CN204373027U - Indoor Balanced Heating System - Google Patents

Abstract

The utility model provides an indoor balanced heating system, set up in the radiator of each indoor floor, every from top to bottom including a plurality of radiators that the radiator is connected with inlet tube and outlet pipe respectively, every the radiator the outlet pipe all adjacent with the below the radiator the inlet tube is linked together, and is a plurality of the radiator concatenates the intercommunication from top to bottom in order, wherein, every the radiator is connected the inlet tube with be connected with the crossover sub between the outlet pipe. The utility model discloses a set up the crossover sub between the inlet tube of each layer radiator and outlet pipe, can make the hydrothermal partly of getting into every layer of radiator inlet tube pass through the crossover sub before not dispelling the heat and get into the inlet tube of the adjacent radiator of lower floor to reach the average distribution heat, make the balanced effect of lower floor's heat distribution, avoid the difference in temperature of lower floor too big, the not enough condition of bottom indoor temperature takes place.

Description

Indoor balance heating system

Technical field

The utility model relates to a kind of heating system, particularly the indoor balance heating system of one.

Background technology

Old-fashioned building in the north indoor heating in winter all adopts the hot-water heating system of serial flow heat supply.Heating system is: the radiator of the superiors is built in hot water supply by hot water main line, and hot water flows through the radiator of every one deck from top to bottom in turn, arrives building orlop backwater.So arrange and can cause ubiquity upper strata temperature overheating in skyscraper, the phenomenon of lower floor's temperature deficiency.Winter, low layer resident family lived in the environment of heating temperature deficiency, enjoyed and decocted, and this phenomenon does not come into one's own for a long time and solves.

Utility model content

The purpose of this utility model is to provide a kind of indoor balance heating system that effectively can prevent skyscraper temperature overheating, lower floor's temperature deficiency at the middle and upper levels.

For achieving the above object, the utility model provides a kind of indoor balance heating system, comprise multiple radiator being arranged at indoor each floor from top to bottom, each described radiator is connected to water inlet pipe and outlet pipe, the described water inlet pipe of the described radiator that the described outlet pipe of each described radiator is all adjacent with below is connected, multiple described radiator is connected in series connection from top to bottom in turn, wherein, between the described water inlet pipe and described outlet pipe of each described radiator connection, crossing pipe is connected with.

Indoor balance heating system as above, wherein, the described water inlet pipe being positioned at the described radiator of the indoor the superiors is connected with hot water pipeline.

Indoor balance heating system as above, wherein, the described outlet pipe being positioned at indoor undermost described radiator is connected with water return pipeline.

Indoor balance heating system as above, wherein, the diameter of described crossing pipe is 1/1 to two/4th of the diameter of described water inlet pipe.

Indoor balance heating system as above, wherein, crossing pipe described in every root is equipped with the control valve of energy adjust flux.

Indoor balance heating system as above, wherein, described control valve is hand-operated valve or motor-driven valve.

Compared with prior art, the utility model has following characteristics and advantage:

The utility model by arranging crossing pipe between the water inlet pipe and outlet pipe of each layer radiator, a part for the hot water entering every layer of radiator inleting pipe can be made to enter in the water inlet pipe of lower floor's adjacent heat radiation device by crossing pipe before without heat radiation, thus reach mean allocation heat, make the effect of levels heat distribution equilibrium, avoid levels excessive temperature differentials, the situation of bottom indoor temperature deficiency occurs.

Accompanying drawing explanation

The following drawings is only intended to schematically illustrate the utility model and explain, does not limit scope of the present utility model.Wherein:

The indoor balance heating system structural representation that Fig. 1 provides for the utility model.

Drawing reference numeral illustrates:

1 radiator 11 water inlet pipe

12 outlet pipe 2 crossing pipe

21 control valve 3 hot water pipelines

4 water return pipeline 1F orlops

The 2F second layer nF the superiors

Detailed description of the invention

In order to have clearer understanding to the technical solution of the utility model, object and effect, existing accompanying drawings detailed description of the invention of the present utility model.

As shown in Figure 1, the utility model provides a kind of indoor balance heating system, comprise multiple radiator 1 being arranged at indoor each floor from top to bottom, each radiator 1 is connected to water inlet pipe 11 and outlet pipe 12, the water inlet pipe 11 of the radiator 1 that the outlet pipe 12 of each radiator 1 is all adjacent with below is connected, multiple radiator 1 is connected in series connection from top to bottom in turn, wherein, between the water inlet pipe 11 and outlet pipe 12 of each radiator 1 connection, is connected with crossing pipe 2.In two adjacent radiators 1, the outlet pipe 12 being positioned at the radiator 1 of top can be two pipelines be interconnected with the water inlet pipe 11 of the radiator 1 being positioned at below, also can be a pipeline, if a pipeline, then one end of this pipeline is communicated with the delivery port of the radiator 1 being positioned at top, and the other end is communicated with the water inlet of the radiator 1 being positioned at below.As preferably, for ensureing that hot water can flow to each radiator 1 of lower floor by self gravitation from the radiator 1 of the superiors nF in turn, water inlet on each radiator 1 is all positioned at the top of delivery port, simultaneously for ensureing that in radiator 1, hot water is evenly distributed, the water inlet of each radiator 1 is all arranged on the top of radiator 1, and the delivery port of each radiator 1 is all arranged on the bottom of radiator 1.

Further, as shown in Figure 1, the utility model provides a kind of indoor balance heating system, and wherein, the water inlet pipe 11 being positioned at the radiator 1 of indoor the superiors nF is connected with hot water pipeline 3.Hot water pipeline 3 is the hot water main lines for heating buildings supplying hot water, high-temperature-hot-water is by suppressing the superiors nF being transported to building, part hot water enters in the radiator 1 of the superiors nF by the water inlet pipe 11 of the radiator 1 of the superiors nF, another part hot water is by being communicated with the water inlet pipe 11 of the superiors nF radiator 1 and the crossing pipe 2 of outlet pipe 12 simultaneously, enters the outlet pipe 12 of the superiors nF radiator 1 and flows in the water inlet pipe 11 of the adjacent radiator of lower floor 1.

Further, as shown in Figure 1, the utility model provides a kind of indoor balance heating system, and wherein, the outlet pipe 12 being positioned at the radiator 1 of indoor orlop 1F is connected with water return pipeline 4.Water return pipeline 4 reheats for collecting the water sending back to flowed out from orlop 1F radiator 1, heating water can be reused, saving water resource.

Further, as shown in Figure 1, the utility model provides a kind of indoor balance heating system, and wherein, the diameter of crossing pipe 2 is 1/1 to two/4th of the diameter of water inlet pipe 11.Setting like this, the hot water in inflow each radiator 1 water inlet pipe 11 is made to have at most half to flow in the water inlet pipe 11 of the adjacent radiator 1 of lower floor before without heat radiation, effectively can distribute the hot water before without heat radiation, under the prerequisite ensureing upper strata temperature, improve the temperature of lower floor, make the temperature equalization of levels, reduce the temperature difference between levels.

Further, as shown in Figure 1, the utility model provides a kind of indoor balance heating system, wherein, every root crossing pipe 2 is equipped with the control valve 21 of energy adjust flux.By regulating the aperture of this control valve 21, the hot water before without heat radiation can be regulated to enter the flow of the water inlet pipe 11 of radiator 1 and lower floor's adjacent heat radiation device 1, thus regulate the temperature of radiator 1 and the temperature of levels indoor.

Further, as shown in Figure 1, the utility model provides a kind of indoor balance heating system, and wherein, control valve 21 is hand-operated valve or motor-driven valve.Staff can regulate the aperture of this hand-operated valve by on-site manual, thus regulate the flow of hot water shunting, also set temperature control system can be electrically connected with motor-driven valve, by the aperture of temperature control system remote adjustment motor-driven valve, thus regulate the flow that hot book is shunted.Wherein, temperature control system is prior art, then this is no longer described in detail it.

The indoor balance heating system that the utility model provides in use, hot water in hot water pipeline 3 is by suppressing the water inlet pipe 11 of rear arrival the superiors nF radiator 1, part hot water enters in the radiator 1 of the superiors nF, another part hot water enters in the outlet pipe 12 of the superiors nF radiator 1 by crossing pipe 2, and mix in the water inlet pipe 11 together entering lower one deck radiator 1 with the hot water be discharged in outlet pipe 12 in radiator 1, similarly, the hot water part entered in the water inlet pipe 11 of lower one deck radiator 1 enters in this radiator 1, another part enters in the outlet pipe 12 of this radiator 1, and mix with the hot water of discharging from this radiator 1 and again enter in the radiator 1 of lower one deck, in the above described manner, hot water flows through the radiator 1 of each layer from top to bottom in turn and enters the water inlet pipe 11 of orlop 1F radiator 1 from the outlet pipe 12 of the radiator 1 of second layer 2F, now, the hot water entered in the water inlet pipe 11 of orlop 1F radiator 1 need not be shunted again, in the radiator 1 of whole inflow orlop 1F, and flow into water return pipeline 4 from the outlet pipe 12 of the radiator 1 of orlop 1F and reuse.

Compared with prior art, the utility model has following characteristics and advantage:

The utility model by arranging crossing pipe between the water inlet pipe and outlet pipe of each layer radiator, a part for the hot water entering every layer of radiator inleting pipe can be made to enter in the water inlet pipe of lower floor's adjacent heat radiation device by crossing pipe before without heat radiation, thus reach mean allocation heat, make the effect of levels heat distribution equilibrium, avoid levels excessive temperature differentials, the situation of bottom indoor temperature deficiency occurs.

The foregoing is only the schematic detailed description of the invention of the utility model, and be not used to limit scope of the present utility model.Any those of ordinary skill in the art, equivalent variations done under the prerequisite not departing from design of the present utility model and principle and amendment, all should belong to the scope of the utility model protection.

Claims (6)

1. an indoor balance heating system, comprise multiple radiator being arranged at indoor each floor from top to bottom, each described radiator is connected to water inlet pipe and outlet pipe, the described water inlet pipe of the described radiator that the described outlet pipe of each described radiator is all adjacent with below is connected, multiple described radiator is connected in series connection from top to bottom in turn, it is characterized in that, between the described water inlet pipe and described outlet pipe of each described radiator connection, be connected with crossing pipe.

2. indoor balance heating system according to claim 1, is characterized in that, the described water inlet pipe being positioned at the described radiator of the indoor the superiors is connected with hot water pipeline.

3. indoor balance heating system according to claim 1, is characterized in that, the described outlet pipe being positioned at indoor undermost described radiator is connected with water return pipeline.

4. indoor balance heating system according to claim 1, is characterized in that, the diameter of described crossing pipe is 1/1 to two/4th of the diameter of described water inlet pipe.

5. indoor balance heating system according to claim 1, is characterized in that, crossing pipe described in every root is equipped with the control valve of energy adjust flux.

6. indoor balance heating system according to claim 5, is characterized in that, described control valve is hand-operated valve or motor-driven valve.