RU1813359C - Hothouse temperature control device - Google Patents

Abstract

Usage: agriculture, plant growing protected ground. The invention improves the operational reliability and accuracy of maintaining the required temperature conditions. The device for controlling the temperature of the air in the greenhouse comprises a movable transom 2 of the ventilation opening connected to. through flexible connections, a counterweight 8 and an open container 5. In this case, the latter is in communication with a water supply source through a pipe 11 on which a control hydro 2 valve 12 is installed. In this case, the hydrocrane 12 is controlled via a thrust and a lever from the temperature sensor of the beginning of the mode of ventilation of the greenhouse. An open container 5 is made with a drain hole in which a fitting of a hydraulic valve is mounted, which is controlled through a lever and a pull from the temperature sensor at the end of the ventilation mode. During operation, when the temperature rises above a predetermined limit according to the sensor signal, the temperature of the beginning of the ventilation mode, the tank 5 is filled with water and, acting through the rod 6, opens the transom 2, pivotally mounted relative to the frame 1 of the greenhouse. When the temperature drops below a predetermined limit by a signal, the temperature sensor of the end of the ventilation mode opens the drain hole and the bottom of the tank 5 and its weight decreases, which causes the transom to return to its original state. 3 ill. Soda SL SO SA SO eat

Description

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The invention relates to agriculture, in particular, to constructions of devices for automatically maintaining the required temperature conditions in greenhouses.

The purpose of the invention is to increase the accuracy of maintaining the required temperature and operational reliability of the device.

In FIG. 1 shows a General view of the device; in FIG. 2 - node in FIG. 1; in FIG. 3 - node II in FIG. 1.

A device for controlling the temperature of the air in the greenhouse comprises a fanlight 2 ventilation openings relative to the frame 1 of the greenhouse, temperature sensors 3 and 4, respectively, of the beginning and end of the ventilation mode, made, for example, in the form of bonded plates with different coefficients of linear expansion, an open container 5 for water, through the first flexible link 6 through the rollers 7 suspended from the movable transom 2, the counterweight 8, the second flexible connection 9 is connected, through the bracket 10, to the transom 2 cured relative to the frame 1.

An open reservoir 5 is connected through a conduit 11 with a control hydraulic valve 12 with a drain pipe 13 to a water supply source (pressure pipe or open reservoir). The fitting 14 of the hydraulic valve 12 is mounted on a leaf spring 15, mounted on the bracket 16 of the frame 1, on which the temperature sensor 3 of the ventilation start is also fixed, which is connected via a spool 17 and a control lever 18 to the valve spool 19 of the hydraulic valve 12, a locking element 20 of which overlaps the drain hole 21 of the crane 12. A lever 22 is mounted on the nozzle 14 of the hydraulic valve 12, which is connected by a third flexible connection 23 to an open container 5, and by a connection 24 through an oval hole 25 with an arm 26 fixed to the frame 1. Capacity 5 you it is filled with a drain hole 27 in which the fitting 28 of the controlled hydrocrane 29 is installed, the spool 30 of which is connected through the control lever 31 and the adjustable rod 32 to the temperature sensor 4 of the end of the ventilation mode.

A device for controlling the temperature of the air in a greenhouse operates as follows.

With the transom 2 closed, the container 5 is empty and is in the upper extreme position, and the counterweight 8 is in the lower extreme position.

At a temperature above a predetermined temperature, the beginning of the ventilation mode of the sensor plate 3 bends down, moves the adjustable rod 17 and the control lever

18, which in turn move the spool valve 19 of the hydraulic valve 12 towards the opening of the drain hole 21 of the hydraulic valve 12 and allow water to enter the open container 5, which, through

the flexible link 6 moves the transom 2 relative to the frame 1, opening the ventilation opening, while the counterweight 8 connected to the transom 2 with the flexible link 9 moves up.

5

At the same time, the container 5, having lowered to its lowest position, acts on the lever 22 through a flexible connection 23 and, due to the bending of the spring 15, rotates the control hydrocrane 12, including with respect to the lever 18, which moves the spool 19 towards the closed drain holes 21, the latter is blocked by the locking element 20, and the flow of water

5 into the open container 5 is terminated. In this case, in order to prevent the dynamic influence of the tank 5 on the sensitive elements of the system, the communication 24 moves within the oval hole 25 and transfers the force of the action of the tank 5 to the frame 1. At the air temperature in the greenhouse below the set temperature of the end of the ventilation mode of the sensor plate 4 bend upward, moving through rod 32

5 and a control lever 31, a spool 30 of a controlled hydrocrane 29, opening the discharge of liquid and open tank 5 into the irrigation system of the greenhouse. Tank 5, when empty, moves up, counterweight 8 down.

0 Counterweight 8, acting on transom 2, closes it.

This device for controlling the temperature of the air in the greenhouse has increased operational unreliability, accuracy of maintaining a given temperature regime and reduced dimensions of system elements placed in the greenhouse.

Claims (1)

The claims 0 A device for controlling the temperature of the air in a greenhouse, comprising a ventilation transom mounted on a hinge frame, equipped with a drive for its movement, including sensors for starting and ending temperatures of the ventilation mode, characterized in that in order to increase the accuracy of maintenance. of the required temperature and operational reliability of the device, the movement drive is equipped with an open container kinematically connected through the first flexible connection to one edge of the ventilation transom, the opposite edge of which is connected to the counterweight through the second flexible connection, while the open container is hydraulically connected to the water supply through the control hydrocrane, the spool of which is connected to the temperature sensor of the beginning of ventilation mode by means of the first control lever, and the nozzle the equivalent hydraulic crane is cantilever mounted on 0 a leaf spring with limited movement with respect to the frame of the greenhouse and is equipped with a lever kinematically connected by means of a third flexible connection with an open container, and a drain hole is made in the lower part of the latter, in which a controlled hydraulic nozzle is arranged, the spool of which by means of the second control lever engaged with a temperature sensor for the end of ventilation mode. Fi g. 2 fcj / LU