CN113091291B - Sealing component, air guide mechanism, bottom shell structure and air conditioner - Google Patents

Abstract

The invention provides a sealing component, an air guide mechanism, a bottom shell structure and an air conditioner, wherein the sealing component is suitable for the bottom shell of the air conditioner, the air guide mechanism of the air conditioner is connected with the upper edge of an air outlet of the bottom shell, an avoiding groove for avoiding a swing rod of the air guide mechanism is arranged at the upper edge of the air outlet of the bottom shell, the sealing component is used for being installed at the avoiding groove, and the sealing component comprises: the shielding part is used for shielding at least part of the avoiding groove; the avoidance part is used for avoiding the movement of the swing rod, and the sealing part solves the problem that condensation is easily caused at the upper edge of the air outlet when the air guide mechanism of the air conditioner in the prior art is arranged at the upper edge of the air outlet.

Description

Sealing component, air guide mechanism, bottom shell structure and air conditioner

Technical Field

The invention relates to the field of air conditioners, in particular to a sealing component, an air guide mechanism, a bottom shell structure and an air conditioner.

Background

The air guide mechanism of the wall-mounted air conditioner in the prior art is mostly arranged on the lower edge of an air outlet of a bottom shell of the air conditioner, a large avoiding groove is arranged at the corresponding position of the lower edge of the air outlet of the bottom shell matched with the air guide mechanism for ensuring the rotary operation of the air guide mechanism when the air outlet is arranged on the upper edge of the air outlet, the appearance attractiveness of the air outlet of the air conditioner is influenced by the existence of the avoiding groove, and the grade of a low product is indirectly reduced.

In addition, when the air guide mechanism is placed at the upper edge of the air outlet, the existence of the avoiding groove which is arranged at the upper edge of the air outlet of the bottom shell of the air conditioner and used for avoiding the swing rod of the air guide mechanism can cause the air current coming out from the air outlet to flow into the structure at the upper edge of the air outlet, so that the condensation phenomenon occurs at the upper edge of the air outlet.

Disclosure of Invention

The invention mainly aims to provide a sealing component, an air guide mechanism, a bottom shell structure and an air conditioner, and aims to solve the problem that condensation is easily caused at the upper edge of an air outlet when the air guide mechanism of the air conditioner in the prior art is arranged at the upper edge of the air outlet.

In order to achieve the above object, according to a first aspect of the present invention, there is provided a sealing member adapted for a bottom case of an air conditioner, wherein an air guiding mechanism of the air conditioner is connected to an upper edge of an air outlet of the bottom case, an avoiding groove for avoiding a swing link of the air guiding mechanism is provided at the upper edge of the air outlet of the bottom case, the sealing member is configured to be installed at the avoiding groove, the sealing member includes: the shielding part is used for shielding at least part of the avoidance groove; and the yielding part is used for avoiding the movement of the swing rod.

Furthermore, the shielding part is a first baffle plate which is detachably arranged at the avoidance groove so as to block the part of the avoidance groove; the avoidance part is a second baffle, one end of the second baffle is connected with the swing rod in a sliding mode, the other end of the second baffle is connected with the first baffle in a sliding mode, the second baffle slides relative to the swing rod and the first baffle under the driving of the swing rod, the swing rod moves to avoid, and the rest of the avoidance groove is blocked.

Furthermore, a first sliding groove is formed in the first baffle plate, and a first sliding shaft matched with the first sliding groove is arranged at one end, far away from the swing rod, of the second baffle plate, so that relative movement of the second baffle plate and the first baffle plate is achieved through sliding of the first sliding shaft in the first sliding groove.

Furthermore, a second sliding shaft is arranged at one end, close to the swing rod, of the second baffle plate, the second sliding shaft is matched with a second sliding groove formed in the swing rod, so that the second sliding shaft of the second baffle plate is driven to slide in the second sliding groove through the swing of the swing rod, and the movement of the second baffle plate is achieved.

Furthermore, one end, far away from the second baffle, of the first baffle is provided with a bayonet structure, and the bayonet structure is matched with an assembly shaft structure arranged on one side, far away from the swing rod, of the avoidance groove, so that the first baffle is matched with the avoidance groove in a clamping mode through the bayonet structure and the assembly shaft structure.

Furthermore, the shielding part is a shielding structure corresponding to the avoiding groove, the avoiding part comprises an avoiding hole structure arranged in the middle of the shielding structure, and the avoiding hole structure is arranged corresponding to the swing rod so that the swing rod penetrates through the avoiding hole structure.

Furthermore, the dodging portion further comprises two slot opening structures, the two slot opening structures are arranged on the shielding structure and are respectively located on two sides of the opposite swing rod of the dodging hole structure, and therefore the swing rod can move in a dodging mode.

Further, the shielding structure is a sheet matched with the notch of the avoidance groove; and/or the sealing member is made of a flexible material.

According to a second aspect of the present invention, there is provided an air guiding mechanism, comprising a rotating shaft and a swing link disposed on the rotating shaft, the air guiding mechanism being disposed at an upper edge of an air outlet of a bottom case of an air conditioner, the air guiding mechanism being adapted to the sealing member.

Further, the sealing component is the sealing component, a second sliding groove is formed in the swing rod, and the second sliding groove is used for being matched with a second sliding shaft of a second baffle of the sealing component.

According to a third aspect of the present invention, there is provided a bottom shell structure, including a bottom shell and an air guiding mechanism disposed on the bottom shell, where the air guiding mechanism is the above air guiding mechanism, the air guiding mechanism is disposed at an upper edge of an air outlet of the bottom shell, an avoiding groove for avoiding a swing rod of the air guiding mechanism is disposed at the upper edge of the air outlet of the bottom shell, and the air conditioner further includes the above sealing member, and the sealing member is disposed corresponding to the avoiding groove and used for shielding the avoiding groove.

Further, the sealing component is the sealing component, and the bottom shell is provided with an assembling shaft structure which is used for being matched with the bayonet structure of the first baffle plate of the sealing component.

According to a fourth aspect of the present invention, an air conditioner is provided, which includes a bottom case structure, wherein the bottom case structure is the above bottom case structure.

By applying the technical scheme of the invention, the air guide mechanism is provided with the sealing component for sealing the avoiding groove at the upper edge of the air outlet of the bottom shell of the air conditioner when the air guide mechanism is arranged at the upper edge of the air outlet of the bottom shell, and the sealing component comprises: the shielding part is used for shielding at least part of the avoiding groove; let the position portion, a motion for dodging the pendulum rod, in order when guaranteeing that air guiding mechanism has sufficient motion space, thereby reduce the air current and enter into the emergence of the phenomenon of the last edge department of air outlet production condensation through dodging the groove, the air guiding mechanism setting of the air conditioner among the prior art leads to the problem that condensation appears in the last edge department of air outlet when the last edge department of air outlet easily, sealing member can shelter from and dodge the groove simultaneously, in order to play the effect of the outward appearance of the last edge department of beautifying the air outlet, promote the product grade of air conditioner.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 shows a schematic structural view of a first embodiment of the seal member of the present invention;

FIG. 2 is a schematic view showing the construction of a first baffle of the first embodiment of the seal member shown in FIG. 1;

FIG. 3 is a schematic view showing the construction of a second barrier of the first embodiment of the sealing member shown in FIG. 1;

fig. 4 is a schematic structural view showing an assembly of an air guide mechanism and a bottom case of an air conditioner having a first embodiment of a sealing member shown in fig. 1;

fig. 5 is a sectional view showing an assembly of the air guide mechanism and the bottom case of the air conditioner shown in fig. 4 in one direction;

fig. 6 is a partially enlarged view at a of an assembly of the air guide mechanism and the bottom case of the air conditioner shown in fig. 5;

fig. 7 is a sectional view of an assembly of the air guide mechanism and the bottom case of the air conditioner shown in fig. 4, taken in another direction;

FIG. 8 is a schematic structural view showing a second embodiment of the sealing member of the present invention;

FIG. 9 illustrates a front view of a second embodiment of the seal member shown in FIG. 8;

fig. 10 is a sectional view showing an assembly of an air guide mechanism and a bottom case of an air conditioner having a second embodiment of a sealing member shown in fig. 8; and

fig. 11 is a schematic structural view of the air guiding mechanism (the second chute is not shown on the swing link) of the present invention.

Wherein the figures include the following reference numerals:

10. a bottom case; 101. an avoidance groove; 1011. assembling a shaft structure; 20. an air guide mechanism; 1. a rotating shaft; 2. a swing rod; 21. a second chute; 3. a sealing member; 31. a first baffle plate; 311. a first chute; 312. a bayonet structure; 32. a second baffle; 321. a first sliding shaft; 322. a second sliding shaft; 33. a shielding structure; 331. a relief hole structure; 332. a slot structure; 4. an air deflector.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

As shown in fig. 1 to 11, the present invention provides a sealing member 3, which is suitable for a bottom case 10 of an air conditioner, wherein an air guiding mechanism 20 of the air conditioner is connected to an upper edge of an air outlet of the bottom case 10, an avoiding groove 101 for avoiding a swing rod 2 of the air guiding mechanism 20 is disposed at the upper edge of the air outlet of the bottom case 10, the sealing member 3 is configured to be installed at the avoiding groove 101, and the sealing member 3 includes: a shielding portion for shielding at least a part of the avoidance groove 101; and the yielding part is used for avoiding the movement of the swing rod 2.

The present invention provides a sealing member 3 for sealing an escape groove 101 at an upper edge of an air outlet of a bottom case 10 of an air conditioner when an air guide mechanism 20 is provided at the upper edge of the air outlet of the bottom case 10, the sealing member 3 including: a shielding portion for shielding at least a part of the avoidance groove 101; let the position portion, be used for dodging the motion of pendulum rod 2, in order to guarantee that air guiding mechanism 20 has sufficient motion space, thereby reduce the air current and enter into the emergence of the phenomenon of the last edge department of air outlet production condensation through dodging groove 101, the air guiding mechanism of the air conditioner among the prior art sets up the problem that the condensation appears in the last edge department that leads to the air outlet easily when the last edge department of air outlet, sealing member 3 can shelter from and dodge groove 101 simultaneously, in order to play the effect of the outward appearance of the last edge department of beautifying the air outlet, promote the product grade of air conditioner.

The term "upper" in the "upper direction" referred to in this application is an orientation when the air guide mechanism is in an installed state (i.e., in a use state).

Specifically, an air outlet is arranged on the bottom shell 10, the bottom shell 10 includes an upper edge and a lower edge for enclosing the air outlet, the upper edge is located on one side of the lower edge far from the ground, the rotating shaft 1 is located at a position close to the upper edge of the air outlet, and two ends of the rotating shaft 1 are connected with the bottom shell 10. It can be seen that the "upper edge" mentioned in the present invention refers to a side of the lower wall surface of the air outlet (including the case where the axis of the rotating shaft 1 is located on the plane or curved surface where the upper wall surface of the air outlet is located) where the upper wall surface of the air outlet is far away from the lower wall surface of the air outlet.

The invention arranges the air guide mechanism 20 at the upper edge of the air outlet, so that the air deflector 4 of the air guide mechanism 20 can move to a higher position above the air outlet to blow out the air from the higher position of the air outlet, thereby avoiding the phenomenon that cold air directly blows people, solving the problem of poor comfort performance of the air conditioner in the prior art,

as shown in fig. 11, a schematic configuration diagram of the air guide mechanism 20 according to the present invention is shown when the air guide plate 4 is attached.

As shown in fig. 1 to 7, in the first embodiment of the sealing member 3 of the present invention, the shielding portion is a first blocking plate 31, and the first blocking plate 31 is detachably installed at the avoiding groove 101 to block a portion of the avoiding groove 101; the avoidance part is a second baffle 32, one end of the second baffle 32 is connected with the swing rod 2 in a sliding manner, and the other end of the second baffle 32 is connected with the first baffle 31 in a sliding manner, so that the second baffle 32 slides relative to the swing rod 2 and the first baffle 31 under the driving of the swing rod 2 to avoid the movement of the swing rod 2, and the rest part of the avoidance groove 101 is blocked.

Specifically, the first sliding groove 311 is disposed on the first blocking plate 31, and a first sliding shaft 321 engaged with the first sliding groove 311 is disposed at an end of the second blocking plate 32 away from the swing rod 2, so as to realize the relative movement between the second blocking plate 32 and the first blocking plate 31 through the sliding of the first sliding shaft 321 in the first sliding groove 311.

The number of the first sliding grooves 311 is two, the two first sliding grooves 311 are respectively located at two opposite sides of the air guiding mechanism of the first baffle 31, correspondingly, the number of the first sliding shafts 321 is also two, and the two first sliding shafts 321 correspond to the two first sliding grooves 311 one by one and are respectively installed in the corresponding first sliding grooves 311.

The first sliding chute 311 has a strip-shaped chute structure, and the first sliding shaft 321 slides along the extending direction of the corresponding strip-shaped chute structure to overlap a portion of the second barrier plate 32 with the first barrier plate 31 or separate from the first barrier plate 31 to realize relative movement of the first barrier plate 31 and the second barrier plate 32, so that the portion avoiding the chute 101 is shielded by the first barrier plate 31 and the second barrier plate 32.

Specifically, one end of the second baffle 32 close to the swing link 2 is provided with a second sliding shaft 322, and the second sliding shaft 322 is adapted to the second sliding slot 21 of the swing link 2, so as to drive the second sliding shaft 322 of the second baffle 32 to slide in the second sliding slot 21 through the swing of the swing link 2, so as to realize the movement of the second baffle 32.

The two second sliding chutes 21 are respectively located at two opposite sides of the air guiding mechanism of the swing rod 2, correspondingly, the two second sliding shafts 322 are also two, and the two second sliding shafts 322 correspond to the two second sliding chutes 21 one by one, so as to be respectively installed in the corresponding second sliding chutes 21.

The second sliding chute 21 is an arc-shaped chute structure, and the second sliding shaft 322 slides along the extending direction of the corresponding arc-shaped chute structure, so as to realize the relative movement of the swing link 2 and the second baffle 32, and drive the second baffle 32 to move relative to the swing link 2 and the first baffle 31 through the movement of the swing link 2, so that a part of the second baffle 32 is overlapped with the first baffle 31 or separated from the first baffle 31, and the rest part of the avoiding groove 101 except for the part for avoiding the swing link 2 is shielded as much as possible while abdicating the movement of the swing link 2.

One end of the first baffle 31, which is far away from the second baffle 32, is provided with a bayonet structure 312, and the bayonet structure 312 is matched with an assembling shaft structure 1011 arranged on one side of the avoiding groove 101, which is far away from the swing rod 2, so that the first baffle 31 and the avoiding groove 101 are clamped through the matching of the bayonet structure 312 and the assembling shaft structure 1011.

Specifically, the bayonet structure 312 is an installation opening having an opening facing the direction of the first baffle 31 far away from the second baffle 32, while an assembly shaft structure 1011 is disposed on one side of the avoiding groove 101 of the bottom case 10 far away from the swing rod 2, the bayonet structure 312 is disposed corresponding to the assembly shaft structure 1011, and the assembly shaft structure 1011 is inserted into the installation opening of the bayonet structure 312 through the opening of the bayonet structure 312, so that the first baffle 31 is directly clamped at the avoiding groove 101 on the bottom case 10, thereby ensuring the reliability of the installation of the first baffle 31 and the second baffle 32.

As shown in fig. 8 to 10, in a second embodiment of the sealing member 3 of the present invention, the shielding portion is a shielding structure 33 corresponding to the avoiding groove 101, the avoiding portion includes a avoiding hole structure 331 disposed in the middle of the shielding structure 33, and the avoiding hole structure 331 is disposed corresponding to the swing link 2 so that the swing link 2 passes through the avoiding hole structure 331.

Specifically, the size of the avoiding hole structure 331 corresponds to the cross-sectional size of the swing link 2, so that the swing link 2 can pass through the avoiding hole structure 331 from one side of the shielding structure 33 and then reach the other side of the shielding structure 33.

Specifically, the avoiding portion further includes two slot structures 332, and the two slot structures 332 are disposed on the shielding structure 33 and respectively located on two opposite sides of the opposite swing rod of the avoiding hole structure 331, so as to avoid the movement of the swing rod 2.

Specifically, the gap width of the two slot structures 332 is smaller than the width of the avoiding hole structure 331, that is, smaller than the thickness of the swing rod 2, the extending direction of the two slot structures 332 is parallel to the moving direction of the swing rod 2, and the two slot structures 332 are arranged to avoid the movement of the swing rod 2 under the condition that the size of the avoiding hole structure 331 is sufficiently small, ensure the sealing performance of the avoiding groove 101, and block the airflow from reaching the upper edge of the air outlet as much as possible.

Preferably, the shielding structure 33 is a thin sheet matched with the notch of the avoidance groove 101; and/or the sealing member 3 is made of a flexible material.

Specifically, the sealing member 3 is made of a rubber material, and the shielding structure 33 of the sealing member 3, which is matched with the notch of the avoiding groove 101, is a thin sheet, so that the swing of the swing link 2 is not affected.

As shown in fig. 11, the present invention provides an air guiding mechanism, which includes a rotating shaft 1 and a swing link 2 disposed on the rotating shaft 1, the air guiding mechanism is disposed at an upper edge of an air outlet of a bottom case 10 of an air conditioner, and the air guiding mechanism is applied to the sealing member 3.

Specifically, the air guide mechanism further comprises an air guide plate 4, a plurality of swing rods 2 are arranged, one end of each swing rod 2 is connected with the rotating shaft 1, and the other end of each swing rod is connected with the air guide plate 4.

Specifically, the sealing member 3 is the above-mentioned sealing member 3, and the swing link 2 is provided with a second sliding slot 21, and the second sliding slot 21 is adapted to the second sliding shaft 322 of the second baffle 32 of the sealing member 3.

The invention provides a bottom shell structure, which comprises a bottom shell 10 and an air guide mechanism 20 arranged on the bottom shell 10, wherein the air guide mechanism 20 is the air guide mechanism, the air guide mechanism 20 is arranged at the upper edge of an air outlet of the bottom shell 10, an avoiding groove 101 for avoiding a swing rod 2 of the air guide mechanism 20 is arranged at the upper edge of the air outlet of the bottom shell 10, the air conditioner further comprises the sealing component 3, and the sealing component 3 is arranged corresponding to the avoiding groove 101 and used for shielding the avoiding groove 101.

Specifically, the sealing member 3 is the sealing member 3 described above, and the bottom shell 10 is provided with an assembling shaft structure 1011, and the assembling shaft structure 1011 is adapted to fit with the bayonet structure 312 of the first baffle 31 of the sealing member 3.

The invention also provides an air conditioner which comprises the bottom shell structure.

Specifically, the air conditioner of the present invention is a wall-mounted air conditioner.

From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects:

the present invention provides a sealing member 3 for sealing an escape groove 101 at an upper edge of an air outlet of a bottom case 10 of an air conditioner when an air guide mechanism 20 is provided at the upper edge of the air outlet of the bottom case 10, the sealing member 3 including: a shielding portion for shielding at least a part of the avoidance groove 101; let the position portion, be used for dodging the motion of pendulum rod 2, in order to guarantee that air guiding mechanism 20 has sufficient motion space, thereby reduce the air current and enter into the emergence of the phenomenon of the last edge department of air outlet production condensation through dodging groove 101, the air guiding mechanism of the air conditioner among the prior art sets up the problem that the condensation appears in the last edge department that leads to the air outlet easily when the last edge department of air outlet, sealing member 3 can shelter from and dodge groove 101 simultaneously, in order to play the effect of the outward appearance of the last edge department of beautifying the air outlet, promote the product grade of air conditioner.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (12)

1. The utility model provides a sealing member, is applicable to drain pan (10) of air conditioner, air guide mechanism (20) of air conditioner with the last edge department of the air outlet of drain pan (10) is connected, the last edge department of the air outlet of drain pan (10) is provided with and is used for dodging dodge groove (101) of pendulum rod (2) of air guide mechanism (20), its characterized in that, sealing member is used for installing dodge groove (101) department, sealing member includes:

a shielding portion for shielding at least a part of the avoidance groove (101);

the yielding part is used for avoiding the motion of the swing rod (2);

the shielding part is a first baffle plate (31), and the first baffle plate (31) is detachably arranged at the avoidance groove (101) to block off part of the avoidance groove (101);

the avoidance portion is a second baffle (32), one end of the second baffle (32) is connected with the swing rod (2) in a sliding mode, the other end of the second baffle (32) is connected with the first baffle (31) in a sliding mode, so that the second baffle (32) is driven by the swing rod (2) to slide relative to the swing rod (2) and the first baffle (31) to avoid the movement of the swing rod (2), and the rest of the avoidance groove (101) is blocked.

2. The sealing component according to claim 1, wherein a first sliding groove (311) is disposed on the first baffle plate (31), and a first sliding shaft (321) engaged with the first sliding groove (311) is disposed at an end of the second baffle plate (32) away from the swing rod (2), so that the relative movement of the second baffle plate (32) and the first baffle plate (31) is realized by the sliding of the first sliding shaft (321) in the first sliding groove (311).

3. The sealing component according to claim 1, characterized in that a second sliding shaft (322) is disposed at one end of the second baffle (32) close to the swing link (2), and the second sliding shaft (322) is adapted to a second sliding slot (21) disposed on the swing link (2) so as to drive the second sliding shaft (322) of the second baffle (32) to slide in the second sliding slot (21) by the swing of the swing link (2) to realize the movement of the second baffle (32).

4. The sealing component of claim 1, wherein one end of the first baffle (31) far away from the second baffle (32) is provided with a bayonet structure (312), the bayonet structure (312) is matched with an assembly shaft structure (1011) arranged on one side of the oscillating bar (2) far away from the avoiding groove (101), so that the first baffle (31) and the avoiding groove (101) are clamped together through the matching of the bayonet structure (312) and the assembly shaft structure (1011).

5. The sealing member according to claim 1, wherein the shielding portion is a shielding structure (33) corresponding to the avoiding groove (101), the avoiding portion includes a avoiding hole structure (331) disposed in the middle of the shielding structure (33), and the avoiding hole structure (331) is disposed corresponding to the swing link (2) so that the swing link (2) passes through the avoiding hole structure (331).

6. The sealing part according to claim 5, wherein the relief portion further comprises two slot structures (332), the two slot structures (332) are disposed on the shielding structure (33) and respectively located at two sides of the relief hole structure (331) along the moving direction of the swing link (2) to relieve the movement of the swing link (2).

7. The seal component of claim 5 or 6,

the shielding structure (33) is a thin sheet matched with the notch of the avoiding groove (101); and/or

The sealing member is made of a flexible material.

8. An air guide mechanism comprising a rotating shaft (1) and a swing link (2) provided on the rotating shaft (1), characterized in that the air guide mechanism is provided at an upper edge of an air outlet of a bottom case (10) of an air conditioner, the air guide mechanism being adapted to the sealing member of any one of claims 1 to 7.

9. The air guide mechanism as claimed in claim 8, wherein the sealing member is a sealing member as claimed in claim 3, and the swing rod (2) is provided with a second sliding groove (21), and the second sliding groove (21) is adapted to the second sliding shaft (322) of the second baffle (32) of the sealing member.

10. A bottom shell structure, including bottom shell (10) and air guide mechanism (20) of setting on bottom shell (10), characterized in that, air guide mechanism (20) be claim 8 or 9 air guide mechanism, air guide mechanism (20) set up the last department of following of the air outlet of bottom shell (10), the last department of following of the air outlet of bottom shell (10) is provided with and is used for dodging dodge groove (101) of pendulum rod (2) of air guide mechanism (20), the bottom shell still includes any one of claims 1 to 7 sealing component, sealing component with dodge groove (101) and correspond the setting, so that be used for sheltering from dodge groove (101).

11. A bottom shell structure according to claim 10, wherein the sealing member is a sealing member according to claim 4, and wherein a fitting shaft structure (1011) is provided on the bottom shell (10), the fitting shaft structure (1011) being adapted to fit with the bayonet structure (312) of the first flap (31) of the sealing member.

12. An air conditioner comprising a base shell structure, wherein the base shell structure is as claimed in claim 10 or 11.

Images