SU976226A1 - System for heating and cooling buildings - Google Patents

Description

The invention relates to a heating and cooling technique and is intended to create a microclimate indoors in the construction of residential, public and administrative buildings.

A device for heating and cooling a building is known, which contains supply and return pipes, a heat exchanger designed for placement in a concrete panel.

A disadvantage of this device is the increased consumption of metal from enlarged pipe diameters in order to ensure transportation of heat transfer fluid with low parameters during the winter period.

The closest in technical essence to the present invention is a building heating and cooling system comprising supply and return facilities, convectors with supply lines and check valves 2}. .

A disadvantage of the known system is its low efficiency, since the transition of the system from the heating mode to the cooling mode and back is carried out manually, which increases the operating costs for its maintenance.

The purpose of the invention is to increase efficiency.

This goal is achieved by the fact that in the building's heating and cooling systems the check valves are installed on the supply lines and the convectors are connected in pairs by jumpers.

FIG. 1 schematically shows the operation of the proposed system in the mode

10, heating J in FIG. 2 is the same in cooling mode.

The system contains stages 1 and 2, which are in reverse cooling mode, and in heating mode

15 work on the U-shaped scheme, kits 3 and 4, which are served during the cooling period and do not function in the heating period, jumpers 5 between the upper and lower

20 convectors, heating cooling convectors b, cooling convectors 7, check valves 8, 9, 10 and 11, jumper 12, connecting to 1 and 2, main line

25 13, vl kvduyus in the heating mode is served, and in the cooling return, the main line 14, is the reverse of the return in the heating and supply in the cooling mode and thermal

30 node 15.

In heating mode, the coolant through the drain 1 enters successively from bottom to top in conveyors b operating in the heating mode, and through jumper 12 enters into hundred to 2, from which sequentially from top to bottom enters the convectors 6 connected to it, and then goes into thermal paragraph. At the same time, check valves 8 do not allow the coolant to pass the devices 6, la, and check valves 10 turn off the convectors 7, which are non-functioning in heating mode. In the cooling day mode for chambers 3 and 4, the coolant enters the cooling devices 7 attached to them, then enters the convectors 6 and goes into the return chambers 1i, 2 "The movement of the coolant in chambers 3 and 4 occurs from bottom to top, The return stand 2 is bottom-up, then the coolant flows through jumper 12 into the return one hundred to 1, in which the movement takes place from top to bottom. At the same time, the check valves 9 do not allow the coolant to return in the reverse hundred c, mine convectors b. The sewers are connected to the main pipelines, while the check valve 11 is closed in cooling mode and does not allow the coolant to get FROM the supply line 14 into the return one to two because of the pressure difference in the supply 14 and the return 13 routes, the proposed heating and cooling system on that

that it is calculated to provide comfortable conditions in the room during the summer period, it allows heating in the winter period without overheating the room and at the same time using economically feasible heat transfer parameters. In addition, the operation of the system is greatly simplified, since the change in heat transfer from convectors is centralized in thermal

points or nodes input by changing the direction of movement of the coolant. Formula inventions

The heating and cooling system of the building, which contains supply and return sewers, convectors with liners and check valves, is characterized in that, in order to increase efficiency, check valves are installed on the liners, and the convectors are pairwise connected by jumpers.

Sources of information, taken into account in the examination

1. Fe1: Recommendations for the design30 and use of radiation cooling systems - heating of public buildings, Tashkent, 1972, p. 9-11, 69, (rice, 15.

, 2. USSR author's certificate 35 No. 449208, cl. F 24 D 3/02, 1972 (prototype).

Claims (1)

Claim The heating and cooling system of the building, which contains the supply and return risers, convectors with hoses and check valves, is due to the fact that, for the sake of efficiency, the return hoses are installed on the hoses and the tori are in pairs. the overhead valves are convex connected 'jumper- ι