CN219318605U - Sliding door mechanism and air conditioner with same - Google Patents

Abstract

The utility model provides a sliding door mechanism and an air conditioner with the same, comprising: a driving part including a driving part and a driving guide groove; the door plate part is in driving connection with the driving part, and at least part of the door plate part is movably arranged in the driving guide groove so as to enable the door plate part to slide along the extending direction of the driving guide groove to open or close the air outlet; the driving guide groove is provided with a first guide section and a second guide section which are connected with each other, the first guide section and the second guide section are connected at a preset angle, and the second guide section is arranged in a direction which is biased to be close to the air outlet relative to the first guide section; when at least part of the door plate part moves into the second guide section, the door plate part moves towards the direction close to the air outlet so as to be attached to the part at the periphery of the air outlet. By the technical scheme provided by the utility model, the problem that the sliding door plate is not flush with the outer surface of the air conditioner shell in the closed state in the prior art can be solved.

Description

Sliding door mechanism and air conditioner with same

Technical Field

The utility model relates to the technical field of sliding doors of air conditioners, in particular to a sliding door mechanism and an air conditioner with the same.

Background

At present, many families can select a floor-type cabinet air conditioner when buying the air conditioner, and the floor-type cabinet air conditioner has the advantages of high power, strong wind power and the like, and is particularly suitable for rooms with larger areas such as living rooms. The existing floor cabinet machine is provided with the open type air supply outlet, the air supply outlet is provided with the sliding door plate for opening or closing the air supply outlet, the air conditioner is more attractive in appearance due to the arrangement, and meanwhile foreign matters can be prevented from entering the air conditioner to a certain extent under the closing state.

However, in the prior art, the transmission mode of the sliding door plate is mainly rigid transmission between the gear and the rack, the sliding door plate uses the center of the cabinet air conditioner as the center of the circle to realize the opening and closing of the air outlet, and in order to ensure that the door plate can smoothly move, when the air outlet is covered, namely, the door plate is in a closed state, the door plate is necessarily in the shell, namely, the door plate is not necessarily flush with the outer surface of the shell, so that the appearance of the whole machine is affected, and dust easily enters the air conditioner through a gap between the door plate and the shell.

Disclosure of Invention

The utility model mainly aims to provide a sliding door mechanism and an air conditioner with the same, which are used for solving the problem that a sliding door plate is not flush with the outer surface of an air conditioner shell in the closing state in the prior art.

In order to achieve the above object, according to one aspect of the present utility model, there is provided a sliding door mechanism comprising:

a driving part including a driving part and a driving guide groove;

the door plate part is in driving connection with the driving part, and at least part of the door plate part is movably arranged in the driving guide groove so as to enable the door plate part to slide along the extending direction of the driving guide groove to open or close the air outlet;

the driving guide groove is provided with a first guide section and a second guide section which are connected with each other, the first guide section and the second guide section are connected at a preset angle, and the second guide section is arranged in a direction which is biased to be close to the air outlet relative to the first guide section; when at least part of the door plate part moves into the second guide section, the door plate part moves towards the direction close to the air outlet so as to be attached to the part at the periphery of the air outlet.

Further, the door panel part includes:

a plate body portion;

the guide strip is connected with the plate body part, protrudes out of the plate body part and is movably arranged in the driving guide groove.

The guide bars are arranged at the end part of the plate body at intervals; the driving guide grooves are multiple, the guide strips are arranged in one-to-one correspondence with the driving guide grooves, and each guide strip is movably arranged in the corresponding driving guide groove.

Further, the door panel part further includes:

the connecting piece is connected with the driving part and detachably connected with the plate body part, so that the driving part drives the plate body part to move through the connecting piece;

wherein, the gib block sets up the one end that keeps away from plate body portion at the connecting piece.

Further, the board body part comprises a main board body and a connecting part which are connected with each other, and the connecting part is arranged at the end part of the main board body; the connecting piece is provided with a connecting groove, the connecting groove is matched with the shape of the connecting part, and the connecting part is arranged in the connecting groove.

Further, a first positioning structure is arranged on the connecting part, and a second positioning structure matched with the first positioning structure is arranged in the connecting groove so as to position through the first positioning structure and the second positioning structure; and/or the number of the groups of groups,

the connecting part is provided with a first connecting hole, the connecting groove is provided with a second connecting hole, and the second connecting hole is opposite to the first connecting hole so as to penetrate through the first connecting hole through the locking piece to be connected with the second connecting hole.

Further, the driving section includes:

a drive gear rotatably disposed;

the driving rack is meshed with the driving gear and moves along the extending direction of the first guide section;

one end of the swing rod is hinged with the driving rack, and the other end of the swing rod is hinged with the connecting piece.

The swing rod is provided with a first connecting section and a second connecting section which are connected with each other, the first connecting section is used for being connected with the driving rack, and the second connecting section is used for being connected with the connecting piece;

the first connecting section comprises a first plate body, a second plate body and a third plate body, wherein the first plate body and the second plate body are arranged on the third plate body at intervals, a first penetrating hole is formed in the first plate body, a second penetrating hole is formed in the second plate body, and the second penetrating hole is opposite to the first penetrating hole; a fourth plate body is arranged on the driving rack, a communication hole is arranged on the fourth plate body, the fourth plate body is inserted between the first plate body and the second plate body, so that the connecting column sequentially passes through the first penetrating hole, the communicating hole and the second penetrating hole.

The second connecting section is a connecting plate body, a third penetrating hole is formed in the connecting plate body, and an inserting hole is formed in the connecting piece, so that the connecting pin penetrates through the third penetrating hole to enter the inserting hole.

Further, one side of the connecting plate body, which is close to the driving rack, is provided with an avoidance groove, an avoidance hole is formed in the groove top wall of the avoidance groove, an insertion hole is formed in the groove bottom wall of the avoidance groove, the avoidance hole and the insertion hole are oppositely arranged, and the shape of the avoidance hole is matched with that of the connecting pin.

Further, the driving part is also provided with a sliding guide groove, the guiding direction of the sliding guide groove is the same as that of the first guide section, and the driving rack is movably arranged in the sliding guide groove.

Further, the driving section further includes:

the first driving shell is provided with a driving guide groove;

the second drive casing is connected with the first drive casing and encloses into the installation cavity, and drive part installs in the installation cavity, is provided with the slip guide way on the second drive casing, and the slip guide way sets up in the installation cavity, and the drive guide way is located the installation cavity outside.

Further, the sliding door mechanism further includes:

the auxiliary guide groove is arranged opposite to the driving guide groove, the auxiliary guide groove and the driving guide groove are respectively arranged at two ends of the door plate part, the auxiliary guide groove is matched with the driving guide groove in shape, and the end part of the door plate part, which is far away from the driving guide groove, is movably arranged in the auxiliary guide groove.

According to another aspect of the present utility model, there is provided an air conditioner comprising an air conditioner panel and a sliding door mechanism provided on the air conditioner panel, the sliding door mechanism being provided as described above, a door panel part of the sliding door mechanism being provided at an air outlet of the air conditioner.

By adopting the technical scheme of the utility model, the driving part and the door plate part are arranged, the first guide section and the second guide section which are mutually connected at a preset angle are arranged in the driving guide groove of the driving part, and when at least part of the door plate part moves into the second guide section, the door plate part can move towards the direction close to the air outlet, so that the door plate part is flush with the air conditioner shell, and the problem that the sliding door is not flush with the outer surface of the air conditioner shell in the closed state in the prior art can be solved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. In the drawings:

fig. 1 shows a schematic structural view of a sliding door mechanism provided according to a first embodiment of the present utility model;

fig. 2 is an exploded view showing a structure of a sliding door mechanism provided according to a first embodiment of the present utility model;

fig. 3 is a schematic view showing an assembly of a driving part and a door plate part of a sliding door mechanism according to a first embodiment of the present utility model;

FIG. 4 illustrates a schematic diagram of a drive gear and drive rack engagement of a sliding door mechanism provided in accordance with a first embodiment of the present utility model;

fig. 5 is a schematic front view showing a structure of a connector of a sliding door mechanism according to a first embodiment of the present utility model;

fig. 6 is a schematic view showing a rear structure of a link of a sliding door mechanism according to a first embodiment of the present utility model;

fig. 7 is a schematic view showing a rear structure of a first drive housing of a sliding door mechanism according to a first embodiment of the present utility model;

fig. 8 is a schematic front view showing a first drive housing of a sliding door mechanism according to a first embodiment of the present utility model;

fig. 9 shows a top view of a second drive housing of a sliding door mechanism provided according to a first embodiment of the present utility model;

fig. 10 is a schematic view showing the structure of a swing link of a sliding door mechanism according to the first embodiment of the present utility model;

FIG. 11 is a schematic view of a sliding door mechanism according to a first embodiment of the present utility model not fully closed;

FIG. 12 is a schematic view showing a sliding door mechanism fully opened according to a first embodiment of the present utility model;

fig. 13 shows a schematic view of a sliding door mechanism provided according to an embodiment of the present utility model fully closed.

Wherein the above figures include the following reference numerals:

10. a driving part;

11. a driving section; 111. a drive gear; 112. a drive rack; 1121. a fourth plate body;

113. swing rod;

1131. a first connection section; 11311. a first plate body; 11312. a second plate body; 11313. third step a plate body; 11315. a first through hole; 11316. a second through hole;

1132. a second connection section;

1133. a connecting column; 1134. connecting pin

114. A sliding guide groove; 115. a first drive housing;

116. a second drive housing; 1161. a guide avoidance section;

117. a motor;

12. a drive guide groove; 121. a first guide section; 122. a second guide section;

13. an auxiliary guide groove;

20. a door panel component; 21. a plate body portion; 211. a main board body;

212. a connection part; 2121. a first positioning structure; 2122. a first connection hole;

22. a guide bar;

23. a connecting piece; 231. a connecting groove; 2311. a second positioning structure; 2312. a second connection hole; 232. inserting holes; 233. an avoidance groove; 234. avoidance holes;

30. an air conditioner panel.

Detailed Description

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other. The utility model will be described in detail below with reference to the drawings in connection with embodiments.

As shown in fig. 1 to 13, a first embodiment of the present utility model provides a sliding door mechanism including: a drive part 10 and a door panel part 20. The driving part 10 includes a driving part 11 and a driving guide groove 12, the door panel part 20 is in driving connection with the driving part 11, and at least part of the door panel part 20 is movably disposed in the driving guide groove 12 so that the door panel part 20 slides along the extending direction of the driving guide groove 12 to open or close the air outlet. The driving guide groove 12 is provided with a first guide section 121 and a second guide section 122 which are connected with each other, the first guide section 121 and the second guide section 122 are connected at a preset angle, and the second guide section 122 is arranged in a direction which is biased to be close to the air outlet relative to the first guide section 121; when at least part of the door panel 20 moves into the second guide section 122, the door panel 20 moves in a direction approaching the air outlet to be attached to a part of the periphery of the air outlet.

With the sliding door mechanism provided in this embodiment, the driving component 10 drives the door panel component 20 to move to complete opening and closing of the sliding door, and the driving guide groove 12 of the driving component 10 is provided with the first guide section 121 and the second guide section 122 which are mutually connected at a preset angle, so that when the sliding door is closed, the door panel component 20 can move towards the air outlet direction under the guiding action of the second guide section 122 and is flush with the air conditioner shell. Therefore, through the sliding door mechanism provided by the embodiment, the problem that the sliding door is not flush with the outer surface of the air conditioner shell in the closed state in the prior art can be solved.

In the present embodiment, the door panel part 20 includes: a plate body 21 and a guide bar 22. The guide bar 22 is connected with the plate body 21, the guide bar 22 protrudes from the plate body 21, and the guide bar 22 is movably arranged in the driving guide groove 12. With this arrangement, the door panel member 20 can be restrained by the guide bar 22 to prevent the door panel member 20 from being separated from the predetermined moving path.

Specifically, the plate body 21 in the present embodiment has an arc structure, the structure of the guide bar 22 relative to the plate body 21 is simpler, the guiding of the guide bar 22 is simpler and more reliable than the guiding of the plate body 21, and the structure of the corresponding driving guide groove 12 is simplified.

Specifically, the guide strips 22 are plural, and the plural guide strips 22 are provided at intervals at the end of the plate body 21; the driving guide grooves 12 are plural, and plural guide bars 22 are provided in one-to-one correspondence with the plural driving guide grooves 12, and each guide bar 22 is movably provided in the corresponding driving guide groove 12. By providing a plurality of guide strips 22, the door panel component 20 and the driving component 10 can be matched better, so that the driving of the driving component 10 to the door panel component 20 can be realized better, and the movement stability of the panel body 21 is improved.

In this embodiment, two guide strips 22 may be disposed at one end of the plate body 21, where the two guide strips 22 are located near two sides of the plate body 21.

In this embodiment, the door panel part 20 further comprises a connecting piece 23. The connection member 23 is connected to the driving part 11, and the connection member 23 is detachably connected to the plate body 21 so that the driving part 11 drives the plate body 21 to move through the connection member 23. Specifically, the guide bar 22 is provided at an end of the connecting piece 23 remote from the plate body 21. By adopting the arrangement, the device can be convenient to install, disassemble and maintain, is also convenient to replace when the specific structure is worn, does not need to replace the whole body, and reduces the maintenance cost.

Specifically, the guide bar 22 may be integrally formed with the connecting member 23; alternatively, the guide bar 22 and the connecting member 23 are of a separate structure.

In the present embodiment, the board body 21 includes a main board body 211 and a connection portion 212 connected to each other, the connection portion 212 being provided at an end portion of the main board body 211; the connecting piece 23 is provided with a connecting groove 231, the connecting groove 231 is matched with the shape of the connecting part 212, and the connecting part 212 is arranged in the connecting groove 231. With such arrangement, the connection member 23 and the plate body 21 can be conveniently mounted and connected, the connection member 23 and the plate body 21 can be more tightly matched, and the connection stability of the main plate body 211 and the connection portion 212 can be improved.

In this embodiment, the connection portion 212 is provided with a first positioning structure 2121, and the connection slot 231 is provided with a second positioning structure 2311 adapted to the first positioning structure 2121, so as to perform positioning by the first positioning structure 2121 and the second positioning structure; and/or, the connection part 212 is provided with a first connection hole 2122, the connection groove 231 is provided with a second connection hole 2312, and the second connection hole 2312 is opposite to the first connection hole 2122 so as to be connected with the second connection hole 2312 through the first connection hole 2122 by a locking member. Through setting up the cooperation hole site, can make the butt joint of plate body 21 and connecting piece 23 more convenient to adopt such cooperation setting, also can promote the stability of being connected between plate body 21 and the connecting piece 23, make the connection more firm.

In the present embodiment, the driving section 11 includes: a driving gear 111, a driving rack 112 and a swing link 113. The driving gear 111 is rotatably provided, the driving rack 112 is engaged with the driving gear 111, the driving rack 112 moves in the extending direction of the first guide section 121, one end of the swing link 113 is hinged with the driving rack 112, and the other end of the swing link 113 is hinged with the connecting piece 23. By adopting the arrangement, the driving structure is simple, and the driving mode is stable.

Specifically, the driving portion 11 further includes a motor 117 to drive the driving gear 111 to rotate, and the motor 117 is configured to power the driving portion 11 to drive the movable door panel 20 to move.

Specifically, the swing link 113 has a first connection section 1131 and a second connection section 1132 connected to each other, the first connection section 1131 being for connection with the drive rack 112, and the second connection section 1132 being for connection with the connection piece 23. The first connection section 1131 comprises a first plate body 11311, a second plate body 11312 and a third plate body 11313, wherein the first plate body 11311 and the second plate body 11312 are arranged on the third plate body 11313 at intervals, a first penetrating hole 11315 is formed in the first plate body 11311, a second penetrating hole 11316 is formed in the second plate body 11312, and the second penetrating hole 11316 is opposite to the first penetrating hole 11315; the driving rack 112 is provided with a fourth plate body 1121, the fourth plate body 1121 is provided with a communication hole, and the fourth plate body 1121 is interposed between the first plate body 11311 and the second plate body 11312, so that the connection column 1133 sequentially passes through the first through hole 11315, the communication hole, and the second through hole 11316. With such an arrangement, the swing link 113 can be conveniently connected with the driving rack 112, and the swing link 113 is simultaneously connected with the driving rack 112 through the connection post 1133, and such an arrangement can enable the swing link 113 to swing, so that the door panel part 20 can be pushed out into the second guide section 122, thereby conveniently reducing the gap between the door panel part 20 and the air conditioner panel 30.

In this embodiment, the second connection section 1132 is a connection board body, a third through hole is provided on the connection board body, and an insertion hole 232 is provided on the connection member 23, so that the connection pin 1134 passes through the third through hole and enters the insertion hole 232. With such an arrangement, the link member 23 is conveniently moved by the swing link 113, and the link pin 1134 is provided to allow relative rotation between the two members, so as to facilitate pushing out the door panel member 20.

In this embodiment, a side of the connecting plate body, which is close to the driving rack 112, is provided with an avoidance groove 233, a groove top wall of the avoidance groove 233 is provided with an avoidance hole 234, a groove bottom wall of the avoidance groove 233 is provided with an insertion hole 232, the avoidance hole 234 is opposite to the insertion hole 232, and the shape of the avoidance hole 234 is adapted to the shape of the connecting pin 1134. Through such a setting, can make connecting pin 1134 pass and dodge hole 234 and get into to insert in establishing hole 232, can be convenient for optimize structural layout, improve structural layout compactibility, improve the connection stability of plate body 21 and pendulum rod 113.

In this embodiment, the driving part 11 further has a sliding guide groove 114, the guiding direction of the sliding guide groove 114 is the same as the guiding direction of the first guiding section 121, and the driving rack 112 is movably disposed in the sliding guide groove 114. In this way, the sliding guide groove 114 can further limit the driving rack 112, so that the movement of the driving rack 112 is more stable.

In the present embodiment, the driving section 11 further includes: a first drive housing 115 and a second drive housing 116. The first driving housing 115 is provided with a driving guide groove 12; the second drive casing 116 is connected with the first drive casing 115 and encloses a mounting cavity, the drive part 11 is mounted in the mounting cavity, the second drive casing 116 is provided with a sliding guide groove 114, the sliding guide groove 114 is arranged in the mounting cavity, and the drive guide groove 12 is positioned outside the mounting cavity. The arrangement of the first driving housing 115 and the second driving housing 116 can facilitate the installation of other components in the driving part 11, and meanwhile, the arrangement structure is compact, so that occupied space in the air conditioner can be reduced, and the structure of the driving part 11 is also protected.

The sliding door mechanism in this embodiment further includes an auxiliary guide groove 13. The auxiliary guide groove 13 is arranged opposite to the driving guide groove 12, the auxiliary guide groove 13 and the driving guide groove 12 are respectively arranged at two ends of the door plate component 20, the auxiliary guide groove 13 is matched with the driving guide groove 12 in shape, and the end part of the door plate component 20 far away from the driving guide groove 12 is movably arranged in the auxiliary guide groove 13. With such a structural arrangement, it is possible to facilitate further improvement of the driving stability of the door panel part 20, so that the door panel part 20 smoothly opens or closes the air outlet, and can be bonded with the periphery of the air outlet when the door panel part 20 closes the air outlet.

Specifically, the second driving housing 116 includes a first guide bar and a second guide bar that are arranged at intervals, the first guide bar and the second guide bar enclose a sliding guide groove 114, the first guide bar is arranged on one side of the second guide bar, which is close to the swing rod 113, the swing rod 113 is provided with a guiding avoidance section 1161, and the limiting height of the guiding avoidance section 1161 is lower than the height of other parts of the first guide bar, so that the guiding avoidance section 1161 is convenient for avoiding the connection part of the driving rack 112 and the swing rod 113, and the movement of the swing rod 113 is convenient.

In the present embodiment, the sliding door mechanism includes: the door panel part 20, the connecting piece 23, the swing link 113, the motor 117, the driving gear 111, the driving rack 112, the first driving housing 115 and the second driving housing 116.

Specifically, a sliding guide groove 114 may be provided in the first driving housing 115, (two driving guide grooves 12 are respectively provided at upper and lower portions of the driving rack 112 to improve the movement stability of the driving rack 112), the driving guide groove 12, a screw column, and a motor 117 fixing portion. The second drive housing 116 is designed with a sliding guide slot 114, a screw through hole. The first driving housing 115 and the second driving housing 116 may be combined and fixed by screws.

The driving rack 112 is provided with a protruding pin structure for connecting the swing link 113. One end of the swing rod 113 is provided with a pin hole for connecting the driving rack 112, and the other end is provided with a bolt for connecting the connecting piece 23. The top of the connecting piece 23 is provided with a guide strip 22 which can be matched with the driving guide groove 12 on the first driving shell 115; the side is provided with a locating pin and a screw hole, so that the sliding door can be conveniently connected; the other side is designed with a pin hole which can be connected with the swing rod 113. The upper and lower connection portions 212 of the plate body 21 are designed with pin holes and screw through holes to facilitate connection with the connection members 23.

The installation process of the sliding door mechanism in this embodiment is as follows: the motor 117 is assembled on the first driving housing 115, the driving rack 112 is assembled in the rack chute of the first driving housing 115, the driving gear 111 is assembled on the motor 117 and meshed with the driving rack 112, one end of the swing link 113 is connected to the latch on the driving rack 112, the other end is connected with the connecting piece 23, and the guide bar 22 on the top of the connecting piece 23 is matched with the driving guide slot 12 on the first driving housing 115. Finally, the second drive housing 116 and the first drive housing 115 are covered together to complete the assembly of the entire drive member 10. The door panel part 20 is then hung on the connecting piece 23 by means of a locating pin and is fixed by means of screws. The whole sliding door mechanism has the characteristics of small occupied space, simple assembly and convenient maintenance.

With the sliding door mechanism provided in this embodiment, the motor 117 drives the driving gear 111 to drive the driving rack 112 to move along the driving guide groove 12 and the sliding guide groove 114 in an arc manner, the driving rack 112 drives the swinging rod 113, and the swinging rod 113 is connected with the connecting piece 23, so that the connecting piece 23 is driven to move along the track of the driving guide groove 12. The swing link 113 is used for moving the driving rack 112 in an arc manner and rotating the driving rack to move along the track of the driving guide groove 12 of the connecting piece 23. And the plate body 21 of the door panel part 20 is assembled with the connection member 23 so that the plate body 21 also moves along its trajectory.

As shown in fig. 11 to 13, the door panel part 20 is movable along the driving guide groove 12 for a schematic arrangement of the sliding door, the air outlet frame, and the air conditioning panel 30. As shown in fig. 12, when the air conditioner is opened, the door panel part 20 is slid open, and is positioned behind the air conditioner panel 30, and the wind of the blower is blown out along the air outlet frame. As shown in fig. 13, when the air conditioner is turned off, the door panel part 20 is slid to be closed, and the entire outlet is completely shielded. The second guiding section 122 is designed at the tail end of the driving guiding groove 12, so that the movement track protrudes outwards, the door panel component 20 is pushed outwards when being close to being closed, and the door panel component and the air conditioner panel 30 are located on the same cambered surface when being in a completely closed state, and the step feeling is effectively avoided. And simultaneously, gaps can be effectively controlled, dust is prevented from passing through gaps between the door panel part 20 and the air conditioner panel 30, and the appearance attractiveness can be ensured.

An air conditioner according to a second embodiment of the present utility model includes an air conditioner panel 30 and a sliding door mechanism disposed on the air conditioner panel 30, wherein the sliding door mechanism is the sliding door mechanism in the first embodiment, and a door panel part 20 of the sliding door mechanism is disposed at an air outlet of the air conditioner. Specifically, the sliding door mechanism is located inside the air conditioning panel 30.

From the above description, it can be seen that the above embodiments of the present utility model achieve the following technical effects: through setting up drive part 10 in order to drive door plant part 20 motion to set up at drive part 10's drive guide slot 12 and be preset angle interconnect's first direction section 121 and second direction section 122, when door plant part 20 at least part moves to in the second direction section 122, door plant part 20 can be to the air-out direction removal, thereby can make door plant part 20 and air conditioner shell parallel and level, can solve the problem that sliding door and air conditioner shell surface are not flush under the closed state among the prior art.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments in accordance with the present application. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

The relative arrangement of the components and steps, numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present application unless it is specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective parts shown in the drawings are not drawn in actual scale for convenience of description. Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail, but should be considered part of the specification where appropriate. In all examples shown and discussed herein, any specific values should be construed as merely illustrative, and not a limitation. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further discussion thereof is necessary in subsequent figures.

In the description of the present application, it should be understood that, where azimuth terms such as "front, rear, upper, lower, left, right", "transverse, vertical, horizontal", and "top, bottom", etc., indicate azimuth or positional relationships generally based on those shown in the drawings, only for convenience of description and simplification of the description, these azimuth terms do not indicate and imply that the apparatus or elements referred to must have a specific azimuth or be constructed and operated in a specific azimuth, and thus should not be construed as limiting the scope of protection of the present application; the orientation word "inner and outer" refers to inner and outer relative to the contour of the respective component itself.

Spatially relative terms, such as "above … …," "above … …," "upper surface at … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial location relative to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "above" or "over" other devices or structures would then be oriented "below" or "beneath" the other devices or structures. Thus, the exemplary term "above … …" may include both orientations of "above … …" and "below … …". The device may also be positioned in other different ways (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

In addition, the terms "first", "second", etc. are used to define the components, and are merely for convenience of distinguishing the corresponding components, and unless otherwise stated, the terms have no special meaning, and thus should not be construed as limiting the scope of the present application.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (14)

1. A sliding door mechanism, comprising:

a driving member (10), wherein the driving member (10) comprises a driving part (11) and a driving guide groove (12);

a door panel part (20) in driving connection with the driving part (11), wherein at least part of the door panel part (20) is movably arranged in the driving guide groove (12) so as to enable the door panel part (20) to slide along the extending direction of the driving guide groove (12) to open or close an air outlet;

the driving guide groove (12) is provided with a first guide section (121) and a second guide section (122) which are connected with each other, the first guide section (121) and the second guide section (122) are connected at a preset angle, and the second guide section (122) is arranged in a direction which is biased to be close to the air outlet relative to the first guide section (121); when at least part of the door panel part (20) moves into the second guide section (122), the door panel part (20) moves towards the direction approaching the air outlet so as to be attached to a part on the periphery of the air outlet.

2. Sliding door mechanism according to claim 1, characterized in that the door panel part (20) comprises:

a plate body (21);

and the guide strip (22) is connected with the plate body (21), the guide strip (22) protrudes out of the plate body (21), and the guide strip (22) is movably arranged in the driving guide groove (12).

3. The sliding door mechanism according to claim 2, wherein the guide strips (22) are plural, and the plural guide strips (22) are provided at intervals at the end of the plate body (21); the driving guide grooves (12) are multiple, the guide strips (22) are arranged in one-to-one correspondence with the driving guide grooves (12), and each guide strip (22) is movably arranged in the corresponding driving guide groove (12).

4. Sliding door mechanism according to claim 2, characterized in that the door panel part (20) further comprises:

a connecting piece (23) connected with the driving part (11), wherein the connecting piece (23) is detachably connected with the plate body part (21) so that the driving part (11) drives the plate body part (21) to move through the connecting piece (23);

wherein the guide strip (22) is arranged at one end of the connecting piece (23) far away from the plate body (21).

5. The sliding door mechanism according to claim 4, wherein the plate body (21) includes a main plate body (211) and a connecting portion (212) connected to each other, the connecting portion (212) being provided at an end portion of the main plate body (211); the connecting piece (23) is provided with a connecting groove (231), the connecting groove (231) is matched with the shape of the connecting part (212), and the connecting part (212) is installed in the connecting groove (231).

6. A sliding door mechanism according to claim 5, wherein,

a first positioning structure (2121) is arranged on the connecting part (212), and a second positioning structure (2311) matched with the first positioning structure (2121) is arranged in the connecting groove (231) so as to position through the first positioning structure (2121) and the second positioning structure (2311); and/or the number of the groups of groups,

the connecting part (212) is provided with a first connecting hole (2122), the connecting groove (231) is provided with a second connecting hole (2312), and the second connecting hole (2312) is opposite to the first connecting hole (2122) so as to penetrate through the first connecting hole (2122) through a locking piece to be connected with the second connecting hole (2312).

7. The sliding door mechanism of claim 4 wherein the drive member further comprises:

a drive gear (111), the drive gear (111) being rotatably arranged;

a drive rack (112) engaged with the drive gear (111), the drive rack (112) moving in the extending direction of the first guide section (121);

the swing rod (113), one end of the swing rod (113) is hinged with the driving rack (112), and the other end of the swing rod (113) is hinged with the connecting piece (23).

8. The sliding door mechanism according to claim 7, characterized in that the swing link (113) has a first connecting section (1131) and a second connecting section (1132) connected to each other, the first connecting section (1131) being for connection with the drive rack (112), the second connecting section (1132) being for connection with the connecting piece (23);

the first connecting section (1131) comprises a first plate body (11311), a second plate body (11312) and a third plate body (11313), wherein the first plate body (11311) and the second plate body (11312) are arranged on the third plate body (11313) at intervals, a first penetrating hole (11315) is formed in the first plate body (11311), a second penetrating hole (11316) is formed in the second plate body (11312), and the second penetrating hole (11316) and the first penetrating hole (11315) are arranged oppositely; be provided with fourth plate body (1121) on driving rack (112), be provided with the intercommunicating pore on fourth plate body (1121), fourth plate body (1121) inserts and establishes between first plate body (11311) and second plate body (11312), so that spliced pole (1133) pass in proper order first wear to establish hole (11315), intercommunicating pore with second wear to establish hole (11316).

9. The sliding door mechanism according to claim 8, wherein the second connecting section (1132) is a connecting plate body, a third through hole is provided on the connecting plate body, and an insertion hole (232) is provided on the connecting member (23), so that the connecting pin (1134) passes through the third through hole and enters the insertion hole (232).

10. The sliding door mechanism according to claim 9, wherein an avoidance groove (233) is formed in one side, close to the driving rack (112), of the connecting piece (23), an avoidance hole (234) is formed in a groove top wall of the avoidance groove (233), the insertion hole (232) is formed in a groove bottom wall of the avoidance groove (233), the avoidance hole (234) and the insertion hole (232) are arranged oppositely, and the shape of the avoidance hole (234) is matched with that of the connecting pin (1134).

11. The sliding door mechanism according to claim 7, wherein the driving portion (11) further has a sliding guide groove (114), the sliding guide groove (114) is guided in the same direction as the first guide section (121), and the driving rack (112) is movably disposed in the sliding guide groove (114).

12. The sliding door mechanism according to claim 11, wherein the driving portion (11) further includes:

a first drive housing (115), wherein the drive guide groove (12) is arranged on the first drive housing (115);

the second drive casing (116) is connected with the first drive casing (115) and encloses into a mounting cavity, the drive part (11) is installed in the mounting cavity, be provided with on the second drive casing (116) sliding guide groove (114), sliding guide groove (114) set up in the mounting cavity, drive guide groove (12) are located outside the mounting cavity.

13. The sliding door mechanism of claim 1, further comprising:

auxiliary guide groove (13), auxiliary guide groove (13) with drive guide groove (12) set up relatively, auxiliary guide groove (13) with drive guide groove (12) set up respectively door plant part (20) both ends, auxiliary guide groove (13) with the shape looks adaptation of drive guide groove (12), door plant part (20) are kept away from the tip of drive guide groove (12) movably sets up in auxiliary guide groove (13).

14. An air conditioner characterized by comprising an air conditioner panel and a sliding door mechanism arranged on the air conditioner panel, wherein the sliding door mechanism is as claimed in any one of claims 1 to 13, and a door plate part (20) of the sliding door mechanism is arranged at an air outlet of the air conditioner.

Images