CN216620063U - Installation mechanism of integral type air conditioner and integral type air conditioner equipment - Google Patents

Installation mechanism of integral type air conditioner and integral type air conditioner equipment Download PDF

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Publication number
CN216620063U
CN216620063U CN202122309477.6U CN202122309477U CN216620063U CN 216620063 U CN216620063 U CN 216620063U CN 202122309477 U CN202122309477 U CN 202122309477U CN 216620063 U CN216620063 U CN 216620063U
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CN
China
Prior art keywords
air conditioner
clamping
window frame
mounting
integrated air
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CN202122309477.6U
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Chinese (zh)
Inventor
陈志航
谢鹏
李珊
周何杰
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Midea Group Co Ltd
GD Midea Air Conditioning Equipment Co Ltd
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Midea Group Co Ltd
GD Midea Air Conditioning Equipment Co Ltd
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Priority to CN202122309477.6U priority Critical patent/CN216620063U/en
Priority to PCT/CN2022/076089 priority patent/WO2023045223A1/en
Application granted granted Critical
Publication of CN216620063U publication Critical patent/CN216620063U/en
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Abstract

The utility model discloses an installation mechanism of an integrated air conditioner and integrated air conditioner equipment, wherein the integrated air conditioner is installed on a windowsill, the windowsill is provided with a window frame, and the installation mechanism comprises: the integrated air conditioner is placed on the supporting component; the clamping assembly is arranged on the supporting assembly, the clamping assembly clamps the two opposite sides of the window frame and is installed on the window frame in a positioning mode, and the clamping assembly is provided with a plurality of clamping positions for adapting to the window frames with different thicknesses. According to the utility model, the clamping assembly is arranged to stabilize the supporting assembly on the window frame, so that the mounting mechanism can be rapidly mounted; in addition, the clamping assembly is arranged to clamp the two opposite sides of the window frame, so that the supporting assembly cannot shake, and the stability of the mounting mechanism is improved; the utility model also enables the clamping components to be clamped at the two opposite sides of the window frames with different thicknesses by arranging the plurality of clamping positions, thereby improving the adaptability of the mounting mechanism and the universality of the mounting mechanism.

Description

Installation mechanism of integral type air conditioner and integral type air conditioner equipment
Technical Field
The utility model relates to the technical field of electric appliance installation, in particular to an installation mechanism of an integrated air conditioner and integrated air conditioner equipment.
Background
At present, people are not limited to one place in a living scene, the situations that people often move along with work change are more and more, and along with the development of a room renting market at present, the requirements of tenants on the temperature comfort in rooms are higher and higher. The portability of home appliances is also required due to changes in living environments. The existing air conditioner is used as a product with strong installation property, the problem of difficult disassembly and assembly exists, a plurality of houses of renting people are not provided with split air conditioners, or some houses are not suitable for installing the existing split wall-mounted machine, and the above conditions all require users to purchase some refrigeration products which are not required to be installed by an external machine and have higher portability. At present, an integrated air conditioner exists in the market, but the integrated air conditioner has the problems of troublesome installation and instability.
SUMMERY OF THE UTILITY MODEL
The present invention is directed to solving at least one of the problems of the prior art. Therefore, the utility model provides the mounting mechanism of the integrated air conditioner, which improves the mounting convenience and stability and improves the adaptability of the mounting mechanism.
The utility model also provides the integrated air conditioner equipment applying the installation mechanism, which improves the installation convenience and stability and improves the adaptability of the installation mechanism.
According to the installation mechanism of the integrated air conditioner provided by the embodiment of the utility model, the integrated air conditioner is installed on a windowsill, the windowsill is provided with a window frame, and the installation mechanism comprises: a support assembly on which the integrated air conditioner is placed; the clamping assembly is arranged on the supporting assembly and clamps the two opposite sides of the window frame to be installed on the window frame in a positioning mode, and the clamping assembly is provided with a plurality of clamping positions to adapt to the window frames with different thicknesses.
According to the installation mechanism of the integrated air conditioner, the clamping component is arranged to stabilize the supporting component on the window frame, so that the installation mechanism can be quickly installed; in addition, the clamping assembly is arranged to clamp the two opposite sides of the window frame, so that the supporting assembly cannot shake, and the stability of the mounting mechanism is improved; the utility model also enables the clamping components to be clamped at the two opposite sides of the window frames with different thicknesses by arranging the plurality of clamping positions, thereby improving the adaptability of the mounting mechanism and the universality of the mounting mechanism.
In some embodiments, the clamping assembly comprises: the first stopping part is arranged on the support component; the first mounting part is arranged on the supporting component and is static relative to the first abutting part, and a plurality of mounting positions are arranged on the first mounting part; the first moving piece is detachably matched with any one of the mounting positions to adjust a clamping gap between the first moving piece and the first abutting portion, and the clamping gap defines the clamping position.
Specifically, a plurality of first fastening holes are formed in the first mounting portion, and a second fastening hole is formed in the first movable piece; the clamping assembly further comprises a fastener, and the fastener is matched with any one of the first fastening hole and the second fastening hole to adjust the positioning position of the first movable member.
More specifically, the plurality of first fastening holes are arranged on the first mounting portion at intervals, and the distance between the centers of the plurality of first fastening holes and the abutting surface of the first abutting portion is sequentially changed.
In other embodiments, the clamping assembly comprises: the second stopping part is arranged on the supporting component; the second clamping part comprises a plurality of clamping surfaces, and gaps between the plurality of clamping surfaces and the second stopping part are different so as to limit a plurality of clamping positions.
Specifically, at least one of the holding surfaces is formed as an inclined surface extending obliquely toward a direction away from the second abutting portion.
Optionally, the second clamping portion is an elastic member.
In some embodiments, the clamping assembly comprises: the third stopping part is arranged on the supporting component; the second mounting part is arranged on the supporting component and is static relative to the third stopping part; the second movable piece is movably arranged on the second mounting part; the driving piece is rotatably arranged on the second installation portion to enable the plurality of locking positions to be in switching contact with the second moving piece so as to change the distance between the second moving piece and the third abutting portion to limit the plurality of clamping positions.
Specifically, the second movable member includes a base portion and an adjustment member detachably provided on the base portion, and the adjustment member abuts against the window frame.
Optionally, the locking position is formed as a plane.
In some embodiments, the support assembly comprises: the telescopic assembly comprises a static part and a telescopic part, the telescopic part is in telescopic fit with the static part, two opposite sides of the telescopic assembly are connected with the window frame, and the integrated air conditioner is arranged on the static part; the clamping assembly is connected with the telescopic piece.
An integrated air conditioner apparatus according to an embodiment of the present invention includes: an integrated air conditioner; the integrated air conditioner comprises a supporting component, wherein the supporting component is arranged on the integrated air conditioner body, and the supporting component is arranged on the integrated air conditioner body.
According to the integrated air conditioner equipment in the embodiment of the utility model, the supporting component is firmly fixed on the window frame by arranging the clamping component according to the mounting mechanism of the integrated air conditioner in the embodiment of the utility model, so that the mounting mechanism can be quickly mounted; in addition, the clamping assembly is arranged to clamp the two opposite sides of the window frame, so that the supporting assembly cannot shake, and the stability of the mounting mechanism is improved; the utility model also enables the clamping components to be clamped at the two opposite sides of the window frames with different thicknesses by arranging the plurality of clamping positions, thereby improving the adaptability of the mounting mechanism and the universality of the mounting mechanism.
Additional aspects and advantages of the utility model will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the utility model.
Drawings
The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:
FIG. 1 is a schematic structural view of an integrated air conditioner apparatus according to an embodiment of the present invention;
FIG. 2 is a schematic diagram of the first stopping portion, the first mounting portion, the first movable member and the fastening member according to the embodiment of the present invention;
FIG. 3 is a schematic diagram of the second stopping portion and the second clamping portion in an embodiment of the present invention;
FIG. 4 is a schematic structural view of a second stopping portion and a second clamping portion according to an embodiment of the present invention;
FIG. 5 is a schematic diagram of the third stopping portion, the second mounting portion, the second movable member and the driving member according to the embodiment of the present invention;
FIG. 6 is a schematic illustration of the first and second locked positions in an embodiment of the present invention;
FIG. 7 is a schematic illustration of the positions of a first locking position, a second locking position and a third locking position in another embodiment of the present invention;
FIG. 8 is a first schematic view illustrating the combination of an integrated air conditioner and a mounting structure according to an embodiment of the present invention;
FIG. 9 is a second schematic view illustrating the combination of the integrated air conditioner and the mounting structure according to the embodiment of the present invention;
FIG. 10 is an enlarged view of a portion of FIG. 8 taken at I;
FIG. 11 is an enlarged view of a portion of FIG. 8 at II;
FIG. 12 is an enlarged view of a portion of FIG. 8 at III;
FIG. 13 is a schematic view of the engagement between the contact portion and the moving rail according to the embodiment of the present invention;
FIG. 14 is an enlarged view of a portion of FIG. 8 at IV;
FIG. 15 is an enlarged view of a portion of FIG. 9 at V;
FIG. 16 is a bottom view of the integrated air conditioner in the embodiment of the present invention;
FIG. 17 is a schematic view of the movable rail and the curtain according to the embodiment of the present invention;
fig. 18 is a partial enlarged view of VI in fig. 9.
Reference numerals:
1. an installation mechanism of the integrated air conditioner;
4. a clamping assembly; 5. a first stopping part; 6. a first mounting portion; 61. a first fastening hole; 7. a first movable member; 8. a fastener; 410. a second stopping part; 411. a second clamping portion; 412. a clamping surface; 41. a second movable member; 45. a base portion; 46. an adjustment member; 42. a second mounting portion; 49. an upper frame member; 44. a third stopping part; 491. a first notch; 43. a drive member; 47. a first cam portion; 471. a first locked position; 472. a second locked position; 473. a third locked position; 48. a handle portion;
9. a support assembly;
95. a telescoping assembly; 51. a fixed rail; 52. a moving rail; 53. a first mating hole; 54. an installation space; 511. a shock absorbing member; 521. a sliding groove;
96. a fastening assembly; 961. a support portion; 62. a bottom fastening portion; 63. a clamping assembly; 64. a second fixing plate; 65. a fourth stopping part; 68. a rotating member; 69. a bottom frame member; 691. a second notch;
97. a positioning assembly; 71. a fixed part; 72. a contact portion; 73. a compression block; 74. a second cam portion;
98. a locking mechanism; 81. a horizontal moving member; 82. a hook portion; 85. a fixing member; 86. a spring; 811. a limiting part; 812. a hand poking part; 852. screw holes; 853. a third mating hole;
91. a handle member; 92. a barrier curtain;
2. a window frame; 3. an integrated air conditioner; 31. a hook hole; 311. a groove; 312. a fourth mating hole; 313. mounting grooves; 10. an integrated air conditioner apparatus.
Detailed Description
Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.
The mounting mechanism 1 of the unitary air conditioner according to the embodiment of the present invention will be described with reference to the accompanying drawings.
As shown in fig. 1 and fig. 2, according to a mounting mechanism 1 of an integrated air conditioner of an embodiment of the present invention, the mounting mechanism 1 includes: a support assembly 9 and a clamping assembly 4.
The integral type air conditioner 3 is placed on supporting component 9, supports the integral type air conditioner 3 through setting up supporting component 9 and stabilizes on window frame 2, has made things convenient for laying of integral type air conditioner 3.
The centre gripping subassembly 4 is established on supporting component 9, and the relative both sides of centre gripping subassembly 4 centre gripping window frame 2 are with the location installation on window frame 2, and centre gripping subassembly 4 has the window frame 2 of a plurality of centre gripping positions with the different thickness of adaptation. It should be noted that the clamping assemblies 4 are clamped on the opposite sides of the window frame 2, and the single clamping assembly 4 is clamped on the two side wall surfaces of the same position of the window frame 2, for example, the clamping assemblies 4 are clamped on the front and rear sides of the upper part of the window frame 2 to fasten the supporting assembly 9 with the upper window frame 2; the clamping components 4 can be clamped at two opposite sides of the window frame 2, and a plurality of clamping components 4 can be clamped at different positions of the window frame 2, for example, the two clamping components 4 are arranged, one clamping component 4 is clamped at the front side and the rear side of the upper part of the window frame 2 to fasten the supporting component 9 relatively with the upper part of the window frame 2, the other clamping component 4 is clamped at the front side and the rear side of the lower part of the window frame 2 to fasten the supporting component 9 relatively with the lower part of the window frame 2, and the two clamping components 4 are matched to fasten the supporting component 9 on the window frame 2, so that the stability is improved.
It can be understood that there are many window frames 2 with different sizes in the prior art, the thickness of each type of window frame 2 is different, if the installation mechanism 1 is independently arranged for each thickness of window frame 2, a great deal of waste is certainly caused, and the user selection is troublesome.
According to the installation mechanism 1 of the integrated air conditioner, the clamping component 4 is arranged to stabilize the supporting component 9 on the window frame 2, so that the installation mechanism 1 can be quickly installed; in addition, the clamping assembly 4 is arranged to clamp the two opposite sides of the window frame 2, so that the supporting assembly 9 cannot shake, and the stability of the mounting mechanism 1 is improved; the utility model also enables the clamping components 4 to be clamped at the two opposite sides of the window frames 2 with different thicknesses by arranging a plurality of clamping positions, thereby improving the adaptability of the mounting mechanism 1 and the universality of the mounting mechanism 1.
As shown in fig. 2, in some embodiments, the clamping assembly 4 comprises: a first stop portion 5, a first mounting portion 6 and a first movable member 7.
The first stopping part 5 is arranged on the supporting component 9. The first mounting part 6 is arranged on the supporting component 9 and is relatively static with the first stopping part 5, and a plurality of mounting positions are arranged on the first mounting part 6. The first movable member 7 is detachably matched with any installation position to adjust a clamping gap between the first movable member 7 and the first stopping portion 5, and the clamping gap defines a clamping position. The first movable part 7 can be matched with the installation position, and the first movable part 7 can also be separated from the installation position, so that the universality of the installation mechanism 1 is improved through the disassembly and matching of the first movable part 7 and the installation position, the operation of disassembling the installation mechanism 1 from one window frame 2 and installing the installation mechanism on another window frame 2 is facilitated, and the user experience is improved; the first abutting portion 5 abuts against one side wall face of the window frame 2, the first movable member 7 abuts against the other opposite side wall face of the window frame 2, and a clamping gap between the first movable member 7 and the first abutting portion 5 is adjusted according to the thickness of the window frame 2, so that the friction force among the first abutting portion 5, the first movable member 7 and the window frame 2 is large enough.
As shown in fig. 2, specifically, a plurality of first fastening holes 61 are provided in the first mounting portion 6, and a second fastening hole (not shown) is provided in the first mover 7. The clamping component 4 further comprises a fastening piece 8, the fastening piece 8 is matched with any one of the first fastening holes 61 and the second fastening holes to adjust the positioning position of the first moving piece 7, and the clamping gap between the first moving piece 7 and the first stopping portion 5 is adjusted by adjusting the positioning position of the first moving piece 7, so that the clamping component 4 is matched with window frames 2 with different thicknesses. According to the utility model, the fastener 8 is matched with the first fastening hole 61 and the second fastening hole to fasten the second moving part 41 on the first mounting part 6, so that the stability of the clamping gap between the first moving part 7 and the first abutting part 5 is ensured, and the stability of clamping the clamping component 4 on the window frame 2 is improved.
As shown in fig. 2, more specifically, the plurality of first fastening holes 61 are arranged on the first mounting portion 6 at intervals, the distances between the centers of the plurality of first fastening holes 61 and the abutting surfaces of the first abutting portions 5 sequentially change, and the adjustment of the clamping gap is facilitated by arranging the sequential change of the distances between the centers of the plurality of first fastening holes 61 and the abutting surfaces of the first abutting portions 5, so that the user experience is improved. In order to adapt to the thickness of the window frame 2, the first moving part 7 can be matched with an installation position firstly, at the moment, the fastener 8 is matched with the first fastening hole 61, but a gap can also exist between the first moving part 7 and the window frame 2, the first moving part and the fastener 8 can be corresponding to the adjacent fastening holes, the gap between the first moving part 7 and the window frame 2 is reduced until the clamping component 4 is firmly clamped on the window frame 2, the distance between the centers of the plurality of first fastening holes 61 and the abutting part of the first abutting part 5 is sequentially changed, a user can sequentially adjust the first moving part 7, and the user experience is improved.
As shown in fig. 2, in some embodiments, the first movable member 7 is a sliding block, the first mounting portion 6 is provided with a sliding way, the sliding block can slide in the sliding way, the sliding of the sliding block is facilitated by the cooperation of the sliding block and the sliding way, and the smoothness of the mounting process of the mounting mechanism 1 is improved. For example, the slide rail extends in the left-right direction, and the slider can slide left and right along the slide rail, wherein the first fastening holes 61 are arranged on the first mounting portion 6 at left and right intervals, and the slider slides along the slide rail to enable the second fastening hole to correspond to one of the first fastening holes 61, because the distance between the centers of the first fastening holes 61 and the abutting surface of the first abutting portion 5 sequentially changes, and the clamping gap between the slider and the first abutting portion 5 sequentially changes in the process that the second fastening hole corresponds to the first fastening hole 61.
Optionally, the fastener 8 is a pin.
In other embodiments, the first mounting portion 6 is provided with a third fastening hole (not shown), and the first movable member 7 is provided with a second fastening hole. The clamping assembly 4 further comprises a fastening member 8, and the fastening member 8 is matched with the third fastening hole and the second fastening hole to adjust the positioning position of the first movable member 7.
Specifically, the third fastening hole is a long hole, and the long hole extends in the direction of the abutting surface far away from the first abutting portion 5, so that the stepless adjustment of the first movable member 7 is realized for the long hole through the arrangement of the first fastening hole 61, and the user experience is further improved. For example, the window frame 2 is located between the first stopping portion 5 and the first moving member 7, the first stopping portion 5 is located behind the window frame 2, the first moving member 7 is located in front of the window frame 2, the first moving member 7 can move back and forth to adjust the clamping gap, the elongated hole is formed in the first mounting portion 6 and is arranged in an inclined manner relative to the stopping surface, the fastener 8 penetrates through the elongated hole to be matched with the second fastening hole to fasten the first moving member 7 on the first mounting portion 6, and therefore the clamping assembly 4 is fastened on the window frame 2 through the stable clamping gap; when the first moving member 7 is initially placed, the clamping gap may be too large to cause the clamping assembly 4 to be unable to be fastened on the window frame 2, the fastener 8 may be pulled to make the fastener 8 slide on the elongated hole, the fastener 8 drives the first moving member 7 to approach the first stopping portion 5, and the clamping gap is reduced until the first moving member 7 and the first stopping portion 5 stop against the window frame 2. Of course, the elongated hole may also be disposed vertically with respect to the abutting surface, and will not be described herein.
As shown in fig. 2, in some embodiments, the number of the first movable members 7 is multiple, and the stability of the clamping assembly 4 for clamping the window frame 2 is improved by providing multiple first movable members 7. For example, the two first movable members 7 are spaced left and right, and the two first movable members 7 abut against different positions on the window frame 2, so that the connection between the clamping assembly 4 and the window frame 2 is more stable. Of course, the two first movable members 7 are only examples, and the number of the first movable members 7 may be more, which is not described herein again.
In other embodiments, as shown in fig. 3, the clamping assembly 4 comprises: a second stopping portion 410 and a second clamping portion 411.
The second stopping portion 410 is disposed on the supporting member 9. The second clamping portion 411 includes a plurality of clamping surfaces 412, and gaps between the plurality of clamping surfaces 412 and the second stopping portion 410 are different to define a plurality of clamping positions. According to the utility model, the plurality of clamping positions are defined by the plurality of clamping surfaces 412, the window frames 2 with different thicknesses are placed between different gaps, so that a user does not need to perform installation operation, and the installation process is simplified.
As shown in fig. 4, in particular, at least one clamping surface 412 is formed as an inclined surface extending obliquely towards a direction away from the second stopping portion 410, and the inclined surface facilitates the adaptation of the clamping surface 412 to window frames 2 with different thicknesses, increases the adaptation range of the clamping assembly 4, and improves the versatility of the mounting mechanism 1. It can be understood that the inclined plane extends obliquely towards the direction away from the second stopping portion 410, the distance between each point on the inclined plane and the second stopping portion 410 is different, and during the clamping of the clamping assembly 4 on the window frame 2, the window frame 2 can slide on the inclined plane to find a suitable position for the window frame 2 to be matched with the clamping assembly 4.
As shown in fig. 4, in particular, at least one clamping surface 412 is formed as a plane parallel to the abutting surface of the second abutting portion 410, and the contact area between the clamping assembly 4 and the window frame 2 is increased by providing the plane, so that the stability of the connection between the clamping assembly 4 and the window frame 2 is improved. For example, in the prior art, the thickness of the plate of the window frame 2 is 1.2 mm, and one clamping surface 412 is formed as a plane parallel to the abutting surface and spaced from the abutting surface by 1.2 mm, so that the stability of the connection between the clamping component 4 and the window frame 2 is improved on the premise of ensuring the adaptability of the clamping component 4. Alternatively, the two clamping surfaces 412 may be formed as planes parallel to the abutting surface, for example, one plane is 1 mm away from the abutting surface, and the other plane is 1.2 mm away from the abutting surface, so as to further improve the adaptability of the clamping assembly 4. Of course, the plurality of clamping surfaces 412 may be more planes parallel to the abutting surface, and the description thereof is omitted.
Optionally, the second clamping portion 411 is an elastic member, and the connection stability of the clamping assembly 4 and the window frame 2 is further improved by providing the second clamping portion 411 as an elastic member. For example, the elastic member is made of rubber, and when the clamping assembly 4 clamps the window frame 2, the elastic member deforms to increase the area of the elastic member attached to the window frame 2, and the elastic force of the elastic member is utilized to increase the positive pressure of the elastic member on the window frame 2, so as to increase the friction force between the second clamping portion 411 and the window frame 2.
In some embodiments, the clamping assembly 4 further includes an elastic element (not shown), the elastic element is connected to the second clamping portion 411 to make the second clamping portion 411 have a tendency to move towards the second stopping portion 410, and the elastic element is arranged to make the second clamping portion 411 abut on the window frame 2, so that the connection stability of the clamping assembly 4 and the window frame 2 is improved. For example, the elastic element is a spring, the elastic force of the spring acts on the second clamping portion 411 to move the second clamping portion 411 toward the second abutting portion 410, the second clamping portion 411 abuts against the window frame 2, the elastic force of the spring causes the second clamping portion 411 to have a positive pressure on the window frame 2 while increasing the positive pressure between the window frame 2 and the second abutting portion 410, the friction between the window frame 2 and the second clamping portion 411 and the second abutting portion 410 is increased, and the connection stability between the clamping assembly 4 and the window frame 2 is increased.
As shown in fig. 5, in some embodiments, the clamping assembly 4 comprises: a third stopping portion 44, a second mounting portion 42, a second movable element 41, and a driving element 43.
The third stopping portion 44 is provided on the supporting member 9. The second mounting portion 42 is disposed on the supporting component 9 and stationary relative to the third stopping portion 44. The second movable element 41 is movably disposed on the second mounting portion 42. The driving member 43 has a plurality of locking positions, and the driving member 43 is rotatably disposed on the second mounting portion 42 to make the plurality of locking positions switch and contact with the second movable member 41 to change the distance between the second movable member 41 and the third stopping portion 44 to define a plurality of clamping positions. The utility model changes the distance between the second moving part 41 and the second stopping part 410 by arranging the driving part 43 to adapt to the window frames 2 with different thicknesses, improves the application range of the mounting mechanism 1, simplifies the mounting process and facilitates the operation of users.
For example, as shown in fig. 6, the locking positions include a first locking position 471 and a second locking position 472, a distance between the second movable member 41 and the third abutting portion 44 when the second locking position 472 contacts the second movable member 41 is smaller than a distance between the second movable member 41 and the third abutting portion 44 when the first locking position 471 contacts the second movable member 41, the clamping member 4 clamps the thin window frame 2 when the second locking position 472 contacts the second movable member 41, and the rotating driving member 43 makes the first locking position 471 contact the second movable member 41 to separate the window frame 2 from the clamped state, which facilitates the user to detach the mounting mechanism 1. Alternatively, as shown in fig. 7, the locking positions further include a third locking position 473, a distance between the second movable member 41 and the third abutting portion 44 when the third locking position 473 contacts the second movable member 41 is greater than a distance between the second movable member 41 and the third abutting portion 44 when the first locking position 471 contacts the second movable member 41, where a state where the third locking position 473 contacts the second movable member 41 may be an initial state of the clamping component 4, and the rotating of the driving member 43 causes the second movable member 41 to contact the first locking position 471 or the second locking position 472, so that the clamping component 4 can clamp the window frame 2 with two thicknesses. Of course, more locking positions are possible and will not be described in detail here.
As shown in fig. 5, in particular, the driving member 43 includes: a first cam portion 47, a handle portion 48.
The first cam portion 47 is eccentrically and rotatably disposed on the second mounting portion 42, the first cam portion 47 contacts the second movable member 41 to drive the second movable member 41 to move during rotation, the first cam portion 47 drives the second movable member 41 to move, and a mechanical mechanism is used to control the movement of the second movable member 41, thereby improving reliability. The handle portion 48 cooperates with the first cam portion 47 to rotate the first cam portion 47. For example, the second movable element 41 is disposed at the rear side of the second mounting portion 42, the first cam portion 47 is disposed at the front side of the second mounting portion 42, the first cam portion 47 is eccentrically and rotatably disposed on the second mounting portion 42, the first cam portion 47 presses the second movable element 41 to move backward when rotating, and the rotation of the first cam portion 47 is controlled by the handle portion 48, so that the control is convenient.
As shown in fig. 6 and 7, specifically, the second movable member 41 includes a base portion 45 and an adjusting member 46 detachably disposed on the base portion 45, the adjusting member 46 abuts against the window frame 2, and by providing the adjusting member 46, the range of the thickness of the window frame 2 that can be clamped by the clamping assembly 4 is further increased, and the adaptation range of the mounting mechanism 1 is further improved. The adjusting member 46 can be detached from the base portion 45, and the number of clamping positions can be increased by changing the distance between the second movable member 41 and the third abutting portion 44 by replacing the adjusting member 46 with different sizes.
Specifically, the adjusting member 46 may be made of rubber, and the window frame 2 is prevented from being damaged by the rubber of the adjusting member 46.
As shown in fig. 6 and 7, alternatively, the locking position is formed as a plane, and by setting the locking position as a plane, the contact surface of the plane and the window frame 2 is more stable, and the stability of the connection between the driving member 43 and the second movable member 41 is improved. Of course, the locking position can also be formed with other features, such as the locking position being formed as a groove, by which the connection of the driving member 43 to the second movable member 41 is further stabilized. The locking position may also form further locking features, which are not described in detail here.
As shown in fig. 10, in some embodiments, the clamping assembly 4 further includes an upper frame member 49, the upper frame member 49 is connected to the supporting assembly 9, the third stopping portion 44 is disposed on the upper frame member 49, the length of the third stopping portion 44 is smaller than that of the upper frame member 49, first notches 491 are formed on two sides of the third stopping portion 44, and the third stopping portion 44 can play a role in positioning by disposing the third stopping portion 44 with a length smaller than that of the upper frame member 49, so as to facilitate the user to install the mounting mechanism 1. For example, the window frame 2 generally has an upper frame, a lower frame, a left frame, and a right frame, when the user mounts the mounting mechanism 1 on the window frame 2, the mounting mechanism 1 can be attached to the right frame, and the right frame is attached to the right side surface of the third abutting portion 44, so that the user can use the handle member 91 to move the moving rail 52, and the user can mount the mounting mechanism 1 conveniently; meanwhile, the front side surface of the window frame 2 is attached to the rear side surface of the mounting mechanism 1, so that the mounting mechanism 1 is prevented from toppling over, and the safety is improved.
As shown in fig. 8, in some embodiments, the support assembly 9 comprises: the flexible subassembly 95, flexible subassembly 95 include static and extensible member, and the flexible cooperation of extensible member and static, window frame 2 is connected to the relative both sides of flexible subassembly 95, and integral type air conditioner 3 is established on the static. According to the utility model, the size of the installation mechanism 1 is adjusted by arranging the telescopic member and the static member in telescopic matching, the installation mechanism 1 can adapt to window frames 2 with different sizes, and the user experience is improved. For example, the telescopic member extends out relative to the stationary member to increase the height of the mounting mechanism 1, and the upper side and the lower side of the telescopic assembly 95 are connected with the window frame 2 to fasten the mounting mechanism 1 on the window frame 2; alternatively, the extension member extends out of the stationary member to increase the length of the mounting mechanism 1, and the left and right sides of the extension member 95 are connected to the window frame 2 to secure the mounting mechanism 1 to the window frame 2.
Centre gripping subassembly 4 links to each other with the extensible member, and through setting up centre gripping subassembly 4 and the extensible member links to each other, the extensible member is flexible to be driven centre gripping subassembly 4 and is removed, has made things convenient for 4 centre gripping window frames 2 of centre gripping subassembly, improves user experience.
As shown in fig. 8, the stationary member is a fixed rail 51 and the telescopic member is a movable rail 52. For example, the fixed rail 51 is stationary, the moving rail 52 moves upward relative to the fixed rail 51, the clamping assembly 4 on the moving rail 52 moves upward together, and the upward movement of the moving rail 52 relative to the fixed rail 51 increases the total length of the moving rail 52 and the fixed rail 51, that is, the clamping assembly 4 can be adjusted according to different sizes of window frames 2 to meet the requirements of the window frames 2, thereby improving the versatility and adaptability of the mounting mechanism 1. For convenience of description, the fixed rail 51 and the movable rail 52 are used for illustration.
As shown in fig. 9, in some embodiments, the support assembly 9 further comprises: fastener assembly 96, handle piece 91.
The fastening component 96 is used for supporting the integrated air conditioner 3 and is suitable for being matched with the bottom of the window frame 2 to be positioned and installed on the window frame 2, the installation mechanism 1 is fixed on the window frame 2 by arranging the fastening component 96 to fix the installation mechanism 1 and the bottom of the window frame 2, and the stability of the installation mechanism 1 is further improved on the basis that the clamping component 4 fixes the installation mechanism 1 and the window frame 2.
The handle member 91 is engaged with the moving rail 52 to move the moving rail 52 up and down relative to the fixed rail 51.
For example, the clamping assembly 4 is disposed at the upper end of the moving rail 52, the clamping assembly 4 is engaged with the upper portion of the window frame 2, and the handle member 91 is disposed below the clamping assembly 4, it can be understood that the clamping assembly 4 is at a high height when the mounting mechanism 1 is mounted on the window frame 2, and the user inevitably needs to rise to a high height when the mounting mechanism 1 is mounted, in which case the user may be dangerous, and the above-mentioned mounting step is troublesome. According to the utility model, the handle piece 91 is arranged to drive the movable rail 52 to slide up and down, the handle piece 91 is positioned below the clamping component 4, so that a user can control the handle piece 91 to slide the movable rail 52 up and down without lifting to a higher height, the installation convenience and the disassembly convenience of the installation mechanism 1 are improved, meanwhile, the safety of the user is guaranteed, and the requirements of self-help installation, removal and movement of the user are met.
As shown in fig. 9 and 12, in some embodiments, the supporting assembly 9 further includes a positioning assembly 97, the positioning assembly 97 cooperates with the fixed rail 51 and the movable rail 52 respectively to position the movable rail 52 at a set position, and by arranging the positioning assembly 97 to position the movable rail 52 at the set position, the movable rail 52 can be fixed at the set position according to the user's needs, which facilitates the user to install the mounting mechanism 1 and reduces the difficulty level of installing the mounting mechanism 1. The positioning assembly 97 is matched with the fixed rail 51 and the moving rail 52, the positioning assembly 97 positions the moving rail 52 at a set position, and the moving rail 52 is fixed relative to the fixed rail 51, so that the total length of the moving rail 52 and the fixed rail 51 is fixed on a fixed size, and the installation mechanism 1 is conveniently installed on the window frame 2.
As shown in fig. 9 and 12, specifically, the positioning assembly 97 includes: a fixed portion 71 and a contact portion 72.
The fixing portion 71 is fixed to the fixing rail 51. The contact portion 72 is movably provided on the fixing portion 71, the contact portion 72 contacts with the moving rail 52 to position the moving rail 52 by friction, and the contact portion 72 positions the moving rail 52, thereby improving the controllability of the mounting mechanism 1. The movable rail 52 is movably engaged with the fixed rail 51, the movable rail 52 and the fixed rail 51 are relatively movable, the fixed portion 71 is provided on the fixed rail 51, and the contact portion 72 is provided on the fixed portion 71, when it is necessary to fix the movable rail 52 to the fixed rail 51, the movable contact portion 72 causes the contact portion 72 to contact the movable rail 52, and the movable rail 52 is fixed to the fixed rail 51 without being freely movable relative to the fixed rail 51 by the frictional force of the contact portion 72 against the movable rail 52.
As shown in fig. 12 and 13, more specifically, the contact portion 72 includes: a pressing block 73 and a second cam portion 74.
The pressing block 73 is in contact with the moving rail 52. The second cam portion 74 is eccentrically and rotatably provided on the fixed portion 71, the second cam portion 74 contacts the pressing block 73, the second cam portion 74 rotates to adjust the gap between the pressing block 73 and the moving rail 52, and by providing the second cam portion 74 to control the gap between the pressing block 73 and the moving rail 52, the pressing block 73 presses the moving rail 52 to fix the moving rail 52, further improving the controllability of the moving rail 52. The second cam portion 74 is eccentrically and rotatably provided on the fixed portion 71, the second cam portion 74 eccentrically and rotatably drives the pressing block 73 to move, a gap between the pressing block 73 and the moving rail 52 changes, and friction force is generated on the moving rail 52 by the pressing block 73, so that relative fixation between the moving rail 52 and the fixed rail 51 is ensured. The clearance between the pressing block 73 and the moving rail 52 is zero, the pressing block 73 is completely attached to the moving rail 52, but the second cam portion 74 can also make the pressing block 73 and the moving rail 52 attached more tightly, increase the friction force between the pressing block 73 and the moving rail 52, and further ensure the relative fixation of the moving rail 52 and the fixed rail 51.
As shown in fig. 8, optionally, a first mating hole 53 is formed in the fixed rail 51, a second mating hole is formed in the movable rail 52, the mounting mechanism 1 further includes a fixed connecting member (not shown), the fixed connecting member passes through the first mating hole 53 to be matched with the second mating hole, the fixed connecting member abuts against the fixed rail 51, the fixed connecting member is arranged to pass through the first mating hole 53 to be matched with the second mating hole, the fixed connecting member is located on the moving track of the movable rail 52, the blocked movable rail 52 cannot move, the movable rail 52 is fixed on the fixed rail 51, the total length of the movable rail 52 and the fixed rail 51 is fixed, and the stability of the fixed connection between the movable rail 52 and the fixed rail 51 is further improved on the basis that the pressing block 73 presses the movable rail 52. For example, when the movable rail 52 moves upward to a specific position relative to the fixed rail 51, the fixed connecting member passes through the first matching hole 53 and matches with the second matching hole, and the fixed connecting member is located on the moving track of the movable rail 52, the movable rail 52 is blocked by the fixed connection, the movable rail 52 cannot move upward or downward, the movable rail 52 is fixedly connected with the fixed rail 51, and the movable rail 52 is doubly fixed by the pressing block 73 and the fixed connecting member when the mounting mechanism 1 is mounted on the window frame 2, thereby improving the stability of the mounting mechanism 1.
In particular, the fixed connection is a mounting screw. The mounting screw passes through the first matching hole 53 on the fixed rail 51 to match with the second matching hole on the moving rail 52, the moving rail 52 is limited by the mounting screw, the moving rail 52 is fixed relative to the fixed rail 51, and the stability of the mounting mechanism 1 is improved.
As shown in fig. 14, in some embodiments, the fastening assembly 96 includes: support portion 961, bottom fastening portion 62.
The support portion 961 is adapted to cooperate with the integrated air conditioner 3 to support the integrated air conditioner 3. A bottom fastening portion 62 is provided on the support portion 961, the bottom fastening portion 62 being adapted to cooperate with the bottom of the sash 2 for positioning mounting on the sash 2.
Wherein the bottom fastening portion 62 includes: a fourth stopping portion 65 and a clamping assembly 63. The fourth abutting portion 65 is fixed to the support portion 961. The clamping component 63 is movable relative to the fourth stopping portion 65, the clamping component 63 and the fourth stopping portion 65 are respectively stopped against opposite side walls of the bottom of the window frame 2, and the clamping component 63 and the fourth stopping portion 65 are stopped against the window frame 2, so that the mounting mechanism 1 is fixed on the window frame 2, and the stability of the mounting mechanism 1 is improved. The clamping assembly 63 can move relative to the fourth stopping portion 65, when the mounting mechanism 1 is mounted, the clamping assembly 63 is adjusted to be away from the fourth stopping portion 65, a larger gap is formed between the clamping assembly 63 and the fourth stopping portion 65, and the clamping assembly 63 and the fourth stopping portion 65 can conveniently move to two sides of the opposite side wall of the bottom of the window frame 2; after the clamping member 63 and the fourth stopping portion 65 move to both sides of the opposite side wall of the bottom of the window frame 2, the clamping member 63 is adjusted to make the clamping member 63 approach the side wall surface of the bottom of the window frame 2, and the fourth stopping portion 65 and the clamping member 63 stop against the opposite side wall of the bottom of the window frame 2, so that the mounting mechanism 1 is fixed relative to the window frame 2. When the mounting mechanism 1 is disassembled, the clamping assembly 63 is adjusted to be away from the fourth stopping portion 65, a large gap is formed between the clamping assembly 63 and the fourth stopping portion 65, and the mounting mechanism 1 can move relative to the window frame 2.
For example, the fourth stopping portion 65 and the clamping member 63 are arranged in front and at the back, the clamping member 63 is arranged in front of the fourth stopping portion 65, and the clamping member 63 moves backward to approach the fourth stopping portion 65. When the mounting mechanism 1 is mounted on the window frame 2, the clamping assembly 63 abuts against the front side wall surface of the bottom portion of the window frame 2, the fourth abutting portion 65 abuts against the rear side wall surface of the bottom portion of the window frame 2, and the mounting mechanism 1 is fixed on the window frame 2.
As shown in fig. 14 and 15, specifically, the bottom fastening portion 62 further includes a bottom frame member 69, the bottom frame member 69 is connected to the fixing rail 51, the fourth abutting portion 65 is provided on the bottom frame member 69, the length of the fourth abutting portion 65 is smaller than that of the bottom frame member 69, second notches 691 are formed on both sides of the fourth abutting portion 65, and the fourth abutting portion 65 is positioned by setting the length of the fourth abutting portion 65 smaller than that of the bottom frame member 69, so that the user can install the mounting mechanism 1 conveniently. For example, the window frame 2 generally has an upper frame, a lower frame, a left frame, and a right frame, when the user mounts the mounting mechanism 1 on the window frame 2, the mounting mechanism 1 can be attached to the left frame, and the window frame 2 is attached to the left side surface of the fourth abutting portion 65, so that the user can use the handle member 91 to move the moving rail 52, and the user can mount the mounting mechanism 1 conveniently; meanwhile, the front side surface of the window frame 2 is attached to the rear side surface of the mounting mechanism 1, so that the mounting mechanism 1 is prevented from toppling over, and the safety is improved.
As shown in fig. 14, in some embodiments, the bottom fastening portion 62 further includes a second fixing plate 64, and the second fixing plate 64 is fixed to the supporting portion 961. The clamping assembly 63 includes a clamping plate (not shown) and a rotating member 68, the rotating member 68 is rotatably disposed on the second fixing plate 64, the rotating member 68 is connected to the clamping plate to push the clamping member to move relative to the second fixing plate 64 during rotation, the clamping plate and the fourth abutting portion 65 abut against the window frame 2, the rotating member 68 is arranged to push the clamping plate, and the clamping plate and the fourth abutting portion 65 abut against the window frame 2, so that a user can control the fastening assembly 96, and the installation of the installation mechanism 1 is facilitated. The second fixing plate 64 is fixed on the supporting portion 961, the fourth stopping portion 65 is fixed on the supporting portion 961, and the distance between the second fixing plate 64 and the fourth stopping portion 65 is fixed. The clamping plate is located between the second fixing plate 64 and the fourth stopping portion 65, the rotating member 68 rotates on the second fixing plate 64 to move itself, and the moving rotating member 68 pushes the clamping to move relative to the second fixing plate 64.
As shown in fig. 14, for example, the second fixing plate 64 is disposed in front of the fourth stopping portion 65, the rotating member 68 is rotatably disposed on the second fixing plate 64, the clamping plate is disposed at the rear end of the rotating member 68, the clamping plate is disposed between the second fixing plate 64 and the fourth stopping portion 65, the rotating member 68 rotates to move itself forward, the clamping plate is driven by the rotating member 68 to move forward together, the rotating member 68 rotates to move itself backward, and the clamping plate is pushed by the rotating member 68 to move backward together. When the mounting mechanism 1 is mounted on the window frame 2, the rotating piece 68 rotates to enable the rotating piece to move forward, the clamping plate moves forward, the distance between the clamping plate and the fourth abutting portion 65 is increased, and a large space between the clamping plate and the fourth abutting portion 65 enables the bottom of the window frame 2 to easily enter the space between the clamping plate and the fourth abutting portion 65, so that the mounting mechanism 1 is conveniently mounted on the window frame 2; when the clamping plate and the fourth stopping portion 65 move to the two sides of the two side wall surfaces of the bottom of the window frame 2, the rotating member 68 rotates to enable the rotating member 68 to move backwards, the clamping plate is pushed to move backwards together with the rotating member 68, the distance between the clamping plate and the fourth stopping portion 65 is reduced, and the clamping plate moves backwards until the clamping plate stops against the front side wall surface of the bottom of the window frame 2; when the mounting mechanism 1 is mounted on the window frame 2, the clamping plate abuts against the front side wall surface of the bottom of the window frame 2, the fourth abutting part 65 abuts against the rear side wall surface of the bottom of the window frame 2, the clamping plate and the fourth abutting part 65 are matched to clamp the bottom of the window frame 2, and the mounting mechanism 1 is fixed on the window frame 2 through the matching of the clamping plate and the fourth abutting part 65; when the mounting mechanism 1 is detached from the window frame 2, the rotating member 68 rotates to enable the rotating member to move forward, the clamping plate is driven by the rotating member 68 to move forward, the clamping plate is far away from the fourth abutting portion 65, and the gradually increased space between the clamping plate and the fourth abutting portion 65 enables the mounting mechanism 1 to move relative to the window frame 2, so that the mounting mechanism 1 can be conveniently detached from the window frame 2.
Specifically, the rotating member 68 is a bolt that is threadedly coupled to the second fixing plate 64.
Optionally, the clamping plate is further provided with a flexible member, and the window frame 2 is clamped by the flexible member to protect the window frame 2. For example, the flexible member is made of rubber, and the window frame 2 is protected by the rubber property.
In some embodiments, the fixed rail 51 is connected to the supporting portion 961, and the installation mechanism 1 has a stable end by connecting the fixed rail 51 to the supporting portion 961, so that the height of the installation mechanism 1 can be adjusted by only moving the fixed rail 51 or the moving rail 52, and the installation mechanism 1 can be conveniently connected to the window frame 2 and the integrated air conditioner 3.
As shown in fig. 1, in some embodiments, the supporting component 9 further includes a locking mechanism 98, the locking mechanism 98 is disposed on the fixed rail 51, the locking mechanism 98 is located below the clamping component 4, the locking mechanism 98 is adapted to cooperate with the integrated air conditioner 3 to position the integrated air conditioner 3, positioning the integrated air conditioner 3 by the locking mechanism 98 facilitates connection between the integrated air conditioner 3 and the mounting mechanism 1, improves connection stability between the integrated air conditioner 3 and the mounting mechanism 1, and improves user experience. Supporting part 961 cooperates with integral type air conditioner 3 in order to support integral type air conditioner 3, and locking mechanism 98 establishes on fixed rail 51 and cooperates with integral type air conditioner 3 in order to fix a position integral type air conditioner 3, fixes a position integral type air conditioner 3 on supporting part 961 supports integral type air conditioner 3's basis through setting up locking mechanism 98, and integral type air conditioner 3 stabilizes on installation mechanism 1 under the dual location of supporting part 961 and locking mechanism 98, improves the stability of being connected of installation mechanism 1 and integral type air conditioner 3.
As shown in fig. 9, specifically, the supporting assembly 9 further includes a blocking curtain 92, the upper and lower ends of the blocking curtain 92 are respectively connected to the locking mechanism 98 and the clamping assembly 4, and the blocking curtain 92 is arranged to block the flow of air and the diffusion of liquid inside and outside, so as to ensure the temperature adjusting effect of the integrated air conditioner 3. The upper end of the movable rail 52 is connected with the clamping component 4, the locking mechanism 98 is arranged on the fixed rail 51, and when the movable rail 52 moves relative to the fixed rail 51, the distance between the clamping component 4 and the locking mechanism 98 changes; the upper end and the lower end of the blocking curtain 92 are respectively connected with the locking mechanism 98 and the clamping component 4, the distance between the upper end and the lower end of the blocking curtain 92 can be changed along with the change of the distance between the clamping component 4 and the locking mechanism 98, and the blocking curtain 92 always exerts a blocking effect. It can be understood that the integrated air conditioner 3 is installed in the working process, the circulation of indoor and outdoor air is blocked by arranging the blocking curtain 92, the blocking curtain 92 can be changed along with the size change of the window frame 2, the blocking curtain 92 can be adapted to the window frames 2 with different sizes, and the universality of the installation mechanism 1 is improved. The specific structure of the blocking curtain 92 can refer to a pleated curtain in the prior art, which is not described herein.
As shown in fig. 1 and 11, in other embodiments, the locking mechanism 98 includes: horizontal moving member 81 is equipped with hook portion 82 on the horizontal moving member 81, is equipped with hook hole 31 on the integral type air conditioner 3, and hook portion is suitable for and fixes a position integral type air conditioner 3 with hook hole 31 cooperation, fixes a position integral type air conditioner 3 through setting up horizontal moving member 81, and the user can install and dismantle integral type air conditioner 3 as required, satisfies the user and removes the demand of integral type air conditioner 3, improves user experience. The cooperation of the hook portions 82 and the hook holes 31 enables the integrated air conditioner 3 to be positioned on the mounting mechanism 1, wherein the horizontal moving member 81 can move, and the horizontal moving member 81 moves to enable the hook portions 82 to be engaged with the hook holes 31, so that the integrated air conditioner 3 is mounted on the mounting mechanism 1; the horizontal moving member 81 moves to disengage the hook portion 82 from the hook hole 31, so that the integrated air conditioner 3 can be detached from the mounting mechanism 1.
For example, the horizontal moving member 81 can move left and right, the horizontal moving member 81 moves right to enable the hook part 82 to extend into the hook hole 31, the hook part 82 hooks the integrated air conditioner 3, the integrated air conditioner 3 is fixed on the installation mechanism 1, the risk that the integrated air conditioner 3 tilts forward and falls off from the installation mechanism 1 is avoided, and safety is improved; horizontal moving member 81 moves left and makes couple portion 82 shift out from hook hole 31, and integral type air conditioner 3 has lost the restriction of couple portion 82, and integral type air conditioner 3 can be dismantled from installation mechanism 1, through setting up horizontal moving member 81, has made things convenient for the installation to integral type air conditioner 3, simplifies the installation procedure.
As shown in fig. 11, in some embodiments, a hand-poking portion 812 is disposed on the horizontal moving member 81, and the hand-poking portion 812 is disposed on one side of the horizontal moving member 81 and extends in a direction away from the horizontal moving member 81, so that the user can conveniently control the horizontal moving member 81 by disposing the hand-poking portion 812. For example, the hand dialing part 812 is arranged at the upper end of the horizontal moving part 81, the horizontal moving part 81 is arranged at the upper end of the integrated air conditioner 3, the hand dialing part 812 extends out of the integrated air conditioner 3, and a user can conveniently dial the hand dialing part 812 to move the hand dialing part 812. Of course, the hand-dialing part 812 may also be disposed at the upper end, the left end and the rear end of the horizontal movement, which is not described herein.
As shown in fig. 11 and 18, in other embodiments, the locking mechanism 98 further includes a fixing member 85, the fixing member 85 is disposed on the fixing rail 51, a third fitting hole 853 is disposed on the fixing member 85, a fourth fitting hole 312 is disposed on the integrated air conditioner 3, the locking mechanism 98 further includes a fixing member (not shown), the fixing member passes through the third fitting hole 853 to be fitted with the fourth fitting hole 312 to fix the integrated air conditioner 3 on the mounting mechanism 1, and on the basis that the hook portion 82 is fitted with the hook hole 31 to position the integrated air conditioner 3, the integrated air conditioner 3 is further limited, and the connection stability between the integrated air conditioner 3 and the mounting mechanism 1 is improved.
As shown in fig. 11, specifically, the horizontal moving member 81 is movably disposed on the fixed member 85, the locking mechanism 98 further includes a spring 86, one end of the spring 86 is connected to the horizontal moving member 81, the other end of the spring 86 is disposed on the fixed member 85, and the spring 86 has a tendency to lock the horizontal moving member 81. When the horizontal moving member 81 is in the locked state, the hook portion 82 on the horizontal moving member 81 is engaged with the hook hole 31 to position the integrated air conditioner 3.
For example, the left end of the spring 86 is connected to the horizontal moving member 81, the right end of the spring 86 is connected to the fixed portion 71, and the spring 86 pulls the horizontal moving member 81 to the right; alternatively, the right end of the spring 86 is connected to the horizontal moving member 81, the left end of the spring 86 is connected to the fixed portion 71, and the spring 86 pushes the horizontal moving member 81 to move rightward. Of course, the spring 86 can also move the horizontal moving member 81 to the left, and the situation that the horizontal moving member 81 moves to the left is the same as the situation that the horizontal moving member 81 moves to the right, which is not described in detail herein.
As shown in fig. 11, more specifically, the horizontal moving member 81 is provided with a limiting portion 811, the fixing member 85 is provided with a limiting member, the limiting member moves on the limiting portion 811, and the movement of the horizontal moving member 81 is limited by the limiting portion 811 and the limiting member, so that the horizontal moving member 81 can be conveniently controlled. When the limiting member abuts against the limiting portion 811, the horizontal moving member 81 is in a locking state.
Optionally, the limiting member is a limiting screw, the limiting portion 811 is a limiting hole, the limiting screw passes through the screw hole 852 and is in threaded connection with the fixing member 85, and the limiting screw is disposed in the limiting hole.
As shown in fig. 16, in some embodiments, a groove 311 is formed on the integrated air conditioner 3, the groove 311 cooperates with the support portion 961 to support the integrated air conditioner 3, and by arranging the groove 311 cooperates with the support portion 961 to support the integrated air conditioner 3, the integrated air conditioner 3 can be conveniently installed on the basis of positioning the integrated air conditioner 3 by the locking mechanism 98. For example, the groove 311 is located at the bottom end of the integrated air conditioner 3, the hook hole 31 is located at the top end of the integrated air conditioner 3, when the integrated air conditioner 3 is installed, the groove 311 of the integrated air conditioner 3 is firstly matched with the supporting portion 961 to support the integrated air conditioner 3, and then the integrated air conditioner 3 is fixed on the installation mechanism 1 only by rotating the integrated air conditioner 3 to enable the hook hole 31 of the integrated air conditioner 3 to be matched with the hook portion 82, so that the installation steps are simplified, and a user can install the integrated air conditioner 3 by himself.
As shown in fig. 8, in some embodiments, the fixed rail 51 is provided with a damping member 511, the damping member 511 is attached to the integrated air conditioner 3, and the damping member 511 is provided to reduce the influence of vibration on the mounting mechanism 1 when the integrated air conditioner 3 operates, thereby reducing noise.
As shown in fig. 8, in some embodiments, two fixed rails 51 are disposed on two sides of the mounting mechanism 1, and two movable rails 52 are disposed corresponding to the two fixed rails 51, respectively, so that the two fixed rails 51 and the two movable rails 52 cooperate to improve the stability of the mounting mechanism 1.
As shown in fig. 8, specifically, the two fixed rails 51 are respectively disposed at two ends of the fastening assembly 96 and the locking mechanism 98, the two fixed rails 51, the locking mechanism 98 and the fastening assembly 96 limit the installation space 54 to match the integrated air conditioner 3, and the two fixed rails 51, the locking mechanism 98 and the fastening assembly 96 form a frame structure, so that the overall stability of the installation structure is improved.
As shown in fig. 8, more specifically, the integrated air conditioner 3 is provided with a mounting groove 313, and the mounting groove 313 is fitted with the mounting space 54. For example, the size of the mounting groove 313 is smaller than that of the mounting space 54, and the mounting groove 313 can enter the mounting space 54 to enable the side surface of the mounting groove 313 to be attached to the inner side surface of the mounting space 54, so that the integrated air conditioner 3 can be conveniently mounted in place.
As shown in fig. 8, in some embodiments, the handle member 91 is disposed between the two moving rails 52, the handle member 91 is disposed in the installation space 54, and by disposing the handle member 91 in the installation space 54, when the integrated air conditioner 3 is installed in the installation space 54, the handle member 91 can position the integrated air conditioner 3, so as to prevent the integrated air conditioner 3 from falling to one side, thereby improving safety.
As shown in fig. 17, more specifically, the blocking curtain 92 is disposed between the two moving rails 52, the sliding groove 521 is disposed on the moving rail 52, part of the blocking curtain 92 extends into the sliding groove 521, and by disposing part of the blocking curtain 92 to extend into the sliding groove 521, the blocking effect of the blocking curtain 92 is improved, and meanwhile, the blocking curtain 92 is better limited and stored.
An embodiment of the installation mechanism 1 of the unitary air conditioner according to the present invention will be described with reference to fig. 1 to 18.
A mounting mechanism 1 of an integrated air conditioner comprises a supporting component 9 and a clamping component 4.
The support assembly 9 comprises: telescoping assembly 95, positioning assembly 97, handle piece 91, fastening assembly 96, locking mechanism 98, and blocking curtain 92.
The telescopic assembly 95 comprises a stationary member and a telescopic member, the stationary member is a fixed rail 51, the telescopic member is a movable rail 52, and the fixed rail 51 is movably matched with the movable rail 52.
The two fixed rails 51 are arranged left and right, and the fixed rails 51 are provided with first matching holes 53 and shock absorbing members 511. The damper 511 is made of rubber, and the damper 511 is provided on the front wall surface of the fixed rail 51. The two moving rails 52 correspond to the two fixed rails 51, and the moving rails 52 are provided with second engaging holes and sliding grooves 521. The second matching hole corresponds to the first matching hole 53, the fixed connecting piece is a mounting screw, the fixed connecting piece penetrates through the first matching hole 53 to be matched with the second matching hole, and the fixed connecting piece is stopped on the fixed rail 51.
The positioning member 97 includes a fixing portion 71 and a contact portion 72. The fixing portion 71 is fixed to the upper end of the fixing rail 51. The contact portion 72 includes a pressing block 73 and a second cam portion 74, the pressing block 73 being in contact with the moving rail 52; the second cam portion 74 is eccentrically rotatably provided on the fixed portion 71, the second cam portion 74 contacts the pressing block 73, and the second cam portion 74 rotates to adjust the gap between the pressing block 73 and the moving rail 52 to position the moving rail 52 at the set position.
The handle member 91 is disposed between the two movable rails 52, two ends of the handle member 91 are respectively connected to the movable rails 52 on two sides, and the handle member 91 drives the movable rails 52 to slide up and down on the fixed rails 51.
The fastening assembly 96 includes a bottom fastening portion 62 and a support portion 961.
The bottom fastening portion 62 includes a bottom frame member 69, a second fixing plate 64, and a clamping assembly 63. The bottom frame member 69 is disposed at the bottom end of the fixed rail 51, the bottom frame member 69 is provided with a fourth abutting portion 65, the length of the fourth abutting portion 65 is smaller than that of the bottom frame member 69, and second notches 691 are formed at both sides of the fourth abutting portion 65. The second fixing plate 64 is provided on the bottom frame member 69, and the second fixing plate 64 is provided in front of the fourth abutting portion 65. The clamping assembly 63 comprises a rotating member 68 and a clamping plate, the rotating member 68 is a bolt, and the rotating member 68 is rotatably disposed on the second fixing plate 64; the clamping plate is arranged at the rear end of the rotating part 68, the rotating part 68 rotates to drive the clamping plate to move back and forth, and the clamping plate and the fourth abutting part 65 abut against the front side wall and the rear side wall of the bottom of the window frame 2 respectively. Two support portions 961 are provided on the bottom frame member 69.
The locking mechanism 98 includes a fixed member 85, a horizontal moving member 81, a spring 86, and a fixed member.
The fixing member 85 is disposed at the upper end of the fixed rail 51, and the fixing member 85 is provided with a third matching hole 853 and a limiting member. The limiting pieces are limiting screws, and the two limiting screws are in threaded connection with the fixing piece 85 through screw holes 852. The horizontal moving member 81 is movably provided on the fixed member 85, and the horizontal moving member 81 is provided with a hook portion 82, a stopper portion 811, and a hand-dialing portion 812. Two hook portions 82 are provided at the left and right ends of the horizontal moving member 81, and the two hook portions 82 extend forward. The spacing portion 811 is a spacing hole, the two spacing portions 811 correspond to the two limiting members, and when the limiting members abut against the left end of the spacing portion 811, the horizontal moving member 81 is in a locking state. The hand-dialing part 812 is arranged at the upper end of the horizontal moving part 81, and the hand-dialing part 812 extends upwards. The left end of the spring 86 is connected with the horizontal moving part 81, the right end of the spring 86 is connected with the fixing part 85, and the spring 86 has a tendency of enabling the horizontal moving part 81 to be in a locking state. The fixing rails 51 at both sides, the fixing member 85 at the upper end, and the bottom frame member 69 at the lower end together define the installation space 54.
The curtain 92 is disposed between the two moving rails 52, a part of the curtain 92 is inserted into the sliding groove 521 of the two moving rails 52, the upper end of the curtain 92 is connected to the upper frame member 49, and the lower end of the curtain 92 is connected to the fixing member 85.
The clamping assembly 4 comprises: an upper frame member 49, a second movable member 41, a second mounting portion 42, and a driving member 43.
The upper frame member 49 is provided at the upper end of the moving rail 52, the upper frame member 49 is provided with a third abutting portion 44, the length of the third abutting portion 44 is smaller than that of the upper frame member 49, and first notches 491 are formed at both sides of the third abutting portion 44.
The second mounting portion 42 is provided on the upper frame member 49, and the second mounting portion 42 is provided in front of the third abutting portion 44.
The second movable member 41 includes a base portion 45 and an adjusting member 46, the base portion 45 is disposed on the second mounting portion 42, and the base portion 45 can move back and forth relative to the third stopping portion 44; the adjusting member 46 is detachably disposed at the rear end of the base portion 45, and the adjusting member 46 and the third abutting portion 44 abut against the front and rear side walls of the upper portion of the window frame 2, respectively.
The driver 43 includes a first cam portion 47 and a handle portion 48, the first cam portion 47 is eccentrically rotatably provided on the second mounting portion 42, and the first cam portion 47 is in contact with the base portion 45 to drive the base portion 45 to move forward and backward when rotated. The first cam portion 47 is provided with three locking positions: a first locking position 471, a second locking position 472, and a third locking position 473. When the second locking position 472 contacts the second moving member 41, the distance between the second moving member 41 and the third abutting portion 44 is smaller than the distance between the second moving member 41 and the third abutting portion 44 when the first locking position 471 and the second moving member 41 contact, when the third locking position 473 contacts the second moving member 41, the distance between the second moving member 41 and the third abutting portion 44 is larger than the distance between the second moving member 41 and the third abutting portion 44 when the first locking position 471 and the second moving member 41 contact, wherein the state where the third locking position 473 contacts the second moving member 41 is the initial state of the clamping assembly 4, the driving member 43 rotates 90 degrees counterclockwise to make the second moving member 41 and the first locking position 471, and the driving member 43 rotates 90 degrees clockwise to make the second moving member 41 contact the second locking position 472. The handle portion 48 cooperates with the first cam portion 47 to rotate the first cam portion 47.
The integrated air conditioner 3 is mounted on the mounting mechanism 1, and the integrated air conditioner 3 is provided with a hook hole 31, a groove 311, a fourth matching hole 312 and a mounting groove 313. The two hook holes 31 are formed at the top end of the integrated air conditioner 3, the two hook holes 31 correspond to the two hook portions 82, and the horizontal moving member 81 is in a locked state when the two hook portions 82 are engaged with the two hook holes 31. Two grooves 311 are provided on the bottom surface of the integrated air conditioner 3, and the two grooves 311 are provided corresponding to the two support portions 961. Fourth mating holes 312 are established on the top of integral type air conditioner 3, and fourth mating holes 312 corresponds with third mating holes 853, and firm piece passes third mating holes 853 and the cooperation of fourth mating holes 312 with location integral type air conditioner 3. The mounting groove 313 is fitted with the mounting space 54.
When the user mounts the mounting mechanism 1 to the window frame 2, the user first moves the fourth stopping portion 65 and the clamping plate to the front and rear sides of the window frame 2, and pushes the mounting mechanism 1 to the left or right frame, so that the first notch 491 and the second notch 691 of the mounting mechanism 1 are engaged with the window frame 2. Then, by screwing the rotating member 68 of the fastening assembly 96 by hand and simultaneously lifting the handle member 91, the moving rail 52 on the mounting mechanism 1 is lifted under the guiding action of the handle member 91 and the left frame or the right frame, the third abutting portion 44 and the adjusting member 46 are moved to the front and rear sides of the window frame 2, and the second cam portion 74 is rotated to press the pressing block 73 on the moving rail 52, at this time, the user can release the mounting mechanism 1, and the user can safely and conveniently rotate the first cam portion 47 by using the handle portion 48 to press the third abutting portion 44 and the adjusting member 46 on the front and rear sides of the window frame 2. After the mounting mechanism 1 is mounted in place, the cooperation between the mounting mechanism 1 and the sash 2 can be good enough to avoid the risk of the mounting mechanism 1 tipping outwards.
Currently, most users adopt a method of installing a mobile air conditioner or a wall-mounted air conditioner in order to adjust the temperature comfort of a room. Because the outdoor side and the indoor side of the mobile air conditioner are integrally arranged, in the starting process of the mobile air conditioner, cold airflow on the indoor side and hot airflow on the outdoor side are both discharged into a room, so that the mobile air conditioner can only refrigerate local space in the room and cannot meet the temperature regulation requirement of the whole room. The wall-mounted air conditioner can not meet the mobile requirements of users, or can not meet the requirements of users for self-installation or carrying away of the air conditioner, and the use experience of the users is influenced by the mode. Meanwhile, because the small-area room is not provided with an external unit installation position, a user cannot install the wall-mounted air conditioner by himself even if the user wants to install the wall-mounted air conditioner. Window type air conditioners exist in the market, but window type air conditioners have the problems that supports are not friendly to install, are troublesome to install, occupy outdoor space and interfere with anti-theft windows.
According to the utility model, the mounting mechanism 1 is designed to be matched and fastened with the window frame 2, the first cam part 47 is arranged at the upper part of the mounting mechanism 1, so that the third abutting part 44 and the adjusting piece 46 clamp the front side and the rear side of the window frame 2, the adjusting piece 46 made of rubber is arranged at the front end of the base body 45, the adjusting piece 46 is detachably arranged on the base body 45, and a user can replace the adjusting piece 46 according to the actual window size, so that the mounting and use requirements of different windows are met. Meanwhile, the window frame 2 is fastened through the adjusting piece 46 made of rubber, so that the window frame 2 is prevented from being clamped and damaged.
The upper parts of the two sides of the installation mechanism 1 are provided with first notches 491, the bottom parts of the two sides of the installation mechanism 1 are provided with second notches 691, when a user installs the installation mechanism 1, the user can push the installation mechanism 1 leftwards or rightwards to the notches to be matched with the window frame 2, so that the user can use the window frame 2 as guiding location when using the handle piece 91 to lift the movable rail 52, and the installation by the user is convenient. After the installation mechanism 1 is installed in place, the window frame 2 is matched with the first notch 491 and the second notch 691, so that the outer side of the window frame 2 can be prevented from toppling.
The installation mechanism 1 is provided with the blocking curtain 92, and two sides of the blocking curtain 92 extend into the sliding grooves 521 on the moving rails 52 at two sides, so that the blocking effect of the blocking curtain 92 is improved, and the limiting effect and the accommodating effect of the moving rails 52 are better exerted.
The pressing block 73 is arranged on the mounting mechanism 1, and the second cam part 74 fixes the moving rail 52 by pressing the pressing block 73, so that the stability of the moving rail 52 is greatly enhanced, and the overall mounting reliability of the mounting frame is improved.
The handle part 91 is arranged on the movable rail 52, the handle part 91 is fixedly connected with the movable rails 52 on the two sides, and a user can lift the movable rails 52 on the two sides, the clamping component 4 and the blocking curtain 92 and clamp the window frame 2 by lifting the handle part 91, so that the user can lift and fix the window frame without climbing.
The installation mechanism 1 fastens the clamping plate by arranging the rotating piece 68, the rotating piece 68 pushes the clamping plate to move so as to stop against the window frame 2, and the clamping plate (the front end of which can be provided with rubber) stops against the window frame 2 instead of directly contacting and fastening the screw with the window frame 2, so that the stability between the installation mechanism 1 and the window frame 2 is improved and the window frame 2 is prevented from being clamped and damaged.
An integrated air conditioner device 10 according to an embodiment of the present invention includes: the integrated air conditioner comprises an integrated air conditioner 3 and an installation mechanism 1.
The mounting mechanism 1 is the mounting mechanism 1 of the integrated air conditioner, and the integrated air conditioner 3 is placed on the supporting component 9.
According to the integrated air conditioner equipment 10 disclosed by the embodiment of the utility model, the supporting component 9 is firmly fixed on the window frame 2 by arranging the clamping component 4, so that the quick installation of the installation mechanism 1 is realized; in addition, the clamping assembly 4 is arranged to clamp the two opposite sides of the window frame 2, so that the supporting assembly 9 cannot shake, and the stability of the mounting mechanism 1 is improved; the utility model also enables the clamping components 4 to be clamped at the two opposite sides of the window frames 2 with different thicknesses by arranging a plurality of clamping positions, thereby improving the adaptability of the mounting mechanism 1 and the universality of the mounting mechanism 1.
In some embodiments, the integrated air conditioner 3 is matched with the supporting portion 961, and the supporting portion 961 is arranged to support the integrated air conditioner 3, so that the integrated air conditioner 3 is convenient to mount and dismount, and convenience is improved.
In some embodiments, the integrated air conditioner 3 includes: casing, indoor heat exchanger part, air conditioner fan part, air outlet frame part, outdoor heat exchanger part, outdoor fan, compressor unit spare. The shell comprises a front shell, a rear shell, a bottom shell, a top shell and a side shell. Be equipped with first air outlet on the preceding shell, be equipped with air outlet switch door on the first air outlet, be used for opening or close the air outlet. The first air inlet is formed in the front shell and/or the side shell, and an air-conditioning return air grille filter screen is arranged on the first air inlet. The backshell both sides are equipped with the stand, are used for gaining in strength and for the installation is fixed provides the position through setting up the stand.
Other constructions and operations of the mounting mechanism 1 of the unitary air conditioner according to the embodiment of the present invention are known to those skilled in the art and will not be described in detail herein.
In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "transverse," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the utility model and to simplify the description, but are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and are not to be construed as limiting the utility model.
Furthermore, features defined as "first" and "second" may explicitly or implicitly include one or more of the features for distinguishing between descriptive features, non-sequential, non-trivial and non-trivial.
In the description of the present invention, "a plurality" means two or more unless otherwise specified.
In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.
In the description herein, references to the description of the terms "embodiment," "example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (12)

1. An installation mechanism of an integrated air conditioner, characterized in that the integrated air conditioner is installed on a window sill having a window frame, the installation mechanism comprising:
a support assembly on which the integrated air conditioner is placed;
the clamping assembly is arranged on the supporting assembly and clamps the two opposite sides of the window frame to be installed on the window frame in a positioning mode, and the clamping assembly is provided with a plurality of clamping positions to adapt to the window frames with different thicknesses.
2. The mounting mechanism of an integrated air conditioner according to claim 1, wherein said clamp assembly comprises:
the first stopping part is arranged on the support component;
the first mounting part is arranged on the supporting component and is static relative to the first abutting part, and a plurality of mounting positions are arranged on the first mounting part;
the first moving piece is detachably matched with any one of the mounting positions to adjust a clamping gap between the first moving piece and the first abutting portion, and the clamping gap defines the clamping position.
3. The mounting mechanism of an integral type air conditioner according to claim 2, wherein a plurality of first fastening holes are provided on the first mounting portion, and a second fastening hole is provided on the first moving member;
the clamping assembly further comprises a fastener, and the fastener is matched with any one of the first fastening hole and the second fastening hole to adjust the positioning position of the first moving piece.
4. The mounting mechanism of an integral type air conditioner according to claim 3, wherein a plurality of the first fastening holes are provided at intervals on the first mounting portion, and a distance between a center of the plurality of the first fastening holes and the abutting surface of the first abutting portion is sequentially changed.
5. The mounting mechanism of an integrated air conditioner according to claim 1, wherein said clamp assembly comprises:
the second stopping part is arranged on the supporting component;
the second clamping part comprises a plurality of clamping surfaces, and gaps between the plurality of clamping surfaces and the second stopping part are different so as to limit a plurality of clamping positions.
6. The mounting mechanism of an integral type air conditioner according to claim 5, wherein at least one of said holding surfaces is formed as an inclined surface extending obliquely toward a direction away from said second abutting portion.
7. The mounting mechanism of an integral type air conditioner according to claim 5, wherein said second clamping portion is an elastic member.
8. The mounting mechanism of an integrated air conditioner according to claim 1, wherein said clamp assembly comprises:
the third stopping part is arranged on the supporting component;
the second mounting part is arranged on the supporting component and is static relative to the third stopping part;
the second movable piece is movably arranged on the second mounting part;
the driving piece is provided with a plurality of locking positions and is rotatably arranged on the second installation portion so that the locking positions are in switching contact with the second moving piece to change the distance between the second moving piece and the third abutting portion to limit the clamping positions.
9. The mounting mechanism of an integral type air conditioner according to claim 8, wherein said second movable member includes a base portion and an adjustment member detachably provided on said base portion, said adjustment member being stopped against said window frame.
10. The air conditioner mounting mechanism as claimed in claim 8, wherein said locking position is formed in a plane.
11. The mounting mechanism of an integrated air conditioner according to any one of claims 1 to 10, wherein said support assembly comprises:
the telescopic assembly comprises a static part and a telescopic part, the telescopic part is in telescopic fit with the static part, two opposite sides of the telescopic assembly are connected with the window frame, and the integrated air conditioner is arranged on the static part;
the clamping assembly is connected with the telescopic piece.
12. An integrated air conditioner apparatus, comprising:
an integrated air conditioner;
a mounting mechanism according to any one of claims 1 to 11, said unitary air conditioner being placed on said support assembly.
CN202122309477.6U 2021-09-23 2021-09-23 Installation mechanism of integral type air conditioner and integral type air conditioner equipment Active CN216620063U (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
CN202122309477.6U CN216620063U (en) 2021-09-23 2021-09-23 Installation mechanism of integral type air conditioner and integral type air conditioner equipment
PCT/CN2022/076089 WO2023045223A1 (en) 2021-09-23 2022-02-11 Installation mechanism for integrated air conditioner and integrated air conditioner device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202122309477.6U CN216620063U (en) 2021-09-23 2021-09-23 Installation mechanism of integral type air conditioner and integral type air conditioner equipment

Publications (1)

Publication Number Publication Date
CN216620063U true CN216620063U (en) 2022-05-27

Family

ID=81692253

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202122309477.6U Active CN216620063U (en) 2021-09-23 2021-09-23 Installation mechanism of integral type air conditioner and integral type air conditioner equipment

Country Status (1)

Country Link
CN (1) CN216620063U (en)

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