SU469271A3 - Apparatus for preventing the formation of frost on the surface of an evaporator in cold rooms - Google Patents

Description

. L -3; N: Gels 15, and a fan 17 for creating an upwardly directed air flow, as well as a cone-bottom pan 18 installed under the evaporator 5 for collecting the solution associated with the inlet section of the line 6. The cooler 11 is also located inside the refrigeration chambers 13 and can have various constructive designs, for example, can be made of bent rectangular tubes installed one above the other in a multi-component arrangement, which enhances the cooling effect. The heat exchanger 10 is designed to cool the solution supplied through line 4 from tank 1 to evaporator 5, with solution discharged through line 6 from evaporator 5, and can be formed, for example, coaxially to install the pipeline 4. And line 6. System 7 supplying solution from The tank 1 into the concentrator 2 includes a pump 19 and a level gauge 20, for example, of a float type for measuring the level of solution in the tank 1, associated with a switch 21 providing automatic activation of the pump 19. In the concentrator 2 above the coil 3 a force is fixed unka 22, connected to the solution supply system 7, and filter 23 for catching drops of the solution, and a fan 24 mounted under the coil 3, facilitating the uniform distribution of heat generated by the coil 3, and the pan 25, having a pipe 26 for draining the concentrated solution to the tank 1. The evaporator 5 is connected via pipe 27 to the compressor compressor chamber inlet (not shown), and a coil 3 is connected to the compressor outlet through pipe 28. In addition, the coil 3 is connected through pipe 29 to the cooler inlet 30 of the cooling system of the chamber, the outlet of which is connected by pipes 31 and 32 to the evaporator 5. The device operates as follows. The solution from the tank 1 through the pipeline 4 through the heat exchanger 10 enters the cooler II, where it is cooled for a certain period, and then the cooled solution is sprayed by the irrigators 15 onto the surface of the evaporator 5, defrosting the ice pack formed. A solution diluted with melt water is collected in pan 18 and taken along line 6 to tank 1. In this way, the passage of heat exchanger 10, the solution coming from evaporator 5 to tank 1, cools the solution coming from tank 1 to evaporator 5. Gradually, the level in tank 1 is increased by diluting the solution with water and increasing it to a predetermined level gauge 20 via switch 2G drives the pump 19, thus ensuring the supply of the solution from tank 1 to the co-hub 2. The nozzle 22 sprays the solution over the coil 3 n with some th amount of water contained in the solution is evaporated due to heat generated by the coil 3. The concentrated solution was flagged poddop 25 and returns through conduit 26 to the tank. 1. The device may operate or continuously throughout the entire cooling cycle of chamber 13, or intermittently when the time-delay controller is used. The subject matter of the invention is: 1. A device for preventing the formation of frost on the evaporator surface of refrigeration chambers, comprising a tank for an anti-icing solution, a solution concentrator with a heating element placed in it, sprinklers for supplying the solution to the surface of the evaporator, a pipeline for supplying the solution from the tank to the sprinklers The tank and the system for supplying the solution from the tank to the concentrator, characterized in that, in order to increase the intensity of work and ensure the continuity of irrigation, the evaporator is grown Hur, the device is installed on the solution supply conduit a heat exchanger connected to the discharge line of the solution and a cooler for subsequent ohlazhdepi solution before it enters a sprinkler m and nagrevatelpy element is a coil, coupling with the pumping system manifold cooling chamber. 2. An apparatus according to claim 1, characterized in that the tank is equipped with a level gauge for automatically turning on the solution supply system from the tank to the concentrator.

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