CN114961075B - Mounting structure of air conditioning equipment and suspended ceiling assembly thereof - Google Patents

Abstract

The invention discloses an installation structure of air conditioning equipment and a suspended ceiling assembly thereof, relates to the technical field of indoor decoration of constructional engineering, and aims to solve the problem that the suspended ceiling type installed air conditioning equipment is inconvenient to detach. The mounting structure of the air conditioning apparatus includes a support frame and a first connection frame. The support frame has the braced frame that the size can be adjusted, and braced frame is detachable structure, and braced frame is used for dismantling with air conditioning equipment along braced frame's edge and is connected. The support frame is detachably connected with the first connecting frame. The first connection frame has a first mounting frame for passing through the air conditioning apparatus, and the first connection frame is for connecting a ceiling assembly or a top wall. The mounting structure of the air conditioning equipment is used for hanging and hiding the air conditioning equipment.

Description

Mounting structure of air conditioning equipment and suspended ceiling assembly thereof

Technical Field

The invention relates to the technical field of indoor decoration of constructional engineering, in particular to an installation structure of air conditioning equipment and a suspended ceiling assembly thereof.

Background

When air conditioning equipment such as an indoor unit of an air conditioner or a ventilator of a fresh air system is installed, suspended ceiling installation can be carried out so as to enable the air conditioning equipment to be installed in an accommodating space between a suspended ceiling panel and a top wall and be used for hiding the air conditioning equipment, so that indoor decoration effect is improved.

In the related art, a housing of an air conditioning apparatus is directly connected to a top wall through a hanger bar, thereby achieving a fixed installation between the air conditioning apparatus and the top wall. A ceiling assembly or integrated ceiling is then installed under the air conditioning apparatus. Because the distance between the adjacent auxiliary keels in the suspended ceiling component is 30 cm-60 cm, the distance is far smaller than the width dimension of the air conditioning equipment.

Therefore, even if the ceiling panel of the ceiling assembly is removed, the auxiliary joists of the ceiling assembly located below the air conditioning apparatus can continue to block the air conditioning apparatus, which makes the air conditioning apparatus impossible to disassemble, and thus after-sales maintenance of the air conditioning apparatus is inconvenient.

Disclosure of Invention

The invention aims to provide an installation structure of air conditioning equipment and a suspended ceiling assembly thereof, and aims to solve the problem that the suspended ceiling type installed air conditioning equipment is inconvenient to disassemble.

In order to achieve the above purpose, the invention adopts the following technical scheme:

in one aspect, some embodiments of the present invention provide a mounting structure of an air conditioning apparatus including a support frame and a first connection frame. The support frame has the braced frame that the size can be adjusted, and braced frame is detachable structure, and braced frame is used for dismantling with air conditioning equipment along braced frame's edge and is connected. The support frame is detachably connected with the first connecting frame. The first connection frame has a first mounting frame for passing through the air conditioning apparatus, and the first connection frame is for connecting a ceiling assembly or a top wall.

Thus, the first connection frame may be first connected to the ceiling assembly or the top wall when the air conditioning apparatus is installed. Then make air conditioning equipment from bottom to top be close to the top wall through first installing frame to with braced frame from bottom to top equally be close to air conditioning equipment through first installing frame, through size and the mounted position of adjusting braced frame, can make braced frame and first connection frame detachable connection, and can dismantle with air conditioning equipment and be connected, thereby realize the support installation to air conditioning equipment. Like this, if need overhaul dismantlement air conditioning equipment, only need demolish first bracing piece and second bracing piece in proper order, can dismantle air conditioning equipment from top to bottom through first installing frame, the installation and the dismantlement process is simple, convenient to detach overhauls air conditioning equipment.

In some embodiments, the support frame includes a plurality of first support bars and a plurality of second support bars. The plurality of first supporting rods are distributed at intervals along the first straight line direction, and the plurality of second supporting rods are distributed at intervals along the second straight line direction. And the plurality of first support rods are detachably connected with the plurality of second support rods, and form a support frame. Along the edge of the support frame, the first support rod and the second support rod are respectively used for being detachably connected with the air conditioning equipment. Opposite ends of the plurality of first supporting rods and/or opposite ends of the plurality of second supporting rods are detachably connected with the first connecting frames respectively. And the first straight line direction intersects the second straight line direction.

In some embodiments, the support frame further comprises a cushion rubber strip for mounting between the first support bar and the air conditioning device.

In some embodiments, a cushion rubber strip is used to be installed between the second support bar and the air conditioning apparatus.

In some embodiments, the buffer adhesive tape is mounted with the first support bar and the second support bar in a clamping manner.

In some embodiments, the cushion gum is used in pressing contact with the air conditioning apparatus.

In some embodiments, the mounting structure of the air conditioning apparatus further includes a second connection frame having a second mounting frame for passing through the first connection frame. The first connection frame is detachably connected with the second connection frame, and the second connection frame is used for connecting the suspended ceiling assembly and/or the top wall.

In some embodiments, the mounting structure of the air conditioning apparatus further includes a plurality of mounting booms, an upper end of each of the mounting booms being respectively used to connect the top wall, and the second connection frame being respectively connected with lower ends of the plurality of mounting booms.

In some embodiments, the first connection frame is a rectangular frame structure and the first connection frame is comprised of a U-shaped keel having a vertical cross section or a keel having a rectangular cross section.

In some embodiments, the second connection frame is a rectangular frame structure and the second connection frame is comprised of a U-shaped keel having a vertical cross section or a keel having a rectangular cross section.

In some embodiments, the mounting structure of the air conditioning apparatus further comprises at least three mounting keels and a plurality of mounting panels. The at least three mounting keels are distributed at intervals along the first linear direction or the second linear direction and are respectively used for being detachably connected with the first connecting frame. Each mounting panel is detachably connected with two adjacent mounting keels and is used for shielding the first connecting frame.

In another aspect, some embodiments of the present invention further provide a ceiling assembly including a plurality of ceiling booms, a plurality of main runners, and a mounting structure for the air conditioning apparatus of the above aspect. The upper end and the top wall of every furred ceiling jib are connected, and a plurality of main joists interval distribution, and the lower extreme of every main joist and a plurality of furred ceiling jib is connected. The first connecting frame is located between two adjacent main keels and is used for being connected with two main keels respectively.

Because the suspended ceiling component provided by the embodiment of the invention comprises the installation structure of the air conditioning equipment on the one hand, the two components can solve the same technical problems and achieve the same technical effects.

In some embodiments, in the case where the mounting structure of the air conditioning apparatus further includes the second connection frame: the second connecting frame is located between two adjacent main keels, and the first connecting frame is located the inside and outside both sides of second connecting frame respectively with two main keels that are close to, and the second connecting frame is connected with two main keels respectively.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic perspective view of a suspended ceiling assembly according to an embodiment of the present disclosure;

FIG. 2 is a front view of the cross runner of the suspended ceiling shown in FIG. 1 engaged with an engagement hanger;

FIG. 3 is a schematic perspective view of the main runner of FIG. 1 connected to a ceiling hanger by a hanger;

FIG. 4 is an exploded view of the air conditioning apparatus mounted between the ceiling assembly and the top wall of FIG. 1;

FIG. 5 is an exploded view of a suspended ceiling assembly provided in an embodiment of the present application including a mounting structure;

FIG. 6 is a schematic perspective view of the support frame shown in FIG. 5;

FIG. 7 is another perspective view of the support frame shown in FIG. 5;

FIG. 8 is an enlarged partial schematic view of the connection between the first support bar and the second support bar shown in FIG. 6;

FIG. 9 is a schematic perspective view of the ceiling assembly shown in FIG. 5 including a mounting structure

FIG. 10 is an enlarged partial sectional view of the first support bar shown in FIG. 9;

FIG. 11 is an exploded view of a suspended ceiling assembly provided in an embodiment of the present application including another mounting structure;

fig. 12 is a schematic perspective view of the mounting structure and the air conditioning apparatus shown in fig. 11;

FIG. 13 is a schematic view of a clamping structure of the first connecting frame and the second connecting frame in FIG. 12;

FIG. 14 is an exploded view of a mounting structure provided by an embodiment of the present application including a mounting panel;

fig. 15 is a schematic view of the positional relationship between the ceiling cross runners and ceiling panels and mounting structures in the ceiling assembly.

Reference numerals:

100-a suspended ceiling assembly;

1-a suspended ceiling suspender; 2-main joists; 3-a suspended ceiling auxiliary keel; 4-a suspended ceiling panel; 5-clamping the hanging piece; 51-a sheet-like body; 52-hanging piece clamping grooves; 6-hanging pieces; 61-hanger body; 62-hanging grooves;

7-mounting structure of air conditioning equipment;

71-a support frame; 711-a first support bar; 712-a second support bar; 713-a support frame; 714-buffer strips;

72-a first connection frame; 721-first keel; 722-a first mounting frame; 723-a snap-fit opening;

73-a second connection frame; 731-a second keel; 732-a second mounting frame; 733-a clamping groove;

74-mounting a boom;

75-fastener

76-installing keels;

77-mounting a panel;

200-top wall;

300-air conditioning apparatus.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

In the description of the present application, it should be understood that the terms "upper," "lower," "left," "right," "front," "rear," "inner," "outer," and the like indicate orientations or positional relationships based on the orientations or relative positional relationships illustrated in the drawings, merely to facilitate description of the present application and simplify the description, and do not indicate or imply that the devices or elements being referred to must have a particular orientation, be configured and operated in a particular orientation, and are therefore not to be construed as limiting the present application. Unless otherwise specified, the above description of the azimuth may be flexibly set in the course of practical application in the case where the relative positional relationship shown in the drawings is satisfied.

The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, unless otherwise indicated, the meaning of "a plurality" is two or more.

In practical applications, the absolute parallel or vertical effect is difficult to achieve due to limitations in equipment accuracy or installation errors. In the present application, the description about vertical, parallel or same direction is not an absolute limitation condition, but means that the vertical or parallel structure arrangement can be realized within a preset error range (up-down deviation of 5 °) and a corresponding preset effect is achieved, so that the technical effect of limiting the features can be realized to the maximum extent, and the corresponding technical scheme is convenient to implement and has higher feasibility.

In the description of the present application, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, integrally connected, or rotatably connected. Can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art as the case may be.

In the present embodiments, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, article or apparatus that comprises the element.

In the embodiments of the present application, words such as "exemplary" or "such as" are used to mean serving as examples, illustrations, or descriptions. Any embodiment or design described herein as "exemplary" or "for example" should not be construed as preferred or advantageous over other embodiments or designs. Rather, the use of words such as "exemplary" or "such as" is intended to present related concepts in a concrete fashion.

As shown in fig. 1, embodiments of the present application provide a ceiling assembly 100, which ceiling assembly 100 may include a plurality of ceiling booms 1 and a plurality of main runners 2. Wherein, both ends of each ceiling hanger rod 1 may be connected with the top wall 200 and one of the main keels 2, respectively. Taking the vertical distribution of the top wall 200 and the main runners 2 as an example, the longitudinal direction of the main runners 2 is defined as the left-right direction, and the plurality of main runners 2 are distributed at intervals along the front-rear direction. Accordingly, the ceiling assembly 100 may be installed under the top wall 200.

For example, with continued reference to fig. 1, two main keels 2 may be located below the top wall 200 and distributed at intervals along the front-rear direction, each main keel 2 may be connected to the lower ends of three ceiling hanging rods 1, and the upper end of each ceiling hanging rod 1 may be fixed in a fixing hole (not shown) formed in the top wall 200 downward through an expansion structure, or may be connected to a preset expansion bolt on the top wall 200 through a screw or a welding manner. On each main runner 2, three ceiling suspension rods 1 may be distributed at intervals in the left-right direction, so that the main runners 2 may be uniformly stressed and form the main load-bearing structure of the ceiling assembly 100.

The number of main runners 2 in the ceiling assembly 100 may be three, four, five or more. For example, if the main runners 2 are not long enough, two or even three main runners 2 may be installed in order in the left-right direction. In addition, if the load bearing load of the suspended ceiling assembly 100 is large, three, four or more main keels 2 can be distributed at intervals in the front-rear direction, so as to reduce the distance between two adjacent main keels 2, which is beneficial to improving the load bearing capacity of the suspended ceiling assembly 100. For the suspended ceiling suspender 1, the suspended ceiling suspender 1 connected with each main keel 2 can be two, four, five or more, and can be flexibly adjusted according to the bearing capacity of the main keels 2. This is not limited thereto.

When interior decoration is performed, the ceiling assembly 100 may shield the top wall 200 or hide a mechanical structure installed below the top wall 200 to improve an interior decoration effect.

For example, as shown in FIG. 1, the ceiling assembly 100 may further include a plurality of ceiling cross runners 3 and a plurality of ceiling panels 4. The plurality of suspended ceiling auxiliary keels 3 can be distributed at intervals along the left-right direction under the main keels 2, and each suspended ceiling auxiliary keel 3 can be connected with at least two main keels 2 and extend along the front-rear direction. Along the front-rear direction, between two adjacent ceiling false keels 3, a ceiling panel 4 may be installed.

The ceiling panel 4 may have various dimensions, for example, the length of the ceiling panel 4 in the front-rear direction and the width of the ceiling panel in the left-right direction may be flexibly adjusted between 20cm and 120cm, for example, the dimensions of the ceiling panel 4 are 30cm by 30cm, 30cm by 60cm, 60cm by 60cm, or 40cm by 80 cm. Taking as an example the dimensions of the ceiling panels 4 are 30cm x 30cm aluminous gusset plates. The spacing between two adjacent suspended ceiling auxiliary keels 3 in the left-right direction can be set to 30cm, and the suspended ceiling auxiliary keels 3 are triangular keels.

So, every two left and right edges of furred ceiling panel 4 can insert in the decurrent jack-in groove of two adjacent furred ceiling false keels 3 from bottom to top, and in the left and right directions, two edges that two adjacent furred ceiling panels 4 are close to each other can insert in the jack-in groove of same furred ceiling false keel 3 to the installation of laying of furred ceiling panel 4 in the realization left and right directions. And, in the fore-and-aft direction, a plurality of furred ceiling panels 4 can be inserted in proper order to the jack-in inslot of two adjacent furred ceiling false keels 3 to the installation of laying of furred ceiling panel 4 in the fore-and-aft direction is realized. Thus, the indoor space above the ceiling panel 4 can be shielded by the plurality of ceiling panels 4 mounted in the front-rear direction and the left-right direction in this order.

In some embodiments, as shown in fig. 2, the ceiling assembly 100 may further include a plurality of snap-fit hangers 5. The clamping hanger 5 may include a sheet-like body 51 and a hanger clamping groove 52 formed at the lower end of the sheet-like body. Because the suspended ceiling auxiliary keel 3 can be approximately in an inverted triangle structure, namely the cross section of the suspended ceiling auxiliary keel 3 is wide in the upper part and narrow in the lower part. Therefore, the hanging accessory keel 3 can be clamped by the hanging accessory clamping groove 52, so that the clamping limit of the hanging accessory clamping groove 52 and the hanging accessory keel 3 in the up-down direction is realized.

Illustratively, during the process of connecting the ceiling cross runners 3 with the main runners 2. The ceiling auxiliary keels 3 can be inserted into the hanging piece clamping grooves 52 of the plurality of clamping hanging pieces 5 along the front and back directions, and the number of the clamping hanging pieces 5 is generally consistent with that of the main keels 2 to be connected with each ceiling auxiliary keel 3. The ceiling auxiliary keel 3 is then moved from bottom to top to the main keel 2 so that the upper end of the ceiling auxiliary keel 3 is positioned adjacent to or even in contact with the lower end of the main keel 2, and at this time, the upper end of the sheet-like main body 51 is higher than the upper end of the main keel 2. The clamping hanging piece 5 slides on the suspended ceiling auxiliary keel 3 along the front-back direction, and is close to and attached to one main keel 2. If one of the clamping hanging pieces 5 is attached to the rear side of one main keel 2 from back to front, the upper end of the sheet-shaped main body 51 is bent forward, and then is bent downward continuously, so that the sheet-shaped main body 51 can be hung on the main keel 2. In the disassembly, the sheet-like body 51 is simply bent reversely. Thereby realize the detachable connection between furred ceiling auxiliary joist 3 and the main joist 2, the installation is dismantled very simply. In addition, the suspended ceiling auxiliary keel 3 and the main keel 2 can be directly connected by screws, welding or clamping, which is not limited.

In some embodiments, as shown in FIG. 3, the ceiling assembly 100 may further include a plurality of hangers 6, which may include a hanger body 61. The hanger main body 61 may have a sheet-like structure or a rod-like structure, and is not limited thereto. Illustratively, the lower end of the hanger main body 61 may be bent to form a hanging groove 62 having an upward opening, and the upper end of the hanger main body 61 is vertically bent and provided with a mounting hole (not shown). Thus, the lower end of each suspended ceiling suspender 1 can be inserted into the rated mounting hole at the upper end of the suspended component main body 61 from top to bottom, and the suspended component 6 can be fixed at any position in the upper and lower directions of the suspended ceiling suspender 1 through the cooperation of two nuts at the upper and lower parts of the mounting hole. The corresponding main runners 2 may be inserted from above into at least two spaced apart hanging slots 62 to removably connect the main runners 2 to the top wall 200 (shown in fig. 1). And the height and levelness of the main joist 2 are convenient to adjust by adjusting the nuts at the lower end of each suspended ceiling suspender 1. In addition, the main joist 2 and the suspended ceiling suspension rod 1 may be directly connected by screws, welding or fastening, which is not limited.

In some embodiments, as shown in fig. 4, the air conditioning apparatus 300 may be installed between the top wall 200 and the ceiling panel 4, so that not only the indoor air may be improved by the air conditioning apparatus 300, but also the installation of the ceiling panel 4 may hide and conceal the air conditioning apparatus 300 to improve the decoration effect of the house. The air conditioning apparatus 300 may be an indoor unit of an air conditioner for dehumidifying or changing an indoor temperature, etc. Alternatively, the air conditioning apparatus 300 may be a fresh air system or an air duct machine, etc. for improving or refreshing indoor air. The present application is not limited in this regard.

In the related art, the housing of the air conditioning apparatus 300 may be connected to the top wall 200 through a hanger bar, thereby achieving a fixed installation between the air conditioning apparatus 300 and the top wall 200. The installation of the ceiling assembly 100 then continues below the top wall 200. Because the outline size of the air-conditioning apparatus 300 is large, the size of the air-conditioning apparatus 300 in the front-rear and left-right directions is generally larger than the spacing between two adjacent ceiling sub-runners 3. Therefore, after the ceiling auxiliary joist 3 and the ceiling panel 4 are installed, if the air conditioning apparatus 300 is required to be maintained and disassembled, the connection structure between the ceiling panel 4, the ceiling auxiliary joist 3 and the casing of the air conditioning apparatus 300 and the hanging rod is required to be disassembled in sequence, the disassembling process is very troublesome, and the after-sale maintenance of the air conditioning apparatus 300 is inconvenient.

In order to solve the above-described problems, as shown in fig. 5, a ceiling assembly 100 provided in an embodiment of the present application further includes a mounting structure 7 (hereinafter referred to as mounting structure 7) of an air conditioning apparatus. The mounting structure 7 may include a support frame 71 and a first connection frame 72. Illustratively, the first linking frame 72 may be mounted between two adjacent main runners 2 and connected to the two main runners 2 to provide for a secure mounting of the first linking frame 72. At this time, the two main runners 2 may be respectively located at both front and rear sides of the first link frame 72. The first connection frame 72 may include a plurality of first keels 721, and the plurality of first keels 721 are connected end to end in sequence to enclose a first mounting frame 722, and an inner side of the first mounting frame 722 may be larger than the size of the air conditioning apparatus 300 so that the air conditioning apparatus 300 may pass through the first mounting frame 722 from bottom to top and be mounted above the first connection frame 72.

The first keel 721 may be a U-shaped keel or a rectangular keel having a vertical cross-sectional shape. The bearing capacity is good. The number of first keels 721 in each first connecting frame 72 may be three, four, five, six or more, and only need be capable of being connected to form the first mounting frame 722 and to connect with the main keels 2. The shape of the first mounting frame 722 may be a triangle frame, a four-frame, a rectangular frame, a five-frame, or a six-frame, which is not limited thereto.

As shown in fig. 6, fig. 6 is a schematic perspective view of the support frame 71 shown in fig. 5. For example, the support frame 71 may include two first support bars 711 and two second support bars 712. The two first support rods 711 are arranged at intervals along the first straight line direction (i.e. the front-back direction), the front end and the back end of each parallel second support rod 712 are respectively connected with the two first support rods 711, and the two second support rods 712 are distributed at intervals along the second straight line direction (i.e. the left-right direction) so as to form a support frame 713 with a rectangular structure.

Since the length of each of the first and second supporting bars 711 and 712 is adjustable. Accordingly, by adjusting the length of the first support bar 711 or the second support bar 712, the size of the support frame 713 may be correspondingly adjusted. As shown in fig. 7, it is possible to reduce the lengths of the two second support bars 712 and the interval of the two first support bars 711 in the front-rear direction to reduce the width dimension of the support frame 713 in the front-rear direction.

In this way, the length of the first support bar 711 and/or the second support bar 712 may be adjusted such that the size of the support frame 713 is slightly larger than the size of the air conditioning apparatus 300 (shown in fig. 5). In this way, the side walls of the housing of the air-conditioning apparatus 300 may be brought into contact with the inner walls of the first support bar 711 and the second support bar 712 near the support frame 713, respectively, and the air-conditioning apparatus 300 and the support frame 71 may be detachably connected by screws or snaps or the like to define the degrees of freedom of the air-conditioning apparatus 300 and the support frame 71 in the up-down direction.

Still alternatively, the length of the first support bar 711 and/or the second support bar 712 may be adjusted such that the size of the support frame 713 is smaller than the size of the air conditioning apparatus 300 (shown in fig. 5). In this way, the air conditioning apparatus 300 may be directly placed on the support frame 71 from top to bottom, and the air conditioning apparatus 300 may be connected to the support frame 71 by a detachable connection structure such as a screw, a tie, or a clip, so that the first support bar 711 and the second support bar 712 are connected to and support the air conditioning apparatus 300.

The first support bar 711 and the second support bar 712 may be L-shaped keels (i.e., angle irons), rectangular keels, or C-shaped and U-shaped keels, among others. For example, as shown in fig. 8, if the first support bar 711 and the second support bar 712 are both L-shaped keels, a plurality of positioning holes may be sequentially formed in one side plate of the first support bar 711 and one side plate of the second support bar 712 along the length direction thereof, so as to facilitate connection and installation between the first support bar 711 and the second support bar 712, for example, by connecting two aligned positioning holes through a screw or a bolt. And facilitates the connection and installation between the first support bar 711 or the second support bar 712 and the first connection frame 72, for example, the positioning holes at both ends of the first support bar 711 may be connected with the first connection frame 72 by screws, respectively. Correspondingly, the horizontal side plates of the two first support rods 711 that are spaced apart may be disposed opposite to each other, and each horizontal side plate may be located inside each first support rod 711. In this way, when the size of the supporting frames 713 is slightly larger than the outline size of the air conditioning apparatus 300, the lower side edges of the air conditioning apparatus 300 located between the supporting frames 713 may be supported by the horizontal side plates of the two first supporting bars 711.

Thus, in installing the air conditioning apparatus 300, referring to fig. 9, the main runners 2 may be first suspended below the top wall 200 (shown in fig. 4) by the ceiling hanger rods 1, and then the first connection frame 72 may be installed between two adjacent main runners 2. Then, the first mounting frame 722 is used to make the bottom-up air conditioning apparatus 300 approach the top wall 200, and the supporting frame 71 composed of the first supporting rod 711 and the second supporting rod 712 is also used to make the bottom-up air conditioning apparatus 300 approach the first mounting frame 722, and by adjusting the lengths and mounting positions of the first supporting rod 711 and the second supporting rod 712, two ends of the first supporting rod 711 can be detachably connected to the first connecting frame 72 and the air conditioning apparatus 300 respectively, and the second supporting rod 712 can be detachably connected between the two first supporting rods 711, so as to strengthen the structural strength of the supporting frame 71, thereby realizing the supporting and mounting of the air conditioning apparatus 300.

If the air conditioning equipment 300 is to be overhauled and disassembled, the air conditioning equipment 300 can be disassembled from top to bottom through the first mounting frame 722 only by sequentially disassembling the first supporting rod 711 and the second supporting rod 712, so that the mounting and disassembling processes are simple, and the overhauling of the air conditioning equipment 300 is convenient.

In other embodiments, the left and right ends of the two second support bars 712 may be detachably connected to the first connection frame 72, and the first support bar 711 may be detachably connected between the two second support bars 712. It is also possible to facilitate disassembly and maintenance of the air-conditioning apparatus 300 while supporting the connection of the air-conditioning apparatus 300.

It should be noted that the number of the first support bars 711 may be two, three, four, or even more, and the number of the second support bars 712 may be two, three, four, or even more, so as to enclose the supporting frame 713 of a quadrangle, a rectangle, a pentagon, a hexagon, or the like, so long as the end portion of the first support bar 711 and/or the end portion of the second support bar 712 may be connected and installed with the first connection frame 72 while supporting and connecting the air conditioning apparatus 300. In addition, the included angle between the first support bar 711 and the second support bar 712 may be an acute angle, an obtuse angle, or a right angle. And are not limited thereto.

In some embodiments, to avoid continuous vibration of the air conditioning apparatus 300 during operation from affecting the stable structure of the ceiling assembly 100. As shown in fig. 8, the support frame 71 may further include buffer tapes 714, and the buffer tapes 714 are respectively mounted on the first support bars 711. If the second support bars 712 are used to contact the air conditioning apparatus 300 (as shown in fig. 5), the buffer tapes 714 may be installed on the second support bars 712, respectively. Referring to fig. 9, when the first support bar 711 and/or the second support bar 712 carries the air conditioning apparatus 300, the cushion rubber tape 714 may be installed between the first support bar 711 and the air conditioning apparatus 300. In addition, a cushion rubber strip 714 may be installed between the second support bar 712 and the air conditioning apparatus 300. In this way, the first support bar 711 and the second support bar 712 can be prevented from directly contacting the air conditioning apparatus 300, and the vibration of the air conditioning apparatus 300 can be absorbed by the buffer adhesive tape 714, so as to reduce the vibration amplitude of the ceiling assembly 100, and abnormal noise caused by the vibration can be effectively avoided.

Referring to fig. 10, fig. 10 is an enlarged schematic cross-sectional view of the first support bar 711 shown in fig. 9. Wherein, the front end of the buffering adhesive tape 714 may be provided with a downward mounting groove, so that the upper end of the first supporting rod 711 may be inserted into the mounting groove from bottom to top, so that the first supporting rod 711 and the buffering adhesive tape 714 are clamped in the up-down direction, so as to facilitate the clamping and mounting of the buffering adhesive tape 714. Since the air conditioning apparatus 300 is disposed at a rear side of the first support bar 711 with a gap therebetween, a rear end of the cushion rubber tape 714 can be brought into press contact between the air conditioning apparatus 300 and the first support bar 711, so that the cushion rubber tape 714 can absorb vibration generated from the air conditioning apparatus 300 in the front-rear direction. A cushion rubber tape 714 is press-fitted between the first support bar 711 and the air conditioning apparatus 300 corresponding to the rear side, and the cushion rubber tape 714 is press-fitted between the second support bar 712 and the air conditioning apparatus 300.

In other embodiments, if the air conditioning device 300 is placed above the first support bar 711 and the second support bar 712. Correspondingly, the lower end of the buffering rubber strip 714 is inserted into or clamped with the first support rod 711 and the second support rod 712, and the energy absorbing deformation part of the buffering rubber strip 714 is positioned above the first support rod 711 and the second support rod 712, so that the buffering rubber strip 714 can be installed between the air conditioning equipment 300 and the support frame 71 in a pressing manner.

For example, when the support frame 71 and the air conditioning apparatus 300 are connected, both ends of an elastic connection member such as a spring, an elastic string, or a leaf spring may be used to connect the support frame 71 and the air conditioning apparatus 300, respectively. A spring or a cushion pad may be sleeved on the screw or the bolt to connect the support frame 71 and the air conditioning apparatus 300. In this way, the support frame 71 and the air conditioning apparatus 300 are in a flexible connection structure, which is beneficial to reducing the vibration transmission amplitude of the support frame 71 and the air conditioning apparatus 300 while increasing the connection strength between the support frame 71 and the air conditioning apparatus 300.

In some embodiments, referring to fig. 11, the mounting structure 7 may further include a second connection frame 73. Second connecting frame 73 may include a plurality of second keels 731, and the plurality of second keels 731 are connected end to end in sequence to enclose a second mounting frame 732, and an inside dimension of second mounting frame 732 may be larger than a dimension of air conditioning apparatus 300 and larger than a dimension of first mounting frame 722, such that first mounting frame 722 may pass through second mounting frame 732 from bottom to top and be mounted inside or above first connecting frame 72.

The second keel 731 can be a U-shaped keel or a rectangular keel with a vertical cross section, and has a good bearing capacity. The number of second keels 731 in each second connecting frame 73 may be three, four, five, six or more, and may be only required to be capable of being connected to form second mounting frame 732 and to connect with main keels 2. The shape of the second mounting frame 732 may be, but not limited to, a triangle frame, a four-frame, a rectangular frame, a five-frame, or a six-frame. Illustratively, the first mounting frame 722 and the second mounting frame 732 are rectangular frames.

Accordingly, when the installation structure 7 includes both the first connection frame 72 and the second connection frame 73, at the time of installing the air conditioning apparatus 300, referring to fig. 11, the main runners 2 may be first hoisted under the top wall 200 (shown in fig. 4) by the ceiling hanger 1, and then the second connection frame 73 is connected and installed between the adjacent two main runners 2. And the support frame 71 composed of the first support bar 711 and the second support bar 712 may be installed in connection with the first installation frame 722, and then the air conditioning apparatus 300 may be installed in connection with the support frame 71. Then, the air conditioning apparatus 300, the support frame 71 and the first connection frame 72 may be taken as a whole, and the air conditioning apparatus 300 may be brought close to the top wall 200 by passing through the second mounting frame 732 from bottom to top, and when the first connection frame 72 and the second connection frame 73 overlap in the up-down direction, as shown in fig. 12, the first connection frame 72 and the second connection frame 73 may be connected by a detachable connection manner such as a snap-fit, a screw or a latch. Thereby completing the supporting installation of the air conditioning apparatus 300. If the air conditioning apparatus 300 is to be overhauled and disassembled, the air conditioning apparatus 300, the supporting frame 71 and the first connecting frame 72 can be directly disassembled from the second mounting frame 732 as a whole by sequentially removing the connecting structures of the first connecting frame 72 and the second connecting frame 73. The installation and disassembly processes are simple, and the overhaul air conditioning apparatus 300 is convenient to disassemble.

It should be noted that the second connection frame 73 may be installed in connection with two adjacent main keels 2 for realizing the support of the air conditioning apparatus 300. Further, with continued reference to fig. 11, the mounting structure 7 may further include a plurality of mounting booms 74, and left and right sides, front and rear sides, and even four sides of the second connection frame 73 are respectively connected to a lower end of at least one mounting boom 74. The connection may be direct or may be made by the hanger 6 shown in fig. 3, which is not limited thereto. The upper end of each mounting boom 74 may be secured to a downwardly opening securing hole in the top wall 200 (as shown in fig. 4) by an expansion structure, or may be connected to a predetermined expansion bolt on the top wall 200 by means of a screw or a weld, etc. Thereby connecting the second connection frame 73 to the top wall 200 through the mounting boom 74, which has been used as a foundation structure for supporting the air conditioning apparatus 300.

In some embodiments, if the mounting structure 7 includes only the support frame 71 and the first connection frame 72 shown in fig. 5. The first connection frame 72 may be connected to the top wall 200 through the main joist 2, or may be directly connected to the top wall through the mounting boom. And the two connection modes can be used simultaneously. This is not limited thereto.

The mounting structure 7 includes a support frame 71, a first connection frame 72, and a second connection frame 73. Then for the first connection frame 72 and the support frame 71: the supporting frame 71 may be an integral structure with high structural strength; the supporting frame 71 may also be a detachable and split structure, so as to flexibly adjust the size of the supporting frame 713 to adapt to different sizes of the air conditioning apparatus 300. In addition, the first connecting frame 72 and the supporting frame 71 can be connected and installed through a detachable connecting structure, so that the detachable installation is convenient; the first connection frame 72 and the support frame 71 may be formed as an integral structure by welding or direct casting, and the air conditioning apparatus 300 and the support frame 71 may be detachably connected, thereby having a higher structural strength. The present application is not limited in this regard.

Illustratively, the first connection frame 72 is detachably mounted to the inner side of the second connection frame 73. As shown in fig. 13, the mounting structure 7 may further include a fastener 75, where the fastener 75 may be in a zigzag structure with a near view, and a fastening opening 723 corresponding to the first keel 721 and configured to receive the fastener 75 is formed downward. The buckling piece 75 and the second keel 731 can be respectively provided with aligned clamping holes so as to detachably connect the buckling piece 75 and the second keel 731 through screws or bolts, so that an upward-opening clamping groove 733 is formed between the buckling piece 75 and the second keel 731. In this way, the side wall of the first keel 721 where the clamping opening 723 is provided can be inserted into the clamping groove 733 from top to bottom to complete the clamping installation between the first connection frame 72 and the second connection frame 73. In this way, by providing a plurality of the above-described snap-in structures between the first connection frame 72 and the second connection frame 73, stable connection between the first connection frame 72 and the second connection frame 73 can be ensured. When the first connecting frame 72 is detached, the first connecting frame 72 can be detached quickly and conveniently only by detaching the bolts or the bolts between the clamping pieces 75 and the second keels 731.

In some embodiments, to shield mounting structure 7, as shown in fig. 14, mounting structure 7 may further include at least three mounting keels 76 and a plurality of mounting panels 77. For example, if the dimensions of the first connection frame 72 and the second connection frame 73 are close to but less than 90cm by 60cm, three mounting keels 76 are defined to be approximately triangular keels with a length dimension less than or equal to 90cm, and the mounting panel 77 may be an aluminous gusset plate with a dimension of 30cm by 30 cm. Three mounting keels 76 may be spaced 30cm apart in the anterior-posterior direction and parallel to one another. Each mounting keel 76 may be removably attached to either the first or second attachment frames 72, 73, by a screw connection, or by a hanger as shown in fig. 2. Then three mounting panels 77 are inserted between the two mounting keels 76 on the front side in sequence from left to right, and then three mounting panels are inserted between the two mounting keels 76 on the rear side in sequence from left to right. At this time, the six mounting panels 77 have a front-rear width dimension of 60cm and a left-right length dimension of 90cm, and can just shield the mounting structure 7 including the first connection frame 72.

As such, the air conditioning apparatus 300 installed under the top wall 200 may be shielded by the plurality of installation panels 77 under the daily use environment. If the maintenance air conditioning apparatus 300 is to be disassembled, it is necessary to first remove the plurality of mounting panels 77, then remove the plurality of mounting keels 76, and then remove the air conditioning apparatus 300 by removing the first connection frame 72 or the support frame 71.

In the above embodiment, if the mounting keels 76 are spaced apart in the left-right direction, the number of mounting keels 76 should be four, and the size of each mounting keel 76 is equal to or less than 60cm. The plug-in mounting of six mounting panels 77 can also be satisfied. Can carry out nimble adjustment according to actual demand, only need can shelter from mounting structure 7 can. This is not limited thereto.

As shown in fig. 15, when the suspended ceiling assembly 100 is installed along a horizontal plane (parallel to the left-right and front-rear directions), the main runners 2, the auxiliary runners 3, and the ceiling panels 4 are prevented from avoiding the predetermined area where the installation structure 7 is located. The preset area is, for example, an area occupied by the first connection frame 72 or the second connection frame 73. Since the first and second linking frames 72 and 73 are located between the adjacent two main runners 2 in the front-rear direction, the main runners avoid the preset area. For the suspended ceiling auxiliary joist 3, a plurality of if the suspended ceiling auxiliary joist 3 is distributed along the left-right direction at intervals, when the partial suspended ceiling auxiliary joist 3 in the middle part overlaps with the preset area, the partial suspended ceiling auxiliary joist 3 overlapping with the preset area can be broken, for example, the suspended ceiling auxiliary joist 3 is connected on the front side and the rear side of the second connecting frame 73 only. And the suspended ceiling panels 4 are correspondingly inserted on the left and right adjacent suspended ceiling auxiliary keels 3.

So, the furred ceiling false keel 3 and the furred ceiling panel 4 can dodge when laying and predetermine the region to avoid the setting of furred ceiling false keel 3 to influence the dismantlement maintenance of air conditioning equipment 300. With reference to fig. 14, by providing the mounting keel 76 and the mounting panel 77 separately in the predetermined area, the mounting keel 76 is easily removed and installed due to the length of the mounting keel 76 and the maximum length of the predetermined area being less than or equal to. Compared with the process of disassembling the continuous whole suspended ceiling auxiliary keel 3, the working strength of disassembling the keel is reduced. And because the longer the furred ceiling false keel 3, the more the furred ceiling panel of grafting on the furred ceiling false keel 3, still greatly reduced the working strength of dismantling the panel. The disassembly and maintenance efficiency of the air conditioning apparatus 300 is advantageously improved.

Since the air conditioning apparatus 300 needs to be cleaned and maintained regularly, in order to facilitate cleaning and maintenance of the air conditioning apparatus 300, an access opening may be formed on the lower side of the air conditioning apparatus 300, and when the installation keels 76 and the installation panels 77 are laid, the installation positions of the installation keels 76 may be adjusted so that the access opening may completely overlap with one or both of the installation panels 77 or overlap a large portion of the area in the up-down direction. Therefore, when the air conditioning equipment 300 is cleaned and overhauled, only one or two mounting panels 77 and the baffle plates of the overhauling hole are required to be disassembled, the air conditioning equipment 300 is not required to be disassembled, and the cleaning and overhauling are very convenient. Wherein, when the mounting structure 7 and the air conditioning apparatus 300 are mounted in place, various connection structures on the mounting structure 7 can limit the vibration deflection of the air conditioning apparatus 300 in the left-right or front-rear direction, thereby ensuring the alignment mounting of the access opening.

In addition, if the air conditioning apparatus 300 needs to set an air inlet and/or an air outlet nearby, according to the trend of the air duct, the air inlet grille and/or the air outlet grille can be replaced by the mounting panel 77 or the ceiling panel 4, and the air inlet grille and/or the air outlet grille is connected with the mounting keel 76 or the ceiling auxiliary keel 3 for mounting, so that the air conditioning apparatus has a simple structure and a good decorative effect.

In the description of the present specification, a particular feature, structure, material, or characteristic may be combined in any suitable manner in one or more embodiments or examples.

The foregoing is merely specific embodiments of the present application, but the scope of the present application is not limited thereto, and any changes or substitutions easily conceivable by those skilled in the art within the technical scope of the present application should be covered in the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (9)

1. An air conditioning apparatus mounting structure, characterized in that the air conditioning apparatus mounting structure comprises:

the support frame is provided with a support frame with adjustable size, is of a detachable structure and is used for being detachably connected with the air conditioning equipment along the edge of the support frame;

The support frame is detachably connected with the first connecting frame; the first connection frame has a first mounting frame for passing through the air conditioning apparatus; the first connecting frame comprises a plurality of first keels, and the first keels are sequentially connected end to form the first mounting frame;

and a second connection frame having a second mounting frame for passing through the first connection frame and the support frame; the first connecting frame is positioned on the inner side of the second mounting frame and detachably connected with the second connecting frame, and the second connecting frame is used for connecting a suspended ceiling assembly and/or a top wall; the second connecting frame comprises a plurality of second keels, and the second keels are sequentially connected end to form the second mounting frame;

the clamping piece is positioned on the inner side of the second keel close to the first connecting frame and is detachably connected with the second keel, and an upward clamping groove is formed between the clamping piece and the second keel;

the first keel is provided with a clamping opening downwards, and the first keel is installed in a clamping mode through the clamping opening and the clamping groove.

2. The mounting structure of an air conditioning apparatus according to claim 1, wherein the support frame includes:

the plurality of first support rods are distributed at intervals along the first straight line direction; the method comprises the steps of,

the plurality of second support rods are distributed at intervals along the second linear direction; the plurality of first support rods are detachably connected with the plurality of second support rods, and the support frame is formed;

the first support rod and the second support rod are respectively used for being detachably connected with the air conditioning equipment along the edge of the support frame; opposite ends of the plurality of first support rods and/or opposite ends of the plurality of second support rods are detachably connected with the first connecting frames respectively; and the first straight line direction intersects the second straight line direction.

3. The mounting structure of an air conditioning apparatus according to claim 2, wherein the support frame further includes a cushion rubber strip for mounting between the first support bar and the air conditioning apparatus; and/or the number of the groups of groups,

the buffer rubber strip is used for being installed between the second supporting rod and the air conditioning equipment.

4. The mounting structure of an air conditioning apparatus according to claim 3, wherein the cushion rubber strip is mounted in a snap fit with the first support bar and the second support bar; and/or the number of the groups of groups,

The buffer rubber strip is used for being in extrusion contact with the air conditioning equipment.

5. The mounting structure of an air conditioning apparatus according to claim 1, further comprising a plurality of mounting booms, an upper end of each of the mounting booms being respectively used for connecting a top wall, and the second connection frame being respectively connected with a lower end of the plurality of mounting booms.

6. The mounting structure of an air conditioning apparatus according to claim 1, wherein the first connection frame is a rectangular frame structure, and the first connection frame is composed of a U-shaped keel having a vertical cross section or a keel having a rectangular cross section;

the second connecting frame is of a rectangular frame structure, and consists of U-shaped keels with vertical cross sections or keels with rectangular cross sections.

7. The mounting structure of an air conditioning apparatus according to any one of claims 1 to 6, characterized in that the mounting structure of an air conditioning apparatus further comprises:

the at least three mounting keels are distributed at intervals along the first linear direction or the second linear direction and are respectively used for being detachably connected with the first connecting frame; the method comprises the steps of,

And each installation panel is detachably connected with two adjacent installation keels and is used for shielding the first connection frame.

8. A suspended ceiling assembly, comprising:

the upper ends of the plurality of suspended ceiling suspenders are connected with the top wall;

the main keels are distributed at intervals, and each main keel is connected with the lower ends of the suspended ceiling suspenders; the method comprises the steps of,

the mounting structure of an air conditioning apparatus as set forth in any one of claims 1 to 7, the first connection frame being located between two adjacent main runners, and the first connection frame being for connection with the two main runners, respectively.

9. The ceiling assembly of claim 8, wherein, in the case where the mounting structure of the air conditioning apparatus further comprises a second connection frame:

the second connecting frame is located between two adjacent main keels, the first connecting frame and the two main keels close to each other are located on the inner side and the outer side of the second connecting frame respectively, and the second connecting frame and the two main keels are connected respectively.