Air compressor having a pneumatic controller for controlling output air pressure
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16K-031/163
F16K-031/124
출원번호
UP-0941326
(2007-11-16)
등록번호
US-7789102
(2010-09-27)
발명자
/ 주소
Beckman, Kurt
출원인 / 주소
Mat Industries LLC
대리인 / 주소
Greer, Burns & Crain, Ltd.
인용정보
피인용 횟수 :
3인용 특허 :
43
초록▼
An air compressor utilizing an electronic control system. A pneumatically controlled regulator is provided for controlling output pressure for an air compressor. Digital gauges are provided on the air compressor to replace conventional mechanical gauges. A variable speed motor is used, which in turn
An air compressor utilizing an electronic control system. A pneumatically controlled regulator is provided for controlling output pressure for an air compressor. Digital gauges are provided on the air compressor to replace conventional mechanical gauges. A variable speed motor is used, which in turn varies the speed of the pump. Tools are provided for an air compressor that are capable of transmitting a signal to the air compressor indicating a desired pressure and/or motor speed at which the air compressor is to operate.
대표청구항▼
What is claimed is: 1. An air compressor comprising: an air storage tank, a motor, a pump driven by the motor and arranged to pump air into the air storage tank, a controller arranged to control the operation of the motor, a user interface arranged to permit a user to enter data to be used by the c
What is claimed is: 1. An air compressor comprising: an air storage tank, a motor, a pump driven by the motor and arranged to pump air into the air storage tank, a controller arranged to control the operation of the motor, a user interface arranged to permit a user to enter data to be used by the controller and to display data to the user, an air outlet line arranged to conduct air from the air storage tank to a point of utilization, a regulator positioned between the air storage tank and the air outlet line to regulate the pressure of the air in the air outlet line, a pneumatic controller arranged to control the regulator, the pneumatic controller comprising a first controller valve operated by a first solenoid positioned in a controller air passage extending between the air storage tank and the regulator, a first pressure sensor positioned in the controller air passage between the air storage tank and the first controller valve, a second pressure sensor positioned in the controller air passage between the first controller valve and the regulator, a second controller valve operated by a second solenoid positioned between an air outlet and a portion of the controller air passage extending between the first controller valve and the regulator, the regulator comprising a hollow cylinder containing a free floating piston, a first air inlet in the cylinder connected to the controller air passage extending between the first controller valve and the regulator, the first air inlet being arranged on a first side of the free floating piston, a regulator valve opening in the cylinder on a second, opposite side of the free floating piston, the regulator valve opening leading to an air inlet conduit communicating with the air tank, a movable regulator valve member spring loaded against the regulator valve opening, a shaft extending from the second, opposite side of the free floating piston towards the movable regulator valve member, the shaft being hollow and providing an air communication path from the first side of the free floating piston to the second, opposite side of the free floating piston, the free floating piston being movable within the cylinder to allow the shaft to move between a position where it is free from engagement with the regulator valve member and a position where it engages against the regulator valve member and unseats the regulator valve member from the regulator valve opening to provide a communication path between the air inlet conduit and the cylinder, and an opening in the cylinder on the second, opposite side of the free floating piston communicating with the air outlet line, wherein the user via the user interface, may input a pressure value for an air pressure to be supplied at the air outlet line from the air tank, wherein the controller receives a signal from the second pressure sensor and operates the first solenoid to open the first controller valve to admit air from the air tank to the regulator when the second pressure sensor indicates a pressure in the controller air passage below the pressure value input by the user and operates the second solenoid to open the second controller valve to discharge air from the controller air passage to the air outlet when the second pressure sensor indicates a pressure in the controller air passage above the pressure value input by the user, thereby maintaining a pressure in the controller air passage substantially that of the pressure value input by the user, and wherein the air pressure in the controller air passage acts on the free floating piston to open the movable regulator valve member when the air pressure in the controller air passage is above the air pressure in the portion of the cylinder communicating with the air outlet line, and the spring acting on the movable regulator valve member to close the movable regulator valve member when the air pressure in the portion of the cylinder communicating with the air outlet line is above the air pressure in the controller air passage. 2. The air compressor according to claim 1, wherein the user interface includes a digital display for displaying selected output pressure of the regulator and pressure of the tank, and a switch for permitting the user to toggle between a display of the selected output pressure and a display of the pressure of the tank. 3. The air compressor according to claim 1, wherein the user interface comprises a plurality of preset buttons permitting the user to select one of a plurality of preset pressure levels upon pressing of one of the buttons. 4. An air compressor comprising: an air storage tank, a motor, a pump driven by the motor and arranged to pump air into the air storage tank, a controller arranged to control the operation of the motor, a user interface arranged to permit a user to enter data to be used by the controller and to display data to the user, an air outlet line arranged to conduct air from the air storage tank to a point of utilization, a regulator positioned between the air storage tank and the air outlet line to regulate the pressure of the air in the air outlet line, a pneumatic controller arranged to control the regulator, the pneumatic controller comprising a first controller valve positioned in a controller air passage extending between the air storage tank and the regulator, a pressure sensor positioned in the controller air passage between the first controller valve and the regulator, a second controller valve positioned between an air outlet and a portion of the controller air passage extending between the first controller valve and the regulator, the regulator comprising a hollow cylinder containing a free floating piston, a first air inlet in the cylinder connected to the controller air passage extending between the first controller valve and the regulator, the first air inlet being arranged on a first side of the free floating piston, a regulator valve opening in the cylinder on a second, opposite side of the free floating piston, the regulator valve opening leading to an air inlet conduit communicating with the air tank, a regulator valve member movable between a closed position where the regulator valve member is engaged against the regulator valve opening and an open position where the regulator valve member is spaced from the regulator valve opening, a shaft extending from the second, opposite side of the free floating piston towards the movable regulator valve member, the shaft being hollow and providing an air communication path from the first side of the free floating piston to the second, opposite side of the free floating piston, the free floating piston being movable within the cylinder to allow the shaft to move between a position where it is free from engagement with the regulator valve member and a position where it engages against the regulator valve member and unseats the regulator valve member from the regulator valve opening to provide a communication path between the air inlet conduit and the cylinder, and an opening in the cylinder on the second, opposite side of the free floating piston communicating with the air outlet line, wherein the user via the user interface, may input a pressure value for an air pressure to be supplied at the air outlet line from the air tank, wherein the controller receives a signal from the pressure sensor and operates to open the first controller valve to admit air from the air tank to the regulator when the pressure sensor indicates a pressure in the controller air passage below the pressure value input by the user and operates to open the second controller valve to discharge air from the controller air passage to the air outlet when the pressure sensor indicates a pressure in the controller air passage above the pressure value input by the user, thereby maintaining a pressure in the controller air passage substantially that of the pressure value input by the user, and wherein the air pressure in the controller air passage moves the free floating piston towards the regulator valve member to move it to the open position when the air pressure in the controller air passage is above the air pressure in the portion of the cylinder communicating with the air outlet line and the air pressure in the portion of the cylinder communicating with the air outlet line moves the free floating piston away from the regulator valve member to allow it to move to the closed position when the air pressure in the portion of the cylinder communicating with the air outlet line is above the air pressure in the controller air passage. 5. The air compressor according to claim 4, wherein the first controller valve is operated by a solenoid. 6. The air compressor according to claim 4, wherein the second controller valve is operated by a solenoid. 7. The air compressor according to claim 4, wherein the movable regulator valve member is biased by a spring against the regulator valve opening. 8. The air compressor according to claim 7, wherein the spring acts on the movable regulator valve member to close the movable regulator valve member when the air pressure in the portion of the cylinder communicating with the air outlet line is above the air pressure in the controller air passage. 9. The air compressor according to claim 4, including an additional pressure sensor positioned in the controller air passage between the air storage tank and the first controller valve. 10. The air compressor according to claim 4, wherein the user interface includes a digital display for displaying selected output pressure of the regulator and pressure of the tank, and a switch for permitting the user to toggle between a display of the selected output pressure and a display of the pressure of the tank. 11. The air compressor according to claim 4, wherein the user interface comprises a plurality of preset buttons permitting the user to select one of a plurality of preset pressure levels upon pressing of one of the buttons.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (43)
Beckman,Kurt, Air compressor tools that communicate with an air compressor.
Tloczynski James J. (Parma OH) Budzol Melvin (Schaumburg IL) Ahola Clifford J. (Cleveland OH) Rine James C. (Lake City FL), Comminuting apparatus with fluid cylinder rotor and stator biasing.
Pagnon Alain (Bourg les Valence FRX), Electronically controlled pneumatic pressure regulator and method for the regulation of the pressure of a fluid using su.
Sundblom Leif J. (Castro Valley CA) Rogers Daniel D. (Berkeley CA) Rogers Wayne W. (Napa CA), Variable pneumatic output means for use with ophthalmic micro-surgical instruments.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.