RU64598U1 - TUBE-NOZZLE FOR DRAINING LIQUIDS FROM TANKS - Google Patents

Abstract

The utility model relates to nozzles, which are accompanying devices for tanks filled with liquids, and intended for draining liquids from them, including for technical purposes, used in all branches of mechanical engineering for servicing various mechanisms, in particular, for draining technological additives from fuel into a tank, oil systems of internal combustion engines. The nozzle tube for draining liquids from containers contains a housing with a longitudinal axial bore and with an annular flange on its outer surface, dividing the housing into two parts of different lengths, shortened of which is intended to enter the container with liquid and has a tip for cutting protective a film separating the liquid-filled cavity of the container from the external environment. The axial hole of the housing is made through in the form of a truncated cone with increasing diameter from an elongated part of the housing to a shortened one. The shortened part of the nozzle body on the outer surface under the annular collar has additional annular collars sequentially located along it and smaller in diameter, with the diameter of each subsequent smaller than the diameter of the previous one. The sharpening is made in the form of a one-sided wedge, one of the inclined faces of which is tangent to the outer surface of the housing, and the other crosses its through hole. The additional annular bead extreme with respect to the sharpening is located on the shortened part of the body above the inclined edge of the wedge that intersects the through hole and has slices opposite to each other, the plane of one of which coincides with the face of the wedge tangent to the outer surface of the body. The diameter of the main annular flange exceeds the similar parameter of the PET capacitance in the zone of formation of the protective film on it. The tube-nozzle for draining liquids is structurally simple and provides an effective drain of liquids, including for technical purposes, from containers. 1 independent p. forl; 3 ill.

Description

The utility model relates to related devices for tanks filled with liquids and intended for draining liquids from them, including for technical purposes, used in all branches of mechanical engineering when servicing various mechanisms, in particular, for draining technological additives from the tank of fuel additives to the oil and oil systems of internal engines combustion.

Known devices for containers for draining liquids from them, which are mainly made in the form of a hollow body with a funnel-shaped drain hole (see, for example, patent DE, 311824, class F 16 N 11/02, published on 04/29/1919, RU patent, No. 2182277, Cl., publ.).

However, when draining technical liquids from a container filled by them, for example, bottles on the outer surface of the latter, smudges of the drained liquid are formed due to leakage of fluid through the joints formed between the neck of the bottle and the body of the drain device, which increases the loss of an expensive product, worsens the conditions for using containers, and leads to violation sanitary standards.

Technical solutions are known, according to which, at the stage of manufacturing containers and filling them with a liquid product, special nozzles having a central drain hole are rigidly fixed on a container made of plastic materials using thermal processes (see, for example, RU patent No. 2163615, class B 65 D 33/38 publ.). Emptying containers using the nozzles installed on it is practical and convenient. However, the technological process of manufacturing containers is much more complicated, the costly part for their manufacture is increased. In the manufacture of containers of plastic materials for the storage of thermally active technical fluids (additives to engine oil and fuel), the installation process of this type of nozzles according to fire safety requirements is significantly complicated.

The closest technical solution to the claimed utility model is the well-known solution according to patent RU, No. 2143387, Cl. B 65 D 33/38, publ., According to which to a container made of plastic materials

a valve nozzle for draining the fluid is offered. The known nozzle for draining liquid from a container is made in the form of a housing with a longitudinal axial hole and with an annular flange on its outer surface, dividing the housing into two parts of different lengths, shortened of which is intended to enter the container with liquid and has a tip for piercing at the end (cutting) a protective film that separates the cavity of the container filled with liquid from the external environment. On the shortened part of the body between the sharpening and the annular rim there are made liquid inlets radially oriented relative to the longitudinal axis of the body, communicating with the axial hole of the body. The outer surface of the elongated part of the housing has two steps, different in diameter. The first stage of the casing adjacent to the annular flange has the largest outer diameter, and the next one, the smallest. The mentioned housing steps are designed to accommodate a clamping device on them, limiting the displacement of the nozzle body into the container. The specified device is made in the form of a rotary sleeve mounted on the stage of the housing with the largest diameter, and a threaded clamp placed on the threaded part of the stage of the smallest diameter. The sharpening of the corresponding end of the body is made in the form of a sharp cone.

In accordance with the known technical solution, the nozzle is designed to be placed on a container made of a plastic material having the form of a sealed liquid bag. The technological process of draining the liquid from the bag is carried out by placing the latter on the support base and with the lower position of the nozzle relative to this tank.

However, the effectiveness of using the known technical solution for draining the liquid is technologically feasible only in the variant of the interaction of the known nozzle with container materials having a protective film with significant elasticity and when draining liquids with a small kinematic viscosity.

The possibility of using the known nozzle for draining viscous technical liquids (technological additives to oil, fuel) from bottles, the neck of which is protected by a film in the form of a thin foil membrane (to prevent unauthorized access) is ineffective for the following reasons:

the radial orientation of the inlets of the shortened part of the body makes it difficult for viscous liquids to enter the nozzle body;

operational characteristics of technical fluids are violated due to rupture of a brittle foil membrane with a conical shape of the pointed body;

the presence of a clamping device on the body of the known nozzle complicates its design, increases material consumption.

The objective of the claimed utility model was to create a structurally simple tube nozzle for draining technical fluids from PET containers, providing a technical result for improving the discharge of viscous fluids.

To solve the technical problem, a nozzle tube for draining technical liquids from PET containers is proposed, comprising a housing with a longitudinal axial bore and an annular bead on its outer surface, dividing the housing into two parts of different lengths, shortened of which is intended to enter the tank with liquid and has a tip at the end to cut through a protective film separating the liquid-filled cavity of the container from the external environment, in which, according to a utility model, the axial hole of the housing is flax through in the form of a truncated cone with an increasing diameter from the elongated part of the body to the shortened one, the last of which on the outer surface under the annular collar has additional annular collars sequentially located along it and smaller in diameter, with each subsequent diameter less than the diameter of the previous one, the sharpening is made in in the form of a one-sided wedge, one of the inclined faces of which is tangent to the outer surface of this part of the housing, and the other crosses its through hole, at m, an additional annular bead extreme with respect to sharpening is located on the shortened part of the body above the inclined edge of the wedge that intersects the through hole and has slices opposite to each other, the plane of one of which coincides with the face of the wedge tangent to the outer surface of the body, the diameter of the main annular bead exceeding a similar parameter of the PET capacitance in the zone of formation of a protective film on it.

According to a utility model, at least the elongated part of the body has the shape of a truncated cone with its largest diameter on the side of the main annular collar.

According to a utility model, the end of the elongated part from the exit side of the through hole is made beveled with the orientation of the tip of the bevel angle to

the surface of the body passing through the corresponding inclined face of the wedge of the shortened part.

The inventive utility model is structurally simple and contributes to the improvement of the discharge of viscous liquids from PET containers, in particular bottles, the neck of which has a protective film, for example, foil to prevent unauthorized access.

In the analysis of the prior art, no technical solutions were identified with a combination of structural features similar to the claimed technical solution, which indicates the novelty of the latter and its compliance with the “utility model” criterion.

The claimed technical solution is structurally simple and can be industrially implemented as an accompanying product for various plastic bottles to facilitate the discharge of liquids from them, for example, for technical purposes into various technological units and mechanisms, including those with a limited degree of availability in them.

The inventive utility model is illustrated by drawings, where:

Figure 1 shows a nozzle for draining liquid from a PET container, a section along the longitudinal axis;

Figure 2 - the same as in figure 1 - General view

Figure 3 - the same as in figure 1, section aa

The nozzle tube for draining technical fluids from PET containers contains a housing 1 with a longitudinal axial bore 2 and an annular collar 3 on its outer surface, dividing the housing into two parts of different lengths, a shortened 4 of which is intended to enter the container with liquid and has a tip at the end to cut through the protective film that separates the cavity of the container filled with liquid from the external environment. The axial hole 2 is made through in the form of a truncated cone with an increasing diameter from the elongated part 5 of the housing 1 to its shortened part 4. On the outer surface of the shortened part 4 of the housing under the annular collar 3 are successively smaller in diameter additional annular collars 6 and 7. The diameter of each the subsequent flange 7 is smaller than the diameter of the previous flange 6, closest relative to the main annular flange 3. The sharpening is made in the form of a one-sided wedge 8, one of the inclined faces of which is kasate b on the outer surface of the truncated part 2 of the housing 1, and

the other crosses its through hole 2. An additional shoulder 7, extreme relative to the point, is made with sections 9 opposite to each other, the plane of one of which coincides with the edge of the wedge tangent to the outer surface of the housing. The diameter of the main annular collar 3 exceeds a similar capacity parameter in the formation zone of the protective film on it.

To facilitate the discharge of technical liquids into inaccessible areas of technological equipment and to improve the discharge of liquid from a PET container, at least the elongated part 5 of the body has the shape of a truncated cone with the largest diameter from the side of the main annular collar 3, and the end of the elongated part 5 from the side the exit of the through hole 2 is made beveled with the orientation of the top of the bevel angle to the surface of the body passing through the corresponding inclined edge of the wedge.

The nozzle body is made monolithic, preferably from PET materials resistant to the liquid contained in the container.

The nozzle tube is used as an accompanying device for PET containers, in particular, for bottles with technical fluids, the neck of which has a protective film, and is designed to increase the efficiency of draining liquids from them, for example, into the fuel, oil systems of an internal combustion engine or in other technological equipment, including with a limited degree of availability when using PET containers. The use of a structurally simple tube-nozzle to PET-containers contributes to the expansion of technological capabilities by servicing different types of machining, since the elongated part of the nozzle effectively interacts with various holes of the serviced mechanism.

The nozzle works complete with PET containers. After opening the plug that covers the outlet of the container, the shortened part of the nozzle body is sent to the outlet of the container, previously protected by a film, for example, a foil membrane. Shaped in the form of a one-sided wedge 8, the sharpening of the shortened part 4 of the body makes a directional cut of the protective film along the neck perimeter without tearing the film from the neck wall and with the orientation of the largest part of the film surface in the direction of the inclined edge of the wedge crossing the through hole 2 of the body. As the shortened part 4 deepens, the additional shoulders 6 and 7 are gradually fixed

relative to the inner surface of the neck while sealing the film relative to its inner surface. Opposite slices of the outermost additional annular collar prevent separation of the protective film from the neck of the container and facilitate orientation of the largest part of its surface along the inner surface of the neck, which ensures free passage of fluid when draining through the through hole of the housing. The execution of the nozzle body with a through hole having a taper increasing to a point ensures an unhindered entry of the drained viscous fluid into the nozzle body and its directed flow into the service area.

Thus, a structurally simple nozzle provides an effective drain of viscous technical fluids from PET containers.

Claims (3)

1. Tube-nozzle for draining technical fluids from containers, containing a housing with a longitudinal axial hole and with an annular flange on its outer surface, dividing the housing into two parts of different lengths, shortened of which is intended to enter the container with liquid and has at the end sharpening for cutting a protective film separating the fluid cavity of the container from the external environment, characterized in that the axial hole of the housing is made through in the form of a truncated cone with an increasing diameter of about t of the elongated part of the body to the shortened one, the last of which on the outer surface under the annular collar has additional annular collars sequentially located along it and smaller in diameter, with the diameter of each subsequent smaller than the diameter of the previous one, the sharpening is made in the form of a one-sided wedge, one of the inclined faces of which is tangent to the outer surface of the casing, while the other crosses its through hole, while the additional annular edge extreme relative to the sharpening is located on the part of the body above the inclined edge of the wedge that intersects the through hole and has opposite sections oriented opposite to each other, the plane of one of which coincides with the face of the wedge tangent to the outer surface of the body, the diameter of the main annular collar exceeding the same parameter for the PET container in the formation zone there is a protective film on it. 2. The nozzle tube according to claim 1, characterized in that at least the elongated part of the body is made in the form of a truncated cone with its largest diameter from the side of the main annular collar. 3. The nozzle tube according to claim 1, characterized in that the end of the elongated part from the exit side of the through hole is made beveled with the orientation of the tip of the bevel angle to the surface of the housing, which coincides with the inclined edge of the wedge of the sharpening.