TH33315A - Equipment for producing high pressure in small fluids - Google Patents

Abstract

The most compact devices for the production of high pressure in fluids adopt stringent regulations in the manufacturing process. Equipment suitable for invention It consists of a hollow piston that is replaceable mounted in the cylinder and valve assembly. To be controlled by a hollow piston And has been assembled To be able to move along the axis relative to the hollow piston. Valve assembly Will be provided at one end of the internal center piston Or in front of the tip of a high-hollow ball, this device is applied in a mechanical-operated high-pressure atomizer. This device consists of two frames that will consist of Pump frame with spray nozzle Spring-loaded retaining mechanism Non-pressure regulating storage containers for fluid. And a single machined mechanical platform in the spring frame The valve will work without force. It closes quickly and it gets a tight seal against high pressure. The aerosol sprayer is safe and simple to operate and conserve the environment. The fluid is determined to be accurately measured, for example a nebulizer. It will be used to produce inhaled aerosol of a liquid drug. Without gas driven at a pressure of 320 bar etc.

Claims (9)

Disclaimer (all) that will not appear on the advertisement page: 1. Structured equipment for fluid injection. Which the device will consist of a hollow cylindrical piston (17; 22; 28; 31,33) that can move in the cylinder (1) and provide a path (7) for the fluid flow. Where the hollow cylindrical piston has a wide section (20,33) at the end of the inlet or outlet. Which has a larger diameter than the inner diameter of the remaining hollow piston And the hollow piston has a sharp inner edge (19,24) at the end of the inlet or outlet. Configurable high-pressure (4) chamber inside the cylinder at the front of the piston and valve for operation without any reinforcement caused by the spring. And with valve assembly parts (18,23,29,37) with a designated sealing surface at the end of the inlet of the said apparatus and the valve assembly is regulated and attached in such a way that That can move axially within the center piston in the wide section of the said piston. Where the maximum diameter of the valve assembly is less than the inner diameter of the hollow piston over the width of the said piston and larger than the inner diameter of the rest of the hollow piston barrier trajectory (19; 27 ; 32) The various are arranged at the outer end of the wide section of the hollow piston to hold the valve assembly inside the hollow piston. The valve is closed when the support valve assembly is attached to the required sealing surface, and the valve is opened only when the support valve assembly is attached to the barrier path at the end of the port. The outlet of the wide section of the hollow piston 2. Equipment according to claim No. 1, where the valve assembly (18,23,29,37) is symmetrical according to uniaxial rotation. 3. Equipment according to Clause 1 or Clause 2. Where the valve assembly (18,23,29,37) will have a cylindrical shape 4. Equipment according to any of the above claims. Where at least one (30) groove has been provided in the barrier path. Or at least one groove (21) or one radial indentation (27,28) in the valve assembly at the end of the outlet of the said apparatus. 5. Equipment according to one of the above claims Where the hollow cylindrical piston (17,22,28) has a wide section (20) at the outlet end and the barrier trajectory is in the inner sharp edge (19,24) at the end of the hollow piston outlet. 6. Equipment according to claim 1 to 4, where the hollow cylinder piston (31) has a wide section (33) at the end of the inlet of the said piston. The intended sealing surface is formed with a sharp inner edge at the end of the hollow piston inlet. A barrier path is provided at the outlet end of the wide section of the hollow piston. 7. Any equipment according to claim 1 to 4 where the hollow cylindrical piston (22) will have an internal sharp edge (24) at one end of the piston and its surrounding narrowing (25). ) Is located near the sharp edge of the hollow piston. The valve assembly (23) is regulated and attached in such a way that it can move within the hollow piston, located between the sharp edge (24) and the surrounding stenosis (25), and the valve assembly has a groove (27). ) Located in the area of the end of the outlet port of the said piston. 8. The device according to claim 7, where the hollow cylindrical piston (22,28) will have an internal sharp edge (24) at the end of the outlet of the said piston in a barrier manner. And the surrounding stenosis (25) located in the area of the sharp edge at the end of the outlet of the hollow cylinder piston. 9. Equipment according to claim 7, where the hollow cylindrical piston has an internal sharp edge at the end of the piston inlet in a manner that is surface for a predetermined sealing and its recoil. The surrounding is arranged in the immediate vicinity of the sharp edge at the end of the hollow piston inlet as a barrier 1 0. Any equipment according to Clause 1 to 4. Where the hollow cylindrical piston has one peripheral narrowing at a certain distance from the end of the hollow piston outlet as a barrier. And the second surrounding stenosis between the first stenosis section and the inlet end of the hollow piston in such a way that the sealing surface is required and the valve assembly is regulated and achieved. Get articulated in such a way that it can move axially between the two sections. 1 1. Any equipment according to claim 7 or claim No. 10. Where the end of the hollow piston inlet is provided with a replacement body (26) with holes for axial protrusion. The body for such a replacement is located inside and is fixed to the hollow piston. And if so good then It should be extended to the surrounding stenosis (25), which is adjacent to the end of the inlet of the hollow piston 1 2. Any equipment according to claim 7 or claim No. 10, where the end The hollow piston outlet is provided with a replacement body that has a hole for axial protrusion. The body for this replacement will be articulated inside and connected to the hollow piston. It should be extended to the surrounding stenosis adjacent to the end of the hollow piston outlet 1 3. Any equipment according to claims 1 to 4, where the hollow cylinder piston (31) is wide. (33) is at the end of the inlet of such piston, and, as an alternative way, a tube (32), having a body for replacement, is in the unfastened portion of the hollow piston. The widened end of the hollow piston will be provided with The closed assembly (34) that is connected and which will consist of a flat or conical concave section (35) with a hole (36), the valve assembly (37) is regulated and is mounted in Characteristics that can move axially are in the concave part. The valve assembly is optionally provided at the end of the piston outlet, with a slit (38) groove or notch. Had mentioned one of the above Where the designated sealing surface is the end surface of the valve assembly. 1 5. Aerosol sprayer for atomizing fluid. It consists of the top frame (51), the bottom frame (70), the spring frame (68), the pump frame (52), the spray nozzle (54), the blocking mechanism (62) and the storage container (71). ), It has been characterized that the pump housing (52) will be installed in the upper frame (51), and at one end there is a nozzle assembly with a spray nozzle ( 54) The nebulizer shall consist of a device according to claim 1, consisting of a hollow piston (57) with valve assembly (58) in accordance with claims 1 to 11. The propulsion fins (56), which have a hollow piston, are bolted inside. It is positioned in the top frame (51), the blocking mechanism or the bolt entry mechanism (62) is positioned in the top frame. The spring loaded frame (68) is positioned in the lower frame. Which has been coupled to a rotating frame on the top with a rotating bearing device. The lower frame (70) is attached to the spring frame in the axial direction 1 6. A nebulizer for spraying the fluid in accordance with claim 15, where the hollow piston (57 ) With valve assembly (58), in accordance with claims 1 through 11, are partially extended into the cylinder of the pump housing and attached in such a way that it can move axially in the cylinder 1 7. The injection machine Aerosol according to either claim 15 or 16, where the barrier mechanism is in the form of a spiral pressure gear with a blocking element (62), which is positioned in the frame. Tubular form with interlocking surface and bottom for activation (64) 1 8. Aerosol nebulizer according to Clause 15 to 17, where the mechanical resistor is The spindle (74) and the slider (76) are articulated on the spring frame (67) located in the area of the outer surface. And the axis of such axis extends parallel to the axis of the spring frame 1. 9. Aerosol spray machine according to Clause 15 to 18, where the nozzle assembly (54) will consist of two. Glass and / or silicone pads That have been tightly connected together At least one of the panels will contain one or more vents that have been small structured. Which connect the end of the nozzle inlet and the end of the nozzle outlet And at the end of the nozzle outlet there will be at least one opening. The hydraulic diameter is less than or equal to 10 UM 2 0. Nebulizer according to claim 19, where at least the nozzle assembly (54) has two openings. The nozzles are located at the end of the outlet, the directions of spraying are relative to each other. It converges near the nozzle opening. 2. 1. Aerosol sprayer according to Clause 15 to 20, either where the anti-flow valve is attached in The pump housing between the nozzle opening and the high pressure chamber of the cylinder 2 2. The nebulizer according to Clause 15 to 21, either where the hollow piston (57) will support a pressure of 5 to 60. Mpa (approx. 50 to 600 bar) on fluid at the end to be articulated to the nozzle, i.e. at the high pressure end of the nozzle at the moment of actuation of the button (64) for loosening the received spring. Compression (68) 2 3. Aerosol sprayer according to claim 22, where the hollow piston (57) will support a pressure of 10 to 60 Mpa (approx. 100 to 600 bar) on the fluid at the end at Is attached to the nozzle, that is, at the high-pressure end of the nozzle at the moment of actuation of the button (64) for the release of the compressed spring (68). Either claim 15 or 23 where a replaceable storage container (71) for the placed fluid In the section for separating the lower frame (70) 2 5. Aerosol dispenser according to Clause 15 or 24, one of the storage containers (71) for the fluid. Will be prepared The container will contain the modified mixture 2. 6. Aerosol sprayer according to Clause 15 or 25, whichever is the storage container (71) will include. Solutions for acceptable improvement of clinical characteristics were selected from a group consisting of birotac berodealflunisolide, atrovensalbutamolbut. Suitable desonide compound, thiotrophobic oxidant and peptides 2 7. Aerosol nebulizer according to Clause 15 or 26. Which has been used for the manufacture of medical nebulization without gas for stimulation. 2. 8. Aerosol nebulizer according to Clause 15 to 27, any one. For spraying liquids at very high pressure. It includes a pump for the pressure of a defined volume of liquid. And released through a spray nozzle The pump is composed of a cylinder (52) and a piston (57), which can move back and forth. The piston is annular and provides a path of flow into the cylinder above the first end of the piston and which is then provided with a one-way valve. Liquid container (71) with a top surface, membrane, barrier, or cover of a flexible material that is perforated by the other end of the piston to allow fluid to flow from the container the entire length. Of the piston into the cylinder in the suction stroke The piston and the container will be installed together when the pump starts. And the path for making the pump moves back and forth for making the piston relative motion to each other on the cylinder 2. 9. Aerosol dispenser according to claim 28, where the second end of the piston is indicated for stabbing Preliminary filing of the flexible top surface, membranes, separators or container covers 3 0. Aerosol dispenser according to claim 29, where the path for the pump to move back and forth. It is assembled with a spring-supported flange (56) or other assembly. Located on the piston like a spring (68) that keeps the pump running in the direction for compression. And a way for pulling the spring when the pump starts running in the direction for suction in 3 1. Aerosol sprayer according to claim 30, where the spring tensioning path (68) is assembled by a spiraled saw-tooth cam actuated by a rotation of part (51) of the sprayer. Relative aerosol with one another (70) 3 2. Aerosol spray in accordance with Clause 30 or 31, any one where the path for making the pump moves back and forth It is assembled with hand operated notches for fastening the springs. Temporarily to be in a karmic state before releasing the pressurized fluid 3 3. Aerosol sprayer according to any of Clause 28 to 32. Which has been applied to liquids being pressurized to a minimum pressure of 5 Mpa (approx. 50 bar) 3 4.Nebulizer according to any of Clause 15 to 24. This is a quantified inhaler for use for generating liquid aerosol for inhalation into the lungs. Liquid droplets having an average mass of not more than 12 μm 3 5. Back-and-forth motion pumping equipment for the high-pressure fluidization of liquids, including equipment corresponding to claims 1 to 14. Which has also been made a special feature that A cylindrical hollow piston (17,22,28) is able to move in the cylinder (1). The piston always provides a path for the fluid to pass through. The high-pressure chamber (4) is positioned on the piston side of the cylinder and is transported by fluid through that path. And one-way flow valve assembly (18,23,29) in the said fluid path. To move with the piston Instead, it can be controlled with limited axial movement. The piston is between the closed position in contact with the valve body, which is provided with the piston and the open position, which is spaced. Away from the valve seat. The valve assembly (18,23,29) is deformed and regulated in such a way that it cannot rotate around the axial axis to the piston axis, thus the defined surface of the The components will be connected to the platform 3. 6. Pump devices for back-and-forth movement in accordance with claim 35, where the valve assembly (37) is generally cylindrical in shape. And is articulated at the front end of the hollow piston (31) .The active area of the valve seat is essentially identical with the piston area of the piston rod hole 3 7. Pumping device for back-and-forth movement in accordance with claim 36, where the valve body (36) is conical 3. 8. Aerosol sprayer according to one of Clause 28 to 34. Which will be assembled together with any of the rights clauses 35 to 37 3 9. Nebulizer according to any Clause 15 to 34 and 38. Which has the nozzle assembly (54) and the filter (55) on the front of the nozzle.