SE507110C2 - Anti-freeze device for heat recovery plants - Google Patents

Abstract

Frost protection device for the use in a heat exchanger of the cross flow type, where the exhaust air and the outside air passes through flat sheet channels in a heat exchanger cassette and where the device also comprises a supply air fan (5), an exhaust air fan (6) and a frost protection thermostat (3), where a water/condensate sensor (2) being arranged in an exhaust air channel in the heat exchanger cassette, an electrical control device (4) ensuring that the supply air fan (5) is stopped if the temperature of the discharged air sinks below a predetermined level when the water sensor (2) simultaneously registrates presence of water or condensate, and that the frost protection thermostat (3) being arranged in the exhaust air channel, together with the water sensor (2). The frost protection thermostat (3) may also be arranged downstream of the exhaust air channel, at the beginning of the discharged air channel.

Description

507 110 is initiated when the thermostat indicates that the exhaust air temperature has fallen below a predetermined level. A combination of such solutions is also possible, preferably in two steps. Furthermore, a sensor can register a pressure drop, which can occur when ice is formed, whereby a time relay restores the normal function when the ice melts.

In the first three possibilities, the closing function will not be necessary as long as the exhaust air is dry, which will be normal even during cold winter days. The fan for the outdoor air would therefore in such cases work in normal operation and achieve the desired, necessary ventilation balance. in the latter case, a regulation of this speed of the exhaust fan is made more difficult, and in particular it takes a long time to melt the ice, which is formed in such large quantities that a pressure drop is sensed.

With the frost protection device according to the present invention, the above-mentioned disadvantages are avoided, so that the heat exchanger can operate normally for a longer period of time, and at the same time a significantly better utilization of the heat recovery plant is achieved, thereby maintaining a balanced and environmentally correct ventilation. This is achieved with the antifreeze device according to the present invention, as defined by the features stated in the claims.

The drawing shows in Fig. 1 a cross section through a heat exchanger, comprising the frost protection device according to the present invention, and Fig. 2 shows an enlarged cross section of the lamella in the heat exchanger cassette, comprising the sensor for water and condensate.

Hot exhaust air is sucked by a fan 6 for exhaust air into the heat exchanger, from the room or house, through an exhaust air duct a c: ~ q 7, through the heat exchanger cassette 1 and blown out through the exhaust air duct 8. Outdoor air or supply air is sucked by a supply air fan 5 in through an outdoor air duct 9, through the heat exchanger cassette 1 and blown into the room through the supply air duct 10.

In the heat exchanger cassette 1, exhaust air ducts and supply air ducts are arranged alternately and separated from each other by duct walls 11.

A frost protection thermostat 3 is preferably arranged in the exhaust air duct, which registers the exhaust air temperature, and a water and condensate sensor 2 is preferably arranged in the exhaust air duct and registers any water in the exhaust air. Furthermore, the antifreeze thermostat 3 can be arranged in an exhaust air duct or in an exhaust air duct in the heat exchanger cassette together with the water sensor 2.

The antifreeze thermostat 3 can be arranged in the exhaust air duct or in an exhaust air duct together with the water sensor 2.

The water / condensate sensor 2, shown in cross section in Fig. 2, is attached to an exhaust air duct in the heat exchanger cassette, which comprises aluminum strips 14, which abut adjacent cassette walls, electrical insulation 12 arranged on the aluminum strips and a further aluminum layer 15 arranged between the electrical insulation layers 12. Exhaust air will flow along the edge of the layers 12, 14 and on both sides thereof and any water or condensate in the exhaust air will settle on the edges of the layers.

The outer aluminum layer 14 can e.g. consists of 0.5 mm aluminum and a voltage of 9 volts can be set between the outer aluminum layers 14 and the central aluminum layer. The central aluminum layer can consist of 0.7 mm aluminum. When moisture settles as water along the edges of the layers, electric creep current will occur through the electrical insulation between the outer aluminum layer 14 and the inner aluminum layer 15. Water and condensate will deposit on the upper side 13 of the layers as well as on the underside. This creep current can be registered by changing the voltage between the outer 14 and the central aluminum layer 15.

An electrical control device 4 is also shown in Fig. 1, which regulates the fan function based on the recordings from the water / condensate sensor 2 as well as from the frost protection thermostat 3.

In addition to the sensors shown in Fig. 1, a temperature sensor can also register the temperature of outflown air. Even if the temperature of the outflown air should drop, the supply air fan 5 will continue to run as long as the water / condensate sensor 2 does not detect the presence of water. For this reason, there is no danger of ice forming.

However, if the relative humidity of the indoor air were to increase due to showering, washing and drying and the like, the fan 5 would be turned off for supply air. Such an increase in moisture content will be for a short time and will only occur for short periods of the day. This means that the heat recovery plant will operate normally for the most part.

If the water / condensate sensor 2 were to detect the presence of water, when the antifreeze thermostat 3 registers a temperature at or below a predetermined minimum temperature, the supply air fan 5 will stop and only start again when the water sensor 2 does not detect any water.

Should the heat exchanger cassette 1 cool down below the freezing point, the supply air fan 5 will continue to run normally as long as the water sensor 2 does not detect water or condensate.

During showering or the like, however, moist air will condense immediately as it enters the heat exchanger cassette 1. The water sensor 2, which extends through the entire heat exchanger cassette, will ensure that the supply air fan 5 is stopped and thereby avoid further formation of ice. .

Claims (2)

507110 Patent claims Frost protection device for use in a cross-flow type heat exchanger, where the exhaust air and the outdoor air pass through ducts of flat and stretched sheet metal in a heat exchanger cassette and where the device also comprises a supply air fan (5), an exhaust air fan (6) and a frost protection thermocouple state (3), characterized in that a water / condensate sensor (2) is arranged in an exhaust air duct in the heat exchanger cassette, an electrical control device (4) ensuring that the supply air fan (5) is stopped if the temperature of the discharged air drops below a predetermined - adjusted level if the water / condensate sensor (2) simultaneously detects that water or condensate is present, and that the frost protection thermostat (3) is arranged downstream of the exhaust air duct at the beginning of the exhaust air duct. Frost protection device for use in a cross-flow type heat exchanger, where the exhaust air and the outdoor air pass through ducts of flat and stretched sheet metal in a heat exchanger cassette and where the device also comprises a supply air fan (5), an exhaust air fan (6) and a frost protection thermocouple state (3), characterized in that a water / condensate sensor (2) is arranged in an exhaust air duct in the heat exchanger cassette, an electrical control device (4) ensuring that the supply air fan (5) is stopped if the temperature of the discharged air drops below a predetermined - correct level when the water sensor (2) simultaneously detects the presence of water or condensate, and that the antifreeze thermostat (3) is arranged in the exhaust air duct together with the water sensor (2).