CN210921749U - Stable wall-hanging air conditioner inner unit shell of shock attenuation - Google Patents

Abstract

The utility model discloses a wall-mounted air conditioner inner unit shell with stable shock absorption, which comprises a stable frame, a fixed block and a longitudinal shock absorption mechanism; a stabilizing frame: the upper side of the stable frame is provided with a transverse damping mechanism and a longitudinal damping mechanism, the stable frame consists of an arc plate, a transverse plate and a vertical plate, the fixed blocks are positioned on the stable frame and are correspondingly arranged, the number of the fixed blocks is four, every two fixed blocks are a group and are respectively distributed on the arc plate and the vertical plate, and the two groups of the fixed blocks are corresponding; the longitudinal damping mechanism: first guide arm has two, the one end of first slide bar is passed first backup pad and is located the steadying plate downside and with first backup pad sliding connection, first longitudinal spring cup joints on first slide bar and is located between steadying frame and the first backup pad. This stable wall-hanging air conditioner of shock attenuation outer casing can prevent the mechanical vibrations that the interior machine produced, can also prevent outside vibrations harm air conditioner, carries out the omnidirectional protection.

Description

Stable wall-hanging air conditioner inner unit shell of shock attenuation

Technical Field

The utility model relates to a wall-hanging air conditioner inner unit shell shock attenuation technical field specifically is a stable wall-hanging air conditioner inner unit shell of shock attenuation.

Background

In most areas of our country, the air conditioner has become the domestic appliance that we are indispensable in the life gradually now, in the use of air conditioner, continuously blow the vibrations of meeting morning machine tool, the vibrations of transferring also can arousing in addition to some outside reasons to influence the life of air conditioner, this is a very big puzzlement to people, current air conditioner installation backing plate avoids shaking, the backing plate is general simple structure, stability and structural strength are relatively poor, still can not the omnidirectional avoid shaking.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a stable wall-hanging air conditioner inner unit shell of shock attenuation, can prevent the mechanical vibrations that the inner unit produced, can also prevent outside vibrations harm air conditioner, carry out the omnidirectional protection, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a wall-mounted air conditioner indoor unit shell with stable shock absorption comprises a stable frame, a fixed block and a longitudinal shock absorption mechanism;

a stabilizing frame: the upper side of the stabilizing frame is provided with a transverse damping mechanism and a longitudinal damping mechanism, the upper side of the stabilizing frame is provided with an inner machine shell, an inner machine is arranged inside the inner machine shell, the stabilizing frame consists of an arc plate, a transverse plate and a vertical plate, the fixing blocks are positioned on the stabilizing frame and are correspondingly arranged, the number of the fixing blocks is four, the fixing blocks are divided into a group, the two groups of the fixing blocks are respectively distributed on the arc plate and the vertical plate, and the two groups of the fixing blocks are corresponding to each other;

the longitudinal damping mechanism: the longitudinal damping mechanism is provided with two front ends and two rear ends which are respectively positioned at the upper side of the stabilizing frame, the longitudinal damping mechanism comprises a stabilizing plate, a first rectangular groove, a first guide rod, a first supporting plate, a first longitudinal spring and a first sliding rod, the stabilizing plate is positioned on the outer side surface of the bottom of the inner machine shell, the upper end of the stabilizing plate is connected with the bottom of the inner machine shell, the lower end of the stabilizing plate is connected with the upper surface of the first supporting plate, the first rectangular groove is provided with two grooves which are respectively positioned at the left end and the right end of the first supporting plate, two first guide rods respectively penetrate through two sides of the first supporting plate and penetrate through the first rectangular groove, one end of the first sliding rod penetrates through the first supporting plate and is positioned at the lower side of the stabilizing plate and is connected with the first supporting plate in a sliding way, the other end of the first sliding rod penetrates through the stabilizing frame and is arranged in a suspended mode, and the first longitudinal spring is sleeved on the first sliding rod and located between the stabilizing frame and the first supporting plate.

Further, the transverse damping mechanisms comprise four connecting frames, a second sliding rod, a transverse spring, a second guide rod, a limiting block, a connecting rod and a second rectangular groove, the four transverse damping mechanisms are connected with the fixed block through the connecting rod, one end of the second sliding rod is located in the first rectangular groove, a side through hole at one end of the second sliding rod is rotatably connected with the first guide rod, the connecting frames are hollow, the other end of the second sliding rod penetrates through the side face of the bottom of the connecting frame and is located in the connecting frame, the limiting block is arranged at the end part of the other end of the second sliding rod, the transverse spring is sleeved on the second sliding rod and is located in the connecting frame, the side face of the fixed block is provided with the second rectangular groove, the second guide rod penetrates through the two sides of the fixed block and penetrates through the second rectangular groove, one end of the connecting rod is connected with the side face of the top of the connecting, the other end of the connecting rod is located in the second rectangular groove, the side through hole is rotatably connected with the second guide rod, the transverse damping mechanism can move through the rotating connection between the connecting rod and the second guide rod, the transverse spring can slow down vibration when the internal machine vibrates, and the position of the transverse spring can be limited by the limiting block at the end part of the second slide rod.

Further, the damping device comprises an internal longitudinal damping mechanism, the internal longitudinal damping mechanism is provided with two ends which are positioned on the upper surface of the inner side of the inner machine shell, the internal longitudinal damping mechanism comprises a second longitudinal spring, a support frame, a second support plate and longitudinal support columns, the second support plate is positioned on the lower side of the inner machine and is connected with the lower surface of the inner machine, the support frame is positioned on the lower side of the second support plate, the left end and the right end of the support frame are connected with the lower surface of the second support plate, the longitudinal support columns are provided with two ends which are respectively positioned on the left end and the right end of the support frame, one end of each longitudinal support column penetrates through the lower side of the support frame and is positioned between the support frame and the second support plate, the two second longitudinal springs are respectively sleeved on the longitudinal support columns and are positioned between the support frame and the inner machine shell, so as to prevent the inner machine from colliding with the outer shell of the inner machine to cause damage.

Further, still include shock attenuation gasbag and shock attenuation post, the shock attenuation post is located between interior machine and the interior machine shell and one end is connected with the vertical side of interior machine shell, the shock attenuation gasbag is located shock attenuation post side surface, and the shock attenuation gasbag can slow down vibrations when vibrations about the interior machine, and the shock attenuation post can support the interior machine and prevent that interior machine and interior machine shell from bumping damage.

Further, still include fixed column and arc fixed plate, the fixed column is located between interior machine and the interior machine shell and one end is connected with the arc side of interior machine shell, the other end of fixed column is equipped with arc fixed plate, and arc fixed plate can support the interior machine when vibrations about the interior machine, prevents that the interior machine from damaging.

Compared with the prior art, the beneficial effects of the utility model are that: this stable wall-hanging air conditioner of shock attenuation outer casing has following benefit:

1. this stable wall-hanging air conditioner of shock attenuation outer casing has a vertical damper, and vertical damper can slow down the vibrations that the air conditioner inner machine leads to because of the external reason, prevents the damage of inner machine.

2. This stable wall-hanging air conditioner of shock attenuation inner unit shell still has a horizontal damper, and horizontal damper can slow down the vibrations effect when the air conditioner transversely shakes because of the external reason, prevents the damage of air conditioner.

3. This stable wall-hanging air conditioner of shock attenuation outer casing still has an inside vertical damper, and inside vertical damper can slow down the vibrations effect when the vibrations of air conditioner inner, protects the air conditioner inner in inside.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the lateral damping mechanism of the present invention;

fig. 3 is the schematic view of the cross-sectional structure of the internal machine of the present invention.

In the figure: 1 inner machine shell, 2 stabilizing frame, 3 longitudinal damping mechanism, 31 stabilizing plate, 32 first rectangular groove, 33 first guide rod, 34 first supporting plate, 35 first longitudinal spring, 36 first slide rod, 4 transverse damping mechanism, 41 connecting frame, 42 second slide rod, 43 transverse spring, 44 second guide rod, 45 limiting block, 46 connecting rod, 47 second rectangular groove, 5 inner longitudinal damping mechanism, 51 second longitudinal spring, 52 supporting frame, 53 second supporting plate, 54 longitudinal supporting column, 6 damping air bag, 7 damping column, 8 inner machine, 9 fixing column, 10 arc fixing plate, 11 fixing block.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a wall-mounted air conditioner indoor unit shell with stable shock absorption comprises a stable frame 2 and a longitudinal shock absorption mechanism 3;

the stabilizing frame 2: the upper side of the stable frame 2 is provided with a transverse damping mechanism 4, fixing blocks 11 and a longitudinal damping mechanism 3, the upper side of the stable frame 2 is provided with an inner machine shell 1, an inner machine 8 is arranged inside the inner machine shell 1, the stable frame 2 consists of an arc plate, a transverse plate and a vertical plate, the fixing blocks 11 are positioned on the stable frame 2 and are correspondingly arranged, the number of the fixing blocks 11 is four, the four fixing blocks are divided into a group, the two groups of the fixing blocks are respectively distributed on the arc plate and the vertical plate, and the two groups of the fixing blocks 11; the transverse shock absorption mechanisms 4 comprise connecting frames 41, four transverse shock absorption mechanisms 4, four transverse springs 43, four second guide rods 44, limiting blocks 45, connecting rods 46 and four second rectangular grooves 47, the four transverse shock absorption mechanisms 4 are connected with the fixed block 11 through the connecting rods 46, one end of each second slide rod 42 is located in each first rectangular groove 32, a side through hole at one end of each second slide rod 42 is rotatably connected with each first guide rod 33, the connecting frame 41 is hollow, the other end of each second slide rod 42 penetrates through the side face of the bottom of the connecting frame 41 and is located in the connecting frame 41, the limiting block 45 is arranged at the end of the other end of each second slide rod 42, each transverse spring 43 is sleeved on each second slide rod 42 and is located in the connecting frame 41, each second rectangular groove 47 is arranged on the side face of the fixed block 11, each second guide rod 44 penetrates through the two sides of the fixed block 11 and penetrates through each second rectangular groove 47, one end of each connecting rod 46 is connected, the other end of the connecting rod 46 is positioned in the second rectangular groove 47, and the side through hole is rotatably connected with the second guide rod 44; when the inner unit 8 vibrates to drive the inner unit casing 1 to vibrate, the inner unit casing 1 vibrates to drive the second slide bar 42 to move, when the second slide bar 42 moves, the transverse spring 43 compresses or extends along with the limiting block 45 to slow down the vibration, and when the inner unit casing 1 vibrates to drive the connecting frame 41 to move, the connecting frame 41 moves to drive the connecting rod 46 to rotate on the second guide rod 44 to slow down the vibration.

Longitudinal damping mechanism 3: the longitudinal damping mechanism 3 is provided with two front and rear ends respectively positioned at the upper side of the stabilizing frame 2, the longitudinal damping mechanism 3 comprises a stabilizing plate 31, a first rectangular groove 32, a first guide rod 33, a first supporting plate 34, a first longitudinal spring 35 and a first slide rod 36, the stabilizing plate 31 is positioned at the outer side surface of the bottom of the inner machine shell 1, the upper end of the stabilizing plate 31 is connected with the bottom of the inner machine shell 1, the lower end of the stabilizing plate 31 is connected with the upper surface of the first supporting plate 34, the first rectangular groove 32 is provided with two left and right ends respectively positioned at the first supporting plate 34, the first guide rods 33 are provided with two numbers, the two first guide rods 33 respectively penetrate through two sides of the first supporting plate 34 and penetrate through the first rectangular groove 32, one end of the first slide rod 36 penetrates through the first supporting plate 34 and is positioned at the lower side of the stabilizing plate 31 and is in sliding connection with the first supporting plate 34, the other end of the first, the first longitudinal spring 35 is sleeved on the first slide bar 36 and is positioned between the stabilizing frame 2 and the first supporting plate 34; when the inner unit 8 vibrates to drive the inner unit casing 1 to vibrate, the inner unit casing 1 drives the stabilizing plate 31 to move, when the stabilizing plate 31 moves, the first supporting plate 34 is driven to move, when the first supporting plate 34 moves, the first longitudinal spring 35 is compressed or extended to slow down the vibration effect, and the first sliding rod 36 can support the inner unit casing 1 to prevent damage when the inner unit casing 1 vibrates. The indoor unit further comprises an internal longitudinal damping mechanism 5, the internal longitudinal damping mechanism 5 is provided with two ends which are positioned on the upper surface of the inner side of the inner unit shell 1, the internal longitudinal damping mechanism 5 comprises a second longitudinal spring 51, a support frame 52, a second support plate 53 and longitudinal support columns 54, the second support plate 53 is positioned on the lower side of the inner unit 8 and is connected with the lower surface of the inner unit 8, the support frame 52 is positioned on the lower side of the second support plate 53, the left end and the right end of the support frame 52 are connected with the lower surface of the second support plate 53, the longitudinal support columns 54 are provided with two ends which are respectively positioned on the left end and the right end of the support frame 52, one end of the longitudinal support column 54 penetrates through the lower side of the support frame 52 and is positioned between the support frame 52 and the second support plate 53, the two second longitudinal springs 51 are respectively sleeved on the longitudinal support column, the support frame 52, the second support plate 53 and the longitudinal support column 54 can support the inner unit 8, so that the inner unit 8 is prevented from being damaged due to collision between the inner unit 8 and the inner unit casing 1; the indoor unit further comprises a damping airbag 6 and a damping column 7, wherein the damping column 7 is positioned between the indoor unit 8 and the indoor unit shell 1, one end of the damping column is connected with the vertical side surface of the indoor unit shell 1, and the damping airbag 6 is positioned on the side surface of the damping column 7; the damping air bag 6 can slow down the vibration when the inner machine 8 vibrates left and right, and the damping column 7 can support the inner machine 8 to prevent the inner machine 8 from colliding and damaging with the inner machine shell 1; the indoor unit comprises an indoor unit 8 and an indoor unit shell 1, and is characterized by further comprising a fixing column 9 and an arc-shaped fixing plate 10, wherein the fixing column 9 is located between the indoor unit 8 and the indoor unit shell 1, one end of the fixing column is connected with the arc-shaped side face of the indoor unit shell 1, and the other end of the fixing column 9 is provided with the arc-; the arc-shaped fixing plate 10 can support the inner unit 8 when the inner unit 8 vibrates left and right, and prevent the inner unit 8 from being damaged by collision with the inner unit shell 1.

When in use:

when the inner unit 8 vibrates left and right, the arc-shaped fixing plate 10 can support the inner unit 8 when the inner unit 8 vibrates left and right, the shock-absorbing air bag 6 can slow down the shock when the inner unit 8 vibrates left and right, the shock-absorbing column 7 can support the inner unit 8 to prevent the inner unit 8 from colliding with the inner unit shell 1 to damage, when the inner unit 8 vibrates up and down, the shock can be slowed down through the second longitudinal spring 51 in the internal longitudinal shock-absorbing mechanism 5, the support frame 52, the second support plate 53 and the longitudinal support column 54 can support the inner unit 8 to prevent the inner unit 8 from colliding with the inner unit shell 1 to damage the inner unit 8, when the inner unit shell 1 vibrates up and down, the shock can be slowed down through the compression or extension of the first longitudinal spring 35 in the longitudinal shock-absorbing mechanism 3, the first slide bar 36 can support the inner unit shell 1 to prevent the, the connecting frame 41 moves to drive the connecting rod 46 to rotate on the second guide rod 44 to reduce the vibration, and when the inner unit casing 1 vibrates left and right, the transverse spring 43 can compress or extend along with the limiting block 45, so that the vibration is reduced.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a stable wall-hanging air conditioner inner unit shell of shock attenuation which characterized in that: comprises a stable frame (2), a fixed block (11) and a longitudinal damping mechanism (3);

stabilizing frame (2): the upper side of the stable frame (2) is provided with a transverse damping mechanism (4) and a longitudinal damping mechanism (3), the upper side of the stable frame (2) is provided with an inner machine shell (1), an inner machine (8) is arranged inside the inner machine shell (1), the stable frame (2) is composed of an arc plate, a transverse plate and a vertical plate, the fixed blocks (11) are located on the stable frame (2) and are correspondingly arranged, the number of the fixed blocks (11) is four, the fixed blocks are distributed on the arc plate and the vertical plate respectively in a group of two fixed blocks (11), and the two groups of the fixed blocks (11) are corresponding;

longitudinal damping mechanism (3): longitudinal damping mechanism (3) have two to be located stabilizing frame (2) upside both ends around respectively, longitudinal damping mechanism (3) are including stabilizer plate (31), first rectangle recess (32), first guide arm (33), first backup pad (34), first longitudinal spring (35) and first slide bar (36), stabilizer plate (31) are located the bottom outside surface of interior machine shell (1), the upper end of stabilizer plate (31) is connected with the bottom of interior machine shell (1), the lower extreme of stabilizer plate (31) and the upper surface connection of first backup pad (34), first rectangle recess (32) have two to be located both ends about first backup pad (34) respectively, first guide arm (33) have two, and two first guide arms (33) pass first backup pad (34) both sides respectively and run through first rectangle recess (32), the one end of first slide bar (36) is passed first backup pad (34) and is located stabilizer plate (31) downside and just runs through first rectangle recess (32), the one end of first slide bar (36) is passed first backup pad (34) and is located stabilizer plate (31) downside and just And the other end of the first sliding rod (36) penetrates through the stabilizing frame (2) and is suspended, and the first longitudinal spring (35) is sleeved on the first sliding rod (36) and is positioned between the stabilizing frame (2) and the first supporting plate (34).

2. A shock absorbing stable wall mounted air conditioner indoor unit casing as claimed in claim 1, wherein: the transverse damping mechanism (4) comprises a connecting frame (41), a second sliding rod (42), four transverse springs (43), four second guide rods (44), a limiting block (45), four connecting rods (46) and four second rectangular grooves (47), the four transverse damping mechanisms (4) are connected with the fixed block (11) through the connecting rods (46), one end of the second sliding rod (42) is located in the first rectangular groove (32), a side through hole at one end of the second sliding rod (42) is rotatably connected with the first guide rod (33), the connecting frame (41) is hollow, the other end of the second sliding rod (42) penetrates through the bottom side of the connecting frame (41) and is located in the connecting frame (41), the limiting block (45) is arranged at the end part of the other end of the second sliding rod (42), and the transverse springs (43) are sleeved on the second sliding rod (42) and are located in the connecting frame (41), fixed block (11) side is equipped with second rectangular groove (47), second guide arm (44) pass fixed block (11) both sides and run through second rectangular groove (47), the one end and the link (41) top side of connecting rod (46) are connected, the other end of connecting rod (46) is located second rectangular groove (47) and the side through-hole rotates with second guide arm (44) to be connected.

3. A shock absorbing stable wall mounted air conditioner indoor unit casing as claimed in claim 1, wherein: still include inside vertical damper (5), inside vertical damper (5) have two and are located the both ends of interior machine shell (1) inboard upper surface, inside vertical damper (5) include vertical spring (51) of second, support frame (52), second backup pad (53) and vertical support column (54), second backup pad (53) are located interior machine (8) downside and are connected with interior machine (8) lower surface, support frame (52) are located the downside of second backup pad (53), both ends are connected with the lower surface of second backup pad (53) about support frame (52), vertical support column (54) have two to be located the left and right sides both ends of support frame (52) respectively, the one end of vertical support column (54) is passed support frame (52) downside and is located between support frame (52) and second backup pad (53), vertical spring (51) of second have two to cup joint respectively on vertical support column (54) and is located support frame (52), and be located the support frame (53) between vertical spring (51) of second (52) And the inner machine shell (1).

4. A shock absorbing stable wall mounted air conditioner indoor unit casing as claimed in claim 1, wherein: the damping device is characterized by further comprising a damping airbag (6) and a damping column (7), wherein the damping column (7) is located between the inner machine (8) and the inner machine shell (1), one end of the damping column is connected with the vertical side face of the inner machine shell (1), and the damping airbag (6) is located on the side surface of the damping column (7).

5. A shock absorbing stable wall mounted air conditioner indoor unit casing as claimed in claim 1, wherein: the indoor unit of the air conditioner is characterized by further comprising fixing columns (9) and arc-shaped fixing plates (10), wherein the fixing columns (9) are located between the indoor unit (8) and the indoor unit shell (1), one ends of the fixing columns are connected with the arc-shaped side faces of the indoor unit shell (1), and the arc-shaped fixing plates (10) are arranged at the other ends of the fixing columns (9).

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