FI13137Y1 - Ventilation unit - Google Patents

Abstract

A ventilation device arranged to be installed entirely in a window, vent or the like, wherein the ventilation device has a control unit for controlling the operation of the device, and which is arranged in the window, vent or the like for heating, comprising at least a heat recovery cell (1) for recovering heat from the exhaust air and transferring the recovered heat to the supply air and heating the supply air of the heating unit (7), the ventilation device being arranged to heat the supply air by said heating unit, if the heat and an arrangement for cooling the supply air, comprising at least a condenser (4), an evaporator (6) and a compressor (11), the ventilation device being arranged to cool the supply air a by means of said arrangement for cooling the supply air if the supply air is warmer than a predetermined temperature. In addition, protection requirements 2-4.

Description

Ventilation unit

FIELD OF THE INVENTION - The invention relates to an apartment-specific ventilation device as defined in preamble 1 of the protection claim.

BACKGROUND OF THE INVENTION Adequate and efficient ventilation should be provided in living and / or working areas. Traditional gravity ventilation does not always meet the current ventilation criteria, making it necessary to improve ventilation mechanically. Arranging mechanical ventilation in, for example, retrofitted apartments in an apartment building company is expensive, and it is not possible to adjust the ventilation for each apartment.

For this reason, various devices have been developed to increase the amount of air brought into or out of the apartment. However, simply increasing the supply or exhaust air causes the pressure level in the room to be disturbed and harmful components to enter the room air from the structures.

Air source heat pump technology is commonly used in detached houses for indoor air heating and cooling. An air source heat pump typically consists of indoor and outdoor units. The installation of an air source heat pump in apartment buildings is usually not possible due to the space required by the outdoor unit, the noise, the need for maintenance and the appearance of N 25. An air source heat pump also typically circulates the indoor air of room N without replacing it with clean outdoor air. Furthermore, the installation of the air source heat pump 3 typically requires making holes and openings in the wall structures.

S z A well-known room / apartment ventilation unit has been on the market 3 30 since 1987. The appliance is designed to replace a ventilation window or - = hatch without holes or other changes in the wall structures. Such an N ventilation device does not interfere with any other ventilation or heating systems in the room.

OBJECT OF THE INVENTION The object of the invention is to achieve an easy-to-install ventilation device which avoids the disadvantages of the prior art.

SUMMARY OF THE INVENTION The ventilation device according to the invention has an arrangement for heating the supply air and an arrangement for cooling the supply air. The arrangement for heating the supply air comprises - preferably a heat recovery cell and a heating unit. The arrangement for cooling the supply air preferably comprises a condenser, an evaporator and a compressor. In a preferred embodiment of the invention, the ventilation device also has a solar cell or panel with the necessary controls.

—The ventilation device according to the invention can also be integrated into a standard window frame, making it easy to install in new and renovation projects when installing or replacing windows.

In a preferred embodiment of the invention, the supply air cooling of the ventilation device is arranged so that the filtered supply air is directed to an evaporator, where the refrigerant coming from the expansion valve is led to the evaporator cell. A supply air fan is installed in connection with the evaporator, which blows air through the lamellae of the evaporator cell. The heat energy of the warm air blown through the cell is transferred to the refrigerant through the evaporator cell, whereby the air flowing through cools. At the same time, the heat bound to the N 25 cell heats the refrigerant, which changes from a liquid to a gas as a result of the temperature. The 3 supply air cooled from the evaporator to the set temperature is further led into the room along the supply air duct. The exhaust air to be removed from the room S is led along the exhaust air duct to the condenser z. The exhaust air flowing through the condenser cell absorbs heat 3 from the condenser cells, whereby the refrigerant flowing inside the cell cools accordingly. As it cools, the gas also liquefies at the same time. The flow of refrigerant between the evaporator N and the condenser is maintained by a compressor, which allows the pressure of the refrigerant and at the same time the temperature to be raised. The suction side of the compressor sucks the refrigerant from the evaporator, raises the refrigerant pressure and transfers it to the condenser. When the supply air is cooled, moisture condenses in the evaporator, which is led to the outside air together with the exhaust air.

In a preferred embodiment of the invention, the ventilation device also has - a solar cell or - panel for generating energy for cooling the supply air. When there is enough solar energy, the supply and exhaust fans also run on renewable energy.

In a preferred embodiment of the invention, the ventilation device comprises - a telecommunication unit for wired or wireless communication connections, whereby the ventilation device can be remotely controlled, for example by means of a computer or a portable smart device such as a smartphone. With remote programming, the device can be switched on / off, for example, to adjust the temperature and the ventilation output.

The ventilation device according to the invention achieves significant advantages over the prior art. The ventilation device according to the invention is able to both heat and cool the room while the ventilation device changes the air in the room. In addition, the use of the ventilation device according to the invention does not interfere with the other air-conditioning system of the building, since the ventilation device not only removes or supplies more air, but is able to remove and supply air while maintaining balance. In addition, by utilizing renewable energy in accordance with the invention, significant cost savings are achieved.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be described in detail with reference to the accompanying drawings, in which:

S z Fig. 1 shows the front of the ventilation unit with the front panel (inner window) removed, 3 Fig. 2 shows the rear of the ventilation unit (exterior), and = Fig. 3 shows the front panel of the ventilation unit (inner window).

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DETAILED DESCRIPTION OF THE INVENTION Figs. The exhaust air is sucked by the exhaust fan 3 of Figure 1 to a heat exchanger 1, where the heat energy in the exhaust air is stored in its cell. by the compressor 11 of Fig. 1 to the evaporator 6 of Fig. 1. The supply air is sucked by the supply air fan through the filter 5 to the evaporator, where the warm supply air heats the refrigerant in the cell of the evaporator, changing it to ice. gaseous while cooling the supply air. The evaporated refrigerant is pumped again by the compressor 11 to the condenser and the cooled supply air flows through the heating unit 7 of Fig. 1 to the heat exchanger 1 from where the heat stored in its cell is transferred to the supply air. room space. The solar panel 10 of Figure 2 mounted in place of the exterior window stores the available electrical energy in the battery 12 of Figure 1 from which it can be used to power the N 25 compressor 11 and the supply and exhaust fans. The thermostat control (9) of the N ventilation device according to the invention switches on the cooling function of either the heating unit 7 or 3, depending on the season and the set temperature wish.

S z The use of a ventilation device according to a preferred embodiment of the invention can be controlled in addition to the device itself as a remote control, e.g. via a mobile phone = (smartphone). The ventilation capacity of the appliance, the temperature control and the ratio of the supply and N exhaust air flow can also be adjusted remotely. Some other preferred embodiments of the invention are described below.

In one embodiment of the invention, the ventilation device is arranged to be installed entirely in a window, vent or the like, wherein the ventilation device has a control unit for controlling the operation of the device, and the ventilation device is arranged in a window, vent or the like. In this embodiment, the ventilation device comprises at least an arrangement for heating the supply air, comprising at least - a heat recovery cell 1 for recovering heat from the exhaust air and - transferring the recovered heat to the supply air, and - heating the supply air 7, to heat the supply air to a predetermined temperature. In this embodiment, the ventilation device further comprises an arrangement for cooling the supply air, comprising at least a condenser, an evaporator and a compressor, the ventilation device being arranged to cool the supply air by means of said supply air cooling if the supply air is warmer than a predetermined temperature.

In such an embodiment of the invention, the monitoring of the supply air temperature can be implemented by means of a temperature sensor connected to the control unit, which monitors the supply air temperature on the basis of the signal given by the temperature sensor and the temperature setpoint. In such an embodiment, the ventilation device preferably comprises a user interface with which the user N25 can set the desired predetermined temperature. Such a user interface N can be implemented in many ways, for example by means of a rotary control, pushbuttons 3 or, for example, a software-implemented user interface S utilizing a touch screen. One skilled in the art will be aware of many different ways to implement such a z interface.

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O = In another embodiment of the invention, the ventilation device further comprises N at least one or more solar cells 10 for collecting solar energy, and a battery 12 for storing the electrical energy produced by said solar cell 10. In this embodiment, the ventilation device is further arranged to use the electrical energy stored in the battery as the driving force of the compressor 11 and other components of the ventilation device. In a third embodiment of the invention, the ventilation device comprises - a supply air fan and an exhaust air fan 3. In this embodiment, the control unit of the ventilation device is further arranged to control the volume flow of said fans independently of each other. In a fourth embodiment of the invention, the ventilation device comprises - a telecommunication unit for remote control of the functions of the ventilation device. In such an embodiment, the telecommunication unit may comprise, for example, an electronic module for joining a wireless local area network (WLAN), or an electronic module for joining mobile networks. In such an embodiment, the control unit preferably comprises a processor and software for controlling the operation of the processor, which enables the remote control of the functions of the ventilation device over the data transmission network. In such an embodiment, the user can, for example, control the operation of the ventilation device via software or user interface running on a computer, tablet or smartphone, for example.

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Claims (4)

PROTECTION REQUIREMENTS Ventilation device arranged to be installed entirely in a window, - a ventilation hatch or the like, the ventilation device having a control unit for controlling the operation of the device, and the ventilation device arranged in a window, ventilation hatch or the like an arrangement for heating the supply air, comprising at least - a heat recovery cell (1) for recovering heat from the exhaust air and transferring the recovered heat to the supply air, and - a heating unit (7) for heating the supply air, a supply air to a predetermined temperature, and an arrangement for cooling the supply air, comprising at least a condenser (4), an evaporator (6) and a compressor (11), the ventilation device being arranged to cool supply air to cool the supply air if the supply air is warmer than a predetermined temperature. e 25 S 3 Ventilation device according to protective claim 1, characterized in that S it further comprises at least E 3 30 for collecting solar energy from one or more solar cells (10), and = for storing the energy produced by said solar cell (10), N and that the ventilation device is arranged to use the energy stored in the battery to drive the compressor (11) and other ventilation components. Ventilation device according to protective claim 1, characterized in that it comprises a supply air fan and an exhaust air fan (3), and in that the control unit of the ventilation device is arranged to control the volume flow of said fans independently of one another. Ventilation device according to claim 1, characterized in that it comprises a telecommunication unit for remote control of the functions of the ventilation device. 9 QA O OF O <Q < O I Ao o i O O O OF O N 5