SU854283A3 - Regulator of internal combustion engine liquid temperature - Google Patents

Abstract

1429380 Valves GILARDINI INDUSTRIALE SpA 26 July 1973 [3 Aug 1972] 35600/73 Heading F2V In a valve of the type comprising a thermostatic element 9 with a pin 8 bearing against the body of the valve and an annular valve closure member 4 carried by the element and held against a projection 9<SP>11</SP> on the element and a valve seat 3 by a spring 10, the other end of the spring is supported by a crosspiece 12 with opposed projections 14 which fit into transverse grooves fromed in lugs 11 depending from the body of the valve. One edge of each projection of the crosspiece has an upstanding flange 18 while the other edge has a tongue 20 which can be bent over when the crosspiece is inserted to lock it in position. A central aperture 15 in the crosspiece acts as a guide for the thermostatic element.

Description

The thermosensitive element 9 is filled with a liquid expanding when heated and provided on the outer surface with an annular shoulder 10 coupled to the control valve 4 loaded with a spring 11. The spring 11 is located around the heat-sensitive element 9 on the side opposite to the rod 8,

The housing 1 also contains protrusions 1 (FIG. 3), on the inner side of which the grooves 13 are made. In the grooves 13 a support element is mounted. 14, which serves as a fixed support for the spring 11, which interacts with the control valve 4, and the guide of the temperature-sensitive element 9.

The axis of the nozzle 5 is located in the plane of the temperature-sensitive element 9 and forms an angle of less than 90 with the plane of symmetry S-S (Fig. 4) of the projections 12.

The support element 14 (FIG. 5), made of a stamped sheet material, has a width in the middle part greater than the diameter of the spring 11. Two diametrically opposed processes 15 of the support element 14 are slightly wider than the width of the projections 12.

In the intermediate part, the support element 14 is provided with a central hole 16, which is limited by an axially located flange 17 directed toward the valve 4 and serving to reinforce the support element 14. At the same time, the flange 17 serves as a guide for the temperature-sensitive element 9. The support element 14 is straight-line lateral edges parallel to the longitudinal median plane, which are conjugated with the outer rectilinear edges of the processes 15 with the help of curvilinear sections 18 (Fig. 9), having a common center of curvature, falling from the center of the hole 16.

Curved sections 18 and straight edges of the shoots 15 are made in the form of ribs 19 and 20, the direction of which coincides with the direction of the flange 17.

The processes 15 are provided with locking elements 21 located in the same plane with the supporting element 14 and 20 slots separated from the ribs, the width of which corresponds to the thickness of the ribs 20.

For greater reinforcement of the support element 14, recesses 22 are made on its surface, the depth of which is not significant. The length of the support element 14 is equal to the distance between the bases of the grooves 13 of the lintels 12. The width of the groove 13 in the protrusion 12 is at least equal to the width of the recess 22,

The ends of the shoots 15 are provided with straight sections 23 and curvilinear 24, the center of curvature of which coincides with the center of the hole 16.

When assembling the regulator (Fig. 1-4), one end of the spring 11 is placed around the annular flange 17, and the temperature-sensitive element 9 in the central bore 16, the Support element 14 is mounted transversely or almost transversely with respect to the plane of symmetry SS (Fig. 4 ) protrusions

and with respect to the flange 17 and the ribs 19 and 20, and the rod 8 of the temperature-sensitive element 9 is rotated in the direction of the blind hole of the protrusion 7 of the socket 5, the rod 8 is inserted into the blind hole and when the support element 14 moves in the direction of the projection 7, the spring 11 compresses the control valve When the processes 15 are located coplanar with the grooves 13 of the projections 12, the support element 14 is rotated in the direction of the arrow (Fig. 4) and the processes 15 are inserted into the grooves 13 of the projections 12. This controller assembly is provided with the previously described construction of the outer ends of the processes 15 and ends, when the ribs 19 are adjacent to the corresponding portions of the transverse ends of the protrusions 12 located directly at the respective grooves 13. The supporting element 14 can then be closed in this position by turning the locking element 21 in the direction of the ribs 20.

Such fixing of the support element 14 in the protrusions 12 simplifies manufacture and increases the reliability of the operation of the temperature controller.

The regulator works as follows.

If the temperature of the fluid in the engine is below the adjustable limit, then valve 4 is mated to seat 3 and fluid does not flow into the engine cooling system (not shown). When the temperature in the regulated limit is reached, a slot opening is formed between the valve 4 and the seat 3, through which fluid can flow into the engine cooling system.

Thus, the required temperature will be maintained.

Claims (1)

Invention Formula The fluid temperature regulator of an internal combustion engine, comprising a housing, in the inlet duct of which a temperature-sensitive element is placed, coupled with a control valve installed at the outlet of the duct and equipped with a spring, the supporting element of which is fixed by means of protrusions placed in the housing along circumference around the spring, made in the form of a thermo-sensitive element guide, characterized in that, in order to simplify the fabrication of F to increase its reliability, the protrusions on the inside side enes groove into which is mounted a support member provided on one side ribs, and on the other - locking element. Sources of information taken into account in the examination 1, Patent of England 944277, cl. F 2 V, pub. 1963 (prototype).  Aa 17 76 r FC & .5  - l to go 21 fig.b FIA.1 , / 3 t fig.c