RU2269152C1 - Temperature adjuster - Google Patents

Abstract

FIELD: technology for adjusting temperature of circulating substances.

SUBSTANCE: temperature adjuster has body, locking organ, thermal system with thermal tank and device for protecting thermal system from overheating. Protective device is made in form of two hollows with pistons and common rod. Hollow, connected to thermal tank, has piston, diameter of which is less than piston diameter of another hollow. Hollow, connected to thermal tank, has through aperture for draining thermal-sensitive liquid in case of its accumulation.

EFFECT: simplified construction of device, higher operational reliability.

2 cl, 1 dwg

Description

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

Temperature controllers are known, for example, from the following sources: USSR No. 756370, G 05 D 23/12, 1980; RF patent No. 2175142, G 05 D, 2001; certificate No. 27431 for a utility model of the Russian Federation G 05 D 23/02, 2003.

The closest analogue can be considered the temperature controller A. with. USSR No. 756370, G 05 D 23/12, 1980. It contains a housing, a locking member, a thermal system, including a thermoset with a thermosensitive liquid and a thermal system protection device from overheating. The specified device includes a siphon, a movable stop with a pusher, a spring, a fixed stop, an additional valve with a spring and a movable stop.

With thermal overload under the influence of an expanding thermosensitive fluid, the volume of the thermal system increases, which prevents a sharp increase in pressure in the thermal system and prevents its breakdown.

However, the temperature controller has insufficient operational reliability, due to the complexity and cumbersomeness of the thermal protection device due to the presence of springs and a large number of mechanically movable elements.

The invention is aimed at creating a more compact, reliable and easy-to-use temperature controller with a long term of use.

The technical result, which is achieved by the patented solution, is to increase the operational reliability of the temperature controller by simplifying the protection of the thermal system from overheating.

To ensure this device, the protection against overheating is made in the form of two cavities with pistons and a common rod, one of which is connected with a thermoball and has a piston whose diameter is smaller than the diameter of the piston of the other cavity.

In this embodiment, the specified device does not contain springs and other mechanically interconnected elements, which simplifies its design and increases the operational reliability of the temperature controller.

The simpler design of the device and the reduction in its size are facilitated by the indicated ratio of the diameters of the piston cavities, since for acting on a piston with a large diameter, it is necessary to apply a pressure many times less, how many times the diameter of this piston is greater than the diameter of the smaller piston of the cavity in communication with the thermal bulb.

To increase the reliability of the regulator by eliminating the breakdown of the thermal system with the maximum filling of the cavity of the protection device in communication with the thermal bulb, this cavity has a through hole for the removal of heat-sensitive liquid (claim 2 of the formula).

The invention is illustrated in the drawing, which shows a General view of a patented temperature controller.

The temperature controller comprises a housing 1 with a supply 2 and a discharge 3 channels, a shut-off element with a valve 4 and a seat 5, a thermal system, including a thermo-cylinder 6 with a heat-sensitive liquid and a device to protect the thermal system from overheating and pressure increase of the heat-sensitive liquid.

The thermowell is connected by a capillary 7 with a power cylinder 8 installed in the housing 1, having a piston 9 and a rod 10 connected to the valve 4 of the shut-off member.

The thermal system protection device against overheating is made in the form of two cavities 11 and 12 with pistons 13, 14 and a common rod 15. The cavity 11 is connected to the thermoball by means of a capillary 16, and its piston 13 has a diameter smaller than the diameter of the piston 14 of the other cavity 12. Preferably, so that the diameters of the pistons differ by 1.5-30 times.

In the wall of the cavity 11 there is a through hole 17 for draining the heat-sensitive fluid when the cavity is filled with the heat-sensitive fluid to the extreme position of its piston 13. The nadporshne space of the cavity 12 is filled with compressed gas at a pressure higher than atmospheric, preferably 2-8 atmospheres. The working medium enters the regulator body 1 through the inlet channel 2, then throttles between the valve 4 and the seat 5 and is discharged through the channel 3. The temperature of the working medium is perceived by the thermosensitive liquid of the thermocylinder 6. When the temperature of the supplied working medium changes, the thermally sensitive liquid expands or contracts accordingly, its volume in the thermal system changes, which causes a change in the bore between the valve 4 and the valve seat. When the saddle is closed and in the case of a further increase in the temperature of the working medium, the heat-sensitive fluid expands, fills the cavity 11 under the piston 13 and causes the stem 15 with the pistons 13 and 14 to move. When the temperature of the working medium rises above the permissible temperature-sensitive fluid increases, fills the sub-piston space of the cavity 11 in volume, which prevents the pressure in the thermal system from growing and its breakage.

In the event of an emergency, when the heat-sensitive fluid fills the cavity 11 to the extreme position of the piston 13, the through hole 17 communicates with the thermal bulb and the heat-sensitive fluid is discharged from the cavity 11, excluding the breakdown of the thermal system.

Thus, a temperature controller has been created with a relatively simple design without springs and mechanical parts interconnected with it, which increases the operational reliability of the controller when it reacts sensitively to overheating in the thermal system and pressure increase of the heat-sensitive liquid without breaking the thermal system.

Claims (2)

1. The temperature controller, comprising a housing, a locking member, a thermal system, including a thermoset with a thermosensitive liquid and a device for protecting the thermal system from overheating of the thermally sensitive liquid, characterized in that the thermal system protection device from overheating is made in the form of two cavities with pistons and a common rod, one of which communicated with a thermal bulb and has a piston whose diameter is less than the diameter of the piston of another cavity. 2. The temperature controller according to claim 1, characterized in that the cavity of the thermal system protection device against overheating, in communication with the thermoball, has a through hole for the removal of the thermosensitive liquid in the case of filling this cavity with the thermosensitive liquid to the extreme position of its piston.