RU195540U1 - FILLING NOZZLE - Google Patents

Abstract

The utility model relates to the field of mobile automatic weight filling, namely to the drain nozzle of the filling device. The device allows you to effectively remove oil vapor when filling it in the consumer’s container due to the fact that the filling nozzle is equipped with a gas outlet pipe, while an anti-foaming mesh can be additionally installed in the filling tube, which prevents the formation of excessive foam when oil is poured into the container, and eliminates the possibility of clogging gas pipe with such a foam. 1 s.p. f-ly.

Description

The utility model relates to the field of mobile automatic weight filling, namely to the drain nozzle of the filling device.

The prior art invention is known as “A container with a non-removable lid to facilitate dispensing filling of contents” (RU 2655283, B65D 41/20, B65D 47/36, 05.24.2018). The invention discloses a lid for a container, which can be easily adapted to the requirements of a metered spill, which can simply be mounted on the container so that it cannot be removed after installation, and which can be manufactured simply and easily at minimal cost.

The disadvantage of this invention is that the container is made with a fixed cover, which complicates the design of the invention, and also does not provide sufficient tightness of the device.

The prior art utility model is known as “The upgraded gun for a system for collecting oil vapor from vehicle tanks at gas stations” (RU 151525, B60S 5/02, 04/10/2015). The device operates as follows: fuel flows from the outlet to the fuel tank. As the tank is filled, hydrocarbon vapors are displaced, which are pumped out through the pipe to divert the air-fuel mixture and enter the fuel tank, and a truncated cone sealing cuff prevents the intake of air from the environment and enters the fuel tank. The sealing cuff in the form of a conical corrugation is versatile to different sizes of filler necks of motor vehicle tanks. The signal channel communicates with the outlet pipe through the valve, and a nozzle is installed at the end of the signal channel. When fuel runs out of the outlet, a vacuum is created in the signal channel.

A useful model is known “Device that reduces emissions of gasoline vapors into the atmosphere from car tanks when refueling” (RU 9832, B65D 88/46, 05.16.1999). The utility model relates to the field of distribution of light petroleum products through fuel dispensers (fuel dispensers) at stationary and mobile gas stations. This device contains a two-stage filter element on a figured cover in which the adapter is installed. When refueling, a vapor-air mixture is formed in the tank, which is displaced by the refueling fuel through two sequentially installed filter elements into the atmosphere. At the end of refueling, it is necessary to hold for about 5 seconds to relieve excess pressure.

Common disadvantages of the above analogues is that they relate to pistols for filling oil products in the tank of vehicles. They are used only in the open air and cannot be used in mobile dosed weight filling systems.

Recently, in the Arctic regions and regions of the Far North of Yakutia, mobile dosed weight filling systems have been actively used, their purpose is to pour oil products into consumer containers. Given that the operation of such installations takes place under conditions of critically low outdoor temperatures, they are installed in closed, insulated rooms. The standard equipment of such installations does not allow to properly divert the vapors formed during the loading of oil products, which leads to gas contamination in the room where the filling takes place, and emergency situations occur. Since mobile dosed weight filling systems are installed indoors, the solution to the issue of the removal of oil vapor increases the safety performance during their operation.

During the operation by the applicant of mobile dosed weight filling units, practical experiments were carried out to extract oil vapor generated during filling by means of ventilation ducts in the premises where the filling takes place. These experiments showed that indoors the vapors are not removed quickly enough, and as a result, the risk of emergency situations increases. In connection with the identified risks, the applicant has developed a device for the quick and effective removal of vapors from containers during oil product loading. This solution relates to mobile units for metered weight bottling of petroleum products.

The purpose of the utility model is to create a device that will allow you to effectively remove pairs of oil products when they are bottled in consumer containers.

The goal is achieved in a utility model by supplementing the design of the filler nozzle with a gas pipe through which the vapors formed during the loading of petroleum products are displaced from the container.

In FIG. 1 shows a filling nozzle consisting of a housing (1), a loading tube (2), a gas outlet pipe (3), an anti-foaming mesh (4).

The housing (1) is made in the form of a cone-shaped cylinder, which provides a snug fit to the filler neck of a container of various diameters and eliminates unnecessary uncontrolled evaporation of oil vapor from the container. At the same time, the wide end of the housing (1) is attached to the mobile unit for dosed weight filling, and the narrow end is immersed in the container when filling.

A loading tube (2) through which oil products pass into the consumer packaging located in the housing (1).

Between the filling tube (2) and the wall of the housing is a gas outlet pipe (3). In this case, the outlet of the gas outlet pipe (3) is discharged into the ventilation channel of the room, where oil products are loaded.

The filling tube (2) is additionally equipped with an anti-foaming mesh (4), which ensures the filtration of the oil product and prevents the formation of foam, excluding the clogging of the exhaust pipe. In addition, oil products without foam formation uniformly rise in the container, therefore, the resulting pairs of oil products are released evenly, which contributes to their most efficient disposal.

The claimed solution is implemented as follows: the consumer packaging (for example, a canister) is installed on the platform of the mobile unit for dosed weight filling, after which the operator enters the filling parameters depending on the required volume and fixes the body (1) of the filling nozzle to the container and includes an oil product loading button. The oil flows from the filling tube (2) through the anti-foaming net (4) into the container. During the filling process inside the container, the pressure rises and oil vapor is forced out. The vapor is removed from the container through a gas outlet pipe (3), the outlet of which is located inside the container, the outlet is led out into the ventilation channel of the room where oil is poured. After filling according to the specified parameters, the filling nozzle is removed from the container, then the mobile unit for the dosed weight filling is turned off, or reconfigured for further filling into other containers. The inventive solution can be used year-round, as well as in the open air, where the gas outlet pipe (3) will serve as a vent of petroleum product vapors on behalf of the loading operator.

The inventive utility model has been tested empirically in mobile units for the dosed weight filling of oil products operated by Sakhaneftegazsbyt JSC and has proved the existence of the claimed result.

Claims (2)

1. The filling nozzle, consisting of a housing made in the form of a cone-shaped cylinder, a loading tube placed inside the housing, characterized in that the housing is additionally equipped with a vent pipe, while the outlet of the vent pipe is arranged to be placed in a container, and the filling tube is equipped anti-foaming mesh. 2. The filling nozzle according to claim 1, characterized in that the housing, made in the form of a cone-shaped cylinder, is fastened with a wide part to a mobile unit for dosed weight filling.

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