RU171120U1 - DEVICE FOR AUTOMATIC HEATING OF GREENHOUSE - Google Patents

Abstract

The device for automatically ventilating the greenhouse is made in the form of a ventilation window of the greenhouse, it contains a frame, an outer polycarbonate sheet, an inner polycarbonate sheet that is shorter in size than the outer polycarbonate sheet, fixed in the frame. The inner polycarbonate sheet and the outer polycarbonate sheet have windows, which, in turn, are arranged in rows along the entire surface of the outer polycarbonate sheet and the inner polycarbonate sheet and are designed so that when the inner polycarbonate sheet is shifted upward, the windows open and, when shifted downward, are closed by the outer surfaces polycarbonate sheet and inner polycarbonate sheet. With increasing air temperature in the greenhouse, the working fluid in the hydraulic cylinder expands and drives the piston of the hydraulic cylinder, which displaces the inner polycarbonate sheet through the hydraulic cylinder rod. The inner polycarbonate sheet and the outer polycarbonate sheet are connected by the attachment unit of the outer polycarbonate sheet and the inner polycarbonate sheet, which is configured to move the inner polycarbonate sheet up and down through the slot in it. In addition, a compression spring is freely mounted on the hydraulic cylinder, which is mounted on the hydraulic cylinder, fixed at one end to the frame and at the other end to the attachment unit of the hydraulic cylinder rod to the smaller movable sheet, thereby contributing to the displacement of the inner polycarbonate sheet and its return to its original position.

Description

The utility model relates to the field of agriculture and homestead farming and can be used in the design of the greenhouse for its automatic ventilation.

A device is known (RU 2028759 C1), which serves to regulate the temperature in the greenhouse, which contains a temperature controller for the greenhouse and consists of a hydraulic cylinder filled with a heat-sensitive liquid (working fluid, granules of solids (polyethylene, capron, polyamide, etc.) or paste with high coefficient of thermal expansion). When air is heated in a greenhouse, granules from solids expand and the liquid, increasing in volume, pushes the piston of the hydraulic cylinder, thereby driving the hydraulic cylinder rod, which, in turn, opens the transom through a special drive, providing air to the greenhouse.

Known thermoregulation device for ventilation of greenhouses (RU 2906 U1), which contains a hydraulic cylinder with a working fluid, which increases in volume with increasing temperature in the greenhouse, the piston of the hydraulic cylinder. With an increase in volume, the working fluid pushes the piston, which acts through the rail on the ventilation flaps, which, rising above the greenhouse, provide air ventilation and maintain the desired temperature in the greenhouse.

As a prototype of the claimed utility model, a device (US 5236124 A) was selected for the automatic ventilation of buildings, such as winter gardens, glazed terraces and greenhouses. The known device contains a frame that contains a hydraulic cylinder filled with a working fluid, a hydraulic cylinder piston, which is driven by a heat-sensitive filler. When air is heated in a greenhouse, the heat-sensitive filler in the hydraulic cylinder heats up and expands, driving the piston of the hydraulic cylinder, which, through the piston rod, drives the mechanism that folds the curtain, thereby opening the openings of the blinds for air passage.

The device described in the prototype has a complex structure.

The advantage of the proposed utility model is the simplicity of the device. The proposed device expands the arsenal of technical devices designed to perform automatic ventilation of greenhouses.

The difference between the proposed device for automatic ventilation of the greenhouse is that it is made in the form of a ventilation window of the greenhouse and consists of a frame, an outer polycarbonate sheet fixed along the perimeter of the frame, an inner polycarbonate sheet that is shorter than the outer polycarbonate sheet, while the inner sheet polycarbonate is built into the frame with the ability to move the relative outer polycarbonate sheet up and down, while the outer polycarbonate sheet and the inner polycarbonate sheet have windows to which, in turn, are arranged in rows along the entire surface of the outer polycarbonate sheet and the inner polycarbonate sheet and are designed so that when the inner polycarbonate sheet is shifted upward, the windows open, and when shifted downward, they are closed by the surfaces of the outer polycarbonate sheet and the inner polycarbonate sheet, with the hydraulic cylinder with the working fluid is connected to the frame, and the hydraulic cylinder rod connected to the hydraulic cylinder piston is also connected to the attachment unit of the hydraulic cylinder rod to the inner sheet of the poly rbonate, a compression spring, which is freely mounted on the hydraulic cylinder and is fixed on one side by the hydraulic cylinder and connected to the rod of the hydraulic cylinder, the attachment unit of the outer polycarbonate sheet and the inner polycarbonate sheet, configured to move up and down through the slot in the inner polycarbonate sheet.

The purpose of the device for automatic ventilation of the greenhouse is due to the fact that it is made in the form of a ventilation window of the greenhouse, which can be mounted in any flat or almost flat surface of the greenhouse, and consists of a frame attached along the perimeter of the frame of the outer polycarbonate sheet, also located inside the frame a polycarbonate sheet shorter in length than the outer polycarbonate sheet arranged in parallel and pressed against each other, with the possibility of moving the inner sheet up and down wherein the outer polycarbonate sheet and the inner polycarbonate sheet have windows, which, in turn, are arranged in rows along the entire surface of the outer polycarbonate sheet and the inner polycarbonate sheet so that when the inner polycarbonate sheet is shifted upward, the windows open, and when shifted downward, they are closed by surfaces the outer polycarbonate sheet and the inner polycarbonate sheet, wherein the outer polycarbonate sheet and the inner polycarbonate sheet are connected by the attachment unit of the outer polycarbonate sheet This and the inner polycarbonate sheet, which is configured to move up and down through the slot in the inner polycarbonate sheet, also the device contains a hydraulic cylinder with a working fluid, while the rod is attached to the piston of the hydraulic cylinder, in addition, the hydraulic cylinder is attached to the frame on one side, and the rod the hydraulic cylinder is attached to the mounting unit of the hydraulic cylinder to the inner sheet of polycarbonate, a compression spring, which is freely mounted on the hydraulic cylinder and fixed at one end to the hydraulic cylinder, and at the other end and to the cylinder rod.

In FIG. 1 shows a view of a device for automatically ventilating greenhouses, made in the form of a ventilation window, from the inside of the greenhouse, in the open state;

in FIG. 2 shows a view of a device for automatically ventilating greenhouses, made in the form of a ventilation window, on the outside of the greenhouse, in a closed state;

in FIG. 3 shows the fastening of a hydraulic cylinder with a rod and compression spring to the frame, where:

1 - frame

2 - upper part of the frame

3 - side of the frame

4 - opposite side of the frame

5 - lower part of the frame

6 - outer polycarbonate sheet

7 - inner polycarbonate sheet

8 - windows

9 - a hydraulic cylinder

10 - compression spring

11 - a rod of a hydraulic cylinder

12 - attachment of the hydraulic cylinder to the frame

13 - attachment of the cylinder rod to the inner polycarbonate sheet

14 - mount the outer sheet of polycarbonate and the inner sheet of polycarbonate

15 - slot in the inner polycarbonate sheet

Utility Model Implementation

The device for automatic ventilation of the greenhouse is made in the form of a ventilation window of the greenhouse, which can be mounted in any flat or almost flat surface of the greenhouse and has two states: open, which allows air to circulate freely into and out of the greenhouse, and closed, preventing air circulation outside and inside the greenhouse.

In FIG. 1 shows the specified device, made in the form of a ventilation window of a greenhouse, consisting of a frame 1, in turn consisting of successively fastened upper part of a frame 2, a side part of a frame 3, an opposite side of a frame 4, a lower part of a frame 5, attached to the frame around the perimeter of the outer a polycarbonate sheet 6, also housed therein an inner polycarbonate sheet 7, fastened by a fastening unit of the outer polycarbonate sheet and the inner polycarbonate sheet 14 through a slot in the inner polycarbonate sheet 15 having an eye ki 8 which, in turn, are arranged in rows across the surface of the above-mentioned sheets.

As seen in FIG. 1, in the open state of the device, windows 8 of the inner sheet of polycarbonate 7 and windows 8 of the outer sheet of polycarbonate 6 are at the same level due to the displacement of the inner sheet of polycarbonate 7 relative to the outer sheet of polycarbonate 6, thereby providing air to the greenhouse.

In FIG. 2 shows a device for automatically ventilating a greenhouse in a closed state. The windows 8 of the inner polycarbonate sheet 7 and the windows 8 of the outer polycarbonate sheet are closed by the surfaces of said polycarbonate sheets, preventing air from entering the greenhouse.

As seen in FIG. 1, the inner polycarbonate sheet 7 and the outer polycarbonate sheet 6 are fastened to each other by the attachment unit of the inner polycarbonate sheet and the outer polycarbonate sheet 14, which allows the polycarbonate sheets to move relative to each other through a slot in the inner polycarbonate sheet 15, while being snug against each other.

In FIG. 3 shows a hydraulic cylinder 9, which is fixed at one end to the frame 1. The rod of the hydraulic cylinder 11 is attached to the mounting unit of the hydraulic cylinder to the inner sheet of polycarbonate 13. A compression spring 10 is freely mounted on the hydraulic cylinder 9, which is fixed at one end to the hydraulic cylinder 9, and the other end is attached to hydraulic cylinder rod 11.

A device for automatic ventilation of a greenhouse operates as follows.

When the temperature rises above 22 ° C in the hydraulic cylinder 9, the working fluid containing granules of solid filler having a large coefficient of thermal expansion (polyethylene, kapron, polyamide, etc.), or paste with a high coefficient of thermal expansion, which expand from heat, increasing in volume the fluid drives the piston of the hydraulic cylinder, which pushes the rod of the hydraulic cylinder 11, which in turn displaces the inner polycarbonate sheet 7 through the attachment rod of the hydraulic cylinder rod to the inner polycarbonate sheet 13 itelno polycarbonate outer sheet 6, 8 with windows coincide and air flows freely to the greenhouse.

When the temperature drops below 22 ° C, the working fluid in the hydraulic cylinder 9 decreases in volume due to a decrease in the volume of granules from solid bodies and the piston of the hydraulic cylinder is drawn into the hydraulic cylinder 9. The compression spring 10 in turn enhances the movement of the hydraulic cylinder piston and helps the hydraulic cylinder 11 to slide the inner sheet down polycarbonate 7, thereby returning to a closed state a device for automatically ventilating the greenhouse, while the windows 8 of the inner sheet of polycarbonate 7 and the outer sheet of polycarbonate 6 are closed by turning character of these sheets.

Claims (1)

A device for automatically ventilating a greenhouse comprising a frame, a hydraulic cylinder with a working fluid, a hydraulic cylinder piston to which a hydraulic cylinder rod is attached, characterized in that it is made in the form of a greenhouse ventilation window and contains an outer polycarbonate sheet attached perimeter to the frame, an inner polycarbonate sheet, smaller in length than the outer polycarbonate sheet, placed in the frame with the possibility of displacement up and down, while the outer polycarbonate sheet and the inner polycarbonate sheet are They are parallel and pressed against each other, in addition, the inner polycarbonate sheet and the outer polycarbonate sheet have windows, which, in turn, are arranged in rows along the entire surface of the outer polycarbonate sheet and the inner polycarbonate sheet and are designed so that when the inner sheet is shifted upward windows open, and when shifted down, they are closed by the surfaces of the outer polycarbonate sheet and the inner polycarbonate sheet, in addition, the outer polycarbonate sheet and the inner polycarbonate sheet with are connected by a mounting unit, the inner polycarbonate sheet being displaced up and down by making a slit therein, while the hydraulic cylinder is attached to the frame on one side, and the hydraulic cylinder rod is attached to the mounting unit of the hydraulic cylinder to the inner polycarbonate sheet, and the compression spring is freely mounted on the hydraulic cylinder and is fixed at one end to the hydraulic cylinder, and at the other end to the hydraulic cylinder rod.

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