RU2473858C1 - Pneumatic device for delivering materials as intended - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: pneumatic device consists of a launch pipe divided into two parts by a ball lock, a high-pressure chamber with a valve, a stabiliser and a loading compartment with material.

EFFECT: use of the invention increases reliability of operation, increases the range of injecting material and its mass, and cuts the delivery time of material.

3 dwg, 1 tbl

Description

The invention relates to the field of technology related to environmental safety, and can be used to deliver materials to a given point in space, as well as for conducting meteorological studies.

Known pneumatic starting device with destructible disk [1], which contains a storage tank with compressed air coming from a source; a starting tube is connected to the reservoir through a destructible disk. At a certain pressure value, the disk is destroyed and passes the released air to launch the projectile. The device allows repeated replacement of the disk after starting. Signs common with the claimed device are the presence of a launch tube and destructible disk, as well as the use of compressed air energy to deliver materials to the destination area. However, the known device will not allow for high accuracy and a sufficient range of the ejection of the material, since it does not have structural capabilities for placement and subsequent scattering of various materials.

Known pneumatic firing device [2], which contains a barrel, a source of compressed gas, a channel connecting the source of compressed gas to the barrel, a blocker and a valve. The blocker closes the channel connecting the source of compressed gas to the barrel. The valve is located outside the barrel, connected to a source of compressed gas and controls the blocker. When the valve is activated, the blocker opens the channel connecting the barrel with a source of compressed gas, which ensures the supply of compressed gas to the barrel and a shot. Signs common with the claimed device are the presence of a barrel — a launch tube and the use of compressed air or gas energy for firing shells. However, the known device has an insufficient range of ejection of the material and low efficiency of its dispersion, since it does not contain devices for placement and subsequent scattering of various materials.

A device for setting false targets [3], which is designed to eject material and setting aerosol formations from dipole reflectors. The device includes an upward-facing launch tube, in the lower part of which there is an opening for supplying high-pressure air, and a projectile consisting of two high-pressure chambers, one of which has a check valve, and the second chamber with a time delay function, is installed between them jet, and from the loading compartment with material, piston and cover. The projectile is fired through the upper end of the launch tube using high pressure air. Material is released from the projectile at a certain time after the shot and forms a cloud at a given height and predetermined distance, which allows you to create a false target and make it difficult to detect a real target for the enemy. Signs common with the claimed device are: the use of a launch tube that provides the equipment of the projectile with high pressure air and the subsequent direction of the projectile movement after the shot to the calculated point in space; the presence in the shell of a check valve, which allows you to create a supply of energy of compressed air and keep it sufficient to produce a spread of matter after a certain estimated time; the presence of a nozzle between high-pressure chambers and a piston device for ejecting material and the use of compressed air energy for firing and scattering materials at a given point in space. However, the known device has a limited range of material ejection (up to 100 m) and its limited mass; limited energy supply of compressed air for the ejection of material, which leads to a decrease in the efficiency of its dispersion, and also increases the distance of the aerosol cloud due to the long travel time of the ejecting piston with the material along the loading compartment of the projectile.

It is also known a device [4], with which the delivery of materials to the destination is carried out, which is closest to the claimed invention according to the technical result and the technical solution of the problem, adopted as a prototype. The device includes an upward-facing launch tube, in the lower part of which there is a hole for supplying high-pressure air, and a projectile consisting of a high-pressure chamber, the body of which is made in the form of a pipe segment, the bottom with a hole is tightly attached to the bottom, with a hole passing into the non-return valve seat , the top of the high-pressure chamber is hermetically closed by a lid, a check valve with a shutter and a spring is placed inside the high-pressure chamber, a loading compartment made in plastic is sealed to the cover of the charging chamber de cylindrical thin-walled shell, the rupture of which occurs at a certain air pressure, the high-pressure chamber communicates with the loading compartment through the nozzle, part of the internal volume of the loading compartment is filled with material for spreading. A stabilizer consisting of a cylindrical shell and folding blades, which are opened when the device leaves the launch tube, is attached to the lower part of the high-pressure chamber.

Common features with the claimed device are: the use of a launch tube that provides the projectile with high-pressure air and the subsequent direction of projectile movement after the shot (to deliver the material) to the calculated point in space; the presence of a check valve in the shell, which allows to create a reserve of energy of compressed air; the loading compartment is made in the form of a cylindrical thin-walled shell and filled with material; the presence of a stabilizer, as well as a nozzle between the high-pressure chamber and the loading compartment; the use of compressed air energy for the delivery and scattering of materials at a given point in space.

The disadvantages of the known device are: low reliability of its operation, limited (up to 500 m) range of material ejection and limited mass of the delivered material. The limited energy supply of compressed air for the ejection of material reduces the efficiency of its use, large shock loads on the check valve shutter during firing reduce its reliability.

The claimed invention is free from these disadvantages.

The technical result of the proposed device is to increase the reliability, the range of ejection of the material and increase its mass, reduce the time of ejection of the material and increase the efficiency of its dispersion.

The specified technical result is achieved by the fact that in the pneumatic device for the delivery of materials for the intended purpose in accordance with the claimed invention, the launch tube is divided into two parts by a ball lock, consisting of a housing with an annular cut, in which the balls are located in diameter, and an annular shutter with a groove for balls , dividing the housing into two sealed cavities, two grooves for balls and a seal are made along the diameter of the rear flange of the pressure chamber, and an inlet valve is installed along the axis of the flange, consisting of of the housing and the shutter with a spring, an inertial valve is installed on the front flange along the axis, consisting of a housing, a spring and a shutter that overlaps the nozzle and has a ball stop in the form of a transverse cylindrical cavity with a spring and balls, a piston shutter is installed in the lower part of the launch tube .

The essence of the claimed invention is illustrated in figure 1, which presents its diagram in section and two sections (figure 2).

The material delivery device, as can be seen from the diagram shown in Fig. 1, contains a launch tube 1, divided into two parts by a ball lock, consisting of a housing 2 with an annular cross-section, in which balls 3 are located in diameter, and an annular valve 4, which divides the housing into two sealed cavities. According to the diameter of the rear flange 5 of the high-pressure chamber 6, grooves are made for the balls 3 and the seal 7, an inlet 8 and an inlet valve are located on the axis, consisting of a housing 9, a shutter 10 and a spring 11. An inertial axis is installed along the axis of the front flange 12 of the high-pressure chamber 6 a valve consisting of a housing 13, a spring 14 and a shutter 15 with a ball stop made in the form of a transverse cylindrical cavity with a spring 16 and two balls 17. A loading compartment with material 18 is sealed to the front flange 12 of the high-pressure chamber 6, execution walled in the form of a thin-walled cylindrical shell. A nozzle 19 is installed between the high-pressure chamber 6 and the loading compartment with material 18. A stabilizer 20 with blades is rigidly fixed to the rear flange 5 of the high-pressure chamber 6. At the rear of the launch tube 1, a piston lock 21 is hermetically mounted.

The work of the proposed utility model is as follows. The launch tube 1 is installed in a horizontal position. The piston shutter 21 is unscrewed from the rear of the starting tube 1 and the starting device is inserted there. At the initial moment, the shutter 15 of the inertial valve overlaps the nozzle 19, due to the preload by the spring 14, while the ball stop is closed, and two balls 17 with the spring 16 are located inside the transverse cylindrical cavity of the shutter. Then the piston shutter 21 is twisted, which supports the starting device so that the groove of the rear flange 5 rises under the balls 3. In this case, the annular shutter 4 of the ball lock is located in its highest position, its groove is above the balls 3, and they are free to insert starter into the launch tube 1. After that, high pressure control air P ₁ is supplied to the upper sealed cavity of the ball lock housing 2, which leads to the movement of the shutter 4 all the way to the lowest position and locks balls 3 in the groove of the rear flange 5. Thus, the starter is clamped by balls 3 in the lower part of the start-up pipe 1. After this, compressed air of a given pressure P ₀ is supplied to the rear of the start-up pipe 1. At the same time, the shutter of the inlet valve 10 in the high-pressure chamber opens 6, and it is filled with high pressure air. At the same time, the rear cavity of the launch tube 1 is filled with high-pressure air, limited by the piston lock 21 and the rear flange 5 with the seal 7 of the high-pressure chamber 6. Upon completion of filling with compressed air to a predetermined pressure, its flow is shut off. The device as a whole is ready for shooting and delivery of materials. The launch tube is installed in a given direction and position to the horizon. To conduct the shot, high pressure control air P ₂ is supplied to the lower airtight cavity of the ball lock housing 2, which leads to the movement of the shutter 4 all the way to the highest position, while its groove is above the balls 3 and they release the rear flange 5. Designed for delivery the material is fired from the launch tube 1. At the same time, under the action of inertia forces and the inlet valve spring 11, the shutter 10 seals the inlet 8 in the high-pressure chamber 6. At the same time, the shutter of the inertial valve 15 will inertia move down and open the ball stop, the balls 18 under the action of the spring 16 will half come out of the cylindrical cavity and jam the shutter, which will open the nozzle 19, and high-pressure air will flow into the loading compartment with the material 18. When a certain value is reached air pressure in the loading compartment, a thin-walled cylindrical shell will burst and scatter the material at a given point. The time of air flow from the high-pressure chamber 6 to the loading compartment with the material is determined by the diameter of the nozzle 19, as well as the thickness and material of the thin-walled cylindrical shell, which allows you to provide a given range of material ejection.

Examples of specific implementations of the claimed device.

In the process of conducting theoretical and experimental studies of a pneumatic device for the delivery of materials, its optimal parameters were determined. Based on them, a workable layout was made. Testing the layout of the claimed invention was carried out in real time at the laboratory base of St. Petersburg State University.

The research results showed that by eliminating large shock loads on the check valve shutter during firing, increasing the energy supply of compressed air in a high-pressure chamber of a gas-dynamic delivery device, the claimed invention has higher reliability compared to the prototype due to the elimination of large shock loads on the shutter of the non-return valve when firing, by changing the design, and also allows you to significantly increase the range of delivery of the material and its mass compared to known bubbled devices about 2-3 times.

Table 1, as an example, shows the values of the casting distance of the material depending on the magnitude of the air pressure during emission.

Table 1 Air pressure (atm) 40 60 80 one hundred Range (m) 570 810 950 1120

The test results showed that the claimed pneumatic material delivery device can reduce the time of material ejection and increase the efficiency of its dispersion, by increasing the energy supply of compressed air in the high-pressure chamber of the gas-dynamic delivery device to almost 98% of the air pressure during firing (previously it did not exceed 50 %).

The technical and economic efficiency of the claimed device allows for high precision delivery of materials for the intended purpose, increases the reliability and efficiency of the device, which significantly expands the field of its applicability for solving various environmental problems, as well as achieving such applied goals as conducting meteorological studies, artificial dumping of avalanches, extinguishing fires, carrying out degassing and decontamination of the area; to localize the spread of oil stains on the surface of the water and other emergencies where it is necessary to exclude the presence of a person in a dangerous zone and ensure the delivery of material to disperse it in the destination zone.

Information sources

1. US patent No. 5365913 A from 11.22.94. Application No. 9393158 of 07.20.93.

2. US patent 5370033 A from 6.12.94. Application No. 93129726 from 09/30/93.

3. Patent No. WO 79/00658 of 09/06/79. Application No. PCT / SE 79/00039 of 02.22.79.

4. Patent No. 2304269 of 08/10/07. Application No. 2005140175 from 12.23.05 (prototype).

Claims (1)

Pneumatic device for the delivery of materials to the destination, containing a launch tube and a device consisting of a high-pressure chamber with a valve, a stabilizer and a loading compartment with material made in the form of a thin-walled cylindrical shell, a nozzle installed between them, characterized in that the launch tube is divided into two parts with a ball lock, consisting of a housing with an annular cut in which balls are located in diameter, and an annular shutter with a groove for balls dividing the housing into two airtight cavities , two grooves for balls and a seal were made along the diameter of the rear flange of the high-pressure chamber, and an inlet valve consisting of a body and a shutter with a spring was installed along the axis of the flange, an inertia valve consisting of a body, a spring, and a shutter having ball stop in the form of a transverse cylindrical cavity with a spring and balls; a piston lock is installed in the lower part of the launch tube.

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