RU100533U1 - ICE PREVENTION DEVICE - Google Patents

Abstract

 1. The device for preventing icing, comprising a piping circuit with a frost-resistant coolant, comprising at least one heating branch, a heat exchanger connected to a water heating system, a circulation pump and a control system, characterized in that the control system includes a temperature sensor connected with a circulation pump, and the heating branch contains interconnected shut-off valve and precipitation sensor. ! 2. The device according to claim 1, characterized in that the pipeline circuit is made in the form of a metal-plastic or rubber pipe with an internal section of 9 to 12 mm. ! 3. The device according to claim 1, characterized in that the control system further comprises a water sensor. ! 4. The device according to claim 1, characterized in that the heat exchanger is formed by two pipes located one inside the other.

Description

The utility model relates to equipment for roofing and can be used to prevent the accumulation or removal of snow or ice from the roofs and drains of buildings.

A device for melting icing roofs according to the patent of the Russian Federation for utility model No. 28882 (the closest analogue), containing a circuit of pipelines with at least one inlet and one outlet pipelines with a coolant, a heating medium heating device connected to a heating source, an expansion tank associated with the circuit, a circulation pump, a control device, and the circuit is closed and with a joint section of the outlet and inlet pipelines interacting with the heating device VA, the heating source of which is made in the form of a heating system, the circulation pump is connected to the circuit and to the control sensor, and frost-resistant material is used as the heat carrier.

The design drawback is the inability to automatically turn off the device in the absence of precipitation.

The utility model solves the problem of improving the control system that allows you to automatically turn on and off the device depending on the presence of snow or ice. In addition, the design provides separate feeding of control areas, reducing energy consumption.

To do this, in the device for preventing icing, containing a pipeline circuit with a frost-resistant coolant, comprising at least one heating branch, a heat exchanger connected to the water heating system, a circulation pump and a control system, the control system includes a temperature sensor connected to the circulation pump , and the heating branch contains interconnected shut-off valve and precipitation sensor. As a result, the device is turned on and off according to the signal of the temperature sensor adjusted to the desired temperature range, and the on and off of each branch of the heating of the pipeline circuit is triggered by the signal from the corresponding precipitation sensor, providing independent operation of the monitoring sections.

In a particular case, the pipeline circuit is made in the form of a metal-plastic or rubber pipe with an internal cross section of 9 to 12 mm.

In another particular case, the control system further comprises a water sensor signaling a leak for emergency shutdown.

In another particular case, the heat exchanger is formed by two pipes located one inside the other.

The proposed utility model is illustrated by drawings.

Figure 1 - General diagram of a device for preventing icing,

Figure 2 - design of the heat exchanger, General view,

Figure 3 - electrical diagram of the control system of the device to prevent icing.

The following notation is made in the drawings.

ZK1, ZK2, ZK3 - shut-off valves,

DO1, DO2, DO3 - precipitation sensors,

BP - power supply unit for precipitation sensor heaters,

BU - control unit,

M1 - circulation pump motor,

DT - temperature sensor,

DV - water sensor.

The device for preventing icing is installed in the attic and contains a sealed pipeline circuit 1 with a frost-resistant coolant, made in the form of a metal-plastic pipe with an internal cross section of 9 mm (permissible increase in cross-section to 12 mm), and includes three heating branches: the first heating branch 2, which runs in the drain pipe, the second branch 3 of heating, passing along the edge of the roof and the third branch 4 of heating, passing in the gutter of the drain. Other control areas may include funnels, drains and gutters, gutters, planes of different sections of the roof, dormers, lights, roof eaves, drip overhangs. The necessary connections and coordination of the parameters of the elements of the device are made using the control unit 5 of the control system according to the scheme of FIG. 3. The spiral heat exchanger 6 is formed by two pipes located one inside the other, namely the pipe 7 of the water heating system 8 and the pipe 9 of the pipe circuit 1. The required parameters of the heat exchanger are set by the length of the pipes 7 and 9. The heat exchanger 6 provides compensation for temperature changes in the volume of the coolant circuit 1. Temperature sensor 10 connected to the circulation pump 11. The first heating branch 2 contains a shut-off valve ZK1, connected with the sensor DO1 rainfall. The second branch 3 of the heating contains a shut-off valve ZK2 associated with the sensor D02 precipitation. The third branch 4 of the heating contains a shut-off valve ZK3 associated with the sensor DO3 precipitation. The output of the water sensor 12 is connected to the control unit 5 and serves to turn off the device in case of emergency violation of the tightness of the pipeline circuit 1.

The device operates as follows.

When the outdoor temperature reaches the range from -8 to + 2 ° С, the circulation pump 11 is turned on by the signal of the temperature sensor 10, driving the coolant of the pipeline circuit 1, heated in the heat exchanger 6. As a result of heat generation in the controlled sections of the roof, ice and snow are melted, while sensors DO1, DO2 and DO3 precipitation are triggered in the presence of precipitation. Sensor DO1, DO2 and DO3 precipitation is an element with two electrodes, equipped with a heater of low (5 W) power. When snow appears, it melts and the resulting water changes the resistance between the electrodes and a control signal is generated, turning on and off the corresponding shut-off valves ZK1, ZK2 and ZK3, ensuring the independent functioning of the first branch 2, second branch 3 and third heating branch 4. It should be noted that the load of the device to prevent icing on the water heating system of the heating system is not critical, since the range of operating temperatures (from -8 to + 2 ° C) is in the range of thermal capacities where there is still a margin of at least 80%.

Claims (4)

1. The device for preventing icing, comprising a piping circuit with a frost-resistant coolant, comprising at least one heating branch, a heat exchanger connected to a water heating system, a circulation pump and a control system, characterized in that the control system includes a temperature sensor connected with a circulation pump, and the heating branch contains interconnected shut-off valve and precipitation sensor. 2. The device according to claim 1, characterized in that the pipeline circuit is made in the form of a metal-plastic or rubber pipe with an internal section of 9 to 12 mm. 3. The device according to claim 1, characterized in that the control system further comprises a water sensor. 4. The device according to claim 1, characterized in that the heat exchanger is formed by two pipes located one inside the other.