CN211177153U - Window type air conditioner - Google Patents

Abstract

The utility model discloses a window type air conditioner. The window type air conditioner comprises a machine shell, a mounting seat and a sealing element. The housing is configured to form a separation channel adapted for a screen of a window to extend into. The mounting seat is movably mounted on the separation groove. The sealing element is inserted into and connected with the mounting seat, the sealing element is suitable for being fixed with the mounting seat in an interference fit manner through deformation, and the sealing element is driven by the mounting seat to be switched between a storage state and a working state; wherein, in the accommodated state, the seal is accommodated in the separation groove; in the operative condition, the sealing member projects laterally from the partition channel and is adapted to be held against the screen member and/or the inner wall of the window. The utility model discloses a window formula air conditioner can simplify the assembly methods of sealing member, and then improves the assembly efficiency of complete machine.

Description

Window type air conditioner

Technical Field

The utility model relates to an air conditioner technical field, in particular to window type air conditioner.

Background

In the related art, a window type air conditioner is installed on a mounting hole of a wall body. Window air conditioners typically employ a sealing member to seal a gap between an inner wall of the mounting opening and a shield (e.g., louvers, curtains, sashes, etc.) on the mounting opening to reduce leakage of indoor cooling or heating from the gap to the outside. However, the conventional sealing element is generally installed on the window type air conditioner through a plurality of components, and the sealing element needs to be fixedly connected with the components by adopting a screw structure or a buckle structure, so that the assembly of the sealing element is complex and tedious, and the assembly efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a window formula air conditioner aims at simplifying the assembly methods of sealing member, and then improves the assembly efficiency of complete machine.

In order to achieve the above object, the present invention provides a window type air conditioner, which comprises a casing, a mounting seat and a sealing member. The housing is configured to form a separation channel adapted for a screen of a window to extend into. The mounting seat is movably mounted on the separation groove. The sealing element is inserted into and connected with the mounting seat, the sealing element is suitable for being fixed with the mounting seat in an interference fit manner through deformation, and the sealing element is driven by the mounting seat to be switched between a storage state and a working state; wherein, in the accommodated state, the seal is accommodated in the separation groove; in the operative condition, the sealing member projects laterally from the partition channel and is adapted to be held against the screen member and/or the inner wall of the window.

Optionally, the mounting seat includes a mounting bottom plate and mounting side plates configured at two opposite sides of the mounting bottom plate, the mounting bottom plate is rotatably mounted to the separation groove, and a mounting slot for inserting the sealing element is formed between the mounting bottom plate and the two mounting side plates.

Optionally, the inner wall surface of the mounting side plate is convexly provided with a guide protruding strip, and the guide protruding strip is elongated and extends along the insertion direction of the mounting slot.

Optionally, the guiding convex strip has a root connected with the mounting side plate, and a top far away from the mounting side plate, and the thickness of the guiding convex strip is gradually reduced from the root to the top.

Optionally, the guiding ribs are inclined from the root portions to the top portions thereof toward the bottom wall of the mounting slot.

Optionally, the end of the guide protrusion is formed with a guide slope, and the guide slope is inclined along the insertion direction of the mounting slot.

Optionally, the outer wall surface of the mounting side plate is further provided with a groove, and the groove is long and extends along the insertion direction of the mounting slot.

Optionally, the mounting base plate of the mounting base is provided with two rotating arms protruding downwards; and a fixed seat is arranged in the separation groove, and the fixed seat is rotationally connected with the rotating arm.

Optionally, the fixing seat includes a fixing bottom plate and fixing side plates configured at two sides of the fixing bottom plate, a receiving groove into which the rotating arm extends is formed between the two fixing side plates, one of the fixing side plate and the rotating arm is configured to form a rotating shaft, and the other is configured to form a shaft hole through which the rotating shaft is correspondingly inserted and connected.

Optionally, the rotating arm of the mounting seat can rotate by an adjustable angle.

Optionally, one of the fixed side plate and the rotating arm is formed with a positioning protrusion on the outer circumference of the rotating shaft, and the other is formed with a plurality of positioning grooves on the circumference of the shaft hole; when the mounting base rotates to a set angle, the positioning protrusion is matched with one of the positioning grooves to position the mounting base at the current position.

Optionally, the end of the rotating arm of the mounting seat is configured to form a rotating part, the rotating part has two opposite side walls, and one of the side walls is convexly provided with the rotating shaft; the fixing side plate of the fixing seat is convexly provided with a boss facing the accommodating groove, the boss is formed with the shaft hole, and the shaft hole is correspondingly inserted and connected with the rotating shaft.

Optionally, a connecting plate is connected between two side walls of the rotating portion, and a hollow groove is formed between two adjacent connecting plates.

Optionally, the fixing seat further includes two rib plates configured on a plate surface of the fixing side plate facing away from the boss, and a cover plate connected to an edge of one side of the fixing side plate away from the fixing bottom plate, where the cover plate is connected to the two rib plates and encloses with the two rib plates to form a clearance groove corresponding to the shaft hole.

Optionally, the lower end of the rib plate is arranged in a chamfer shape, so that a guide part is formed at the chamfer position of the rib plate.

Optionally, a sinking groove for mounting the fixing seat is formed in the bottom of the separation groove, and the sinking groove is provided with a drainage hole which is configured to drain water to the outdoor or a water pan.

Optionally, the sealing element is made of a flexible material, so that the sealing element can be flexibly deformed; alternatively, the seal is made of an elastic material so that the seal is elastically deformable.

Optionally, the seal may be cut to change the length of the seal.

Optionally, the casing is divided into an indoor side casing and an outdoor side casing by the separation groove; the window type air conditioner further comprises a compressor, an outdoor heat exchanger, an outdoor fan, an indoor heat exchanger and an indoor fan, wherein the compressor, the outdoor heat exchanger and the outdoor fan are arranged in the outdoor shell, and the indoor heat exchanger and the indoor fan are arranged in the indoor shell.

The technical scheme of the utility model, through planting the sealing member with the mount pad be connected, but the sealing member elasticity or flexible deformation and fixed with mount pad interference fit for spare parts such as screw structure or buckle structure are not needed in the assembly between them of sealing member and mount pad, and the assembling process is comparatively simple, and the operation degree of difficulty is low, helps improving assembly efficiency.

In addition, the sealing member can be switched between a storage state and a working state through the driving of the mounting seat. And in the storage state, the sealing element is stored in the separation groove, so that the sealing element is stored in the separation groove by fully utilizing the separation groove, the whole volume of the window type air conditioner is reduced, and the window type air conditioner is convenient to store or package and transport. In the working state, the sealing element extends out from the side direction of the separation groove and is suitable for supporting the shielding element and/or the inner wall of the window so as to seal a gap between the shielding element and the inner wall of the mounting hole, reduce the leakage of cold or heat to the outdoor, avoid the water in the outdoor environment from falling into the indoor space from the gap, and greatly enhance the sealing effect.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic view of a window type air conditioner according to the present invention mounted on a wall;

FIG. 2 is a schematic view of the sealing member of the window type air conditioner according to the present invention in a storage state;

FIG. 3 is a schematic view illustrating a sealing member of the window air conditioner of FIG. 2 switched to an operating state;

FIG. 4 is an exploded view of the seal and mount of the window air conditioner of FIG. 2;

FIG. 5 is an enlarged view taken at A in FIG. 4;

FIG. 6 is a schematic structural view of the mounting base of FIG. 4;

FIG. 7 is a schematic view of the mount of FIG. 6 from another perspective;

FIG. 8 is an enlarged view at B of FIG. 7;

FIG. 9 is a front view of the mount of FIG. 6 in its insertion direction;

FIG. 10 is a schematic view of the mounting base and the fixing base of FIG. 9;

fig. 11 is a schematic structural view of the fixing base in fig. 4.

The reference numbers illustrate:

the purpose of the present invention is to provide a novel and improved method and apparatus for operating a computer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1, the present invention provides an embodiment of a window type air conditioner 10, wherein the window type air conditioner 10 can be installed on an installation opening of a wall body for cooling or heating an indoor environment. The window type air conditioner 10 has the sealing member 400, and can simplify the assembling manner of the sealing member 400, thereby improving the assembling efficiency of the whole machine.

Referring to fig. 1 to 3, in an embodiment of the window type air conditioner 10 of the present invention, the window type air conditioner 10 includes a casing 100, a mounting seat 300 and a sealing member 400. In which the cabinet 100 is constructed to form a separation groove 200, the separation groove 200 being adapted to allow the blinder 30 of the window to be inserted thereinto. The mounting seat 300 is movably mounted to the separation groove 200. Sealing member 400 is inserted with mount 300 and is connected, and sealing member 400 is applicable to through taking place deformation and mount 300 interference fit fixed, and sealing member 400 drives in order to switch between accomodating state and operating condition through mount 300. Wherein, in the accommodated state, the sealing member 400 is accommodated in the partition groove 200; in the operative condition, the seal 400 projects laterally from the partition channel 200 and is adapted to be held against the screen 30 and/or the inner wall of the window. In some embodiments, in said operating condition, the seal 400 projects laterally from the compartment 200, also adapted to abut against the inner wall of the window frame.

Specifically, the top of the partition groove 200 of the cabinet 100 and both sides thereof are opened, and the cabinet 100 is partitioned into the indoor side housing 110 and the outdoor side housing 120 by the partition groove 200. The window air conditioner 10 further includes a compressor, an outdoor heat exchanger, an outdoor fan, an indoor heat exchanger, and an indoor fan, wherein the compressor, the outdoor heat exchanger, and the outdoor fan are installed in the outdoor housing 120, and the indoor heat exchanger and the indoor fan are installed in the indoor housing 110.

When the window type air conditioner 10 is mounted to a wall mounting hole, the indoor side housing 110 is located indoors and the outdoor side housing 120 is located outdoors. Therefore, the noise transmitted from the outdoor side to the indoor side can be blocked, and the noise reduction effect is achieved; moreover, the shielding piece 30 constructed at the installation opening can be extended into the separation groove 200, so that the interference of the window type air conditioner 10 to the shielding piece 30 is reduced. It should be noted that the shielding element 30 may be a curtain, a louver, a window sash, or the like that can shield light, or may be other shielding window panels that can shield external objects from entering the room.

As for the sealing member 400, there are two sealing members 400, and the two sealing members 400 are provided at both ends of the separation groove 200. The seal 400 is in the form of an elongated strip. Seal 400 has multiple sides with a larger outer surface area to facilitate an increased sealing surface. The sealing member 400 and the mounting seat 300 are in insertion connection, which may be, but is not limited to: a slot is provided in one of the sealing member 400 and the mounting base 300, and the other is inserted and fitted into the slot. Because the sealing element 400 can be elastically or flexibly deformed, the sealing element 400 can be flexibly or elastically deformed in the process of inserting and connecting the sealing element 400 and the mounting seat 300, so that the inserting portion between the sealing element 400 and the mounting seat 300 is connected more tightly, the sealing element 400 and the mounting seat 300 are not easy to separate, and the interference fit fixation is realized.

For the convenience of explaining the installation of the window type air conditioner 10, the wall 20 is illustrated as having a square installation opening: the inner wall of the mounting opening comprises a bottom wall, a top wall and two opposite side walls. The shield 30 is typically disposed on the top wall of the mounting opening and can move up and down to shield or shield the mounting opening. After the window type air conditioner 10 is installed in the installation opening, the sealing element 400 is moved to the working state through the installation seat 300, so that the sealing element 400 extends out from the side direction of the separation groove 200 of the window type air conditioner 10, and the bottom surface of the sealing element 400 is abutted against the bottom wall of the installation opening; then, the shielding member 30 is pulled down to extend into the separating groove 200 of the window type air conditioner 10 until the lower edge of the shielding member 30 contacts and abuts against the upper surface of the sealing member 400, and the sealing member 400 shields and seals the gap between the shielding member 30 and the bottom wall of the mounting opening up to now, thereby reducing the leakage of indoor cold or heat from the space to the outside. When the window type air conditioner 10 is not needed or is transported, the sealing member 400 is moved to the storage state, so that the space occupied by the sealing member 400 is reduced, and the window type air conditioner 10 can be conveniently stored or packaged.

In the process of installing the window type air conditioner 10, compared with the manner that the top surface of the window type air conditioner 10 can only be pulled in the related art, the shielding piece 30 in the embodiment can be inserted into the window type air conditioner 10, and this manner can enable the shielding piece 30 to shield the space between the two sides of the window type air conditioner 10 and the bottom wall of the installation opening, so as to increase the shielding area of the shielding piece 30.

The technical scheme of the utility model, through planting sealing member 400 and mount pad 300 to be connected, sealing member 400 is applicable to through taking place deformation and fixed with mount pad 300 interference fit for spare parts such as screw structure or buckle structure are not needed in the assembly of sealing member 400 and mount pad 300 both, and the assembling process is comparatively simple, and the operation degree of difficulty is low, helps improving assembly efficiency. The deformation may be either a flexible deformation or an elastic deformation.

Furthermore, the sealing member 400 can be switched between a storage state and an operating state by being driven by the mounting base 300. In the storage state, the sealing member 400 is stored in the separation groove 200, so that the separation groove 200 is fully utilized to store the sealing member 400, the overall volume of the window type air conditioner 10 is reduced, and the storage or the package transportation is facilitated. In the working state, the sealing member 400 extends laterally from the separating groove 200 and is adapted to be abutted by the shielding member 30 and/or the inner wall of the window, so as to seal the gap between the shielding member 30 and the inner wall of the mounting opening, thereby reducing the leakage of cold or heat to the outside, preventing water in the outdoor environment from falling into the indoor space from the gap, and greatly enhancing the sealing effect.

In addition, because the sealing element 400 can be flexibly or elastically deformed, when the shielding element 30 is abutted to the surface of the sealing element 400, the sealing element 400 can be slightly deformed, so that the sealing between the sealing element 400 and the shielding element 30 is tighter, a gap is not easily formed between the sealing element 400 and the shielding element 30, the sealing effect is improved, and the effects of water prevention and leakage prevention of cold and heat are effectively enhanced.

Referring to fig. 4 to 6, in the above embodiments, there are various designs for the movable installation manner of the installation base 300, which is not limited in detail herein. Such as but not limited to: the mount 300 is slidably mounted to the separation groove 200; alternatively, the mounting seat 300 may be rotatably mounted to the separation groove 200; alternatively, the mounting seat 300 may be rollably mounted to the partition groove 200. The specific method can be selected according to the difficulty degree of assembly. Specifically, the mounting seat 300 is rotatably mounted to the separation groove 200.

The specific structure of the mounting base 300 is not limited herein. The size of the separation groove 200 and the size of the required seal 400 may be designed accordingly. In the present embodiment, in order to facilitate the installation of the installation base 300, optionally, the installation base 300 includes an installation bottom plate 310 and installation side plates 320 configured at opposite sides of the installation bottom plate 310, the installation bottom plate 310 is rotatably installed to the separation groove 200, and an installation insertion groove 330 for inserting the sealing member 400 is formed between the installation bottom plate 310 and the two installation side plates 320.

Specifically, the mounting base plate 310 and the two mounting side plates 320 of the mounting base 300 enclose a mounting slot 330, the mounting slot 330 is substantially U-shaped, and one end of the mounting slot 330 forms an insertion opening. An end of the mounting base plate 310 remote from the insertion opening is rotatably mounted in the separation groove 200. When the sealing member 400 is mounted on the mounting seat 300, one end of the sealing member 400 is aligned with the insertion opening of the mounting slot 330 of the mounting seat 300, and then an external force is applied to the sealing member 400 to press the sealing member 400 into the mounting slot 330. In this process, the sealing member 400 is deformed by the pressing force of the inner wall of the installation slot 330, so that the sealing member 400 is tightly pressed in the installation slot 330, the sealing member 400 is tightly fitted with the installation base 300, and the sealing member 400 is not easily separated from the installation base and has good installation stability.

Referring to fig. 6 to 9, in an embodiment, in order to facilitate the insertion of the sealing member 400 into the installation slot 330, a guide protrusion 321 may be protruded on an inner wall surface of the installation side plate 320, and the guide protrusion 321 extends in an elongated shape along the insertion direction of the installation slot 330. The guide ribs 321 are integrally formed with the mounting side plate 320. The number of the guide protrusions 321 is plural, and the plural guide protrusions 321 are arranged at intervals in the height direction of the installation side plate 320.

Therefore, in the process of inserting the sealing member 400 into the installation slot 330, the guiding ribs 321 on the two installation side plates 320 cooperate to limit the insertion direction of the sealing member 400, so that the sealing member 400 is not easy to be dislocated and deviated from the installation slot 330, and the sealing member 400 is ensured to be accurately inserted into the installation slot 330. In addition, since the guiding protrusions 321 protrude from the inner wall surfaces of the mounting side plates 320, the guiding protrusions 321 on the two mounting side plates 320 can cooperate with the pressing of the sealing element 400, so that the sealing element 400 is easily pressed and deformed to be more closely matched with the mounting base 300, and is not easily separated from the mounting slot 330.

Referring to fig. 6 to 9, in an embodiment, the guiding protrusion 321 has a root portion 321a connected to the mounting side plate 320 and a top portion 321b far away from the mounting side plate 320, and the thickness of the guiding protrusion 321 is gradually decreased from the root portion 321a to the top portion 321 b. As indicated by h in fig. 9 as the thickness of the guide rib 321. It is understood that the cross section of the guide rib 321 perpendicular to the longitudinal direction thereof is gradually reduced in thickness from the bottom thereof to the top 321b thereof, so that the top 321b of the guide rib 321 is tapered. Therefore, the contact area between the guide convex strips 321 and the sealing element 400 can be reduced, the pressure exerted by the guide convex strips 321 on the sealing element 400 is larger under the same extrusion acting force, and then in the process of clamping the sealing element 400, the guide convex strips 321 can extrude the sealing element 400 to generate larger deformation, so that the sealing element 400 and the mounting seat 300 are inserted more tightly.

It is considered that, since the top 321b of the mounting socket 330 is opened, the sealing member 400 may be released from the top 321b of the mounting socket 330. To avoid this, the guiding protrusion 321 is optionally inclined from the root 321a to the top 321b towards the bottom wall of the mounting slot 330. When the sealing member 400 is inserted into the mounting slot 330, the force of the guiding ribs 321 on the sealing member 400 is applied toward the bottom wall of the mounting slot 330, thereby securely retaining the sealing member 400 in the mounting slot 330 and preventing the sealing member 400 from being removed from the top 321b of the mounting slot 330.

Referring to fig. 6, in addition, in order to facilitate the insertion of the sealing member 400 into the installation slot 330, a guide slope 322 may be formed at an end portion of the guide protrusion 321, and the guide slope 322 is inclined in the insertion direction of the installation slot 330. When the sealing member 400 is mounted on the mounting base 300, after one end of the sealing member 400 is aligned with the insertion opening of the mounting slot 330 of the mounting base 300, an external force is applied to push the sealing member 400 into the mounting slot 330, and the outer surface of the sealing member 400 contacts with the guiding inclined plane 322 of the guiding protruding strip 321, and then is guided by the guiding inclined plane 322 to enter the mounting slot 330. The design of the guiding inclined plane 322 can greatly reduce the resistance of the front end of the guiding protruding strip 321 to the sealing element 400, and help to guide the sealing element 400 into the installation slot 330.

Referring to fig. 7 and 9, in an embodiment, the outer wall surface of the mounting side plate 320 is further provided with a groove 323, and the groove 323 is elongated and extends along the insertion direction of the mounting slot 330. The groove 323 may increase the coefficient of friction of the outer surface of the mounting side plate 320 to facilitate the user to insert the mounting slot 330 and the sealing member 400 into alignment by holding the mounting side plate 320. In addition, a concave portion 324 is formed between two adjacent guiding convex strips 321, and the position of the concave portion 323 corresponding to the position of the concave portion 324 of the mounting side plate 320, so that the thickness variation positions of the mounting side plate 320 are substantially consistent, which is beneficial to the molten glue flowing in the mold cavity corresponding to the inner and outer surface positions of the mounting side plate 320 during glue injection, thereby molding the mounting base 300 with a relatively stable shape structure.

Referring to fig. 4, 5 and 7, according to any one of the above embodiments, for the specific embodiment that the mounting base 300 is rotatably mounted on the separation trough 200, optionally, a pair of rotating arms 340 is protruded downward from the mounting base plate 310 of the mounting base 300; the separation groove 200 is provided with a fixed seat 500, and the fixed seat 500 is rotatably connected with the rotating arm 340. The specific structure of the fixing seat 500 is not particularly limited, and may be designed accordingly according to actual needs.

In one embodiment, the fixing base 500 includes a fixing base plate 510 and fixing side plates 520 configured on two sides of the fixing base plate 510, a receiving groove 501 for the rotating arm 340 to extend into is formed between the two fixing side plates 520, one of the fixing side plates 520 and the rotating arm 340 is configured to have a rotating shaft 341, and the other is configured to have a shaft hole 521 for the rotating shaft 341 to be correspondingly inserted and connected.

Specifically, the rotating shaft 341 may be disposed on the rotating arm 340, and the shaft hole 510 corresponding to the rotating shaft 341 is disposed on the fixed side plate, and the shaft hole 510 is inserted into the rotating shaft 341 of the rotating arm 340, so as to realize the rotating connection between the mounting base 300 and the fixing base 500. Of course, the rotating shaft 341 may be disposed on the fixed side plate 520, the shaft hole 510 corresponding to the rotating shaft 341 may be disposed on the rotating arm, and the shaft hole 510 is inserted into the rotating shaft 341 of the rotating arm 340, so as to achieve the rotatable connection between the mounting base 300 and the fixing base 500. The following description will be made by taking an example in which the main rotating arm 340 is provided with a rotating shaft 341 and the fixed side plate 520 is provided with a shaft hole 521.

Referring to fig. 7 to 9, further, a rotating portion 343 is formed at a distal end of the rotating arm 340 of the mounting base 300, the rotating portion 343 has two opposite side walls 301, and a rotating shaft 341 is convexly formed on one side wall 301; a boss 523 (as shown in fig. 11) is protruded from the fixed side plate 520 of the fixed seat 500 toward the receiving slot 501, the boss 523 is configured to form a shaft hole 521, and the shaft hole 521 is correspondingly inserted and connected with the rotating shaft 341.

Specifically, by forming a shaft hole 521 in the boss 523, the shaft hole 521 penetrates through the boss 523; the rotating shaft 341 of the rotating arm 340 passes through the shaft hole 521, so that the rotating shaft 341 can be stably inserted into the shaft hole 521. The boss 523 can enhance the strength of the position near the shaft hole 521, so that the shaft hole 521 is inserted into the rotating shaft 341 to stably support the rotating shaft 341 of the mounting seat 300, thereby enhancing the stability of insertion into the rotating shaft 341. The rotating shaft 341 of the rotating arm 340 is inserted through the shaft hole 521, and the outer end of the rotating shaft 341 may interfere with the back plate of the indoor side housing 110 or the back plate of the outdoor side housing 120, so that the rotating shaft 341 continuously generates friction when rotating.

Referring to fig. 7 and 11, in order to ensure that the fixing base 500 can provide enough space for the rotation of the rotating shaft 341, optionally, the fixing base 500 further includes two rib plates 530 configured on the plate surface of the fixed side plate 520 facing away from the boss 523, and a cover plate 540 connected to one side edge of the fixed side plate 520 away from the fixed bottom plate, the cover plate 540 connects the two rib plates 530, and encloses with the two rib plates 530 to form the clearance groove 502 corresponding to the shaft hole 521. Therefore, the rotating shaft 341 of the rotating arm 340 is inserted into the clearance groove 502 through the shaft hole 521, and is accommodated in the clearance groove 502, so that it is not easily interfered with the back plate of the indoor housing 110 or the back plate of the outdoor housing 120 during rotation.

Specifically, the fixed side plate 520 is connected to the two rib plates 530 and the cover plate 540 to form a stable structure, which can enhance the strength of the fixed side plate 520, so that the two ends of the fixed side plate 520 are not easily bent. When the fixing seat 500 is installed, the rib plate 530 and the cover plate 540 at the end of the fixing seat 500 are inserted into the side wall of the separation groove 200, and the contact surface between the rib plate 530 and the cover plate 540 and the separation groove 200 is small, so that the interference of the side wall of the separation groove 200 can be reduced, and the fixing seat 500 can be conveniently installed in the separation groove 200.

The fixed side plate 520, the two rib plates 530 and the cover plate 540 of the fixing base 500 cooperate to form the side portion of the fixing base 500, and theoretically, the side portion of the fixing base 500 is designed to be a solid block-shaped structure (i.e., no clearance groove 502 is formed between the two rib plates 530 and the cover plate 540), and the side portion of the fixing base 500 has better strength. However, the fixing base 500 is usually injection-molded by a glue injection process, and since the thickness of the side portion of the fixing base 500 is large, the corresponding mold cavity is not easily and completely filled with glue during the glue injection production process, so that the surface of the side portion of the fixing base 500 is likely to be recessed into the corresponding mold cavity, a concave pit is formed, and the structural stability of the fixing base 500 is damaged. Therefore, in the present embodiment, due to the existence of the clearance groove 502, the side portion of the fixing base 500 can be equivalent to a hollow structure, which is beneficial to glue injection production of the fixing base 500.

Further, the lower end of the rib plate 530 is provided at a chamfer to form a guide 531 at the chamfer position of the rib plate 530. When the fixing seat 500 is installed, the guide part 531 corresponding to the side wall of the sinking groove 210 can be inserted downwards into the sinking groove 210, so that the abutting acting force between the rib plate 530 and the side wall of the sinking groove 210 is reduced, the difficulty of installing the fixing seat 500 is reduced, and the assembly efficiency is improved.

In an embodiment, for the rotating part 343, the rotating part 343 may also be a solid block structure, so that it has better strength. However, the mounting base 300 is generally injection molded by a glue injection process, and since the thickness of the rotating portion 343 is large, it is difficult to completely fill the cavity of the corresponding rotating portion 343 with glue during the glue injection production process, so that the sidewall 301 of the rotating portion 343 may be easily recessed into the cavity, and a recess may be formed in the sidewall 301 of the rotating portion 343. In view of this, in order to solve the problem, the connecting plates 302 are connected between the two side walls 301 of the rotating portion 343, and the hollow-out groove 303 is formed between two adjacent connecting plates 302, so that the rotating portion 343 is of a non-solid structure, which is beneficial to glue injection production of the mounting base 300, and formation of a pit in the side wall 301 of the rotating portion 343 is avoided, thereby ensuring structural integrity of the rotating portion 343 and ensuring that the rotating portion 343 has better strength.

Referring to fig. 5, 9 and 10, in an embodiment, the rotation angle of the rotating arm 340 of the mounting base 300 is adjustable, so that the included angle between the sealing element 400 and the horizontal direction can be adjusted, for example, 90 °, 45 ° or 30 ° by adjusting the rotation angle of the mounting base 330. There are various ways to achieve the adjustable rotation angle of the sealing member 400. Again, there is no particular limitation.

Optionally, one of the fixed seat 500 and the rotating arm 340 is formed with a positioning protrusion 342 on the outer circumference of the rotating shaft 341, and the other is formed with a plurality of positioning grooves 520 on the circumference of the shaft hole 510; when the mounting base 300 rotates to a predetermined angle, the positioning protrusion 342 cooperates with one of the positioning grooves 520 to position the mounting base 300 at the current position.

Specifically, the plurality of positioning grooves 520 are arranged in a circular ring shape along the circumference of the axial hole 510. When an external force is applied to the mounting base 300 to rotate the mounting base 300, the positioning protrusions 342 rotate along with the external force to be switched and matched with the plurality of positioning grooves 520. When the mounting base 300 rotates to a set angle, the external force applied to the mounting base 300 is removed, the positioning protrusion 342 is engaged with one of the positioning grooves 520, the positioning protrusion 342 is limited in the positioning groove 520, and cannot be switched to the next positioning groove 520, so that the mounting base 300 is positioned at the current position, that is, the sealing member 400 is positioned.

It is considered that, since the partition 200 is partially exposed to the outside, water dropping from the outdoor environment onto the mounting base 300 is easily dropped into the indoor side housing 110 through the fixing base 500. In order to prevent this, a sink 210 is provided at the bottom of the separation tank 200 for the fixing base 500 to be mounted thereon, and the sink 210 is provided with a drain hole configured to drain water to the outside or the drain pan. The water dropping from the outdoor environment onto the mounting base 300 may first drop into the sink 210, and then drain to the outdoor or the water pan through the drain hole of the sink 210, thereby preventing the internal components of the indoor housing 110 from being wetted.

In addition, as for the fixing manner of the fixing seat 500 in the sinking groove 210, the fixing seat 500 can be directly limited and fixed in the sinking groove 210, so that the fixing seat 500 is limited by the circumferential side wall of the sinking groove 210, and the use of parts such as a screw structure or a buckle structure can be reduced.

Based on any of the above embodiments, in order to ensure that the sealing member 400 can deform to be tightly inserted into the mounting seat 300, optionally, the sealing member 400 is made of a flexible material, so that the sealing member 400 can flexibly deform; alternatively, the sealing member 400 is made of an elastic material so that the sealing member 400 is elastically deformable. As for the specific material of the sealing member 400, there may be, but not limited to: hard sponge, deformable plastic, rubber or silica gel.

In one embodiment, the mounting openings of the wall are generally of different sizes, thereby requiring different lengths of the seal 400. Here, in order to adapt the seal 400 to different sized mounting openings, the seal 400 may also be cut to change the length of the seal 400. As previously mentioned, the seal 400 is made of a flexible material or an elastic material to provide a better flexibility between the seals, so that the seal 400 can be cut to change its length to fit different sized mounting openings.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (19)

1. A window type air conditioner, comprising:

the device comprises a machine shell, a first fixing device and a second fixing device, wherein a separation groove is formed in the machine shell, and the separation groove is suitable for a shielding piece positioned at a mounting opening of a wall body to extend into;

the mounting seat is movably mounted on the separation groove; and

the sealing element is inserted and connected with the mounting seat, the sealing element is suitable for being fixed with the mounting seat in an interference fit manner through deformation, and the sealing element is driven by the mounting seat to be switched between a storage state and a working state; wherein:

in the accommodated state, the seal is accommodated in the separation groove;

in the working state, the sealing element extends out from the side direction of the separation groove and is suitable for being abutted by the shielding element and/or the inner wall of the mounting opening.

2. The window type air conditioner as claimed in claim 1, wherein the mounting base includes a mounting base plate and mounting side plates configured at opposite sides of the mounting base plate, the mounting base plate being rotatably mounted to the partition groove, the mounting base plate and the two mounting side plates forming a mounting insertion groove therebetween into which the sealing member is inserted.

3. The window type air conditioner as claimed in claim 2, wherein guide ribs are protruded from inner wall surfaces of said mounting side plates, said guide ribs being elongated in a direction of insertion of said mounting slots.

4. The window type air conditioner as claimed in claim 3, wherein said guiding rib has a root portion connected to said mounting side plate and a tip portion remote from said mounting side plate, said guiding rib being formed to have a thickness gradually decreasing from the root portion thereof toward the tip portion thereof.

5. The window air conditioner as set forth in claim 3, wherein said guide rib is inclined from its root portion toward its tip portion toward the bottom wall of said mounting slot.

6. The window type air conditioner as claimed in claim 3, wherein the end of the guide rib is formed with a guide slope inclined in an insertion direction of the mounting slot.

7. The window type air conditioner as claimed in claim 2, wherein the outer wall surface of said mounting side plate is further provided with a groove, said groove being elongated in a direction in which said mounting slot is inserted.

8. The window air conditioner as claimed in any one of claims 1-7, wherein the mounting base plate of said mounting base is provided with two rotating arms protruding downwards; and a fixed seat is arranged in the separation groove, and the fixed seat is rotationally connected with the rotating arm.

9. The window type air conditioner as claimed in claim 8, wherein the fixing base includes a fixing base plate and fixing side plates configured at both sides of the fixing base plate, a receiving groove for the rotation arm to extend into is formed between the two fixing side plates, one of the fixing side plate and the rotation arm is configured to form a rotation shaft, and the other is configured to form a shaft hole for the rotation shaft to be correspondingly inserted and connected.

10. The window air conditioner as set forth in claim 9, wherein said pivot arm of said mounting base is adjustable in angular extent.

11. The window type air conditioner as claimed in claim 10, wherein one of the fixed side plate and the rotary arm is formed with a positioning protrusion at an outer circumferential structure of the rotary shaft, and the other is formed with a plurality of positioning grooves at an outer circumferential structure of the shaft hole; when the mounting base rotates to a set angle, the positioning protrusion is matched with one of the positioning grooves to position the mounting base at the current position.

12. The window type air conditioner as claimed in claim 9, wherein the end of the rotary arm is configured to form a rotary portion having two opposite side walls, one of which is protrudingly formed with the rotary shaft; the fixed side plate is provided with a boss protruding towards the accommodating groove, the boss is provided with the shaft hole, and the shaft hole is correspondingly inserted and connected with the rotating shaft.

13. The window type air conditioner as claimed in claim 12, wherein connecting plates are connected between both sidewalls of the rotating part, and a hollow groove is formed between adjacent two connecting plates.

14. The window type air conditioner according to claim 12, wherein the fixing base further comprises two rib plates configured on a plate surface of the fixing side plate facing away from the boss, and a cover plate configured on an edge of one side of the fixing side plate away from the fixing base plate, wherein the cover plate is connected with the two rib plates and encloses with the two rib plates to form a clearance groove corresponding to the shaft hole.

15. The window type air conditioner according to claim 14, wherein the lower end of the rib plate is chamfered to form a guide portion at the chamfered position of the rib plate.

16. The window type air conditioner as claimed in claim 8, wherein a sink groove is formed at a bottom of the separation groove for mounting the fixing base, and the sink groove is provided with a drain hole configured to drain water to an outdoor or a drain pan.

17. The window air conditioner as recited in any one of claims 1-7, wherein said sealing member is made of a flexible material so that said sealing member is flexibly deformable; alternatively, the seal is made of an elastic material so that the seal can be elastically deformed.

18. The window air conditioner of any of claims 1-7, wherein the seal is cuttable to change the length of the seal.

19. The window type air conditioner as claimed in any one of claims 1 to 7, wherein said cabinet is partitioned into an indoor side case and an outdoor side case by said partition groove;

the window type air conditioner further comprises a compressor, an outdoor heat exchanger, an outdoor fan, an indoor heat exchanger and an indoor fan, wherein the compressor, the outdoor heat exchanger and the outdoor fan are arranged in the outdoor shell, and the indoor heat exchanger and the indoor fan are arranged in the indoor shell.

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