RU2342267C1 - Device for transfer of liquid evaporative substances into vessel with neck - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: device consists of tube for transfer of liquid evaporative substances and unit preventing evaporation of transferred substance into atmosphere located on outer surface of tube capable of placement in neck of filled-in vessel and able to change its geometrical shape depending on effort applied to it. Cross-section of tube is lesser than cross-section of neck. Outer side of lower part of tube bear set of cut-off shells with bases perpendicular to tube.

EFFECT: improvement of fire-safety and ecological situation in fuelling stations.

12 cl, 1 dwg

Description

The invention relates to the field of transport and means of mechanization, namely, vehicles and mechanization means equipped with fuel tanks and other containers with necks for storage and transportation of aggressive and fire hazardous liquid media, as well as autonomous containers of the same purpose, requiring the possibility of periodic replenishment of liquid evaporating substances without emission of vapor into the atmosphere.

The developed technical solution can be used for refueling vehicles, vehicles, mechanics, as well as canisters and various autonomous containers with necks at gas stations and liquid filling stations with fuel, lubricants and process fluids. The predominantly developed technical solution can be used for refueling vehicles, mechanization means and autonomous containers in places that are characterized by increased requirements for ensuring explosion and fire safety and environmental cleanliness, namely: when organizing refueling of vehicles, mechanization tools and autonomous containers in environmentally friendly areas , nature protection zones, in places of accumulation of vehicles, in parking lots, inside and near surface and underground garages, in places densely urban development, as well as other places requiring increased attention to the possibility of environmental pollution and the absence of explosion or fire threats.

It is known (US Patent 3,325,723) a fueling device for filling fuel into a gas tank, comprising a pump, the inlet of which is connected via a rigid pipe to a fuel tank, and the outlet, through a flexible pipe, to a dispensing gun.

The disadvantage of the known design should recognize the need for its stationary placement, the presence of emissions of vapors displaced from the gas tank into the atmosphere, as well as the presence of an energy source necessary for the operation of the pump.

It is known (RU, patent 2226623) a device for pumping liquids, including flammable, from technological containers with a neck. The known device comprises a pneumatic pump with a drive, the pumping cavity of which is connected to the atmosphere through the suction valve, a hose for supplying compressed air from the pump to the pumping cavity of the technological container with pumped liquid, a technological nozzle with a collar installed in the neck of the container until it stops in the collar, which is made with two through holes, in one of which the first end of the supply hose and the overpressure bleed valve in the atmosphere are fixed, and in the other there is a draft pipe fixed, immersed I have one end in a container with pumped liquid and a clamp for tightly securing the nozzle in the neck of the container. In addition, it is additionally equipped with a fluid control valve installed on the free end of the spill pipe, a nozzle mounted on the free end of the fluid control valve, a flexible elastic tube fixed at one end to the nozzle, a discharge valve mounted at the junction of the discharge cavity and the second end supply hose. In this case, the bleed valve is made regulating with the possibility of automatically releasing into the atmosphere an excess pressure exceeding the maximum set value, mounted on the upper surface of the process nozzle and connected to an additional throttle hole made therein. The injection cavity is connected to the injection through the discharge valve and the supply hose, and the injection cavity is connected to the atmosphere on the one hand through the throttle hole and the control valve, on the other hand, by interacting with the pumped liquid through the filling pipe, the fluid control valve, the nozzle and the flexible flexible tube .

The disadvantage of the known design should be recognized the need for its stationary placement, the presence of emissions of vapor of the pumped liquid into the atmosphere when the drain valve is triggered, as well as the presence of an energy source necessary for the pump to operate.

It is known (SU, copyright certificate 359232) a refueling device for refueling fuel tanks used at gas stations. The known device contains a dispensing gun with a valve and a drain pipe, the diameter of which is less than the diameter of the neck of the fuel tank, the inlet of the dispensing gun is connected via a spring pressure valve and a hose with a dispensing container. The end of the drain pipe is equipped with a pipe whose inner diameter exceeds the internal diameter of the drain pipe, and by means of a pneumatic pipe, the internal cavity of the pipe is in communication with the sealed cavity of the membrane pressure sensor, on the membrane of which one of the contacts of the pump motor starter control relay is installed.

The known device operates as follows. When refueling the fuel tank, the drain end of the dispensing gun is inserted into its neck. Then turn on the electric motor of the pump dispenser. A jet of fuel squeezes the spring of the pressure valve, passes through the channels of the dispensing gun and flows through the drain pipe into the gas tank. Since the gas tank cavity is communicated through the neck with the atmosphere, the pressure in it does not change when the gas tank is filled with gas, and the pressure sensor membrane is pressed outward towards the air tube. When the gas tank is filled to the level of the nozzle, the pressure in the pneumatic tube changes, and the sensor membrane changes its position, opening the relay contacts. This leads to a shutdown of the pump motor, which eliminates the possibility of fuel overflow into the tank.

The disadvantages of the known design should recognize the need for its stationary placement, as well as the presence of an energy source necessary for the operation of the pump. In addition, in the process of filling the gas tank through its neck, fuel vapors pass into the atmosphere, creating a fire hazard situation, as well as worsening the environmental situation.

The technical problem to which the developed technical solution is directed is to create a means for moving fuel into a closed tank through its neck, capable of working without the release of vapor of a liquid medium displaced from the tank into the surrounding atmosphere.

The technical result obtained by the implementation of the developed technical solution is to reduce the risk of explosion or fire of vapors of liquid media displaced from the refueling tank, improve the environment in the places where the tanks are filled with liquid media, and also reduce the risk of technological disasters during refueling of these tanks.

To achieve the specified technical result, it is proposed to use the developed tool for moving liquid vaporizing substances into a refueling tank through its neck. The means for moving liquid vaporizing substances into a container equipped with a neck includes a pipe for moving liquid vaporizing substances, as well as a unit for preventing the vapor of displaced substances displaced from the tank into the atmosphere, located on the outer surface of the pipe with the possibility of placing a refueling container in the neck and made their geometric dimensions, depending on the efforts applied to it, while the pipe section is smaller than the neck section. In a preferred embodiment, the unit for preventing the displacement of vapor displaced into the atmosphere is configured to fix the pipe in the neck of various sections. Typically, one of the ends of the pipe is made with the possibility of connecting to the device moving into the tank of liquid and the selection of vapors and gases displaced from the refueling tank. This tool can be used both for moving fluid by gravity (from top to bottom), and pumping from bottom to top or at the same level using a pumping device (pump) of any design. The main purpose of the developed device, in addition to moving the liquid from the tank to the tank, is to prevent the vapor of the transported liquid from entering the atmosphere, which is ensured by the use of the unit to prevent the vapor of the transported substances displaced from the tank into the atmosphere. The fixing device used in the implementation of the developed technical solution may preferably have a conical or cylindrical shape. In the simplest embodiment, the assembly is a ring of elastic material worn with an interference fit on the pipe and capable of reversibly stretching when applied to external forces, decreasing in diameter. The assembly can be a cover made of dense elastic material, inside of which there is a mechanism that causes the external cover to stretch the cover and press it against the inner surface of the neck of the container. The mechanism of fixing the node in the neck with the localization of the volume of the refueling container with pairs can be made cam, spring, eccentric, flap, or any other, providing the cover is pressed against the inner surface of the neck. To avoid overflow of the filled tank, a check valve can be placed at one end of the pipe. Upon contact of its outer surface with the surface of the fluid being transported, the valve closes, thereby stopping the movement of the fluid. On the outer side of the part of the pipe placed in the neck of the tank, an additional relief may be made in the form of a set of truncated bodies oriented with their bases perpendicular to the pipe. This set increases the likelihood of fixing the pipe in the neck due to the engagement by the surface of one of the cones for the rib between the tank and the neck. On the part of the pipe placed in the neck, openings can be made below the assembly to remove vapors and gases from the tank being filled into the pipe and then into the tank from which liquid is transferred to the neck. On the one hand, this facilitates the movement of fluid due to the lack of high pressure in the tank, and on the other hand, it allows the vapor to be absorbed by the flow of fluid moving through the pipe. In a preferred embodiment, one of the ends of the pipe is configured to be connected to an empty container, and the other to a filled container. In one embodiment, the tool may also include an additional neck sealing device, which can be implemented in the simplest embodiment as a flat thick sheet of elastic material, which is moved with force through the pipe and pressed against the end of the neck when moving the liquid.

The basic form of the developed means for moving fuel from the transportation tank to the tank through its neck is shown in the drawing, the following notation being used: pipe 1, neck 2, assembly 3 to prevent the vapor of displaced substances displaced from the tank into the atmosphere, sealing device 4.

In the basic embodiment, the device operates as follows.

The pipe 1 is placed in the neck of the refueling container so that the assembly 3 is completely placed in the neck 2. An auxiliary device made in the form of a tube of a larger diameter coaxial with the pipe 1 (not shown in the drawing) or with a ring wrench actuates the control mechanism of the assembly 3 performed in any of the above ways, as a result of which its elements come into contact with the inner surface of the neck 2 of the refueling tank and they, together with the pipe 1 and the additional tube, become strut inside the neck and rigidly fixed. In this case, the pipe 1 is fixed and at the same time due to the tight fit of the sealing device 4 to the end of the neck 2 of the refueling tank, the emission of vapors displaced from the tank into the atmosphere is eliminated. Combine the output of the filling fluid supply system with the receiving head, and in any known manner induce the beginning of the movement of the filling fluid through the pipe 1 into the filling tank. The fluid stream opens the check valve and enters the tank. The fuel vapors formed in the tank under the pressure increase in the tank enter the pipe 1 or pipe through the holes and then, moving along the pipe 1 or an additional pipe, enter the place of vapor intake (preferably, the container from which the liquid is poured). When the tank is filled with liquid to the level of the check valve, the specified valve closes, thereby blocking the flow of fuel from the transport tank to the tank.

The developed design practically eliminates both liquid spillage as a result of overflow of the tank and the ingress of liquid vapor from the tank into the surrounding atmosphere.

Using the developed device allows us to ensure the observance of an increased level of environmental and fire safety when refueling vehicles, mechanization equipment and autonomous containers with evaporating liquids, which allows us to organize the refueling process in places where refueling was previously considered unacceptable.

Claims (12)

1. A means of moving liquid vaporizing substances into a container equipped with a neck, comprising a pipe for moving liquid vaporizing substances, characterized in that it further comprises a unit for preventing vapors displaced from the tank from entering the atmosphere located on the outer surface of the pipe with the possibility of placing a refueling container in the neck and made with the possibility of changing its geometric dimensions depending on the forces applied to it, while the pipe section is smaller than the neck section, and External Expansion side of the lower part of the tube placed in the neck of the reservoir, a relief in the form of a set of truncated bodies oriented perpendicular to the tube bases. 2. The tool according to claim 1, characterized in that the site to prevent the ingress of displaced vapors into the atmosphere is made with the possibility of fixing the pipe in the neck of various sections. 3. The tool according to claim 1, characterized in that the site for preventing the ingress of displaced vapors into the atmosphere is made conical. 4. The tool according to claim 1, characterized in that the site for preventing the ingress of displaced vapors into the atmosphere is cylindrical. 5. The tool according to claim 1, characterized in that the mechanism of the unit for preventing the ingress of displaced vapors into the atmosphere is made cam. 6. The tool according to claim 1, characterized in that the mechanism of the unit for preventing ingress of displaced vapors into the atmosphere is spring-loaded. 7. The tool according to claim 1, characterized in that the mechanism of the unit for preventing ingress of displaced vapors into the atmosphere is made eccentric. 8. The tool according to claim 1, characterized in that the mechanism of the unit for preventing the ingress of displaced vapors into the atmosphere is made petal. 9. The tool according to claim 1, characterized in that at one end of the pipe there is a check valve. 10. The tool according to claim 1, characterized in that on the part of the pipe that is placed in the neck of the refuelable tank, openings are made to remove vapors and gases from the tank to be filled into the pipe. 11. The tool according to claim 1, characterized in that one of the ends of the pipe is made with the possibility of connection to the emptied tank. 12. The tool according to claim 1, characterized in that one of the ends of the pipe is made with the possibility of connection to the tank being filled.