CN211650504U - Window type air conditioner - Google Patents

Abstract

The utility model discloses a window type air conditioner, window type air conditioner includes casing and locating part. The machine shell is provided with a separation groove, the separation groove is suitable for a shielding piece at a window frame to extend into, and the machine shell is divided into an indoor part and an outdoor part by the separation groove; the limiting part is rotatably installed on the indoor part, an opening corresponding to the limiting part is formed in the back face of the indoor part, the limiting part can be switched between a storage state and an operating state through rotation, and the limiting part comprises: in the working state, the limiting piece at least partially extends out of the opening to the separating groove so as to limit the shielding piece in the separating groove; in the storage state, the stopper is retracted from the opening to the indoor portion to release the shutter. The utility model discloses a window type air conditioner can simplify the fixed mode of window type air conditioner fixed window frame department shielding piece to improve the installation effectiveness.

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

Window air conditioners are typically mounted to the window frame of a wall for cooling or heating the indoor environment. When the shielding member (such as a window sash, a louver, a curtain, etc.) is pulled down, the shielding member needs to be connected and fixed with a window frame or a window type air conditioner by using screws so as to prevent the shielding member from being pulled up randomly. However, in the method of fixing the shield material with the screw, the screw needs to be repeatedly attached and detached when the shield material is pulled up or pulled down, and the operation is troublesome.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a window type air conditioner, aims at simplifying the fixed mode of window type air conditioner fixed window frame department shielding piece to improve the installation effectiveness.

In order to achieve the above object, the present invention provides a window type air conditioner. The window type air conditioner comprises a machine shell and a limiting piece. The machine shell is provided with a separation groove, the separation groove is suitable for a shielding piece at a window frame to extend into, and the machine shell is divided into an indoor part and an outdoor part by the separation groove; the limiting part is rotatably installed on the indoor part, an opening corresponding to the limiting part is formed in the back face of the indoor part, the limiting part can be switched between a storage state and an operating state through rotation, and the limiting part comprises: in the working state, the limiting piece at least partially extends out of the opening to the separating groove so as to limit the shielding piece in the separating groove; in the storage state, the stopper is retracted from the opening to the indoor portion to release the shutter.

Optionally, the limiting member includes a main body portion rotatably connected to the indoor portion, and a limiting portion configured at an end of the main body portion away from the rotating end thereof, and in the operating state, the limiting portion extends above the lower edge plate of the shielding member to limit the shielding member in the separating groove by blocking the shielding member from moving upward.

Optionally, the main body of the limiting member is disposed in a sector shape, a connection end of the main body is formed at a circle center portion of the main body corresponding to the sector shape, and the outer end of the main body corresponding to the arc-shaped edge of the sector shape is configured to form the limiting portion.

Optionally, the main body of the limiting member is disposed in a sector shape, the main body forms the connecting end at a circle center portion corresponding to the sector shape, and the main body forms the limiting portion at an outer end of an arc edge corresponding to the sector shape.

Optionally, the arc-shaped edge of the main body part is configured with a rack, and the rack is relatively positioned on the inner side of the limiting part; one side of the opening of the indoor part is configured with an elastic buckle, and the tail end of the elastic buckle is configured with a latch which is suitable for being meshed with the rack.

Optionally, the elastic buckle includes a first elastic portion connected to the indoor portion and extending toward the limiting member, and a second elastic portion connected to the first elastic portion, the second elastic portion is disposed in a convex arc shape toward the inside of the indoor portion, and the latch is configured at a distal end of the second elastic portion.

Optionally, a stopping portion is convexly disposed at an inner end of the arc-shaped edge of the main body portion, the height of the stopping portion which is convexly disposed is greater than the height of the rack, and the stopping portion is suitable for the elastic buckle to abut against, so that the main body portion is at least partially limited at the inner side of the opening.

Optionally, a convex portion extends laterally from the inner side of the main body portion at a position corresponding to the inner end of the arc-shaped edge, and the stopping portion is configured on the convex portion.

Optionally, the limiting portion extends obliquely from the arc-shaped edge of the main body portion towards a direction away from the stopping portion.

Optionally, a rotating shaft is configured at the rotating end of the main body, and the rotating shaft extends along the vertical direction of the window type air conditioner so that the limiting member is horizontally installed; or, the rotating shaft extends along the width direction of the window type air conditioner, so that the limiting piece is vertically installed.

Optionally, the window type air conditioner further comprises a sealing element movably mounted on the separation groove, and the sealing element is adapted to be movably extended out from the side direction of the separation groove so as to be supported by the shielding element and/or the inner wall of the window frame.

Optionally, the sealing element includes a mounting seat and a flexible sealing strip mounted on the mounting seat, wherein the flexible sealing strip is rotatably mounted on the separation groove through the mounting seat, and the flexible sealing strip is suitable for abutting against the shielding element and/or the inner wall of the window frame.

According to the technical scheme of the utility model, the limiting part is added on the window type air conditioner and can be rotatably arranged at the indoor part and can be switched between the storage state and the working state through rotation; in the working state, the limiting piece limits the shielding piece in the separating groove so as to prevent the shielding piece from being pulled upwards; in the storage state, the limiting member releases the shielding member so that the shielding member can be pulled up. Therefore, the fixing or releasing of the limiting part to the shielding part can be realized by rotating the limiting part to switch the state of the limiting part, the repeated screw dismounting and mounting are not needed, the operation process is simple, the fixing mode of the shielding part at the fixed window frame of the window type air conditioner is simplified, the mounting efficiency is improved, and the damage of the window type air conditioner or the shielding part caused by the repeated screw dismounting and mounting can be avoided.

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 structural view of a window type air conditioner according to an embodiment of the present invention;

FIG. 2 is a side view of the window air conditioner of FIG. 1, wherein the position limiter is in an operating position;

FIG. 3 is an enlarged view taken at A in FIG. 2;

FIG. 4 is a top view of the window air conditioner of FIG. 2;

FIG. 5 is an enlarged view at B in FIG. 4;

FIG. 6 is a cross-sectional view taken along line I-I of the window air conditioner of FIG. 2;

fig. 7 is an enlarged view at C in fig. 6.

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.

The attached drawings 1 to 7 of the specification of the utility model are attached drawings of the embodiment of the window type air conditioner provided by the utility model. The window type air conditioner 10 is suitable for being installed at a window frame of a wall body and is suitable for cooling or heating an indoor environment. When the shielding element 400 (such as a window sash, a louver, a curtain, etc.) is pulled down, the limiting element 300 is used to connect and fix the shielding element 400 with a window frame or a window type air conditioner to prevent the shielding element 400 from being pulled up randomly, so that the mode of fixing the limiting element 300 is adopted, the mode of fixing the shielding element 400 at the window frame of the window type air conditioner is simplified, and the installation efficiency can be effectively improved.

Referring to fig. 1 to 3, in an embodiment of the window type air conditioner of the present invention, the window type air conditioner 10 includes a casing 100 and a position limiter 300. Wherein the cabinet 100 is configured with a separation groove 130, the separation groove 130 is adapted to allow the screen 400 at the window frame to protrude, and the cabinet 100 is divided into the indoor portion 110 and the outdoor portion 120 by the separation groove 130. The limiting member 300 is rotatably installed in the indoor portion 110, an opening corresponding to the limiting member 300 is configured on the back surface of the indoor portion 110, and the limiting member 300 can be switched between a storage state and an operating state by rotating, wherein: in the working state, the limiting member 300 at least partially protrudes from the opening to the separating slot 130 to limit the shutter 400 in the separating slot 130 (as shown in fig. 4 and 5); in the storage state, the stopper 300 is retracted from the opening into the indoor portion 110 to release the shutter 400.

Specifically, the partition groove 130 of the cabinet 100 is opened from the top and both sides of the cabinet 100, and the partition member 200 is installed at the bottom of the partition groove 130, and the partition member 200 is adapted to be abutted by the shielding member 400. The cabinet 100 is partitioned into an indoor part 110 and an outdoor part 120 by a partition groove 130. 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 portion 120, and the indoor heat exchanger and the indoor fan are installed in the indoor portion 110.

When the window type air conditioner 10 is installed on the window frame of the wall, the indoor portion 110 is located at the indoor side, and the outdoor portion 120 is located at the outdoor side, then the shielding member 400 at the window frame can be pulled down and extended into the separating groove 130 between the indoor portion 110 and the outdoor portion 120, so that the area of the shielding member 400 shielding the window frame can be increased, and light or foreign objects entering the room can be shielded. In addition, the partition groove 130 forms a sound insulation space, which can block noise transmitted from the outdoor side to the indoor side, thereby achieving a noise reduction effect. It should be noted that the shielding element 400 may be a curtain, a louver, a window sash, or the like, or may be other shielding window panels that can shield external objects from entering the room.

In order to prevent the shielding element 400 from being pulled up randomly, in the above assembly process, after the shielding element 400 at the window frame is pulled down and extends into the separating slot 130, the limiting element 300 is driven to rotate to switch to the working state, the shielding element 400 is limited in the separating slot 130 by the limiting element 300, so as to prevent the shielding element 400 from being pulled up, which is equivalent to the fact that the shielding element 400 is fixed to the window type air conditioner 10 by the limiting element 300, and thus the shielding element 400 is prevented from being pulled up randomly. When the shielding member 400 needs to be pulled up actually, the limiting member 300 is driven to rotate to switch to the storage state, so that the limiting member 300 releases the shielding member 400, and the shielding member 400 is restored to be free and can be pulled up smoothly.

The rotation of the driving limiting member 300 may be driven by a motor or manually, and is not limited herein. Here, in order to save the cost of the motor, the rotation of the limiting member 300 is driven manually, which will be described in detail later.

According to the technical scheme of the utility model, a limiting piece 300 is added on the window type air conditioner 10, the limiting piece 300 can be rotatably arranged on the indoor part 110, and can be switched between a storage state and a working state through rotation; in the operating state, the limiting member 300 limits the shielding member 400 in the separating groove 130, so as to prevent the shielding member 400 from being pulled upwards; in the storage state, the stopper 300 releases the shutter 400 so that the shutter 400 can be pulled up. Therefore, the state of the limiting part 300 is switched by rotation, so that the limiting part 300 can fix or release the shielding piece 400, the screw is not required to be repeatedly dismounted, the operation process is simple, the fixing mode of the shielding piece 400 at the position where the window type air conditioner 10 is fixed to the window frame is simplified, the installation efficiency is improved, and the damage of the window type air conditioner 10 or the shielding piece 400 caused by the repeated dismounting of the screw can be avoided.

Referring to fig. 4 to fig. 6, in an embodiment, the structure of the position-limiting element 300 is not particularly limited. In particular, the limiting member 300 includes a main body portion 310 rotatably connected to the indoor portion 110, and a limiting portion 320 configured at an end of the main body portion 310 away from a rotating end 311 thereof, in which the limiting portion 320 extends downward above a lower edge plate of the shielding member 400 to limit the shielding member 400 to the inner member of the separating groove 130 by blocking the upward movement of the shielding member 400, so that the shielding member 400 can be prevented from being arbitrarily pulled upward.

Specifically, the rotating end 311 of the main body 310 is configured with a rotating shaft extending along the vertical direction of the window air conditioner 10, so that the limiting member 300 is installed horizontally; alternatively, the rotating shaft extends along the width direction of the window type air conditioner 10, so that the limiting member 300 is installed in a vertical shape. The above-described design is used here. For the position-limiting portion 320, the position-limiting portion 320 can be held by a user, so that the position-limiting member 300 is driven to rotate by pushing and pulling the position-limiting member 300 through the position-limiting portion 320, and therefore, an additional hand-holding portion is not required.

As for the manner of limiting the shielding element 400 in the separating slot 130 by the limiting portion 320 of the limiting member 300, there may be various designs, for example, the limiting portion 320 extends above the lower edge plate of the shielding element 400, so that when the shielding element 400 has a tendency of being pulled upward, the limiting portion 320 is buckled downward on the lower edge plate of the shielding element 400, thereby preventing the shielding element 400 from being pulled upward. Or, in other embodiments, the lower panel of the shielding element 400 is configured with a butt hole or a butt groove, when the limiting element 300 moves to the working state, the limiting portion 320 is correspondingly inserted into the butt hole or the butt groove, and the limiting portion 320 and the shielding element 400 are inserted and connected to achieve limiting.

The shape structure of the limiting portion 320 may be, but is not limited to: the limiting portion 320 of the limiting member 300 is a hook or a protrusion or a baffle protruding from the side surface of the main body portion 310, so as to be suitable for blocking the lower edge of the shielding member 400 when the shielding member 400 is pulled upward, and further prevent the shielding member 400 from being pulled upward. Specifically, the limiting portion 320 of the limiting member 300 is a protrusion protruding from the main body 310. When the shielding member 400 needs to be fixed, the limiting member 300 is rotated toward the inside of the opening on the back surface of the indoor portion 110 until the limiting portion 320 of the limiting member 300 extends to the shielding member 400, and the limiting member 300 reaches the working state; at this time, if the shielding member 400 is pulled up, the lower edge plate of the shielding member 400 is blocked by the limiting portion 320 of the limiting member 300, so as to stop the upward movement of the shielding member 400, thereby preventing the shielding member 400 from being pulled up at will.

When the shielding member 400 needs to be pulled up, the limiting member 300 is rotated toward the outside of the opening on the back surface of the indoor portion 110 until the limiting portion 320 of the limiting member 300 is withdrawn from the lower edge plate of the shielding member 400, and the limiting member 300 is retracted to the inside of the indoor portion to reach the storage state; at this time, if the shielding member 400 is pulled up, the lower edge plate of the shielding member 400 is not blocked by the limiting portion 320 of the limiting member 300, and the lower edge plate of the shielding member 400 can smoothly move up, so that the shielding member 400 can be smoothly pulled up.

Referring to fig. 4 to 6, further, the limiting portion 320 extends obliquely from the arc-shaped edge of the main body portion 310 toward a direction away from the stopping portion 330, that is, the limiting portion 320 protrudes outward from the main body portion 310 (as shown in fig. 5 and 7), so that only a small angle of rotation of the limiting member 300 is required, the limiting portion 320 can extend above the lower edge plate of the shielding member 400, and the working state can be reached quickly, which is helpful to improve the assembly efficiency.

Referring to fig. 6 and 7, in an embodiment, if the lower plate of the shielding element 400 is pulled upward by a large amount when the position-limiting element 300 is in the working state, the lower plate of the shielding element 400 may break away from the restraining force of the position-limiting portion 320 of the position-limiting element 300 and be pulled upward, so that the position-limiting element 300 is bent and deformed or damaged strongly. To reduce this, the main body 310 of the stopper 300 is formed in a fan shape, a center portion of the main body 310 corresponding to the fan shape forms a rotation end 311 thereof, and an outer end of the main body 310 corresponding to an arc-shaped side of the fan shape is configured to form a stopper 320.

Specifically, the main body 310 of the limiting member 300 is disposed in a fan shape, so that the limiting member 300 can obtain a larger strength and is not easy to bend. In particular, since the main body 310 has a large outer end area corresponding to the arc-shaped edge of the sector, and is not easily bent or deformed, the stopper 320 is formed at the outer end of the main body 310 corresponding to the arc-shaped edge of the sector, so that the strength of the stopper 320 for preventing the shielding member 400 from being pulled up can be increased, and the shielding member 400 can be prevented from being pulled up by a strong force.

Referring to fig. 6 and fig. 7, based on any of the above embodiments, it should be noted that, when the limiting element 300 is in the operating state, the limiting element 300 and the back surface of the indoor portion 110 should maintain a stable included angle, so as to ensure that the limiting element 300 stably defines the shielding element 400. There are various designs for the structure to achieve this effect. In one embodiment, the arc-shaped edge of the main body 310 is configured with a rack 312 (see fig. 7), and the rack 312 is located relatively inside the limiting portion 320; one side of the opening of the indoor part 110 is configured with an elastic catch 600, and the end of the elastic catch 600 is configured with a latch adapted to engage with the rack 312. Specifically, the elastic clip 600 has elasticity and can be elastically deformed.

In a normal case, the latch of the elastic clip 600 keeps engaged with the rack 312 of the stopper 300. When the elastic member needs to be used, the limiting member 300 is rotated from the opening to the separating groove 130 by an external force, and under the action of the external force, the rack 312 drives the elastic buckle 600 to be elastically deformed and gradually rotated out of the opening until the limiting member 300 is rotated to a required position, so that the limiting member can reach a working state. At this time, the rack 312 of the limiting member 300 is still engaged with the elastic buckle 600, so that the limiting member 300 and the back surface of the indoor portion 110 maintain a stable included angle, and if the shielding member 400 is pulled without an external force, the shielding member 400 is difficult to overcome the engaging force between the rack 312 of the limiting member 300 and the elastic buckle 600, and is further difficult to be pulled upwards by a strong force, so as to ensure that the limiting member 300 stably limits the shielding member 400. When the stopper 300 is not needed, the stopper 300 is rotated back into the interior of the indoor portion 110 from the opening by an outward force, so that the storage state can be achieved.

In addition, since the limiting member 300 can rotate relative to the indoor portion 110, and the rack 312 of the limiting member 300 is always engaged with the latch of the elastic buckle 600 during the rotation process, the limiting member 300 can be adjusted to rotate at an angle, so as to limit the shielding members 400 with different thicknesses, and improve the applicability of the limiting member 300. The thickness direction of the shield 400 is in the indoor-outdoor direction. The specific distance is as follows: if the thickness of the shielding member 400 is large, the shielding member 400 occupies a large space in the indoor and outdoor directions, so that the distance between the shielding member 400 and the limiting member 300 is relatively small, and the shielding member 400 can be switched between the working body and the storage state by rotating the limiting member 300 by a small angle, thereby being suitable for limiting the shielding member 400 with a small thickness. On the contrary, if the thickness of the shielding member 400 is small, the space occupied by the shielding member 400 in the indoor and outdoor directions is large, so that the distance between the shielding member 400 and the limiting member 300 is relatively large, and the limiting member 300 is rotated by a large angle, so that the working body and the storage state can be switched to be suitable for limiting the shielding member 400 with a large thickness.

Of course, the manner of implementing the stable angle between the limiting member 300 and the back surface of the indoor portion 110 is not limited to the above. In other embodiments, an elastic member may be added, one end of the elastic member is connected to the outer end of the main body 310 of the limiting member 300, and the other end is fixed inside the indoor portion 110. When the limiting member 300 is in the working state, the elastic member is in a stretched state, and the pulling force of the elastic member on the limiting member 300 is opposite to the acting force of the shielding member 400 on the limiting member 300, so that the limiting member 300 and the back surface of the indoor portion 110 can maintain a stable included angle. Or, a stopper is configured at an opening edge of the indoor portion 110, the stopper is located outside the rotating end 311 of the main body 310 of the limiting member 300, so that when the limiting member 300 is in the operating state, the stopper stops the main body 310 of the limiting member 300 from rotating outwards, a pulling force of the stopper on the limiting member 300 is opposite to an acting force of the shielding member 400 on the limiting member 300, and thus the limiting member 300 and the back of the indoor portion 110 can maintain a stable included angle.

In this regard, in the process of switching the retaining member 300 from the storage state to the operating state, the retaining member 300 may be pulled out from the opening on the back surface of the indoor portion 110 due to an erroneous operation, the rack 312 of the retaining member 300 and the elastic buckle 600 are separated, and the retaining member is not easily aligned and returned when the storage state is switched in the subsequent reverse direction, and the return difficulty is large. In view of this, in the embodiment, the inner end of the arc-shaped edge of the main body 310 of the limiting member 300 is convexly provided with the stopping portion 330, the height of the protrudingly provided stopping portion 330 is greater than the height of the protrudingly provided rack 312, and the stopping portion 330 is suitable for the elastic buckle 600 to abut against, so as to at least partially limit the main body 310 inside the opening.

Specifically, during the process of switching the retaining member 300 from the storage state to the working state, the rack 312 of the retaining member 300 is rotated outwards relative to the elastic buckle 600, and the elastic buckle 600 gradually moves from being engaged with the outer end of the rack 312 to being engaged with the inner end of the rack 312. At this time, if the limiting member 300 is mistakenly operated and continuously pulled out, the stopping portion 330 of the limiting member 300 contacts and abuts against the elastic buckle 600, the abutting surfaces of the stopping portion 330 and the elastic buckle 600 are closer to the head end of the elastic buckle 600 relative to the rack 312, the elastic buckle 600 has stronger blocking acting force on the stopping portion 330, the stopping portion 330 is difficult to pass over the elastic buckle 600 and rotate out, and the main body portion 310 is at least partially limited inside the opening. Therefore, when the subsequent stopper 300 is reversely switched back to the storage state, the stopper can smoothly return to the inside of the indoor portion 110 without being aligned with the opening on the rear surface of the indoor portion 110.

Considering that, when the stopping portion 330 of the limiting member 300 abuts against the elastic buckle 600, the stopping portion 330 is subjected to a larger acting force, and in order to prevent the stopping portion 330 from being damaged, a protrusion 313 extends laterally from the inner side of the main body 310 at a position corresponding to the inner end of the arc-shaped edge, and the stopping portion 330 is configured on the protrusion 313. The protrusion 313 may serve as a reinforcement for increasing the strength of the stopper 330. In addition, the main body 310 is equivalent to extending the arc length of the arc-shaped edge of the main body 310 at the position corresponding to the protrusion 313, so that the length of the rack 312 can be correspondingly extended, the rotation range of the limiting member 300 is wider, and the window shade 400 with more different thicknesses can be applied.

Referring to fig. 6 and 7, based on the above embodiments, the elastic buckle 600 has various structural design modes, and only needs to be elastically deformed in the indoor and outdoor directions. In one embodiment, the elastic clip 600 includes a first elastic portion 610 connected to the indoor portion 110 and extending toward the limiting member 300, and a second elastic portion 620 connected to the first elastic portion 610, the second elastic portion 620 is disposed in a convex arc shape toward the inside of the indoor portion 120, and the latch 630 is configured at the end of the second elastic portion 620. Because second elastic part 620 is the setting of convex arc, can make second elastic part 620 have the elasticity of preferred, can also have great intensity simultaneously, at the in-process that takes place to warp, difficult quilt transition is buckled and is taken place unrecoverable deformation, improves elastic buckle 600's stability.

Referring to the drawings, the window air conditioner 10 further includes a sealing member (not shown) movably mounted to the separation groove 130, the sealing member being adapted to movably protrude from a side of the separation groove 130 to be supported by the shielding member 400 and/or an inner wall of the window frame according to any of the above embodiments. That is, the seal member actually has a storage state and an operating state. For this seal, in its accommodated state, the seal is accommodated in the separation groove 130; in its operative condition, the sealing member projects laterally from the partition 130 and is adapted to be held against the shutter 400 and/or the inner wall of the window.

Specifically, after the window air conditioner 10 is installed on the window frame, the sealing member is moved to its operating state, such that the sealing member laterally protrudes from the separation groove 130 of the window air conditioner 10, and the bottom surface of the sealing member abuts against the bottom wall of the window opening; the shield 400 is then pulled down into the channel 130 of the window air conditioner 10 until the lower edge of the shield 400 contacts and abuts both the partition 200 and the seal that shields and seals the gap between the shield 400 and the bottom wall of the window frame. When the window type air conditioner 10 is not needed or is transported, the sealing element is moved to the storage state, the occupied space of the sealing element is reduced, and the window type air conditioner 10 is convenient to store or package.

There are various ways of movably mounting the sealing member. For example, the sealing member is slidably mounted on the partition member 200; alternatively, the sealing member may be rotatably mounted to the partitioning member 200; alternatively, the sealing member may be elastically and telescopically mounted to the partitioning member 200. Specifically, the seal member is rotatably mounted to the partitioning member 200 by a mounting seat to be switched between its operating state and its housed state by rotation.

Optionally, the sealing element includes a mounting seat and a flexible sealing strip mounted on the mounting seat, wherein the flexible sealing strip is rotatably mounted on the separation groove 130 through the mounting seat, and the flexible sealing strip is suitable for abutting against the shielding element 400 and/or the inner wall of the window frame.

For the flexible sealing strip, the flexible sealing strip is made of flexible material, so that the flexible sealing strip can be flexibly deformed. The flexible material may be, but is not limited to: hard sponge, deformable plastic, rubber or silica gel. When the sealing element is in a working state, when the shielding element 400 is abutted downwards to the surface of the flexible material, the flexible material deforms, so that the sealing between the flexible material and the shielding element 400 is tighter, a gap is not easy to form between the flexible material and the shielding element 400, and the sealing and waterproof effects are effectively enhanced.

In addition, because the flexible sealing strip is flexible, it can be cut by a user with a cutting tool (e.g., a conventional knife) that is commonly used in the art to adapt to different window frame sizes, depending on the size of the window frame to which the window air conditioner 10 is applied.

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 (12)

1. A window type air conditioner, comprising:

the window frame comprises a machine shell, a window frame and a baffle plate, wherein the machine shell is provided with a separation groove, the separation groove is suitable for a baffle piece at a window frame to extend into, and the machine shell is divided into an indoor part and an outdoor part by the separation groove; and

the locating part, the locating part rotationally installs in indoor portion, indoor portion's the back is constructed and is had the opening that corresponds with the locating part, the locating part can switch between the state of accomodating and operating condition through rotating, wherein:

in the working state, the limiting piece at least partially extends out of the opening to the separating groove so as to limit the shielding piece in the separating groove;

in the storage state, the stopper is retracted from the opening to the indoor portion to release the shutter.

2. The window type air conditioner as claimed in claim 1, wherein said retaining member includes a main body portion rotatably connected to said indoor portion, and a retaining portion formed at an end of said main body portion remote from a rotating end thereof, said retaining portion extending above a lower edge plate of said shielding member in said operating state to retain said shielding member in said partition groove by blocking upward movement of said shielding member.

3. The window air conditioner as claimed in claim 2, wherein the body portion of the position limiter is formed in a fan shape, a circle center portion of the body portion corresponding to the fan shape forms a connection end thereof, and an outer end of the body portion corresponding to the arc-shaped side of the fan shape is configured to form the position limiter.

4. The window air conditioner as claimed in claim 3, wherein said retainer has a main body portion formed in a sector shape, said main body portion forming said pivot end at a center portion of the corresponding sector shape, said main body portion forming said retainer at an outer end of the corresponding sector shape at an arc-shaped edge thereof.

5. The window type air conditioner as claimed in claim 4, wherein the arc-shaped edge of the main body is configured with a rack gear which is relatively positioned at the inner side of the position limiting part; one side of the opening of the indoor part is configured with an elastic buckle, and the tail end of the elastic buckle is configured with a latch which is suitable for being meshed with the rack.

6. The window air conditioner as claimed in claim 5, wherein the elastic latch includes a first elastic portion connected to the indoor portion and extending toward the stopper, and a second elastic portion connected to the first elastic portion, the second elastic portion being disposed in a convex arc shape toward an inside of the indoor portion, the latch being formed at a distal end of the second elastic portion.

7. The window type air conditioner as claimed in claim 4, wherein a stopping portion is protruded from an inner end of the arc-shaped edge of the main body, the height of the stopping portion is larger than the height of the rack, and the stopping portion is adapted to be abutted by the elastic buckle to at least partially limit the main body to the inside of the opening.

8. The window air conditioner as set forth in claim 7, wherein a protrusion is laterally extended from an inner side edge of said main body at a position corresponding to an inner end of said arc-shaped edge, said stopper being formed on said protrusion.

9. The window type air conditioner as claimed in any one of claims 2 to 8, wherein the position-limiting portion extends obliquely from the arc-shaped edge of the main body portion toward a direction away from the stopping portion.

10. The window type air conditioner as claimed in any one of claims 2 to 8, wherein the rotating end of the main body is configured with a rotating shaft extending in an up-down direction of the window type air conditioner so that the position limiting member is installed horizontally; or, the rotating shaft extends along the width direction of the window type air conditioner, so that the limiting piece is vertically installed.

11. The window air conditioner as recited in any one of claims 1-8, further comprising a sealing member movably mounted to said compartment channel, said sealing member adapted to movably extend laterally from said compartment channel for engagement by said shield member and/or an inner wall of a window frame.

12. The window air conditioner of claim 11 wherein said sealing member comprises a mounting base and a flexible sealing strip mounted to said mounting base, wherein said flexible sealing strip is rotatably mounted to said dividing channel by said mounting base, said flexible sealing strip being adapted to be held against said screen member and/or an inner wall of a window frame.

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