A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
To provide an injector capable of implementing an ideal low pressure injection while grasping the amount of usage of a fluidity repair material.SOLUTION: The injector comprises an injection mechanism IN, a pressure accumulation mechanism TN which is branched from between a connection port CP and an injection port IP in the injection mechanism IN and into which a fluidity repair material L supplied via the connection port CP flows to compress gas G inside and a flow channel switch mechanism SW for communicating only between a feeder GG and the pressure accumulation mechanism TN in the state where the feeder GG is connected with the connection port CP, and communicating between the pressure accumulation mechanism TN and the injection port IP in the state where the feeder GG is removed from the connection port CP.SELECTED DRAWING: Figure 5
【課題】理想とされる低圧注入を実現できるとともに、流動性補修材の使用量が把握できる注入器を提供する。【解決手段】注入機構INと、前記注入機構INにおいて接続口CPと注入口IPの間から分岐しており、前記接続口CPを介して供給される流動性補修材Lが流入して内部の気体Gが圧縮される蓄圧機構TNと、前記接続口CPに前記供給器GGが接続されている状態では、前記供給器GGと前記蓄圧機構TNとの間のみを連通させ、前記接続口CPから前記供給器GGが取り外されている状態では、前記蓄圧機構TNと前記注入口IPとの間を連通させる流路切替構造SWを備えた。【選択図】図5
To provide an injector capable of implementing an ideal low pressure injection while grasping the amount of usage of a fluidity repair material.SOLUTION: The injector comprises an injection mechanism IN, a pressure accumulation mechanism TN which is branched from between a connection port CP and an injection port IP in the injection mechanism IN and into which a fluidity repair material L supplied via the connection port CP flows to compress gas G inside and a flow channel switch mechanism SW for communicating only between a feeder GG and the pressure accumulation mechanism TN in the state where the feeder GG is connected with the connection port CP, and communicating between the pressure accumulation mechanism TN and the injection port IP in the state where the feeder GG is removed from the connection port CP.SELECTED DRAWING: Figure 5
【課題】理想とされる低圧注入を実現できるとともに、流動性補修材の使用量が把握できる注入器を提供する。【解決手段】注入機構INと、前記注入機構INにおいて接続口CPと注入口IPの間から分岐しており、前記接続口CPを介して供給される流動性補修材Lが流入して内部の気体Gが圧縮される蓄圧機構TNと、前記接続口CPに前記供給器GGが接続されている状態では、前記供給器GGと前記蓄圧機構TNとの間のみを連通させ、前記接続口CPから前記供給器GGが取り外されている状態では、前記蓄圧機構TNと前記注入口IPとの間を連通させる流路切替構造SWを備えた。【選択図】図5
INJECTOR
注入器
HARA TAKUMA (author)
2021-06-17
Patent
Electronic Resource
Japanese
IPC:
E04G
SCAFFOLDING
,
Baugerüste