WO2021103900A1 - 窗式空调器的密封组件以及具有其的窗式空调器 - Google Patents
窗式空调器的密封组件以及具有其的窗式空调器 Download PDFInfo
- Publication number
- WO2021103900A1 WO2021103900A1 PCT/CN2020/124109 CN2020124109W WO2021103900A1 WO 2021103900 A1 WO2021103900 A1 WO 2021103900A1 CN 2020124109 W CN2020124109 W CN 2020124109W WO 2021103900 A1 WO2021103900 A1 WO 2021103900A1
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- WO
- WIPO (PCT)
- Prior art keywords
- window
- air conditioner
- intermediate partition
- sealing
- chassis
- Prior art date
Links
- 238000007789 sealing Methods 0.000 title claims abstract description 243
- 230000004308 accommodation Effects 0.000 claims abstract 3
- 238000005192 partition Methods 0.000 claims description 236
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 131
- 238000003780 insertion Methods 0.000 claims description 62
- 230000037431 insertion Effects 0.000 claims description 62
- 238000009434 installation Methods 0.000 claims description 33
- 230000013011 mating Effects 0.000 claims description 13
- 238000003860 storage Methods 0.000 description 32
- 238000010586 diagram Methods 0.000 description 20
- 238000000034 method Methods 0.000 description 14
- 230000000694 effects Effects 0.000 description 11
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- 238000012545 processing Methods 0.000 description 5
- 210000005069 ears Anatomy 0.000 description 4
- 238000003032 molecular docking Methods 0.000 description 4
- 230000009467 reduction Effects 0.000 description 4
- 230000006872 improvement Effects 0.000 description 3
- 239000000463 material Substances 0.000 description 3
- 230000001681 protective effect Effects 0.000 description 3
- 239000004372 Polyvinyl alcohol Substances 0.000 description 2
- 238000004891 communication Methods 0.000 description 2
- 230000001788 irregular Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000004806 packaging method and process Methods 0.000 description 2
- 229920003023 plastic Polymers 0.000 description 2
- 239000004033 plastic Substances 0.000 description 2
- 229920002451 polyvinyl alcohol Polymers 0.000 description 2
- 238000003825 pressing Methods 0.000 description 2
- 238000000926 separation method Methods 0.000 description 2
- 230000007480 spreading Effects 0.000 description 2
- 238000003892 spreading Methods 0.000 description 2
- 241001391944 Commicarpus scandens Species 0.000 description 1
- 238000005299 abrasion Methods 0.000 description 1
- 230000009471 action Effects 0.000 description 1
- 230000004888 barrier function Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000015572 biosynthetic process Effects 0.000 description 1
- 239000000084 colloidal system Substances 0.000 description 1
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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
- F24F1/02—Self-contained room units for air-conditioning, i.e. with all apparatus for treatment installed in a common casing
- F24F1/03—Self-contained room units for air-conditioning, i.e. with all apparatus for treatment installed in a common casing characterised by mounting arrangements
- F24F1/031—Self-contained room units for air-conditioning, i.e. with all apparatus for treatment installed in a common casing characterised by mounting arrangements penetrating a wall or window
-
- 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
- F24F13/22—Means for preventing condensation or evacuating condensate
- F24F13/222—Means for preventing condensation or evacuating condensate for evacuating condensate
- F24F13/224—Means for preventing condensation or evacuating condensate for evacuating condensate in a window-type room air conditioner
-
- 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
- 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
Definitions
- the present application relates to the field of air conditioners, and in particular, to a sealing assembly of a window air conditioner and a window air conditioner having the same.
- the sealing components of the window air conditioners have poor sealing performance, and the structure is complicated and not easy to install, which further affects the application range of the window air conditioners and affects the performance of the window air conditioners.
- This application aims to solve at least one of the technical problems existing in the prior art.
- this application proposes a sealing assembly of a window air conditioner to improve the sealing performance of the sealing assembly.
- This application also proposes a window air conditioner with the above-mentioned sealing assembly.
- the window-type air conditioner is adapted to be supported on a window of a wall, and a movable window sash is provided in the window
- the window-type air conditioner includes A casing, the casing is provided with a receiving groove, at least a part of the window sash is adapted to extend into the receiving groove, the sealing assembly is adapted to contact the window sash and the inner wall of the window, respectively
- the sealing assembly includes: a fixing part connected to the casing; a sealing part, the sealing part connected to the fixing part, the sealing part being adapted to seal the window sash and the window Between the inner walls.
- the sealing assembly of the window air conditioner by sealing the sealing component between the window sash and the inner wall of the window, the sealing performance of the sealing assembly is improved on the one hand, and the sealing assembly has a good sound insulation effect on the other hand.
- the sealing component can be cut according to the distance between the side wall surface of the casing and the inner wall surface of the window, so that the installation of the sealing component is more convenient, and the structure of the sealing assembly is simpler.
- an installation groove is provided on the fixing component, and a part of the sealing component is installed in the installation groove.
- the opposite sides of the mounting groove are provided with card ribs, and the card ribs are in contact with the sealing member to position the sealing member in contact with the mounting groove.
- the sealing assembly further includes a rotating support, the rotating support is fixed on the casing, and the fixing member is rotatably provided on the rotating support to make the The sealing component can be rotated to be received in the containing groove.
- ribs are provided on the opposite side walls of the rotating support, and each of the ribs is in contact with the inner wall surface of the corresponding side of the containing groove.
- each rib is provided with a guiding chamfer.
- the opposite side walls of the rotating support are provided with sealing plates, and each of the sealing plates extends toward the inner wall surface of the corresponding side of the containing groove, and the sealing plate is located at the corresponding inner wall surface. Above the ribs on the side.
- the sealing assembly further includes an angle positioning assembly, the angle positioning assembly is respectively matched with the rotating support and the fixed part, so that when the fixed part rotates to a set angle Position the fixed part at the current angle.
- the window type air conditioner is adapted to be supported on a window of a wall, and a movable window sash is arranged in the window, wherein the window type air conditioner includes: a cabinet The casing is provided with a containing groove, at least a part of the window sash is adapted to extend into the containing groove; a sealing component, the sealing component is the sealing component according to the above-mentioned embodiment of the present application, and the sealing component is suitable The seal is arranged between the window sash and the inner wall of the window.
- the sealing performance of the sealing assembly is improved, and on the other hand, the sealing assembly has a good sound insulation effect.
- the sealing component can be cut according to the distance between the side wall surface of the casing and the inner wall surface of the window, so that the installation of the sealing component is more convenient, and the structure of the sealing assembly is simpler.
- the window type air conditioner further includes a positioning device that has an unlocked state and a locked state.
- the positioning device In the unlocked state, the positioning device is separated from the window sash, and the positioning device is separated from the window sash in the unlocked state.
- the locked state In the locked state, the positioning device is in contact with the window sash to position the window sash.
- the casing includes: a chassis; a rear box body, the rear box body is fixed on the chassis, the rear box body contains an outdoor heat exchanger; a front box body, The front box body is fixed on the chassis, and the front box body and the rear box body are spaced back and forth to define the containing groove; a middle partition plate, the middle partition plate being fixed on the chassis and Located in the containing groove, the front and rear ends of the intermediate partition are respectively matched with the rear box body and the front box body.
- the middle partition plate is provided with a storage space with an open top, the rotating support is received in the storage space, the fixed component is provided with a storage space, and the sealing assembly rotates When the accommodating groove is extended, the outer edge of the placement space extends into the accommodating space so that the sealing assembly is substantially flush with the intermediate partition.
- the intermediate partition is provided with drainage holes, and the drainage holes are suitable for draining the water in the intermediate partition to the outdoor side.
- the intermediate partition includes a bottom plate and side plates configured on opposite sides of the bottom plate, a containing groove is formed between the two side plates and the bottom plate, and the drain hole It is arranged at the bottom of the accommodating groove.
- the accommodating groove of the intermediate partition plate is provided with a plurality of drainage holes, and at least part of the drainage holes are suitable for draining water to a part of the corresponding outdoor side of the chassis.
- the device also includes a water receiving pan installed on the chassis, and some of the drainage holes are suitable for draining water to the water receiving pan, and then draining to the outdoor part of the chassis through the water receiving pan.
- the two ends of the accommodating groove are recessed downward to form a placement space;
- the plurality of drainage holes include a first drainage hole constructed at one end of the placement space, and the first drainage hole is configured at one end of the placement space.
- a drainage hole is suitable for draining water to the water receiving pan, the water receiving pan is provided with a drainage groove for draining water to the chassis, and the first drainage hole is correspondingly located above the drainage groove; and/or, a plurality of The drain hole includes a second drain hole constructed at the other end of the placement space, and the second drain hole is suitable for draining water to the chassis.
- a groove is recessed downwardly in the middle of the accommodating groove; the plurality of drainage holes further includes a third drainage hole constructed at the bottom of the groove, so The third drain hole is suitable for draining water to a part of the chassis corresponding to the outdoor side.
- a fixing hole is formed through the bottom of the groove, and the fixing hole is suitable for being connected and fixed to the water receiving tray by a connecting piece, and the third drain hole is located in the fixing hole. The periphery of the hole.
- the portion of the water receiving tray extends below the intermediate partition, and the portion of the water receiving tray located below the intermediate partition is configured with a support member, and the support member is suitable for To support the intermediate partition.
- a side plate close to the rear box body is provided with an overflow hole, and the overflow hole is suitable for draining water to a part of the chassis corresponding to the outdoor side.
- a support member is provided on the chassis, the support member corresponds to the accommodating groove, the intermediate partition is installed on the support, and the intermediate partition is suitable for supplying The window sash resists, wherein the bottom surface of the intermediate partition is configured with a positioning portion, the support member is configured with an insertion portion corresponding to the positioning portion, and the intermediate partition communicates with the positioning portion through the positioning portion.
- the inserting part of the support is insertingly connected.
- the window air conditioner further includes a water receiving tray installed on the chassis, the water receiving tray corresponding to the front box, and the support member is configured on the receiving tray.
- the water tray is arranged on the chassis through the water receiving tray; or, the support member is configured on the chassis.
- the number of the positioning portions is multiple, the multiple positioning portions are arranged at intervals along the length direction of the intermediate partition, and the multiple positioning portions include a first positioning portion And the second positioning portion, the shape of the first positioning portion is different from the shape of the second positioning portion; correspondingly, the number of the insertion portion is multiple, and the multiple insertion portions are different from each other.
- One of the positioning portions corresponds to a plug connection, and a plurality of the plugging portions includes a first plugging portion corresponding to the first positioning portion, and a first plugging portion that fits and plugs into the second positioning portion. The second insertion part of the setting.
- the intermediate partition includes a bottom plate and end side plates configured at both ends of the bottom plate, wherein the bottom surface of the bottom plate is configured with the positioning portion to be inserted into the support member.
- the placement part is plug-connected; the two end side plates are respectively connected with two opposite side walls of the chassis.
- one of the end side plate and the side wall of the chassis is provided with a buckle protruding laterally, and the other is provided with a buckle hole corresponding to the buckle.
- the buckle hole is suitable for corresponding buckle connection with the buckle.
- the end side plate includes a first plate body connected to the bottom plate and a second plate body connected to the first plate body, wherein the second plate body is configured with In the buckle, the connecting position of the second plate body and the first plate body is formed with an overlapping platform, and the overlapping platform abuts against the upper edge of the side wall of the chassis.
- the intermediate partition further includes side plates configured on opposite sides of the bottom plate, and the inner surface of one of the side plates is configured with a support platform extending along its length;
- the back plate of the front box is provided with a notch corresponding to the support platform, and the upper edge of the notch abuts against the support platform.
- the middle part of the intermediate partition is further configured with a fixing part
- the supporting member is configured with a butting part corresponding to the fixing part, and the fixing part and the butting part are connected by Pieces are connected and fixed.
- a fixing plate extends from the casing toward the fixing portion, and the connecting member sequentially penetrates the fixing plate, the fixing portion, and the docking portion, and the The intermediate partition is connected and fixed with the casing and the support into a whole body.
- Fig. 1 is a side view of a window air conditioner according to an embodiment of the present application
- FIG. 2 is a schematic diagram of the three-dimensional structure of the window air conditioner shown in FIG. 1;
- Fig. 3 is a three-dimensional structural diagram of the window-type air conditioner in a state where the sealing assembly shown in Fig. 2 is housed in a receiving groove;
- Figure 4 is an exploded view of the window air conditioner shown in Figure 1;
- Figure 5 is an exploded view of a sealing assembly according to an embodiment of the present application.
- Figure 6 is a top view of the sealing assembly shown in Figure 5;
- FIG. 7 is a schematic diagram of the three-dimensional structure of the fixing component shown in FIG. 5;
- FIG. 8 is a schematic diagram of the three-dimensional structure of the rotating support shown in FIG. 5;
- Fig. 9 is a three-dimensional structural diagram of a window air conditioner with a positioning device according to an embodiment of the present application.
- Fig. 10 is a schematic diagram of a window air conditioner installed on a wall according to an embodiment of the present application.
- FIG 11 is a schematic structural view of the window air conditioner shown in Figure 10;
- Figure 12 is a top view of the window air conditioner shown in Figure 10;
- Fig. 13 is a partial structural diagram of the window air conditioner shown in Fig. 12;
- Figure 14 is a schematic diagram of the assembly of the intermediate partition and the chassis shown in Figure 13;
- Figure 15 is a schematic view of the structure of the intermediate partition shown in Figure 14;
- FIG. 16 is a schematic view of the intermediate partition shown in FIG. 15 from another perspective
- FIG. 17 is a schematic structural diagram of a window air conditioner according to another embodiment of the present application, with the sealing member in a storage state;
- Fig. 18 is a schematic diagram of the seal of the window air conditioner in Fig. 17 being switched to a working state
- Fig. 19 is a partial schematic diagram of a window air conditioner according to an embodiment of the present application.
- Figure 20 is a schematic view of the intermediate partition shown in Figure 19;
- Figure 21 is another schematic view of the intermediate partition shown in Figure 19;
- Figure 22 is a perspective view of the window air conditioner shown in Figure 19;
- Figure 23 is another perspective view of the window air conditioner shown in Figure 22;
- Figure 24 is an exploded view of the sealing assembly shown in Figure 23;
- Figure 25 is a top view of the sealing assembly shown in Figure 24;
- FIG. 26 is a schematic diagram of the three-dimensional structure of the fixing component shown in FIG. 24;
- FIG. 27 is a schematic diagram of the three-dimensional structure of the rotating support shown in FIG. 24;
- Fig. 28 is a schematic diagram of a window air conditioner installed on a wall according to an embodiment of the present application.
- Figure 30 is a partial structural diagram of the window air conditioner shown in Figure 29;
- Figure 31 is an enlarged view of A in Figure 30;
- Figure 32 is a schematic view of another part of the window air conditioner shown in Figure 28
- Fig. 33 is an enlarged view of B in Fig. 32;
- Figure 34 is a schematic diagram of the assembly of the intermediate partition and the chassis shown in Figure 32;
- Figure 35 is a schematic diagram of the intermediate partition and the chassis shown in Figure 33 exploded;
- Figure 36 is an enlarged view of C in Figure 35;
- Figure 37 is a schematic view of the structure of the intermediate partition shown in Figure 34;
- FIG. 38 is a schematic diagram of the intermediate partition shown in FIG. 37 from another perspective
- Fig. 39 is an enlarged view of D in Fig. 38;
- Figure 40 is an enlarged view of E in Figure 38;
- Figure 41 is a schematic structural diagram of a window air conditioner according to still another embodiment of the present application, with the seal in a stored state;
- Fig. 42 is a schematic diagram of the seal of the window air conditioner in Fig. 41 being switched to an operating state.
- connection should be understood in a broad sense, unless otherwise clearly specified and limited.
- it can be a fixed connection or a detachable connection.
- Connected or integrally connected it can be a mechanical connection or an electrical connection; it can be directly connected or indirectly connected through an intermediate medium, and it can be the internal communication between two components.
- connection should be understood in a broad sense, unless otherwise clearly specified and limited.
- it can be a fixed connection or a detachable connection.
- Connected or integrally connected it can be a mechanical connection or an electrical connection; it can be directly connected or indirectly connected through an intermediate medium, and it can be the internal communication between two components.
- the specific meanings of the above terms in this application can be understood under specific circumstances.
- the sealing assembly 100 of the window type air conditioner 200 will be described with reference to FIGS. 1 to 9.
- the window type air conditioner 200 is adapted to be supported on the window 310 of the wall 300, and the window 310 is provided with a movable window sash. 400, the window sash 400 can be moved in the up and down direction in the window 310 to open or close the window 310.
- the window air conditioner 200 includes a casing 210 provided with a receiving groove 211, and at least a part of the window sash 400 is adapted to extend into the receiving groove 211. It is understandable that the housing 210 is divided into an indoor part and an outdoor part by the containing groove 211, at least a part of the window sash 400 can be extended into the containing groove 211, and the indoor part is provided with an indoor heat exchanger and an indoor fan. Part of it is equipped with outdoor heat exchanger and outdoor fan.
- the accommodating groove 211 is recessed downward from the top wall of the casing 210, which not only makes the force of the window type air conditioner 200 more even, but also prevents the top wall of the window type air conditioner 200 from being damaged due to greater force.
- the installation reliability and working performance of the window air conditioner 200, and the air outlet of the window air conditioner 200 can be arranged at a higher position, which is convenient for the airflow to flow in the indoor space, and facilitates the improvement of the temperature regulation efficiency of the window air conditioner 200 , It is convenient to improve the regulating effect of the window air conditioner 200 on the indoor temperature.
- the sealing assembly 100 is adapted to contact the window sash 400 and the inner wall of the window 310 respectively. It can be understood that when the window sash 400 is closed, one side of the sealing assembly 100 can be in contact with the window sash 400, and the other side of the sealing assembly 100 can be in contact with the inner wall of the window 310, thereby improving the sealing performance of the sealing assembly 100 .
- the sealing assembly 100 includes a fixing component 1 and a sealing component 2.
- the fixing component 1 is connected to the casing 210
- the sealing component 2 is connected to the fixing component 1
- the sealing component 2 is suitable for sealingly arranged on the inner walls of the window sash 400 and the window 310 between.
- the sealing member 2 may be made of an elastic material such as sponge or rubber. It can be understood that the sealing member 2 is connected to the casing 210 through the fixing member 1.
- the window sash 400 closes the window, one side of the sealing member 2 is in contact with the window sash 400, and the other side of the sealing member 2 is in contact with the window 310.
- the inner wall of the sealing member 2 is used to seal the window.
- the sealing performance of the sealing assembly 100 is improved, and on the other hand, the sealing assembly 100 has a good sound insulation effect.
- the length of the sealing component 2 can be cut on site according to the distance between the side wall surface of the casing 210 and the inner wall surface of the window 310, so that the sealing component 2 can better seal the window, and ensure the sealing of the window.
- the structure of the sealing assembly 100 is simpler.
- the sealing member 2 is arranged between the window sash 400 and the inner wall of the window 310, which improves the sealing performance of the sealing assembly 100 on the one hand, and makes the sealing The assembly 100 has a good sound insulation effect.
- the sealing component 2 can be cut according to the distance between the side wall surface of the casing 210 and the inner wall surface of the window 310, so that the installation of the sealing component 2 is more convenient, and the structure of the sealing assembly 100 is simpler.
- a mounting groove 11 is provided on the fixing component 1, and a part of the sealing component 2 is installed in the mounting groove 11.
- the connection structure between the sealing component 2 and the fixing component 1 is simpler and more reliable, and the sealing component 2 can be more conveniently connected to the housing. 210, so that the structure of the sealing assembly 100 is simpler.
- the sealing member 2 may be a sealing sponge.
- the sealing member 2 may be made of PVA (polyvinyl alcohol) material, so that the sealing assembly 100 has unique strong adhesion, film flexibility, and smoothness. Water resistance, oil resistance, solvent resistance, protective colloid resistance, gas barrier properties, abrasion resistance, and water resistance through special treatment can prevent external rain from entering the room and improve the waterproofness of the sealing assembly 100.
- PVA polyvinyl alcohol
- the mounting groove 11 is provided with a card rib 111 on the opposite side, and the card rib 111 contacts the sealing member 2 to position the sealing member 2 at And the installation groove 11 inside. That is to say, through the card rib 111 provided on the opposite side of the mounting groove 11, the card rib 111 contacts the sealing member 2 in the mounting groove 11, thereby clamping the sealing member 2 in the mounting groove 11 , Improve the connection strength between the sealing member 2 and the fixing member 1, so that the connection between the sealing member 2 and the fixing member 1 is more stable and reliable.
- the locking rib 111 extends obliquely with respect to the side wall of the mounting groove 11. That is to say, the sealing member 2 can be more firmly stuck in the mounting groove 11 by the inclined locking rib 111, thereby improving the stability of the sealing member 2.
- the angle between the protruding rib 111 and the corresponding side surface of the mounting groove 11 is 30°-90°.
- the clamping rib 111 can clamp the sealing component 2 in the mounting groove 11 so as to make the connection between the sealing component 2 and the fixing component 1 more stable.
- the outer surface of the fixing member 1 is provided with a first groove 13.
- the first groove 13 provided on the outer side of the fixing part 1 facilitates the opening of the fixing part 1 and ensures that the wall thickness of the fixing part 1 is consistent, so that the molten rubber can flow easily, thereby facilitating fixing Production and processing of part 1.
- the first groove 13 can increase the friction force, thereby facilitating the disassembly and assembly of the fixing component 1.
- each of the opposite sides of the mounting groove 11 is provided with a plurality of card ribs 111. That is to say, the mounting groove 11 has two opposite sides, each side is provided with a plurality of card ribs 111, and each card rib 111 is in contact with the sealing member 2, so as to better protect The sealing component 2 is clamped in the mounting groove 11 to further make the connection between the sealing component 2 and the fixing component 1 more stable and reliable.
- each side surface of the mounting groove 11 has three card ribs 111 arranged at intervals, so as to ensure the connection strength between the sealing component 2 and the fixing component 1.
- each card rib 111 is defined by a part of the fixing member 1 protruding into the mounting groove 11, so that the structure of the fixing member 1 is simple.
- the sealing assembly 100 further includes a rotating support 3, the rotating support 3 is fixed on the casing 210, and the fixing component 1 is rotatably arranged on the rotating support 3 so that the sealing assembly 100 can be rotated to be received in the receiving groove 211. That is to say, this not only facilitates the installation and arrangement of the fixed component 1, but also facilitates the rotation of the fixed component 1 relative to the rotating support 3, facilitates the storage of the seal assembly 100, and facilitates the reduction of the space occupied by the seal assembly 100.
- a pivot shaft 10 is provided on the fixed component 1
- a pivot hole 33 is provided on the rotating support 3
- the pivot shaft 10 is rotationally matched with the pivot hole 33.
- the pivot shaft 10 and the pivot hole 33 can cooperate with each other, which facilitates the smooth rotation of the fixed component 1 and improves the reliability of the rotation of the fixed component 1.
- ribs 31 are provided on opposite side walls of the rotating support 3, and each rib 31 is in contact with the inner wall surface of the corresponding side of the receiving groove 211 .
- the rotating support 3 is in contact with the inner wall surface of the receiving groove 211 through the ribs 31 on the opposite side wall, thereby reducing the contact area between the rotating support 3 and the inner wall surface of the receiving groove 211 to reduce the rotation.
- the friction between the support 3 and the inner wall surface of the containing groove 211 facilitates the disassembly of the rotating support 3.
- the structural strength of the rotating support 3 can be increased by the ribs 31.
- two spaced apart ribs 31 are provided on the opposite side walls of the rotating support 3, and each rib 31 corresponds to the receiving groove 211
- the contact between the inner wall surfaces of the sides reduces the contact area between the rotating support 3 and the inner wall surface of the accommodating groove 211, and at the same time makes the fit between the rotating support 3 and the accommodating groove 211 more stable.
- the structural strength of the rotating support 3 can be increased by the ribs 31.
- the number of ribs 31 on each side wall of the rotating support 3 is not limited to two, and can be set according to actual needs, for example, set to three or more.
- the lower end of the rib 31 is provided with a guiding chamfer 311, and the guiding chamfer 311 facilitates the installation of the rotating support 3 into the receiving groove 211, so that the disassembly of the rotating support 3 is more convenient.
- sealing plates 32 are provided on opposite side walls of the rotating support 3, and each sealing plate 32 extends toward the inner wall surface of the corresponding side of the receiving groove 211 , The sealing plate 32 is located above the rib 31 on the corresponding side. It can be understood that, due to the ribs 31 between the rotating support 3 and the inner wall surface of the receiving groove 211, a gap is formed between the rotating support 3 and the inner wall surface of the receiving groove 211, and water will enter the gap.
- sealing plates 32 By arranging sealing plates 32 on the opposite side walls of the rotating support 3, and at the same time making each sealing plate 32 located above the ribs 31 on the corresponding side, the gap is blocked by the sealing plate 32 to avoid water The phenomenon of entering the gap occurs. Specifically, the sealing plate 32 can be in contact with the inner wall surface of the corresponding side of the containing groove 211, so as to effectively ensure that the phenomenon of water entering the gap can be avoided.
- the sealing plate 32 is connected with the rib 31 to increase the structural strength of the rotating support 3.
- the fixed component 1 includes two mating protrusions 12 spaced apart, and each mating protrusion 12 is rotatably engaged with the rotating support 3. That is to say, this facilitates the arrangement of the pivot shaft 10 and the positioning protrusion 41, facilitates the matching of the fixed component 1 with the rotating support 3, and facilitates the rotation of the fixed component 1 relative to the rotating support 3. In this way, when the window type air conditioner 200 is transported, the fixed component 1 can rotate the sealing assembly 100 to receive the sealing assembly 100 into the receiving groove 211, so as to facilitate the transportation of the window type air conditioner 200.
- each mating protrusion 12 is a hollow member, that is, the mating protrusion 12 has a hollow structure, so as to facilitate the opening of the mating protrusion 12 and ensure the mating protrusion 12
- the wall thickness is uniform, so that the molten rubber can flow easily, thereby facilitating the production and processing of the fixed component 1.
- a reinforcing rib 121 is provided in the hollow member of each mating protrusion 12.
- the reinforcing rib 121 is provided to increase the structural strength of the mating protrusion 12, and the reinforcing rib 121 can support the pivot shaft 10 to improve the strength of the pivot shaft 10.
- an angle positioning assembly 4 is further included.
- the angle positioning assembly 4 is respectively matched with the rotating support 3 and the fixing part 1 to rotate the fixing part 1 to the setting Position the fixed part 1 at the current angle when angled. That is to say, the fixed part 1 can be positioned at a specific angle, for example, the angle between the fixed part 1 and the horizontal direction is 90°, 45° or 30°, which is convenient for users to position the rotation angle of the fixed part 1 according to their needs. , It is convenient to improve the performance of the sealing assembly 100.
- the angular positioning assembly 4 includes a positioning protrusion 41 and a plurality of positioning grooves 42, the positioning protrusion 41 is provided on the fixing component 1, and the plurality of positioning recesses
- the grooves 42 are provided on the rotating support 3 and arranged in a circular ring shape.
- the positioning protrusion 41 can switch and cooperate with a plurality of positioning grooves 42.
- the positioning protrusion 41 is matched with one of the positioning grooves 42 To position the fixed part 1. That is to say, in this way, the positioning protrusion 41 and the positioning groove 42 can be used to position the rotation angle of the fixing component 1, which is convenient for improving the positioning reliability and stability of the fixing component 1.
- a plurality of positioning grooves 42 may be arranged in a circular ring shape, the positioning protrusion 41 may switch and cooperate with the plurality of positioning grooves 42 when the fixing member 1 rotates, and when the positioning protrusion 41 is matched with one of the positioning grooves 42 To position the fixed part 1.
- the plurality of positioning protrusions 41 are arranged in a ring shape (for example, a circular ring), and the plurality of positioning protrusions 41 are matched with the plurality of positioning grooves 42 in a one-to-one correspondence.
- the forces on the angle positioning assembly 4 can be more balanced, the structural strength of the angle positioning assembly 4 can be improved, and the positioning reliability and accuracy of the angle positioning assembly 4 can be improved.
- the window type air conditioner 200 is suitable to be supported on a window 310 of the wall 300.
- a movable window sash 400 is provided in the window 310.
- the window type air conditioner 200 includes a casing 210 and a sealing component. 100.
- the housing 210 is provided with a receiving groove 211, at least a part of the window sash 400 is adapted to extend into the receiving groove 211, the sealing assembly 100 is the sealing assembly 100 of the above-mentioned embodiment of the application, and the sealing assembly 100 is suitable for sealingly arranged in the window sash 400 And the inner wall of the window 310.
- the sealing performance of the sealing assembly 100 is improved, and on the other hand, the sealing assembly 100 has a good performance.
- the sealing component 2 can be cut according to the distance between the side wall surface of the casing 210 and the inner wall surface of the window 310, so that the installation of the sealing component 2 is more convenient, and the structure of the sealing assembly 100 is simpler.
- the window air conditioner 200 further includes a positioning device 500.
- the positioning device 500 has an unlocked state and a locked state. In the unlocked state, the positioning device 500 is separated from the window sash 400, and in the locked state, the positioning device 500 contacts the window sash 400. To position the window sash 400. This facilitates the positioning and locking of the window sash 400 to improve safety.
- the positioning device 500 can be rotated to lock the window sash 400 or unlock the window sash 400, so that the structure of the positioning device 500 is simpler and more reliable.
- the cabinet 210 may be connected to the wall 300 through a bracket to improve the connection between the window air conditioner 200 and the wall 300 more stable.
- the casing 210 includes: a chassis 212, a rear box body 213, a front box body 214, and a middle partition 215, and the rear box body 213 is fixed on the chassis 212
- the rear box body 213 contains the outdoor heat exchanger
- the front box body 214 is fixed on the chassis 212
- the front box body 214 and the rear box body 213 are spaced back and forth to define the receiving groove 211, that is to say, this is not only convenient for accommodating
- the formation of the groove 211 facilitates the matching of the window type air conditioner 200 with the window, and facilitates the processing and manufacturing of the cabinet 210, and facilitates the improvement of the appearance of the cabinet 210.
- the intermediate partition 215 is fixed on the chassis 212 and is located in the receiving groove 211, and the front and rear ends of the intermediate partition 215 are respectively matched with the rear box body 213 and the front box body 214. In other words, this facilitates the lower surface of the window sash 400 to abut on the intermediate partition 215, which facilitates the wiring and drainage of the window type air conditioner 200, and facilitates the improvement of the working reliability of the window type air conditioner 200.
- the intermediate partition 215 is provided with a storage space 2150 with an open top
- the rotating support 3 is stored in the storage space 2150
- the fixed component 1 is provided with a storage space. 216.
- the sealing assembly 100 rotates to extend out of the accommodating groove 211
- the outer edge of the placement space 2150 extends into the accommodating space 216 so that the sealing assembly 100 and the intermediate partition 215 are substantially flush.
- the state of the sealing assembly 100 in the sealing window 310 can be parallel or substantially parallel to the chassis 212, and the height of the sealing assembly 100 relative to the window 310 when the sealing assembly 100 is in the sealing window 310 state is reduced, which can further ensure the sealing effect.
- the window air conditioner 1000 can be installed on the window A201 of the wall A20 to cool or heat the indoor environment.
- the window air conditioner 1000 includes a chassis A100 and a casing body A200 (not including the chassis A100). ) And the intermediate partition A400.
- the casing body A200 is constructed on the chassis A100, and the casing body A200 is further provided with a receiving groove A230, which is suitable for the window sash A30 located at the window A201 of the wall A20 to extend.
- the intermediate partition A400 is installed in the containing tank A230, and the intermediate partition A400 is provided with drainage holes R1 (the first drainage hole A401 and/or the second drainage hole A402, the third drainage hole A403, etc., as shown in FIG.
- the hole R1 is suitable for draining the water in the intermediate partition A400 to the outdoor side.
- the intermediate partition A400 is formed with a accommodating groove A430, and the drainage hole R1 is suitable for draining the water in the accommodating groove A430 to the outdoor side.
- the window air conditioner 1000 also includes a compressor, an outdoor heat exchanger, an outdoor fan, an indoor heat exchanger, and an indoor fan.
- the compressor, outdoor heat exchanger, and outdoor fan are installed in the rear cabinet A220, and the indoor heat exchanger The indoor fan is installed in the front box A210.
- the window air conditioner 1000 is installed on the window A201 of the wall A20, the rear box A220 of the window air conditioner 1000 is located outdoors, and the front box A210 of the window air conditioner 1000 is located indoors. In this way, the noise generated by the outdoor side components can be blocked from spreading to the indoor side, and the noise reduction effect can be achieved.
- the window sash A30 is pulled down to extend into the receiving groove A230 of the window air conditioner 1000, until the lower edge of the window sash A30 extends into the middle partition A400, and the window sash A30 connects the two sides of the window air conditioner 200 and the window A201 The gap between the side walls is blocked, so as to prevent indoor cold or heat from leaking from the gap to the outdoors.
- the window sash A30 should be understood in a broad sense, and can also be replaced by window shutters or curtains that block light, or other protective window panels that can block external objects from entering the room.
- the window sash A30 in this embodiment can be inserted into the window air conditioner 1000 In this way, the window sash A30 can block the space between the two sides of the window air conditioner 1000 and the bottom wall of the window A201, thereby increasing the shielding area of the window sash A30.
- the window air conditioner 1000 since the window air conditioner 1000 is partially exposed in the outdoor environment, water in the outdoor environment (such as rainwater, condensed water, etc.) may fall into the holding tank A230, and then overflow from the bottom of the holding tank A230 Go to the indoor room.
- an intermediate partition A400 is installed at the bottom of the containing tank A230, and a drainage hole R1 is provided in the intermediate partition A400, so that the water in the outdoor environment will first fall into the containing tank A230.
- On the middle partition A400 and then drain from the drainage hole R1 of the middle partition A400 to the outdoor side.
- the intermediate partition A400 can be connected and fixed with the chassis A100, or can be connected and fixed with the main body A200 of the casing.
- the intermediate partition A400 and the chassis A100 may be connected by an insertion structure, a buckle structure, or a screw structure in any one or more ways. There is no limit here.
- the intermediate partition A400 is installed in the containing tank A230, and the drainage hole R1 is provided on the intermediate partition A400, so that when the water in the outdoor environment falls into the intermediate partition A400, it will drain from the drainage hole R1 Go to the outdoor side.
- the window air conditioner 1000 of the present application can reduce the overflow of water in the outdoor environment from the storage tank A230 into the indoor room, and prevent the indoor room from being wet.
- the drainage hole R1 is suitable for draining the water in the intermediate partition A400 to the outdoor side.
- the "outdoor side" can be an outdoor environment or a part of the chassis A100 corresponding to the outdoor side.
- the intermediate partition A400 has a drain hole R1 on its end surface, and the drain hole R1 is directly discharged from the side of the window air conditioner 1000 to the outdoor environment through the drain pipe.
- the bottom of the intermediate partition A400 is provided with a drainage hole R1 to drain the water to the part of the chassis A100 corresponding to the outdoor side, and then drain from the chassis A100 to the outdoor environment, or used to pump water to the outdoor heat exchanger through a water wheel , To dissipate heat from the outdoor heat exchanger.
- the intermediate partition A400 includes a bottom plate A410 and side plates A420 configured on opposite sides of the bottom plate A410.
- a container is formed between the two side plates A420 and the bottom plate A410.
- the storage tank A430 and the drainage hole R1 are suitable for draining the water in the storage tank 430 to the outdoor side.
- the accommodating groove A430 of the intermediate partition A400 is provided with a plurality of drainage holes R1, and at least a part of the drainage holes R1 is suitable for draining water to a part of the corresponding outdoor side of the chassis A100.
- the plurality of drainage holes R1 are distributed at intervals along the length direction of the intermediate partition A400.
- the window air conditioner 1000 also includes a water receiving tray A600 installed on the chassis A100. Part of the drainage hole R1 is suitable for draining water to the water receiving tray A600, and then to the outdoor part of the chassis A100 through the water receiving tray A600.
- a part of the drainage holes R1 directly drains water to the corresponding outdoor side of the chassis A100; and the other part of the drainage holes R1 drains the water to the connection first.
- the two ends of the accommodating groove A430 are recessed downward to form a placement space A440;
- the plurality of drainage holes R1 include a first drainage hole A401 configured at one end of the placement space A440, and the first drainage hole A401 is suitable for draining water to the water receiving tray A600; and/or, the plurality of drain holes R1 includes a second drain hole A402 constructed at the other end of the placement space A440, and the second drain hole A402 is suitable for draining water to the chassis A100.
- the intermediate partition A400 is configured to form a placement space A440 at both ends of the accommodating groove A430.
- One end of the placement space A440 is close to the front box A210, and the other end is close to the rear box A220. Therefore, a first drain hole A401 is provided at one end of the storage space A440 close to the front box A210, and the first drain hole A401 is located above the water receiving tray A600 to drain water to the water receiving tray A600.
- a second drain hole A402 is provided at one end of the storage space A440 close to the rear box A220. The second drain hole A402 is located above the corresponding outdoor side part of the chassis A100 to drain water to the corresponding outdoor side part of the chassis A100.
- the water receiving tray A600 is provided with a drainage groove A610 that drains to the chassis A100, and the first drainage hole A401 corresponds to the drainage groove A610. Above. Therefore, when the water discharged from the first drainage hole A401 happens to fall into the drainage groove A610 of the water receiving tray A600, and then is directly discharged from the drainage groove A610 to the chassis A100, the drainage path is shorter, which helps to accelerate the drainage efficiency.
- the portion of the water receiving tray A600 extends below the intermediate partition A400, and the portion of the water receiving tray A600 located below the intermediate partition A400 is configured with a drainage groove A610.
- the portion of the water receiving tray A600 below the intermediate partition A400 is also configured with a support A500, and the support A500 is suitable for supporting the intermediate partition A400.
- the support A500 and the water receiving tray A600 are integrally formed.
- the intermediate partition A400 can be plug-connected with the support A500, or can be connected by a screw structure, which is not limited here.
- a groove A450 is recessed downwardly in the middle of the containing groove A430; the plurality of drainage holes R1 also include a third drainage hole A403 constructed at the bottom of the groove A450, and the third drainage hole A403 is suitable for draining water to the corresponding outdoor side of the chassis A100. Therefore, after water immersed in the placement space A440 of the intermediate partition A400, the water can also be discharged from the third drainage hole A403 to the chassis A100, effectively increasing the drainage volume of the intermediate partition A400 and increasing the drainage rate.
- a fixing hole A451 can be formed through the bottom of the groove A450, and the fixing hole A451 is suitable for connecting and fixing with the water receiving tray A600 through a connecting piece.
- the connecting piece can be a screw or a bolt type structure.
- the third drainage hole A403 is located at the periphery of the fixing hole A451 to avoid the situation that the third drainage hole A403 is too close to the fixing hole A451 and damaging the strength of the board surface around the fixing hole A451.
- the side plate A420 of the intermediate partition A400 close to the rear box A220 is provided with an overflow hole A404, and the overflow hole A404 is suitable for draining to the part of the chassis A100 corresponding to the outdoor side.
- the number of overflow holes A404 can be one or more.
- a plurality of overflow holes A404 may be arranged at intervals along the length direction of the side plate A420.
- the window type air conditioner 1000 further includes a sealing assembly A300.
- the sealing assembly A300 can be movably mounted on the intermediate partition A400.
- the sealing assembly A300 is suitable for moving Switch between the storage state and the working state; among them: in the storage state, the sealing component A300 is stored in the containing groove A230; in the working state, the sealing component A300 extends laterally from the containing groove A230, and is suitable for supplying window sash A30 and/ Or the inner wall of the window A201 resists.
- the sealing assembly A300 is moved to the working state, so that the sealing assembly 300 protrudes laterally from the receiving groove A230 of the window type air conditioner 1000, and the bottom surface of the sealing assembly A300 and the window A201 The bottom wall resists; then, the window sash A30 is pulled down to extend into the receiving groove A230 of the window air conditioner 1000, until the lower edge of the window sash A30 touches the intermediate partition A400 and the sealing assembly A300, and the sealing assembly A300 shields and seals the gap between the window sash A30 and the bottom wall of the window A201 so far, reducing the indoor cold or heat leaking from the gap to the outdoors.
- the sealing assembly 300 is moved to the storage state, which reduces the space occupied by the sealing assembly 300 and facilitates the storage or packaging of the window type air conditioner 1000.
- the sealing assembly 300 can be slidably mounted on the intermediate partition A400; alternatively, the sealing assembly 300 can be rotatably mounted on the intermediate partition A400; or, the sealing assembly 300 can be elastically and telescopically mounted on the intermediate partition A400.
- the sealing assembly 300 is rotatably connected with the intermediate partition A400 to switch between the working state and the storage state by rotation.
- one end of the sealing assembly 300 is rotatably installed in the placing space A440 (the placing space A440 is shown in FIG. 15), so that the sealing assembly 300 can rotate relative to the intermediate partition A400, and the sealing assembly A300 can be in the storage state by rotating And switch between working status.
- window type air conditioner 2000 according to the embodiments of the present application will be described with reference to FIGS. 19-27.
- the window air conditioner 2000 is adapted to be supported on a window on a wall, and a movable window sash is provided in the window, and the window sash can be moved up and down in the window to open or close the window.
- the window air conditioner 2000 also includes a chassis assembly B500, a rear box body B300, and a front box body. Front box body B200.
- the rear box body B300 and the front box body B200 are both set on the chassis assembly B500, and the intermediate partition B100 is connected to the rear box body.
- the middle partition B100 may be located under the window sash, the front box B200 is located inside the window, and the rear box B300 is located outside the window. Both ends of the middle partition B100 in the width direction (for example, the inner and outer directions in FIG. 19) may be connected to the front box B200 and the rear box B300, respectively.
- the intermediate partition B100 includes a partition body B1.
- the partition body B1 is provided with a groove B11 with an open top and a downward recess.
- the groove B11 is provided with a third drainage hole B111 and used for connecting with a window air conditioner.
- the connection hole B112 connected to the outer box 300 of the 2000, and the third drain hole B111 communicates with the chassis assembly B500.
- the groove B11 may be formed by recessing a part of the surface of the partition body B1 downward.
- the groove B11 may be provided adjacent to the rear box B300.
- Both the connecting hole B112 and the third drain hole B111 penetrate the bottom wall of the groove B11.
- the rear box B300 of the window-type air conditioner 2000 may be provided with mounting ears B301, and the mounting ears B301 may be provided with matching holes B302 matching the connecting holes B112, and the mounting ears B301 may fit under the groove 11. Therefore, the fixing member can be inserted into the connecting hole B112 and the matching hole B302, so that the intermediate partition B100 can be conveniently and firmly fixed on the rear box B300, and the relationship between the intermediate partition B100 and the rear box B300 can be improved. The reliability and stability of the connection between the two, and improve the assembly efficiency.
- the rainwater from the window sash can flow to the groove B11 on the partition body B1, and flow to the chassis assembly B500 through the third drain hole B111, which prevents the rainwater from the window sash from flowing into the room, thereby avoiding The floor and objects in the room are wet and damaged, which improves the safety and reliability of the window air conditioner 2000.
- the water discharged from the third drainage hole B111 can flow to the chassis assembly B500.
- the water in the chassis assembly B500 has accumulated to a certain amount, it will be discharged to the outdoors through the chassis assembly B500, or from the third drainage hole B111
- the discharged water can be directly discharged outdoors through the chassis assembly B500.
- the bottom plate assembly B500 includes a bottom plate and a water receiving tray.
- the water receiving tray is arranged on the bottom plate and the water receiving tray is located below the intermediate partition B100.
- the third drain hole B111 may be connected to the water receiving pan. In this way, the water discharged from the third drain hole B111 can flow to the water receiving pan, and the water discharged from the third drain hole B111 is prevented from dampening other components on the chassis, thereby improving the safety and reliability of the window air conditioner 2000.
- the middle partition B100 can be conveniently and firmly fixed on the rear box B300, which improves The reliability and stability of the connection between the middle partition B100 and the rear box B300 are improved, and the assembly efficiency is improved.
- rainwater from the window sash can flow to the groove B11 on the partition body B1, and drain to the chassis assembly B500 through the third drain hole B111, which prevents rainwater from the window sash from flowing into the room, thereby avoiding Therefore, the floor and objects in the room are wet and damaged, and the safety and reliability of the window air conditioner 2000 are improved.
- the two ends of the longitudinal direction of the partition body B1 are respectively provided with a storage space B12.
- the placement space B12 may be formed by recessing a part of the surface of the partition body B1 downward.
- the placement space B12 is provided with a first drainage hole B121, and the first drainage hole B121 is in communication with the chassis assembly B500.
- the first drainage hole B121 can penetrate the bottom wall of the placement space B12 to drain the water in the placement space B12 in a timely manner.
- the water discharged from the first drainage hole B121 can flow to the chassis assembly B500.
- the water in the chassis assembly B500 has accumulated to a certain amount, it is discharged to the outdoors through the chassis assembly B500, or from the first drainage hole B121
- the discharged water can be directly discharged outdoors through the chassis assembly B500. Therefore, by arranging the first drainage hole B121 in the placement space B12, the water accumulated on the partition body B1 can be discharged out faster, and the water on the partition body B1 can be prevented from collecting, thereby avoiding the water on the partition body B1.
- the water flows into the room.
- the bottom plate assembly B500 includes a bottom plate and a water receiving tray.
- the water receiving tray is arranged on the bottom plate and the water receiving tray is located below the intermediate partition B100.
- the first drainage hole B121 may be connected to the water receiving pan.
- the storage space B12 can be used to install the sealing assembly B400 of the window air conditioner 2000, and the sealing assembly B400 is adapted to contact the window sash and the inner wall of the window respectively. It can be understood that when the sash closes the window, one side of the sealing assembly B400 can be in contact with the window sash, and the other side of the sealing assembly B400 can be in contact with the inner wall of the window, thereby improving the sealing performance of the sealing assembly B400.
- the intermediate partition B100 further includes two end side plates B2, and the two end side plates B2 are respectively connected to both ends of the longitudinal direction of the partition body B1 (for example, the left and right directions in FIG. 19).
- Both end side plates B2 are provided with buckles B21 for connecting with the chassis assembly B500 of the window air conditioner 200.
- the chassis assembly B500 may be provided with a slot for matching with the buckle B21.
- an insertion portion is provided on the chassis assembly B500, and the bottom surface of the partition body B1 has a positioning portion B13 suitable for mating with the insertion portion.
- the positioning of the intermediate partition B100 can be realized by the cooperation of the insertion part and the positioning part B13, which effectively reduces the difficulty of assembling the intermediate partition B100 and improves the assembly efficiency of the intermediate partition B100.
- the positioning portion B13 may be a positioning protrusion formed on the bottom surface of the partition body B1, and the positioning portion may be a positioning groove formed on the chassis assembly B500.
- the insertion part may be formed on the water receiving tray. Therefore, the positioning of the intermediate partition B100 can be realized through the cooperation of the positioning protrusion and the positioning groove, and the structure is simple and the positioning is convenient.
- the positioning portion B13 includes a first positioning portion B131 and a second positioning portion B132, the first positioning portion B131 and the second positioning portion B132 are spaced apart, and the first positioning portion B131 and the second positioning portion B132
- the outer contour shape is different. Therefore, during the assembly process, only the first positioning portion B131 cooperates with its corresponding insertion portion, and the second positioning portion B132 cooperates with its corresponding insertion portion, in order to assemble the intermediate partition B100 on the chassis assembly B500. Therefore, by providing the first positioning portion B131 and the second positioning portion B132 with different outer contours, it is possible to effectively prevent sheepness, avoid reversing the direction of the intermediate partition B100, which is beneficial to improve the assembly efficiency.
- the first positioning portion B131 is formed as a square bump
- the second positioning portion B132 is formed as a trapezoidal bump.
- the structure is simple and the processing is convenient.
- the first positioning portion B131 and the second positioning portion B132 can also be formed in other shapes, such as triangles, circles, irregular figures, etc., as long as the outer contour shape of the first positioning portion B131 is consistent with the second positioning portion B131.
- the shape of the outer contour of the portion B132 may be different.
- the intermediate partition B100 further includes two side plates B3, and the two side plates B3 are respectively connected to the two ends of the partition body B1 in the width direction.
- a accommodating groove B31 is defined between the side plate B3 and the partition body B1.
- the accommodating slot B31 can be used to hold rainwater flowing down the window sash.
- the rainwater flowing down the window sash is more and urgent, the rainwater can be temporarily stored through the storage tank B31 to prevent the water in the groove B11 from collecting too much and flowing to the indoor side when it cannot be discharged in time, thereby improving the safety of the window air conditioner 2000 Sex and reliability.
- the intermediate partition B100 is a plastic part.
- the plastic parts are light in weight and low in cost, which facilitates mass production, thereby improving production efficiency and reducing the cost of the intermediate partition B100.
- the window air conditioner 2000 includes a chassis assembly B500, a rear box body B300, a front box body B200, an intermediate partition B100 and fixing parts.
- the rear box body B300 is arranged on the chassis assembly B500, and the front box The body B200 is arranged on the chassis assembly B500, and the front box body B200 and the rear box body B300 are spaced apart to define a receiving groove B600. Wherein, the window sash can be arranged in the receiving groove B600.
- the intermediate partition B100 is set on the chassis assembly B500 and is located between the rear box body B300 and the front box body B200.
- the rear box body B300 is provided with mounting ears B301, and the mounting ear B301 is provided with a matching hole B302 corresponding to the connecting hole B112 .
- the fixing member is penetrated through the connecting hole B112 and the mating hole B302.
- the mounting ear B301 can fit under the groove B11. Therefore, the fixing member can be inserted into the connecting hole B112 and the matching hole B302, so that the intermediate partition B100 can be conveniently and firmly fixed on the rear box B300, and the relationship between the intermediate partition B100 and the rear box B300 can be improved.
- the reliability and stability of the connection between the two and improve the assembly efficiency.
- the rainwater from the window sash can flow to the groove B11 on the partition body B1, and be discharged through the third drainage hole B111, which prevents the rainwater from the window sash from flowing into the indoor side and improves the window air conditioner The safety and reliability of 2000.
- the window air conditioner 2000 is adapted to be supported on a window on a wall, and a movable window sash is provided in the window, and both ends of the partition body B1 in the longitudinal direction are respectively provided with a storage space B12.
- the air conditioner 2000 further includes a sealing component B400, which includes a fixing component B401 and a sealing component B402, and the fixing component B401 is connected to the placement space B12.
- the sealing part B402 is connected to the fixing part B401, and the sealing part B402 is adapted to be sealed between the window sash and the inner wall of the window.
- the sealing component B402 is connected in the placement space B12 through the fixing component B401.
- the sealing component B402 When the sash closes the window, one side of the sealing component B402 is in contact with the window sash, and the other side of the sealing component B402 is in contact with the inner wall of the window. Therefore, the window is sealed by the sealing component B402, which improves the sealing performance of the sealing assembly B400 on the one hand, and makes the sealing assembly B400 have a good sound insulation effect on the other hand.
- the sealing component B400 corresponds to the placement space B12 one-to-one.
- the structure of the window air conditioner 2000 can be simplified, and the sealing performance and sound insulation effect of the window air conditioner 2000 can be improved.
- the length of the sealing component B402 can be cut on site according to the distance between the side walls of the front box B200 and the rear box B300 and the inner wall surface of the window, so that the sealing component B402 can better seal the window. While ensuring the sealing of the windows, it also makes the structure of the sealing assembly B400 simpler.
- the sealing member B402 may be a sealing sponge.
- the fixed component B401 includes a rotating support B4011 and a mounting component B4012.
- the rotating support B4011 is fixed in the placement space B12
- the mounting component B4012 is rotatably arranged on the rotating support B4011 to enable the sealing assembly B400 It can be rotated to be stored in the receiving tank B600.
- This not only facilitates the installation of the fixed component B401, but also facilitates the rotation of the installation component B4012 relative to the rotating support B4011, facilitates the storage of the seal assembly B400, and facilitates the reduction of the space occupied by the seal assembly B400.
- a pivot shaft B4014 is provided on the mounting part B4012, a pivot hole B4015 is provided on the rotating support B4011, and the pivot shaft B4014 is rotatably matched with the pivot hole B4015.
- the pivot shaft B4014 and the pivot hole B4015 can cooperate with each other, which facilitates the smooth rotation of the mounting component B4012 and improves the reliability of the rotation of the mounting component B4012.
- a mounting groove B4013 is provided on the mounting component B4012, and a part of the sealing component B402 is installed in the mounting groove B4013. Therefore, by fixing a part of the sealing member B402 in the mounting groove B4013, the connection structure between the sealing member B402 and the mounting member B4012 can be made simpler and more reliable.
- the mounting groove B4013 is provided on the opposite side surface with a card protruding rib B4016, and the card protruding rib B4016 contacts the sealing member B402 to position the sealing member B402 at And the installation groove B4013.
- the connection strength between the sealing component B402 and the mounting component B4012 is improved, and the connection between the sealing component B402 and the mounting component B4012 is more stable and reliable.
- the window air conditioner 3000 is suitable for being installed on the window of the wall C20 to cool or heat the indoor environment.
- the window air conditioner 3000 includes a chassis C100, a cabinet body C200, a support C500, and an intermediate partition C400.
- the casing body C200 is structured and formed with a receiving groove C230 that divides the casing body C200 into a front box C210 and a rear box C220 so as to be suitable for the window sash C30 located at the window of the wall C20 to extend in.
- the support C500 is arranged on the chassis C100 and corresponds to the receiving groove C230.
- the intermediate partition C400 is installed on the support C500, and the intermediate partition C400 is suitable for being held by the window sash C30.
- the bottom surface of the intermediate partition C400 is configured with a positioning portion C440
- the support C500 is configured with an insertion portion C510 corresponding to the positioning portion C440
- the intermediate partition A400 is inserted and connected to the insertion portion C510 of the support C500 through the positioning portion C440.
- the support C500 is configured with an insertion portion C510 corresponding to the positioning portion C440
- the intermediate partition C400 and the support C500 can be inserted and fitted, and the intermediate partition C400 can be disassembled and installed by pulling or pressing and inserting.
- the installation method of the partition C400 realizes the quick installation of the intermediate partition C400.
- this plug-in connection method does not require a large installation space, thereby reducing interference with the side wall of the accommodating groove C230 during the installation process.
- the window sash C30 is pulled down to extend into the receiving groove C230 of the window air conditioner 3000 (as shown in Figure 28), until the lower edge of the window sash C30 touches When reaching the upper surface of the intermediate partition C400 and resisting it, the window sash C30 blocks the gap between the two sides of the window air conditioner 3000 and the side wall of the window, thereby reducing the leakage of indoor cold or heat from the space to the outdoor.
- the window sash C30 can also be replaced by others, such as window blinds or curtains that can block light, or other protective window panels that can block external objects from entering the room.
- the window sash C30 in this embodiment can be inserted into the window air conditioner 3000 In this way, the window sash C30 can block the space between the two sides of the window air conditioner 3000 and the bottom wall of the window, thereby increasing the shielding area of the window sash C30.
- the positioning part C440 is constructed on the bottom surface of the intermediate partition C400, and the support C500 is constructed at the bottom of the casing body C200, and the support C500 is constructed with an insertion part C510 corresponding to the positioning part C440,
- the intermediate partition C400 is insertedly connected to the insertion portion C510 of the support C500 through the positioning portion C440, so as to connect and fix the intermediate partition C400 and the support C500.
- the partition plate C400 and the support C500 are inserted and fitted, which can reduce the use of screw structures or snap structures, simplify the installation method of the intermediate partition C400, and reduce the intermediate separation.
- the installation difficulty of the board C400 realizes the quick installation of the intermediate partition C400, thereby improving the installation efficiency.
- the window air conditioner 3000 further includes a water receiving tray C600 installed on the chassis C100, and the water receiving tray C600 corresponds to the front box C210.
- the support C500 can be configured on the water tray C600 so as to be set on the chassis C100 through the water tray C600; or, the support C500 can be directly configured on the chassis C100.
- the support C500 may be a separately formed supporting component, or it may be integrally formed with the chassis C100, or integrally formed with the water tray C600.
- the support C500 and the drain pan C600 are integrally formed to reduce the manufacturing process.
- the rear end of the water receiving pan 600 extends below the middle partition C400, and a support member C500 is formed in the portion of the water receiving pan C600 below the middle partition C400.
- the support C500 is used to support the intermediate partition C400, and the water on the intermediate partition C400 can be directly discharged downward to the water receiving tray C600.
- the intermediate partition C400 includes a bottom plate C410 and end side plates C430 configured at both ends of the bottom plate C410.
- the positioning portion C440 is configured on the bottom plate C410 of the intermediate partition C400.
- the number of positioning portions C440 on the intermediate partition C400 is not specifically limited.
- the number of the positioning portion C440 may be one, and the one positioning portion C440 may be configured at the middle position of the intermediate partition C400.
- the number of the positioning portions C440 is multiple, and the plurality of positioning portions 440 are arranged at intervals along the length direction of the intermediate partition C400.
- the number of the positioning portions C440 is multiple, and the multiple positioning portions C440 are arranged at intervals along the length direction of the intermediate partition C400; accordingly, the number of the insertion portions 510 is multiple, and the multiple insertion portions C510 are respectively Corresponding to a plurality of positioning parts C440 plug-in connection.
- the plurality of positioning portions C440 includes a first positioning portion C441 and a second positioning portion C442, and the shape of the first positioning portion C441 is different from the shape of the second positioning portion C442;
- the plurality of inserting parts C510 includes a first inserting part C511 and a second inserting part C512.
- the first inserting part 511 and the second inserting part C512 are adapted to the first positioning part C441 and the second positioning part C442, respectively. Configure insertion.
- the intermediate partition C400 can be pressed and inserted onto the support C500.
- first positioning portion C441 corresponds to the second insertion portion C512 or other insertion portions C510
- second positioning portion C442 corresponds to the first insertion portion C511 or other insertion portions 510
- the shapes of the first positioning portion C441 and the second positioning portion C442 are not specifically limited.
- the first positioning portion C441 may be circular, oval, polygonal (such as triangle, square, trapezoid, pentagon, etc.), or other irregular shapes.
- the second positioning portion C442 only needs to be different from the first positioning portion C441.
- the first positioning portion C441 is arranged in a trapezoid shape; the second positioning portion C442 is arranged in a square shape.
- the shape of the insertion cavity of the first insertion portion C511 is the same as that of the first positioning portion C441, so that the first positioning portion C441 can be fitted and inserted.
- the shape of the insertion cavity of the second insertion portion C512 is the same as that of the second positioning portion C442, so that the second positioning portion C442 can be fitted and inserted.
- the insertion cavity of the first insertion portion C511 is set to be larger than the volume of the first positioning portion C441.
- the process of installing the intermediate partition C400 after the insertion cavity of the first positioning portion C441 and the first insertion portion C511 are correspondingly inserted, there is a margin in the insertion cavity, and the separation can be adjusted by using the margin.
- the intermediate partition C400 has a bisecting line that bisects its length, and the first positioning portion C441 and the second positioning portion C442 are asymmetrical about the bisecting line.
- the first positioning part C441 should be inserted correspondingly to the first insertion part C511, and the second positioning part C442 should be inserted correspondingly to the second insertion part C512. If the intermediate partition is rotated by 180°, although the first positioning portion C441 is close to the second insertion portion C512, it is misaligned with the second insertion portion C512. Similarly, the second positioning portion C442 will also be aligned with the first insertion portion C512.
- the positioning part C511 is misaligned, so that the alignment cannot be achieved. This prompts the installer to reverse the intermediate partition C400 to achieve the alignment installation of the intermediate partition C400, without the user visually checking whether each positioning part C440 and the corresponding insertion part C510 are Correspondingly, blind insertion is realized.
- the intermediate partition C400 since the intermediate partition C400 includes a bottom plate C410 and end side plates C430 constructed at both ends of the bottom plate C410, positioning portions C440 are constructed on the bottom surface of the bottom plate C410, It is connected to the inserting part C510 of the support C500 by inserting.
- the two end side plates C430 can be respectively connected to the opposite side walls of the chassis C100 to improve the stability of the installation of the intermediate partition C400.
- one of the end side plate C430 of the intermediate partition C400 and the side wall of the chassis C100 is provided with a buckle C434 protruding laterally, and the other is provided with a button hole C110 corresponding to the buckle C434, and the button hole C110 It is suitable for the corresponding buckle connection with the buckle C434.
- the following will take the end side plate C430 with the buckle C434 and the chassis C100 with the buckle hole C110 as an example to describe the installation of the middle partition C400:
- the two end side plates C430 include a first plate body C431 connected to the bottom plate C410 and a second plate body C432 connected to the first plate body C431, wherein the second plate body
- the C432 is configured with a buckle C434, and the connecting position of the second board C432 and the first board C431 is formed with an overlapping platform C433.
- the lap platform C433 abuts against the upper edge of the side wall of the chassis C100 (as shown in FIGS. 30 and 31). In this way, the side walls of the chassis C100 can be used to support the ends of the intermediate partition C400, and the two ends of the intermediate partition A400 are supported by the support members C500, which improves the stability of the installation of the intermediate partition C400.
- the intermediate partition C400 further includes side plates C420 configured on opposite sides of the bottom plate C410.
- the two side plates C420 are respectively attached to the back plate of the front box C210 and the back plate of the rear box C220. Considering that there may be a gap between the side plate C420 and the back plate of the front case C210, external water may fall into the interior of the front case C210 from the gap.
- the inner surface of one of the side plates C420 is formed with a supporting table C421 extending along its length.
- the back plate of the front box 210 is provided with a notch C211 corresponding to the supporting table C421.
- the upper edge of C211 abuts on the support platform C421.
- the back plate of the front box body C210 is placed on the support platform C421 of the side plate C420 of the middle partition C400, thereby reducing the gap between the two.
- the external water is guided to flow to the side plate C420 of the middle partition C400 through the back plate of the front box C210, and then flows into the inside of the middle partition C400 from the side plate C420.
- the back panel of the front box C210 is placed on the support platform C421 of the side panel C420 of the center partition C400, so part of the weight of the front box C210 will be applied to the side panel C420 of the center partition C400 on.
- a plurality of reinforcing ribs C422 are constructed on the outer surface of the side plate C420 at positions corresponding to the support platform C421, and the plurality of reinforcing ribs C422 are arranged at intervals along the extending direction of the support platform C421.
- the strength of the side plate C420 of the middle partition C400 is strengthened by a plurality of reinforcing ribs C422 to prevent the side plate C420 from being bent and deformed by the back plate of the front box C210.
- a fixing portion C450 is further configured in the middle of the intermediate partition C400, and a butting portion C520 corresponding to the fixing portion C450 is configured on the support C500.
- the fixing part C450 and the mating part C520 are connected and fixed by a connector. After the intermediate partition C400 and the supporting member C500 are inserted, connected and positioned, the fixing portion C450 of the intermediate partition C400 and the mating portion C520 of the support C500 are connected together by a connecting member to further fix the intermediate partition C400.
- the bottom plate C410 of the intermediate partition A400 is recessed with a groove formed in the middle, and the groove bottom of the groove forms a fixing portion C450.
- the fixing portion C450 is provided with a fixing hole
- the docking portion C520 is provided with a docking corresponding to the fixing hole
- the docking hole is suitable for connecting with the fixing hole on the fixing portion C450 through a connector.
- the connector can be a screw or a pin.
- the casing extends toward the fixing portion C450 with a fixing plate C1211
- the casing body C200 extends toward the fixing portion C450 with a fixing plate C1211
- the connecting pieces are passed through and fixed in turn
- the plate C1221, the fixing portion C450 and the butting portion C520, and the intermediate partition C400, the casing body C200, and the support C500 are connected and fixed into one body, thereby strengthening the fixing strength of the intermediate partition C400, so that the intermediate partition C400 is not easily loosened. Take off.
- the casing C120 of the casing body C200 is divided into a front box C210 and a rear box C220 by a receiving groove C230.
- the back plate of the front box C210 and the back plate of the rear box C220 respectively constitute two of the receiving groove C230.
- a side wall. Therefore, the fixing plate C1221 may be constructed on the back plate of the front case C210, and the fixing plate C1221 may be constructed on the back plate of the rear case C220.
- the fixing plate C1221 is configured on the back plate of the rear box C220.
- the window air conditioner 3000 further includes a compressor, an outdoor heat exchanger, an outdoor fan, an indoor heat exchanger, and an indoor fan.
- the compressor, outdoor heat exchanger and outdoor fan are installed in the rear cabinet C220, and the indoor heat exchanger and indoor fan are installed in the front cabinet C210. In this way, the noise generated by the outdoor side components can be blocked from spreading to the indoor side, and the noise reduction effect can be achieved.
- the window air conditioner 3000 further includes a sealing assembly C300, the sealing assembly C300 can be movably installed on the intermediate partition C400, the sealing assembly C300 can be in the storage state and Switch between working states; among them: in the storage state, the sealing component C300 is stored in the containing groove C230; in the working state, the sealing component C300 extends laterally from the containing groove C230, suitable for the window sash C30 and/or window The inner wall resists.
- the sealing assembly C300 is moved to the working state, so that the sealing assembly C300 protrudes laterally from the receiving groove C230 of the window type air conditioner C200, and the bottom surface of the sealing assembly C300 and the bottom wall of the window. Then, the window sash C30 is pulled down to extend into the receiving groove C230 of the window air conditioner 3000, until the lower edge of the window sash C30 touches the intermediate partition C400 and the sealing assembly C300, and the sealing assembly C300 will The gap between the window sash C30 and the bottom wall of the window until now is blocked and sealed to reduce the leakage of cold or heat in the room from the gap to the outdoors.
- the sealing assembly C300 is moved to the storage state, which reduces the space occupied by the sealing assembly C300, and facilitates the storage or packaging of the window type air conditioner 3000.
- the sealing component C300 can be slidably mounted on the intermediate partition C400; or, the sealing component C300 can be rotatably mounted on the intermediate partition C400; or, the sealing component C300 can be elastically and telescopically mounted on the intermediate partition C400.
- the sealing assembly C300 is rotatably connected with the intermediate partition C400 to switch between the working state and the storage state by rotating.
- the intermediate partition C400 is also configured with a storage space C460 for the installation of the sealing assembly C300, and the side walls of the storage space C460 are spaced apart from the end side plates C430 of the intermediate partition C400 ,
- An escape groove C470 is formed between the side wall of the placement space C460 and the end plate C430. Due to the existence of the avoidance groove C470, the end side plate C430 can have greater elasticity, and the end side plate C430 can spring to the inside of the avoidance groove C470, thereby helping the end side during the installation of the intermediate partition C400.
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Abstract
Description
Claims (29)
- 一种窗式空调器的密封组件,所述窗式空调器适于支撑在墙体的窗口上,所述窗口内设有可移动的窗扇,其中,所述窗式空调器包括机壳,所述机壳设有容纳槽,所述窗扇的至少一部分适于伸入到所述容纳槽内,所述密封组件适于分别与所述窗扇和所述窗口的内壁接触,所述密封组件包括:固定部件,所述固定部件连接于所述机壳上;密封部件,所述密封部件连接于所述固定部件,所述密封部件适于密封设置在所述窗扇和所述窗口的内壁之间。
- 根据权利要求1所述的窗式空调器的密封组件,其中,所述固定部件上设有安装凹槽,所述密封部件一部分安装在所述安装凹槽内。
- 根据权利要求2所述的窗式空调器的密封组件,其中,所述安装凹槽的相对侧面上均设有卡凸棱,所述卡凸棱与所述密封部件接触以将所述密封部件定位在与所述安装凹槽内。
- 根据权利要求1-3中任一项所述的窗式空调器的密封组件,其中,所述密封组件还包括转动支座,所述转动支座固定在所述机壳上,所述固定部件可转动地设在所述转动支座上以使所述密封组件可转动至收纳在所述容纳槽内。
- 根据权利要求4所述的窗式空调器的密封组件,其中,所述转动支座的相对侧壁上均设有筋条,每个所述筋条均与所述容纳槽相应侧的内壁面相接触。
- 根据权利要求5所述的窗式空调器的密封组件,其中,每个所述筋条的下端均设有导向倒角。
- 根据权利要求6所述的窗式空调器的密封组件,其中,所述转动支座的相对侧壁上均设有密封板,每个所述密封板均朝向所述容纳槽相应侧的内壁面延伸,所述密封板位于相应侧的所述筋条的上方。
- 根据权利要求4-7中任一项所述的窗式空调器的密封组件,其中,还包括角度定位组件,所述角度定位组件分别与所述转动支座和所述固定部件配合、以在所述固定部件转动至设定角度时将所述固定部件定位在当前角度。
- 一种窗式空调器,所述窗式空调器适于支撑在墙体的窗口上,所述窗口内设有可移动的窗扇,其中,所述窗式空调器包括:机壳,所述机壳设有容纳槽,所述窗扇的至少一部分适于伸入到所述容纳槽内;密封组件,所述密封组件为根据权利要求1-8中任一项所述的密封组件,所述密封组件 适于密封设置在所述窗扇和所述窗口的内壁之间。
- 根据权利要求9所述的窗式空调器,其中,还包括定位装置,所述定位装置具有解锁状态和锁止状态,在所述解锁状态所述定位装置与所述窗扇脱离,在所述锁止状态所述定位装置与所述窗扇接触以定位所述窗扇。
- 根据权利要求9或10所述的窗式空调器,其中,所述机壳包括:底盘;后箱体,所述后箱体固定在所述底盘上,所述后箱体内容纳有室外换热器;前箱体,所述前箱体固定在所述底盘上,所述前箱体与所述后箱体前后间隔设置以限定出所述容纳槽;中间隔板,所述中间隔板固定在所述底盘上且位于所述容纳槽内,所述中间隔板的前后两端分别与所述后箱体和所述前箱体配合。
- 根据权利要求11所述的窗式空调器,其中,当所述密封组件为根据权利要求4-8中任一项所述的密封组件时,所述中间隔板上设有顶部敞开的放置空间,所述转动支座收纳至所述放置空间内,所述固定部件设有容纳空间,所述密封组件转动至伸出所述容纳槽时、所述放置空间的外侧边缘伸入到所述容纳空间使得所述密封组件与所述中间隔板大致平齐。
- 根据权利要求11或12所述的窗式空调器,其中,所述中间隔板设有排水孔,所述排水孔适用于将所述中间隔板内的水排至室外侧。
- 根据权利要求13所述的窗式空调器,其中,所述中间隔板包括底板及构造于所述底板相对两侧的侧板,两个所述侧板和所述底板之间形成容置槽,所述排水孔设置在所述容置槽的槽底。
- 根据权利要求14所述的窗式空调器,其中,所述中间隔板的容置槽设有多个排水孔,至少部分所述排水孔适用于向所述底盘的对应室外侧的部分排水,所述窗式空调器还包括安装于所述底盘上的接水盘,部分所述排水孔适用于向所述接水盘排水,而后经所述接水盘向所述底盘的室外部分排出。
- 根据权利要求15所述的窗式空调器,其中,所述容置槽的两端朝下凹陷形成有放置空间,多个所述排水孔中包括有构造于所述放置空间一端的第一排水孔,所述第一排水孔适用于向所述接水盘排水,所述接水盘设有向所述底盘排水的排水槽,所述第一排水孔对应位于所述排水槽的上方;和/或,多个所述排水孔中包括有构造于所述放置空间另一端的第二排水孔,所述第二排水孔适 用于向所述底盘排水。
- 根据权利要求15或16所述的窗式空调器,其中,所述容置槽的中部朝下凹陷形成有凹槽,多个所述排水孔中还包括有构造于所述凹槽的槽底的第三排水孔,所述第三排水孔适用于向所述底盘的对应室外侧的部分排水。
- 根据权利要求17所述的窗式空调器,其中,所述凹槽的槽底贯设有固定孔,所述固定孔适用于通过连接件与所述接水盘连接固定,所述第三排水孔位于所述固定孔的外围。
- 根据权利要求15-18中任一项所述的窗式空调器,其中,所述接水盘部分延伸至所述中间隔板的下方,所述接水盘的位于所述中间隔板下方的部分构造有支撑件,所述支撑件适用于支撑所述中间隔板。
- 根据权利要求14-19中任一项所述的窗式空调器,其中,靠近所述后箱体的侧板贯设有溢水孔,所述溢水孔适用于向底盘的对应室外侧的部分排水。
- 根据权利要求11-20中任一项所述的窗式空调器,其中,所述底盘上设有支撑件,所述支撑件与所述容纳槽对应,所述中间隔板安装于所述支撑件上,所述中间隔板适用于供所述窗扇抵持,其中,所述中间隔板的底面构造有定位部,所述支撑件构造有与所述定位部对应的插置部,所述中间隔板通过所述定位部与所述支撑件的插置部插置连接。
- 根据权利要求21所述的窗式空调器,其中,所述窗式空调器还包括安装于所述底盘上的接水盘,所述接水盘与所述前箱体对应,所述支撑件构造于所述接水盘上,以通过所述接水盘设置到所述底盘上;或者,所述支撑件构造于所述底盘。
- 根据权利要求21或22所述的窗式空调器,其中,所述定位部的数量为多个,多个所述定位部沿所述中间隔板的长度方向间隔排布,多个所述定位部中包括第一定位部和第二定位部,所述第一定位部的形状与所述第二定位部的形状相异;相应地,所述插置部的数量为多个,多个所述插置部分别与多个所述定位部对应插置连接,多个所述插置部中包括有与所述第一定位部对应适配插置的第一插置部,以及与所述第二定位部适配插置的第二插置部。
- 根据权利要求21-23中任一项所述的窗式空调器,其中,所述中间隔板包括底板及构造于所述底板两端的端侧板,其中,所述底板的底面构造有所述定位部,以与所述支撑件的插置部插置连接;两个所述端侧板分别与所述底盘的相对两侧壁连接。
- 根据权利要求24所述的窗式空调器,其中,所述端侧板和所述底盘的侧壁其中一者朝侧向凸设有卡扣,另一者设有与所述卡扣对应的扣孔,所述扣孔适用于与所述卡扣对应扣持连接。
- 根据权利要求25所述的窗式空调器,其中,所述端侧板包括与所述底板连接的第一板体及与所述第一板体连接的第二板体,其中,所述第二板体构造有所述卡扣,所述第二板体和所述第一板体的连接位置形成有搭接台,所述搭接台抵持于所述底盘的侧壁的上边缘。
- 根据权利要求24-26中任一项所述的窗式空调器,其中,所述中间隔板还包括构造于所述底板相对两侧的侧板,其中一个所述侧板的内表面构造形成有沿其长度方向延伸的支撑台;所述前箱体的背板开设有与所述支撑台对应缺口,所述缺口的上边缘抵持于所述支撑台上。
- 根据权利要求21-27中任一项所述的窗式空调器,其中,所述中间隔板的中部还构造有固定部,所述支撑件上构造有与所述固定部对应的对接部,所述固定部与所述对接部通过连接件连接固定。
- 根据权利要求28所述的窗式空调器,其中,所述机壳朝所述固定部延伸出有固定板,所述连接件依次穿设所述固定板、所述固定部及所述对接部,而将所述中间隔板与所述机壳、所述支撑件连接固定成一体。
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CA3159470A CA3159470A1 (en) | 2019-11-29 | 2020-10-27 | Sealing assembly for window air conditioner, and window air conditioner having same |
US17/779,489 US20220412604A1 (en) | 2019-11-29 | 2020-10-27 | Sealing assembly for window air conditioner, and window air conditioner having same |
Applications Claiming Priority (10)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201911204609.XA CN110822562A (zh) | 2019-11-29 | 2019-11-29 | 窗式空调器的密封组件以及具有其的窗式空调器 |
CN201911204609.X | 2019-11-29 | ||
CN201922127449.5 | 2019-11-29 | ||
CN201922127449.5U CN211119701U (zh) | 2019-11-29 | 2019-11-29 | 窗式空调器的密封组件以及具有其的窗式空调器 |
CN201922495249.5U CN211650495U (zh) | 2019-12-31 | 2019-12-31 | 窗式空调器 |
CN201922496808.4U CN211261054U (zh) | 2019-12-31 | 2019-12-31 | 窗式空调器 |
CN201922500888.6 | 2019-12-31 | ||
CN201922496808.4 | 2019-12-31 | ||
CN201922495249.5 | 2019-12-31 | ||
CN201922500888.6U CN211345571U (zh) | 2019-12-31 | 2019-12-31 | 用于窗式空调器的中隔板和窗式空调器 |
Publications (1)
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CN211650518U (zh) * | 2019-12-31 | 2020-10-09 | 广东美的制冷设备有限公司 | 换热器组件及空调器 |
CN211650495U (zh) * | 2019-12-31 | 2020-10-09 | 广东美的制冷设备有限公司 | 窗式空调器 |
CN211650502U (zh) * | 2020-02-25 | 2020-10-09 | 广东美的制冷设备有限公司 | 窗式空调器 |
CN211650500U (zh) * | 2020-02-25 | 2020-10-09 | 广东美的制冷设备有限公司 | 窗式空调器 |
CN211650499U (zh) * | 2020-02-25 | 2020-10-09 | 广东美的制冷设备有限公司 | 窗式空调器 |
CN211716712U (zh) * | 2020-02-25 | 2020-10-20 | 广东美的制冷设备有限公司 | 窗式空调器 |
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