CN217031562U - Limiting device for movement of air conditioner panel and air conditioner - Google Patents

Abstract

The application relates to the technical field of refrigeration equipment, discloses a stop device and air conditioner for air conditioner panel motion for the stop device of air conditioner panel motion includes: the track plate is provided with a first track groove and a second track groove which are communicated, and the extending direction of the first track groove is intersected with the extending direction of the second track groove; one end of the first pin body is used for being connected with the panel, and the other end of the first pin body is located in the first rail groove and can move relative to the first rail groove; the second pin body is arranged at an interval with the first pin body, one end of the second pin body is used for being connected with the panel, and the other end of the second pin body is positioned in the second rail groove and can move relative to the second rail groove; the first rail groove limits the movement of the first pin body, the second rail groove limits the movement of the second pin body, and the extending direction of the first rail groove is intersected with the extending direction of the second rail groove, so that the first pin body and the second pin body drive the panel to rotate to change the movement direction of the panel.

Description

Limiting device for movement of air conditioner panel and air conditioner

Technical Field

The application relates to the technical field of refrigeration equipment, for example, relates to a limiting device for movement of an air conditioner panel and an air conditioner.

Background

The air conditioner is an electrical product widely used in life of people, plays an important role in indoor temperature regulation, can provide healthy and comfortable indoor environment for users, and meets the requirements of normal work, life and study.

The prior art discloses a movable door, which is used for covering an air outlet panel of an air conditioner and comprises a door body, a mounting assembly and a driving assembly. The mounting assembly comprises a first mounting piece and a second mounting piece which are respectively arranged at two ends of the door body, and the first mounting piece is movably connected with the air outlet panel; the driving assembly is connected with the second mounting assembly, the driving assembly is used for driving the second mounting assembly to rotate, and the second mounting member is used for driving the door body to move so as to open or close the air outlet of the air outlet panel.

In the process of implementing the embodiments of the present disclosure, it is found that at least the following problems exist in the related art:

the driving assembly drives the second mounting assembly to rotate, the second mounting assembly drives the door body (panel) to rotate, namely the door body (panel) rotates by taking the driving assembly as a circle center, the door body (panel) can only rotate in the moving process, and the moving direction of the door body (panel) is fixed.

SUMMERY OF THE UTILITY MODEL

The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview nor is intended to identify key/critical elements or to delineate the scope of such embodiments but rather as a prelude to the more detailed description that is presented later.

The embodiment of the disclosure provides a limiting device for movement of an air conditioner panel, which aims to solve the problem of how to change the movement direction of the panel.

According to an embodiment of a first aspect of the present application, there is provided a limiting device for movement of an air conditioning panel, the limiting device for movement of an air conditioning panel including: the track plate is provided with a first track groove and a second track groove which are communicated with each other, and the extending direction of the first track groove is intersected with the extending direction of the second track groove; one end of the first pin body is used for being connected with the panel, and the other end of the first pin body is located in the first rail groove and can move relative to the first rail groove; the second pin body is arranged at an interval with the first pin body, one end of the second pin body is used for being connected with the panel, and the other end of the second pin body is positioned in the second rail groove and can move relative to the second rail groove; the panel moves to drive the first pin body and the second pin body to move in the first rail groove and the second rail groove respectively so as to change the moving direction of the panel.

According to an embodiment of a second aspect of the present application, there is provided an air conditioner including: a panel; in the limiting device for the movement of the air conditioner panel, one end of the first pin body and one end of the second pin body are both connected with the panel.

The limiting device for the movement of the air conditioner panel and the air conditioner provided by the embodiment of the disclosure can realize the following technical effects:

one end of the first pin body is connected with the panel, the other end of the first pin body is located in the first rail groove and can move relative to the first rail groove, and when the panel moves, the panel drives the first pin body to move in the first rail groove. One end of the second pin body is connected with the panel, the other end of the second pin body is located in the second rail groove and can move relative to the second rail groove, and when the panel moves, the panel drives the second pin body to move in the second rail groove. The first pin body and the second pin body are arranged at intervals, namely, a gap is reserved between the first pin body and the second pin body, and the distance between the first pin body and the second pin body is fixed. The extending direction of the first rail groove is intersected with the extending direction of the second rail groove, namely the distance between the first pin body and the second pin body is gradually changed. The panel drives first round pin body and moves in first rail inslot, and when the second round pin body moved in the second rail inslot, the motion of first round pin body of first rail groove restriction, the motion of second round pin body of second rail groove restriction, the extending direction in first rail groove is crossing with the extending direction in second rail groove to make first round pin body and second round pin body drive the panel and rotate, in order to change the direction of motion of panel.

The foregoing general description and the following description are exemplary and explanatory only and are not restrictive of the application.

Drawings

One or more embodiments are illustrated in the accompanying drawings, which correspond to the accompanying drawings and not in a limiting sense, in which elements having the same reference numeral designations represent like elements, and in which:

fig. 1 is a schematic structural view of a panel of a limiting device for movement of an air conditioner panel at one position according to a first embodiment of the present disclosure;

FIG. 2 is a schematic structural diagram of a panel of a limiting device for air conditioner panel movement at another position according to a first embodiment of the disclosure;

fig. 3 is a schematic structural view of a panel of a limiting device for movement of an air conditioner panel in another position according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of an air conditioner according to a first embodiment of the present disclosure;

fig. 5 is a schematic structural diagram of a panel of a limiting device for air conditioner panel movement in one position according to a second embodiment of the disclosure;

fig. 6 is a schematic cross-sectional structural view of a limiting device for movement of an air conditioner panel according to a second embodiment of the present disclosure;

FIG. 7 is a schematic structural view of a panel of a limiting device for movement of an air conditioner panel at another position according to a second embodiment of the disclosure;

fig. 8 is a schematic structural view of a panel of a limiting device for movement of an air conditioner panel in one position according to a third embodiment of the present disclosure;

fig. 9 is a schematic structural view of a panel of a limiting device for movement of an air conditioner panel in another position according to a third embodiment of the disclosure;

fig. 10 is a schematic structural view of a panel of a limiting device for movement of an air conditioner panel in another position according to a third embodiment of the present disclosure.

Reference numerals:

10. a panel; 110. a first pin body; 120. a second pin body; 130. a third pin body; 20. a drive assembly; 210. a drive rod; 211. a groove; 220. a motor; 230. a gear; 240. a rack; 30. a track plate; 301. a first rail groove; 302. a second rail groove; 3021. a connecting end; 3022. a free end; 303. and a third rail groove.

Detailed Description

So that the manner in which the features and elements of the disclosed embodiments can be understood in detail, a more particular description of the disclosed embodiments, briefly summarized above, may be had by reference to the embodiments, some of which are illustrated in the appended drawings. In the following description of the technology, for purposes of explanation, numerous details are set forth in order to provide a thorough understanding of the disclosed embodiments. However, one or more embodiments may be practiced without these details. In other instances, well-known structures and devices may be shown in simplified form in order to simplify the drawing.

The terms "first," "second," and the like in the description and claims of the embodiments of the disclosure and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged as appropriate for the embodiments of the disclosure described herein. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions.

In the embodiments of the present disclosure, the terms "upper", "lower", "inner", "middle", "outer", "front", "rear", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the disclosed embodiments and their examples and are not intended to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation. Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meanings of these terms in the embodiments of the present disclosure may be understood as specific cases by those of ordinary skill in the art.

In addition, the terms "disposed," "connected," and "secured" are to be construed broadly. For example, "connected" may be a fixed connection, a detachable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. Specific meanings of the above terms in the embodiments of the present disclosure can be understood by those of ordinary skill in the art according to specific situations.

The term "and/or" is an associative relationship that describes objects, meaning that three relationships may exist. For example, a and/or B, represents: a or B, or A and B.

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments of the present disclosure may be combined with each other.

Example one

As shown in fig. 1 to 4, an embodiment of the present disclosure provides an air conditioner, which includes a panel 10 and a limiting device for movement of the panel of the air conditioner, the limiting device for movement of the panel of the air conditioner includes a first pin 110 and a second pin 120, and one end of the first pin 110 and one end of the second pin 120 are both connected to the panel 10.

The limiting device for the movement of the air conditioner panel provided by the embodiment of the present disclosure further includes a track plate 30. The track plate 30 is provided with a first track groove 301 and a second track groove 302 which are communicated with each other, and the extending direction of the first track groove 301 intersects with the extending direction of the second track groove 302. One end of the first pin body 110 is used to connect with the panel 10, and the other end of the first pin body 110 is located in the first rail groove 301 and can move relative to the first rail groove 301. The second pin 120 is spaced apart from the first pin 110, one end of the second pin 120 is used to connect to the panel 10, and the other end of the second pin 120 is located in the second track groove 302 and can move relative to the second track groove 302. The movement of the panel 10 drives the first pin 110 and the second pin 120 to move in the first rail groove 301 and the second rail groove 302, respectively, so as to change the moving direction of the panel 10.

With this alternative embodiment, one end of the first pin 110 is connected to the panel 10, and the other end of the first pin 110 is located in the first rail groove 301 and can move relative to the first rail groove 301, when the panel 10 moves, the panel 10 drives the first pin 110 to move in the first rail groove 301. One end of the second pin 120 is connected to the panel 10, and the other end of the second pin 120 is located in the second track groove 302 and can move relative to the second track groove 302, and when the panel 10 moves, the panel 10 drives the second pin 120 to move in the second track groove 302. The first pin body 110 and the second pin body 120 are spaced apart from each other, that is, a gap is formed between the first pin body 110 and the second pin body 120, and a distance between the first pin body 110 and the second pin body 120 is fixed. The extending direction of the first rail groove 301 intersects with the extending direction of the second rail groove 302, that is, the distance between the first pin body 110 and the second pin body 120 gradually changes. The panel 10 drives the first pin 110 to move in the first rail groove 301, when the second pin 120 moves in the second rail groove 302, the first rail groove 301 limits the movement of the first pin 110, the second rail groove 302 limits the movement of the second pin 120, and the extending direction of the first rail groove 301 intersects with the extending direction of the second rail groove 302, so that the first pin 110 and the second pin 120 drive the panel 10 to rotate, thereby changing the moving direction of the panel 10.

Alternatively, the panel 10 may be capable of reciprocating such that the first pin body 110 is capable of reciprocating within the first rail groove 301 and the second pin body 120 is capable of reciprocating within the second rail groove 302.

As shown in fig. 1-3, in some alternative embodiments, the first rail groove 301 is a straight groove and the second rail groove 302 is an arc-shaped groove.

With this alternative embodiment, the second rail groove 302 is an arc-shaped groove, the second pin 120 moves in the second rail groove 302, and the moving track of the second pin 120 is arc-shaped. The first rail groove 301 is a linear groove, and the first pin body 110 linearly moves in the first rail groove 301. First round pin body 110 carries out linear motion, and second round pin body 120 carries out arcuate motion, and under the combined action of first round pin body 110 and second round pin body 120, panel 10 can carry out the motion that moves while rotating, has changed the direction of motion of panel 10, makes the motion of panel 10 more nimble various.

Optionally, the two ends of the second rail groove 302 include a connection end 3021 and a free end 3022, and the connection end 3021 of the second rail groove 302 communicates with the middle portion of the first rail groove 301.

With this alternative embodiment, the first pin 110 moves within the first track 301 and the second pin 120 moves between the free end 3022 and the attachment end 3021 of the second track 302. When the second pin 120 moves to the connecting end 3021 of the second track groove 302, the connecting end 3021 of the second track groove 302 is connected to the middle of the first track groove 301, that is, the connecting end 3021 of the second track groove 302 is located in the first track groove 301, and at this time, the first pin 110 is located in the first track groove 301, the second pin 120 is also located in the first track groove 301, the first track groove 301 is a straight line groove, and the panel 10 is parallel to the first track groove 301. Thus, the panel 10 can move from a state of intersecting the first rail groove 301 to a state of being parallel to the first rail groove 301.

In this embodiment, the first rail groove 301 and the second rail groove 302 may be arranged according to a desired movement track of the panel 10, and are not limited in this embodiment.

As shown in fig. 1 and 2, in some alternative embodiments, during the process of moving the second pin 120 from the free end 3022 of the second track 302 to the connecting end 3021 of the second track 302, the first pin 110 moves from the first end of the first track 301 to the second end of the first track 301, and the distance between the connecting end 3021 of the second track 302 and the second end of the first track 301 is greater than or equal to the distance between the first pin 110 and the second pin 120.

With this alternative embodiment, the distance between the connecting end 3021 of the second track groove 302 and the second end of the first track groove 301 is greater than or equal to the distance between the first pin 110 and the second pin 120, which ensures that when the panel 10 moves to a state parallel to the first track groove 301, both the first pin 110 and the second pin 120 can be located in the first track groove 301, thereby ensuring the operation stability of the panel 10.

In some alternative embodiments, the orthographic projection of the second rail groove 302 on the first rail groove 301 is entirely within the first rail groove 301, with the free end 3022 of the second rail groove 302 making a perpendicular to the first rail groove 301, the length of the perpendicular line segment being equal to the distance between the first pin body 110 and the second pin body 120.

With this alternative embodiment, the free end 3022 of the second track groove 302 is perpendicular to the first track groove 301, and the length of the perpendicular line segment is equal to the distance between the first pin 110 and the second pin 120, i.e., when the second pin 120 is located at the free end 3022 of the second track groove 302, the first pin 110 is located at the foot of the perpendicular line segment in the first track groove 301. The orthographic projection of the second rail groove 302 on the first rail groove 301 is entirely located within the first rail groove 301, thereby ensuring that the perpendicular segment at the foot of the first rail groove 301 will fall into the first rail groove 301. At this time, the panel 10 is vertically disposed to the first rail groove 301, so that the panel 10 can be rotated by 90 degrees during the movement.

As shown in fig. 4, optionally, the air conditioner provided in the embodiment of the present disclosure is provided with an outlet, and the panel 10 is provided at the outlet to open or close the outlet.

The panel 10 is disposed at the air outlet, and can open or close the air outlet for shielding and protecting the air outlet. When the air conditioner is closed, the panel 10 shields the air outlet, so that external dust and impurities are prevented from entering the air conditioner through the air outlet. When the air conditioner is turned on, the panel 10 exposes the air outlet to allow the air conditioner to discharge air.

As shown in fig. 1 to fig. 3, optionally, the limiting device for the movement of the air conditioner panel further includes a driving assembly 20 and a third pin 130, the third pin 130 is connected to the panel 10, the driving assembly 20 is connected to the third pin 130, and the driving assembly 20 can drive the third pin 130 to move, so as to drive the panel 10 to move.

In some alternative embodiments, the first pin body 110, the third pin body 130, and the second pin body 120 are sequentially disposed at intervals in the width direction of the panel 10.

Here, the width direction of the panel 10 refers to a left-right direction when the panel 10 closes the outlet 401.

With this alternative embodiment, the third pin 130 is connected to the driving assembly 20, and the driving assembly 20 drives the third pin 130 to move so as to drive the panel 10 to move. The panel 10 moves to drive the first pin 110 and the second pin 120 to move along the first rail groove 301 and the second rail groove 302, respectively. The first pin body 110, the third pin body 130 and the second pin body 120 are sequentially arranged at intervals, that is, the first rail groove 301 is arranged between the second rail groove 302 and the third rail groove 303, so that the stress of the panel 10 is more reasonable, and the service life of the panel 10 is prolonged.

Optionally, the panel 10 protrudes toward the driving assembly 20 to form a boss, and the third pin 130 is disposed on the boss.

With this alternative embodiment, the third pin 130 is connected to the driving assembly 20, and the driving assembly 20 drives the third pin 130 to move, and the third pin 130 drives the panel 10 to move. In the process of moving the panel 10, the third pin 130 is stressed greatly, the panel 10 protrudes toward the driving assembly 20 to form a boss, and the third pin 130 is disposed on the boss. This can increase the connection stability of the third pin 130 of the panel 10, and improve the service life of the panel 10.

In some alternative embodiments, drive assembly 20 includes a drive rod 210. The driving lever 210 is provided with a groove 211, and the extending direction of the groove 211 intersects with the extending direction of the first rail groove 301. The third pin 130 is located in the groove 211 and abuts against the side wall of the groove 211, and the third pin 130 can move relative to the groove 211.

With this alternative embodiment, the driving assembly 20 includes a driving rod 210, the driving rod 210 is provided with a groove 211, and the third pin 130 is located in the groove 211 and abuts against a side wall of the groove 211. The third pin 130 abuts against the side wall of the groove 211, and when the driving rod 210 moves, the side wall of the groove 211 drives the third pin 130 to move. When the first pin 110 moves in the first rail groove 301, the third pin 130 is restricted from moving the panel 10, so that the panel 10 rotates, and the center of the circle when the panel 10 rotates is not fixed. In the process of rotating the panel 10 while moving, the center of the circle of the panel 10 is not fixed, and the distance between the third pin 130 and the first pin 110 is fixed, which may result in the driving rod 210 not driving the panel 10 to move. The extending direction of the groove 211 is intersected with the extending direction of the first rail groove 301, and the third pin body 130 can move relative to the groove 211, so that the force transmission point of the side wall of the groove 211 to the third pin body 130 can be adjusted by the groove 211, the distance between the force transmission point of the side wall of the groove 211 to the third pin body 130 and the first pin body 110 meets the distance between the third pin body 130 and the first pin body 110, the panel 10 can normally move, and the operation feasibility of the limiting device for the movement of the air conditioner panel is improved.

Alternatively, the extending direction of the groove 211 intersects the moving direction of the driving lever 210.

By adopting the optional embodiment, the space in the air conditioner is limited, the extending direction of the groove 211 is intersected with the moving direction of the driving rod 210, and the extending direction of the groove 211 and the moving direction of the driving rod 210 can be adjusted according to the actual condition in the air conditioner, so that the space in the air conditioner is saved, and the internal layout of the air conditioner is more reasonable.

Optionally, the sidewalls of the recess 211 include opposing first and second sidewalls. When the driving lever 210 moves in the first direction, the third pin body 130 abuts against the first sidewall and can move relative to the first sidewall. When the driving rod 210 moves in the second direction, the third pin 130 abuts against the second sidewall and can move relative to the second sidewall. Wherein the first direction is opposite to the second direction.

With this alternative embodiment, the driving rod 210 can drive the third pin 130 to reciprocate, that is, drive the panel 10 to reciprocate, so as to open or close the air outlet by the panel 10.

In some alternative embodiments, the driving assembly 20 further includes a motor 220, the motor 220 includes a rotating shaft connected to one end of the driving rod 210, the rotating shaft drives the driving rod 210 to rotate in a plane parallel to the plane of the track plate 30, and the other end of the driving rod 210 is provided with a groove 211.

With this alternative embodiment, the rotation shaft drives the driving rod 210 to rotate in a plane parallel to the plane of the track plate 30, and the driving rod 210 rotates to drive the third pin 130 to move, so as to drive the panel 10 to move. The application provides a stop device for air conditioner panel motion can be according to the difference of air conditioner inner space, and different drive arrangement is selected to adaptability, and the compatibility is stronger, and the air conditioner that can the adaptation is more.

Optionally, the groove 211 extends along the length of the drive rod 210.

Optionally, an avoidance groove is formed on a side wall of the second rail groove 302 and/or a side wall of the first rail groove 301 to avoid the driving assembly 20.

By adopting the optional embodiment, the motor 220 drives the driving rod 210 to rotate, the range swept by the rotation of the driving rod 210 is large, the driving rod 210 collides with the second guide slot 302 or the first guide slot 301 in the rotating process, and the side wall of the second rail slot 302 and/or the side wall of the first rail slot 301 are/is provided with an avoidance slot so as to avoid the driving rod 210, so that the driving assembly 20 can normally operate.

The air conditioner provided by the embodiment of the present disclosure includes the limiting device for movement of the air conditioner panel in any one of the above embodiments, so that all the beneficial effects of the limiting device for movement of the air conditioner panel in any one of the above embodiments are achieved, and details are not repeated herein.

The second embodiment is different from the first embodiment in that,

as shown in fig. 5 to 7, in some alternative embodiments, the first rail groove 301 and the second rail groove 302 are arranged to intersect, and the middle portion of the first rail groove 301 communicates with the middle portion of the second rail groove 302.

With this alternative embodiment, the first pin 110 moves within the first track 301 and the second pin 120 moves between the free end 3022 and the attachment end 3021 of the second track 302. The first rail groove 301 and the second rail groove 302 are arranged in a crossed manner, and the middle of the first rail groove 301 is communicated with the middle of the second rail groove 302, so that the panel 10 can also rotate in the moving process, and the moving diversity of the panel 10 is increased.

In some alternative embodiments, the depth of the first rail groove 301 is greater than the depth of the second rail groove 302, and the length of the first pin 110 located in the first rail groove 301 is greater than the depth of the second rail groove 302.

With this alternative embodiment, the first rail groove 301 intersects the second rail groove 302, and during the movement of the panel 10, the first pin 110 moves to the intersection of the first rail groove 301 and the second rail groove 302. When the first pin 110 moves to the intersection of the first rail groove 301 and the second rail groove 302, the length of the first pin 110 in the first rail groove 301 is greater than the depth of the second rail groove 302, and because of the length limitation of the first pin 110, the first pin 110 cannot move into the second rail groove 302, so that the panel 10 cannot move when the first pin 110 moves into the second rail groove 302 is avoided, and the operation reliability of the panel 10 is ensured.

Optionally, the diameter of the second pin body 120 is greater than the width of the first rail groove 301.

With this alternative embodiment, when the second pin 120 moves to the intersection of the first rail groove 301 and the second rail groove 302, the diameter of the second pin 120 is greater than the width of the first rail groove 301, and due to the diameter limitation of the second pin 120, the second pin 120 cannot move into the first rail groove 301, so that the panel 10 cannot move when the second pin 120 moves into the first rail groove 301 is avoided, and the operational reliability of the panel 10 is ensured.

Optionally, the limiting device for the movement of the air conditioner panel further includes a driving assembly 20, the driving assembly 20 is connected to the first pin 110, and the driving assembly 20 can drive the first pin 110 to move, so as to drive the panel 10 to move.

Optionally, the first pin 110 is located in the groove 211 and abuts against a sidewall of the groove 211, and the first pin 110 is capable of moving relative to the groove 211.

By adopting the optional embodiment, the driving assembly 20 drives the first pin body 110 to move so as to drive the panel 10 to move, meanwhile, the first pin body 110 is located in the first rail groove 301, the first pin body 110 moves along the first rail groove 301 under the driving of the driving assembly 20, and the first rail groove 301 has a limiting effect on the first pin body 110. The first rail groove 301 is communicated with the second rail groove 302, and the extending direction of the first rail groove 301 intersects with the extending direction of the second rail groove 302, that is, the extending direction of the first rail groove 301 is different from the extending direction of the second rail groove 302, and a bevel is arranged at the communicating position of the first rail groove 301 and the second rail groove 302. The extending direction of the first rail groove 301 is different from the extending direction of the second rail groove 302, and when the first pin 110 and the second pin 120 move in the first rail groove 301 and the second rail groove 302, respectively, the first pin 110 and the second pin 120 both limit the moving direction of the panel 10, so that the panel 10 moves according to the preset moving track. The specific groove type and extending direction of the first rail groove 301 and the second rail groove 302 may be set according to the required movement track of the panel 10, and are not limited in detail. The first pin 110 is connected to the driving assembly 20 and located in the first rail groove 301, and the first pin 110 drives the panel 10 to move and simultaneously limits the movement of the panel 10, so that the limiting device for the movement of the air conditioner panel is simpler in structure and convenient to install and manufacture.

As shown in fig. 5 and 6, in some alternative embodiments, the panel 10, the driving rod 210 and the track plate 30 are sequentially arranged along a direction of the panel 10 toward the first pin body 110, one end of the first pin body 110 is connected to the panel 10, and the other end of the first pin body 110 is inserted into the groove 211 and then is located in the first track groove 301.

By adopting the optional embodiment, the other end of the first pin body 110 is arranged in the first rail groove 301 after penetrating through the groove 211, the side wall of the groove 211 provides driving force for the first pin body 110, the first rail groove 301 and the panel 10 provide resistance for the first pin body 110, and the driving force is between the two resistances, so that the stress of the first pin body 110 is reasonable, and the service life of the panel 10 is prolonged.

As shown in fig. 6, the driving assembly 20 optionally further includes a motor 220, a gear 230, and a rack 240. The gear 230 is connected to the motor 220, and the motor 220 is used for driving the gear 230 to rotate. The rack 240 is engaged with the gear 230, and the gear 230 rotates to drive the rack 240 to move. The driving rod 210 is provided to the rack 240, and the extending direction of the groove 211 intersects with the moving direction of the rack 240.

With this alternative embodiment, the motor 220 rotates the gear 230, and the gear 230 rotates to drive the rack 240 to move linearly. The driving rod 210 is disposed on the rack 240, and the rack 240 drives the driving rod 210 to perform a linear motion. The extending direction of the groove 211 intersects with the moving direction of the rack 240, so that the first pin body 110 can move relative to the groove 211.

The third embodiment is different from the first and second embodiments in that,

as shown in fig. 8 to 10, in some alternative embodiments, one end of the first rail groove 301 communicates with one end of the second rail groove 302, and the first rail groove 301 extends away from the second rail groove 302.

With this alternative embodiment, the first pin 110 moves within the first track groove 301 and the second pin 120 moves within the second track groove 302. The one end of first rail groove 301 is linked together with the one end of second rail groove 302, and first rail groove 301 extends to the direction of keeping away from second rail groove 302, makes panel 10 pivoted angle less like this, and the distance that panel 10 removed at the in-process of motion is great, has satisfied the needs of the different movement tracks of panel 10, has increased the variety of panel 10 motion.

In some alternative embodiments, the track plate 30 is further provided with a third track groove 303, one end of the third track groove 303 is communicated with the other end of the second track groove 302, and the extending direction of the third track groove 303 intersects with the extending direction of the second track groove 302; the first pin 110 is also able to be located within the second track groove 302 and move relative to the second track groove 302, and the second pin 120 is also able to be located within the third track groove 303 and move relative to the third track groove 303; while the first pin 110 moves from the second rail groove 302 to the first rail groove 301, the second pin 120 moves from the third rail groove 303 to the second rail groove 302.

With this alternative embodiment, the first pin 110 can move in the second slot 302, the second pin 120 can move in the third slot 303, the extending direction of the third slot 303 intersects with the extending direction of the second slot 302, the second slot 302 limits the movement of the first pin 110, and the third slot 303 limits the movement of the second pin 120, so that the first pin 110 and the second pin 120 can drive the panel 10 to rotate. In this way, two rotations of the panel 10 can be made. In the process that the first pin body 110 moves from the second rail groove 302 to the first rail groove 301, the second pin body 120 moves from the third rail groove 303 to the second rail groove 302, so that the utilization rate of the second rail groove 302 can be improved, and the structure of the limiting device for the movement of the air conditioner panel is simpler.

Optionally, the length of the first rail groove 301 is greater than the distance between the first pin body 110 and the second pin body 120, so that the panel 10 can move within the first rail groove 301 along the extending direction of the first rail groove 301.

Optionally, the length of the third rail groove 303 is greater than the distance between the first pin body 110 and the second pin body 120, so that the panel 10 can move in the third rail groove 303 along the extending direction of the third rail groove 303.

In some alternative embodiments, the third rail groove 303 extends in the same direction as the first rail groove 301.

With this alternative embodiment, the other end of the second pin 120 is connected to one end of the third groove 303, and the first pin 110 is located in the third groove 303 when located at the other end of the second groove 302, and at this time, the second pin 120 is located in the third groove 303, and the panel 10 is parallel to the extending direction of the third groove 303. One end of the second pin 120 is connected to one end of the second pin 120, and the second pin 120 is located in the first track groove 301 when located in one end of the second track groove 302, and at this time, the first pin 110 is located in the first track groove 301, and the panel 10 is parallel to the extending direction of the first track groove 301. The third rail 303 extends in the same direction as the first rail 301, that is, the panel 10 in the initial position and the panel 10 in the final position may be made parallel to each other during one movement of the panel 10.

The above description and drawings sufficiently illustrate embodiments of the disclosure to enable those skilled in the art to practice them. Other embodiments may include structural and other changes. The examples merely typify possible variations. Individual components and functions are optional unless explicitly required, and the sequence of operations may vary. Portions and features of some embodiments may be included in or substituted for those of others. The embodiments of the present disclosure are not limited to the structures that have been described above and illustrated in the drawings, and various modifications and changes can be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. A stop device for air conditioner panel motion, comprising:

the track plate (30) is provided with a first track groove (301) and a second track groove (302) which are communicated with each other, and the extending direction of the first track groove (301) is crossed with the extending direction of the second track groove (302);

a first pin body (110), one end of the first pin body (110) is used for connecting with the panel (10), and the other end of the first pin body (110) is positioned in the first rail groove (301) and can move relative to the first rail groove (301);

the second pin body (120) is arranged at an interval with the first pin body (110), one end of the second pin body (120) is used for being connected with the panel (10), and the other end of the second pin body (120) is positioned in the second rail groove (302) and can move relative to the second rail groove (302);

the panel (10) moves to drive the first pin body (110) and the second pin body (120) to move in the first rail groove (301) and the second rail groove (302) respectively, so that the moving direction of the panel (10) is changed.

2. The restricting device for movement of an air conditioner panel according to claim 1,

the first rail groove (301) is a straight line groove, and the second rail groove (302) is an arc line groove.

3. The limiting device for movement of an air conditioning panel according to claim 1 or 2,

the two ends of the second rail groove (302) comprise a connecting end (3021) and a free end (3022), and the connecting end (3021) is communicated with the middle of the first rail groove (301).

4. The limiting device for movement of an air conditioning panel according to claim 3,

during the process that the second pin body (120) moves from the free end (3022) to the connecting end (3021), the first pin body (110) moves from the first end of the first track groove (301) to the second end of the first track groove (301), and the distance between the connecting end (3021) and the second end of the first track groove (301) is greater than or equal to the distance between the first pin body (110) and the second pin body (120).

5. A restrictor device for air conditioner panel movement as claimed in claim 3,

the orthographic projection of the second rail groove (302) on the first rail groove (301) is totally positioned in the first rail groove (301), a perpendicular line is drawn from the free end (3022) to the first rail groove (301), and the length of the perpendicular line is equal to the distance between the first pin body (110) and the second pin body (120).

6. The limiting device for movement of an air conditioning panel according to claim 1 or 2,

the first rail groove (301) and the second rail groove (302) are arranged in a crossed mode, and the middle of the first rail groove (301) is communicated with the middle of the second rail groove (302).

7. The limiting device for movement of an air conditioning panel according to claim 6,

the depth of the first rail groove (301) is larger than that of the second rail groove (302), and the length of the first pin body (110) in the first rail groove (301) is larger than that of the second rail groove (302).

8. The limiting device for movement of an air conditioning panel according to claim 1 or 2,

one end of the first rail groove (301) is communicated with one end of the second rail groove (302), and the first rail groove (301) extends towards the direction far away from the second rail groove (302).

9. The spacing device for air conditioner panel movement according to claim 8, wherein the track plate (30) is further provided with:

a third rail groove (303), wherein one end of the third rail groove (303) is communicated with the other end of the second rail groove (302), and the extending direction of the third rail groove (303) is intersected with the extending direction of the second rail groove (302);

the first pin (110) is further capable of being located within the second track groove (302) and moving relative to the second track groove (302), the second pin (120) is further capable of being located within the third track groove (303) and moving relative to the third track groove (303);

during the process that the first pin body (110) moves from the second rail groove (302) to the first rail groove (301), the second pin body (120) moves from the third rail groove (303) to the second rail groove (302).

10. An air conditioner, comprising:

a panel (10);

the spacing device for air conditioner panel movement according to any one of claims 1 to 9, wherein one end of the first pin body (110) and one end of the second pin body (120) are connected to the panel (10).

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