RU2033026C1 - Regulator of room thermal conditions - Google Patents

Abstract

FIELD: equipment of buildings and structures. SUBSTANCE: regulator has power cylinder filled with thermosensitive filler, spring-loaded piston with rod which is kinematically linked with opening member, for example with fanlight of hothouse or any other building. Regulator is provided with vacuum compensator made in form of flexible member mounted inside inner chamber of cylinder and brought in communication with atmosphere. Piston is mounted at circular throttling clearance between it and inner surface of cylinder and/or is provided with at least one throttling hole. Area of throttling holes and clearance is less than area of piston by 50 to 100 times. Piston rod may be hollow or may be provided with air passage which brings flexible member in communication with atmosphere; flexible member is secured on inner end of rod. EFFECT: enhanced reliability. 3 cl, 4 dwg

Description

 The invention relates to agriculture, in particular to equipment for stabilizing the microclimate in greenhouses, and can be used to open and close ventilation, water supply, etc. openings or canals depending on the temperature inside the agricultural or industrial structure.

 Known regulator of the thermal absorption regime, containing a ram with a plunger, which is filled with low-boiling liquid and kinematically connected with the opening element of the room (AS USSR N 1475542, class A 01 G 9/24, 1989).

 The disadvantage of this regulator is the design complexity due to the presence of two pistons in it, one of which is made in the form of a hollow plunger with low boiling liquid inside, and the second in the form of a throttle washer, and also because of the use of low boiling liquid as a heat sensitive element, as a result of which it is provided shutter device in the form of a cavity limited by sealing rings filled with a viscous lubricating fluid. All this limits the use of the device in agricultural conditions.

 Closest to the invention in terms of technical nature and the achieved result is a room heat controller containing a power cylinder filled with a thermosensitive filler, a spring-loaded piston with a rod connected to an element that opens a ventilation or any other channel or opening, and a vacuum compensator.

 The disadvantage of this regulator is the design complexity, since the hydraulic system of the actuator contains an additional channel system, a hydraulic compensator with a piston and valve placed in its cavity, and blocking the influence of an external load (wind) on the opening opening contains a bracket, a cam, a pusher, and a regulator valve. Such a complex design in modern agriculture does not ensure reliable operation of the device.

 The purpose of the invention is to simplify the design of the controller and increase the reliability of its operation while ensuring the stability of the position of the element to be opened (transom in the greenhouse) when exposed to external dynamic (wind) influences.

 This goal is achieved by the fact that in a room temperature controller containing a power cylinder filled with a heat-sensitive filler, a spring-loaded piston with a rod connected to an element that opens the ventilation or any other channel or opening and a vacuum compensator, the latter is made in the form of an elastic cylinder installed in the piston cavity an element in communication with the atmosphere, the piston being made with at least one throttling hole and / or installed with the formation between it and the inner the cylinder surface of the annular throttling gap. The area of the piston is 50-1000 times larger than the area of its throttling clearance and (or) holes. The ram cylinder is hollow, and the elastic element of the vacuum compensator is mounted on the inner end of the rod.

 In FIG. 1 shows a general installation diagram of a controller in a production room, for example, in a greenhouse; figure 2 regulator, longitudinal (diametrical) section; figure 3 section aa in figure 2; in Fig.4 an embodiment of a regulator with a hollow rod and a vacuum compensator located at its inner end.

 The controller of the thermal regime of the room contains a power cylinder, in the housing 1 of which is filled with a heat-sensitive filler 16 (for example, mineral oil), a piston 2 with a rod 3 is installed with an annular throttling clearance. The cylindrical housing 1 is hermetically sealed by the head sleeve 4 and the lower sleeve 5. Seal carried out by means of gaskets 6. the rod 3 is passed through the head sleeve 4, equipped with a sealing ring 7 and provided on the outer end with a mounting bracket 8. The piston 2 is made with one or more holes 9. Here several options are possible: either the piston 2 is installed with an annular gap between it and the inner surface of the cylinder body 1, or the piston 2 is made with one or more holes 9, or there is an annular gap and holes 9. In any case, the area of the piston 2 should be 50-1000 times the area of the throttling gaps and (or) holes. This is due to the need to ensure the free flow of the heat-sensitive filler from one part of the cylinder to another when slow, caused by the thermal expansion of the heat-sensitive filler by moving the rod 3 with the piston 2. This eliminates the sharp movement of the rod 3 outward under the dynamic influence of wind suction or other external factors. The braking of the rod 3 with the piston 2 is due to the throttling effect that occurs when the filler (mineral oil) flows through the narrow throttling holes 9 or the annular gap, the area of which is 50-1000 times smaller than the area of the piston 3.

 The thermal controller is equipped with a vacuum compensator in the form of an elastic element, for example, in the form of a rubber stocking 10, hermetically mounted on the curly lower sleeve 5 and communicated through the channel 11 made in the sleeve 5 with an external atmosphere. In another embodiment, the rod 3 is made hollow, and the elastic element 10 is fixed on the inner end of the rod 3 through the piston 2 with the hole. A bracket 12 is attached to the lower sleeve 5 for swiveling the device to a support indoors (greenhouses) 13. In the presence of excessive pressure in the working fluid, the stocking 10 is in a flattened state. The piston 2 with the rod 3 is spring loaded with a compression spring 14 located coaxially to the rod 3 inside the housing 1 between the sleeve 4 and the piston 2. The elastic characteristics of the spring 14 and the value of its preliminary preload are selected taking into account the required closing force of the external device (transom). The rod 3 is pivotally connected to an external device 15.

 The operation of the room thermal regulator is based on the principle of changing the volume of a heat-sensitive element (mineral oil). With increasing ambient temperature in the room (greenhouse), the working fluid (oil) filling the cylinder body 1 warms up and increases in volume, pushing the rod 3 out, which serves as the drive to open the external device (transom) 15. When the rod is fully retracted, reducing the working volume body, caused by a decrease in external temperature, is accompanied by the formation of a vacuum inside the cylinder body. As a result, the air flowing through the channel 11 straightens the elastic element of the stocking 10, which compensates for the decrease in the volume of the working fluid and prevents air from entering the cylinder cavity through the sealing ring 7.

 This embodiment of the thermal controller increases the reliability of its operation, improves operational and technical characteristics, simplifies its manufacture.

 The regulator can be used to regulate the temperature in residential and industrial premises, including in greenhouses, phytotrons, livestock buildings.

Claims (3)

 1. A HEATING ROOM REGULATOR, comprising a power cylinder with heat-sensitive filler, a spring-loaded piston with a rod connected to the opening opening, and a vacuum compensator, characterized in that the vacuum compensator is made in the form of a hollow elastic element in communication with the atmosphere wherein the piston is made with at least one throttling hole and / or installed with the formation of an annular throttle between it and the inner surface of the cylinder uyuschego gap.  2. The regulator according to claim 1, characterized in that the piston area is 50 to 1000 times larger than the area of its throttling annular gap and holes.  3. The regulator according to claim 1, characterized in that the rod of the power cylinder is hollow, and the elastic element of the compensator is fixed to the inner end of the rod.

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