RU56014U1 - TEMPERATURE REGULATOR - Google Patents

Abstract

The patented solution relates to direct-acting controllers for automatically maintaining the temperature, usually water, in various systems. The temperature controller contains a housing, a valve, a seat and a thermal system with a power cylinder, piston and rod. The novelty of the design is that the valve is separated from the stem and is made in the form of a rotary plate that does not intersect with the stem in the closed position of the valve and has the ability to contact the free end of the stem when it is rotated. Preferably, the free end of the rod is made with a bevel facing the rotary plate. Effect: increasing the reliability of the temperature controller while ensuring its high sensitivity and accuracy of maintaining a given temperature of the working environment.

1 p. F-l 3 FIG. heck.

Description

The proposal relates to regulating the temperature of circulating media, namely to direct-acting temperature controllers that are used to automatically maintain the temperature of hot water systems, heating return water, etc.

Such temperature controllers are known, for example, from patents No. 2175142, 2001; No. 2269152, 2006; No. 27431, 2003.

The closest analogue can be considered the temperature controller according to the patent of the Russian Federation No. 2175142, 2001, which contains a housing, valve, seat and thermal system with a power cylinder, piston and rod. The valve is made in the form of a disk-shaped locking element rigidly attached to the stem. When the temperature of the supplied working medium changes under the action of a thermosensitive fluid, the piston and the rod perform translational movements directly transmitted to the valve, as a result of which the flow area between the valve and the seat changes.

The disadvantages of this temperature controller include insufficient reliability, since when the temperature of the working medium rises above a predetermined value, the valve rests against the seat under the action of the stem without reacting to the temperature increase. The increasing pressure of the heat-sensitive fluid in the power cylinder can cause it to break. To eliminate this, the temperature controller has to be made more massive, with increased dimensions, which reduces its sensitivity to the accuracy of maintaining the given temperature of the working environment.

The patented technical solution is aimed at creating a temperature controller with smaller dimensions.

The technical result that is achieved by the proposal is to increase the reliability of the temperature controller at

ensuring its high sensitivity and accuracy of maintaining a given temperature of the working environment.

To achieve this technical result, in the temperature controller, the valve is separated from the stem and made in the form of a rotary plate that does not intersect with the stem in the closed position of the valve and has the ability to contact the free end of the stem when it is rotated.

The exclusion of the joint of the valve and the stem, as well as their parallelism in the closed position of the valve, creates conditions for unimpeded movement of the stem, that is, there is no impact of the stem on the valve and the latter abuts against the saddle under pressure of a thermosensitive fluid, expanding with increasing temperature of the supplied working medium above a predetermined one. This reduces the likelihood of damage to the power cylinder and increases the reliability of the temperature controller. The execution of the valve in the form of a rotary plate, on the one hand, eliminates the rigid mechanical connection of the valve with the stem, and, on the other hand, provides contact with the free end of the stem when it is rotated, which preserves the control of the valve from stem movement and affects high sensitivity and accuracy maintaining a given temperature of the working environment by the temperature controller.

An additional difference of the patented device is that the free end of the rod is made with a bevel facing the rotary plate. In this embodiment, during rotation, the valve contacts the part of the free end of the stem that is farthest from the axis of the rotary plate, which ensures high sensitivity and accuracy of maintaining the set temperature of the working medium of the temperature controller.

The patented temperature controller is illustrated in the drawing, where Fig. 1 schematically shows its general view in the closed position.

Valve figure 2 is the same with the intermediate position of the valve; figure 3 is the same, with the valve fully open.

The temperature regulator includes a housing 1 with inlet and outlet pipes, in which a valve 2 and a seat 3 are located, and a thermal system including a thermoballion 4, which is connected outside the housing 1 in a controlled environment, communicated by a capillary 5 with a power cylinder 6 having a piston 7 and the rod 8, the free end of which is located in the cavity of the housing 1. The valve 1 is separated from the rod, that is, they are not articulated, not connected by a rigid mechanical connection. The valve is made in the form of a plate rotatable on the axis 9. The rotary plate of the valve does not intersect with the stem in the closed position of the valve (figure 1), they are parallel. When turning from the closed position, the rotary plate is in contact with the free end of the rod (figure 2, figure 3). The free end of the stem has a bevel 10 facing the pivot plate.

The regulator is configured to maintain a given temperature of the working environment. In the process of tuning the rod 8 and the rotary plate are installed in a position corresponding to the formation of the required flow area between the valve 2 and the seat 3 (figure 2). The rotary valve plate is in contact with the free end of the stem.

The medium entering the housing 1 (in the direction of the arrow) is throttled through the passageway between the valve and the seat, and then diverted from the housing.

As the temperature of the supplied working medium increases, the thermosensitive liquid in the thermowell 4 expands and, entering through the capillary 5 into the power cylinder 6, moves the piston 7 and the rod 8. When the rod moves in the cavity of the housing 1, the rotary plate rotates to the axis 9 to the left, which leads to

reducing the flow area, and, consequently, to reduce the flow of the working medium.

With increasing temperature of the supplied working medium above a given rotary plate occupies a vertical position, interacting with the saddle and not intersecting with the rod (figure 1). Due to the separation of the valve from the stem, the latter can freely move with increasing temperature of the working medium, which does not lead to breakage of the power cylinder and ensures the reliability of the temperature controller.

When the temperature of the supplied working fluid decreases, the heat-sensitive fluid is compressed, the piston and the stem move down (in the opposite direction), under the pressure of the working fluid, the valve rotates on axis 9 until it contacts the bevel 10 of the free end of the stem, increasing the bore (Fig. 2).

The rotary plate of the valve is highly sensitive to changes in the displacement of the rod of the power cylinder and provides high accuracy of maintaining a given temperature of the working medium.

Improving the reliability of operation and ensuring high sensitivity and accuracy of maintaining a given temperature of the working environment determine the creation of a more compact temperature regulator with smaller dimensions.

Claims (2)

1. A temperature controller comprising a housing, a valve, a seat and a thermal system with a power cylinder, a piston and a rod, characterized in that the valve is separated from the rod and made in the form of a rotary plate that does not intersect with the rod in the closed position of the valve and has the ability to contact with a free the end of the rod when it is rotated. 2. The temperature controller according to claim 1, characterized in that the free end of the rod is made with a bevel facing the plate.