SU1107360A1 - Self-contained system for cooling man - Google Patents

Abstract

HUMAN AUTONOMOUS COOLING SYSTEM, containing refrigerant tank, refrigerator, liquid cooling suit, pneumatic circulation pump, jet trigger with separate inlets, in the form of a jet element, with a jet sticking to the wall with two output, two control and two vents characterized in that, in order to reduce gas consumption and the weight of an autonomous cooling system, to simplify it and ensure reliability, the pump is made with two driving pneumatic cavities, each of which communicated with the corresponding output channel of the trigger, and the output of each ventilation channel of the trigger is combined with the input of the corresponding control channel and communicated with the atmosphere about S via throttles.

Description

The invention relates to personal protective equipment that protects a person from overheating during work in an environment with elevated air temperature, and can be used in conjunction with other protective equipment - insulating suits with gas masks and the like. This system can be used in the nuclear, chemical and metallurgical industries.

A cooling system is known, the entrance B is a composition of heat-proof suits and space suits containing a liquid-cooling suit, a container with a refrigerant, a sublimation or evaporative refrigerator and a pump driven by refrigerant vapor.

The disadvantage of this system is the use of pneumatic drive pumps that have a complicated mechanical gas distribution system as an inducer of the circulation of the coolant. As a result, the weight of the cooling system is increased, and its reliability is reduced.

The closest technical solution is an autonomous human cooling system containing a refrigerant tank, a refrigerator, a liquid cooling suit, a pneumatic circulation pump ;, a jet trigger with separate inlets, made in the form of a jet element with a jet sticking to the wall with two high-voltage, two controls and two ventilation ducts.

The main disadvantage of this system is the inefficiency of gas consumption, increased dimensions and weight, complexity and reduced reliability.

The aim of the invention is to reduce gas consumption and the weight of an autonomous cooling system, simplifying its design.

Structures and increased reliability.

This goal is achieved by the fact that in a known cooling system containing a container with refrigerant, a refrigerator, a liquid cooling suit, a pneumatic drive circulation pump, a jet trigger with separate entrances made in the form of a jet element with a jet sticking to the wall with two outlets, two controls and two ventilation ducts, the pump is equipped with two drive pneumatic cavities.

each of which is communicated with the corresponding output channel of the trigger, and the code of each ventilation channel of the trigger is combined with the input of the corresponding control channel and communicated with the atmosphere through throttles.

: The schematic diagram of the autonomous human cooling system.

The system is made in the form of a liquid cooling suit 2 worn over the back of the satchel 1 and worn over the body of a tea cup, which is based on flexible heat removal tubes 3 adjacent to the human body. The composition of the knapsack includes a container 4 for storing a liquid refrigerant (for example, ammonia or freon), a two-circuit cooler 5 with an evaporative 6 and 7 liquid chambers, a valve 8, a pneumatic diaphragm pump 9 of double-acting.

The gas valve of the pump is made in the form of a jet trigger 10 with separate inputs, implemented on the basis of the jet element with the jet sticking to the wall. The trigger has a power channel 11, two output 12, two control 13 and two ventilation 14 channels. The output of each ventilation duct is combined with the input of a control Canasta trigger located on the same side and communicated with the atmosphere through a throttle 15. Each of the output channels communicates with its pneumatic cavity 16 of the pump. The pneumatic cavities are separated by the membranes 17 from the hydraulic cavities 18 of the pump.

With a suit of liquid cooling and a refrigerator, the pump is communicated by means of self-locking connectors 19 and tubes 20, 21, 22. V-code evaporator -.

the inlet to the supply channel 11 by the tube 23. At the inlet to the evaporation chamber of the refrigerator, a refrigerant flow controller 24 is installed, and at the outlet there is a pressure regulator 25.

The system can be stored in a form prepared for operation, i.e. filled with coolant and coolant. To put the system into operation, it is necessary to connect Ranets 1 with connectors 19 to liquid cooling suit 2 and open valve 8, after which the liquid refrigerant from tank 4 ° of refrigerator chamber 6 communicates with and starts to flow through controller 24 to refrigerator evaporator 6 5. The refrigerant evaporates and cools the coolant flowing in the liquid chamber 7. The evaporation pressure and intensity of cooling are set by the appropriate adjustments of the regulators .24 and 25. The vapor generated during evaporation of the refrigerant is supplied through the tube 23 to the power supply channel 11. Excess steam, if any, is discharged through the regulator 25 to the atmosphere flowing out of the power supply channel due to the effect of sticking the jet against the wall, it is directed into one of the output channels 12, for example, the left one, and then into the left pneumatic cavity 16. Under the effect of the vapor pressure of the refrigerant, the membrane 17 displaces the coolant from the adjacent hydraulic fluid zhidkostnzpo spine 18 in the refrigerator chamber. At the same time, the right hydraulic cavity is filled with coolant coming from the suit of liquid cooling through the tube 22. At the same time, the steam in the adjacent pneumatic cavity is emitted into the atmosphere through the right output 12 and the corresponding ventilation 14 and throttle 15. 60 4 Having reached the bottom of the hydraulic cavity, the membrane pae flow also stops. The left pneumatic cavity is terminated. As a result, pressure increases in the left outlet duct, which through the adjacent vent duct 14 is transferred to the corresponding control channel 13 and first turns on the steam jet to the right outlet duct. For which, the process described above is repeated. The alternating operation of the membranes in the pump ensures the circulation of the heat carrier through the liquid cooling suit and the refrigerator. . The proposed autonomous cooling system of a person has, in comparison with a prototype, greater reliability, is more promising, and economical in terms of gas consumption, and therefore has a lower specific weight per unit time of continuous operation. In addition, the system makes it possible to increase the safety of workers, increase labor productivity, and simplify the maintenance of the system during operation. :

Claims (1)

AUTONOMOUS HUMAN COOLING SYSTEM, containing a container with a refrigerant, a refrigerator, a liquid cooling suit, a pneumatic actuated circulation pump, a jet trigger with separate entrances, made in the form of a jet element, with the adherence of the jet to the wall with two output, two control and two ventilation channels, characterized in that, in order to reduce gas consumption and weight of the autonomous cooling system, simplify it and increase reliability, the pump is made with two drive pneumatic cavities, each of which on with the corresponding output channel of the trigger, and the output of each ventilation channel of the trigger is combined with the input of the corresponding control channel and communicated with the atmosphere via a throttle. £ ¹ '.1