CN212511399U - Radiator UNICOM heat exchanger - Google Patents

Abstract

The utility model discloses a radiator communicated heat exchanger, wherein a water pipe is arranged in the heat exchanger; the water pipe comprises an internal cold water pipe, an external hot water pipe, a heating cavity, a water distribution pipe, a flow distribution end and a flow combination end; the water heater is characterized in that an external hot water pipe is sleeved outside the internal cold water pipe, a heating cavity is arranged between the internal cold water pipe and the external hot water pipe in a separating mode, a flow dividing end is arranged at a water inlet of the external hot water pipe, a water outlet is formed in the lower portion of one side, opposite to the flow dividing end, of the water passing pipe, a flow combining end is arranged at a water outlet, the flow dividing end serves as a starting point, the flow combining end serves as an end point, and a water dividing pipe is arranged between the flow dividing end and the flow combining end. The utility model can prevent the water in the heat exchanger and the water in the radiator water passing pipeline from mixing together; the hot water flowing through the heat exchanger is shunted, so that the influence on the flow speed of the hot water in a subsequent heat supply pipeline is avoided.

Description

Radiator UNICOM heat exchanger

Technical Field

The utility model relates to a radiator, concretely relates to radiator UNICOM heat exchanger.

Background

The radiator is a heating device mainly for heating. The heating is usually mainly carried out by a heating device, namely a radiator, the working principle of the radiator is that a boiler is utilized to heat circulating water, the circulating water is connected to the radiator through a pipe, finally, a proper temperature is output through the radiator to form a certain indoor temperature difference, and finally, the heat circulation is carried out to enable the whole indoor temperature to rise uniformly. Some families can select to increase the installation heat exchanger on the heating pipeline and obtain hot water now, but increase and adorn the heat exchanger and also have the shortcoming, thereby not only influence hydrothermal velocity of flow also probably can make life cold water and warm braw water mixed flow influence the heat supply together simultaneously, to above-mentioned problem, this scheme has proposed a radiator UNICOM heat exchanger.

Disclosure of Invention

In view of the above-mentioned deficiencies or inadequacies in the prior art, it would be desirable to provide a radiator communicating heat exchanger.

According to the technical scheme provided by the embodiment of the utility model, a radiator communicating heat exchanger comprises a heat exchanger, wherein a cold water inlet and a hot water outlet are respectively arranged on two sides of the top of the upper part of the heat exchanger, and a heating water inlet is arranged on the side surface of the heat exchanger and below the cold water inlet; a heating water outlet is formed in the bottom of one side, opposite to the heating water inlet, of the heat exchanger; a water pipe is arranged in the heat exchanger; the water pipe comprises an internal cold water pipe, an external hot water pipe, a heating cavity, a water distribution pipe, a flow distribution end and a flow combination end; the water heater is characterized in that the external hot water pipe is sleeved outside the internal cold water pipe, the heating cavity is arranged between the internal cold water pipe and the external hot water pipe at an interval, the flow dividing end is arranged at a water inlet of the external hot water pipe, a water outlet is formed in the lower portion of one side, opposite to the flow dividing end, of the water pipe, the flow combining end is arranged at a water outlet, the flow dividing end serves as a starting point, the flow combining end serves as an end point, and one water dividing pipe is arranged between the flow dividing end and the flow combining end.

In the utility model, the water inlets of the water pipes are arranged at the cold water inlet and the warm air inlet, and the cold water inlet is connected with the pipe orifice of the built-in cold water pipe; the water inlet of the heater is connected with the water inlet of the external hot water pipe.

The utility model discloses in, the confluence end is connected with the heating installation delivery port.

In the utility model, the water outlet of the built-in cold water pipe is connected with the hot water outlet.

The utility model discloses in, the water pipe is horizontal row form by the same vertical pipeline of a plurality of and connects to form, and the connection transition limit between the vertical pipeline is the arc.

The utility model discloses in, the pipeline of built-in cold water pipe adopts the copper aluminium material.

The utility model discloses in, external hot-water line is stainless steel heat preservation pipeline.

To sum up, the utility model has the advantages that: the water in the heat exchanger and the water in the water passing pipeline of the heating radiator are prevented from mixing together; the hot water flowing through the heat exchanger is shunted, so that the influence on the flow speed of the hot water in a subsequent heat supply pipeline is avoided.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments made with reference to the following drawings:

fig. 1 is a schematic front view of a cross-sectional structure of the present invention;

fig. 2 is a schematic front view of the structure of the present invention;

fig. 3 is a schematic view of the cross-sectional structure of the middle water pipe of the present invention.

Reference numbers in the figures: 1. the water heater comprises a cold water inlet, a hot water outlet, a hot air inlet, a hot air outlet, a water passing pipe, a heat exchanger, a built-in cold water pipe, a built-in hot water pipe, a heating cavity, a water dividing pipe, a water dividing end and a confluence end, wherein the cold water inlet is 2, the hot water outlet is 3, the hot air inlet is 4, the hot air outlet is 4, the water passing pipe is 5.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

As shown in fig. 1, 2 and 3, a radiator communicating heat exchanger comprises a heat exchanger 6, wherein a cold water inlet 1 and a hot water outlet 2 are respectively arranged on two sides of the top of the upper part of the heat exchanger 6, and a heating air inlet 3 is arranged on the side surface of the heat exchanger 6 and below the cold water inlet 1; a heating water outlet 4 is formed in the bottom of one side, opposite to the heating water inlet 3, of the heat exchanger 6; a water pipe 5 is arranged in the heat exchanger 6; the water pipe 5 comprises an internal cold water pipe 5.1, an external hot water pipe 5.2, a heating cavity 5.3, a water distribution pipe 5.4, a flow distribution end 5.5 and a flow combination end 5.6; the external hot water pipe 5.2 is sleeved outside the internal cold water pipe 5.1, the heating cavity 5.3 is arranged between the internal cold water pipe 5.1 and the external hot water pipe 5.2 at a distance, the diversion end 5.5 is arranged at the water inlet of the external hot water pipe 5.2, the water outlet is arranged below one side of the water pipe 5 opposite to the diversion end 5.5, the confluence end 5.6 is arranged at the water outlet, the diversion end 5.5 is taken as a starting point, the confluence end 5.6 is taken as an end point, and the diversion pipe 5.4 is arranged between the diversion end 5.5 and the confluence end 5.6.

As shown in fig. 3, the water inlets of the water pipe 5 are arranged at the cold water inlet 1 and the warm air inlet 3, and the cold water inlet 1 is connected with the pipe orifice of the built-in cold water pipe 5.1; the water inlet 3 of the heating is connected with the water inlet of an external hot water pipe 5.2.

As shown in fig. 3, the confluence end 5.6 is connected with the warm air water outlet 4; the water outlet of the built-in cold water pipe 5.1 is connected with the hot water outlet 2.

As shown in fig. 3, the water pipe 5 is formed by connecting a plurality of identical vertical pipes in a horizontal row, and the connecting transition edges between the vertical pipes are arc-shaped.

The pipeline of the built-in cold water pipe 5.1 in the water pipe 5 is made of copper and aluminum, so that the heat conducting property is good; the external hot water pipe 5.2 is a stainless steel heat-insulating pipeline.

Example (b): cold water enters the built-in cold water pipe 5.1 through the cold water inlet 1, water in the water service pipe of the heating radiator enters the heating cavity 5.3 through the heating water inlet 3 and the external hot water pipe 5.2 and heats cold water in the built-in cold water pipe 5.1 through hot water continuously passing through the heating cavity 5.3, part of hot water in the water service pipe of the heating radiator can directly flow into the water distribution pipe 5.4 and flow out through the heating water outlet 4 before entering the heating cavity 5.3, so that the influence on the flow speed of the water flowing in the pipeline of the heating radiator due to the installation of the heat exchanger 6 can be reduced as much as possible, the heat supply of the heating radiator is avoided, and meanwhile, the heat supply pipeline can be prevented from being influenced by the mixed flow of the cold water and the hot water in the pipeline of the heating radiator due to the arrangement of the built-in cold water pipe 5..

The foregoing description is only exemplary of the preferred embodiments of the invention and is provided for the purpose of illustrating the general principles of the invention. Meanwhile, the scope of the present invention is not limited to the specific combinations of the above-described technical features, and other technical features or equivalent features may be combined arbitrarily without departing from the scope of the present invention. For example, the above features and (but not limited to) technical features having similar functions disclosed in the present invention are mutually replaced to form the technical solution.

Claims (7)

1. A radiator communicated heat exchanger comprises a heat exchanger (6), wherein a cold water inlet (1) and a hot water outlet (2) are respectively arranged on two sides of the top of the upper part of the heat exchanger (6), and a heating water inlet (3) is formed in the side surface of the heat exchanger (6) and below the cold water inlet (1); a heating water outlet (4) is formed in the bottom of one side, opposite to the heating water inlet (3), of the heat exchanger (6); a water pipe (5) is arranged in the heat exchanger (6); the method is characterized in that: the water passing pipe (5) comprises an internal cold water pipe (5.1), an external hot water pipe (5.2), a heating cavity (5.3), a water dividing pipe (5.4), a flow dividing end (5.5) and a flow converging end (5.6); the external hot water pipe (5.2) is sleeved outside the internal cold water pipe (5.1), the heating cavity (5.3) is arranged between the internal cold water pipe (5.1) and the external hot water pipe (5.2), the diversion end (5.5) is arranged at the water inlet of the external hot water pipe (5.2), the water outlet is arranged below one side of the water pipe (5) opposite to the diversion end (5.5), the confluence end (5.6) is arranged at the water outlet, the diversion end (5.5) is used as a starting point, the confluence end (5.6) is used as an end point, and one diversion pipe (5.4) is arranged between the diversion end (5.5) and the confluence end (5.6).

2. A radiator communicating heat exchanger according to claim 1, wherein: the water inlets of the water passing pipes (5) are arranged at the cold water inlet (1) and the warm air inlet (3), and the cold water inlet (1) is connected with the pipe orifice of the built-in cold water pipe (5.1); the water inlet (3) of the heating system is connected with the water inlet of the external hot water pipe (5.2).

3. A radiator communicating heat exchanger according to claim 1, wherein: the confluence end (5.6) is connected with the warm air water outlet (4).

4. A radiator communicating heat exchanger according to claim 1, wherein: the water outlet of the built-in cold water pipe (5.1) is connected with the hot water outlet (2).

5. A radiator communicating heat exchanger according to claim 1, wherein: the water passing pipe (5) is formed by connecting a plurality of identical vertical pipelines in a horizontal row shape, and the connecting transition edges between the vertical pipelines are arc-shaped.

6. A radiator communicating heat exchanger according to claim 1, wherein: the pipeline of the built-in cold water pipe (5.1) is made of copper and aluminum.

7. A radiator communicating heat exchanger according to claim 1, wherein: the external hot water pipe (5.2) is a stainless steel heat-insulating pipeline.

Images