Pneumatic system for controlling a container-filling machine filling valve
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0630909
(1975-11-11)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- Horix Manufacturing Company
|
대리인 / 주소 |
Brown, Murray, Flick & Peckham
|
인용정보 |
피인용 횟수 :
8 인용 특허 :
0 |
초록
▼
Three fluidic control devices of special construction receive streams of air that are deflected to the atmosphere at predetermined intervals by means of jets of air controlled by valves and the liquid level in a container being filled as a filling machine moves through its cycle. At one point in the
Three fluidic control devices of special construction receive streams of air that are deflected to the atmosphere at predetermined intervals by means of jets of air controlled by valves and the liquid level in a container being filled as a filling machine moves through its cycle. At one point in the cycle, air pressure from one of the fluidic control devices causes the filling valve of the machine to open and remain open until a jet of control air is delivered to another of the fluidic control devices when the desired liquid level in the container is reached, whereupon those two control devices are vented to the atmosphere and the filling valve closes. If a container is not in filling position when it should be, there will be no blow-down through the level-sensing tube and the filling valve will not open.
대표청구항
▼
1. In a container-filling machine, a pneumatic pressure system for controlling the operation of means for opening a filling valve, the system comprising first and second and third fluidic control devices each provided with a control chamber and an output chamber connected by an orifice, each control
1. In a container-filling machine, a pneumatic pressure system for controlling the operation of means for opening a filling valve, the system comprising first and second and third fluidic control devices each provided with a control chamber and an output chamber connected by an orifice, each control chamber having an outlet to atmosphere and each output chamber having an air pressure outlet, each fluid control device having a pair of opposed inlets aligned with its orifice with one of said inlets opening into the control chamber and the other of said inlets opening into the output chamber, means for continuously delivering air under pressure to both inlets of each control device simultaneously to form air streams that normally meet in the output chamber to produce air pressure therein, a first conduit connecting the pressure outlet of the first control device with the control chamber of the second control device to direct a jet of air against the side of the air stream therein to deflect the stream to the outlet of the control chamber, a second conduit connecting the pressure outlet of the second control device with the control chamber of the first control device to direct a jet of deflecting air against the side of the air stream therein, a third conduit connecting the pressure outlet of the second control device with the control chamber of the third control device to direct a jet of deflecting air against the side of the air stream therein, a fourth conduit connecting the pressure outlet of the third control device with said valve-opening means to open the filling valve when there is sufficient air pressure in said fourth conduit, means for conducting air from said air-delivering means to the control chamber of the first control device to direct a jet of deflecting air against the side of the air stream therein while no container is in filling position, means operated by a container in filling position for stopping the jet of deflecting air from said conducting means, a normally closed valve for connecting said air delivering means with the control chambers of the second and third control devices and adapted to be opened while a container is in filling position to direct a pulse of deflecting air against the side of the air streams in the control chambers of the second and third control devices to shut off the flow of air through said second and third conduits and to direct a jet of air from said first conduit against the side of the air stream in the control chamber of the second control device, whereby only after said valve closes will air pressure be produced in the output chamber of the third control device to operate said filling valve opening means, and means for deflecting the air stream in the control chamber of the first control device as soon as a container is filled. 2. In a container-filling machine according to claim 1, the air pressure at said opposed inlets of the first control device being substantially lower than the air pressure at the opposed inlets of the third control device. 3. In a container-filling machine according to claim 1, means for reducing the air pressure at said opposed inlets of the first control device to a value substantially lower than the air pressure at the opposed inlets of the third control device. 4. In a container-filling machine according to claim 1, said air-delivering means including a variable restrictor for said first control device. 5. In a container-filling machine according to claim 1, said last-mentioned means including a level-sensing tube having an inlet and an outlet, the outlet of the sensing tube being insertable in the upper part of a container being filled, a fifth conduit connecting the air pressure outlet of the third control device with the inlet of the sensing tube for delivering a stream of air from the tube outlet during container filling, and a sixth conduit connecting the sensing tube inlet with the control chamber of the first control device to direct a pulse of deflecting air against the side of the air stream therein when rising liquid in a container closes the outlet of the sensing tube. 6. In a container-filling machine according to claim 5, the air pressure at said opposed inlets of the first control device being substantially lower than the air pressure at the opposed inlets of the third control device. 7. In a container-filling machine according to claim 5, means for delivering a pulse of air to the inlet of said sensing tube just before container filling starts to clean the tube, and a check valve between said fourth conduit and the inlet of the sensing tube to prevent said last-mentioned pulse of air from opening the filling valve.
이 특허를 인용한 특허 (8)
-
Piccinino, Jr., Ralph L.; Davis, Daniel C.; Grant, Ronald W., Chemical delivery system for use with a photographic processor and method of operation.
-
Piccinino, Jr., Ralph L.; Pagano, Daniel M., Dual groove photographic processing drum.
-
Piccinino, Jr., Ralph L.; Pagano, Daniel M.; Blakely, Kevin H., Photographic processing drum having a centrally located processing solution delivery system.
-
Piccinino, Jr., Ralph L., Photographic processing drum having a circular drying cylinder.
-
Piccinino, Jr., Ralph L., Photographic processing drum having a circular media holding cylinder and a linear dryer.
-
Piccinino, Jr., Ralph L.; Davis, Daniel C.; Grant, Ronald W., Processing solution delivery system having a supply tube and level detection sensor unit for use with a photographic processor.
-
Piccinino, Jr., Ralph L.; Grant, Jr., Ronald W., Queuing arrangement for photographic media to be scanned.
-
Benjamins Harm M. (Den Helder NLX), Radioisotope generator.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.