RU2021627C1 - Direct-action temperature controller - Google Patents

Abstract

FIELD: temperature control facilities. SUBSTANCE: direct-action temperature controller has case accommodating temperature sensing element built up of fixed shell whose longitudinal channels receive two groups of movable temperature-sensing rods actuating movable sleeve having radial holes thereby enlarging or reducing flow section. Novelty in temperature controller is that it uses dilatometer effect of temperature-sensing element which, upon repeated multiplication on unequal-arm levers, actuates controller valve assembly to enlarge or reduce controller flow section. EFFECT: improved reliability of maintaining desired temperature conditions. 5 dwg

Description

 The invention relates to technical means for thermoregulation mainly of liquid media and can be used in a heat supply or cooling system of individual machines and units where it is necessary to maintain a given temperature regime.

 Figure 1 presents the temperature controller direct action, section; in FIG. 2 - section aa in figure 1; figure 3 is a section bB in figure 1; figure 4 - section bb in figure 2; figure 5 is a detailed kinematic diagram of the controller.

 The direct-acting temperature controller contains a cylindrical body 1 with flanges 2 for attaching it to the pipeline, in the cavity of which there is a fixed cup 3 with holes 4 in the side wall located along its perimeter. In the bore of the glass 3 is a movable sleeve 5 with holes 6 for the flow of fluid, made by joint processing with the glass. With a spring 7, the sleeve 5 is pressed against the output ends of the heat-sensitive rods 8 located in the longitudinal channels 9 of the glass 3 and comprising two independent equivalent groups. Tuning screws 10 and unequal arms 11 on the axis 12 are inserted into the serial chain of each group of rods 8. They are placed in special slots in the ends of the glass 3 closed by the covers 13. The sleeve 5 with respect to the glass 3 has a radial fixation through holes 4 and 6 due to that the output ends of the rods 8 are included in the recesses 14 made in the flange of the sleeve 5.

 The temperature regulator direct action with the executive body for both cooling and heating medium works as follows.

 Using the adjusting screws 10, the sleeve 5 is brought to the initial position corresponding to a given temperature environment. When the set temperature deviates in one direction or another, the glass 3 and the thermosensitive rods 8 undergo a change in their linear dimensions in proportion to these temperature changes, but not the same in sign and size, resulting in a difference in linear dimensions multiplied by levers 11 as the resulting vector forces acting on the sleeve 5, moves it to one side or the other from the initial (initial) state, increasing or decreasing the cross section of the regulator.

Claims (1)

 DIRECT ACTION TEMPERATURE REGULATOR comprising a cylindrical body, a spring, a cup and a heat-sensitive element, characterized in that the heat-sensitive element is made in the form of rods located in the longitudinal channels made in the side wall of the glass, an axially spring-loaded sleeve to the glass is located in the glass cavity radial holes made in conjunction with radial holes in it and the cup side walls, the cup is rigidly fixed in the housing, heat-sensitive rods in They are connected in series by means of unequal arms placed at the ends of the glass, with the possibility of contact with one of which a tuning screw is installed, while the glass and heat-sensitive rods are made of materials with different linear expansion coefficients.

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