WO2011008128A1

WO2011008128A1 - Conditioning device

Info

Publication number: WO2011008128A1
Application number: PCT/RU2010/000379
Authority: WO
Inventors: Владимир Петрович ХАРИТОНОВ; Антон Игоревич ОДНОВОЛОВ; Борис Петрович ХАРИТОНОВ; Алексей Борисович ХАРИТОНОВ
Original assignee: Общество С Ограниченной Ответственностью "Вентстроймонтаж"
Priority date: 2009-07-17
Filing date: 2010-07-08
Publication date: 2011-01-20
Also published as: RU2009127316A; RU2415349C1

Abstract

A conditioning device comprises a self-contained compressor-condenser unit for cooling air, which is provided with a ventilator and is situated in a container having air inlet and outlet windows with adjustable internal cross sections and louvered grilles provided with servo actuators. The inlet window is located in the lower part of the front wall of the container, the outlet window is located in the upper part of the front wall of the container and the compressor-condenser unit is located inside the container so as to be offset towards the rear wall thereof, the ventilator outlet being oriented in the direction of the upper part of the container.

Description

Conditioning device

Technical field

The invention relates to air treatment, in particular, to air conditioners with a remote compressor and condenser unit for air cooling, and can be used to increase the reliability, energy efficiency of air conditioners, mainly at low outdoor temperatures.

State of the art

A conditioning device is known from the prior art, including a refrigeration machine with a remote air-cooled compressor and condenser unit, equipped with a fan, which is located in a container with air inlet and outlet windows, which are made with an adjustable passage section and are equipped with louvres with servo drives (SU 2185574 , F24F 1/00, 2002).

The main disadvantage of this device is that when using a compressor-condenser unit with a vertical direction of air outlet from the condenser and the top - at the outlet location of the fan, the hydraulic resistance increases significantly when the outlet air stream is passed to the condenser inlet for mixing with outside air, which reduces the reliability of the air conditioner and increases energy consumption. In addition, this increases the dimensions of the container.

Disclosure of invention

The invention is aimed at improving reliability, energy efficiency and energy saving when operating an air conditioner with a remote compressor and condenser unit and vertical the direction of the air outlet from the condenser at a low outdoor temperature.

The solution to this problem is provided by the fact that in an air-conditioning device comprising a remote air-cooled compressor and condenser unit with a fan, which is located in a container with air inlet and outlet windows, which are made with an adjustable passage section and are equipped with louvres with servo drives, according to the invention , the input window is located in the lower part of the front wall of the container, and the output window is located in the upper part of the front wall of the container, while HO- condenser unit is located in the container vertically offset to its rear wall and is oriented outlet of the fan towards the top of the container.

At the same time, the louvres of the input and output windows are equipped with servo-drivers with proportional control of the degree of opening of the blinds or the louvres of the input and output windows are equipped with servo-drives with two-position control of the degree of opening of the blinds.

In addition, the conditioning device further comprises a controller, the temperature sensor of which is located inside the compressor-condenser unit at the air outlet of the fan, and the controller output is connected to the servo drives of the blinds of other gratings.

A deflector can be installed in the upper part of the container, directing the air flow towards the upper outlet window.

It is preferable that the container of the conditioning device be in the form of collapsible metal frames lined with panels of sheet material, such as polycarbonate.

In this case, the container can be made with the bottom open — without a bottom panel.

In addition, the upper panel and the lower part of the rear panel of the container and the deflector can be made easily removable.

The proposed location of the entrance window in the lower part of the front wall of the container, and the output window in the upper part of the front wall of the container in combination with the displacement of the condensing unit, which is oriented by the fan outlet towards the upper part of the container, to the rear wall of the container provides an effective bypass and circulation of the deflected deflector heated air leaving the condenser to the inlet of the condensing unit and mixing with the outside air, which increases the temperature in the air supplied to the condenser cooling provides reliable control of the condensing temperature of the refrigerant with maintaining it at the nominal design (working) level corresponding to the nominal operating pressure of the condensation in the range of negative outdoor temperature to -50 ⁰ C while reducing energy consumption and simplicity of design.

Brief Description of the Drawings

In FIG. 1 schematically shows a General view of the device for conditioning.

The best embodiment of the invention

The conditioning device includes a remote air-cooled compressor-condenser unit 1 with a fan 2, which is located in a container 3 with an inlet window 4, which is located in the lower part of the front wall 5 of the container 3, and an output window 6, which is located in the upper part of the front wall 5 of the container 3, while the condensing unit 1 is located vertically in the container 3 with an offset to its rear wall 7 and is oriented by the fan exit 2 in the direction of the upper part - the upper wall 8 of the container 3. The input and output windows 4 and 6 are made with an adjustable bore and are equipped with blinds by other gratings 9 with servos 10 made with proportional or two-position adjusting the degree of opening of the shutters.

In addition, the conditioning device further comprises a controller 11, the temperature sensor 12 of which is placed inside the condensing unit 1 at the air outlet of the fan 2, and the output of the controller 11 is connected to the servos 10 of the blinds of other gratings 9. In the upper part of the container 3 can be installed a deflector 13 directing the air flow towards the upper output window 6. The container 3 of the conditioning device can be made in the form of collapsible metal frames lined with sheet panels new material, for example, polycarbonate (not shown in the drawing).

In this case, the container 3 can be made with the bottom 14 open (without the bottom panel), and the upper panel 8 and the lower part 15 of the rear panel 7 of the container 3 and the deflector 13 can be made easily removable (or folding).

A device for conditioning works as follows.

In winter, when the air temperature at the outlet of fan 2 is higher than the set value (optimal for operation at design, nominal mode, for example, 0 ÷ +5 ^Q C) the temperature sensor 12 generates a signal from the controller 11 to open the louvres 9 of the input and output windows 4 and 6 with the servos 10, while the fan 2 of the condensing unit 1 causes the outside air to pass through the input window 4 to the condenser 15 (through the lateral perforated walls of the compressor-condenser unit 1), cooling it. The heated air coming out of the condensing unit 1 in the vertical direction is deflected by the deflector 13 towards the outlet window 6 and through the louvres 9 out into the atmosphere.

When the outside temperature is low and the temperature at the outlet of the condensing unit 1 is lower than the set value, the temperature sensor 12 generates a signal from the controller 11 to be covered by servo drives 10 of the louvres

9 of the inlet and outlet windows 4 and 6, so that part of the flow of heated air coming out of the condensing unit 1 is deflected by the deflector 13 and directed to the inlet of the condenser 16, mixing with the outside air, heating it to

10 ÷ 15 ^α C, which ensures that the temperature of the condenser 16 supplied for cooling is maintained at a given level. In this case, a mode is possible in which the louvres 9 of the inlet and outlet windows 4 and 6 will be completely closed, and the flow of heated air coming out of the condensing unit 1 deflecting by the deflector 13 will flow to the inlet of the condenser 16, recirculating until until the air temperature at the outlet of the condensing unit 1 rises above a predetermined value, and the temperature sensor 12 sends a signal to the controller 11 to open the input and output windows 4 and 6. Then there is a cyclic opening and closing of the louvres 9 of the inlet and outlet windows 4 and 6 in accordance with changes in weather conditions and the load on the air conditioning system.

When the device for air conditioning is used during the summer period, the other louvres 9 of the inlet and outlet windows 4 and 6 are fully open, and the upper panel 8 and the lower part 15 of the rear panel 7 of the container 3 and the deflector 13 can be removed (or tilted), while being prompted by a fan 2, external air passes through the side perforated walls of the condensing unit 1 into the condenser 16, cooling it, and enters the atmosphere.

Claims

Claim

1. The device for conditioning, including a remote air-cooled compressor and condenser unit with a fan, which is placed in a container with air inlet and outlet windows, which are made with adjustable passage section and are equipped with louvres with servo drives, characterized in that the inlet window is located in the lower part of the front wall of the container, and the exit window is located in the upper part of the front wall of the container, while the condensing unit is located in the container with about offset to its rear wall and is oriented by the fan outlet towards the top of the container.

2. The conditioning device according to claim 1, characterized in that the louvres of the inlet and outlet windows are equipped with servo drives with proportional control of the degree of opening of the blinds.

3. The conditioning device according to claim 1, characterized in that the louvres of the input and output windows are equipped with servo drives with two-position control of the degree of opening of the blinds.

4. The conditioning device according to claim 1, characterized in that it further comprises a controller, the temperature sensor of which is located inside the compressor-condenser unit at the outlet air from the fan, and the controller output is connected to the servo drives of the blinds of other grilles.

5. The conditioning device according to claim 6, characterized in that the container is made in the form of collapsible metal frames lined with panels of sheet material, for example, polycarbonate.

6. The conditioning device according to claim 5, characterized in that a deflector is installed in the upper part of the container, directing the air flow towards the upper outlet window.

7. The conditioning device according to claim 5, characterized in that the upper panel and the lower part of the rear panel of the container and the deflector are made easily removable.