RU2725032C1 - Filling funnel - Google Patents

Abstract

FIELD: funnels.SUBSTANCE: funnel is intended for oil filling crankcase cavities of motor and tractor engines and can be used during their maintenance and repair. Essence of the invention consists in the fact that the funnel flow capacity is limited by the cone placed on the free end of its tube. On the outer surface of the cone there is a scale which is the main line with circular strokes intersecting with it and provided with counting numbers. Scale origin is formed from cone section. As a result, a filling funnel is obtained, in which it is possible to change (regulate) its throughput capacity taking into account throughput capacity of the filler neck, which is carried out by cutting off the free end of the cone.EFFECT: as a result, a filling funnel is obtained with improved operational properties preventing overfilling of the filling neck and therefore oil ingress onto the base (soil) is excluded.1 cl, 1 dwg

Description

The invention relates to mechanics (to valve engineering and mechanical engineering), in particular to devices for refueling working fluids of crankcase cavities of machines, and can be used for their maintenance and repair.

Refueling devices are widely used in the maintenance and repair of machines. Known oil dispensing tank model CKTB 133-1 for manual refueling with crankcase oil. It consists of a tank, a pump and a dispensing sleeve (Gribkov V.M. Catalog of tools for maintenance and repair of tractors, cars and agricultural machines / V.M. Gribkov, AM Borisov, V.A. Varitsky, etc. - M .: V / O "Soyuzselkhoztekhnika", GOSNITI, 1973, S. 98, 99) [1].

The disadvantages of this device: the complexity of the design, the need to refuel the tank with oil, has a limited scope - only when servicing machines in stationary conditions.

The closest technical solution, selected as a prototype, is a funnel consisting of a cylindrical body with a net and a tube connected hermetically to the bottom of the funnel body (SU 1822859 A1, 06.23.1993) [2].

A disadvantage of the known device is that the design of the funnel does not always ensure the execution of a given operation in accordance with quality requirements. So, if the throughput of the funnel is greater than the throughput of the strainer of the oil filler neck, then when adding oil to the engine crankcase through such a funnel, the cavity of the oil filler neck may overflow and, as a result, the oil gets onto the base (into the soil).

The objective of the invention is the creation of a filling funnel with improved performance properties.

The essence of the invention lies in the fact that the throughput of the grid exceeds the throughput of the tube. The cone of the funnel is made with the possibility of reducing its height from the side of its free end. A scale is plotted on the outer surface of the cone, which is the main line with strokes intersecting with it. In this case, the main line of the scale is drawn along the line of intersection of the cone surface with a vertical plane passing through the axis of rotation of the cone, and strokes are made with alternating thick and thin circular lines coinciding with the lines of intersection of the specified surface of the cone with planes perpendicular to the axis of rotation of the cone. In addition, the strokes of the scale are equipped with reference numbers corresponding to the cross-sectional throughput formed by the intersection of the cone with planes perpendicular to its axis of rotation, moreover, at the level of the liquid being filled in the body cavity, which is approximately one third of the body height spaced from its upper cut. The origin of the scale is formed from the cut line of the cone, and the reference numbers are plotted above the strokes indicated by a thick circular line and are located near the main line of the scale. The unit of scale is plotted on the surface of the tube, and above the main line of the scale. As a result, a filling funnel is obtained, which provides for the possibility of changing (regulating) its throughput, taking into account the throughput of the filler neck. In this case, the change in the throughput of the funnel is made by cutting the free end of the cone along the circular line of the scale on which the throughput of the funnel is indicated, which is closest coinciding with the throughput of the filler neck. In this case, overfilling of the filler neck and, therefore, the ingress of oil to the base (soil) are excluded.

In FIG. The filling funnel is shown, where its front view is shown.

The filling funnel consists of a cylindrical body 1 with a mesh in its cavity (not shown) and a tube 2 with a truncated cone 3 at its free end, connected hermetically to the bottom of the housing 1. The throughput of the mesh exceeds the throughput of the tube 2. The cone 3 is configured to reducing its height from the side of its free end. A scale is plotted on the outer surface of the cone 3, which is the main line 4 with strokes intersecting with it 5. The main line 4 of the scale is drawn along the line of intersection of the surface of the cone 3 with a vertical plane passing through the axis of rotation of the cone 3, strokes 5 with alternating thick and thin circular lines coinciding with the lines of intersection of the indicated surface of the cone 3 with planes perpendicular to the axis of rotation of the cone 3. In addition, the strokes 5 of the scale are equipped with reference numbers corresponding to the throughput along the sections formed by the intersection of the cone 3 with planes perpendicular to its axis rotation, and at the level of the liquid being refilled in the cavity of the housing 1, which is approximately one third of the height of the housing 1 separated from its upper cut-off, the origin of the scale is formed from the cut-off line of the cone 1, and the reference numbers are plotted above the strokes 5, indicated by a thick circular line, located near the main line 4 of the scale (not azans). The unit of measurement of the scale is plotted on the surface of the tube 2, and above the main line 4 of the scale.

The funnel is used as follows. Before you start using the funnel, the capacity of the filler neck of the serviced brands of machines is determined for their intended purpose, for example, experimentally or from the manuals for these machines. From the number of obtained values of the capacity of the necks choose the smallest. Then, with a knife or hacksaw, a cone 3 is cut off along a circular line 5, on which the capacity of the funnel is indicated, which is closest to the capacity of the filler neck. The throughput of the grid is greater than the throughput of tube 2, the throughput of this tube 2 is greater than the throughput of cone 3, taking into account its cut part (along the cut section), and the throughput of cone 3 is less than the throughput of the filler neck. At the same time, liquid is poured into the funnel so that its level in the cavity of the housing 1 does not exceed half its height. As a result, cone 3 limits the capacity of the funnel to the capacity of the neck. In this case, overfilling of the filler neck and, therefore, the ingress of oil to the base (soil) are excluded.

The result is a filling funnel with improved operational properties, which provides for a change in its capacity in accordance with the capacity of the filler neck. In this case, overfilling of the filler neck and, therefore, the ingress of oil to the base (soil) are excluded.

SOURCES OF INFORMATION TAKEN INTO ACCOUNT

1. Gribkov V.M. Catalog of technical maintenance and maintenance tools for tractors, automobiles and agricultural machines / V.M. Fungus, A.M. Borisov, V.A. Varitsky et al. - Moscow: V / O Soyuzselkhoztekhnika, GOSNITI, 1973, p. 98, 99.

2. SU 1822859 A1, 06/23/1993 - prototype.

Claims (1)

Filling funnel, consisting of a cylindrical funnel body with a grid and a tube with a truncated cone at its free end, connected hermetically to the bottom of the funnel body, characterized in that the throughput of the grid exceeds the throughput of the tube, the cone is made to reduce its height from its side free end, a scale is plotted on the outer surface of the cone, which is the main line with strokes intersecting with it, while the main line of the scale is drawn along the line of intersection of the cone surface with a vertical plane passing through the axis of rotation of the cone, and strokes are made with alternating thick and thin circular lines coinciding with the lines of intersection of the specified surface of the cone with planes perpendicular to the axis of rotation of the cone, in addition, the strokes of the scale are equipped with reference numbers corresponding to the throughput through the sections formed by the intersection of the cone with planes located perpendicular but its axis of rotation, moreover, at a level of the liquid being filled in the body cavity, which is approximately one third of the height of the body spaced from its upper cut, the reference point of the scale is formed from the cut line of the cone, and the reference numbers are plotted above the strokes indicated by a thick circular line and are located near the main line of the scale, the unit of measurement of the scale is plotted on the surface of the tube, and above the main line of the scale.

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