CN221098957U - Mounting structure of smallpox machine panel and casing and smallpox machine that has it - Google Patents

Abstract

The utility model provides a mounting structure of a ceiling machine panel and a shell and a ceiling machine with the same, wherein the mounting structure comprises a mounting bolt, and the mounting bolt is arranged on the shell and is used for being fixedly connected with the panel; a first mounting portion provided with a first mounting hole; the first sliding sheet is movably arranged on the first installation part, a hoist hole is formed in the first sliding sheet and comprises a large hole part and a small hole part, the first sliding sheet can move in a passing position and a fixed position relative to the first installation part, and when the first sliding sheet moves to the passing position, the first end of the installation bolt can pass through the first installation hole and the large hole part; when moving to the fixed position, the aperture part can be fixed with the mounting bolt in a matching way. According to the utility model, through the sliding fit arrangement of the first sliding sheet and the first installation part, the rapid fit assembly of the panel and the shell is realized, and through the fit arrangement of the elastic buckle and the first limiting part and the second limiting part, the positioning of the first sliding sheet in the passing position and the fixing position is realized.

Description

Mounting structure of smallpox machine panel and casing and smallpox machine that has it

Technical Field

The utility model relates to the field of ceiling machines, in particular to a mounting structure of a ceiling machine panel and a shell and a ceiling machine with the mounting structure.

Background

The ceiling machine is an air conditioner hung on a ceiling, can be perfectly matched with home decoration, and is attractive and high-end. The ceiling fan can be used for air-out in four directions, is suitable for large space and space with floor slab layer height, and is generally installed in offices, meeting rooms, restaurants, living rooms and the like in supermarkets and large open spaces.

The smallpox machine usually includes casing and panel, and the casing passes through the lug to be installed in the ceiling, and the lug passes through screw or bolt and the forgiveness of ceiling panel, because panel size is great and weight is heavier, and operating personnel need the hand to hold in the palm panel assembly and dismantle or install, and the bolt is difficult for aligning with the mounting hole that corresponds on the panel during the installation, leads to the installation effectiveness lower, in addition, because the smallpox machine is usually hoist and mount on the ceiling, usually need dismantle the panel when after sale installation maintenance, the connection structure of panel and casing also is difficult for dismantling among the prior art, influences the installation and dismantles efficiency.

Disclosure of utility model

The utility model solves the problem that in the prior art, the ceiling machine panel and the shell are not easy to assemble and disassemble.

In order to solve the above problems, the present utility model discloses a mounting structure of a ceiling machine panel and a housing, comprising:

the mounting bolt is arranged on the shell and is fixedly connected with the panel;

The first installation parts are arranged at four corners of the panel of the ceiling machine, first installation holes are formed in the first installation parts, and first ends of the installation bolts can penetrate through the first installation holes to carry out matched installation of the panel and the shell;

The first sliding sheet is movably arranged on the first mounting part, a hoist hole is formed in the first sliding sheet, the hoist hole comprises a large hole part and a small hole part which are communicated, the first sliding sheet can move in two working positions of a passing position and a fixing position relative to the first mounting part, when the first sliding sheet moves to the passing position, the large hole part corresponds to the first mounting hole, and the first end of the mounting bolt can pass through the first mounting hole and the large hole part; when the first sliding sheet moves to a fixed position, the small hole part corresponds to the first mounting hole, and the small hole part can be matched and fixed with the mounting bolt.

Through the setting of first sliding piece and calabash hole for the diameter of first mounting hole can be greater than the diameter of mounting bolt far away, thereby be convenient for the mounting bolt pass first mounting hole fast, saved the cooperation installation time of panel and casing greatly, promoted the dismouting efficiency of panel and casing

Further, a first guide structure is provided between the first mounting portion and the first slider, and the first slider moves between a passing position and a fixing position along the first guide structure.

The first guide structure is used for limiting and guiding the movement of the first sliding sheet, and preventing the first sliding sheet from being inclined during movement, so that the corresponding relation between the large hole part and the small hole part in the gourd hole and the first mounting hole is ensured, and the mounting efficiency of the panel and the shell is improved.

Further, the first guide structure comprises a first screw hole, a first limit screw and a first guide groove, the first limit screw penetrates through the first guide groove and then is connected with the first screw hole, and the diameter of a first nut of the first limit screw is larger than the width of the first guide groove.

Through the arrangement, the first sliding sheet moves between the passing position and the fixing position under the cooperation limiting action of the first limiting screw and the first guide groove, so that the first sliding sheet is prevented from being skewed in moving, and smooth cooperation installation of the panel and the shell is ensured.

Further, a first limiting structure is further arranged between the first installation part and the first sliding sheet, and the first limiting structure is used for limiting the first sliding sheet when passing through the position and/or fixing the position.

Through the setting of first limit structure, make first sliding sheet homoenergetic and first installation department cooperation are spacing when passing the position or fixed position, avoid it to take place the displacement by oneself, guaranteed going on smoothly of personnel's operation.

Further, the first limit structure comprises a spring buckle, a first limit part and a second limit part, when the first sliding sheet is located in a penetrating position, the spring buckle is in fit limit with the second limit part, and when the first sliding sheet is located in a fixed position, the spring buckle is in fit limit with the first limit part.

The elastic buckle can deform when the first sliding sheet moves, so that the first sliding sheet can be ejected to limit when reaching an expected working position, and the first sliding sheet can be limited at two working positions through one elastic buckle, so that the elastic buckle is simple and convenient.

Further, the elastic buckle is arranged on the first installation part, and the first limiting part and the second limiting part are arranged on the first sliding sheet.

The first mounting part is arranged on the first mounting part through injection molding, so that the first mounting part is simple and convenient, and the production cost of corresponding parts is remarkably reduced.

Further, the elastic buckle comprises an elastic buckle groove and an elastic strip, the elastic strip is arranged in the elastic buckle groove, the elastic strip is partially protruded out of the elastic buckle groove, the protruded part of the elastic strip can be compressed and deformed to shrink towards the direction of the elastic buckle groove when the first sliding sheet moves, and the elastic strip is popped up when the first sliding sheet reaches a preset working position and is matched and limited with the first limiting part or the second limiting part.

The elastic buckle has the advantages that the elastic buckle is simple in structure and reliable in positioning, the elastic buckle groove and the elastic strip can be integrally injection molded with the first installation part, the production process is simplified, and the production cost is reduced.

Further, the first limiting part is one of a limiting hole, a limiting groove and a limiting protrusion; the second limiting part is one of a limiting hole, a limiting groove, a limiting protrusion and a limiting side plate.

The limiting side plate is a side plate which is close to the large hole and far away from the small hole, and because the side plate does not need to be provided with other structures to the side far away from the small hole, the limiting side plate can be directly used as a second limiting part, so that the material of the first sliding sheet can be saved, the production process can be simplified, and the production cost can be reduced.

Further, the first sliding sheet comprises a first sliding main body, a first turnover part is arranged at one end of the first sliding main body, and the first turnover part is turned over in a direction far away from the first installation part and used for pulling the first sliding sheet to move.

The setting of first folded part is convenient for operating personnel grasp to pulling first sliding sheet removal realizes the quick assembly of panel and casing.

The utility model also discloses a ceiling machine, which comprises the mounting structure of the ceiling machine panel and the shell, wherein the four corners of the panel are provided with the detachable corner cover plates, and the mounting structure of the ceiling machine panel and the shell is covered when the corner cover plates are assembled on the panel.

The corner cover plates are arranged to cover the corresponding installation structures and play a role in decoration and beauty after the installation is completed.

Compared with the prior art, the mounting structure of the ceiling machine panel and the shell and the ceiling machine with the mounting structure have the following advantages:

The utility model realizes the change of the aperture of the mounting hole when the panel is assembled with the shell in a matched manner through the sliding fit arrangement of the first sliding sheet and the first mounting part, the large hole part corresponds to the first mounting hole when the panel passes through the mounting hole, so that the mounting bolt can conveniently pass through the mounting hole, and the small hole part corresponds to the first mounting hole when the panel is fixed, thereby realizing the relative fixation of the mounting bolt and the panel. The utility model has simple structure, is convenient and quick to install, and improves the disassembly and assembly efficiency of the ceiling machine panel.

Drawings

Fig. 1 is a schematic perspective view of an assembled panel and a housing according to an embodiment of the present utility model;

FIG. 2 is a side view of a panel and housing according to an embodiment of the present utility model;

FIG. 3 is a schematic cross-sectional view of the portion A-A in FIG. 2;

FIG. 4 is an enlarged schematic view of a portion of the portion C in FIG. 3;

FIG. 5 is a schematic cross-sectional view of the portion B-B in FIG. 2;

FIG. 6 is an enlarged view of a portion of the portion D of FIG. 5, wherein the first slider is in a fixed position;

FIG. 7 is an enlarged view of a portion of the portion E of FIG. 5, with the first slider in the pass-through position;

Fig. 8 is a schematic perspective view of a first sliding piece according to an embodiment of the present utility model;

FIG. 9 is a schematic perspective view of a panel according to an embodiment of the present utility model;

FIG. 10 is a partially enlarged schematic illustration of the portion G of FIG. 9;

FIG. 11 is an enlarged partial schematic view of the portion F in FIG. 9;

fig. 12 is a schematic cross-sectional view of a first mounting portion according to an embodiment of the present utility model;

FIG. 13 is a schematic view of a structure in which a second sliding sheet is fixed to a panel after assembling a grille and the panel according to an embodiment of the present utility model;

FIG. 14 is a schematic view of a grid and a panel assembly according to an embodiment of the present utility model;

FIG. 15 is an enlarged partial schematic view of the portion H of FIG. 14;

FIG. 16 is a schematic view showing a three-dimensional structure of a grille according to an embodiment of the utility model;

FIG. 17 is an enlarged partial schematic view of the J portion of FIG. 16;

FIG. 18 is an enlarged view of a portion of the portion K of FIG. 16;

FIG. 19 is a schematic perspective view of a second slider according to an embodiment of the present utility model;

FIG. 20 is a schematic perspective view of an air deflector according to an embodiment of the present utility model;

FIG. 21 is a schematic perspective view of an air guiding driving assembly according to an embodiment of the present utility model;

FIG. 22 is a schematic view of an alternate perspective view of an air guiding driving assembly according to an embodiment of the present utility model;

Fig. 23 is a schematic perspective view of an air guiding driven assembly according to an embodiment of the utility model.

Reference numerals illustrate:

100-panel; 110-a first mounting portion; 111-a first limit screw; 112-a first mounting hole; 113-snapping; 1131-snap groove; 1132-spring strips; 114-a first screw hole; 120-a second mounting portion; 121-a hooking hole; 122-hooking a baffle; 130-a third mount; 131-a first screw post; 132-a back plate; 133-a first limiting plate; 134-a first limit groove; 135-a first mounting groove; 136-a first limiting table; 140-fourth mounting portion; 141-a second screw hole; 142-a first socket; 143-a second mounting groove; 150-a second plugging groove; 200-a housing; 210-mounting ears; 220-mounting bolts; 221-a limit nut; 300-corner cover plate; 400-wind deflector; 410-a first connection post; 411-a third socket; 412-a second limiting table; 500-grid; 510-grating hooks; 511-a connection; 512-rotation axis; 520-fifth mount; 521-second limit screws; 522-a second screw post; 523-first guide plate; 524-second guide plate; 525-supporting plate; 526-a through hole; 527—a sliding groove; 528-limiting steps; 600-a first pull slide; 610-a first pull slide body; 611-a first guide groove; 612—a first limit portion; 613-a second limit part; 614-large pore part; 615—small hole portions; 620-first fold; 630-a second fold; 700-wind-guiding driving assembly; 710-driving the cover plate; 720-a first side plate; 730-a first positioning plate; 740-a second connection post; 741-plug-in columns; 750-limit columns; 760-a second side plate; 770—a driver; 800-an air guide driven assembly; 810-driven cover plate; 820-plugboard; 830-stop plate; 840-a connecting groove; 850-a second positioning plate; 900-a second pull slide; 910-a second pull slide body; 911-second guide grooves; 912-clamping a boss; 913—a first guide; 914-second guide; 915-fifth limit stop; 920-connecting plates; 921-pull slide handle.

Detailed Description

The present utility model will be further described in detail with reference to the drawings and examples, for the purpose of making the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the described embodiments are some, but not all, embodiments of the utility model. The specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model. It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

The following specifically describes a mounting structure of a ceiling machine panel and a housing and a ceiling machine with the same according to an embodiment of the present utility model with reference to the accompanying drawings.

Example 1

The present embodiment provides a mounting structure of a ceiling machine panel and a housing, as shown in fig. 1 to 12, including:

A mounting bolt 220, the mounting bolt 220 being provided on the housing 200 for fixedly connecting with the panel 100;

A first mounting portion 110, wherein the first mounting portion 110 is disposed at four corners of the ceiling panel 100, a first mounting hole 112 is disposed on the first mounting portion 110, and a first end of the mounting bolt 220 can pass through the first mounting hole 112 to perform the matching mounting of the panel 100 and the housing 200;

A first sliding piece 600, the first sliding piece 600 is movably arranged on the first mounting portion 110, a hoist hole is arranged on the first sliding piece 600, the hoist hole comprises a big hole portion 614 and a small hole portion 615 which are communicated, the first sliding piece 600 can move relative to the first mounting portion 110 in two working positions of a passing position and a fixing position, when the first sliding piece 600 moves to the passing position, the big hole portion 614 corresponds to the first mounting hole 112, and the first end of the mounting bolt 220 can pass through the first mounting hole 112 and the big hole portion 614; when the first sliding piece 600 moves to a fixed position, the small hole portion 615 corresponds to the first mounting hole 112, and the small hole portion 615 is matched and fixed with the mounting bolt 220.

In the prior art, the diameter of the mounting bolt 220 is slightly smaller than that of the first mounting hole 112, after the mounting bolt passes through the first mounting hole 112, the panel 100 and the housing 200 are assembled by being matched and screwed with the mounting bolt 220 through the limit nut 221, in this case, the diameter of the first mounting hole 112 needs to be larger than that of the mounting bolt 220, and smaller than that of the limit nut 221, so that the diameter of the first mounting hole 112 is slightly larger than that of the mounting bolt 220, and the mounting bolt 220 is difficult to align with the first mounting hole 112 during mounting, so that the mounting efficiency is seriously affected. In this embodiment, through the arrangement of the first sliding piece 600 and the gourd hole, the diameter of the first mounting hole 112 can be far greater than that of the mounting bolt 220, so that the mounting bolt 220 can conveniently and rapidly pass through the first mounting hole 112, the matching mounting time of the panel 100 and the housing 200 is greatly saved, and the dismounting efficiency of the panel 100 and the housing 200 is improved. The first mounting portions 110 are provided in four, and are provided at four corners of the panel 100, respectively.

As an alternative embodiment, as shown in fig. 6 and 7, a first guide structure is provided between the first mounting portion 110 and the first sliding piece 600, and the first sliding piece 600 moves between a passing position and a fixing position along the first guide structure. The first guiding structure is used for limiting and guiding the movement of the first sliding sheet 600, so that the first sliding sheet 600 is prevented from being skewed during movement, and accordingly, the corresponding relation between the large hole 614 and the small hole 615 in the gourd hole and the first mounting hole 112 is ensured, and the mounting efficiency of the panel 100 and the housing 200 is improved.

Alternatively, as shown in fig. 6, 7, 8 and 10, the first guiding structure includes a first screw hole 114, a first limit screw 111 and a first guiding groove 611, where the first limit screw 111 passes through the first guiding groove 611 and then is connected to the first screw hole 114, and a first nut diameter of the first limit screw 111 is greater than a width of the first guiding groove 611. The first screw hole 114 may be disposed on the first mounting portion 110, in which case the first guide groove 611 is correspondingly disposed on the first sliding piece 600, and the first screw hole 114 may also be disposed on the first sliding piece 600, in which case the first guide groove 611 is correspondingly disposed on the first mounting portion 110, which is not limited herein. Through the above arrangement, the first sliding piece 600 moves between the passing position and the fixing position under the action of the matching and limiting of the first limiting screw 111 and the first guiding groove 611, so that the first sliding piece 600 is prevented from being skewed during movement, and smooth matching and installation of the panel 100 and the housing 200 are ensured. It should be noted that, the first guiding structure may also adopt a structure of a boss and a guiding groove, and the boss extends into the guiding groove to perform the technical scheme of limiting guiding, which is not described in detail herein. As one alternative embodiment, two first screw holes 114 and first limit screws 111 are respectively provided, one first guide groove 611 is provided, two first limit screws 111 respectively pass through the first guide grooves 611 and are connected with the first screw holes 114, the arrangement limits the moving direction of the first sliding piece 600 through the two first limit screws 111, so that the skew of the first sliding piece 600 in the moving process can be completely avoided, but a longer first guide groove 611 is required, as another alternative embodiment, two first screw holes 114, two first limit screws 111 and two first guide grooves 611 are respectively provided, and each group of first screw holes 114, two first limit screws 111 and one first guide groove 611 form a first guide structure, so that the first sliding piece 600 is subjected to limit guide by adopting two groups of guide structures, the skew in the moving process can be completely avoided, and the smooth matching installation of the panel 100 and the housing 200 is ensured. In this embodiment, the first limit screw 111 is not fully tightened so that the first sliding piece 600 can move along the first guide groove 611 with respect to the first mounting portion 110.

As a preferred embodiment of the present utility model, as shown in fig. 6, 7 and 12, a first limiting structure is further provided between the first mounting portion 110 and the first sliding piece 600, where the first limiting structure is used for limiting the first sliding piece 600 when passing through and/or fixing the position. When not setting up first limit structure, first sliding vane 600 has automatic removal at the during operation, leads to panel 100 and the unable smooth dismouting risk of casing 200, through first limit structure's setting, makes first sliding vane 600 homoenergetic and first installation department 110 cooperation spacing when passing the position or fixing the position, avoids its self-occurrence displacement, has guaranteed going on smoothly of personnel's operation.

Alternatively, as shown in fig. 6, 7, 8 and 10, the first limiting structure includes a latch 113, a first limiting portion 612 and a second limiting portion 613, when the first sliding piece 600 is located in the passing position, the latch 113 is in a limit fit with the second limiting portion 613, and when the first sliding piece 600 is located in the fixing position, the latch 113 is in a limit fit with the first limiting portion 612. The elastic buckle 113 can deform when the first sliding sheet 600 moves, so that the first sliding sheet 600 can be ejected to limit when reaching an expected working position, and the limit of the two working positions of the first sliding sheet 600 can be realized through one elastic buckle 113, so that the device is simple and convenient. The snap 113 is disposed on one of the first mounting portion 110 and the first slider 600, and the first limiting portion 612 and the second limiting portion 613 are disposed on the other.

As one preferred embodiment, as shown in fig. 8 and 10, the snap 113 is disposed on the first mounting portion 110, and the first limiting portion 612 and the second limiting portion 613 are disposed on the first sliding piece 600. Since the first sliding body 610 of the first sliding piece 600 is a thin sheet, the installation of the snap 113 thereon results in a complex production process and a high cost, and the first sliding body is formed integrally by injection molding when being installed on the first installation portion 110, which is simple and convenient, and significantly reduces the production cost of the corresponding components.

As an alternative embodiment, as shown in fig. 12, the latch 113 includes a latch groove 1131 and a latch strip 1132, the latch strip 1132 is disposed in the latch groove 1131, and the latch strip 1132 partially protrudes out of the latch groove 1131, where the protruding portion of the latch strip 1132 can be compressed and deformed to shrink toward the latch groove 1131 when the first sliding piece 600 moves, and pop out when the first sliding piece 600 reaches a predetermined working position, and is limited by cooperation with the first limiting portion 612 or the second limiting portion 613. Through the above arrangement, the snap 113 is simple in structure and reliable in positioning, and the snap groove 1131 and the snap strip 1132 can be integrally injection molded with the first mounting portion 110, so that the production process is simplified, and the production cost is reduced.

As a part of optional embodiments, the first limiting portion 612 is one of a limiting hole, a limiting slot, and a limiting protrusion; the second limiting part 613 is one of a limiting hole, a limiting groove, a limiting protrusion and a limiting side plate. In this embodiment, as shown in fig. 12, the first limiting portion 612 may be a limiting hole penetrating through the first sliding piece 600, or may be a limiting protrusion protruding toward the first mounting portion 110, or a limiting groove not penetrating through the first sliding piece 600; the second limiting portion 613 is a limiting side plate, specifically, the limiting side plate is a side plate close to the large hole portion 614 and far away from the small hole portion 615, and since the side plate does not need to be provided with other structures towards the side far away from the small hole portion 615, the side plate can be directly used as the second limiting portion 613, on one hand, materials of the first sliding sheet 600 can be saved, on the other hand, production process of the side plate can be simplified, and production cost is reduced.

As one of the preferred embodiments, the first limiting structure is disposed between the first guiding structure and the gourd hole. Through above-mentioned setting for first limit structure forms the cooperation spacing between first guide structure and calabash hole, can effectively utilize its spacing effect, avoids first sliding vane 600 to take place to remove or skew at the operation in-process, guarantees its result of use.

In this embodiment, as shown in fig. 8, the first sliding piece 600 includes a first sliding body 610, the first guiding structure and/or the first limiting structure are disposed between the first sliding body 610 and the first mounting portion 110, the hoist hole is disposed on the first sliding body 610, and a first folding portion 620 is disposed at one end of the first sliding body 610, and the first folding portion 620 is folded in a direction away from the first mounting portion 110, so as to pull the first sliding piece 600 to move. The first folding portion 620 is convenient for an operator to grasp, thereby pulling the first sliding sheet 600 to move, and realizing rapid assembly of the panel 100 and the housing 200. As an embodiment of the present application, the first guide groove 611, the first limiting portion 612 and the second limiting portion 613 are all disposed on the first sliding body 610.

As an example, as shown in fig. 8, a second turnover part 630 is provided at a side of the large hole 614 away from the small hole 615, and the second turnover part 630 is turned away from the first installation part 110. The second turnup 630 is arranged to enhance the strength of the first sliding sheet 600, and on the other hand, a corresponding limiting piece (not shown in the drawing) is arranged on the first mounting portion 110, so that when the first sliding sheet 600 is located in a passing position, the second turnup 630 is attached to the limiting piece, the second turnup 630 can be abutted to the surface of the limiting piece, so that the first sliding sheet 600 is correspondingly adjusted in position, and the offset of the first sliding sheet 600 in the moving process is corrected, so that the panel 100 and the housing 200 are smoothly matched and mounted.

Specifically, as shown in fig. 3 and 4, when the ceiling machine is suspended from the ceiling, the first sliding piece 600 is disposed at the lower side of the first mounting portion 110. When the ceiling machine is hung on the ceiling, the first sliding sheet 600 is disposed at the lower side so that it can directly face the operator, facilitating the assembling and disassembling operation of the panel 100. In this embodiment, the upper and lower directions are described in terms of the positional relationship when the ceiling machine is suspended from the ceiling.

As an alternative embodiment, as shown in fig. 4, a stop nut 221 is disposed at a first end of the mounting bolt 220, and the stop nut 221 can pass through the first mounting hole 112 and the large hole 614 with the mounting bolt 220 and can be blocked and fixed with the small hole 615. Or the first end of the mounting bolt 220 is provided with a necking portion, the diameter of the necking portion is smaller than that of the mounting bolt 220, and the necking portion can be clamped and fixed with the small hole portion 615 in a matching manner.

As shown in fig. 1 and 2, a mounting lug 210 is provided on the housing 200, and the mounting bolt 220 is provided on the housing 200 through the mounting lug 210. The first end of the mounting bolt 220 is fixed to the panel 100, and the second end is used for fixedly hanging the housing 200 on the ceiling, so that the second end of the mounting bolt 220 and the internal components of the housing 200 are not fully shown in the drawings of the present utility model, and the specific dimensional relationships between the mounting bolt 220 and the housing 200 are not limited by the drawings of the present utility model.

As an alternative embodiment, a hanging ring is further provided on the panel 100, the hanging ring is rotatably connected with the panel 100, and a hanging hook is provided in the housing 200, and the hanging ring is detachably engaged with the hanging hook. This arrangement makes when panel 100 installs, can adopt rings and hanging couple cooperation to articulate and carry out the preassembly of panel 100, later operating personnel can vacate the hand and carry out the operation of first sliding sheet 600, promotes its operating convenience. The specific structure of the hanging ring and the hanging hook can refer to the prior art, and the description is not repeated here.

On this basis, the panel 100 is further detachably provided with a grille 500, and this embodiment further provides an assembly structure of the grille 500 and the panel 100:

As shown in fig. 13 to 19, a plurality of grid hooks 510 are disposed on one side of the grid 500, a second mounting portion 120 is correspondingly disposed on the panel 100, the grid hooks 510 are rotatably engaged with the second mounting portion 120, a plurality of second sliding components are disposed on the other side opposite to the grid hooks 510, the second sliding components include a movable second sliding piece 900, a second inserting groove 150 is correspondingly disposed on the panel 100, the second sliding piece 900 can move into the second inserting groove 150 to form an engagement fixation of the grid 500 and the panel 100, the second sliding piece 900 includes a sliding handle 921, the sliding handle 921 is disposed on an outer circumference side of the grid 500 and is used for driving the second sliding piece 900 to move, a gap exists between an outer circumference of the grid 500 and the panel 100 after the grid 500 is engaged with the panel 100, and the sliding handle 921 is disposed in the gap.

Under the general condition, be provided with the filter screen that shelters from the air intake in the smallpox machine, the filter screen is fixed to be set up in the upside of grid 500, the filter screen is used for filtering the inside air of getting into the smallpox machine, need regularly wash, it needs to pull down grid 500 to wash the filter screen, grid 500 is usually installed through buckle structure and panel 100 joint among the prior art for grid 500 is difficult for dismantling, need carry out the washing of filter screen after dismantling the panel 100 is whole, lead to the filter screen difficult to wash, long-time not wash the filter screen will lead to the bacterium to breed, influence user's healthy. In this embodiment, through the setting of clearance and sliding handle 921, when grid 500 needs to be dismantled, only need will be through the sliding handle 921 in the removal clearance can pull out second sliding vane 900 from second jack-in groove 150, the one side that is provided with the second on grid 500 this moment draws the slip subassembly and panel 100 separation, thereby make grid 500 can rotate around second installation department 120 and not drop, can carry out the dismantlement washing of filter screen at this moment, the washing is accomplished the back again and is moved second sliding vane 900 and second jack-in groove 150 cooperation grafting through sliding handle 921, accomplish grid 500 and panel 100 cooperation fixed, this setting makes and need not to pull down grid 500 completely can carry out the washing of filter screen, it is simple convenient, if will pull down grid 500 completely, then pull up the part that grid 500 is close to second installation department 120 upwards after pulling out second sliding vane 900 from second jack-in groove 150, then move it to second jack-in groove 150, make grid couple 510 deviate from second installation department 120, can be with grid 500 completely, can be with grid 500 and install grid 150 can be pulled down completely, can be with second hook 510 and install grid 150 and install convenient and install the cooperation with second jack-in advance, can be accomplished with second jack-in groove 100, the cooperation with second jack-in advance, if grid 500 is required to pull down completely.

As an example, as shown in fig. 18, the grill hook 510 includes a connection portion 511 and a rotation shaft 512, a first end of the connection portion 511 is connected to a side of the grill 500, a second end of the connection portion 511 extends away from the grill 500, and the rotation shaft 512 is disposed at the second end of the connection portion 511. The above structure is simple and easy to manufacture and to hang, and the second mounting portion 120 corresponding thereto is convenient to be provided. It should be noted that, in one preferred embodiment, the second end of the connecting portion 511 is bent downward, which is convenient for providing a hanging structure corresponding to the rotating shaft 512, and provides a larger rotating space. The hooking structures may be hook structures engaged with both ends of the rotation shaft 512, or other structures may be used.

As an alternative embodiment, as shown in fig. 18, two connection parts 511 are provided, one rotation shaft 512 is provided, two connection parts 511 are provided at a certain distance, the second mounting part 120 includes a hooking hole 121 and a hooking baffle 122, the rotation shaft 512 can extend into the hooking hole 121 beyond the hooking baffle 122, and after the hooking is completed, the hooking baffle 122 cooperates with the rotation shaft 512 between the two connection parts 511. Specifically, as shown in fig. 11 and 17, the hooking baffle 122 protrudes upward from the bottom of the opening of the hooking hole 121, the length of the rotating shaft 512 is denoted as L1, the distance between the two connection portions 511 is denoted as L2, the length of the hooking hole 121 is denoted as L3, the length of the hooking baffle 122 is denoted as L4, and then L3> L1> L2> L4, wherein the length directions of the hooking hole 121 and the hooking baffle 122 are the same as the length directions of the rotating shaft 512, and this arrangement makes a hooking groove formed between the hooking baffle 122 and the hooking holes 121 on both sides thereof, and when the grille hook 510 is engaged with the second mounting portion 120, the connection portion 511 is engaged with the hooking groove. Through the above arrangement, when the grille hook 510 is engaged with the second mounting portion 120, the rotation shaft 512 is first extended into the engaging hole 121 on the upper side of the engaging piece 122, and then the grille 500 is lowered, so that the engaging piece 122 extends between the two connecting portions 511, at this time, the two connecting portions 511 also enter the engaging groove, and the engagement and engagement of the grille hook 510 and the second mounting portion 120 can be completed, which is simple and convenient.

As another embodiment of the present utility model, one of the connection portion 511 and the rotation shaft 512 is provided, the second mounting portion 120 includes a hooking hole 121 and two hooking tabs 122, and the rotation shaft 512 can extend into the hooking hole 121 beyond the hooking tabs 122, and after the hooking is completed, the two hooking tabs 122 are stopped by being engaged with both ends of the rotation shaft 512. The hooking baffle 122 protrudes upward from the bottom of the opening of the hooking hole 121, and is respectively disposed at a position near both ends of the hooking hole 121 in the length direction, the length of the rotating shaft 512 is denoted as L1, the width of the connecting portion 511 is denoted as L2, the length of the hooking hole 121 is denoted as L3, the length of the hooking baffle 122 is denoted as L4, and then L3> L1> (L3-L2)/2 > L4, wherein the length direction of the hooking hole 121 and the hooking baffle 122 is the same as the length direction of the rotating shaft 512, the width direction of the connecting portion 511 is the same as the length direction of the rotating shaft 512, and the length direction of the rotating shaft 512 is the axial direction thereof. Through the above arrangement, when the grid hook 510 is engaged with the second mounting portion 120, the rotation shaft 512 is first extended into the engaging hole 121 on the upper side of the engaging piece 122, and then the grid 500 is lowered, so that the engaging piece 122 extends between the rotation shaft 512 and the grid 500 on both sides of the connection portion 511, and at this time, the connection portion 511 also enters the engaging groove, so that the engagement and engagement of the grid hook 510 and the second mounting portion 120 can be completed, which is simple and convenient.

As an embodiment of the present utility model, as shown in fig. 14 to 17, the second sliding assembly further includes a fifth mounting portion 520, the fifth mounting portion 520 is disposed on the grille 500, the second sliding piece 900 is movably disposed on the fifth mounting portion 520, and the sliding handle 921 can drive the second sliding piece 900 to move between the disassembling position and the locking position. When the second sliding piece 900 is located at the locking position, the second sliding piece 900 is fixed in cooperation with the second inserting groove 150, and is used for fixedly connecting the grille 500 with the panel 100, and when the second sliding piece 900 is located at the disassembling position, the second sliding piece 900 is pulled out from the second inserting groove 150, and is used for disassembling the grille 500 from the panel 100. Through the arrangement, the quick assembly disassembly of the grille 500 and the panel 100 is realized, the operation steps are simplified, and the use experience of a user is improved.

As an alternative embodiment, as shown in fig. 15, a second guide structure is provided between the fifth mounting part 520 and the second pull tab 900, and the second pull tab 900 moves between the removal position and the locking position along the second guide structure. The second guiding structure is used for limiting and guiding the movement of the second sliding sheet 900, so that the second sliding sheet 900 is prevented from being skewed during movement, smooth matching and plugging of the second sliding sheet 900 and the second plugging slot 150 are ensured, and the assembly efficiency of the grid 500 and the panel 100 is improved.

Alternatively, as shown in fig. 17 and 19, the second guiding structure includes a second limit screw 521, a second screw post 522, and a second guiding groove 911, and the second nut diameter of the second limit screw 521 is larger than the width of the second guiding groove 911. The second screw post 522 may be disposed on the fifth mounting portion 520, in which case the second guide groove 911 is correspondingly disposed on the second pull tab 900, and the second screw post 522 may also be disposed on the second pull tab 900, in which case the second guide groove 911 is correspondingly disposed on the fifth mounting portion 520, which is not limited herein. Through the above arrangement, the second sliding piece 900 moves between the disassembling position and the locking position under the matching and limiting action of the second limiting screw 521 and the second guiding groove 911, so that the second sliding piece 900 is prevented from being skewed during moving, and smooth matching and installation of the panel 100 and the grille 500 are ensured. It should be noted that, the second guiding structure may also adopt a structure of a boss and a guiding groove, and the boss extends into the guiding groove to perform the technical scheme of limiting guiding, which will not be described in detail herein. As one alternative embodiment, two second screw columns 522 and second limit screws 521 are respectively provided, one second guide groove 911 is provided, and two second limit screws 521 respectively pass through the second guide grooves 911 and are connected with the second screw columns 522, the arrangement limits the moving direction of the second sliding sheet 900 through the two second limit screws 521, so that the skew of the second sliding sheet 900 in the moving process can be completely avoided, but a longer second guide groove 911 is required, as another alternative embodiment, two second screw columns 522, second limit screws 521 and second guide grooves 911 are respectively provided, and each group of second screw columns 522, second limit screws 521 and second guide grooves 911 form a second guide structure, so that the second sliding sheet 900 is subjected to limit guide by adopting two groups of guide structures, and the skew of the second sliding sheet 900 in the moving process can be completely avoided, and the smooth matching installation of the panel 100 and the grille 500 is ensured.

As an example, as shown in fig. 17 and 19, the second guiding structure further includes a first guiding plate 523 and a first guiding portion 913 that cooperate and guide, and a second guiding plate 524 and a second guiding portion 914 that cooperate and guide, the first guiding portion 913 includes a third guiding groove that cooperates and guides with the first guiding plate 523, the second guiding portion 914 includes a fourth guiding groove that cooperates and guides with the second guiding plate 524, and a fifth limiting portion 915, and a limiting step 528 is provided on the second guiding plate 524, and the fifth limiting portion 915 is used for cooperating and limiting with the limiting step 528. Through the above arrangement, the displacement direction of the second sliding piece 900 can be further limited, so as to prevent the second sliding piece 900 from being deviated in the moving process, and ensure smooth plugging of the second sliding piece 900 and the second plugging slot 150, wherein the arrangement of the fifth limiting portion 915 and the limiting step 528 is used for assisting in limiting the displacement of the second sliding piece 900 when moving to the second plugging slot 150.

As one preferred embodiment, as shown in fig. 17 and 19, the fifth mounting portion 520 further includes a support plate 525, a through hole 526 is provided in the support plate 525, and the second sliding piece 900 is movably disposed through the through hole 526. It should be appreciated that, in order to ensure the mobility of the second sliding vane 900, the second limiting screw 521 cannot be completely fastened, and the first guide plate 523 and the first guide portion 913, the second guide plate 524 and the second guide portion 914 cannot be fastened, so that, when the grille 500 is assembled with the panel 100, the second sliding vane 900 may move downward, and there is a risk that it cannot be aligned with the second socket 150, and the support plate 525 and the through hole 526 may form an effective support for the second sliding vane 900, limit the displacement of the second sliding vane 900 when assembled, and ensure that the second sliding vane 900 may be assembled with the second socket 150 smoothly.

In this embodiment, as shown in fig. 19, the second sliding piece 900 includes a second sliding body 910 and a connection plate 920, the second guide structure is disposed between the second sliding body 910 and the fifth mounting portion 520, the connection plate 920 is used to connect the second sliding body 910 with the sliding handle 921, the fifth mounting portion 520 further includes a sliding groove 527, and the connection plate 920 is movably disposed in the sliding groove 527. The sliding groove 527 is used for limiting the movement displacement of the connecting plate 920, thereby limiting the movement displacement of the sliding handle 921, and thus limiting the displacement of the second sliding piece 900.

As a preferred embodiment, as shown in fig. 19, a locking boss 912 is provided on the second sliding vane 900, a locking slot (not shown in the drawing) is correspondingly provided in the second inserting slot 150, and when the second sliding vane 900 is located in the locking position, the locking boss 912 is locked with the locking slot in a matching manner. Through the arrangement, the second sliding sheet 900 can be locked when being matched with the second inserting groove 150, so that the second sliding sheet 900 is prevented from being displaced, and the stability of connection between the grid 500 and the panel 100 is ensured.

On this basis, the panel 100 may further be provided with an air deflector 400 driven by a driving device, and this embodiment further provides an installation structure of the driving device of the air deflector 400:

As shown in fig. 9 to 11 and fig. 20 to 23, the wind deflector comprises a panel 100, a wind deflector 400, a wind deflector driving assembly 700 and a wind deflector driven assembly 800, wherein a third mounting part 130 and a fourth mounting part 140 are arranged on the panel 100, the third mounting part 130 is used for being matched and assembled with the driving end of the wind deflector 400 and the wind deflector driving assembly 700, the fourth mounting part 140 is used for being matched and assembled with the driven end of the wind deflector 400 and the wind deflector driven assembly 800, a first limiting table 136 is arranged in the third mounting part 130, a second limiting table 412 is arranged at the driving end of the wind deflector 400, and the first limiting table 136 is used for being matched and limited with the second limiting table 412 to limit the assembly angle of the wind deflector 400.

In the prior art, the driving end of the air deflector 400 needs to be matched and spliced with the output shaft of the motor during installation, if the air deflector 400 is arranged in parallel with the panel 100, the air deflector 400 cannot be gripped due to the extremely small distance between the air deflector 400 and the side plates of the installation holes on the panel 100, and the assembly of the air deflector 400 is affected, so that the output shaft of the motor needs to be rotated by a certain angle, the air deflector 400 is assembled by a certain angle relative to the panel 100, and during the assembly, the condition that the grip of an operator is affected due to the overlarge angle between the air deflector 400 and the panel 100 possibly occurs, and the assembly efficiency is affected.

As an alternative embodiment, as shown in fig. 10 and fig. 20 to fig. 22, the driving end of the air deflector 400 is provided with a first connection post 410, the third mounting portion 130 includes a first mounting groove 135, the first connection post 410 is rotatably disposed in the first mounting groove 135, the first limiting platform 136 is disposed on the first mounting groove 135, the second limiting platform 412 is correspondingly disposed on the first connection post 410, and the first connection post 410 is configured to be connected with the air deflector driving assembly 700 and can drive the air deflector 400 to rotate under the driving of the air deflector driving assembly 700. Through the arrangement, the angle limitation during assembling of the air deflector 400 can be realized only by arranging corresponding limiting structures such as the first limiting platform 136 and the second limiting platform 412 on the first connecting column 410 and the first mounting groove 135 in the prior art, and the structure in the prior art is not required to be changed greatly, so that the air deflector is simple and convenient. Specifically, the first mounting groove 135 is disposed on a first step, where the first step is fixedly connected with the panel 100, and a side of the first mounting groove 135, which is close to the corner cover 300, is a first opening structure, and the first opening structure facilitates the arrangement of the first connection post 410 and the second connection post 740 of the air guiding driving assembly 700.

In this embodiment, as shown in fig. 21 and 22, the wind guiding driving assembly 700 includes a driving cover 710, a first side plate 720, a second side plate 760, a front side plate and a driving member 770, where the driving cover 710, the first side plate 720, the second side plate 760 and the front side plate enclose a first accommodating cavity, the driving member 770 is disposed in the first accommodating cavity, a second connection post 740 is disposed on the front side plate, a plug post 741 is disposed in the second connection post 740, a third plug slot 411 is disposed on the first connection post 410, the plug post 741 is plugged with the third plug slot 411 in a matching manner, and when plugged, the second connection post 740 is sleeved on the outer periphery of the first connection post 410, and the third plug slot 411 is connected with an output shaft of the driving member 770. In this case, when the driving member 770 operates, the output shaft drives the third inserting slot 411 to rotate, and further drives the air deflector 400 to rotate, so that the air deflector 400 can be driven during air supply. Optionally, the driving member 770 is a motor.

As one of the preferred embodiments, as shown in fig. 10 and 21, a limiting post 750 is further disposed on the front side plate, and a first limiting groove 134 is correspondingly disposed on the third mounting portion 130, where the first limiting groove 134 is limited by matching with the limiting post 750. The positioning posts 750 and the first positioning slots 134 may limit the insertion depth of the insertion posts 741 and the third insertion slots 411, and may limit the installation height of the air guiding driving assembly 700, thereby limiting the installation position of the air guiding driving assembly 700 to ensure smooth assembly with the air guiding plate 400. Optionally, the first limiting groove 134 is disposed on the first step.

Alternatively, as shown in fig. 21 and 22, a first positioning plate 730 is disposed on the first side plate 720, a third screw hole is disposed on the first positioning plate 730, a first screw column 131 is correspondingly disposed on the third mounting portion 130, and the air guiding driving assembly 700 is fixedly disposed on the panel 100 through the third screw hole and the first screw column 131. It should be noted that, after the air guiding driving assembly 700 is cooperatively connected with the air guiding plate 400, the air guiding driving assembly 700 is pushed toward the air guiding plate 400, when the front side plate abuts against the panel 100 or the limiting post 750 abuts against the first limiting groove 134, a preset mounting position is reached, and at this time, the third screw hole is automatically aligned with the first screw post 131, so that the air guiding driving assembly 700 can be fixedly connected with the panel 100 by using a screw.

As a preferred embodiment, as shown in fig. 10, the third mounting portion 130 further includes a first limiting plate 133, where the first limiting plate 133 is used to cooperate with the first positioning plate 730 to limit a distance between the air guiding driving assembly 700 and the air guiding plate 400 when the air guiding driving assembly is assembled or disassembled. The distance between the wind guiding driving assembly 700 and the wind guiding plate 400 is defined when the wind guiding driving assembly 700 is assembled and disassembled, and the distance between the wind guiding driving assembly 700 and the wind guiding plate 400 can be defined by abutting the first limiting plate 133 with the first positioning plate 730 when the wind guiding driving assembly 700 is assembled, so that the wind guiding driving assembly 700 is directly arranged at a position close to the wind guiding plate 400, the wind guiding plate 400 and the wind guiding driving assembly 700 are rapidly assembled, when the wind guiding driving assembly 700 needs to be disassembled, the wind guiding driving assembly 700 is driven to move in a direction far away from the first step when the inserting posts 741 and the third inserting slots 411 are separated, and at the moment, the distance between the wind guiding driving assembly 700 and the wind guiding plate 400 can be defined by abutting the first positioning plate 730, and therefore the installation of the wind guiding driving assembly 700 is only required to be performed in a small space range, and occupation of the inner space of a ceiling machine when the wind guiding driving assembly 700 is installed is saved.

In one embodiment of the present utility model, as shown in fig. 10, the third mounting portion 130 further includes a rear plate 132, where the rear plate 132 is disposed at a position away from the air deflector 400, and after the air deflector 400 is assembled with the air deflector 400, the rear plate 132 is flush with an end of the driving cover 710 away from the front side plate. Preferably, the rear plate 132 is shaped and sized to fit the driving cover 710, and the rear plate 132 closes an end of the driving cover 710 away from the front side plate after the wind-guiding driving assembly 700 is assembled. The rear plate 132 can support the driving cover 710 when the wind guiding driving assembly 700 is installed, so as to avoid the influence of the tilting of the second connecting post 740 on the assembly of the wind guiding plate 400, and in addition, the rear plate 132 can protect the driving member 770 after the assembly of the wind guiding driving assembly 700 is completed. As an alternative embodiment, the first limiting plate 133, the rear plate 132, the first screw post 131, the first limiting groove 134, the first mounting groove 135, the first limiting stand 136, and the first boss are integrally injection molded with the panel 100.

In this embodiment, as shown in fig. 11 and 23, the air guiding driven assembly 800 includes a driven cover plate 810, a plugboard 820 and a second positioning plate 850, the fourth mounting portion 140 includes a second screw hole 141, a first plugboard 142 and a second mounting groove 143, the plugboard 820 and the second positioning plate 850 are respectively disposed on two sides of the driven cover plate 810, the plugboard 820 is configured to be in mating connection with the first plugboard 142, the second positioning plate 850 is provided with a fourth screw hole, the fourth screw hole is disposed corresponding to the second screw hole 141, for the fixed connection between the air guiding driven assembly 800 and the fourth mounting portion 140, a connection groove 840 is disposed on the driven cover plate 810, the connection groove 840 is configured to be in mating connection with the second mounting groove 143 to form a rotation space, and a driven rotation shaft of the driven end of the air guiding plate 400 is rotatably disposed in the rotation space. Through the above arrangement, one side of the wind guiding driven assembly 800 is inserted and positioned, the other side is fixedly connected through the screw connection, so that the rapid installation of the wind guiding driven assembly 800 can be realized, during specific installation, the driven rotating shaft can be firstly arranged in the second installation groove 143, then the plug board 820 is matched and inserted with the first insertion groove 142, the driven cover board 810 is covered on the driven rotating shaft, at the moment, the connecting groove 840 and the second installation groove 143 are matched to form a rotating space, the second positioning plate 850 is attached to the panel 100, and the wind guiding driven assembly 800 can be fixedly screwed with the fourth installation part 140 after the fourth screw hole and the second screw hole 141 are aligned.

As one preferred embodiment, as shown in fig. 23, a stop plate 830 is disposed on one side of the plug board 820, and the stop plate 830 is used for limiting the fit between the plug board 820 and the first plug slot 142. The stop plate 830 can be abutted against the end wall of the first inserting groove 142, so that the depth of the inserting plate 820 entering the first inserting groove 142 is limited, when the stop plate 830 is abutted against the end wall of the first inserting groove 142, the fourth screw hole is aligned with the second screw hole 141, and the arrangement can automatically align the fourth screw hole with the second screw hole 141, so that the time for aligning the screw holes during installation is saved, and the assembly efficiency is improved. The first insertion groove 142 is disposed on the second boss, and the abutment of the stop plate 830 with the end wall of the first insertion groove 142 may also be regarded as the abutment of the stop plate 830 with the side wall of the second boss.

As shown in fig. 1 and fig. 9 to fig. 11, four air deflectors 400 are disposed on the panel 100 near four sides, wherein two adjacent air deflectors 400 are disposed near a first corner, and two other air deflectors 400 are disposed near a first corner and opposite corners. Taking the angle in fig. 10 as the first angle, the angles in fig. 9 are a second angle, a third angle and a fourth angle in turn according to the clockwise direction, wherein the air guiding driving assemblies 700 corresponding to the two air guiding plates 400 are arranged at the position close to the first angle, the opposite angles of the first angle are the third angle, and the air guiding driving assemblies 700 corresponding to the other two air guiding plates 400 are arranged at the position close to the third angle, in this case, the air guiding driven assemblies 800 corresponding to the four air guiding plates 400 are arranged at the positions close to the second angle and the fourth angle in pairs. Through the above arrangement, the wind guiding driving assemblies 700 are arranged in pairs at the diagonal positions, and the wind guiding driven assemblies 800 are arranged in pairs at the other diagonal positions, and the wind guiding driven assemblies 800 do not include the driving piece 770, so that the volume of the wind guiding driven assemblies is small, and therefore the wind guiding driven assemblies occupy smaller installation space, and the wind guiding driving assemblies are arranged in pairs at positions close to the same corner, so that more installation space can be saved, and other components can be installed.

Example 2

The embodiment discloses a ceiling fan, including panel 100 and casing 200, panel 100 and casing 200 adopt the mounting structure cooperation installation of ceiling fan panel and casing as described in embodiment 1 the four corners of panel 100 are provided with detachable angle apron 300, when angle apron 300 assembles in panel 100, will ceiling fan panel and casing's mounting structure cover. The corner cover 300 may cover the mounting structure of the driving device of the air deflector 400 in addition to the mounting structure of the ceiling panel and the housing. The connection manner between the corner cover 300 and the panel 100 is a clamping connection or a screwing connection, and the disclosure of the prior art will not be repeated here. The corner cover 300 is provided to cover the corresponding mounting structure and to play a role in the beauty of the decoration after the mounting is completed.

The mounting structure of the ceiling unit panel and the housing provided in the present embodiment and the mounting structure of the ceiling unit panel and the housing provided in embodiment 1 have the same advantages compared with the prior art, and are not described herein again.

It should be noted that, the ceiling machine further includes conventional components of the ceiling machine such as a heat exchanger and a water pan, and the specific structure and connection relationship thereof can refer to the existing technical scheme, which is not limited and described herein.

Although the present utility model is disclosed above, the present utility model is not limited thereto. In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means 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, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the utility model, and the scope of the utility model should be assessed accordingly to that of the appended claims.

Claims (10)

1. A ceiling machine panel and housing mounting structure, comprising:

The mounting bolt (220) is arranged on the shell (200) and is used for being fixedly connected with the panel (100);

A first mounting portion (110), wherein the first mounting portion (110) is arranged at four corners of the ceiling machine panel (100), a first mounting hole (112) is arranged on the first mounting portion (110), and a first end of the mounting bolt (220) can pass through the first mounting hole (112) to carry out the matched mounting of the panel (100) and the shell (200);

The first sliding piece (600), the first sliding piece (600) is movably arranged on the first installation part (110), a hoist hole is formed in the first sliding piece (600), the hoist hole comprises a big hole part (614) and a small hole part (615) which are communicated, the first sliding piece (600) can move relative to the first installation part (110) in two working positions of a passing position and a fixing position, when the first sliding piece (600) moves to the passing position, the big hole part (614) corresponds to the first installation hole (112), and the first end of the installation bolt (220) can pass through the first installation hole (112) and the big hole part (614); when the first sliding sheet (600) moves to a fixed position, the small hole part (615) corresponds to the first mounting hole (112), and the small hole part (615) can be matched and fixed with the mounting bolt (220).

2. The ceiling-mounted structure of claim 1, characterized in that a first guide structure is provided between the first mounting portion (110) and the first pull tab (600), along which first guide structure the first pull tab (600) is moved between a pass-through position and a fixed position.

3. The ceiling mounting structure of claim 2, wherein the first guide structure includes a first screw hole (114), a first limit screw (111) and a first guide groove (611), the first limit screw (111) passes through the first guide groove (611) and then is connected to the first screw hole (114), and a first nut diameter of the first limit screw (111) is larger than a width of the first guide groove (611).

4. The ceiling mounting structure of a ceiling and housing according to claim 1, characterized in that a first limiting structure is further provided between the first mounting portion (110) and the first pull tab (600), said first limiting structure being used for limiting the first pull tab (600) in passing and/or fixing position.

5. The ceiling mounting structure of claim 4, wherein the first limiting structure comprises a latch (113), a first limiting portion (612) and a second limiting portion (613), the latch (113) is in cooperation with the second limiting portion (613) to limit when the first sliding piece (600) is in the passing position, and the latch (113) is in cooperation with the first limiting portion (612) to limit when the first sliding piece (600) is in the fixing position.

6. The ceiling panel and housing mounting structure of claim 5, wherein the snap fastener (113) is disposed on the first mounting portion (110), and the first and second limiting portions (612, 613) are disposed on the first sliding piece (600).

7. The ceiling mounting structure of claim 5, wherein the latch (113) includes a latch groove (1131) and a latch bar (1132), the latch bar (1132) is disposed in the latch groove (1131), and the latch bar (1132) partially protrudes out of the latch groove (1131), and the protruding portion of the latch bar (1132) can be compressed and deformed to shrink toward the latch groove (1131) when the first sliding piece (600) moves, and pops out when the first sliding piece (600) reaches a predetermined working position, and cooperates with the first limiting portion (612) or the second limiting portion (613) to limit.

8. The ceiling mounting structure for a ceiling panel and a housing according to any one of claims 5 to 7, wherein the first limiting portion (612) is one of a limiting hole, a limiting groove, and a limiting protrusion; the second limiting part (613) is one of a limiting hole, a limiting groove, a limiting protrusion and a limiting side plate.

9. The ceiling panel and housing mounting structure of claim 1, wherein the first sliding piece (600) includes a first sliding body (610), and a first folding portion (620) is disposed at one end of the first sliding body (610), and the first folding portion (620) is folded in a direction away from the first mounting portion (110) for pulling the first sliding piece (600) to move.

10. A ceiling fan comprising the ceiling fan panel and housing mounting structure of any one of claims 1 to 9, wherein a detachable corner cover plate (300) is provided at four corners of the panel (100), and the mounting structure of the ceiling fan panel and housing is covered when the corner cover plate (300) is assembled to the panel (100).