RU2213837C1 - Method for keeping of armament and equipment in bulk - Google Patents

Abstract

FIELD: military equipment. SUBSTANCE: the method consists in supply of dried air to vehicles, distribution of it inside the vehicles and discharge of humid air from them, provision is made for independent operating conditions "drying" and " ventilation" due to creation of a process line of group keeping of armament and equipment. EFFECT: reduced labor content in keeping of objects by 85%. 2 cl, 1 dwg

Description

 The method of group storage of weapons and equipment relates to storage means, in particular to methods of protecting machinery and equipment installed in open areas or under awnings, from environmental influences.

 Storage of weapons and equipment is one of the main elements of operation. Storage of machines consists in the maintenance of serviceable and specially prepared machines (preserved using the means and methods of protection against environmental influences established by regulatory and technical documentation) in a state that ensures their safety and is ready for use on time.

 To ensure the combat readiness of a large number of weapons and equipment, it becomes necessary to use effective means of conservation at the places of their storage, which provide reliable protection from the harmful effects of the environment for the entire period of their storage. This requires a lot of labor for their implementation.

 There is a known method of sealing machines when storing a "half-case" (see Guidelines for the storage of armored weapons and equipment. - M .: Military Publishing House, 1985, p. 121, 122, 124, 231, 233, 236).

 This method is adopted as a prototype and is its basic object. The essence of the method is to cover the upper part of the machine with a half-case made of a moisture-proof material, seal the leaks in the lower part of the case with special fabrics and putties and dry the air inside the sealed machine using silica gel.

 The technological process of sealing machines by the “half-case” method includes the following operations: preparing the machines for sealing, covering the machines with a half-case, gluing the half-case to the machine body along its perimeter, sealing the lower part of the body and loading silica gel.

 Silica gel is designed to dehumidify air in sealed machines in order to maintain a relative humidity of 20-60% within the housing, in which the aggregates, components, devices and parts are reliably protected from corrosion.

 Pre-dried silica gel is loaded into the machine packaged in fabric bags. The amount of silica gel depends on the brand of the machine, its storage location (open area, canopy, storage) and the macroclimatic features of the area and varies between 30-40 kg per object. Silica gel watering is monitored on a monthly basis. In case of flooding, silica gel is replaced with dried.

 As can be seen from the above example, the complexity of the work of preparing the machines for storage, keeping them in storage in this way requires a lot of labor in preparing for storage and in the process of keeping the machines in storage. In addition, this method is used only for storing a single machine.

 The objective of the invention is to reduce the complexity of the work of storing objects and increasing their shelf life.

 The technical result from the use of the invention is achieved due to the fact that the machines are prepared for sealing, covered with half covers, the half covers are glued to the machine bodies along their perimeter, the lower part of the body is sealed, and the air is dried in the facilities using special equipment by creating a production line group storage of weapons and equipment.

 In this case, the input and output hoses of the high-pressure air-drying unit are connected to the air ducts of the discharge and return (intake) lines. Drained air from the inlet of high-pressure air drainage is supplied through the discharge line duct, object gun barrels and nebulizers into the internal volumes of the objects, where it is mixed with humidified air. Humidified air from the internal volumes of objects through underwater hoses is fed into the duct of the return (intake) line, then to the inlet of the high-pressure air drainage unit. Then the drainage cycle is repeated and air is maintained within normal limits.

In this case, the operating modes are "drainage" and "ventilation". The dehumidification mode is automatically activated at an outdoor temperature of -10 ... +50 ^o C. In this case, the operation of the dehumidifier is carried out in a closed loop. The work includes both a dehumidification module and a high-pressure fan. High humidity air is supplied from the weapons and equipment storage line to the dehumidification module to a steam compression refrigeration machine with the possibility of lowering the level of relative humidity due to freezing. Next, the air is supplied by a high-pressure fan again to the production line of group storage of weapons and equipment with the possibility of a gradual decrease in the relative humidity of the air in the production line to a predetermined level at which the "drainage" operating mode is turned off.

At an outdoor temperature of -25. .. + 3 ^o С, an air heating unit is additionally included in the operation with the possibility of maintaining the air temperature inside the high-pressure air dehumidification unit 3 ... 5 ^o С, while freezing moisture condensate in the tank and providing favorable conditions for the operation of the dehumidification module.

The "ventilation" mode is automatically activated if the relative humidity of the outside air is less than the relative humidity of the air in the storage line in the temperature range of the outdoor air -25 ... +50 ^o С. The high-pressure installation in the "ventilation" mode is carried out using an open system ( the connecting sleeve of the processing line is not connected to the input of the installation). Outside air through the inlet of the high-pressure unit, the dehumidification module is fed by a high-pressure fan to the storage line. With a gradual decrease in the relative humidity of the air in the production line to the level of humidity of the outdoor air, the "ventilation" operating mode is turned off.

 In addition, they control the air parameters inside the objects of the production line and issue a control signal to the alarm system of the limiting values of the air parameters to the operator and to the high-pressure air dehumidification unit, while the temperature and humidity in the storage facilities are constantly measured and monitored, while the temperature and humidity values are simultaneously displayed .

The introduction of new elements of the method can improve the efficiency of storage of weapons and equipment in open areas and under awnings, reduce the complexity of servicing weapons and equipment by eliminating silica gel from the storage process. In addition, the proposed method has shown its versatility and can be used for long-term storage of the following objects:
weapons and military equipment both in open areas, and under awnings and in storage;
ammunition and parachute systems in storage;
electronic, optical, inertial and other complex systems of equipment and weapons in storage;
military property for various purposes in storage.

 This method is effective for controlling and maintaining the required level of humidity inside objects when not used for their intended purpose (for example, between flights, flights, going out to sea), as well as for other purposes, including in the national economy, where control and maintenance of the required level is required humidity and air temperature in a confined space (drainage, humidification, air heating).

 The invention is illustrated in the drawing.

The drawing shows the relative position and relationship of the elements of the device, explaining the operation of the proposed method of group storage of weapons and equipment, where
I - group storage processing line;
II - high-pressure installation of drainage of air (VUOV);
III - automated control and management system (ASKU);
1 - object, preserved by the method of "half-case"(HRE);
2 - air atomizer (RV);
3 - duct return (intake) line (FOCL):
4 - air duct discharge line (VNL);
5 - temperature sensor (DT);
6 - humidity sensor (LW).

7 - air heating unit (BNV);
8 - module dehumidification of air (MOB);
9 - high-pressure fan (BB);
10 - power and control panel (PPU);
11 - signal preprocessing converter (PEPOS);
12 - moisture and temperature meter (IWT);
13 - signal amplification and control unit (BUS);
14 - light and sound signaling unit (BSZS);
15 - power supply and alarm (BPS).

 The group storage line I is designed to supply drained air from a high-pressure plant to drain the air to objects, distribute it inside the objects and divert humidified air from the objects to a high-pressure plant to dry air.

 The high-pressure air dehumidification unit II is designed to maintain specified values of relative air humidity in a storage or processing line for group storage of weapons and equipment. The high-pressure dehumidification unit II consists of a dehumidification module 8 with a condensate collecting tank (not shown), an air heating unit 7, a high-pressure fan 9, a power and control panel 10.

 The electrical connection of the dehumidification module 8, the air heating unit 7 and the high-pressure fan 9 with the power and control panel 10 is carried out by electrical harnesses with pressure connectors. The power supply to the high-pressure installation of air drainage II is supplied by an electric cable, which is placed in the cabinet.

 The high-pressure air dehumidification unit II can be placed on a removable 4-wheel chassis with the possibility of moving it manually, by car or by electric car.

 The controls of the high-pressure installation of dehumidification of air II and the signaling device of the modes of its operation are located on the front panel of the power and control panel 10.

 Automated control and management system (ASKU) III is designed to control air parameters (temperature and relative humidity) inside objects, to issue control signals to a high-pressure air dehumidification unit II and to a light and sound alarm unit 14.

 An object preserved by the “half-case” method in the group storage technological line 1. The machines are prepared for sealing, covered with half-covers, glued half-covers to the machine bodies along their perimeter, the lower part of the body is sealed, the inlet and outlet hoses of the high-pressure air-drying unit II are connected to the air ducts pumping 4 and return (intake) 3 lines. The dried air from the inlet of the high-pressure air-drying unit II is fed to the air duct forcing 4 lines through nozzles into the internal volumes of the objects, where it is mixed with humidified air. Humidified air from the internal volumes of the objects is fed into the return duct (intake) 3 lines, then to the inlet of the high-pressure installation of air drainage II.

 Air spray 2 is intended for spraying dried air inside weapons and equipment. Structurally, he presents a fitting with holes.

 The group storage processing line I has two ducts - a discharge 4 and a return line 3. Each duct is made of pipes, the diameter of which depends on the number of objects and is determined by calculation. So, when storing 36 objects, the internal diameter of the ducts is 210 mm. The air ducts of the discharge 4 and return 3 lines are attached to the supports at a height that ensures the passage of objects below them on both sides, for example, 3.5 m from the ground.

 The temperature sensors 5 and humidity 6 are structurally have a single metal housing, which houses a nickel thermistor temperature sensor and a sorption-capacitive microelectronic relative humidity sensor. The signals from the sensors are fed to the signal pre-processing converters 11, which are placed together with the temperature and humidity sensors. In the drawing, the signal pre-processing converters 11 are shown separately.

The air heating unit 7 is designed to maintain a positive (5 ^o C) air temperature inside the high-pressure installation of dehumidification of air II at low (<5 ^o C) outdoor temperature.

 The composition of the air heating unit 7 includes a heating element and a temperature controller.

Block BNV 7 implements the mode of operation "drainage of air" at a low outdoor temperature. This provides favorable conditions for the operation of the steam compressor MOB 8 and eliminates the freezing of the moisture collected in the tank when the outdoor temperature drops below 0 ^o C.

 When you turn on the operation of the BCF 7 on the PPU 10, the “heating” signal lamp lights up.

BNV ensures the operation of a high-pressure installation of dehumidification of air in the "dehumidification" mode when the temperature of the outdoor air drops to -10 ^o C. Dehumidification of air inside objects at lower temperatures is impractical.

 The dehumidification module 8 is designed to reduce the relative humidity in the objects to a predetermined value by condensation (freezing) on the cooled surface of the moisture contained in the air environment of the objects. MOB 8 implements the operation mode of the "dehumidification" unit when it is combined with a high-pressure fan of the unit, which supplies humidified air from objects to the dehumidification module 8 in a closed circuit (inlet and outlet hoses are connected to a high-pressure unit of dehumidification II). Drying is carried out by a steam compressor machine (due to moisture condensation on the cooled surface of MOB 8). The dried air by a high-pressure fan in a closed circuit is again fed into the storage facilities, mixed there with moistened air and supplied to MOB 8. The operation mode “air drying” continues until the required value of relative air humidity is established inside the weapons and equipment facilities. Power supply and operation control of MOB 8 is carried out with PPU 10.

 High-pressure fan 9 implements the operating modes of the installation: "ventilation" and "drainage". The dehumidification mode of operation is realized when working together with the dehumidification module 8.

 The power supply and control panel 10 is designed to provide electrical power and control the operation of a high-pressure installation of air drying II.

 The signal pre-processing converter 11 carries out the frequency modulation of electrical signals from temperature 5 and humidity 6 sensors and feeds them to the humidity and temperature meter 12. The signal pre-processing converter 11 is structurally made together with temperature 5 and humidity 6 sensors and placed inside weapons technicians.

 The humidity and temperature meter 12 is designed to measure the frequency of the signal from the signal pre-processing converter 11, averaging it, generating and issuing control signals to the signal amplification and control unit 13, indicating measurement channel numbers, measured temperature and humidity values, and also provides for transmitting signals proportional to the measured values of temperature and humidity in the computer.

 The signal amplification and control unit 13 is designed to amplify control signals coming from a humidity and temperature meter 12, and to coordinate the load characteristics of control lines between the meter 12 and the power and alarm unit 15.

 The light and sound signaling unit 14 is intended for issuing a light and sound signaling to an operator with a relative air humidity of more than 55% and automatic shutdown of a high-pressure air dehumidification unit.

 The power and alarm unit 15 is designed to amplify control signals and match the load characteristics of the control line between the power and alarm unit 15 and the high-pressure air dryer II, as well as light and sound alarm systems 14.

 The method consists in supplying dried air with a high-pressure fan 9 through the air duct of the discharge line 4, inlet hoses, air nozzles into the internal volumes of the objects, where it is mixed with humidified air. Humidified air from the internal volume of the storage facilities through the outlet hoses enters the duct of the return (intake) line and then to the inlet of the high-pressure air dehumidification unit II. Next, the cycle repeats.

 The method provides for manual and automatic (from ASKU) control modes. In the automatic control mode, the signals for switching on the high-pressure air dehumidification unit II are received from the automated control and management system III. In manual mode - from the power and control panel 10.

 In addition, the method provides operating modes "ventilation" and "drainage". The "ventilation" mode is activated if the relative humidity of the outside air is less than the relative humidity of the air inside the objects. When the relative humidity of the outside air is greater than the relative humidity of the air inside the storage objects, the "drain" mode is activated.

The operating mode "ventilation" is carried out by an open system. At the same time, the outlet hose of the return duct (intake) of 3 lines is disconnected from the inlet of the high-pressure air-drying unit II. In this mode, only the high-pressure fan 9 is turned on, and the external air through the inlet of the high-pressure air dehumidification unit II, bypassing the air dehumidification module 8, is fed by the high-pressure fan 9 into the air duct of the discharge line and further to weapons and equipment. With a gradual decrease in the relative humidity of the outdoor air, the operation mode of the "ventilation" installation is turned off. The operating mode "ventilation" is included in the range of outdoor temperature -25 ... + 50 ^o C.

 The operating mode "drainage" is carried out in a closed system. In this case, the outlet hose of the return duct (intake) line 3 is connected to the input of the high-pressure installation of dehumidification of air II. In this mode, both the dehumidification module 8 and the high-pressure fan 9 are turned on. Air with increased relative humidity is supplied from weapons and equipment to the dehumidification module 8, where the level of relative humidity decreases due to freezing. With a gradual decrease in the relative humidity in the objects to a predetermined level, the operation mode of the "drainage" installation is turned off.

The dehumidification mode is activated in the temperature range of -10 .. +50 ^o С. At an outdoor temperature of -25 ... + 3 ^o С, an air heating unit 7 is additionally included in the operation, which ensures maintaining the air temperature inside the installation 3 ... 5 ^o С. This eliminates freezing of moisture condensate in the tank and provides favorable conditions for the operation of the dehumidification module 8.

 The application of the proposed method reduces the complexity of work on storing objects by 85%, increases the frequency of maintenance work and the shelf life of objects by 2-3 times, completely eliminates the use of silica gel.

Claims (2)

1. The method of group storage of weapons and equipment, including preparing storage facilities for sealing, covering them with a half-case, gluing half-covers to the bodies of storage objects along their perimeter and sealing the lower part of the buildings, characterized in that the input and output hoses of the high-pressure air-drying unit are connected to the air ducts to the discharge and return lines, the drained air from the outlet of the high-pressure installation of dehumidification of air is fed into the duct of the discharge line and through sprayers to the internal volumes of storage facilities, where it is mixed with humidified air, after which the mixed air from the internal volumes of the storage facilities is fed through the outlet hoses to the return line duct and then to the inlet of the high-pressure air drying unit, then the drying cycle is repeated and the air is maintained within the established temperature and humidity while performed independent modes "draining" and "ventilation" mode "draining" is automatically activated when the outdoor temperature -10 ... + 50 ^o C, a high-pressure work the dehumidification plants are carried out in a closed loop, in which air with increased humidity is supplied from the production line to the air dehumidification module to the steam compression refrigeration machine to reduce the relative humidity of the air due to freezing, then the air is supplied by a high-pressure fan again to the production line, due to which it is gradually reduce the relative humidity in the storage facilities to a predetermined level, upon reaching which the dehumidification operating mode is turned off, and the " ventilation "is automatically turned on when the relative humidity of the outside air is lower than the relative humidity of the air in the production line in the range of the outside temperature of -25 ... + 50 ^o С, while the high-pressure air drying unit is operated via an open system in which the outside air through the inlet of a high-pressure dehumidification unit and an air-dehumidification module are fed by a high-pressure fan directly to the production line, due to which the relative pressure is gradually reduced in it th air humidity level outside air humidity, after which the work "ventilation" mode is turned off, and when the outdoor temperature -25 ... + 3 ^o C operation further include an air heating to maintain the temperature inside the process line 3 ... 5 ^o С and exclusion of freezing of moisture condensate in the tank of the dehumidification module.  2. The method according to claim 1, characterized in that the temperature and humidity of the air are constantly measured and monitored in the storage facilities with a simultaneous indication of their values on the power and alarm unit and on the power and control panel, while using the air parameter control system inside the storage signal is issued to the alarm system of the limiting values of the air parameters for perception by the operator and to the high-pressure installation of dehumidification of air, and when the limit values of the specified parameters are reached, turn on They light and sound alarms.