body 21 for storing a heater 16, and is formed in a tapering-off shape toward a front end opening from a rear end opening, and increases an air-blowing speed. The second air-blowing passage 23 diffuses blowing-air by forming in a divergent shape by deviating a side surface 21a of the air-blowing cylindrical body 21 of becoming a partition wall to the first air-blowing passage 22 side toward the front end side. The ion generator 11 positioned on the downstream side of the heater 16 is installed on the downstream side of the second air-blowing passage 23. An ion generated by an ion electrode 26 of the ion generator 11 is diffused by the blowing-air of the second air-blowing passage 23, and is discharged from a blowout port 18 by merging with the blowing-air of a main flow supplied from the first air-blowing passage 22.SELECTED DRAWING: Figure 5
【課題】イオン発生装置がヒータの熱影響を受けることを抑制してイオンを吹出し口から効率的に放出できる。【解決手段】イオン発生装置11を備えた温風機10は、ファン15の下流側に第一送風路22と第二送風路23を仕切った送風路20を設けた。第一送風路22はヒータ16を収納した送風筒体21を設け、後端開口から前端開口に向けて先細形状に形成し、送風速度を上昇させる。第二送風路23は前端側に向けて仕切り壁となる送風筒体21の側面21aを第一送風路22側に偏らせて末広がり状に形成し、送風を拡散させる。第二送風路23の下流側にヒータ16の下流側に位置するイオン発生装置11を設置した。イオン発生装置11のイオン電極26で発生したイオンは第二送風路23の送風によって拡散して第一送風路22から供給される主流の送風に合流させて吹出し口18から放出する。【選択図】図5
SANITARY DEVICE
PROBLEM TO BE SOLVED: To efficiently discharge ion from a blowout port by restraining an ion generator from receiving thermal influence of a heater.SOLUTION: An air warmer 10 having an ion generator 11 is provided with an air-blowing passage 20 for partitioning a first air-blowing passage 22 and a second air-blowing passage 23 on the downstream side of a fan 15. The first air-blowing passage 22 is provided with an air-blowing cylindrical body 21 for storing a heater 16, and is formed in a tapering-off shape toward a front end opening from a rear end opening, and increases an air-blowing speed. The second air-blowing passage 23 diffuses blowing-air by forming in a divergent shape by deviating a side surface 21a of the air-blowing cylindrical body 21 of becoming a partition wall to the first air-blowing passage 22 side toward the front end side. The ion generator 11 positioned on the downstream side of the heater 16 is installed on the downstream side of the second air-blowing passage 23. An ion generated by an ion electrode 26 of the ion generator 11 is diffused by the blowing-air of the second air-blowing passage 23, and is discharged from a blowout port 18 by merging with the blowing-air of a main flow supplied from the first air-blowing passage 22.SELECTED DRAWING: Figure 5
【課題】イオン発生装置がヒータの熱影響を受けることを抑制してイオンを吹出し口から効率的に放出できる。【解決手段】イオン発生装置11を備えた温風機10は、ファン15の下流側に第一送風路22と第二送風路23を仕切った送風路20を設けた。第一送風路22はヒータ16を収納した送風筒体21を設け、後端開口から前端開口に向けて先細形状に形成し、送風速度を上昇させる。第二送風路23は前端側に向けて仕切り壁となる送風筒体21の側面21aを第一送風路22側に偏らせて末広がり状に形成し、送風を拡散させる。第二送風路23の下流側にヒータ16の下流側に位置するイオン発生装置11を設置した。イオン発生装置11のイオン電極26で発生したイオンは第二送風路23の送風によって拡散して第一送風路22から供給される主流の送風に合流させて吹出し口18から放出する。【選択図】図5
SANITARY DEVICE
衛生装置
KOMATSU TOSHIHIKO (author) / WATANABE HIROAKI (author) / FURUYA YASUYUKI (author)
2017-11-02
Patent
Electronic Resource
Japanese
IPC:
E03D
WATER-CLOSETS OR URINALS WITH FLUSHING DEVICES
,
Wasserklosetts oder Urinale mit Spülvorrichtungen