RU2243452C1 - Air conditioning apparatus - Google Patents

Abstract

FIELD: air conditioning systems, combined exhaust and input ventilation systems, possibly used as horizontal aggregated single-unit conditioning and exhaust-input ventilation device.

SUBSTANCE: air conditioning apparatus includes vapor compression refrigerating machine and fluid-tight compressor. Refrigerating machine includes condenser and evaporator mounted with possibility of arranging crosswise relative to air flows in section of housing. Fluid-tight compressor is mounted with possibility of arranging in section of housing. Apparatus also includes two blowers mutually connected for forming closed refrigerating circuit (each blower is mounted with possibility of connecting with respective pumping window of housing section); control unit and closed air-passing circuit with closed axis of duct placed in the same plane and with two pairs of windows arranged along perimeter of air-passing circuit. One pair of windows includes inlet windows that may be connected with respective (arranged one opposite to other) suction windows of housing section. Other pair of windows includes outlet windows, each may be connected with section of housing. Two pairs of shut-off valves are arranged in air passing circuit in such a way that each valve is placed between inlet and outlet windows. Air-passing circuit is in the form of single-section housing. Its inlet windows are arranged one opposite to other and they are in the form of suction windows of section. Outlet windows are in the form of pumping windows of section. Suction and pumping windows are arranged along perimeter of single-section housing. Two pairs of shut-off valves are placed in section in such a way that each valve is arranged between suction window and pumping window. Condenser and compressor are arranged in section between valves of one pair of shut-off valves. Evaporator is arranged between valves of other pair of shut-off valves and it overlaps one pumping window crosswise relative to air flow direction in said window. Condenser is arranged in such a way that it overlaps other pumping window crosswise relative to air flow direction in said window. Each blower is arranged outside of single-section housing; its suction side is communicated with respective pumping window of section.

EFFECT: improved design, enhanced technological effectiveness, reduced material consumption and size, simplified assembling process, operational reliability, low aerodynamic resistance of air conditioning apparatus.

9 cl, 5 dwg

Description

The device according to the invention is intended for heat treatment of air flows entering the air conditioner both from the atmosphere and from the service object, as well as their mixtures. Such a device can also carry out organized air exchange in the facility, including the influx of atmospheric air and the removal of air from the facility.

The invention can find application in air conditioning systems and supply and exhaust ventilation as a horizontal aggregated monoblock duct type air conditioner and supply and exhaust unit.

A known device for air conditioning, which includes a housing containing three mating sections, two of which are peripheral and one central, as well as a steam compression refrigeration machine, including a hermetic compressor, condenser, evaporator and expansion (throttling) device. All devices are interconnected by a pipeline and form a closed refrigeration circuit. The control unit, the compressor and the condenser are installed in one of the peripheral sections, and the evaporator in the other peripheral section, and the installation is carried out in such a way that the condenser and the evaporator overlap the corresponding peripheral sections transverse to the air flows in the sections, while two are installed in the central section of the device fan, a duct is mounted with a two-position shut-off valve installed in it and with inlet and outlet windows for air and opposed discharge windows are made in the walls of the housing for For air, between which there is a three-position valve that regulates the air flow between the peripheral sections, in one of which there are windows, one of which is located at the beginning of the air flow relative to the evaporator, serves to draw in internal air, and the other located at the end of the air flow the evaporator, is used to suck in external air, and in the other peripheral section there are windows, one of which, located at the beginning of the air flow relative to the condenser, serves to suction of internal air, and the other, located at the end of the air flow relative to the condenser, serves to suck in external air, and on both peripheral sections mounted on-off valves that regulate air flow through the suction openings (US patent No. 5533357, CL. F 25 V 29/00, publ. 07/09/96).

The known device for air conditioning has a sufficiently broad functional and technological capabilities in the heat treatment of air, but has a relatively low energy efficiency and manufacturability.

The closest to the claimed technical essence and the achieved result is an air conditioning device comprising a three-section housing consisting of two peripheral sections and a central section located between them and containing a steam compression refrigeration machine including a hermetic compressor, condenser, evaporator and throttling device connected between themselves and forming a closed refrigeration circuit, a control unit, and the control unit, compressor and condenser are installed They are in one peripheral section, and the evaporator in the other peripheral section, and the installation is carried out in such a way that the condenser and the evaporator are located in the respective peripheral sections across the air flows in them, and two fans, while the channel with the central section is connected to the central section shut-off valve with inlet and outlet windows for air, and in the wall of the housing there are two discharge windows for removing air from the sections and suction windows for supplying air to the sections, and two windows are opposite wives in the central section, and each fan with the discharge side is connected to one of the corresponding discharge windows, while for the regulation of air flows there are three shut-off valves, and two windows, opposite located in the central section, are made suction, the ends of the channel with a shut-off valve, which are its inlet and outlet windows are interconnected, forming a closed loop located in a horizontal plane around the perimeter of the central section, and two suctions are made around the perimeter of the loop windows, which are connected in pairs with two suction windows opposite in the central section, and two windows, each of which is open in one of the peripheral sections where one of the fans is installed, and in the case wall of each peripheral section there is a discharge window, and the condenser and the evaporator is located each in the corresponding peripheral section between the fan and the closed loop window, while the shut-off valves are installed in a closed loop, and each of the valves is installed between a pair of he circuit (RF patent №2194923, cl. F 25 B 29/00, F 24 F 5/00, 12/20/2002, Bull. No. 35 is a prototype).

The known device for air conditioning has low adaptability, due to the significant overall dimensions and material consumption, as well as increased complexity of assembly and high aerodynamic drag.

An object of the invention is to create a new design of a device for air conditioning with high adaptability and operational reliability, as well as low aerodynamic drag.

The technical problem is solved in the design of the device for air conditioning: a device containing a steam compressor refrigeration machine, including located with the possibility of placement in the section of the housing transversely to the air flows, a condenser and an evaporator, and a sealed compressor located with the possibility of placement in the section of the housing, interconnected with the formation of a closed refrigeration circuit and each installed with the possibility of connection with the corresponding discharge window of the section of the housing two valves the radiator, as well as, associated with the housing, the control unit and a closed air duct channel circuit with a closed channel axis, located in one plane, and two pairs of windows located around the perimeter of the air duct circuit, one of which is made input and can be connected to the corresponding ones located relative to each other the suction windows of the section of the housing, and the other pair-output, and each with the possibility of connection with the section of the housing, and two pairs of shut-off valves for regulating air an ear placed in an air-conducting circuit, each of the shut-off valves being installed between the inlet and outlet windows, characterized in that the air-conducting circuit is made in the form of a single-section housing, the inlet windows are opposite to each other and made in the form of section suction windows, and the outlet windows are made in the form of section discharge windows, while the suction and discharge windows are located around the perimeter of the single-section housing, and two pairs of shut-off valves are installed in the section in such a way that each valves is located between the discharge window and the suction window, and the condenser with the compressor is placed in the section between one pair of pressure valves, and the evaporator is placed in the section between the pair of shut-off valves, with the overlapping of one discharge window transverse to the air flow in the latter, and the condenser is placed with the overlap of the other discharge windows transverse to the air flow in the latter, with each fan located on the outside of the single-section housing and the suction side connected to a corresponding window on oppression section.

In such a device, the control unit and part of the closed refrigeration circuit, having the form of a connecting pipe, can be located on the outside of the single-section housing, while holes in the wall of the latter can be made for the passage of the connecting pipe.

In such a device, a compressor can be installed between the condenser and the wall of the single-section housing, along the axis of the discharge window, overlapped by the capacitor.

In such a device, a single-section housing can be designed as an open torus or toroid with a closed axis and a passageway in the central part, and discharge windows with corresponding fans, a control unit, and a section of the connecting pipeline can be placed in the passageway around the perimeter of the latter.

In such a device, each of the fans can have an impeller rotational drive, which is located on the suction side of the fan, for example, in the suction pipe.

In such a device, the discharge windows can be made opposite to each other and coaxial and located in the same plane with a closed axis.

In such a device, the fans can be made centrifugal with one-sided suction and, accordingly, the left and right directions of rotation of the impellers, while the fans have one impeller rotation drive, which is made in the form of an electric motor with a pair of ends of the output shaft connected to the corresponding impellers moreover, the electric motor is located in the passageway between the fans with the alignment of the shaft, the axes of the discharge windows and the axes of rotation of the impellers.

In such a device, the electric motor can be mounted on a fan or on a single-section housing, for example, by means of brackets.

In such a device, the control unit can be installed in the central part of the section, and the shut-off valves can be X-shaped, with the possibility of mechanical contact with the control unit, while the closed refrigeration circuit contains a connecting pipe, which is located in the section, and in the control unit can be made openings for a pipe section, for example, a section containing a throttling device.

In the inventive device, the manufacturability of the design can be improved by reducing the material consumption and overall dimensions; a decrease in overall dimensions, in turn, reduces resistance to air flow and the cost of power consumed by fans. Simplification of the design of the device and, as a consequence, the improvement of manufacturability is due to the expansion of the functions of the air duct channel circuit capable of performing the functions of the device casing.

Improvement of manufacturability could be promoted by:

- the implementation of the air path in the form of a single-section housing of the device,

- the location of the evaporator, compressor and condenser in one section (between shut-off valves),

- placement of the condenser and evaporator with the overlapping of the corresponding discharge windows transversely to the air flows in the latter;

- placement of fans on the outside of a single-section housing;

- giving a single-section housing a torus (toroid) shape with a passageway in the central part and placement of fans, a control unit and a connecting pipe of the refrigeration circuit in the passageway;

- placement of fan drives on the suction side of the latter (in the suction nozzles of the fans);

- the implementation of the discharge windows opposite and coaxial, and placing their axes in the same plane with the closed axis, and installing one (common) for electric drive fans with a pair of ends of the output shaft, which reduces the load on the bearing bearings of both fans and the electric motor, and increases the term their service, reduces noise and vibration;

- placement of the control unit in the central part of the single-section housing, and shut-off valves - X-shaped with the possibility of contact with the control unit, and the location of the connecting pipe inside the section with the possibility of passage through openings made in the control unit.

Increase of operational reliability could be promoted by:

- placement of the connecting pipe of the refrigeration circuit on the outside of the single-section housing to bypass the shut-off valves and ensure their tightness;

- installation of a compressor between the condenser and the wall of the single-section housing, along the axis of the discharge window, covered by a condenser, to ensure constant cooling of the compressor at various operating modes of the device and the positions of the control element of the shut-off valves;

- the location of the fan drive on the suction side (in the suction pipe of the fan) to remove heat from the drive;

- installation of an electric motor on a fan or on the wall of a single-section housing by means of brackets.

Reducing aerodynamic drag to air flows and lowering the cost of power consumed by fan drives could help:

- placement of the control unit, the connecting pipe of the refrigeration circuit and the fans on the outside of the single-section housing.

A comparative analysis of the claimed device and prototype reveals the presence of distinctive features of the claimed device in comparison with the closest analogue, which allows us to conclude that the proposed solution meets the criterion of "novelty."

The presence of distinctive features makes it possible to obtain a positive effect, expressed in the creation of a new design of an air conditioning device with high energy efficiency and operational reliability, a simple design and an expanded number of mounting options, low material consumption and high manufacturability, as well as small overall dimensions.

Since when examining the subject of the invention in patent and scientific literature, no solutions were found containing the features of the claimed invention other than the prototype, it should be concluded that the claimed invention meets the criterion of “essential features”.

The use of the claimed invention in air conditioning systems ensures that it meets the criterion of "industrial applicability".

The inventive device for air conditioning is shown in the drawings: figure 1 shows a General view of the device (top view without a top panel of the housing); figure 2 is the same with another variant of the location of the shutoff valves; figure 3 - view of the device for conditioning with a drive installed in the suction pipe of the fan; figure 4 is a device for air conditioning (top view) with a toroidal housing; figure 5 - device for air conditioning (top view without the upper panel of the housing) with a central location of the control unit.

A device for air conditioning, containing a steam compression refrigeration machine, including located with the possibility of placement in section 1 of the housing 2, transverse to the air flows, a condenser 3 and an evaporator 4, and a hermetic compressor 5 located with the possibility of placement in the section 1 of the housing 2, interconnected with the formation of a closed refrigeration circuit and each installed with the possibility of connection with the corresponding discharge window 6, 7 of section 1 of housing 2, two fans 8, 9, as well as associated with the housing 2 b control lock 10 and a closed air-conducting channel circuit with a closed channel axis located in the same plane and two pairs of windows located around the perimeter of the air-conducting circuit, one of which is made inlet and can be connected to the corresponding opposite suction windows 11, 12 sections 1 of the housing 2, and the other pair - output and each with the possibility of connection with section 1 of the housing 2, and two pairs of shut-off valves 13, 14, 15, 16 for regulating the air flows placed in air-conducting circuit, each of the shut-off valves 13, 14, 15, 16 being installed between the inlet and outlet windows, while the air-conducting circuit is made in the form of a single-section housing 2, the inlet windows are opposite to each other and are made in the form of suction windows 11, 12 sections 1, and the output windows are made in the form of discharge windows 6, 7 of section 1, while the suction windows 11, 12 and discharge 6, 7 are located around the perimeter of the single-section housing 2, and two pairs of shut-off valves 13, 14, 15, 16 are installed in the section 1 so that each of pore valves 13, 14, 15, 16 is located between the discharge window 6, 7 and the suction window 11, 12, and the condenser 3 with compressor 5 are placed in section 1 between one pair of pressure valves 13, 16, and the evaporator 4 is placed in section 1 between another pair of shutoff valves 14, 15, with the overlapping of one discharge window 7 transversely to the air flow in the latter, and the condenser 3 is placed with the overlap of the other discharge window 6 transverse to the air flow in the latter, with each of the fans 8, 9 located on the outside of the single-section housing 2 and suction side iva is connected to the corresponding discharge window 6, 7 of section 1.

It is possible to place the control unit 10 and part of a closed refrigeration circuit, having the form of a connecting pipe 17, on the outside of the single-section housing 2, and holes 18 are made in the wall of the latter for the passage of the connecting pipe 17.

It is possible to install a compressor 5 between the capacitor 3 and the wall of the single-section housing 2, along the axis of the discharge window 6, blocked by the capacitor 3.

It is possible to perform a single-section housing 2 as an open torus or a toroid with a closed axis and a passageway 19 in the central part and placement in the passageway 19, along the perimeter of the latter, of the discharge windows 6, 7 with corresponding fans 8, 9, the control unit 10 and the connecting section pipeline 17.

It is possible that each of the fans 8, 9 has an impeller rotational drive 20, which is located on the suction side of the fan 8, 9, for example, in the suction pipe.

The discharge windows 6, 7 can be made opposite to each other and coaxial and located in the same plane with a closed axis.

Fans 8, 9 can be made centrifugal with one-way suction and, accordingly, the left and right directions of rotation of the impellers, while the fans 8, 9 can have one (common) drive 20 of the rotation of the impellers, which is made in the form of an electric motor with a pair of ends the output shaft connected to the respective impellers, and the motor can be located in the passageway 19 between the fans 8, 9 to ensure alignment of the shaft, the axes of the discharge windows 6, 7 and the axes of rotation of the impellers.

The electric motor can be installed both on the fan 8, 9, and on a single-section housing 2, for example, by means of brackets 21.

It is possible to place the control unit 10 in the central part of section 1, and the shutoff valves 13, 14, 15, 16 in an X-shape, with the possibility of mechanical contact with the control unit 10, and the connecting pipe 17 of the closed refrigeration circuit can be placed in section 1, and in the control unit 10 - holes 22 are made for the passage of a section of the connecting pipe 17, for example, a section containing a throttling device (not shown).

A device for conditioning works as follows.

With open valves 13 and 15 and closed 14 and 16, external (atmospheric) air flows from the suction window 11 to the condenser 3, from which it removes the heat of condensation and is removed from section 1 of the housing 2 by means of fan 8, and the internal air from the service object comes from suction windows 12 to the evaporator 4, where it is cooled and discharged from section 1 of the housing 2 by means of a fan 9 to the device serviced object. With open valves 14 and 16 and closed 13 and 15, external (atmospheric) air enters from the suction window 11 to the evaporator 4, where it is cooled and discharged from section 1 of the housing 2 by means of a fan 9 to the device serviced object, and the internal air from the device serviced object through the suction window 12 enters the condenser 3 and removes the heat of condensation from the latter, and the fan 8 removes air after the condenser 3 into the atmosphere, which results in organized air exchange in the service object of the device (Figs. 1, 2).

Installing fans 8, 9 from the outside of the single-section housing 2 reduces the material consumption of the single-section housing 2 and increases its manufacturability, and installing a compressor 5 and a condenser 3 between valves 13 and 16, an evaporator 4 between valves 14 and 15, and an evaporator 4 in the discharge window 7 and a capacitor 3 in the discharge window 6 improves manufacturability by reducing the overall size and material consumption of the device. A decrease in overall size leads to a decrease in aerodynamic drag and the cost of power consumed by the fans 8, 9.

Placing the control unit 10 and the connecting pipe 17 on the outside of the single-section housing 2 reduces the aerodynamic drag and the cost of power consumed by the fans 8, 9, increases the convenience of maintenance (control), and the presence of holes 18 for the passage of the connecting pipe increases the processability by reducing material consumption (Fig. 1).

The installation of the compressor 5 along the axis of the discharge window 6 increases the operational reliability due to the efficient heat removal from the compressor 5 when it flows around the air stream entering both through valve 13 and through valve 16 (Figs. 1, 2).

Manufacturability can be improved by reducing material consumption in the case of placement of the discharge windows 6 and 7, fans 8 and 9 and the control unit 10 in the passageway 19 of the single-section housing 2, made in the form of an open torus or toroid (figure 4).

Operational reliability is improved when the drives 20 of the fans 8 and 9 are located on the suction side of the latter, for example, in the suction pipes, due to the intensive heat removal from the drives 20 to the air flows (Fig. 3).

Improving manufacturability by simplifying the design and reducing material consumption contributes to the installation of one (common) electric drive 20 for fans 8 and 9, having two ends of the output shaft (figure 4).

Improving operational reliability contributes to the installation (fixing) of the electric drive 20 on the fan 8 or 9, or on a single-section housing 2 by means of brackets 21 (figure 4).

Manufacturability can be improved by installing the control unit 10 in the central part of the single-section housing 2 with the formation of an air-conducting circuit and a cross-shaped arrangement of valves 13, 14, 15, 16, while the connecting pipe 17 is placed in section 1 of the housing 2, and holes 22 are made in the control unit for the passage of the connecting pipe 17 (figure 5). With this arrangement of the control unit 10, in the latter, both valve actuators 13, 14, 15, 16, and a control valve actuator (throttling device), which are not shown, can be installed.

The described device for air conditioning, being new in relation to the prototype, has, in comparison with it, mainly higher energy efficiency, manufacturability and operational reliability.

Claims (9)

1. A device for air conditioning, comprising a steam compression refrigeration machine, comprising a condenser and an evaporator arranged for placement in a section of the housing transverse to the air flows, and a hermetic compressor located for placement in a section of the housing, interconnected to form a closed refrigeration circuit, and two fans installed each with the possibility of connecting to the corresponding discharge window of the housing section, as well as a control unit connected to the housing and a closed air duct channel circuit with a closed channel axis located in the same plane and two pairs of windows located around the perimeter of the air duct circuit, the windows of one of which are made input and can be connected to the corresponding opposite suction windows of the housing section, and the windows the other pair - the outlet, and each with the possibility of connection with the body section, and two pairs of shut-off valves for regulating the air flows placed in the air-conducting circuit re, wherein each of the shut-off valves is installed between the inlet and outlet windows, characterized in that the air-conducting circuit is made in the form of a single-section housing, the inlet windows are opposite to each other and are made in the form of section suction windows, and the outlet windows are made in the form of section discharge windows while the suction and discharge windows are located around the perimeter of the single-section housing, and two pairs of shut-off valves are installed in the section so that each of the shut-off valves is located between the net and a suction window, and the condenser with the compressor is placed in the section between one pair of shutoff valves, and the evaporator is placed in the section between the other pair of shutoff valves with the overlap of one discharge window transversely to the air flow in the latter, and the condenser is placed with the overlap of the other discharge window transverse to the air flow in the latter, wherein each of the fans is located on the outside of the single-section housing and the suction side is connected to the corresponding discharge window of the section. 2. The device for air conditioning according to claim 1, characterized in that the control unit and part of the closed refrigeration circuit, having the form of a connected pipeline, are located on the outside of the single-section housing, while holes in the wall of the latter are made for the passage of the connecting pipeline. 3. The device for air conditioning according to claim 1 or 2, characterized in that the compressor is installed between the condenser and the wall of the single-section housing along the axis of the discharge window, covered by a capacitor. 4. The device for air conditioning according to claim 2 or 3, characterized in that the single-section housing is made as an open torus or toroid with a closed axis and a passageway in the central part, and discharge windows with corresponding fans are placed in the passageway around the perimeter of the latter, control unit and connecting pipe section. 5. The device for air conditioning according to any one of claims 1 to 4, characterized in that each of the fans has an impeller rotational drive that is located on the suction side of the fan, for example in the suction pipe. 6. The device for air conditioning according to claim 4, characterized in that the discharge windows are made opposite to each other and coaxial and are located in the same plane with a closed axis. 7. The device for air conditioning according to claim 6, characterized in that the fans are centrifugal with one-sided suction and, accordingly, the left and right directions of rotation of the impellers, while the fans have one impeller rotation drive, which is made in the form of an electric motor with a pair of output ends shaft connected to the respective impellers, and the motor is placed in the passageway between the fans to ensure alignment of the shaft, the axes of the discharge windows and the axes of rotation of the working x wheels. 8. The device for air conditioning according to claim 7, characterized in that the electric motor is mounted on a fan or on a single-section housing, for example, by means of brackets. 9. The device for air conditioning according to claim 1, characterized in that the control unit is installed in the Central part of the section, and the shut-off valves are X-shaped with the possibility of mechanical contact with the control unit, while the closed refrigeration circuit contains a connecting pipe, which is located in sections, and in the control unit, holes are made for a section of the pipeline, for example, a section containing a throttling device.

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