JP2007253036A5 - - Google Patents

Claims (18)

Each of the fluid flowing through the at least two supply line a fluid mixing apparatus for mixing at any ratio,
At least one supply line (1) of the supply lines (1, 2) includes a first flow rate measuring device (3) that measures the actual flow rate of the fluid, converts the measured value of the actual flow rate into an electrical signal, and outputs the electrical signal. And
At least one other supply line (2) of the supply lines (1, 2) includes a fluid control valve (5) for controlling the pressure of the fluid by the pressure operation of the control fluid, and measures the actual flow rate of the fluid. A second flow rate measuring device (4) for converting the measured value of the actual flow rate into an electrical signal and outputting it,
Based on the deviation between the actual ratio between the measured value of the actual flow rate of the first flow rate measuring device (3) and the measured value of the actual flow rate of the second flow rate measuring device (4) and the set ratio, the fluid control valve And a control unit (6) for outputting a command signal for controlling the opening area of (5) to the fluid control valve (5) or a device for operating the fluid control valve (5). Fluid mixing device. Each said supply line of a fluid mixing apparatus according to claim 1, characterized by comprising on-off valve for opening or interrupting the flow of fluid (14) at least one further. Each said supply line of a fluid according to claim 1 or claim 2 flow rate of the fluid by changing the opening area is characterized by comprising at least one further adjustable throttle valve (25) Mixing equipment. Supply line is, claims 1, characterized in fluid control valve for controlling the pressure of the fluid by a pressure operation of the control fluid (32) that it comprises at least one further having the first flow rate measuring device 4. The fluid mixing apparatus according to any one of 3 above. The merging portion (10) of the supply lines (1, 2) is provided on the most downstream side of each of the supply lines (1, 2), according to any one of claims 1 to 4. The fluid mixing device as described. The merging unit immediately prior to the supply line, on-off valve (40, 41) is a fluid mixing apparatus according to claim 5, characterized in that disposed respectively. The merging portion, a fluid mixing device according to claim 5, characterized in that the manifold valve (42) for combining the supply line to the one flow path. A main line off valve connected to a most upstream side of any one of the supply lines in each said supply line of the (535a) is provided,
And at least one other line provided with an on-off valve (536a) connected to the most upstream side of the other supply line,
A flushing device (43) is provided in which the upstream side of the on-off valve (535a) of the main line and the downstream side of the on-off valve (536a) of at least one other line are communicated via the on-off valve (537a). The fluid mixing device according to any one of claims 1 to 7, wherein the fluid mixing device is configured as described above. The fluid mixing device according to any one of claims 1 to 8, wherein the various valves and the flow rate measuring device are directly connected without using independent connecting means. The fluid mixing device according to any one of claims 1 to 8, wherein the various valves and the flow rate measuring device are arranged in one base block. The fluid mixing device according to any one of claims 1 to 8, wherein the various valves and the flow rate measuring device are accommodated in a single casing. The fluid control valve
A second gap (209) provided open to the bottom at the center of the lower part, an inlet channel (211) communicating with the second gap (209), and a second gap ( 209) having a larger diameter than the first gap (210), the outlet channel (212) communicating with the first gap (210), the first gap (210), and the second gap (209). And a communication hole (213) having a diameter smaller than the diameter of the first gap (210), and the upper surface of the second gap (209) is a valve seat (214). )When,
A bonnet having a cylindrical gap (215) communicating with an air supply hole (217) and a discharge hole (218) provided on a side surface or an upper surface, and having a step portion (216) on the inner peripheral surface of the lower end (202)
A spring receiver (203) fitted into the step (216) of the bonnet (202) and having a through hole (219) at the center, and a first smaller diameter than the through hole (219) of the spring receiver (203) at the lower end. A piston (204) having a joint portion (224) and having a flange portion (222) provided in the upper portion and fitted into the gap (215) of the bonnet (202) so as to be movable up and down;
A spring (205) clamped and supported by the lower end surface of the flange (222) of the piston (204) and the upper end surface of the spring support (203);
The center where the peripheral portion is sandwiched and fixed between the main body (201) and the spring receiver (203) and covers the first gap (210) of the main body (201) to form the first valve chamber (231). The first diaphragm (227) having a thickened portion and the first joint (224) of the piston (204) through the through hole (219) of the spring receiver (203) are joined and fixed at the center of the upper surface. A first valve mechanism (206) having a second joint (229) and a third joint (230) provided through the communication hole (213) of the main body (201) in the center of the lower surface;
A valve body (232) positioned inside the second gap (209) of the main body and having a larger diameter than the communication hole (213) of the main body, and a first valve mechanism protruding from the upper end surface of the valve body (232) A fourth joint (234) to be joined and fixed to the third joint (230) of the body (206), a rod (235) provided protruding from the lower end surface of the valve body (232), and a lower part of the rod (235) A second valve mechanism (207) having a second diaphragm (237) provided extending in the radial direction from the end surface;
A protrusion (239) located below the main body (201) and sandwiching and fixing the peripheral edge of the second diaphragm (237) of the second valve mechanism (207) with the main body (201) at the upper center; A base plate (208) provided with a notch recess (240) at the upper end of the protrusion (239) and a breathing hole (241) communicating with the notch recess (240);
The opening area of the fluid control unit (242) formed by the valve body (232) of the second valve mechanism (207) and the valve seat (214) of the main body (201) as the piston (204) moves up and down. It is comprised so that it may change, The fluid mixing apparatus of any one of Claim 1 thru | or 11 characterized by the above-mentioned. The fluid control valve
A main body part (121) formed from an inlet channel (145) of fluid, an outlet channel (152), a chamber (127) in which the inlet channel (145) and the outlet channel (152) communicate with each other, and a valve body (165) and a valve member (136) having a first diaphragm portion (137), and a second diaphragm (138) which is located below and above the valve member (136) and has an effective pressure receiving area smaller than that of the first diaphragm portion (137). ) Portion and third diaphragm portion (139), the valve member (136) and each diaphragm portion (137, 138, 139) are the outer peripheral portions of each diaphragm portion (137, 138, 139), and the main body portion (121). Are fixed in the chamber (127), and the diaphragm portion (137, 138, 139) is attached to the chamber (127) by the first pressurizing chamber (128), It is divided into a two-valve chamber (129), a first valve chamber (130), and a second pressurizing chamber (131), and the first pressurizing chamber (128) is always inward with respect to the second diaphragm portion (138). The first valve chamber (130) is in communication with the inlet channel (145), and the second valve chamber (129) is the valve element (165) of the valve member (136). ) And a communication hole (162) provided on the first diaphragm portion (137) located on the first diaphragm portion (137) side with respect to the valve seat (150). A lower second valve chamber (132) communicating with the first valve chamber (130), and an upper second valve located on the second diaphragm portion (138) side and provided in communication with the outlet channel (152). The valve chamber (133) is formed separately, and the valve body (165) and the valve seat ( 50) and a fluid control part (168) in which the fluid pressure in the lower second valve chamber (134) is controlled by changing the opening area between the second pressurizing chamber (131) and the second diaphragm (131). The fluid mixing device according to any one of claims 1 to 11, further comprising means for constantly applying a constant inward force to the portion (139). The throttle valve (25)
A valve seat surface (252) is formed on the bottom surface of the valve chamber (253) provided in the upper portion, and an inlet channel (255) communicating with a communication port (254) provided in the center of the valve seat surface (252) A main body (251) having an outlet channel (256) communicating with the valve chamber (253);
The stem can be inserted into the communication port (254) by advancing and retreating in the axial direction, and can be contacted and separated from the first valve body (261) and the valve seat surface (252) projecting from the center of the liquid contact surface. A second valve body (262) having an annular ridge formed at a position separated from the valve body (261) in the radial direction and a thin film portion (263) formed continuously from the second valve body (262) in the radial direction. ) And the diaphragm (260) provided integrally,
A first stem (277) having a handle (281) fixed to the upper portion and having a female screw portion (278) on the lower inner peripheral surface and a male screw portion (279) having a pitch larger than the pitch of the female screw portion (278) on the outer peripheral surface. )When,
A first stem support (282) having a female threaded portion (283) threadedly engaged with a male threaded portion (279) of the first stem (277) on the inner peripheral surface;
A second stem (269) having a male screw portion (270) screwed to a female screw portion (278) of the first stem (277) on the upper outer peripheral surface and having a diaphragm (260) connected to the lower end portion;
A diaphragm retainer (271) that is positioned below the first stem support (282) and supports the second stem (269) so that it can move up and down and cannot rotate, and a first stem (277) and a diaphragm retainer (271) The fluid mixing device according to any one of claims 3 to 13, further comprising a bonnet (286) for fixing. The flow meter is an ultrasonic flow meter, Karman vortex flow meter, ultrasonic vortex flow meter, impeller flow meter, electromagnetic flow meter, differential pressure flow meter, positive displacement flow meter, hot wire flow meter or mass flow rate. fluid mixing device according to any one of claims 1 to 14, characterized in that in total. A fluid mixing device for mixing each fluid flowing in at least two supply lines in an arbitrary ratio,
Claims 1 to 2 kinds of fluids of hydrofluoric acid or hydrochloric acid and pure water, hydrofluoric acid or hydrochloric acid is pure water with respect to 1, characterized in that it is mixed in a ratio of 10 to 200 The fluid mixing device according to any one of 15 . A fluid mixing device for mixing each fluid flowing in at least three supply lines in an arbitrary ratio;
Ammonia water or hydrochloric acid, hydrogen peroxide water and pure water are mixed in a ratio of 1 to 5 for ammonia water or hydrochloric acid and 1 to 5 for hydrogen peroxide water and 10 to 200 for pure water. fluid mixing device according to any one of claims 1 to 15, characterized in the that the. A fluid mixing device for mixing each fluid flowing in at least three supply lines in an arbitrary ratio;
Three fluids of hydrofluoric acid, ammonium fluoride and pure water are mixed in a ratio of 7 to 10 for ammonium fluoride and 50 to 100 for pure water with respect to 1 for hydrofluoric acid. fluid mixing device according to any one of claims 1 to 15, characterized.