RU2756858C1 - Greenhouse ventilation device - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention can be used in agriculture when growing plants in greenhouses, mostly remote from the place of residence of people garden plots and farms. The device for ventilating the greenhouse contains a fixed unit installed in it. A movable bucket is suspended from the rim of the block on a flexible rod, in which the axis of the hinge joint of the handle of the bucket with the bucket is located just below the center of gravity of the bucket filled with water, but above the center of gravity of the empty bucket. Also, the ends of two cables are attached to the rim of the block, each of which passes through the opposite greenhouse door and is connected to it by a detachable connection. A counterweight is suspended at the other end of each cable that bends around a fixed block outside the greenhouse. In addition, an adjustable door angle limiter is installed on each greenhouse door. In the horizontal plane of the cable of each door, a part in the form of a sector of a circle with a groove along the arc of the sector's circumference is mounted to it on both sides, and the centers of the sectors of the circle are located on the axis of rotation of the door. In addition, water from a water supply source through a tube through a water flow rate regulator enters a tank located in the upper part of the greenhouse. A drain pipe is attached to the bottom of the tank, equipped with a water flow rate regulator. The other end of the tube is fixed above the bucket in the uppermost position. An overflow pipe is connected to the side of the tank, the other end of which is fixed above the sink, connected to a perforated pipe located in the ground.

EFFECT: use of the invention will allow during the working week maintaining the optimum temperature for plants in the greenhouse in automatic mode without the presence of a person.

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Description

The invention relates to the field of agriculture and can be used for growing plants in greenhouses in garden plots and farms, mainly remote from the place of residence of people.

A device for ventilating a greenhouse is known (see RF patent No. 2632328, published 04.10.2017, Bull. No. 28), containing a stationary block installed in the greenhouse with grooves around the circumference of the rim. A bucket is suspended from the rim on a flexible rod, in which the axis of the hinge joint of the handle of the bucket with the bucket is located just below the center of gravity of the bucket filled with water, but above the center of gravity of the empty bucket. Also, the ends of two cables are attached to the rim of the block, each of which passes through the opposite door of the greenhouse and is connected to it with a detachable connection. A counterweight is suspended at the other end of each cable that bends around a fixed block outside the greenhouse. In the upper part of the device there is a tank with water and a flexible tube connecting the tank with a bucket through a regulator of the water flow rate. In addition, an adjustable door opening angle limiter is installed on each greenhouse door.

Widespread typical greenhouses are equipped with hinged doors with a vertical axis of rotation. During the opening and closing of the door, the angle between the cable connected to the door and the door leaf constantly changes its size, which causes a change in the traction force in the cable. For this reason, the device will not work with a sufficiently large door opening angle.

The constant lowering of the water level when it flows out of the tank installed in the upper part of the greenhouse and the movement, together with the movable bucket, of the flexible water pipe connecting the tank to the bucket leads to an uneven outflow of water into the bucket. As a result, an error will gradually accumulate, which will lead to a shift in the set opening and closing times of the doors.

The aim of the present invention is to create the most favorable conditions for growing plants in a greenhouse.

This goal is achieved by the fact that in the known device for ventilating a greenhouse containing a fixed block installed in it with grooves around the rim, a movable bucket is suspended from the rim on a flexible rod, in which the axis of the hinge joint of the bucket handle with the bucket is located just below the center of gravity of the bucket filled with water , but above the center of gravity of the empty bucket, the ends of two cables are also attached to the rim of the block, each of which passes through the opposite door of the greenhouse and is connected to it with a detachable connection, and at the other end of each cable that bends around the fixed block outside the greenhouse, a counterweight is suspended, except In addition, an adjustable limiter of the door opening angle is installed on each greenhouse door, in the horizontal plane of the cable of each door to the inner and outer sides of the door, a part is mounted in the form of a sector of a circle with a groove along the arc of the sector's circumference, and the centers of the sectors of the circle are located on the vertical axis of rotation of the door, in addition water from isto from the water supply through a storage tube equipped with a water flow rate regulator, it enters the tank from above, located in the upper part of the device, in addition to the lower part of the tank, a drain tube equipped with a water flow rate regulator is connected, while the other end of the tube is fixed above the uppermost position. a bucket, an overflow pipe is also attached to the side of the tank, the other end of which is fixed above the sink, connected to a perforated pipe located in the ground.

The cable, bending around the gutters of the sectors of the circle of each greenhouse door when it is opened and closed, changes only the direction of the pulling force, but not its value. The constant value of the pulling force of the cable determines the possibility of maximum opening of each door by 90 °.

The overflow tube of the tank located in the upper part of the device maintains a constant upper water level in it, and the end of the tank drain pipe, which is fixed above the bucket in the uppermost position, maintains a constant lower water level.

The stable height of the water column ensures a uniform flow of water into the bucket and, accordingly, ensures compliance with the established mode of opening and closing the greenhouse doors.

FIG. 1 shows a general view of the described device, FIG. 2. Greenhouse door assembly.

The device for ventilating the greenhouse has a fixed block 1 mounted on a support with three grooves around the circumference of the rim. In the middle groove on a flexible textile tape or cable 2, a bucket 3 is suspended, in which the pivot axis of the handle of the bucket 4 with the bucket is located just below the center of gravity of the bucket filled with water, but above the center of gravity of the empty bucket. To reduce the requirements for the accuracy of manufacturing and installation of the articulated joint, it is necessary to increase the distance between the above centers of gravity. This is achieved by attaching to the bottom of the bucket additional weight 5, made in the form of a metal disk. The ends of two cables 6 are attached to the free grooves of the rim, each of which runs horizontally along the groove of the sectors of the circle 7 of the door 8 and is connected to it with a detachable connection 9. This connection is a clamp in the form of a bolt with a washer installed in the groove at the outer side of the door. At the other end of each cable, which bends around the fixed block 10 installed outside the greenhouse, a counterweight 11 is suspended. The counterweight can be made in the form of a basket suspended from the cable end, in which a plastic bottle with water is placed. The source of water supply can be a permanent water supply network or an autonomous container 12 installed at a height outside the greenhouse. A tube 14 is connected to the container 12 through a water flow rate regulator 13, the lower end of which is fixed above the tank 15 located in the upper part of the greenhouse. To the bottom of the tank 15 is connected a drain tube 16 equipped with a water flow rate regulator 17. The other end of the tube 16 is fixed above the bucket in the uppermost position.

With a door width of a typical greenhouse of 80 cm and a maximum opening of each greenhouse door of 90 °, the movement of the movable bucket will be 60 cm. An overflow pipe 18 is attached to the side of the tank 15, the other end of which is fixed above the sink 19, connected to a perforated pipe 20 located in the ground. Alternatively, the lower end of the overflow tube can be led out of the greenhouse. As regulators of the rate of flow of water, you can use the fuel taps of gasoline-powered saws and motorcycles, to which rubber and plastic pipes are suitable. It is recommended to use a radial needle bearing (without rings) in the pivot joint of the bucket handle with the bucket. The bucket cantilever axis will replace the inner ring of the bearing, and the manufactured outer ring will also serve as the basis for attaching the bucket handle to it.

The device works as follows. In the morning, when the empty bucket 3 is in the upper position, and the counterweights 11 are in the lower one and both doors 8 of the greenhouse are open, water is supplied to the bucket through the water flow rate regulators 13 and 17. In this case, the excess water flowing into the tank 15 from the tank 12 is fed into the overflow pipe 18. In the evening, 12 hours after the start of the water supply, the weight of the bucket half filled with water will exceed the total weight of the counterweights 11 and the bucket will drop to the lower position, while closing the greenhouse doors ... In the morning of the next day, 12 hours after the doors are closed, the center of gravity of the bucket filled with water will rise above the hinge axis of the handle of the bucket 4 with the bucket 3 and the bucket will tip over, draining the water. Then the empty bucket rises to the top position and the cycle repeats. In addition, it is possible to adjust in time the periods of open and closed doors of the greenhouse by changing the weight of the counterweights. The counterweight decreases and the period of open doors decreases and the period of closed doors increases. The counterweight becomes larger and the period of open doors increases and the period of closed doors decreases. With a sufficiently long change in the outside temperature, the door opening angle is adjusted. As the temperature rises, the length of the cord attached at one end to the door and the other to the doorway increases, while decreasing it decreases.

The use of the invention will allow during the working week to maintain the optimum temperature for plants in the greenhouse in automatic mode without the presence of a person.

Claims (1)

A device for ventilating the greenhouse, containing a fixed block installed in it with grooves around the circumference of the rim, a movable bucket is suspended from the rim on a flexible rod, in which the axis of the hinge joint of the bucket handle with the bucket is located just below the center of gravity of the bucket filled with water, but above the center of gravity of the empty bucket , also the ends of two cables are attached to the rim of the block, each of which passes through an opposite greenhouse door and is connected to it with a detachable connection, and a counterweight is suspended at the other end of each cable that goes around a fixed block outside the greenhouse, in addition, a counterweight is installed on each greenhouse door an adjustable door opening angle limiter, characterized in that in the horizontal plane of the cable of each door to the inner and outer sides of the door, a part is mounted in the form of a sector of a circle with a groove along the arc of the sector's circumference, and the centers of the sectors of the circle are located on the vertical axis of rotation of the door, in addition, water from the source of water supply to a storage tube equipped with a water flow rate regulator enters the tank from above, located in the upper part of the device; in addition to the lower part of the tank, a drain tube equipped with a water flow rate regulator is connected, while the other end of the tube is fixed above the bucket in the uppermost position, also an overflow pipe is connected to the side of the tank, the other end of which is fixed above the sink, connected to a perforated pipe located in the ground.

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