CN221076304U - Fast-assembling formula shot-light - Google Patents

Abstract

The utility model discloses a fast-assembling spotlight, which comprises: the surface ring is provided with an annular surrounding edge on the inner side, a socket is arranged on the surrounding edge, a slot is arranged on the top side of the socket, a clamping interface is arranged on one side, opposite to the center of the surrounding edge, of the socket, the clamping interface extends upwards to the top side of the socket, and a plurality of sockets are uniformly arranged around the center of the surrounding edge; the spot lamp comprises a spot lamp body, a plurality of sockets, a plurality of connecting pieces and a plurality of connecting pieces, wherein the connecting pieces are respectively arranged at the positions, opposite to the sockets, of the outer side of the spot lamp body; the utility model does not need to compress the torsion spring and then assemble the torsion spring when the torsion spring is assembled, reduces the assembly difficulty, directly completes the interconnection positioning of the spotlight body and the face ring, simplifies the integral assembly step, reduces the labor intensity required by assembly and improves the assembly efficiency.

Description

Fast-assembling formula shot-light

Technical Field

The utility model relates to a lamp, in particular to a fast-assembling spotlight.

Background

The existing barrel spotlight is usually fixed with two torsion springs or elastic pieces on two sides of the barrel spotlight after assembly is completed, when the springs need to be installed, the torsion springs need to be compressed and clamped into the outer sides of the barrel spotlight in an axial compression mode, when the elastic pieces need to be installed, the elastic pieces need to be tightly riveted on a lamp body through rivet punching, the two installation modes are complicated in installation operation of the barrel spotlight, the barrel spotlight needs to be operated with high strength or special tools, time and labor are wasted, the assembly efficiency is low, and meanwhile, the requirement on the strength of an installation structure on the barrel spotlight is high, otherwise the barrel spotlight is easy to crack and damage. Thus, there is a need for a spot light that is more convenient to install.

Disclosure of utility model

The utility model aims to provide a fast-assembling spotlight, which solves one or more technical problems in the prior art and at least provides a beneficial choice or creation condition.

The utility model solves the technical problems as follows:

A ready-to-use spotlight, comprising: the surface ring is provided with an annular surrounding edge on the inner side, a socket is arranged on the surrounding edge, a slot is arranged on the top side of the socket, a clamping interface is arranged on one side, opposite to the center of the surrounding edge, of the socket, the clamping interface extends upwards to the top side of the socket, and a plurality of sockets are uniformly arranged around the center of the surrounding edge; the spot lamp body is provided with connecting pieces at positions, opposite to the sockets, on the outer side of the spot lamp body, and the connecting pieces are inserted into the clamping interfaces one by one; the torsional spring is provided with the inserted block, the quantity of torsional spring has a plurality of, and a plurality of the inserted block can one-to-one joint in a plurality of in the slot, a plurality of the inserted block one-to-one compression a plurality of the connecting piece.

The technical scheme has at least the following beneficial effects: the spotlight body is used for providing illumination, the face ring is used for propping against the bottom side of the suspended ceiling, the whole body is positioned on the suspended ceiling through the torsion spring, when the spotlight body, the face ring and the torsion spring are assembled with each other, as the face ring is provided with the plurality of sockets for being connected with the torsion spring and the connecting piece, the plurality of connecting pieces outside the spotlight body are respectively inserted into the plurality of clamping interfaces on the face ring from top to bottom one to one, then the inserting blocks on the plurality of torsion springs are respectively clamped in the plurality of slots one to one, each inserting block can prop against and position the connecting piece positioned in the clamping interface when being clamped in the slots, after the inserting blocks are matched and connected with the sockets, the positioning of the torsion spring can be completed, and the positioning of the spotlight body can be completed.

As a further improvement of the technical scheme, two connecting pieces are uniformly arranged on the outer side of the spotlight body, and the cross section shapes of the two connecting pieces are circular. The two connecting pieces are respectively positioned at two sides of the spotlight body, the straight line where the two connecting pieces are positioned is used as a rotation axis, and as the cross section shapes of the two connecting pieces are round, the two connecting pieces can rotate around the rotation axis after being arranged in the clamping interfaces of the two sockets, so that the spotlight body rotates in the surface ring, the light emitting angle of the spotlight body can be flexibly adjusted, then the spotlight body is clamped in the slot after being inserted, and the connecting pieces are pressed and positioned.

As a further improvement of the technical scheme, at least one connecting piece is provided with a through groove far away from the end face of the spotlight body, and the depth of the through groove is not less than the depth of the connecting piece inserted into the clamping interface. The part that the connecting piece was provided with logical groove takes place elastic deformation easily, when packing into the draw-in interface with the connecting piece, the elastic deformation of connecting piece can be with the connecting piece interference ground card go into the draw-in interface in, improves the stability after the draw-in interface was packed into to the joint piece, increases the damping when rotating whole shot-light body simultaneously, fixes a position the shot-light body of angle regulation more easily.

As a further improvement of the technical scheme, the torsion spring comprises a spring coil, a poking handle, a first connecting strip and a second connecting strip, one end of the spring coil is connected to the inserting block, the other end of the spring coil is connected to the poking handle, one end of the first connecting strip is connected to the inserting block, the other end of the first connecting strip bends towards one end of the spring coil and stretches into the spring coil, one end of the second connecting strip is connected to the poking handle, and the other end of the second connecting strip bends towards the other end of the spring coil and stretches into the spring coil. The one end of spring coil is connected in the inserted block, the other end is connected in the plectrum, thereby with spring coil, the inserted block is connected integrative with the plectrum, and still be provided with first connecting strip on the inserted block, the one end that the inserted block was kept away from to first connecting strip is buckled and is stretched into in the spring coil to the spring coil, utilize first connecting strip and spring coil to be connected in the balanced inserted block of tip of inserted block stress that receives when rotating, improve the stability that the inserted block is connected and is used, likewise, still be provided with the second connecting strip on the plectrum, the one end that the plectrum was kept away from to the second connecting strip is buckled and is stretched into in the spring coil to the spring coil, utilize the second connecting strip to be connected in the tip plectrum of plectrum to receive when rotating, improve the stability of plectrum connection and use.

As the further improvement of above-mentioned technical scheme, the shot-light body includes zhonghuan, lens, shell, heat dissipation shell and light source subassembly, the light source subassembly connect in the heat dissipation shell, the heat dissipation shell connect in the shell, the lens connect in the middle part of zhonghuan, the cavity that is formed with the opening downwards is established to the surrounding in the shell, the shell connect in the topside of zhonghuan, a plurality of the connecting piece all set up in the outside of zhonghuan. The middle ring is used for connecting and positioning the lens, the light source assembly is arranged on the heat dissipation shell, the heat conduction area of the light source assembly and the heat dissipation shell can be increased by utilizing the heat dissipation shell, heat generated by the light source assembly is uniformly conducted to the whole parts of the heat dissipation shell, so that the heat dissipation efficiency is improved, the shell is connected with the middle ring, the heat dissipation shell, the light source assembly and the lens are surrounded, and therefore luminous electrical elements and structures are protected.

As a further improvement of the technical scheme, the middle ring is internally provided with an upward gradually-narrowed light outlet cover, and the bottom side of the lens is clamped at the top end of the light outlet cover. The light-emitting cover is gradually narrowed upwards, so that the light-emitting range of the light source component is enlarged when the light is emitted downwards through the lens, the light-emitting effect is improved, and the lens is directly clamped at the top end of the light-emitting cover when the lens is connected to the light-emitting cover, so that the connection of the lens and the light-emitting cover is quicker and more convenient, and the overall assembly efficiency is further improved.

As a further improvement of the technical scheme, the bottom of the shell is provided with a concave spigot, the outer side of the middle ring is provided with a convex spigot, and the concave spigot is mutually matched and connected with the convex spigot. When shell and zhong interconnect, conveniently counterpoint both fast through concave tang and protruding tang to realize whole rapid Assembly, and improve both interconnect's compactness.

As a further improvement of the above technical solution, the female spigot and the male spigot are connected with each other by a buckle. After the shell and the middle ring are connected with each other through the concave spigot and the convex spigot, the shell and the middle ring are further connected with each other through the buckle, and the stability of connection of the shell and the middle ring is further enhanced.

As a further improvement of the above technical solution, the inner top wall of the housing is provided with a plurality of connection columns, a plurality of connection columns penetrate through the heat dissipation shell and the light source assembly downwards, and the lens abuts against the bottom side of the light source assembly. When the light source component and the heat dissipation shell are assembled to the shell, the heat dissipation shell can be connected in the shell, the connecting column on the shell penetrates through a preset hole site on the heat dissipation shell, the light source component is connected in the heat dissipation shell, the connecting column on the shell penetrates through a preset hole site on the light source component, so that the light source component, the heat dissipation shell and the light source component can be mutually and rapidly matched and aligned, and finally the lens is propped against the bottom side of the light source component, the light source component and the heat dissipation shell are pressed and positioned on the inner top wall of the shell, and the stability of the whole connection structure is further enhanced.

As a further improvement of the technical scheme, the inner side wall of the shell is provided with convex ribs extending along the up-down direction, the outer side of the heat dissipation shell is provided with limit grooves extending along the up-down direction, and the convex ribs are inserted into the limit grooves. The protruding rib that sets up on the cavity and the spacing groove that sets up on the heat dissipation shell can further strengthen both anti-bending performance, improves the structural stability after mutually supporting to when connecting the heat dissipation shell in the shell, utilize the mutually supporting of protruding rib and cavity spacing groove, be favorable to restricting the condition that the heat dissipation shell takes place to rock in the shell, and make the spliced pole can pass the hole site of predetermineeing on the heat dissipation shell more accurately, thereby further improve whole packaging efficiency.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present utility model, the drawings that are required to be used in the description of the embodiments will be briefly described below. It is evident that the drawings described are only some embodiments of the utility model, but not all embodiments, and that other designs and drawings can be obtained from these drawings by a person skilled in the art without inventive effort.

Fig. 1 is a schematic view of the overall explosive structure of the present utility model.

FIG. 2 is a schematic view of the torsion spring of the present utility model after being attached to the face ring.

Fig. 3 is a top view of the utility model as assembled in its entirety.

Fig. 4 is a schematic view of the cross-sectional structure A-A of fig. 3.

Fig. 5 is a schematic view of the structure of the housing, the heat dissipation case, the light source assembly and the middle ring of the present utility model when they are separated from each other.

In the accompanying drawings: 100-face ring, 110-surrounding edge, 120-socket, 121-slot, 122-clamping interface, 210-connecting piece, 211-through slot, 310-plug, 320-spring coil, 330-shifting handle, 340-first connecting strip, 350-second connecting strip, 400-middle ring, 410-light-emitting cover, 420-convex spigot, 500-lens, 600-shell, 610-concave spigot, 620-connecting column, 630-convex rib, 700-heat radiation shell, 710-limit slot and 800-light source component.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

In the description of the present utility model, it should be understood that references to orientation descriptions such as upper, lower, front, rear, left, right, etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of description of the present utility model and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, a number means one or more, a number means two or more, and greater than, less than, exceeding, etc. are understood to not include the present number, and above, below, within, etc. are understood to include the present number. The description of the first and second is for the purpose of distinguishing between technical features only and should not be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present utility model, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present utility model can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical scheme.

Referring to fig. 1, 2 and 3, a fast-assembling spot lamp, including face ring 100, shot-light body and torsional spring, wherein, the inboard of face ring 100 is provided with annular surrounding edge 110, and surrounding edge 110 is upwards protruding on face ring 100, be provided with socket 120 on the surrounding edge 110, the top side of socket 120 is provided with slot 121, socket 120 is just to one side at surrounding edge 110 center is provided with card interface 122, card interface 122 upwards extends to the top side of socket 120, socket 120 encircles the center of surrounding edge 110 evenly is provided with a plurality ofly, and the shot-light body is used for realizing the illumination function, and the shot-light body outside just to a plurality of socket 120's position is provided with connecting piece 210 respectively, and a plurality of connecting piece 210 one-to-one inserts a plurality of in the card interface 122, the torsional spring is used for compressing tightly in the top side of furred ceiling for face ring 100 supports to press in the furred ceiling bottom side in order to realize the location, and the torsional spring is provided with inserts 310, the quantity of torsional spring has a plurality of torsional spring, insert 310 in a plurality of one-to-one card in the socket 310 can be connected in a plurality of insert pieces 310 one-to-one.

As can be seen from the above, the reflector lamp body is used for providing illumination, the surface ring 100 is used for being pressed against the bottom side of the suspended ceiling, and the whole body is positioned on the suspended ceiling through the torsion spring, when the reflector lamp body, the surface ring 100 and the torsion spring are assembled with each other, as the surface ring 100 is provided with the plurality of sockets 120 for being connected with the torsion spring and the connecting piece 210, the plurality of connecting pieces 210 outside the reflector lamp body are firstly inserted into the plurality of clamping interfaces 122 on the surface ring 100 one by one from top to bottom respectively, then the plurality of inserting blocks 310 on the plurality of torsion springs are respectively clamped into the plurality of slots 121 one by one, when each inserting block 310 is clamped into the slots 121, the connecting piece 210 positioned in the clamping interfaces 122 can be pressed for positioning, after the inserting blocks 310 are matched and connected with the sockets 120, the positioning of the torsion spring can be completed, the positioning of the reflector lamp body can be completed, the assembling difficulty is reduced, the assembling procedure is simplified, the labor intensity of assembling is reduced, and the assembling efficiency is improved.

The number of the sockets 120 on the surrounding edge 110 may be two, three or four, and the like, and the corresponding two, three or four connectors 210 on the outer side of the spotlight body may be provided, at this time, the cross section of the connector 210 may be of a regular polygon structure, and in order to realize that the spotlight body is mounted into the surrounding edge 110, the spotlight body may be rotated in the surrounding edge 110 to adjust the light emitting angle, in this embodiment, the two connectors 210 are uniformly provided on the outer side of the spotlight body, and the cross section of the two connectors 210 is circular. The two connecting pieces 210 are respectively located at two sides of the spotlight body, the straight line where the two connecting pieces 210 are located is taken as a rotation axis, and as the cross section shapes of the two connecting pieces 210 are circular, the two connecting pieces 210 can rotate around the rotation axis after being installed into the clamping interfaces 122 of the two sockets 120, so that the spotlight body rotates in the face ring 100, the light emitting angle of the spotlight body can be flexibly adjusted, then the spotlight body is inserted into the slot 121 in a clamping mode, and the connecting pieces 210 are pressed and positioned.

The insert 310 is inserted into the slot 121 to be clamped, and the connecting piece 210 is clamped at the position of the clamping interface 122 of the insert 310, the insert 310 can be provided with clamping hooks at two sides, corresponding clamping holes are formed at two sides of the socket 120, after the insert 310 is inserted into the slot 121, the clamping hooks at two sides of the insert 310 can be respectively matched and connected with the clamping holes at two sides of the socket 120, so that the quick clamping of the insert 310 and the slot 121 is realized, when the insert 310 compresses the connecting piece 210, the connecting piece 210 can be directly compressed by the flat bottom side of the insert 310, or alternatively, a bayonet matched with the shape of the connecting piece 210 is formed at the bottom side of the insert 310, the top position of the connecting piece 210 is matched in the bayonet, the connecting piece 210 can be better compressed and positioned, and likewise, the shape matched with the connecting piece 210 can be arranged at the bottom position of the clamping interface 122, and the connection performance of the two can be improved when the bottom position of the connecting piece 210 is clamped into the clamping interface 122.

In addition to the fastening of the connector 210 by the insert 310, the connector may be positioned at the position of the card interface 122 by using its interference fit, and in order to be installed into the card interface 122 more quickly and more firmly, in this embodiment, at least one end surface of the connector 210 far from the reflector lamp body is provided with a through slot 211, and the depth of the through slot 211 is not less than the depth of the connector 210 inserted into the card interface 122, preferably, the depth of the through slot 211 may be set to be the same as the whole length of the connector 210. The part of connecting piece 210 that is provided with logical groove 211 takes place elastic deformation easily, when packing into card interface 122 with connecting piece 210, and connecting piece 210's elastic deformation can be with connecting piece 210 interference ground card go into in the card interface 122, improves the stability after the card interface 122 is packed into to the joint, increases the damping when rotating whole shot-light body simultaneously, and the shot-light body of angle regulation is fixed a position more easily.

The torsion spring needs to be provided with an insert 310 for connecting and fixing, and as a specific structural embodiment thereof, the torsion spring comprises a spring coil 320, a poking handle 330, a first connecting strip 340 and a second connecting strip 350, one end of the spring coil 320 is connected with the insert 310, the other end of the spring coil 320 is connected with the poking handle 330, one end of the first connecting strip 340 is connected with the insert 310, the other end of the first connecting strip 340 bends towards one end of the spring coil 320 and stretches into the spring coil 320, one end of the second connecting strip 350 is connected with the poking handle 330, and the other end of the second connecting strip 350 bends towards the other end of the spring coil 320 and stretches into the spring coil 320. One end of the spring coil 320 is connected to the insert block 310, the other end of the spring coil 320 is connected to the handle 330, so that the spring coil 320, the insert block 310 and the handle 330 are connected into a whole, a first connecting strip 340 is further arranged on the insert block 310, one end of the first connecting strip 340, which is far away from the insert block 310, is bent towards the spring coil 320 and stretches into the spring coil 320, the stress born by the insert block 310 during rotation is balanced by the end of the first connecting strip 340, which is connected with the spring coil 320, so that the stability of the insert block 310 in connection with use is improved, and likewise, a second connecting strip 350 is further arranged on the handle 330, one end of the second connecting strip 350, which is far away from the handle 330, is bent towards the spring coil 320 and stretches into the spring coil 320, and the stress born by the end of the handle 330, which is connected with the handle 330 by the second connecting strip 350 and the spring coil 320, is used for improving the stability of the handle 330 in connection and use.

As a specific structural embodiment of the spotlight body, as shown in fig. 4 and 5, the spotlight body includes a middle ring 400, a lens 500, a housing 600, a heat dissipation shell 700 and a light source assembly 800, the light source assembly 800 is connected in the heat dissipation shell 700, the heat dissipation shell 700 is connected in the housing 600, the lens 500 is connected in the middle of the middle ring 400, a cavity with a downward opening is formed in the inner periphery of the housing 600, the housing 600 is connected to the top side of the middle ring 400, and a plurality of connecting pieces 210 are all arranged on the outer side of the middle ring 400. The middle ring 400 is used for connecting and positioning the lens 500, the light source assembly 800 is mounted on the heat dissipation shell 700, the heat conduction area of the light source assembly 800 can be increased by utilizing the heat dissipation shell 700, and the heat generated by the light source assembly 800 is uniformly conducted to the positions of the heat dissipation shell 700, so that the heat dissipation efficiency is improved, the shell 600 is connected with the middle ring 400, the heat dissipation shell 700, the light source assembly 800 and the lens 500 are surrounded, and therefore luminous electrical elements and structures are protected.

In this embodiment, an upwardly gradually narrowing light-emitting cover 410 is disposed in the middle ring 400, the bottom side of the lens 500 is clamped to the top end of the light-emitting cover 410, for example, a plurality of connection hooks may be disposed on the top outer side of the middle ring 400 in a central circumferential array of the middle ring 400, and an outer eave may be disposed on the bottom outer side of the lens 500, when the lens 500 is mounted on the top end of the light-emitting cover 410, the outer eave may be passed down over the hook portion of the connection hooks, so that the connection hooks clamp the outer eave to the top end of the light-emitting cover 410, thereby rapidly clamping the lens 500 to the top end of the light-emitting cover 410, and for facilitating the cooperation of the outer eave and the connection hooks, a plurality of guide blocks may be disposed on the top outer side of the middle ring 400 in a central circumferential array of the middle ring 400, and the side of the guide blocks may be gradually inclined upward toward a central direction away from the middle ring 400, and when the lens 500 is mounted on the light-emitting cover 410, the inclined side of the guide blocks may be guided along the inclined side of the guide blocks, thereby facilitating the pressing of the lens 500 to the top end of the light-emitting cover 410. The light-emitting cover 410 is gradually narrowed upwards, so that the light-emitting range of the light source assembly 800 is enlarged when the light is emitted downwards through the lens 500, the light-emitting effect is improved, and when the lens 500 is connected to the light-emitting cover 410, the lens 500 is directly clamped to the top end of the light-emitting cover 410, the connection of the lens 500 and the light-emitting cover is quicker and more convenient, and the overall assembly efficiency is further improved.

The housing 600 and the middle ring 400 may also be detachably connected to each other, in this embodiment, a female spigot 610 is disposed at the bottom of the housing 600, a male spigot 420 is disposed at the outer side of the middle ring 400, and the female spigot 610 and the male spigot 420 are cooperatively connected to each other. When the outer shell 600 and the middle ring 400 are connected with each other, the female spigot 610 and the male spigot 420 are conveniently and rapidly aligned, so that the whole quick assembly is realized, and the compactness of the connection of the two is improved.

In the above embodiment, the housing 600 and the middle ring 400 may be directly connected and fixed with each other by the interference fit between the female spigot 610 and the male spigot 420, and in order to further improve the overall structural stability, in this embodiment, the female spigot 610 and the male spigot 420 are connected with each other by a buckle, for example, a plurality of clamping grooves may be provided on the male spigot 420, and the clamping grooves are uniformly provided around the male spigot 420, and a plurality of clamping blocks are also provided on the female spigot 610, and similarly, a plurality of clamping blocks are provided around the female spigot 610, and when the female spigot 610 and the male spigot 420 are mutually matched, a plurality of clamping blocks and a plurality of clamping grooves may be mutually matched and connected. After the shell 600 and the middle ring 400 are connected with each other by the concave spigot 610 and the convex spigot 420, the shell and the middle ring 400 are further connected with each other by a buckle, so that the connection stability of the shell and the middle ring is further enhanced.

The light source assembly 800 includes a circuit board, and a plurality of lamp beads connected to the circuit board, as a specific embodiment of the housing 600, the heat dissipation shell 700 and the light source assembly 800 being connected to each other, the inner top wall of the housing 600 is provided with a plurality of connection posts 620, a plurality of connection posts 620 penetrate the heat dissipation shell 700 and the light source assembly 800 downwards, and the lens 500 abuts against the bottom side of the light source assembly 800. When the light source assembly 800 and the heat dissipation shell 700 are assembled to the housing 600, the heat dissipation shell 700 can be connected to the housing 600, the connecting column 620 on the housing 600 passes through a preset hole on the heat dissipation shell 700, and then the light source assembly 800 is connected to the heat dissipation shell 700, so that the connecting column 620 on the housing 600 passes through a preset hole on the light source assembly 800, and the three components can be mutually and rapidly matched and aligned, and finally the lens 500 is propped against the bottom side of the light source assembly 800, so that the light source assembly 800 and the heat dissipation shell 700 are tightly pressed and positioned on the inner top wall of the housing 600, and the stability of the overall connection structure is further enhanced.

Further, the inner side wall of the housing 600 is provided with a rib 630 extending in the up-down direction, the outer side of the heat dissipation housing 700 is provided with a limit groove 710 extending in the up-down direction, the rib 630 is inserted into the limit groove 710, in practical application, the rib 630 is arranged in a plurality of circumferential arrays around the center of the housing 600 inside the housing 600, the same limit groove 710 is arranged in a plurality of circumferential arrays around the heat dissipation housing 700 outside the heat dissipation housing 700, and when the heat dissipation housing 700 is assembled into the housing 600, the plurality of ribs 630 and the plurality of limit grooves 710 are respectively opposite to each other one to one, so that the plurality of ribs 630 can be respectively inserted into the plurality of limit grooves 710 one to one. The protruding ribs 630 arranged on the cavity and the limit grooves 710 arranged on the heat dissipation shell 700 can further enhance the bending resistance of the protruding ribs 630 and the heat dissipation shell 700, improve the structural stability after mutual matching, and when the heat dissipation shell 700 is connected in the shell 600, the mutual matching of the protruding ribs 630 and the cavity limit grooves 710 is utilized to be beneficial to limiting the shaking of the heat dissipation shell 700 in the shell 600, and the connecting column 620 can more accurately penetrate through a preset hole site on the heat dissipation shell 700, so that the overall assembly efficiency is further improved.

In addition, in order to facilitate the outward extraction of the wires connected to the light source module 800, a first routing hole may be further provided on the outer side of the heat dissipation case 700, and a second routing hole may be also provided on the housing 600 at a position opposite to the first routing hole, so that the wires may be conveniently extracted from the first routing hole and the second routing hole. In order to further improve the heat dissipation effect, heat dissipation holes may be further formed in the housing 600, so that heat of the heat dissipation case 700 may be conveniently led out.

While the preferred embodiment of the present utility model has been described in detail, the utility model is not limited to the embodiments, and various equivalent modifications and substitutions can be made by those skilled in the art without departing from the spirit of the utility model, and these modifications and substitutions are intended to be included in the scope of the present utility model as defined in the appended claims.

Claims (10)

1. The utility model provides a fast-assembling shot-light which characterized in that: comprising the following steps:

The surface ring (100) is provided with an annular surrounding edge (110) on the inner side, a socket (120) is arranged on the surrounding edge (110), a slot (121) is arranged on the top side of the socket (120), a clamping interface (122) is arranged on one side, opposite to the center of the surrounding edge (110), of the socket (120), the clamping interface (122) extends upwards to the top side of the socket (120), and a plurality of sockets (120) are uniformly arranged around the center of the surrounding edge (110);

The spot lamp body, the outside of which is provided with connecting pieces (210) at positions opposite to the sockets (120), and the connecting pieces (210) are inserted into the card interfaces (122) one by one;

The torsional spring is provided with a plurality of inserting blocks (310), the inserting blocks (310) can be clamped in the inserting grooves (121) one by one, and the inserting blocks (310) can be used for compressing the connecting pieces (210) one by one.

2. A ready-to-use spot light as defined in claim 1, wherein: the two connecting pieces (210) are uniformly arranged on the outer side of the spotlight body, and the cross section shapes of the two connecting pieces (210) are circular.

3. A ready-to-use spot light as defined in claim 2, wherein: at least one connecting piece (210) is far away from the terminal surface of shot-light body is provided with logical groove (211), the degree of depth of logical groove (211) is not less than connecting piece (210) inserts the degree of depth of card interface (122).

4. A ready-to-use spot light as defined in claim 1, wherein: the torsion spring comprises a spring coil (320), a poking handle (330), a first connecting strip (340) and a second connecting strip (350), one end of the spring coil (320) is connected to the insertion block (310), the other end of the spring coil (320) is connected to the poking handle (330), one end of the first connecting strip (340) is connected to the insertion block (310), the other end of the first connecting strip (340) bends towards one end of the spring coil (320) and stretches into the spring coil (320), one end of the second connecting strip (350) is connected to the poking handle (330), and the other end of the second connecting strip (350) bends towards the other end of the spring coil (320) and stretches into the spring coil (320).

5. A ready-to-use spot light as defined in claim 1, wherein: the spot lamp body comprises a middle ring (400), a lens (500), a shell (600), a heat dissipation shell (700) and a light source assembly (800), wherein the light source assembly (800) is connected in the heat dissipation shell (700), the heat dissipation shell (700) is connected in the shell (600), the lens (500) is connected in the middle part of the middle ring (400), a cavity with a downward opening is formed in the inner periphery of the shell (600), the shell (600) is connected to the top side of the middle ring (400), and a plurality of connecting pieces (210) are arranged on the outer side of the middle ring (400).

6. The spot light assembly of claim 5, wherein: an upward gradually narrowing light outlet cover (410) is arranged in the middle ring (400), and the bottom side of the lens (500) is clamped at the top end of the light outlet cover (410).

7. The spot light assembly of claim 5, wherein: the bottom of shell (600) is provided with concave tang (610), the outside of zhong (400) is provided with protruding tang (420), concave tang (610) with protruding tang (420) are mutually supported and are connected.

8. The spot light of claim 7, wherein: the female spigot (610) and the male spigot (420) are connected with each other through a buckle.

9. The spot light assembly of claim 5, wherein: the inner top wall of the shell (600) is provided with a plurality of connecting columns (620), the connecting columns (620) downwards penetrate through the heat dissipation shell (700) and the light source assembly (800), and the lens (500) abuts against the bottom side of the light source assembly (800).

10. The spot light of claim 9, wherein: the inner side wall of the shell (600) is provided with a convex rib (630) extending along the up-down direction, the outer side of the heat dissipation shell (700) is provided with a limit groove (710) extending along the up-down direction, and the convex rib (630) is inserted into the limit groove (710).