RU2601349C1 - Method for storage of agricultural equipment - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular to devices for storage of machines and equipment for agricultural purposes. Method for storage of agricultural equipment includes placement of equipment in a sealed cover made common for equipment, maintaining required temperature and relative air humidity inside cover and controlling air parameters. Prevention of formation of condensate on surfaces of objects and dome-shaped cover is achieved by heating to temperature higher than dew point. In air space between equipment and jacket there are infrared radiators, connected to a control unit, having a temperature control and air humidity sensors under cover. Distribution of infrared radiation on surface of storage object is provided by using as material of dome-shaped cover an isothermal material with high reflecting capacity.

EFFECT: technical result consists in improvement of conditions for storage of equipment in a sealed cover.

1 cl, 1 dwg

Description

The invention relates to the field of agriculture, in particular to devices for storing machinery and equipment for agricultural purposes.

A known method of group storage of weapons and equipment, including the placement of objects of equipment, in general, for an airtight shelter, which is performed with a wall enclosure and coating, maintaining the required temperature and relative humidity inside the shelter is achieved by blowing air with lower relative humidity and controlling parameters air. At the same time, air drainage in an airtight shelter is carried out in a closed loop: air drainage installation - airtight shelter - mixing of dried air with humidified air - air drainage installation, until the required air parameters are obtained inside the airtight shelter (RF patent No. 2213838, IPC Е04Н 6/08, F41H 7/00, announced May 15, 2002, published October 10, 2003).

The disadvantage of this method is the instability of the temperature inside the airtight shelter due to the presence of heat loss through the outer wall enclosure, and therefore, the instability of the relative humidity inside the airtight shelter and the deterioration of the storage conditions of the equipment. In addition, in the known method, the temperature and relative humidity of the air are maintained and controlled only within the airtight shelter common to all objects of technology, which does not give an unambiguous answer about the value of these parameters inside and on the surface of the storage objects, which worsens the storage conditions.

A known method of group storage of weapons and equipment, including the placement of equipment in an individual airtight shelter of the "half-case" type, maintaining the required temperature and relative humidity inside each equipment by blowing air with lower relative humidity and controlling the air parameters inside the shelter. The dehumidification of the air in an airtight shelter is carried out in a closed loop: the installation of air drainage - the internal volume of the storage object - mixing the dried air inside the storage object with humidified air - to dry the air until the required air parameters inside the storage object are obtained (RF patent No. 2213837, IPC Е04Н 6 / 08, F41H 7/00, announced May 15, 2002, published October 10, 2003).

A disadvantage of the known method is that the shelter has a low thermal performance, which leads to its sensitivity to even slight fluctuations in the temperature of the ambient air, and therefore reduces the stability of the air temperature inside the cover, which, as a result, reduces the stability of humidity parameters inside facility and affects the storage conditions of equipment. Moreover, in the known method, the process of lowering the relative humidity of the air takes place inside a closed volume (in the internal volume of the storage object) and in a closed cycle: when the relative humidity increases, dried air is passed through the internal volume of the storage object and mixed with air of the internal volume of the storage object until until air with the required humidity is formed in its internal volume. However, when mixing the air, formation of stagnant zones inside the object is possible, in which increased air humidity is preserved, which worsens the quality of the air inside the storage object, and therefore worsens the storage conditions of the equipment. Moreover, since temperature and relative humidity sensors are installed inside a sealed shelter, this does not provide reliable information about the parameters of the air inside and on the surface of storage facilities, which affects the storage conditions of the equipment.

Closest to the proposed method is a method for group storage of equipment and a device for group storage of equipment, including placing objects in an airtight shelter, maintaining the required temperature and relative humidity inside the shelter by blowing air with lower relative humidity and controlling air parameters. Sealed shelter made common to all objects of technology. A damper zone is formed around the airtight shelter, which separates the shelter from the external environment, and the damper zone is formed with the possibility of entering through it into the airtight shelter. At the same time, the internal volumes of objects of technology are first purged with air, and then the internal volume of a sealed shelter is purged. To purge a sealed shelter, air is used, which is released as a result of purging from the internal volumes of storage objects. At the same time, air-tight convection of each object of equipment is provided in an airtight shelter and an individual purge mode is set by changing the pressure of the air stream so that in the internal volumes of the object the relative humidity and air temperature corresponding to the climatic conditions of storage of the equipment are achieved simultaneously. Air purging of the internal volumes of objects of technology is performed until the temperature and relative humidity of the air have reached the set values inside the airtight shelter (RF patent No. 2361049, IPC Е04Н 14/00, filed June 21, 2007, published July 10, 2009) .

The disadvantage of this method is that the process of reducing the relative humidity of the air occurs inside a closed volume (in the internal volume of the storage object) and in a closed cycle: when the relative humidity increases, dried (heated) air is passed through the internal volume of the storage object and mixed with internal air volume of the storage object until air with the required humidity is formed in its internal volume. However, when the air is heated, condensation may form on the cooled surfaces of the object of technology, and therefore, deteriorate the storage conditions of the equipment. At the same time, temperature and relative humidity sensors are installed inside an airtight shelter, which does not provide reliable information about the likelihood of a dew point on the surface of objects of technology, which affects their safety.

The main fundamental differences of the proposed method from existing analogues are:

1. Prevention of condensation on the surfaces of objects of technology and a dome-shaped cover is carried out by heating them to a temperature above the temperature of formation of the dew point.

2. In the air gap between the object of technology and the cover installed infrared emitters connected to the control unit, which includes sensors for monitoring temperature and humidity under the cover.

3. The distribution of infrared radiation over the surface of the storage object is ensured by using isothermal material with a high reflectivity as a domed cover material.

The task is to improve the storage conditions of equipment in an airtight shelter.

The technical result is that the prevention of condensation on the surface of objects of technology is carried out by heating the surface of objects of technology and a domed cover to a temperature above the temperature of formation of the dew point.

The technical result is achieved by the fact that the method of storage of agricultural machinery includes placing equipment in an airtight shelter, made common for equipment, maintaining the required temperature and relative humidity inside the shelter and controlling air parameters, preventing the formation of condensate on the surfaces of equipment and a domed cover by heating them to a temperature above the dew point formation temperature, in the air gap between the object of technology and h hlom mounted infrared emitters connected to the control unit having a sensor incorporating temperature control and humidity under the cover, wherein the infrared radiation distribution over the surface of the storage facility is provided using as material isothermal dome cover material with high reflectivity.

The invention is illustrated in FIG. 1, which shows a general view of a device for storing agricultural machinery.

A dome-shaped cover 2 is fixed on the frame 1, under which the object of technology 3 is located. In the air gap between the object of technology 3 and the cover 2 are installed infrared emitters 4, 5, 6, connected to the control unit 7, which incorporates temperature sensors 8 and air humidity 9 under the cover, as well as surface temperature sensors of the equipment object 10 and cover 11.

In an open area, a metal frame 1 of the required shape and size was installed. The shape of the frame 1 corresponds to the shape of the object of technology 3. As a result, a dome-shaped cover 2 of the required shape and size with an air gap between the cover 2 and the object of technology 3 is formed on the frame 1. Heat exchange with the environment can occur in several ways: convection, heat transfer and radiation. A convection method of heat transfer is possible with a sufficiently large layer of air between the domed cover 2 and the object of technology 3. In this case, air circulates in the air gap between the object of technology 3 and the cover 2. Heat transfer occurs when the parts of the equipment are unevenly heated, especially with a sharp change ambient temperature. Heat transfer helps to equalize temperatures between the object of technology 3 and the environment and avoids moisture condensation during a gradual change in temperature. The transfer of environmental heat by radiation through an isothermal material, the outer and inner surfaces of which are silver, is insignificant, for the IZOKOM material it is from 1 to 3 percent, depending on the thickness.

Thus, a high probability of condensation formation occurs during sharp fluctuations in temperature, as well as during depressurization of the cover 2 or depreservation of the object of technology 3. In the air gap between the object of technology 3 and cover 2, infrared emitters 4, 5, 6 are installed that generate infrared radiation for heating solids and the exclusion of condensation on the surfaces of the object of technology 3 and the dome-shaped cover 2. Since air is an optically transparent medium, its heating by radiation is minimal, and condensation Agi on warmer solids - an object of technology 3 and a dome-shaped cover 2. The infrared emitter 4, 5, 6 is controlled by a control unit 7, which includes sensors 8, 9 for monitoring temperature and humidity under the cover, as well as sensors 10 , 11 the surface temperature of the object of technology 3 and the cover 2. Analysis of the sensor readings allows the control unit to determine the moment of dew point drop and ensure that infrared emitters are turned on only at critical moments.

Using the inventive device will protect the equipment from exposure to atmospheric moisture, which prevents the appearance of corrosion and increases the reliability of agricultural machinery.

Claims (1)

A method of storing agricultural machinery, including placing equipment in an airtight shelter made common for equipment, maintaining the required temperature and relative humidity inside the shelter and controlling air parameters, characterized in that the prevention of condensation on the surfaces of the equipment and a domed cover is carried out by heating to a temperature above the dew point formation temperature, and are installed in the air gap between the equipment and the cover and infrared emitters connected to a control unit incorporating sensors for monitoring temperature and humidity under the cover, and the distribution of infrared radiation over the surface of the storage object is ensured by using an isothermal material with high reflectivity as a domed cover.

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