CN212204759U - Sliding door and air conditioner - Google Patents

Abstract

An embodiment of the utility model provides a sliding door and air conditioner relates to air conditioner technical field. The sliding door comprises a door body, a first rotating part, a second rotating part and a damping part, wherein a damping surface is arranged at the end part of the first rotating part, the damping part is fixedly connected with the second rotating part, the second rotating part is sleeved with the first rotating part and is rotationally connected with the second rotating part, the damping part is in sliding fit with the damping surface and is used for increasing damping of relative rotation of the first rotating part and the second rotating part, one of the first rotating part and the second rotating part is connected with the door body, and the other one is used for being connected with an indoor unit main body of an air conditioner. The sliding door and the air conditioner can increase damping in the rotating process, and user hand feeling is improved, so that user experience is improved.

Description

Sliding door and air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to a sliding door and air conditioner.

Background

The sliding door of the air conditioner has poor hand feeling when being rotated, disassembled and assembled, and the user experience is seriously influenced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem be that current air conditioner sliding door feels not good when the dismouting, influences user experience.

In order to solve the above problem, the embodiment of the utility model provides a sliding door and air conditioner, it can increase the damping that rotates the in-process, promotes the user and feels to promote user experience.

In a first aspect, an embodiment of the present invention provides a sliding door for an air conditioner, the sliding door includes a door body, a first rotating member, a second rotating member and a damping member, a tip of the first rotating member is provided with a damping surface, the damping member with the second rotates a fixed connection, the first rotating member is sleeved outside the second rotating member, and with the second rotating member rotates to be connected, the damping member with damping surface sliding fit for increasing the first rotating member with the second rotates a relative pivoted damping, the first rotating member with one of the second rotating member with the door body coupling, the other one be used for with the indoor set main part of the air conditioner is connected.

The embodiment of the utility model provides a sliding door, it is installed in the indoor set main part to can slide by the relative indoor set main part, in order to open or close the air outlet in the indoor set main part. The first rotating part and the second rotating part can rotate relatively, the first rotating part is sleeved outside the second rotating part, the damping part is fixedly connected with the second rotating part, and when the first rotating part and the second rotating part rotate relatively, the damping part can be in sliding fit with a damping surface arranged on the end surface of the first rotating part. The damping piece can increase the damping of first rotation piece and second rotation piece at the relative rotation in-process with the sliding fit of damping face, promotes to rotate and feels to also promoted user experience. When the sliding door is disassembled, the first rotating piece and the second rotating piece rotate relatively, and the damping piece is matched with the damping surface, so that the hand feeling experience in the rotating process is improved.

In an alternative embodiment, the damping member includes a base portion and a damping portion, the base portion is fixedly connected with the second rotating member and forms a ring structure, and the damping portion is disposed on the base portion and is in sliding fit with the damping surface.

In an alternative embodiment, the damping portion comprises a plurality of resilient projections arranged circumferentially along the base portion, the plurality of resilient projections being slidably engageable with the damping surface.

In an optional embodiment, the base is provided with a mounting hole, the second rotating member passes through the mounting hole, and the mounting hole is used for sleeving the base on the second rotating member.

In an alternative embodiment, the damping surface is provided with a plurality of damping grooves spaced from each other, the plurality of damping grooves are arranged in a ring shape, and the damping member is configured to slide relative to the plurality of damping grooves when following the rotation of the second rotating member relative to the first rotating member.

In an alternative embodiment, the damping surface is provided with a plurality of protrusions spaced from each other, and the damping member is configured to slide relative to the plurality of protrusions when following the rotation of the second rotating member relative to the first rotating member.

In an optional embodiment, the first rotating member is provided with an assembling groove penetrating through the damping surface, the second rotating member extends into the assembling groove, and the damping member is sleeved outside the second rotating member and abuts against the damping surface.

In an optional implementation manner, the second rotating part includes a first rotating part and a second rotating part which are connected with each other, the cross-sectional dimension of the first rotating part is smaller than that of the second rotating part, the first rotating part extends into the assembly groove, the second rotating part is connected with the door body or the indoor unit main body, and the damping member is sleeved outside the first rotating part and is fixedly connected with the first rotating part and/or the second rotating part.

In an alternative embodiment, a supporting surface is disposed at an end of the second rotating portion close to the first rotating portion, and the damping member is fixedly connected to the supporting surface and located between the supporting surface and the damping surface.

In a second aspect, an embodiment of the present invention provides an air conditioner, including an indoor unit main body and a sliding door as described in any one of the foregoing, wherein one of the first rotating member and the second rotating member is connected to the door body, and the other is connected to the indoor unit main body.

The embodiment of the utility model provides an air conditioner installs foretell sliding door in its indoor set main part, and this sliding door can slide by indoor set main part relatively to open or close the air outlet in the indoor set main part. The first rotating part and the second rotating part can rotate relatively, the first rotating part is sleeved outside the second rotating part, the damping part is fixedly connected with the second rotating part, and when the first rotating part and the second rotating part rotate relatively, the damping part can be in sliding fit with a damping surface arranged on the end surface of the first rotating part. The damping piece can increase the damping of first rotation piece and second rotation piece at the relative rotation in-process with the sliding fit of damping face, promotes to rotate and feels to also promoted user experience. When the sliding door is detached, the first rotating piece and the second rotating piece rotate relatively, and the damping piece is matched with the damping surface, so that the operation hand feeling of a user is improved, and the user experience is improved.

In an optional embodiment, the air conditioner further includes a first connecting piece and a second connecting piece, the first connecting piece is detachably connected to the second connecting piece, the first rotating piece is disposed on the first connecting piece, and the second rotating piece is disposed on the second connecting piece.

In an optional implementation manner, the first connecting piece is connected to the sliding door, the second connecting piece is in transmission connection with a driving mechanism of the indoor unit main body, and the driving mechanism is configured to drive the sliding door to slide relative to the indoor unit main body through the second connecting piece.

Drawings

Fig. 1 is a schematic structural diagram of an air conditioner according to an embodiment of the present invention;

FIG. 2 is a schematic view of a portion of the air conditioner of FIG. 1;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2;

fig. 4 is a schematic view of a connection structure between the first connecting member and the second connecting member and the first rotating member and the second rotating member, respectively, according to an embodiment of the present invention;

FIG. 5 is a schematic view of the first rotating member, the second rotating member and the damping member being engaged with each other;

FIG. 6 is an exploded view of the components of FIG. 5;

FIG. 7 is a schematic view of the damper of FIG. 6;

FIG. 8 is a schematic structural view of the first rotating member in FIG. 6;

FIG. 9 is another structural schematic view of the first rotating member in FIG. 6;

fig. 10 is a cross-sectional structural schematic view of the first rotating member in fig. 8.

Icon: 10-an air conditioner; 100-a sliding door; 110-a first rotating member; 111-a damping surface; 112-damping slot; 113-a boss; 114-a mounting slot; 120-a second rotating member; 121-a first rotating part; 122-a second rotating part; 1221-a support surface; 130-a damping member; 131-a base; 133-mounting holes; 132-a damping portion; 140-a door body; 200-indoor machine main body; 300-a first connector; 400-second connector.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

Please refer to fig. 1 and fig. 2, which illustrate an air conditioner 10 provided by an embodiment of the present invention, the air conditioner 10 can increase the relative rotational damping during the assembly and disassembly, thereby increasing the operation hand feeling of the user and improving the use experience.

Referring to fig. 1 and 4, the air conditioner 10 may optionally include a sliding door 100, an indoor unit main body 200, a first connector 300 and a second connector 400, wherein the sliding door 100 is slidably mounted on the indoor unit main body 200 through the first connector 300 and the second connector 400, and is used for opening or closing an air outlet on the indoor unit main body 200. The sliding door 100 can also be detached from the indoor unit main body 200, and the damping in the detaching process of the sliding door 100 can increase the operation hand feeling of a user, thereby improving the detaching experience.

Referring to fig. 5 and 6, in an embodiment of the present invention, the sliding door 100 may include a door body 140, a first rotating member 110, a second rotating member 120 and a damping member 130, the end of the first rotating member 110 is provided with a damping surface 111, the damping member 130 is fixedly connected to the second rotating member 120, the first rotating member 110 is sleeved outside the second rotating member 120 and is rotatably connected to the second rotating member 120, and the damping member 130 is in sliding fit with the damping surface 111 to increase the damping of the relative rotation between the first rotating member 110 and the second rotating member 120. One of the first and second rotating members 110 and 120 is connected to the door body 140, and the other is connected to the indoor unit main body 200 of the air conditioner 10.

It should be understood that the first rotating member 110 and the second rotating member 120 can rotate relatively, the first rotating member 110 is sleeved outside the second rotating member 120, the damping member 130 is fixedly connected to the second rotating member 120, and when the first rotating member 110 and the second rotating member 120 rotate relatively, the damping member 130 can be in sliding fit with the damping surface 111 disposed on the end surface of the first rotating member 110. The sliding fit between the damping member 130 and the damping surface 111 can increase the damping of the first rotating member 110 and the second rotating member 120 in the relative rotation process, thereby improving the rotating hand feeling and further improving the user experience.

It should be noted that, in the embodiment of the present invention, the first rotating member 110 may be disposed on the first connecting member 300, and disposed on the door body 140 of the sliding door 100 through the first connecting member 300; the second rotating member 120 may be in transmission connection with the driving structure of the indoor unit main body 200 through the second connecting member 400. In the process of detaching the sliding door 100 from the indoor unit main body 200, the sliding between the damping surface 111 and the damping member 130 can increase the damping of the relative movement, and improve the hand feeling in the process of detaching. The first rotating member 110 can be fixed relatively, and the second rotating member 120 is rotated under the action of an external force, so that the first rotating member 110 and the second rotating member 120 can rotate relatively; alternatively, the second rotating member 120 may be fixed relatively, and the first rotating member 110 is rotated by an external force, so that the first rotating member 110 and the second rotating member 120 rotate relatively.

Referring to fig. 7, in an alternative embodiment, the damping member 130 may include a base portion 131 and a damping portion 132, the base portion 131 is fixedly connected to the second rotating member 120 and forms a ring structure, and the damping portion 132 is disposed on the base portion 131 and slidably engaged with the damping surface 111.

That is, the damping portion 132 is provided on the base portion 131 for sliding engagement with the damping surface 111 to increase the rotational damping of the first and second rotating members 110 and 120. The structure is simple and convenient to manufacture.

It should be understood that the base 131 is fixedly connected to the second rotating member 120 to prevent relative displacement between the damping member 130 and the second rotating member 120 when the first rotating member 110 and the second rotating member 120 rotate relatively, i.e. to ensure relative sliding between the damping surface 111 and the damping portion 132.

Optionally, the connection mode of the base 131 and the second rotation member 120 may be bonding, clamping, screwing, etc., and the embodiment of the present invention is not specifically limited to the connection mode between the base 131 and the second rotation member 120.

In the embodiment of the present invention, the base portion 131 is an annular structure, and the base portion 131 may be an annular structure and then fixedly connected to the second rotating member 120, or the base portion 131 may be fixed to the second rotating member 120 in an annular structure, that is, the base portion 131 may be a long strip-shaped structure.

Further, the base 131 may be provided with a mounting hole 133, the second rotating member 120 passes through the mounting hole 133, and the mounting hole 133 is used for sleeving the base 131 on the second rotating member 120. That is, the base 131 has a ring structure to facilitate mounting the damper 130 on the second rotating member 120.

Further, the damping portion 132 may include a plurality of elastic protrusions disposed along the circumference of the base 131, and the plurality of elastic protrusions may be slidably engaged with the damping surface 111.

It should be noted that, the above-mentioned "elastic protrusion" means that when the elastic protrusion is matched with the damping surface 111, the elastic protrusion can deform, on one hand, the damping surface 111 can increase the frictional resistance of the elastic protrusion to the damping surface 111, on the other hand, when the elastic protrusion is matched with the damping surface 111 in a sliding manner, the elastic protrusion deforms under the action of an external force, so as to further increase the damping, and improve the hand feeling experience.

Referring to fig. 8, alternatively, the damping surface 111 may be provided with a plurality of damping grooves 112 spaced apart from each other, the plurality of damping grooves 112 are arranged in a ring shape, and the damping member 130 is configured to slide relative to the plurality of damping grooves 112 when following the rotation of the second rotating member 120 relative to the first rotating member 110.

It should be understood that the plurality of damping grooves 112 are arranged in a ring shape, the ring shape is arranged substantially along the rotation path of the first rotating member 110 and the second rotating member 120 to provide stable damping during the rotation, and the plurality of damping grooves 112 can be arranged at uniform intervals to further enhance the user experience.

Also, it should be understood that in the embodiment where the damping member 130 includes an elastic protrusion, the elastic protrusion is slidably engaged with the damping slot 112, so as to increase the damping and improve the feeling experience of the user.

Referring to fig. 9, optionally, the damping surface 111 is provided with a plurality of protrusions 113 spaced from each other, and the damping member 130 is configured to slide relative to the plurality of protrusions 113 when following the rotation of the second rotating member 120 relative to the first rotating member 110.

It should be noted that the plurality of protruding portions 113 may be protruding points disposed on the end surface of the first rotating member 110, that is, the damping surface 111 is a rough surface, when the damping member 130 is in sliding fit with the plurality of protruding portions 113, the frictional resistance is larger, which is beneficial to improving the damping of the relative rotation and the hand feeling experience of the user.

Referring to fig. 10, in an alternative embodiment, the first rotating member 110 is provided with an assembling groove 114 penetrating through the damping surface 111, the second rotating member 120 extends into the assembling groove 114, and the damping member 130 is sleeved outside the second rotating member 120 and abuts against the damping surface 111.

It should be understood that the assembly groove 114 is slightly larger than the dimension of the part of the second rotating member 120 extending into the assembly groove 114, and the second rotating member 120 is sleeved in the assembly groove 114 by providing the assembly groove 114 penetrating through the damping surface 111 on the first rotating member 110.

Referring to fig. 6, in an alternative embodiment, the second rotating member 120 may include a first rotating portion 121 and a second rotating portion 122 connected to each other, a cross-sectional size of the first rotating portion 121 is smaller than a cross-sectional size of the second rotating portion 122, the first rotating portion 121 extends into the assembling groove 114, and the damping member 130 is sleeved outside the first rotating portion 121 and is fixedly connected to the first rotating portion 121 and/or the second rotating portion 122.

Further, the end of the second rotating part 122 close to the first rotating part 121 is provided with a supporting surface 1221, and the damping member 130 is fixedly connected to the supporting surface 1221 and is located between the supporting surface 1221 and the damping surface 111.

It should be understood that the supporting surface 1221 is a step formed by the first rotating portion 121 and the second rotating portion 122, and is one of the end surfaces of the second rotating portion 122. The damping member 130 is fixed on the supporting surface 1221, that is, the base cloth is fixed on the supporting surface 1221, the damping portion 132 faces the damping surface 111 of the first rotating member 110, and when the first rotating member 110 and the second rotating member 120 rotate relatively, the damping member 130 is in sliding fit with the damping surface 111, so as to improve the operation feeling of the user.

An embodiment of the present invention provides an air conditioner, which includes a sliding door 100 as in any one of the previous embodiments, a first connecting member 300 connected to the first rotating member 110, and a second connecting member 400 connected to the second rotating member 120.

It should be noted that, the above-mentioned "the first connecting element 300 is connected to the first rotating element 110" may be understood that the first connecting element 300 and the first rotating element 110 are separately arranged and integrally connected by a connection manner, or the first rotating element 110 is arranged on the first connecting element 300, that is, the first rotating element 110 and the first connecting element 300 are manufactured by an integral molding process. Similarly, the phrase "the second connecting member 400 is connected to the second rotating member 120" means that the second connecting member 400 and the second rotating member 120 are separately provided and integrally connected, and also means that the second rotating member 120 is provided on the second connecting member 400, that is, the second rotating member 120 and the second connecting member 400 are manufactured by an integral molding process.

Optionally, the sliding door 100 can be rotatably assembled with and disassembled from the indoor unit main body 200, and the first rotating member 110, the second rotating member 120 and the damping member 130 can improve the hand feeling experience during the process of assembling and disassembling the sliding door 100 and the indoor unit main body 200.

Alternatively, the first and second connection members 300 and 400 have one end detachably connected and the other end connected through the first and second rotation members 110 and 120. In the process of detaching the sliding door 100, firstly, the first connecting piece 300 and one end of the second connecting piece 400 are disconnected, then the first rotating piece 110 and the second rotating piece 120 are rotated, and the hand feeling of detachment can be improved by the rotation damping under the matching of the damping surface 111 and the damping piece 130; next, the first rotating member 110 is separated from the second rotating member 120, so that the sliding door 100 and the indoor unit main body 200 are detached. After the disassembly, the first connector 300 is located at one side of the sliding door 100, and the second connector 400 is located at the indoor unit main body 200.

Referring to fig. 1 to 10, a sliding door 100 and an air conditioner including the sliding door 100 according to an embodiment of the present invention are shown: the first rotating member 110 and the second rotating member 120 can rotate relatively, the first rotating member 110 is sleeved outside the second rotating member 120, the damping member 130 is fixedly connected with the second rotating member 120, and when the first rotating member 110 and the second rotating member 120 rotate relatively, the damping member 130 can be in sliding fit with the damping surface 111 arranged on the end surface of the first rotating member 110. The sliding fit between the damping member 130 and the damping surface 111 can increase the damping of the first rotating member 110 and the second rotating member 120 in the relative rotation process, thereby improving the rotating hand feeling and further improving the user experience. The first rotating piece 110 and the second rotating piece 120 can be respectively connected with parts rotating during disassembly and assembly in the air conditioner, namely the first rotating piece 110 is connected with the first part, the second rotating piece 120 is connected with the second part, and when the first part and the second part are disassembled and assembled, the first rotating piece 110 and the second rotating piece 120 can increase damping of relative rotation of the first part and the second part, so that the operation hand feeling of a user is improved, and the user experience is improved.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Claims (12)

1. A sliding door for an air conditioner is characterized in that the sliding door (100) comprises a door body (140), a first rotating piece (110), a second rotating piece (120) and a damping piece (130), the end part of the first rotating piece (110) is provided with a damping surface (111), the damping piece (130) is fixedly connected with the second rotating piece (120), the first rotating member (110) is sleeved outside the second rotating member (120), and is rotationally connected with the second rotating part (120), the damping part (130) is in sliding fit with the damping surface (111), for increasing the damping of the relative rotation of the first rotating member (110) and the second rotating member (120), one of the first rotating member (110) and the second rotating member (120) is connected to the door body (140), and the other is used for being connected to an indoor unit main body (200) of the air conditioner (10).

2. The sliding door according to claim 1, wherein the damping member (130) comprises a base portion (131) and a damping portion (132), the base portion (131) is fixedly connected with the second rotating member (120) and forms a ring structure, and the damping portion (132) is disposed on the base portion (131) and slidably engaged with the damping surface (111).

3. The sliding door according to claim 2, wherein the damping portion (132) comprises a plurality of elastic protrusions circumferentially arranged along the base portion (131), the plurality of elastic protrusions being slidably engageable with the damping surface (111).

4. The sliding door according to claim 2, wherein the base (131) is provided with a mounting hole (133), the second rotating member (120) passes through the mounting hole (133), and the mounting hole (133) is used for sleeving the base (131) on the second rotating member (120).

5. The sliding door according to claim 1, wherein the damping surface (111) is provided with a plurality of damping grooves (112) spaced from each other, the plurality of damping grooves (112) are arranged in a ring shape, and the damping member (130) is configured to slide relative to the plurality of damping grooves (112) when following the rotation of the second rotating member (120) relative to the first rotating member (110).

6. The sliding door according to claim 1, wherein the damping surface (111) is provided with a plurality of protrusions (113) spaced from each other, and the damping member (130) is configured to slide relative to the plurality of protrusions (113) when following the rotation of the second rotating member (120) relative to the first rotating member (110).

7. The sliding door according to any one of the claims 1 to 6, wherein the first rotating member (110) is provided with a mounting groove (114) penetrating through the damping surface (111), the second rotating member (120) extends into the mounting groove (114), and the damping member (130) is sleeved outside the second rotating member (120) and abuts against the damping surface (111).

8. The sliding door according to claim 7, wherein the second rotating member (120) comprises a first rotating part (121) and a second rotating part (122) connected to each other, the cross-sectional dimension of the first rotating part (121) is smaller than the cross-sectional dimension of the second rotating part (122), the first rotating part (121) extends into the assembly groove (114), the second rotating part (122) is connected to the door body or the indoor unit body, and the damping member (130) is sleeved outside the first rotating part (121) and is fixedly connected to the first rotating part (121) and/or the second rotating part (122).

9. The sliding door according to claim 8, wherein the end of the second rotating part (122) close to the first rotating part (121) is provided with a supporting surface (1221), and the damping member (130) is fixedly connected to the supporting surface (1221) and is located between the supporting surface (1221) and the damping surface (111).

10. An air conditioner characterized by comprising an indoor unit main body (200) and the sliding door (100) according to any one of claims 1 to 9, wherein one of the first rotating member (110) and the second rotating member (120) is connected to the door body (140), and the other is connected to the indoor unit main body (200).

11. The air conditioner according to claim 10, wherein the air conditioner (10) further comprises a first connecting member (300) and a second connecting member (400), the first connecting member (300) is detachably connected to the second connecting member (400), and the first rotating member (110) is provided on the first connecting member (300), and the second rotating member (120) is provided on the second connecting member (400).

12. The air conditioner according to claim 11, wherein the first connecting member (300) is connected to the door body (140), the second connecting member (400) is in transmission connection with a driving mechanism of the indoor unit main body (200), and the driving mechanism is configured to drive the door body (140) to slide relative to the indoor unit main body (200) through the second connecting member (400).

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