CN218883851U - Connect subassembly and illumination lamps and lanterns soon - Google Patents

Abstract

The utility model provides a connect subassembly and illumination lamps and lanterns soon, connect the subassembly soon and include first fast joint structure, and the second connects the structure soon, first connect the structure soon including the body and form in body week side two at least first joint portions, the second connects the structure soon to have the second joint portion, the second connects the structure soon and can follow first sliding part that connects the structure soon and slide and through elasticity portion until the second joint portion accept in the joint area of first joint portion and follow circumference and support the top and connect in backstop portion and at least one screens portion and elasticity portion and join in marriage. Compared with the prior art, the utility model discloses a connect the subassembly soon and can realize the quick mechanical connection of first portion and second part, realize electrical connection simultaneously, simplify the installation procedure of illumination lamps and lanterns, reduce installation cost, improve the installation effectiveness.

Description

Connect subassembly and illumination lamps and lanterns soon

Technical Field

The utility model relates to a connect subassembly and illumination lamps and lanterns soon belongs to fan lamp technical field.

Background

The lighting fixture is generally mounted by a ceiling, and comprises a first part connected with a mounting base and a second part combined with the fixture assembly, wherein the first part and the second part are combined with each other. The fan lamp is a common household appliance and is also one of lighting lamps, and is a combination of lighting and a fan. Therefore, the fan lamp has the lighting performance of a lighting lamp and the heat radiation performance of a fan, becomes the most common lamp for indoor lighting, and is widely applied to various occasions such as families, offices, entertainment places and the like.

The fan assembly and the lamp assembly of the existing fan lamp are generally fixedly connected through an integrated assembly structure or a fixing structure, so that the firmness of the fan lamp is improved. However, the fan lamp has a large area and extremely poor visual conditions, and is complex to install due to high-altitude operation, installation can be completed only by assistance of multiple persons, installation difficulty and cost are high, and installation efficiency is low. In addition, in the maintenance and cleaning processes of the fan lamp in the later period, time and labor are wasted when workers are disassembled and assembled due to the inconvenience of installation and disassembly, the labor intensity of the installation personnel is high, and the personal safety of the installation personnel is easily endangered.

In view of the above, it is necessary to provide a power connection module and a lamp to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a quick-connect assembly that simple structure, installation effectiveness are high, can single installation and dismantle, should connect the subassembly soon and mainly be applied to the illumination lamps and lanterns, be applied to a fan lamp very much.

In order to achieve the above object, the present invention provides a quick-connecting assembly for at least mechanically connecting a first portion and a second portion of an illumination lamp, including a first quick-connecting structure for being combined with the first portion of the illumination lamp and a second quick-connecting structure for being combined with the second portion of the illumination lamp, wherein the first quick-connecting structure includes a body and at least two first combining portions formed on the periphery of the body, the second quick-connecting structure includes at least two second combining portions formed on the periphery of the second quick-connecting structure, the first combining portions include a sliding portion, a stopping portion formed at the end of the sliding portion, and at least one elastic portion is located above the sliding portion and forms a combining area with the stopping portion;

the second combining part of the second quick-connection structure comprises at least one clamping part;

the first quick connection structure and the second quick connection structure are configured in such a way that the first quick connection structure is sleeved outside the second quick connection structure and can rotate relatively, so that the second quick connection structure can slide along the sliding part and pass through the elastic part until the second combining part is contained in the combining area of the first combining part and is abutted against the blocking part along the circumferential direction and at least one clamping part of the blocking part is matched and connected with the elastic part; and when the first quick-connection structure and the second quick-connection structure are configured to rotate reversely, the first quick-connection structure and the second quick-connection structure can be disconnected after the binding force of the clamping portion and the elastic portion is overcome.

As a further improvement of the present invention, the first quick-connecting structure has a first side wall, the first combining portion is located on the inner peripheral side of the first side wall, the second combining portion is located on the outer peripheral side of the second side wall of the second quick-connecting structure, and the first side wall is located on the outer side of the second side wall of the second quick-connecting structure.

As a further improvement of the present invention, the engaging portion of the elastic portion and/or the second engaging portion is a protrusion or a groove, and the two can be accommodated in each other.

As a further improvement of the present invention, the first quick-connecting structure further includes an extension wall intersecting and extending the first side wall, wherein one end of the elastic portion is formed on the first side wall and the junction of the extension wall and the free end are located in the first side wall region.

As a further improvement of the present invention, the elastic portion is raised away from the first side wall.

As a further improvement of the present invention, the number of the clamping portions is greater than that of the elastic portions, and the elastic portions are provided with the grooves so that the first quick-connection structure reaches the second quick-connection structure relative rotation to accommodate the elastic portions in the clamping portions.

In order to achieve the above object, the present invention further provides an illumination lamp, including a first portion, a second portion and the quick-connect assembly as described above, the quick-connect assembly at least mechanically connects the first portion and the second portion, the first portion is configured to be combined with the installation foundation and the first quick-connect structure of the quick-connect assembly, and the second portion is configured to be combined with the second quick-connect structure and the lamp assembly.

As a further improvement of the present invention, the lighting fixture is a fan lamp, the first part of which is a fan assembly, the fan assembly includes: flabellum subassembly, motor element and rolling disc, motor element includes motor casing, motor shaft, rotor subassembly and stator module, stator module sets up the motor casing inner wall, the motor casing with the rolling disc is integrative to be set up, the rotor subassembly with motor shaft fixed connection, stator module is through for the rotor subassembly rotates in order to drive the rolling disc rotates.

As a further improvement of the present invention, the first quick-connecting structure is provided with an installation portion on the extension wall to combine with the motor assembly.

As a further improvement of the present invention, the second quick-connecting structure is integrally combined with or separately assembled to the lamp assembly.

As a further improvement, the utility model also includes a reinforcement, which is arranged in the first quick-connecting structure and the cover are located motor element's motor shaft, the reinforcement with first quick-connecting structure all sets up first mounting hole and second mounting hole that adjust well each other in order to lock in motor element.

As a further improvement of the present invention, the lamp assembly further includes a light source assembly, the light source assembly is disposed on a side of the lamp assembly opposite to the first portion, and a lampshade matched and fixed with the lamp assembly is covered outside the light source assembly; the side of the lamp assembly facing the first portion is further provided with an annular wall, and the quick-connection assembly is accommodated in the annular wall.

The beneficial effects of the utility model are that: the utility model discloses a connect the subassembly soon and can realize the quick mechanical connection of first portion and the second portion of illumination lamps and lanterns, simplify the installation procedure, reduce installation cost, improve the installation effectiveness.

Drawings

Fig. 1 is an exploded perspective view of a fan lamp in a lighting fixture according to a preferred embodiment of the present invention.

Fig. 2 is a partially exploded perspective view of a fan lamp according to a preferred embodiment of the present invention.

Fig. 3 is a perspective assembly view of fig. 2.

Fig. 4 is a perspective combination view of the first quick-connect structure of the quick-connect assembly, the reinforcement member, and the motor shaft in accordance with the preferred embodiment of the present invention.

Fig. 5 is a cross-sectional view of fig. 4.

Fig. 6 is a perspective assembly view of a second quick-connect structure of a quick-connect assembly and a lamp assembly according to a preferred embodiment of the present invention.

Fig. 7 is a partial enlarged view at a in fig. 6.

Fig. 8 is an exploded perspective view of a quick connect assembly (including a lamp assembly) in accordance with a preferred embodiment of the present invention.

Fig. 9 is a perspective assembly view of the quick connect assembly of fig. 8.

Fig. 10 is a cross-sectional view of fig. 9.

Fig. 11 is a cross-sectional view at another angle of fig. 9.

Fig. 12 is an unassembled perspective cross-sectional view of a quick connect assembly for a fan lamp in accordance with a preferred embodiment of the present invention.

Fig. 13 is a cross-sectional view of fig. 12 assembled.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

In order to avoid obscuring the present invention with unnecessary details, it should be noted that only the structures and/or processing steps closely related to the aspects of the present invention are shown in the drawings, and other details not relevant to the present invention are omitted.

In addition, it should be further noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, 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, method, article, or apparatus.

As shown in fig. 1 to 13, the present invention discloses a fan lamp 100, wherein the fan lamp 100 has the quick connect assembly 4 of the present invention.

As shown in fig. 1 and 2, the fan lamp 100 includes a ceiling assembly 1, a suspension assembly 2, a fan assembly 3, a quick-connect assembly 4, and a lamp assembly 5.

The ceiling assembly 1 is fixedly connected with the installation foundation, so that the fan lamp 100 is installed. The installation base may be a ceiling of a house or the like where the fan lamp 100 is hung. Two ends of the suspension component 2 are respectively connected with the ceiling component 1 and the fan component 3 so as to realize the connection between the fan component 3 and the ceiling component 1. Fan assembly 3 is connected through quick-connect assembly 4 with lamp subassembly 5 to connect lamp subassembly 5 below fan assembly 3 through quick-connect assembly 4, do not influence lamp subassembly work when fan assembly 3 works. Connect subassembly 4 soon through setting up to be connected fan assembly 3 and lamp subassembly 5 fast, with the installation of simplifying fan lamp 100, reduce installation cost, improve the installation effectiveness, can single installation and dismantlement, labour saving and time saving.

However, the quick-connect assembly 4 according to the preferred embodiment of the present invention is not limited to be applied to the fan lamp 100 to quickly connect the fan assembly 3 and the lamp assembly 5, and can also be applied to other lamps, such as ceiling lamps, etc. The fan assembly 3 can be considered to be a first part of a light fixture fixed to a mounting base, while the light fixture assembly 5 is a second part of the light fixture, so that the quick-connect assembly 4 can connect the first and second parts of the light fixture.

As shown in fig. 3, the ceiling module 1 includes a ceiling box 11 and a stand body 12. Inhale top box 11 and support body 12 fixed connection or detachable connection, support body 12 is used for fixed mounting to the installation basis on, inhales top box 11 and has the installation cavity, and support body 12 is acceptd in this installation cavity to reduce the space that support body 12 occupy, improve fan lamp 100's compact structure nature. Further, some functional components of the fan lamp 100, such as a driving assembly, a safety rope assembly, a terminal assembly, etc., may also be accommodated in the mounting cavity of the ceiling box 11, so as to better utilize the space of the ceiling box 11 and improve the compactness and the aesthetic appearance of the fan lamp 100.

The suspension assembly 2 comprises a hanging ball 21 and a suspension rod 22, wherein the suspension rod 22 is detachably connected with the hanging ball 21 through threads, so that the suspension rod 22 and the hanging ball 21 can be conveniently installed and detached, and the fan lamp 100 can be conveniently maintained. Further, in order to prevent the suspension rod 22 from being separated from the hanging ball 21, in an alternative embodiment, the suspension rod 22 and the hanging ball 21 may be locked by a fastener such as a screw, so as to achieve the fixation between the suspension rod 22 and the hanging ball 21. The hanging ball 21 is accommodated in the mounting cavity of the ceiling box 11, the suspension rod 22 is connected with the part of the hanging ball 21 extending out of the mounting cavity, and one end of the suspension rod 22 far away from the hanging ball 21 is connected with the fan assembly 3 so as to facilitate the hoisting of the fan lamp 100. The length of the suspension rod 22 can be flexibly set, and optionally, the suspension rod 22 can be in a multi-section structure, so that a user can adjust the length of the suspension rod 22 according to the user's own needs, thereby changing the installation height of the fan lamp 100.

As shown in fig. 12 and 13, fan assembly 3 includes a fan blade assembly 31 and a motor assembly 32 for rotating fan blade assembly 31. The fan blade assembly 31 is a component of the fan assembly 3 for pushing air, and rotates around the central axis of the fan assembly 3 at a high speed under the driving action of the motor assembly 32, so as to push the surrounding air to flow, thereby realizing blowing. Wherein, flabellum subassembly 31 includes rolling disc 33 and flabellum 311, and motor element 32 is connected with the transmission of rolling disc 33, and motor element 32 includes motor casing, motor shaft 321, rotor subassembly 322 and stator module, and stator module sets up at the motor casing inner wall, the motor casing with rolling disc 33 is integrative to be set up, rotor subassembly 322 and motor shaft 321 fixed connection, thereby stator module can drive rolling disc 33 through rotating for rotor subassembly 322 and rotate, and flabellum 311 then sets up in one side that rolling disc 33 deviates from lamps and lanterns subassembly 5 to can rotate along with rolling disc 33.

As shown in fig. 1, the fan blade 311 includes an inner edge and an outer edge, both ends of the inner edge are not on the same horizontal plane, specifically, in the case that the fan blade 311 is in the unfolded state, one end of the inner edge close to the central axis of the fan assembly 3 is lower than one end far from the central axis, so that the inner edge gradually rises from the inner side to the outer side of the fan assembly 3. Likewise, the two ends of the outer edge are not on the same horizontal plane, specifically, in the case where the fan blades 311 are in the unfolded state, the first end of the outer edge close to the central axis of the fan assembly 3 is lower than the end far from the central axis, so that the outer edge gradually rises from the inside to the outside of the fan assembly 3. Therefore, the whole fan blade 311 is lower than the edge area in the middle area of the fan assembly 3, that is, when the fan blade 311 is folded, a gap is formed between two adjacent fan blades 311, and due to the existence of the gap, the two adjacent fan blades 311 are not contacted in the unfolding or folding process of the fan blade 311, so that the problem that the fan blade 311 is damaged due to abrasion and collision between the two adjacent fan blades 311 is effectively solved.

In some embodiments, the fan assembly 3 further includes a synchronization disc (not shown) rotatably disposed above the rotating disc 33, and the synchronization disc is disposed coaxially with the rotating disc 33. Because each fan blade 311 is symmetrical with respect to the axis center of the rotating disc 33, the synchronous disc has the same guiding function for each fan blade 311, so that the actions of each fan blade 311 are kept consistent, and synchronous rotating unfolding or folding is realized.

The end of the boom 22 of the suspension assembly 2 remote from the davit 21 is fixedly connected to the motor shaft 321 of the motor assembly 32. In an optional embodiment, the suspension rod 22 is connected with the motor shaft 321 by a screw thread, so as to simplify the installation steps of the fan lamp 100 and reduce the assembly difficulty, and certainly, in other embodiments, the suspension rod 22 and the motor shaft 321 may also be fixedly connected by welding, riveting or a plurality of bolts, and the present invention is not limited thereto.

The quick-connection assembly 4 is arranged in the lamp assembly 5, an annular wall is further arranged on one side, facing the first part, of the lamp assembly 5, and the quick-connection assembly 4 is contained in the annular wall. The quick-connect assembly 4 includes a first quick-connect structure 41 and a second quick-connect structure 42. The first quick connection structure 41 is rotatably connected with the fan assembly 3, the second quick connection structure 42 is detachably connected with the lamp assembly 5 or integrally arranged, and the first quick connection structure 41 is detachably connected with the second quick connection structure 42. Utilize first quick-connect structure 41 to realize being connected with fan assembly 3's rotation, utilize second quick-connect structure 42 to realize being connected with lamp assembly 5's an organic whole or can dismantling, and simultaneously, utilize first quick-connect structure 41 and second quick-connect structure 42's dismantlement to be connected, realize from this that connect assembly 4 to be connected fan assembly 3 with lamp assembly 5's effect fast through soon, with the installation of simplifying fan lamp 100, reduce the installation cost, improve the installation effectiveness, can single installation and dismantlement, time saving and labor saving.

In an alternative embodiment, the first quick connect structure 41 is rotatably connected to the motor assembly 32 in the fan assembly 3.

The first quick-connect structure 41 includes a body 410, which includes a first side wall 411 and an extending wall 412, which is substantially perpendicular to the first side wall 411 and extends substantially along a horizontal direction. The extension wall 412 is a hollow ring structure and is stepped, and a first portion 4120 connected to the first sidewall 411 has a larger wall thickness than a second portion 4121 away from the first sidewall 411. A plurality of elastic portions 413 are spaced from the boundary area between the first sidewall 411 and the extension wall 412, and a plurality of mounting portions 4122 are formed on the inner side of the extension wall 412 in an opposite extending manner. The mounting portion 4122 is circular, a first mounting hole 4123 for a screw to pass through is formed in the middle of the mounting portion 4122, and reinforcing structures 4124 are further disposed on both sides of a combination region of the mounting portion 4122 and the second portion 4121 to increase strength. The elastic portion 413 has one end connected to the first portion of the extending wall 412 and the other end suspended from the free end, so that the elastic portion 413 has elasticity, and when viewed from the inside of the body 410, the elastic portion 413 forms a stop portion 4130 protruding from the middle of the elastic portion, so as to provide a stopping and in-place installation prompting function with the second quick-connect structure 42. A plurality of first coupling portions 414 are formed on the inner side of the first side wall 411 and adjacent to the elastic portion 413, each of the first coupling portions being L-shaped and including a sliding portion 4141 adjacent to a lower end edge of the first side wall 411 and a stopper portion 4143 formed at an end of the sliding portion 4141 and substantially perpendicular to the sliding portion 4141. The other end of the sliding portion 4141 is formed with an inclined guide inclined surface 4142 such that the other end of the sliding portion 4141 has a wedge shape. The elastic portion 413 is located above the sliding portion 4141 and spaced apart from the sliding portion 4141 in the height direction, and preferably, the elastic portion 413 is located in a region behind the guide inclined surface 4142 of the sliding portion 4141 and spaced apart from the stopping portion 4143 to form the combining region 415.

As shown in fig. 4 to fig. 7, the second quick-connect structure 42 at least includes a second sidewall 421 with a certain height, and a plurality of second coupling portions 422 are correspondingly disposed on the outer circumferential surface of the second sidewall 421 corresponding to the number of the first coupling portions 414 of the first quick-connect structure 41. The second combining portion 422 protrudes outward from the outer periphery of the second sidewall 421, and is adjacent to an end of the second sidewall 421 near the first quick-connect structure 41, and preferably, a surface of the second combining portion 422 is flush with the end edge of the second sidewall 421. The second combining portion 422 is formed with at least one locking portion 4221 on the outer surface thereof away from the second side wall 421, preferably, more than one locking portion 4221 is formed, and in the preferred embodiment of the present invention, three locking portions 4221 are formed. The blocking portion 4221 matches the configuration of the elastic portion 413, and is a groove configuration formed by extending in the height direction, so that in the rotating and matching process of the first quick connection structure 41 and the second quick connection structure 42, any one of the blocking portions 4221 can accommodate the elastic portion 413 and give a prompt sound to prompt the quick connection to the right position. Of course, in other preferred embodiments, the locking portion 4221 may be a middle protrusion structure, and the elastic portion 413 may be provided with a groove, so that the two can still be matched. The second quick-coupling structure 42 further includes a receiving area 424 formed at the center of the area surrounded by the second sidewall 421, which can partially receive the extension portion of the motor shaft 321.

As shown in fig. 8 and 11, the first quick connection structure 41 and the second quick connection structure 42 are close to each other along the height direction until the first side wall 411 is covered outside the second side wall 421, and then the two rotate relatively, either one of the two can be fixed, and the other rotates relatively to the former. The method comprises the following specific steps: the second combining portion 422 and the first combining portion 414 rotate relatively, firstly slide along the guiding inclined surface 4142 to be smoothly assembled, then slide along the surface of the sliding portion 4141 until the second combining portion 422 enters the combining area 415 defined by the elastic portion 413 and the stopping portion 4143, and the blocking portion 4221 slides through the elastic portion 413 until the side surface of the second combining portion 422 abuts against the stopping portion 4143, at this time, one of the blocking portions 4221 finally accommodates the elastic portion 413 and gives an alarm sound, thereby playing a role of reminding the installation in place and preventing the first quick-connection structure 41 and the second quick-connection structure 42 from being separated. In addition, the combination of the elastic part 413 and the blocking part 4221 can prevent the first quick connection structure 41 and the second quick connection structure 42 from being separated under the vibration of the fan assembly 3 in long-term operation, so as to ensure the reliable installation of the lamp assembly 5. If the fan assembly 3 and the lamp assembly 5 rotate in opposite directions, the first quick connection structure 41 and the second quick connection structure 42 firstly overcome the combining force of the elastic part 413 and the blocking part 4221, and then the separation of the two can be realized.

Referring to fig. 4, 9 and 10, in a preferred embodiment of the present invention, the first quick-connect structure 41 is assembled to the fan assembly 3, and specifically, the first quick-connect structure 41 is assembled to the motor assembly 32 of the fan assembly 3 through the mounting portion 4122. Preferably, in order to increase the bonding strength, the fan lamp 100 further includes a reinforcing member 6 sleeved on the motor shaft 321 and located below the rotating disc 33 so as to cover the rotor assembly 322. The reinforcing member 6 is circular, and is assembled to the first quick connection structure 41 from the inside of the first quick connection structure 41 from bottom to top until abutting against the extension wall 412, and fills the hollow area of the first quick connection structure 41. The outer peripheral area of the reinforcement member 6 is flat and has abutting portions 61 spaced from each other corresponding to the mounting portion 4122, and when the outer peripheral area of the reinforcement member 6 abuts against the lower portion of the extension wall 412, the abutting portions 61 are also located below the mounting portion 4122 and have second mounting holes 610 aligned with the first mounting holes 4123 of the mounting portion 4122, so that after the reinforcement member 6 is sleeved on the motor shaft 321, screws (not shown) can respectively pass through the motor assembly 32, the first mounting holes 4123 and the second mounting holes 610, thereby assembling the first quick-connect structure 41 to the motor assembly 32. Of course, the screws may be assembled in reverse. The central area of the reinforcement 6 is formed with a first through hole (not numbered) through which the motor shaft 321 of the motor assembly 32 can pass. When the rotor assembly 322 in the motor assembly 32 rotates relative to the motor shaft 321, the first quick-coupling structure 41 remains stationary relative to the motor shaft 321. In other words, when the fan assembly 3 of the fan lamp 100 is operated, the first quick-connect structure 41 is kept stationary with respect to the lamp assembly 5, and rotates with respect to the fan assembly 3. In other embodiments, first quick connect structure 41 may also be rotatably connected to fan blade assembly 31 in fan assembly 3. That is, first quick-connect structure 41 is rotatably connected to rotary disk 33 in fan blade assembly 31 by a rotating shaft. The utility model discloses not restricting this, as long as can make first quick-connect structure 41 and fan assembly 3 keep rotating to be connected and keep relative static with lamp assembly 5 to be connected can.

Preferably, the number of the second coupling parts 422 is in a multiple relation with the number of the first coupling parts 414, and the number of the second coupling parts 422 is not less than the number of the first coupling parts 414. Specifically, the number of the first coupling portions 414 is preferably 3, the number of the second coupling portions 422 is 3 or 6, and the first coupling portions 414 and the second coupling portions 422 are spaced at the same angle, so that the mechanical connection between the first coupling portions 414 of the first quick connection structure 41 and the second coupling portions 422 of the second quick connection structure 42 can be realized only by rotating at a small angle, and the fan lamp 100 with the quick connection assembly 4 can be mounted and dismounted more quickly.

As shown in fig. 12 and fig. 13, in the electrical connection aspect, the first quick connection structure 41 is electrically connected to the motor element 32, the second quick connection structure 42 is electrically connected to the lamp element 5, and the first quick connection structure 41 and the second quick connection structure 42 are electrically connected to each other to supply power to the lamp element 5. The electrical connection mode may include: the first quick-connect structure 41 and the second quick-connect structure 42 are respectively provided with a first electrical connection portion (not shown) and a second electrical connection portion (not shown), and are usually disposed in the middle region of the two structures to realize electrical connection after mechanical connection. The first electrical connection portion on the first quick connection structure 41 and the second electrical connection portion on the second quick connection structure 42 are embedded and connected with each other, that is, the first electrical connection portion and the second electrical connection portion are in concave-convex fit to realize electrical connection. In an alternative embodiment, the first electrical connection portion includes at least two receiving slots insulated from each other, each receiving slot has a coupling portion therein, and correspondingly, the second electrical connection portion also has at least two conductive terminals thereon, each conductive terminal being electrically connected to the coupling portion in each receiving slot. In other embodiments, the first electrical connection portion of the first quick-connect structure 41 may be provided with a conductive terminal instead of a receiving slot, and the corresponding second electrical connection portion of the second quick-connect structure 42 is provided with a receiving slot instead of a conductive terminal. In order to achieve effective electrical connection, the receiving slots are insulated from each other, and when the number of the receiving slots is two, the two receiving slots are an L pole and an N pole respectively. When the number of the containing grooves is three, the three containing grooves are respectively an L pole, a ground pole and an N pole. In addition, the number of the receiving grooves can be more than three, such as four, five, etc. At least two accommodating grooves on the first electrical connecting part are arranged in concentric circles around a rotating shaft. Of course, in other embodiments, at least two receiving grooves may be located on the same circumference, so that the receiving grooves are arc-shaped, and the distance from each receiving groove 4127 to the center of the circumference is the same.

Correspondingly, the second electrical connection portion of the second quick-connect structure 42 includes a first conductive terminal, a second conductive terminal and a third conductive terminal which are sequentially distributed from outside to inside. The first conductive terminal and the second conductive terminal are metal rings respectively matched with the size and the shape of the first accommodating groove and the second accommodating groove, and the third conductive terminal is a metal pin matched with the size and the shape of the third accommodating groove. Of course, the conductive terminals on the second quick connect structure 42 may be metal rings. The first conductive terminal, the second conductive terminal and the third conductive terminal are insulated from each other and have a revolving structure with a rotating shaft as a center, that is, the first conductive terminal, the second conductive terminal and the third conductive terminal can be concentric circles. Of course, when the number of the conductive terminals is two, the conductive terminals may have a concentric structure. As a variation, the conductive terminals on the second quick-connect structure 42 may be distributed on the same circumference of the rotating shaft, and at this time, the conductive terminals may all be metal pins, and the corresponding receiving slots are arc-shaped, so that at least two conductive terminals can rotate relatively after being inserted into the receiving slots respectively.

In the preferred embodiment of the present invention, the electrical connection is a simplified structure-wire connection. The motor shaft 321 is hollow and can pass through a wire, a wire led in from the mounting base can pass through the motor shaft 321 and pass out from the end of the motor shaft 321 to reach the wire connection port 423 arranged on the second quick connection structure 42 and enter the interior of the lamp assembly 5 to be directly electrically connected with a light source assembly and/or a driving assembly (not shown), and the light source assembly is arranged on one side of the lamp assembly 5, which is opposite to the first portion. No matter the lamp assembly is directly connected by an electrical connection part or a wire, the lamp assembly 5 can be powered.

When the fan lamp 100 needs to be disassembled, the lamp assembly 5 and the fan assembly 3 can be quickly separated by rotating the second quick connection structure 42 in the direction opposite to the installation direction and overcoming the binding force between the elastic part 413 and the clamping part 4221. Through the quick connection of first quick-connect structure 41 and second quick-connect structure 42 to make things convenient for the quick installation of lamps and lanterns subassembly 5 and fan assembly 3, improve fan lamp 100's installation effectiveness, realize single installation and dismantlement, labour saving and time saving, high-efficient safety.

To sum up, the utility model discloses a connect subassembly 4 soon, mainly be applied to fan lamp 100, should connect subassembly 4 simple structure soon, the outward appearance is pleasing to the eye, utilize first connection structure 41 to realize being connected with fan assembly 3's rotation soon, utilize the second to connect structure 42 soon to realize being connected with dismantling of lamps and lanterns subassembly 5, simultaneously, utilize first joint portion 414 and second joint portion 422 to realize that first connection structure 41 and second connect structure 42's mechanical connection soon, simplify fan lamp 100's installation procedure, and the installation cost is reduced, and the installation effectiveness is improved, can single installation and dismantlement, labour saving and time saving.

The above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced equivalently without departing from the spirit and scope of the technical solutions of the present invention.

Claims (12)

1. A quick-connect assembly for mechanically connecting at least a first portion and a second portion of a light fixture, comprising a first quick-connect structure (41) for engaging the first portion of the light fixture, and a second quick-connect structure (42) for engaging the second portion of the light fixture, characterized in that:

the first quick-connection structure comprises a body (410) and at least two first combining parts (414) formed on the peripheral side of the body (410), the second quick-connection structure (42) comprises at least two second combining parts (422) formed on the peripheral side of the second quick-connection structure, the first combining parts (414) comprise sliding parts (4141), stopping parts (4143) formed at the tail ends of the sliding parts (4141), and at least one elastic part (413) is positioned above the sliding parts (4141) and forms a combining area (415) with the stopping parts (4143);

the second joint part (422) of the second quick-connection structure (42) comprises at least one clamping part (4221);

the first quick-connection structure (41) and the second quick-connection structure (42) are configured such that the first quick-connection structure (41) is sleeved outside the second quick-connection structure (42) and can rotate relatively, so that the second quick-connection structure (42) can slide along the sliding portion (4141) and pass through the elastic portion (413) until the second combining portion (422) is accommodated in the combining region (415) of the first combining portion (414) and abuts against the blocking portion (4143) along the circumferential direction and at least one of the positioning portions (4221) thereof is coupled with the elastic portion (413); and when the rotation is configured to be reversed, the first quick connection structure (41) and the second quick connection structure (42) can be disengaged after overcoming the combination force of the clamping part (4221) and the elastic part (413).

2. The quick connect assembly of claim 1, wherein: the first quick-connection structure (41) is provided with a first side wall (411), the first combination part (414) is positioned on the inner peripheral side of the first side wall (411), the second combination part (422) is positioned on the outer peripheral side of a second side wall (421) of the second quick-connection structure (42), and the first side wall (411) is positioned on the outer side of the second side wall (421) of the second quick-connection structure (42).

3. The quick connect assembly of claim 1, wherein: the elastic part (413) and/or the clamping part (4221) of the second combining part (422) are bulges or grooves which can be mutually accommodated.

4. The quick connect assembly of claim 2, wherein: the first quick-connection structure (41) further comprises an extension wall (412) formed by intersecting and extending with the first side wall (411), one end of the elastic part (413) is formed at the junction of the first side wall (411) and the extension wall (412), and the free end is located in the area of the first side wall (411).

5. The quick connect assembly of claim 2, wherein: the elastic part (413) is raised in a direction away from the first side wall (411).

6. The quick connect assembly of claim 5, wherein: the number of the clamping parts (4221) is more than that of the elastic parts (413), and the clamping parts (4221) are grooves so as to accommodate the elastic parts (413) in the clamping parts (4221) in the relative rotation of the first quick connection structure (41) and the second quick connection structure (42).

7. An illumination fixture, comprising: quick connect assembly (4) according to any of claims 1 to 6, comprising a first part, a second part and the quick connect assembly (4) according to any of claims 1 to 6, the quick connect assembly (4) at least mechanically connecting the first part with the second part, the first part being configured to be coupled with a mounting base and the first quick connect structure (41) of the quick connect assembly (4), the second part being configured to comprise a light fixture assembly (5) and to be coupled with the second quick connect structure (42).

8. The lighting fixture of claim 7, wherein: the lighting fixture is a fan lamp, the first part of which is a fan assembly (3), the fan assembly (3) comprising: flabellum subassembly (31), motor element (32) and rolling disc (33), motor element (32) are including motor casing, motor shaft (321), rotor subassembly (322) and stator subassembly, stator subassembly sets up the motor casing inner wall, the motor casing with rolling disc (33) an organic whole sets up, rotor subassembly (322) with motor shaft (321) fixed connection, stator subassembly through for rotor subassembly (322) rotate in order to drive rolling disc (33) rotate.

9. The lighting fixture of claim 8, wherein: the first quick-connection structure (41) further comprises an extension wall (412), and the extension wall (412) of the first quick-connection structure (41) is provided with a mounting portion (4122) combined with the motor assembly (32).

10. The lighting fixture of claim 7, wherein: the second quick-connection structure (42) and the lamp assembly (5) are integrally combined or are assembled on the lamp assembly (5) in a split mode.

11. The lighting fixture of claim 8, wherein: the motor assembly further comprises a reinforcing piece (6) which is arranged in the first quick-connection structure (41) in a built-in mode and sleeved on the motor shaft (321) of the motor assembly (32), and the reinforcing piece (6) and the first quick-connection structure (41) are provided with a first mounting hole (4123) and a second mounting hole (610) which are aligned with each other so as to be locked on the motor assembly (32).

12. The lighting fixture of claim 7, wherein: the lamp component (5) further comprises a light source component, the light source component is arranged on one side, back to the first part, of the lamp component (5), and a lampshade matched and fixed with the lamp component (5) is covered outside the light source component; the side, facing the first part, of the lamp assembly (5) is further provided with an annular wall, and the quick-connection assembly (4) is accommodated in the annular wall.

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