RU108559U1 - DEVICE FOR DISPOSAL OF HEAT LOSSES IN THE HEATING CHANNEL - Google Patents

Abstract

 1. A device for recovering heat losses in the heat supply channel, comprising a horizontal collector made of a polymer pipe in the form of a spiral spiral, located in the heat supply channel around the pipelines of the heat network, connected through a circulation pump to the heat pump evaporator and filled with a heat carrier, and a heat-reflecting screen installed between the horizontal collector and the inner surface of the heating channel, characterized in that in the heating channel there is a frame device P-image hydrochloric shape of a plastic material lined with heat-reflecting screens with the smallest possible clearance 10-50 mm from the inner channel surfaces. ! 2. A device for utilization of heat loss in a heating main channel according to claim 1, characterized in that the frame device has braces. ! 3. A device for utilization of heat loss in a heat pipe channel according to claim 1 or 2, characterized in that the frame device has shelves for installing a frame with a heat-reflecting screen.

Description

The utility model relates to industrial heat power engineering and can be used to utilize heat losses in heat supply networks in a heat pump evaporator.

A horizontal soil collector is known for extracting low-potential soil energy for heat pump evaporators (http://www.insolar.ru), which is a separate polymer pipe laid horizontally under a layer of soil, connected to each other in series or in parallel.

The disadvantages of such a collector are: a large area of land displacement (about 25-50 m ² ); low heat removal - 10-35 W from one square meter of soil surface; probability of freezing of soil in the area of the collector; high hydraulic resistance (http://www.ivd.ru/document.xgi?id=5102&gid=393&hid=514&oid=514).

It is known “Device for the utilization of heat losses of heating mains” (Utility Model Patent of the Russian Federation No. 88361, IPC E02D 1/00, 2009), which is a spiral spiral of polymer pipes connected to a heat pump evaporator, laid around a heating main channel and covered with soil.

The disadvantages of this device are: the complexity of its installation and repair, the complexity of servicing the heating main.

It is known “A device for utilization of heat losses in a heating main channel” (Utility Model Patent of the Russian Federation No. 94988, IPC E02D 1/00, 2010), which is a spiral spiral of polymer pipes connected to a heat pump evaporator, laid around the heat network pipelines in the channel heating mains.

The disadvantages of this device are: incomplete collection of thermal energy by the device; strong dependence on external conditions around the channel.

Closest to the proposed technical one is “A device for the utilization of heat losses in the heat supply channel” (Utility Model Patent of the Russian Federation No. 103175, IPC F24D 11/02, 2011) consisting of a horizontal collector made of a polymer pipe in the form of a spiral spiral filled coolant located in the heat supply channel around the pipelines of the heat network connected through a circulation pump to the heat pump evaporator, containing a heat-reflecting screen installed between the collector and the inner surface New heating channel.

The disadvantages of this device are: the complexity of installing heat-reflecting screens, the complexity of repair and maintenance of the collector and heating main.

The technical result achieved by the claimed utility model is to increase the ease of installation of heat-reflecting screens in the channel of the heating main, to increase the ease of maintenance and repair of the collector and heating main.

The technical result is achieved in that a device for recovering heat loss in a heat pipe channel, comprising a horizontal collector made of a polymer pipe in the form of a helical spiral, located in a heat pipe channel around the pipelines of a heat network, connected through a circulation pump to a heat pump evaporator and filled with a heat carrier, a frame device U-shaped made of plastic material, lined with heat-reflecting screens with a minimum possible gap of 10-50 mm from internal surfaces Nost channel. The frame device has braces. The frame device has shelves for installing a frame with a heat-reflecting screen.

In Fig.1, a device for the utilization of heat losses in the heat supply channel.

Figure 2 shows a frame device with heat-reflecting screens.

In the drawings, the numbers indicate: helical spiral of polymer pipes 1; heating main channel 2; frame device with heat-reflecting screens 3; pipelines 4 of the heating network; circulation pump 5, heat pump evaporator 6; support 7 pipelines, frame 8, heat-reflecting screens 9, frame 10, shelves 11, braces 12.

The frame 8 is made of plastic material, has a U-shape with dimensions 10 ÷ 50 mm smaller than the internal dimensions of the heat supply channel 2. In the lower part of the frame 8 has shelves 11 for installing a frame 10 with a heat-reflecting screen 9, which is located at a distance of 10 ÷ 50 mm from the bottom plate of the heating channel 2. For stiffening, the frame 8 has braces 12. The frame 8 is installed on the bottom of the channel, heat-reflecting screens 9 are fixed on its side and top planes, and frame 10 with a heat-reflecting screen 9 is mounted on the shelves 11. zhayuschie screens 9 are made of polished foil to exclude radiant heat exchange between the channel wall and the pipe heat network. The heat-reflecting screens 9 maintain their integrity when opening the channel of the heating main 2, with the formation of local gaps, the heat-reflecting screens 9 can be easily replaced or restored, for example, by applying a patch.

A device for the utilization of heat loss in a heating main channel operates as follows. Heat flow from pipelines 4 heat supply networks in an amount not exceeding normalized heat losses from one linear meter of heating main (average 100 W / m according to SNiP 41-03-2003. Thermal insulation of equipment and pipelines / Gosstroy of Russia. - M.: State Unitary Enterprise TsPP , 2003. - 22 pp.), Enters the heat supply channel 2 and is perceived by a horizontal spiral spiral collector 1, in which, under the action of the circulation pump 5, the coolant is directed to the heat pump evaporator 6. The degree of heating of the intermediate coolant in the collector is value from 3 to 5 ° C. In this case, the thermal energy not collected by a horizontal spiral spiral collector 1 and dissipated in the channel of the heating pipe 2 is held inside the channel by means of a frame device lined with heat-reflecting screens 3. Heat-reflecting screens 9 can almost completely eliminate radiant heat exchange between the channel wall and the pipeline of heating networks. Additional thermal resistance is created due to the air gap between the screen and the inner surface of the channel. When the frame device with heat-reflecting screens 3 is located at a distance of 10 ÷ 50 mm from the inner surfaces of the channel, the increase in heat transfer resistance from the introduction of the heat-reflecting screen into the heat main channel will be about 0.19-0.25 m ² ° C / W. The frame device with heat-reflecting screens 3 allows you to technologically quickly install screens 9 during the covering of the channel with the top plate. The length of the frame 8 can be selected multiple to the length of the covering plates and for ease of installation no more than 1 meter.

Thus, the proposed device to reduce heat loss in the heat pipe channel utilizes the inevitable regulated heat loss in the heat network, reduces energy losses from the heat pipe channel, provides the convenience of installing heat-reflecting screens in the heat pipe, and improves the ease of maintenance and repair of the collector and heat pipe.

Claims (3)

1. A device for recovering heat losses in the heat supply channel, comprising a horizontal collector made of a polymer pipe in the form of a spiral spiral, located in the heat supply channel around the pipelines of the heat network, connected through a circulation pump to the heat pump evaporator and filled with a heat carrier, and a heat-reflecting screen installed between the horizontal collector and the inner surface of the heating channel, characterized in that in the heating channel there is a frame device P-image hydrochloric shape of a plastic material lined with heat-reflecting screens with the smallest possible clearance 10-50 mm from the inner channel surfaces. 2. A device for utilization of heat loss in a heating main channel according to claim 1, characterized in that the frame device has braces. 3. A device for utilization of heat losses in a heat pipe channel according to claim 1 or 2, characterized in that the frame device has shelves for installing a frame with a heat-reflecting screen.