The present application relates to the field of air-conditioning equipment, in particular, to a floor-type air-conditioning indoor unit and an air conditioner.
At present, air conditioners generally have a single air supply form and a small air supply range, which does not meet the diversified needs of users. In order to realize various forms of air supply of air conditioners and increase the air supply range simultaneously, those skilled in the art began to study the air conditioner with top air outlet. For an air conditioner with a top air outlet, an installation port is generally set on the top of the air conditioner, and a top air outlet structure is movably installed at the installation port. However, the top air outlet structure is prone to swinging back and forth during moving up and down.
The above contents are only used to assist in understanding the technical solution of the present application, and do not mean to recognize that the above contents are prior art.
The main purpose of the present application is to propose a floor-type air-conditioning indoor unit, which aims to prevent a top air outlet frame of the floor-type air-conditioning indoor unit from swinging back and forth during moving up and down.
In order to achieve at least the above purpose, the present application proposes a floor-type air-conditioning indoor unit, including:
a housing defined with an air inlet and an installation port with an upward opening, an air duct being formed between the installation port and the air inlet;
a top air outlet frame installed at the installation port and movable in an up-down direction and defined with a lower port and a front port; and
a fan assembly installed in the air duct and configured to blow an airflow from the air inlet to the lower port of the top air outlet frame and out from the front port of the top air outlet frame;
wherein one of the top air outlet frame and the housing is provided with a sliding plate extending in the up-down direction, and the other is provided with a sliding groove engaged with the sliding plate, a length of the sliding plate is longer than or equal to a maximum trip of the top air outlet frame moving in the up-down direction.
Optionally, the length of the sliding plate is less than or equal to twice the maximum trip of the top air outlet frame moving in the up-down direction.
Optionally, the housing includes an outer housing and an air duct housing installed in the outer housing, the installation port is formed on a top surface of the air duct housing, and the air duct is formed inside the air duct housing.
Optionally, the sliding plate is provided on the top air outlet frame, and the sliding groove is defined on an inner wall of the air duct housing.
Optionally, the top air outlet frame has two opposite side plates and two sliding plates, and the two sliding plates are respectively connected with the two side plates and extended downwards.
Optionally, the floor-type air-conditioning indoor unit further includes a sliding rail detachably installed on the sliding plate.
Optionally, the sliding rail is defined with a first screw hole, and the sliding plate is defined with a second screw hole corresponding to the first screw hole, and the sliding rail is fixed with the sliding plate by a screw inserted to the first screw hole and the second screw hole.
Optionally, the sliding rail is provided with a positioning hole, and the sliding plate is provided with a positioning column engaged with the positioning hole.
Optionally, a front side of the outer housing is provided with an air outlet located below the top air outlet frame, the air duct housing is provided with an air opening corresponding to the air outlet, and the fan assembly is also provided to drive the airflow to the air opening and blow out from the air outlet.
Optionally, the top air outlet frame has a first position extending out of the installation port and a second position hidden in the air duct housing.
Optionally, the floor-type air-conditioning indoor unit further includes a driving device installed on the air duct housing, and the driving device is connected with the top air outlet frame to drive the top air outlet frame to move between the first position and the second position.
The present application also proposes an air conditioner, including:
a floor-type air-conditioning outdoor unit; and
a floor-type air-conditioning indoor unit connected with the floor-type air-conditioning outdoor unit through a refrigerant pip.
The floor-type air-conditioning indoor unit of the present application adopts a top air outlet frame installed at the installation port of the housing. The top air outlet frame is provided with a lower port and a front port. The airflow is blown from the air inlet to the lower port of the top air outlet frame by the fan assembly and out from the front port of the top air outlet frame, so as to realize to blow air from the top of the floor-type air-conditioning indoor unit and increase the air supply range. At the same time, the top air outlet frame can move up and down, so as to change a height of the top air outlet frame, and further change the air supply range of the top air outlet frame. In addition, one of the top air outlet frame and the housing is provided with a sliding plate extending in the up-down direction, and the other is provided with a sliding groove engaged with the sliding plate, and a length of the sliding plate is longer than or equal to the maximum trip of the top air outlet frame in the up-down direction, thus it can also effectively prevent the top air outlet frame from swinging back and forth during moving up and down, and avoid the generation of noise.
In order to more clearly explain the embodiments of the present application or the technical solutions in the related art, the following will briefly introduce the drawings needed in the embodiments or the description of the prior art. It is obvious that the drawings in the following description are only some embodiments of the present application. For those skilled in the art, other drawings can also be obtained according to the structure shown in these drawings, without paying creative labor.
It should be noted that if the embodiment of the present application involves a directional indication (such as up, down, left, right, front, rear . . . ), the directional indication is only used to explain the relative position relationship, movement, etc. among components in a specific posture (as shown in the attached drawings). If the specific posture changes, the directional indication will change accordingly. In addition, “and/or” in the full text includes three parallel schemes. Taking “A and/or B” as an example, “A and/or B” includes scheme A, or scheme B, or both schemes A and B.
The present application provides a floor-type air-conditioning indoor unit.
Referring to
In this embodiment of the present application, a rear side of the housing 110 is provided with an air inlet 111, and a front side of the housing 110 is provided with an air outlet 112 located below the top air outlet frame 120. It is not generalizable that an air outlet grille is installed at the air outlet 112. An upper end of the housing 110 is provided with an installation port with an upward opening for the installation of the top air outlet frame 120. Here, it should be noted that the housing 110 includes an outer housing and an air duct housing installed in the outer housing, the installation port is formed on a top surface of the air duct housing, that is, the installation port is provided on the top surface of the air duct housing, and the air duct is formed inside the air duct housing. Meanwhile, the front side of the outer housing is provided with the air outlet 112, the air duct housing is provided with a first air opening corresponding to the air outlet 112, the rear side of the housing is provided with the air inlet 111, and the air duct housing is provided with a second air opening corresponding to the air inlet 111. Of course, it is not limited to this. The housing 110 can also only include the outer housing, the installation port is formed on the top surface of the outer housing (that is, the installation port is provided on the top surface of the outer housing), and the air duct is formed inside the outer housing.
The top air outlet frame 120 can be installed at the installation port and moveable up and down, and has a maximum trip in the up-down direction. For ease of understanding, the highest position of the top air outlet frame 120 in the up-down direction can be defined as the first position, and the lowest position of the top air outlet frame 120 in the up-down direction can be defined as the second position. The top air outlet frame 120 can move between the first position and the second position in the up-down direction. Here, it should be noted that the first position and the second position are not specifically limited. For example, the top air outlet frame 120 has a first position and a second position both extending out of the installation port. When the top air outlet frame 120 is located at the first position, at the second position or at any position between the first position and the second position, the top air outlet frame 120 can be always out of the installation port, that is, the top air outlet frame 120 is exposed from the housing 110. At this time, the top air outlet frame 120 moves between the first position and the second position to change the height of the top air outlet frame 120, thereby changing the air supply range of the top air outlet frame 120.
For another example, the top air outlet frame 120 has a first position extending out of the installation port and a second position hidden in the air duct housing. When the top air outlet frame 120 is located at the first position, the top air outlet frame 120 extends out of the installation port. When the top air outlet frame 120 is located at the second position, the top air outlet frame 120 is hidden in the air duct housing. At this time, the top air outlet frame 120 is still located above the air outlet 112. In this way, when the user needs the top air outlet of the floor-type air-conditioning indoor unit 100, the top air outlet frame 120 can be moved above the installation port, so that the airflow can be blown out through the front port 122 of the top air outlet frame 120 to increase the air supply range. When the user does not need the top air outlet of the floor-type air-conditioning indoor unit 100, the top air outlet frame 120 can be moved below the installation port, that is, the top air outlet frame 120 can be stored in the air duct housing, such that the floor-type air-conditioning indoor unit 100 has a variety of air outlet modes, which can better meet the diversified needs of users.
The structure and shape of the top air outlet frame 120 can be various without specific limitation. For example, but it is not limited to this, in one embodiment, the top air outlet frame 120 includes a substantially U-shaped frame plate and a rear end plate provided at the rear end of the frame plate (as shown in
In the embodiment of the present application, in order to better drive the top air outlet frame 120 to move between the first position and the second position, one of the top air outlet frame 120 and the housing 110 can be provided with a sliding plate 150 extending in the up-down direction, and the other can be provided with a sliding groove 140 engaged with the sliding plate 150. Considering that the top air outlet frame 120 may swing back and forth during moving up and down and thus significant noise is produced, the length of the sliding plate 150 can be greater than or equal to the maximum trip of the top air outlet frame 120 in the up-down direction to prevent the top air outlet frame 120 from swinging back and forth during moving up and down and avoid the generation of noise. Here, the maximum trip refers to the one-way trip of the top air outlet frame 120 moving from the first position to the second position, that is, a distance between the first position and the second position.
The floor-type air-conditioning indoor unit 100 of the present application adopts a top air outlet frame 120 installed at the installation port of the housing 110, the top air outlet frame 120 is provided with a lower port and a front port 122, the airflow is blown from the air inlet 111 to the lower port 121 of the top air outlet frame 120 through the fan assembly, and out from the front port 122 of the top air outlet frame 120, so as to realize blowing air out from the top of the floor-type air-conditioning indoor unit 100 and increase the air supply range. At the same time, the top air outlet frame 120 can move between the first position and the second position in the up-down direction, so as to change the height of the top air outlet frame 120, and further change the air supply range of the top air outlet frame 120. In addition, one of the top air outlet frame 120 and the housing 110 is provided with a sliding plate 150 extending in the up-down direction, and the other is provided with a sliding groove 140 engaged with the sliding plate 150, and a length of the sliding plate 150 is longer than or equal to the maximum trip of the top air outlet frame 120 in the up-down direction, such that it can also effectively prevent the top air outlet frame 120 from swinging back and forth during moving up and down, and avoid the generation of noise.
In one embodiment, a length of the sliding rail 130 is less than or equal to twice the maximum trip of the top air outlet frame 120 in the up-down direction. For example, the length of the sliding rail 130 is L, and the maximum trip of the top air outlet frame 120 in the up-down direction is S, where S≤L≤2S.
It should be noted that if L<S, the length of the sliding plate 150 is overly short to prevent the top air outlet frame 120 from swinging back and forth during moving up and down. If L>2S, the length of the plate 150 is overly long, so it is necessary to increase the overall height of the floor-type air-conditioning indoor unit 100, which is not conducive to making the internal structure of the floor-type air-conditioning indoor unit 100 more compact and thus leads to waste of installation space. Therefore, in this embodiment, by setting S≤L≤2S, it can more effectively prevent the top air outlet frame 120 from swinging forth and back during moving up and down, and at the same time, the internal structure of the floor-type air-conditioning indoor unit 100 can be more compact and the installation space can be saved.
Referring to
The number of the sliding rails 130 and the number of the sliding grooves 140 are not specifically limited, and can be set according to actual needs. In this embodiment, in order to make the top air outlet frame 120 move up and down more stably and avoid the top air outlet frame 120 from swinging left and right, both the number of the sliding plates 150 and the number of the sliding grooves 140 can be two. For example, the air outlet frame 120 has opposite two side plates 123, the two sliding plates 150 are respectively connected with the two side plates 123 of the top air outlet frame 120 and extend downward, and the two sliding grooves 140 are respectively provided on the inner wall of the air duct housing to cooperate with the two sliding rails 130.
In addition, there can be a variety of connection modes between the sliding rails 130 and the top air outlet frame 120. For example, the sliding rails 130 can be detachably connected with the top air outlet frame 120, or the sliding rails 130 are integrally formed with the top air outlet frame 120.
Referring to
Further, in order to fix the sliding rail 130 and the sliding plate 150 quickly and accurately, a positioning hole 132 can be provided on the sliding rail 130, and a positioning column 152 engaged with the positioning hole 132 can be provided on the sliding plate 150. In this way, through a cooperation between the positioning hole 132 and the positioning column 152, the first screw hole 131 and the second screw hole 151 can be aligned readily in the process of fixing the sliding rail 130 and the sliding plate 150 to facilitate screw fixing.
It can be understood that in order to better drive the top air outlet frame 120 to move between the first position and the second position, the floor-type air-conditioning indoor unit 100 also includes a driving device installed on the air duct housing, and the driving device is connected with the top air outlet frame 120 to drive the top air outlet frame 120 to move between the first position and the second position. Alternatively, the top air outlet frame 120 can also be manually driven to move between the first position and the second position. The driving device can include a motor, a cylinder, or the like.
Referring to
The present application also proposes an air conditioner, which includes a floor-type air-conditioning outdoor unit and a floor-type air-conditioning indoor unit. 100. The specific structure of the floor-type air-conditioning indoor unit 100 refers to the above embodiments. Since the air conditioner adopts all the technical solutions of all the above embodiments, it has at least all the beneficial effects brought by the technical solutions of the above embodiments, which will not be repeated here. The floor-type air-conditioning indoor unit 100 is connected with the floor-type air-conditioning outdoor unit through a refrigerant pipe.
The above is only an optional embodiment of the present application and does not limit the scope of the patent of the present application. Under the inventive concept of the present application, any equivalent structural transformation made by using the contents of the description and drawings of the present application, or any directly/indirectly application in other relevant technical fields, is included in the claimed scope of the present application.
Number | Date | Country | Kind |
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201911014783.8 | Oct 2019 | CN | national |
201921792235.3 | Oct 2019 | CN | national |
The present application is a continuation application of PCT International Application No. PCT/CN2020/078638, filed on Mar. 10, 2020, which claims the priority to and benefits of the Chinese patent applications Nos. 201911014783.8 and 201921792235.3, both titled “Floor-type Air-conditioning Indoor Unit and Air Conditioner” and filed on Oct. 23, 2019. The entire disclosures of the aforementioned applications are hereby incorporated by reference for all purposes. No new matter has been introduced.
Number | Date | Country | |
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Parent | PCT/CN2020/078638 | Mar 2020 | US |
Child | 17697151 | US |