US20220120450A1 - Saddle air conditioner - Google Patents
Saddle air conditioner Download PDFInfo
- Publication number
- US20220120450A1 US20220120450A1 US17/269,138 US201917269138A US2022120450A1 US 20220120450 A1 US20220120450 A1 US 20220120450A1 US 201917269138 A US201917269138 A US 201917269138A US 2022120450 A1 US2022120450 A1 US 2022120450A1
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- United States
- Prior art keywords
- casing
- fan
- frame
- wall
- volute
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- 238000009434 installation Methods 0.000 claims abstract description 15
- 125000006850 spacer group Chemical group 0.000 claims abstract description 6
- 238000001816 cooling Methods 0.000 claims description 13
- 239000003507 refrigerant Substances 0.000 claims description 5
- 238000013022 venting Methods 0.000 abstract 1
- 238000004378 air conditioning Methods 0.000 description 11
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 9
- 238000005516 engineering process Methods 0.000 description 4
- 239000007788 liquid Substances 0.000 description 4
- 239000000523 sample Substances 0.000 description 3
- 239000002937 thermal insulation foam Substances 0.000 description 3
- 238000010586 diagram Methods 0.000 description 2
- 239000006260 foam Substances 0.000 description 2
- 230000017525 heat dissipation Effects 0.000 description 2
- 239000000203 mixture Substances 0.000 description 2
- 230000001743 silencing effect Effects 0.000 description 2
- 238000010521 absorption reaction Methods 0.000 description 1
- 239000000428 dust Substances 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000008030 elimination Effects 0.000 description 1
- 238000003379 elimination reaction Methods 0.000 description 1
- 238000004880 explosion Methods 0.000 description 1
- 230000010354 integration Effects 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000004321 preservation Methods 0.000 description 1
Images
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/20—Casings or covers
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
- F24F1/0003—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station characterised by a split arrangement, wherein parts of the air-conditioning system, e.g. evaporator and condenser, are in separately located units
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/32—Supports for air-conditioning, air-humidification or ventilation units
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/24—Means for preventing or suppressing noise
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2221/00—Details or features not otherwise provided for
- F24F2221/20—Details or features not otherwise provided for mounted in or close to a window
Definitions
- the present application describes a window air conditioner unit, specifically a saddle-shaped unit.
- Common household air conditioners include central air conditioners, wall units, and window units.
- the condenser, compressor, expansion valve, evaporator, and all fans and motors are integrated into one appliance, with the advantages of low cost and convenient installation.
- Some wall or window units use a single motor to drive both the condenser and evaporator fans. Others use a single motor to drive both fans.
- Wall and window units are noisy. At present, most window machines have a cuboid structure. Because such a machine is large, if the wall is not thick enough, it is generally necessary to install brackets on the external wall to support the window machines, making installation difficult. A cuboid structure occupies a large window space. This reduces window visibility and presents challenges when it comes to preventing airflow from inside to outside.
- the “saddle” shaped window air conditioner makes the appliance less invasive in the window.
- This configuration splits the machinery into indoor and outdoor casings.
- the outdoor casing houses the condenser and compressor and the indoor casing houses the evaporator.
- the casings are connected by a low-profile crossbar, which can be as little as a few inches high. This crossbar sits on the windowsill. In a lift-up/slide-down window, the pane can then be almost completely closed. This preserves the view and also makes it much easier to keep the window air tight.
- All saddle-shaped window units known to date require two motors: one for the indoor casing to drive the evaporator fan and one for the outdoor casing to drive the condenser fan.
- the present invention provides two alternative embodiments to reduce noise.
- a single motor in the outdoor casing drives an axle that engages both the indoor and outdoor fans. This is accomplished by extending the axle through the connecting frame, over the windowsill.
- the indoor and outdoor fans each have their own motors.
- the indoor fan is a crossflow (hair-curler-shaped) fan, which is known for its quiet operation.
- the present invention also addresses issues of frame integrity, stability, and installation.
- the preferred embodiment is a coaxial saddle air conditioner, including connecting frame components, indoor components and outdoor components.
- the connecting frame components comprise a horizontal frame body and two vertical frames connected to the two ends of the horizontal frame body, respectively.
- the two vertical frame bodies and the horizontal frame body together form an installation groove.
- the installation groove is used to clamp the two sides of the wall.
- the indoor components are fixed on the vertical frame inside the wall.
- These components include an internal machine case and an evaporator, an expansion valve, a volute and a centrifugal (hamster-wheel shaped) fan fixed in the case.
- the case of the internal machine is provided with an air inlet and an air outlet.
- the evaporator is disposed at the inner side of the air inlet, and the volute is disposed at the inner side of the evaporator.
- the air inlet of the volute is connected to the air inlet of the case through the evaporator, and the air outlet of the volute is connected to the air outlet of the case.
- the outdoor components are fixed on the vertical frame outside the wall. These components include an external machine case and a condenser, a compressor, a volute, and an axial (propeller-shaped) fan fixed in the case.
- the outdoor casing is provided with an air vent.
- the condenser is disposed at the inner side of the air vent.
- the axial fan wheel is disposed at the inner side of the condenser.
- a single motor is disposed at the inner side of the axial (outdoor) fan.
- the motor engages two drive shafts on opposite sides of the motor.
- the centrifugal fan, the double shaft motor, and the axial fan are coaxial.
- a first output shaft of the dual-axis motor is coaxially connected with the centrifugal fan through the connecting frame components.
- a second output shaft of the dual-axis motor is coaxially connected with the axial fan. Elimination of the indoor motor greatly reduces indoor noise.
- the evaporator, the compressor, the condenser and the expansion valve are connected in series through a pipeline to form a closed loop.
- the pipeline between the evaporator and the compressor and that between the condenser and the expansion valve pass through the connecting frame components.
- Both embodiments also include fasteners, which include fastening support and fastening screw.
- the fastening support is fixed at the lower part of a vertical frame.
- the fastening screw is connected to fastening support threads.
- the inner part of the fastening screw is provided with a retaining block.
- the fasteners When installing, the inner part of the fastening screw is tightened to one side of the wall through the retaining block, and the other vertical frame is tightened to the other side of the wall.
- the fasteners By providing the fasteners, the gap between the vertical frames and the wall can be adjusted by tightening the fastening screw, making the installation more robust and adaptable to different wall thicknesses.
- the horizontal frame body may be one wide duct or two or more narrow support beams. In the latter case, a connecting cover plate is arranged over the support beams.
- a plurality of through holes are uniformly disposed on the side walls of the horizontal frame body and the vertical frame body. The through holes have a silencing effect and can reduce running noise.
- FIG. 1 is a front view of a first embodiment.
- FIG. 2 is a right view of the first embodiment, with the front of FIG. 1 positioned on the left of FIG. 2 .
- FIG. 3 is a left view of the first embodiment, with the front of FIG. 1 appearing on the right of FIG. 3 .
- FIG. 4 is a top view of the first embodiment, with the front of FIG. 1 appearing at the bottom of FIG. 4 .
- FIG. 5 is a bottom view of the first embodiment, with the front of FIG. 1 appearing at the top of FIG. 5 .
- FIG. 6 shows an assembly figure of a second embodiment.
- FIG. 7 is an explosion diagram of the second embodiment.
- FIG. 8 is a longitudinal cross-sectional view of the second embodiment.
- FIG. 9 is a schematic diagram of the inner casing, the connecting frame and the outer casing of the second embodiment.
- this embodiment of the utility model provides a coaxial saddle air conditioner, including the connecting frame components 1 , the air-conditioning internal machine components 2 , and the air-conditioning external machine components 3 .
- the connecting frame components 1 include a horizontal frame body 11 and two vertical frame bodies 12 respectively connected to the two ends of the horizontal frame body 11 .
- the two vertical frame bodies 12 under the horizontal frame body 11 together form an installation groove 13 .
- the installation groove 13 is used to clamp the two sides of the wall body.
- the connecting frame components 1 of the present embodiment are relatively arranged in two groups at left and right positions.
- a connecting cover plate 14 is arranged on the two groups of connecting frame components 1 , making the structure firm and material saved and appearance beautiful.
- Both the horizontal frame body 11 and the vertical frame body 12 are square tubular, and a plurality of through holes 15 are uniformly disposed on the side walls of the horizontal frame body 11 and the vertical frame body 12 .
- the through holes 15 have a silencing effect, reducing running noise.
- the air-conditioning internal machine components 2 are fixed on the outer side of the vertical frame 12 inside the wall. These components 2 include an internal machine case 21 and the evaporator 22 , the expansion valve, the volute 23 and the centrifugal fan 24 fixed in the case 21 .
- the inner case 21 is provided with an air inlet 25 and an air outlet 26 .
- the air inlet 25 of the inner case 21 is provided with a filter net 27 and a temperature sensing probe 28 .
- the filter 27 can reduce the inhalation of dust and debris to ensure the safe operation of the device, and the temperature sensing probe 28 is used to detect the room temperature.
- the evaporator 22 is disposed inside the air inlet 25 .
- the volute 23 is composed of volute upper foam components and volute lower foam components.
- the volute 23 is disposed at the inner side of the evaporator 22 .
- the suction port of the volute 23 is connected to the air inlet 25 of the inner case 21 through the evaporator 22 , and the exhaust port of the volute 23 is connected to the air outlet 26 of the inner case 21 .
- the centrifugal fan 24 is disposed in the volute 23 .
- the air-conditioning external machine components 3 are fixed on the outer side of the vertical frame 12 outside the wall.
- the components 3 include the external machine case 31 and the compressor 32 , the condenser 33 , the axial flow fan 34 , the dual-axis motor 35 , the condensate water receiving tray 37 and the condensed water drain pump 38 fixed in the case 31 .
- the case of external machine 31 is provided with an air vent 36 .
- the condenser 33 is disposed at the inner side of the air vent 36 .
- the condensate water receiving tray 37 is disposed below the condenser 33 , and the condensed water drain pump 38 is used to discharge the condensed water in the condensate water receiving tray 37 out of the outer case 31 , thus facilitating the collection and discharge of the condensed water.
- the axial flow fan 34 is disposed inside the condenser 33 .
- the dual-axis motor 35 is disposed inside the axial flow fan 34 .
- the centrifugal fan 24 , the dual-axis motor 35 , and the axial flow fan 34 are all coaxial.
- the indoor drive shaft 351 of the dual-axis motor 35 is coaxially connected with the centrifugal fan 24 through the connecting frame components 1 .
- the outdoor drive shaft 352 of the dual-axis motor 35 is coaxially connected with the axial flow fan 34 .
- the evaporator 22 , the compressor 32 , the condenser 33 , and the expansion valve are connected in series through a pipeline to form a closed loop.
- the pipeline between the evaporator 22 and the compressor 32 and that between the condenser 33 and the expansion valve pass through the connecting frame components 1 .
- the horizontal frame 11 of the connecting frame components 1 of this application passes through the window and straddles the wall.
- the air-conditioning internal machine components 2 are installed on the inner wall through the vertical frame body 12 inside wall.
- the air-conditioning external machine components 3 are installed on the outer wall through the vertical frame 12 inside the wall.
- the air-conditioning internal machine components 2 and the external machine components 3 are connected into an integrated structure through the connecting frame components 1 . It takes up little window space. And the air-conditioning internal machine components 2 and the external machine components 3 are separated by a wall, making noise small.
- the axial fan 34 and the centrifugal fan 24 of the application are driven by an outdoor drive shaft 352 and an indoor drive shaft 351 , respectively, at both ends of a dual-axis motor 35 .
- the dual-axis motor eliminates an indoor motor, making the structure more streamlined and the volume smaller and the cost lower.
- the air-conditioning internal machine components 2 do not include a motor, so the running noise is smaller.
- the embodiment also includes fasteners 4 , which include the fastening support 41 and the fastening screw 42 .
- the fastening support 41 is fixed at the lower part of a vertical frame 12 .
- the fastening screw 42 is connected to the threads of the fastening support 41 .
- the inner part of the fastening screw 42 is provided with the retaining block 43 .
- the inner part of the fastening screw 42 is tightened to one side of the wall through the retaining block 43 , and the other vertical frame 12 is tightened to the other side of the wall.
- the embodiment of the utility model provides a low-noise cross-wall window machine, including an internal machine 51 placed inside the wall, an external machine 52 placed outside the wall, and the connecting frame 53 spanning the wall and connected the upper parts of the internal machine and the external machine.
- the internal machine 51 includes an inner casing 511 , which is fixedly connected to the connecting frame 53 , and an evaporator component 512 and an air supply component 513 in the inner casing 511 .
- the outer casing 521 includes an outer casing 521 , which is fixedly connected to the connecting frame 53 , and a compressor 522 , a condenser 523 , and a cooling fan 524 in the outer casing 521 .
- the work principles of the air conditioner are as followings. The low-pressure gaseous refrigerant is sucked into the compressor 522 and compressed into a high-temperature and high-pressure gas.
- the gaseous refrigerant flows to the condenser 523 and gradually condenses into a high-pressure liquid in the process of cooling. Then it becomes a low-temperature and low-pressure gas-liquid mixture through the expansion valve, then enters the indoor evaporator, and continuously vaporizes by absorbing the heat of the indoor air, achieving indoor cooling. It becomes a lower-pressure gas again and re-enters the compressor 522 . In this way, the air conditioner can work continuously.
- the air supply component 51 includes a volute 5131 fixed in the casing and a cross-flow fan 5132 in the volute 5131 .
- the lower part of the volute 5131 corresponds to the air inlet of the casing 5111 , and is equipped with an air inlet of the volute 5133 .
- the upper part of the volute 5131 corresponds to the air outlet of the casing 5112 , and is equipped with an air outlet of the volute 5134 .
- the evaporator component 512 is placed in the volute air inlet 5133 .
- the connecting frame 53 of the application is installed on the window, and the internal machine 51 and the external machine 52 are on both sides of the wall.
- the internal machine 51 is placed indoors, and the external machine 52 is placed outdoors.
- the noise generated by the external machine 52 can be isolated by the wall.
- the cross-flow fan 5132 in the internal machine 51 is used as the air supply structure, which can not only isolate the noise of the external machine 52 , but also greatly reduce the noise of the internal machine 51 , thereby greatly reducing the noise in the room.
- the casing air inlets 5111 specifically distribute in the side and bottom air inlet mesh holes of the inner casing 511 .
- the evaporator component 512 is obliquely placed at the volute air inlet 5133 .
- the indoor air is taken in from the side and bottom air inlet mesh of the inner casing 511 , respectively, and then passes through the inclined evaporator component 512 , making the air flow smoothly. It increases the area in which air enters, and reduces the noise of air flow, thereby achieving further noise reduction.
- the outer side of the volute 5131 is covered with a thermal insulation foam layer 514 .
- the thermal insulation foam layer 514 on one hand, has a heat preservation effect to reduce the heat transfer between the air in the volute 5131 and the outside, and on the other hand, it also has the function of sound absorption and noise reduction.
- the condenser 523 is placed on a side of the outer casing 521 away from the connecting frame 53
- the cooling fan 524 is placed on a side of the outer casing 521 adjacent to the connecting frame 53 .
- the cooling fan 524 is used for air cooling and heat dissipation of the condenser.
- the wall and the outer casing 521 are separated by the spacer 5212 , so as to reduce the noise and vibration transmitted from the outer casing 521 to the wall, and ensure that air can flow into the air inlet 5211 from the gap between the wall and the outer casing 521 .
- the cooling fan 524 includes a frame body 5241 , a motor 5242 and a fan blade 5243 .
- the frame body 5241 is fixed in the outer casing 521 .
- the frame body 5241 includes a motor base 52411 and a blade protection ring 52412 connected to the motor base 52411 .
- the motor 5242 is mounted on the motor base 52411 .
- the fan blade 5243 is coaxially mounted on the output shaft of the motor 5242 and placed in the blade protection ring 52412 .
- the blade protection ring 52412 protects the blade 5243 .
- the motor base 52411 and the blade protection ring 52412 form an integral frame structure 5241 , making it easy to install.
- the inner casing 511 includes an inner side plate 5113 and an inner casing body 5114 .
- the outer casing 521 includes an outer side plate 5213 and an outer casing 5214 .
- the inner side plate 5113 and the outer side plate 5213 are respectively fixed at two ends of the connecting frame 53 .
- the inner hood 5114 covers the inner machine side plate 5113
- the outer hood 5214 covers the outer machine side plate 5213 .
- the inner side plate 5113 and the outer side plate 5213 and the connecting frame 53 form an integral installation structure, which is excellent in loading. After the components are installed, cover the inner hood 5114 and the outer hood 5214 .
- the outer hood 5214 is integrally formed with a cover body 5215 to cover the connection frame 53 .
- the outer casing 5214 can cover the connecting frame 53 at the same time. The assembly is convenient and the appearance is beautiful.
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- Combustion & Propulsion (AREA)
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- Structures Of Non-Positive Displacement Pumps (AREA)
- Air-Conditioning Room Units, And Self-Contained Units In General (AREA)
Abstract
This invention discloses a low-noise cross-wall (“saddle” shaped) air conditioner window unit. The unit includes an indoors casing that houses the condenser and compressor and an outdoors casing that houses the evaporator. A connecting frame (which straddles the windowsill) connects the indoors and outdoors casings. In a first embodiment, an axial condenser fan and a centrifugal fan evaporator fan are driven simultaneously by a dual-axle motor housed in the outdoors casing. The axle driving the indoors evaporator fan extends through the connecting frame over the windowsill. In a second embodiment, the evaporator fan is a cross-flow fan. Both features are designed to make the unit lightweight and quiet indoors. The full specification discloses additional novel features such as venting patterns and perforated frames, also for making the unit lightweight, efficient, and/or quiet. Installation is enabled with spacers or fasteners, not requiring support brackets.
Description
- The present application describes a window air conditioner unit, specifically a saddle-shaped unit.
- Common household air conditioners include central air conditioners, wall units, and window units. In a wall or window unit, the condenser, compressor, expansion valve, evaporator, and all fans and motors are integrated into one appliance, with the advantages of low cost and convenient installation. Some wall or window units use a single motor to drive both the condenser and evaporator fans. Others use a single motor to drive both fans.
- The integration of all machinery into one unit poses some disadvantages. Wall and window units are noisy. At present, most window machines have a cuboid structure. Because such a machine is large, if the wall is not thick enough, it is generally necessary to install brackets on the external wall to support the window machines, making installation difficult. A cuboid structure occupies a large window space. This reduces window visibility and presents challenges when it comes to preventing airflow from inside to outside.
- The “saddle” shaped window air conditioner makes the appliance less invasive in the window. This configuration splits the machinery into indoor and outdoor casings. The outdoor casing houses the condenser and compressor and the indoor casing houses the evaporator. The casings are connected by a low-profile crossbar, which can be as little as a few inches high. This crossbar sits on the windowsill. In a lift-up/slide-down window, the pane can then be almost completely closed. This preserves the view and also makes it much easier to keep the window air tight.
- All saddle-shaped window units known to date require two motors: one for the indoor casing to drive the evaporator fan and one for the outdoor casing to drive the condenser fan. The present invention provides two alternative embodiments to reduce noise. In the first embodiment, a single motor in the outdoor casing drives an axle that engages both the indoor and outdoor fans. This is accomplished by extending the axle through the connecting frame, over the windowsill. In a second embodiment, the indoor and outdoor fans each have their own motors. The indoor fan is a crossflow (hair-curler-shaped) fan, which is known for its quiet operation. The present invention also addresses issues of frame integrity, stability, and installation.
- The preferred embodiment is a coaxial saddle air conditioner, including connecting frame components, indoor components and outdoor components. The connecting frame components comprise a horizontal frame body and two vertical frames connected to the two ends of the horizontal frame body, respectively. The two vertical frame bodies and the horizontal frame body together form an installation groove. The installation groove is used to clamp the two sides of the wall. The indoor components are fixed on the vertical frame inside the wall. These components include an internal machine case and an evaporator, an expansion valve, a volute and a centrifugal (hamster-wheel shaped) fan fixed in the case. The case of the internal machine is provided with an air inlet and an air outlet. The evaporator is disposed at the inner side of the air inlet, and the volute is disposed at the inner side of the evaporator. The air inlet of the volute is connected to the air inlet of the case through the evaporator, and the air outlet of the volute is connected to the air outlet of the case. The centrifugal fan is set in the volute.
- The outdoor components are fixed on the vertical frame outside the wall. These components include an external machine case and a condenser, a compressor, a volute, and an axial (propeller-shaped) fan fixed in the case. The outdoor casing is provided with an air vent. The condenser is disposed at the inner side of the air vent. The axial fan wheel is disposed at the inner side of the condenser.
- A single motor is disposed at the inner side of the axial (outdoor) fan. The motor engages two drive shafts on opposite sides of the motor. The centrifugal fan, the double shaft motor, and the axial fan are coaxial. A first output shaft of the dual-axis motor is coaxially connected with the centrifugal fan through the connecting frame components. A second output shaft of the dual-axis motor is coaxially connected with the axial fan. Elimination of the indoor motor greatly reduces indoor noise.
- The evaporator, the compressor, the condenser and the expansion valve are connected in series through a pipeline to form a closed loop. The pipeline between the evaporator and the compressor and that between the condenser and the expansion valve pass through the connecting frame components.
- Both embodiments also include fasteners, which include fastening support and fastening screw. The fastening support is fixed at the lower part of a vertical frame. The fastening screw is connected to fastening support threads. The inner part of the fastening screw is provided with a retaining block. When installing, the inner part of the fastening screw is tightened to one side of the wall through the retaining block, and the other vertical frame is tightened to the other side of the wall. By providing the fasteners, the gap between the vertical frames and the wall can be adjusted by tightening the fastening screw, making the installation more robust and adaptable to different wall thicknesses. When installing, it is only necessary to place the connecting frame components on the wall through the window. Compared with existing window machine technology, this does not require through holes to install a bracket, making the installation faster and more convenient.
- The horizontal frame body may be one wide duct or two or more narrow support beams. In the latter case, a connecting cover plate is arranged over the support beams. A plurality of through holes are uniformly disposed on the side walls of the horizontal frame body and the vertical frame body. The through holes have a silencing effect and can reduce running noise.
- In order to more clearly explain the specific embodiment of the utility model or the technical scheme in the existing technology, the figures to be used in the specific embodiment will be briefly described below. In all the figures, similar components or parts are generally marked by like numerals. In the figures, the components or parts are not necessarily drawn to scale.
-
FIG. 1 is a front view of a first embodiment. -
FIG. 2 is a right view of the first embodiment, with the front ofFIG. 1 positioned on the left ofFIG. 2 . -
FIG. 3 is a left view of the first embodiment, with the front ofFIG. 1 appearing on the right ofFIG. 3 . -
FIG. 4 is a top view of the first embodiment, with the front ofFIG. 1 appearing at the bottom ofFIG. 4 . -
FIG. 5 is a bottom view of the first embodiment, with the front ofFIG. 1 appearing at the top ofFIG. 5 . -
FIG. 6 shows an assembly figure of a second embodiment. -
FIG. 7 is an explosion diagram of the second embodiment. -
FIG. 8 is a longitudinal cross-sectional view of the second embodiment. -
FIG. 9 is a schematic diagram of the inner casing, the connecting frame and the outer casing of the second embodiment. - In
FIGS. 1-5, 1 shows the connecting frame components; 11 is the horizontal frame body; 12 is the vertical frame body; 13 is the installation groove; 14 is a connecting cover plate; 15 shows through holes; 2 shows the air-conditioning internal machine components; 21 is the inner case; 22 is the evaporator; 23 is the volute; 24 is the centrifugal fan; 25 is the air inlet; 26 is the air outlet; 27 is the filter net; 28 is the temperature probe; 3 shows the air-conditioning external machine components; 31 is the outer case; 32 is the compressor; 33 is the condenser; 34 is the axial flow fan; 35 is the dual-axis motor; 351 is the indoor drive shaft; 352 is the outdoor drive shaft; 36 is the air vent; 37 is the condensed water receiving tray; 38 is the condensed water drain pump; 4 is the fastener; 41 is the fastening support; 42 is the fastening screw; and 43 is the retaining block. - In
FIGS. 6-9, 51 is the internal machine; 511 is the inner casing; 5111 is the casing air inlet; 5112 is the casing air outlet; 5113 is the inner side plate; 5114 is the inner casing; 512 is the evaporator component; 513 is the air inlet component; 5131 is the volute; 5132 is the cross-flow fan; 5133 is the volute air inlet; 5134 is the volute air outlet; 514 is the thermal insulation foam layer; 515 is the guide grille; 52 is the external machine; 521 is the outer casing; 5211 is the air inlet; 5212 is the spacer; 5213 is the outer casing side plate; 5214 is the outer casing; 5215 is the cover; 522 is the compressor; 523 is the condenser; 5241 is the frame; 52411 is the motor base; 52412 is the blade protection ring; 5242 is the motor; 5243 is the fan blade; 53 is the connecting frame. - The embodiments of the technical solutions of the utility model will be described in detail with the attached figures. The following embodiments are only used to more clearly illustrate the technical solutions of the utility model. Therefore, they are only examples and should not be used to limit the protection scope of this patent.
- As shown in
FIG. 1 toFIG. 5 , this embodiment of the utility model provides a coaxial saddle air conditioner, including the connectingframe components 1, the air-conditioninginternal machine components 2, and the air-conditioningexternal machine components 3. - The connecting
frame components 1 include ahorizontal frame body 11 and twovertical frame bodies 12 respectively connected to the two ends of thehorizontal frame body 11. The twovertical frame bodies 12 under thehorizontal frame body 11 together form aninstallation groove 13. Theinstallation groove 13 is used to clamp the two sides of the wall body. The connectingframe components 1 of the present embodiment are relatively arranged in two groups at left and right positions. A connectingcover plate 14 is arranged on the two groups of connectingframe components 1, making the structure firm and material saved and appearance beautiful. Both thehorizontal frame body 11 and thevertical frame body 12 are square tubular, and a plurality of throughholes 15 are uniformly disposed on the side walls of thehorizontal frame body 11 and thevertical frame body 12. The through holes 15 have a silencing effect, reducing running noise. - The air-conditioning
internal machine components 2 are fixed on the outer side of thevertical frame 12 inside the wall. Thesecomponents 2 include aninternal machine case 21 and theevaporator 22, the expansion valve, thevolute 23 and thecentrifugal fan 24 fixed in thecase 21. Theinner case 21 is provided with anair inlet 25 and anair outlet 26. Theair inlet 25 of theinner case 21 is provided with afilter net 27 and atemperature sensing probe 28. Thefilter 27 can reduce the inhalation of dust and debris to ensure the safe operation of the device, and thetemperature sensing probe 28 is used to detect the room temperature. Theevaporator 22 is disposed inside theair inlet 25. Thevolute 23 is composed of volute upper foam components and volute lower foam components. Thevolute 23 is disposed at the inner side of theevaporator 22. The suction port of thevolute 23 is connected to theair inlet 25 of theinner case 21 through theevaporator 22, and the exhaust port of thevolute 23 is connected to theair outlet 26 of theinner case 21. Thecentrifugal fan 24 is disposed in thevolute 23. - The air-conditioning
external machine components 3 are fixed on the outer side of thevertical frame 12 outside the wall. Thecomponents 3 include theexternal machine case 31 and thecompressor 32, thecondenser 33, theaxial flow fan 34, the dual-axis motor 35, the condensatewater receiving tray 37 and the condensedwater drain pump 38 fixed in thecase 31. The case ofexternal machine 31 is provided with anair vent 36. Thecondenser 33 is disposed at the inner side of theair vent 36. The condensatewater receiving tray 37 is disposed below thecondenser 33, and the condensedwater drain pump 38 is used to discharge the condensed water in the condensatewater receiving tray 37 out of theouter case 31, thus facilitating the collection and discharge of the condensed water. Theaxial flow fan 34 is disposed inside thecondenser 33. The dual-axis motor 35 is disposed inside theaxial flow fan 34. Thecentrifugal fan 24, the dual-axis motor 35, and theaxial flow fan 34 are all coaxial. Theindoor drive shaft 351 of the dual-axis motor 35 is coaxially connected with thecentrifugal fan 24 through the connectingframe components 1. Theoutdoor drive shaft 352 of the dual-axis motor 35 is coaxially connected with theaxial flow fan 34. - The
evaporator 22, thecompressor 32, thecondenser 33, and the expansion valve are connected in series through a pipeline to form a closed loop. The pipeline between the evaporator 22 and thecompressor 32 and that between thecondenser 33 and the expansion valve pass through the connectingframe components 1. In operation, first, the low-pressure gaseous refrigerant is sucked into thecompressor 32 and compressed into high-temperature and high-pressure gas; second, the gaseous refrigerant flows to thecondenser 33, and gradually condenses into high-pressure liquid during heat dissipation to the outside; third, after passing through the expansion valve, it becomes the low-temperature and low-pressure gas-liquid mixture; then it enters theindoor evaporator 22, and continuously vaporizes by absorbing heat from the indoor air, thereby achieving indoor cooling; last, it becomes the low-pressure gas and re-enters thecompressor 32. In this way, the air conditioner can continue to operate continuously. - The
horizontal frame 11 of the connectingframe components 1 of this application passes through the window and straddles the wall. The air-conditioninginternal machine components 2 are installed on the inner wall through thevertical frame body 12 inside wall. The air-conditioningexternal machine components 3 are installed on the outer wall through thevertical frame 12 inside the wall. The air-conditioninginternal machine components 2 and theexternal machine components 3 are connected into an integrated structure through the connectingframe components 1. It takes up little window space. And the air-conditioninginternal machine components 2 and theexternal machine components 3 are separated by a wall, making noise small. When installing, it is only necessary to place the connectingframe components 1 on the wall through the window. Compared with the existing window machine technology, this does not require throughholes 15 to install bracket, letting the installation more convenient and quick. Theaxial fan 34 and thecentrifugal fan 24 of the application are driven by anoutdoor drive shaft 352 and anindoor drive shaft 351, respectively, at both ends of a dual-axis motor 35. The dual-axis motor eliminates an indoor motor, making the structure more streamlined and the volume smaller and the cost lower. The air-conditioninginternal machine components 2 do not include a motor, so the running noise is smaller. - The embodiment also includes
fasteners 4, which include thefastening support 41 and thefastening screw 42. Thefastening support 41 is fixed at the lower part of avertical frame 12. Thefastening screw 42 is connected to the threads of thefastening support 41. The inner part of thefastening screw 42 is provided with the retainingblock 43. When installing, the inner part of thefastening screw 42 is tightened to one side of the wall through the retainingblock 43, and the othervertical frame 12 is tightened to the other side of the wall. By providing thefasteners 4, the gap between the vertical frames and the wall can be adjusted by tightening thefastening screw 42, making the installation more robust and adaptable to different wall thicknesses. - As shown in
FIG. 6 toFIG. 9 , the embodiment of the utility model provides a low-noise cross-wall window machine, including aninternal machine 51 placed inside the wall, anexternal machine 52 placed outside the wall, and the connectingframe 53 spanning the wall and connected the upper parts of the internal machine and the external machine. - According to
FIG. 7 andFIG. 8 , theinternal machine 51 includes aninner casing 511, which is fixedly connected to the connectingframe 53, and anevaporator component 512 and anair supply component 513 in theinner casing 511. Theouter casing 521 includes anouter casing 521, which is fixedly connected to the connectingframe 53, and acompressor 522, acondenser 523, and a coolingfan 524 in theouter casing 521. The work principles of the air conditioner are as followings. The low-pressure gaseous refrigerant is sucked into thecompressor 522 and compressed into a high-temperature and high-pressure gas. And the gaseous refrigerant flows to thecondenser 523 and gradually condenses into a high-pressure liquid in the process of cooling. Then it becomes a low-temperature and low-pressure gas-liquid mixture through the expansion valve, then enters the indoor evaporator, and continuously vaporizes by absorbing the heat of the indoor air, achieving indoor cooling. It becomes a lower-pressure gas again and re-enters thecompressor 522. In this way, the air conditioner can work continuously. - There is a casing
air inlet 5111 in the lower part of theinner casing 511 and acasing air outlet 5112 in the upper part of theinner casing 511. In order to make the wind more uniform and farther, thecasing air outlet 5112 is equipped with a guild grille 515. Theair supply component 513 circulates the air cooled by the evaporator into the room. Referring toFIG. 7 andFIG. 8 , theair supply component 51 includes avolute 5131 fixed in the casing and across-flow fan 5132 in thevolute 5131. The lower part of thevolute 5131 corresponds to the air inlet of thecasing 5111, and is equipped with an air inlet of thevolute 5133. The upper part of thevolute 5131 corresponds to the air outlet of thecasing 5112, and is equipped with an air outlet of thevolute 5134. Theevaporator component 512 is placed in thevolute air inlet 5133. - The connecting
frame 53 of the application is installed on the window, and theinternal machine 51 and theexternal machine 52 are on both sides of the wall. Theinternal machine 51 is placed indoors, and theexternal machine 52 is placed outdoors. The noise generated by theexternal machine 52 can be isolated by the wall. Thecross-flow fan 5132 in theinternal machine 51 is used as the air supply structure, which can not only isolate the noise of theexternal machine 52, but also greatly reduce the noise of theinternal machine 51, thereby greatly reducing the noise in the room. - In this embodiment, the
casing air inlets 5111 specifically distribute in the side and bottom air inlet mesh holes of theinner casing 511. Theevaporator component 512 is obliquely placed at thevolute air inlet 5133. When thecross-flow fan 5132 is in operation, the indoor air is taken in from the side and bottom air inlet mesh of theinner casing 511, respectively, and then passes through theinclined evaporator component 512, making the air flow smoothly. It increases the area in which air enters, and reduces the noise of air flow, thereby achieving further noise reduction. - In this embodiment, the outer side of the
volute 5131 is covered with a thermalinsulation foam layer 514. The thermalinsulation foam layer 514, on one hand, has a heat preservation effect to reduce the heat transfer between the air in thevolute 5131 and the outside, and on the other hand, it also has the function of sound absorption and noise reduction. - In this embodiment, the
condenser 523 is placed on a side of theouter casing 521 away from the connectingframe 53, and the coolingfan 524 is placed on a side of theouter casing 521 adjacent to the connectingframe 53. The coolingfan 524 is used for air cooling and heat dissipation of the condenser. There is anair inlet 5211 on a side of theouter casing 521 adjacent to the connectingframe 53, and aspacer 5212 against the wall on the side nearconnection frame 53. The wall and theouter casing 521 are separated by thespacer 5212, so as to reduce the noise and vibration transmitted from theouter casing 521 to the wall, and ensure that air can flow into theair inlet 5211 from the gap between the wall and theouter casing 521. - In this embodiment, according to
FIG. 7 andFIG. 8 , the coolingfan 524 includes aframe body 5241, amotor 5242 and afan blade 5243. Theframe body 5241 is fixed in theouter casing 521. Theframe body 5241 includes amotor base 52411 and ablade protection ring 52412 connected to themotor base 52411. Themotor 5242 is mounted on themotor base 52411. Thefan blade 5243 is coaxially mounted on the output shaft of themotor 5242 and placed in theblade protection ring 52412. Theblade protection ring 52412 protects theblade 5243. Themotor base 52411 and theblade protection ring 52412 form anintegral frame structure 5241, making it easy to install. - In this embodiment, according to
FIG. 7 andFIG. 9 , theinner casing 511 includes aninner side plate 5113 and aninner casing body 5114. Theouter casing 521 includes anouter side plate 5213 and anouter casing 5214. Theinner side plate 5113 and theouter side plate 5213 are respectively fixed at two ends of the connectingframe 53. Theinner hood 5114 covers the innermachine side plate 5113, and theouter hood 5214 covers the outermachine side plate 5213. Theinner side plate 5113 and theouter side plate 5213 and the connectingframe 53 form an integral installation structure, which is excellent in loading. After the components are installed, cover theinner hood 5114 and theouter hood 5214. In addition, theouter hood 5214 is integrally formed with acover body 5215 to cover theconnection frame 53. Theouter casing 5214 can cover the connectingframe 53 at the same time. The assembly is convenient and the appearance is beautiful. - It should be noted that the above embodiments are only used to illustrate but not limit the technical solutions of the utility model. Although the utility model is described in detail with reference to the foregoing embodiments, the common technicians in the field should understand that he can still modify the technical solutions recorded in the aforementioned embodiments, or replace some or all of the technical features equally; and that the modifications or replacements do not detach the essence of the corresponding technical solutions from the scope of the technical solutions of the utility model, but should cover the scope of the Claim and the Institution of the utility model.
Claims (12)
1. A saddle-shaped window air conditioner comprising an indoor casing, an outdoor casing, and a connecting frame connecting the inner casing to the outdoor casing;
said indoor casing comprising an indoor casing air inlet and an indoor casing air outlet;
said connecting frame comprising one or more horizontal frame components, an indoor vertical frame connected to the horizontal frame, an outdoor vertical frame connected to the horizontal frame, and an installation groove beneath the horizontal frame and between the vertical frames;
said indoor casing containing an evaporator, an expansion valve, a volute comprising a volute air inlet and a volute air outlet, and a centrifugal fan set in the volute;
said evaporator situated between the indoor casing air inlet and the volute air inlet;
said volute air outlet leading into the indoor casing air outlet;
said outdoor casing housing a compressor, a condenser, an axial fan, an air vent, and a dual-axis motor;
said condenser situated between the air vent and the axial fan;
said axial fan situated between the condenser and the dual-axis motor;
an outdoor drive shaft connecting the dual-axis motor to the axial fan;
an indoor drive shaft, coaxial with the outdoor drive shaft and connecting the dual-axis motor to the centrifugal fan;
said indoor drive shaft passing through the connecting frame;
a closed loop of refrigerant pipeline connecting the evaporator, the compressor, the condenser, and the expansion valve in series;
the portion of said pipeline between the evaporator and the compressor passing through the connecting frame;
the portion of said pipeline between the condenser and the expansion valve passing through the connecting frame.
2. The air conditioner of claim 1 , further comprising fasteners, said fasteners comprising fastening support, fastening screw, and retaining block;
said fastening support fixed to the outdoor vertical frame;
said fastening screw having a frame end and a wall end;
said fastening screw frame end adjustably screwed into the fastening support;
said retaining block connected to the fastening screw wall end.
3. The air conditioner of claim 1 ,
wherein said connecting frame components comprise exactly two crossbars;
further comprising a connecting cover plate over the crossbars.
4. The air conditioner of claim 2 ,
wherein said connecting frame components comprise exactly two crossbars;
further comprising a connecting cover plate over the crossbars.
5. The air conditioner of claim 3 ,
wherein the horizontal frame components and the vertical frame are square tubular with side walls;
further comprising a plurality of through holes uniformly disposed on the side walls of the horizontal frame components and of the vertical frame.
6. The air conditioner of claim 4 ,
wherein the horizontal frame components and the vertical frame are square tubular with side walls;
further comprising a plurality of through holes uniformly disposed on the side walls of the horizontal frame components and of the vertical frame.
7. A saddle-shaped window air conditioner comprising
an internal machine comprising an upper part, an external machine comprising an upper part, and a connecting frame connecting the upper parts of the internal machine and the external machine;
said internal machine comprising an inner casing fixedly connected to the connecting frame;
said inner casing housing an evaporator component and an air supply component;
said external machine comprising an outer casing fixedly connected to the connecting frame, said outer casing housing a compressor, a condenser, and a cooling fan;
said inner casing comprising an upper part and a lower part;
a casing air inlet in the lower part of the inner casing, and a casing air outlet in the upper part of the inner casing;
said air supply component comprising a volute with an upper part and a lower part, fixed in the inner casing, and a cross-flow fan in said volute;
such that the casing air inlet opens into the lower part of the volute, and the upper part of the volute opens into the casing air outlet;
said evaporator component disposed between the casing air inlet and the lower part of the volute.
8. The air conditioner of claim 7 ,
wherein the inner casing has a front surface and a bottom surface;
wherein the casing air inlet comprises air inlet mesh holes in the front surface and the bottom surface of the inner casing;
wherein said evaporator component is disposed obliquely so that it faces the air inlet mesh holes on both the front surface and the bottom surface of the inner casing;
9. The air conditioner of claim 7 , said outer casing comprising a wall-facing surface and an outdoors-facing surface;
further comprising a wall-facing air inlet on the wall-facing surface;
wherein the condenser is situated adjacent to the outdoors-facing surface and the cooling fan is situated between the condenser and the wall-facing air inlet;
further comprising spacers connected to the wall-facing surface.
10. The air conditioner of claim 8 , said outer casing comprising a wall-facing surface and an outdoors-facing surface;
further comprising a wall-facing air inlet on the wall-facing surface;
wherein the condenser is situated adjacent to the outdoors-facing surface and the cooling fan is situated between the condenser and the wall-facing air inlet;
further comprising spacers connected to the wall-facing surface.
11. The air conditioner of claim 9 ,
wherein the cooling fan comprises a frame body, a motor with a output shaft, and fan blades;
wherein the frame body is fixed in the outer casing;
said frame body comprising a motor base and a fan blade protection ring connected to the motor base;
said motor mounted on said motor base;
and said fan blades mounted coaxially on the output shaft of the motor and positioned within the fan blade protection ring.
12. The air conditioner of claim 10 ,
wherein the cooling fan comprises a frame body, a motor with a output shaft, and fan blades;
wherein the frame body is fixed in the outer casing;
said frame body comprising a motor base and a fan blade protection ring connected to the motor base;
said motor mounted on said motor base;
and said fan blades mounted coaxially on the output shaft of the motor and positioned within the fan blade protection ring.
Applications Claiming Priority (5)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2018217687081 | 2018-10-29 | ||
CN201821768708.1U CN208998190U (en) | 2018-10-29 | 2018-10-29 | Across the wall window machine of extension shaft |
CN201920959848.5U CN210153962U (en) | 2019-06-24 | 2019-06-24 | Low-noise wall-spanning type window machine |
CN2019209598485 | 2019-06-24 | ||
PCT/US2019/057601 WO2020092081A1 (en) | 2018-10-29 | 2019-10-23 | Saddle air conditioner |
Publications (1)
Publication Number | Publication Date |
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US20220120450A1 true US20220120450A1 (en) | 2022-04-21 |
Family
ID=70464151
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US17/269,138 Pending US20220120450A1 (en) | 2018-10-29 | 2019-10-23 | Saddle air conditioner |
Country Status (2)
Country | Link |
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US (1) | US20220120450A1 (en) |
WO (1) | WO2020092081A1 (en) |
Cited By (4)
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US20220176287A1 (en) * | 2020-12-09 | 2022-06-09 | Shenzhen Antop Technology Co., Ltd | Wall-mounted air purifier |
US20220412600A1 (en) * | 2019-12-31 | 2022-12-29 | Gd Midea Air-Conditioning Equipment Co., Ltd. | Air conditioner |
CN115560398A (en) * | 2022-12-02 | 2023-01-03 | 泉州市佩海科技有限公司 | Outer protective cover convenient to protect outer machine of air conditioner |
WO2024016310A1 (en) * | 2022-07-22 | 2024-01-25 | Haier Us Appliance Solutions, Inc. | A saddle window air conditioner with an adjustable bridge |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CA3086289C (en) * | 2019-11-29 | 2023-02-14 | Gd Midea Air-Conditioning Equipment Co., Ltd. | Window air conditioner |
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US2604763A (en) * | 1951-05-04 | 1952-07-29 | Carl E L Lipman | Room cooler |
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US20220412600A1 (en) * | 2019-12-31 | 2022-12-29 | Gd Midea Air-Conditioning Equipment Co., Ltd. | Air conditioner |
US20220176287A1 (en) * | 2020-12-09 | 2022-06-09 | Shenzhen Antop Technology Co., Ltd | Wall-mounted air purifier |
WO2024016310A1 (en) * | 2022-07-22 | 2024-01-25 | Haier Us Appliance Solutions, Inc. | A saddle window air conditioner with an adjustable bridge |
CN115560398A (en) * | 2022-12-02 | 2023-01-03 | 泉州市佩海科技有限公司 | Outer protective cover convenient to protect outer machine of air conditioner |
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WO2020092081A1 (en) | 2020-05-07 |
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