CN109780475B - Linear lighting system - Google Patents

Abstract

The invention discloses a linear lighting system, which comprises a plurality of conductive tracks which can be spliced with each other, a plurality of ceiling lamp modules, a plurality of spot light modules and/or a plurality of strip light modules, wherein the ceiling lamp modules, the spot light modules and/or the strip light modules are arranged in the conductive tracks; the conductive mounting device comprises a shell, wherein a circuit board is arranged in the shell and is electrically connected with a ceiling lamp main body, a spotlight main body or a strip-shaped lamp main body through a wire so as to control the work of the circuit board. The linear lighting system integrates multiple lighting lamps, and has high space utilization rate.

Description

Linear lighting system

Technical Field

The invention relates to the technical field of illumination, in particular to a linear illumination system.

Background

Along with the development of society, people also consider the aesthetic property of product when considering the product practicality, in some large-scale shopping malls, museums, office spaces, concert or entertainment places, need to use the light effect to set off the atmosphere, and for wiring convenience and beauty usually will adopt the track lamp, the track lamp is a kind of lamps and lanterns that are used for projecting the show article of light source show on indoor design or show stand, in order to make article receive different angle light source and shine its characteristic of highlighting, it is on one track strip to install lamps and lanterns, come at any time adjustment light and shadow change and angle, one can let the visitor see the show article more clearly, on the other hand, can let the show article in the show cupboard look more feel by virtue of the projection effect of light, in order to promote the value sense of show article. However, the conventional track lamp is only provided with a track spotlight, the light source projected by the track lamp is concentrated, and can only be used for concentrating the illumination light for the displayed objects, if the overall brightness in the display cabinet is to be improved, more other lamps need to be additionally installed in other spaces, so that the cost is high, and the space utilization rate is low.

In view of this, a linear lighting system capable of solving the above-mentioned drawbacks is needed to integrate different lighting fixtures, and has high space utilization, seamless connection and high practicability.

Disclosure of Invention

The invention aims to solve the technical problem of providing a linear lighting system, so that different lighting lamps are integrated, the space utilization rate is high, seamless connection can be realized, and the practicability is high.

In order to solve the technical problems, the invention adopts the following technical scheme: a linear lighting system comprises a plurality of conductive tracks which can be spliced with each other, a plurality of ceiling lamp modules, a plurality of spotlight modules and a plurality of bar-shaped lamp modules, wherein the ceiling lamp modules, the spotlight modules and the bar-shaped lamp modules are arranged in the conductive tracks; the ceiling lamp module is characterized by further comprising a ceiling lamp body, the spotlight module is further comprising a spotlight body, the strip-shaped lamp module is further comprising a strip-shaped lamp body, the conductive installation device is composed of a shell, a circuit board is arranged in the shell, and the circuit board is electrically connected with the corresponding ceiling lamp body, the spotlight body or the strip-shaped lamp body through wires to control the work of the circuit board.

The further technical scheme is as follows: the conductive mounting means may slide along the conductive track.

The further technical scheme is as follows: the shell is internally provided with two conductive electrodes, one ends of the two conductive electrodes are connected with the circuit board, the two conductive electrodes are arranged corresponding to the accommodating groove, so that the other ends of the two conductive electrodes are respectively connected with the positive electrode and the negative electrode of the power line of the conductive track, and the shell is provided with a conductive hole for the other end of the conductive electrode to extend out corresponding to the conductive electrode.

The further technical scheme is as follows: the conductive track further comprises two positioning grooves which are arranged below the two accommodating grooves, the conductive mounting device further comprises a reset assembly, the reset assembly comprises a key and a spring, one end of the key is arranged in the shell, a supporting rod for the spring to penetrate through is formed on the lower surface of the key, the spring penetrates through the supporting rod, one end of the spring abuts against the lower surface of the key, and the other end of the spring abuts against the inner surface of the shell; connecting bulges are formed on two sides of one end of the key, positioning holes for the connecting bulges to extend out are formed in the shell corresponding to the connecting bulges, and the connecting bulges extend out of the positioning holes and are clamped with the positioning grooves; the upper end surface of the connecting bulge is downwards inclined from inside to outside to form a first guide surface, and the lower end surface of the connecting bulge is upwards inclined from inside to outside to form a second guide surface, so that the connecting bulge is clamped with the positioning groove along the first guide surface and is separated from the positioning groove along the second guide surface; the other end of the key extends out of the shell, and a sliding groove for the end portion of the key to extend out and slide up and down along the shell is formed on the outer surface of the shell corresponding to the key along the height direction of the shell.

The further technical scheme is as follows: the ceiling lamp module comprises a ceiling lamp main body and ceiling lamp conductive installation devices which are arranged on two sides of the ceiling lamp main body in two halves, the upper end of each ceiling lamp conductive installation device is arranged in the conductive track, a fixing clamp for installing the ceiling lamp main body is arranged at the lower end of each ceiling lamp conductive installation device, each fixing clamp comprises a panel, the upper end of each panel is connected to the front side of the lower end of each ceiling lamp conductive installation device, the upper end and the lower end of each panel respectively extend outwards along the horizontal direction relatively to form an upper clamping plate and a lower clamping plate, and the upper clamping plate and the lower clamping plate are perpendicular to the panels respectively; be provided with electrically conductive splicing in the fixation clamp, electrically conductive splicing set up in on the panel, the circuit board passes through wire and electrically conductive splicing electric connection, ceiling lamp main part both ends are arranged in respectively in the fixation clamp and with electrically conductive splicing electric connection.

The further technical scheme is as follows: the ceiling lamp main part includes lamp shade and lamp strip, the both sides of lamp shade respectively with two the side butt of fixation clamp, the lamp strip install in the lamp shade, just the length of lamp strip is greater than the lamp shade so that the both ends of lamp strip stretch out in the lamp shade and install in the fixation clamp, the lamp strip is including the PCB board, the both ends of PCB board respectively with electrically conductive splicing electric connection, for the ceiling lamp main part provides working power supply.

The further technical scheme is as follows: the bar lamp module is characterized by further comprising a support, the bar lamp conductive installation device is arranged in the conductive track, the support is arranged between the bar lamp conductive installation device and the bar lamp main body and is arranged under the bar lamp conductive installation device, so that the bar lamp main body can be arranged on the rear side of the ceiling lamp main body, the upper end of the support is connected with the two ends of the bar lamp conductive installation device respectively, and the lower end of the support is hinged with the two ends of the bar lamp main body to enable the bar lamp main body to swing back and forth.

The further technical scheme is as follows: the utility model discloses a lamp, including support, the upper end of support, the both sides of upper end internal surface all follow the direction of height of support is formed with the recess, the both ends of the electrically conductive installation device of bar lamp outwards extend respectively and are formed with the lug, the lug with the upper end of support is connected just the both sides of the lower tip of lug all court the recess extends and is formed with the arch, the arch is arranged in the recess and can be followed the recess slides to the distance between the electrically conductive installation device of flexible regulation bar lamp main part and bar lamp.

The further technical scheme is as follows: the spotlight module further comprises a rotary connecting rod, the spotlight conductive mounting device is arranged in the conductive track, the upper end of the rotary connecting rod is arranged in the center of the spotlight conductive mounting device and is mutually connected with the spotlight conductive mounting device, the rotary connecting rod can rotate around the axis of the spotlight conductive mounting device relative to the spotlight conductive mounting device, and the lower end of the rotary connecting rod is connected with the spotlight body, so that the spotlight body can be arranged on the rear side of the ceiling lamp body; the bottom center of the shell of the spotlight conductive mounting device is provided with an accommodating opening for the rotating connecting rod to penetrate through, the periphery of the upper end part of the rotating connecting rod extends outwards to form a flange, and the outer diameter of the flange is larger than the accommodating opening so as to block the rotating connecting rod from falling.

The further technical scheme is as follows: rotatory connecting rod is articulated and makes with the shot-light main part swing back and forth, the shot-light main part is including main body cover and light-emitting component, main body cover is hollow body structure, the side of main body cover one end is formed with the confession the notch that rotatory connecting rod passed, correspond in the main body cover the notch is provided with an articulated base, the lower tip of rotatory connecting rod passes the notch and install in through a pin in the articulated base, so that the shot-light main part reaches ninety degrees to the swing angle of rotation connecting rod relatively.

The invention has the beneficial technical effects that: the linear lighting system improves the space utilization rate by installing different lighting lamps in the conductive tracks in a set mode, and meanwhile, the conductive tracks can be freely spliced, so that seamless connection is achieved, the practicability is high, and the application range is wide.

Drawings

Fig. 1 is a schematic diagram of the structure of the linear illumination system of the present invention.

Fig. 2 is a schematic structural view of a conductive track of the linear illumination system of fig. 1.

Fig. 3 is a schematic view of another angle of the linear lighting system of fig. 1 with a portion of the conductive track omitted.

Fig. 4 is a schematic structural view of the ceiling lamp module of the linear lighting system of the present invention.

FIG. 5 is a schematic view of the ceiling lamp module of FIG. 4 with a housing omitted

Fig. 6 is a schematic structural diagram of a reflector module of the linear lighting system of the present invention.

Fig. 7 is a schematic view of the mounting structure of the conductive mounting device and the rotating connecting rod of the spotlight module shown in fig. 6.

Fig. 8 is an exploded view of the lamp module shown in fig. 6.

Fig. 9 is a schematic structural diagram of a bar-shaped lamp module of the linear lighting system of the present invention.

Fig. 10 is an exploded view of the strip lamp module shown in fig. 9.

Fig. 11 is a schematic view of the internal structure of the strip lamp conductive mounting device of the strip lamp module shown in fig. 9.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood by those skilled in the art, the present invention is further described with reference to the accompanying drawings and examples.

Referring to fig. 1 to 11, the linear lighting system includes a plurality of conductive tracks 100 that can be spliced with each other, a plurality of ceiling lamp modules 200, a plurality of spotlight modules 300, and a plurality of strip lamp modules 400 installed in the conductive tracks 100 (the strip lamp modules 400 are not shown in fig. 1 to 3), the conductive tracks 100 include a main board 110, two opposite side plates 120 are formed by extending two sides of the main board 110 vertically downward along the length direction thereof, a containing groove 121 for placing a power supply line 130 is correspondingly formed on the inner surfaces of the two side plates 120 along the length direction thereof, the ceiling lamp modules 200, the spotlight modules 300, and the strip lamp modules 400 each include a conductive installation device for placing in the conductive tracks 100 and connecting electricity, which are a conductive installation device 210, a conductive installation device 310 for a spotlight, and a conductive installation device 410 for a strip lamp, respectively; ceiling lamp module 200 is still including ceiling lamp main part 220, and shot-light module 300 is still including shot-light main part 320, and bar lamp module 400 is still including bar lamp main part 420, electrically conductive installation device is including the casing, be provided with the circuit board in the casing, the circuit board passes through wire and ceiling lamp main part 220, shot-light main part 320 or the bar lamp main part 420 electric connection who corresponds in order to control its work. Specifically, in the present embodiment, the number of the conductive tracks 100 is three, and the three conductive tracks 100 are spliced to form a v-20866a type structure, preferably, in the present embodiment, three ceiling lamp modules 200 may be mounted on each conductive track 100, and one conductive track 100 is mounted with a spotlight module 300 and a strip-shaped light module 400 (not shown in fig. 1 to 3). Of course, in other embodiments, the linear lighting system may include a plurality of conductive tracks 100 that can be spliced together, and a plurality of ceiling lamp modules 200, spot lamp modules 300, and strip lamp modules 400 may be mounted on each conductive track 100. Specifically, in this embodiment, the electrically conductive installation device can follow electrically conductive track 100 slides to can adjust the mounted position of ceiling lamp module 200, shot-light module 300 and bar lamp module 400 in a flexible way, the practicality is strong. Preferably, the conductive track 100 may be provided with a protection plate to form a closed space, and placing the conductive mounting device in the closed space can protect the conductive mounting device and the circuit inside the conductive track, so as to prevent environmental factors from interfering with the normal operation of the linear lighting system.

Referring to fig. 1, 4 and 5, in this embodiment, the ceiling lamp module 200 includes the ceiling lamp main body 220 and two ceiling lamp conductive installation devices 210 disposed at two sides of the ceiling lamp main body 220, wherein the upper end of the ceiling lamp conductive installation device 210 is disposed in the conductive track 100, the lower end part of the ceiling lamp body is provided with a fixing clamp 211 for installing the ceiling lamp body 220, the fixing clamp 211 comprises a panel 2111, the upper end of the panel 2111 is connected to the front side of the lower end portion of the ceiling lamp conductive mounting device 210, the upper end and the lower end of the panel 2111 are respectively extended outwards along the horizontal direction to form an upper clamping plate 2112 and a lower clamping plate 2113, the upper plate 2112 and the lower plate 2113 are perpendicular to the face plate 2111, the upper end of the ceiling lamp conductive mounting device 210 is mounted behind the conductive track 100, and the fixing clip 211 is located at the front side of the conductive track 100. Be provided with electrically conductive contact strip 2114 in the fixation clamp 211, electrically conductive contact strip 2114 set up in on the panel 2111, the circuit board passes through wire and electrically conductive contact strip 2114 electric connection, the ceiling lamp main part 220 both ends are arranged in respectively in the fixation clamp 211 and with electrically conductive contact strip electric property 2114 is connected, in order to control the work of ceiling lamp main part 220 provides working power supply for it. Wherein, ceiling lamp module 200 sets up the electrically conductive installation device of ceiling lamp 210 respectively in order to install ceiling lamp module 200 in conductive track 100 through the both ends in ceiling lamp main part 220, and ceiling lamp main part 220 is located the front side of conductive track 100 below, the change accessible of ceiling lamp is changed ceiling lamp main part 220 and is realized, need not to take off whole ceiling lamp module 200, convenient operation is nimble, the accessible sets up the seamless connection of the position of the electrically conductive installation device of ceiling lamp 210 in order to realize ceiling lamp module 200 simultaneously, therefore, the clothes hanger is strong in practicability.

Specifically, in this embodiment, ceiling lamp main part 220 includes lamp shade 221 and lamp strip 222, the both sides of lamp shade 221 respectively with two the side butt of fixation clamp 211, lamp strip 222 install in the lamp shade 221, just lamp strip 222's length is greater than lamp shade 221 so that lamp strip 222's both ends stretch out in lamp shade 221 and install respectively in two in the fixation clamp 211, lamp strip 222 is including the PCB board, the both ends of PCB board respectively with electrically conductive splicing 2114 electric connection, for ceiling lamp main part 220 provides working power supply.

Preferably, the ceiling lamp conductive mounting device 210 further includes two conductive electrodes 212 disposed in the casing, two ends of the conductive electrodes 212 are connected to the circuit board, two ends of the conductive electrodes 212 are disposed corresponding to the accommodating groove 121, so that two ends of the conductive electrodes 212 are respectively connected to the positive and negative electrodes of the power line 130 of the conductive track 100, and the casing corresponds to the conductive electrodes 212, and a conductive hole is formed in the conductive electrode 212 for the other end of the conductive electrode 212 to extend out. Specifically, the conductive electrode 212 and the conductive tab 2114 are made of a conductive copper sheet. The conductive electrode 212 of the conductive installation device 210 of the ceiling lamp is connected with the positive electrode and the negative electrode of the power line 130 of the conductive track 100, so that an electric signal is transmitted to the circuit board of the conductive installation device 210 of the ceiling lamp, the electric signal is transmitted to the conductive contact piece 2114 through a wire, and the PCB of the lamp strip 222 is electrically connected with the conductive contact piece 2114 to work according to the received electric signal.

With reference to fig. 2, fig. 4 and fig. 5, in the present embodiment, the conductive track 100 further includes two positioning grooves 122, and the two positioning grooves 122 are respectively disposed below the two accommodating grooves 121. The ceiling lamp conductive installation device 210 further comprises a reset assembly 213, the reset assembly 213 comprises a key 2131 and a spring 2132, one end of the key 2131 is arranged in the shell of the ceiling lamp conductive installation device 210, a supporting rod 2133 for the spring 2132 to penetrate is formed on the lower surface of the key 2131, the spring 2132 penetrates the supporting rod 2133, one end of the spring 2132 is abutted against the lower surface of the key 2131, and the other end of the spring 2132 is abutted against the inner surface of the shell of the ceiling lamp conductive installation device 210. Connecting protrusions 2134 are formed on two sides of one end of the key 2131, positioning holes for the connecting protrusions 2134 to extend out are formed in the shell of the ceiling lamp conductive installation device 210 corresponding to the connecting protrusions 2134, and the connecting protrusions 2134 extend out of the positioning holes and are clamped with the positioning grooves 122. The upper end surface of the connecting protrusion 2134 is inclined downward from inside to outside to form a first guide surface, and the lower end surface of the connecting protrusion 2134 is inclined upward from inside to outside to form a second guide surface, so that the connecting protrusion 2134 is clamped with the positioning slot 122 along the first guide surface and is separated from the positioning slot 122 along the second guide surface. The other end of the key 2131 extends out of the housing of the conductive mounting device 210 of the ceiling lamp, and a sliding groove 214 is formed on the outer surface of the housing corresponding to the key 2131 along the height direction of the housing, and the end of the key 2131 extends out and slides up and down along the housing, so that a user can push the end of the key 2131 extending out of the housing to slide the key 2131 down along the sliding groove 214, thereby compressing the spring 2131, and disengaging the connecting protrusion 2134 from the conductive track 100.

During installation, the lower end of the positioning groove 122 of the conductive track 100 provides downward pressure to the connecting protrusion 2134, the key 2131 moves downward to drive the key 2131 to compress the spring 2132 downward, the connecting protrusion 2134 is better placed in the positioning groove 122 of the conductive track 100 through the first guide surface, the conductive track 100 does not extrude the connecting protrusion 2134 any more, the spring 2132 recovers the original length by utilizing the characteristic of the spring 2132, so that the connecting protrusion 2134 is clamped in the positioning groove 122 of the conductive track 100, and the conductive installation device 210 of the ceiling lamp is installed in the conductive track 100. During unloading, the key 2131 is pressed to extend out of the end part of the conductive installation device 210 of the ceiling lamp to slide downwards along the sliding groove 214, so that the spring 2132 is compressed, the connecting protrusion 2134 is separated from the positioning groove 122 of the conductive track 100 through the second guide surface, then the key 2131 is loosened, the spring 2132 recovers the original length by utilizing the characteristic of the spring 2132, the key 2131 slides upwards along the sliding groove 214 to recover the initial state, and the conductive installation device 210 of the ceiling lamp is unloaded from the conductive track 100.

Referring to fig. 3, fig. 6, fig. 7 and fig. 8, in this embodiment, the spotlight module 300 includes the conductive installation device 310 of the spotlight, the rotating connecting rod 330 and the spotlight body 320, the conductive installation device 310 of the spotlight in the conductive track 100, the upper end of the rotating connecting rod 330 is disposed in the center of the conductive installation device 310 of the spotlight and connected with the conductive installation device 310 of the spotlight, the rotating connecting rod 330 can rotate around its axis relative to the conductive installation device 310 of the spotlight, the lower end of the rotating connecting rod 330 is connected with the spotlight body 320, so that the spotlight body 320 is located under the conductive installation device 310 of the spotlight, and then the spotlight body 320 can be disposed at the rear side of the spotlight body 220, thereby saving the installation space and achieving strong practicability. The bottom center of the shell of the spotlight conductive mounting device 310 is provided with an accommodating hole 311 for the rotating connecting rod 330 to penetrate through, the upper end of the rotating connecting rod 330 penetrates through the accommodating hole 311, a flange 331 extends outwards from the periphery of the upper end of the rotating connecting rod 330, so that the upper end of the rotating connecting rod 330 is connected with the inner surface of the shell of the spotlight conductive mounting device 310, and the outer diameter of the flange 331 is larger than the accommodating hole 311 to block the rotating connecting rod 330 from falling.

Specifically, in this embodiment, a blocking portion 312 is formed above the receiving opening 311 of the housing of the conductive mounting device 310 for the spotlight, the distance between the blocking portion 312 and the receiving opening 311 is equal to the height of the rib 331, the upper end surface of the rib 331 abuts against the bottom surface of the blocking portion 312, and the lower end surface of the rib 331 is located on the receiving opening 311 and abuts against the inner surface of the housing of the conductive mounting device 310 for the spotlight, so as to block the upward movement of the rotating connecting rod 330, thereby realizing the positioning of the rotating connecting rod 330 and preventing the rotating connecting rod 330 from displacing in the rotating process. Preferably, the blocking portion 312 has a through hole corresponding to the receiving hole 311, the blocking portion 312 has a protruding point 3121 formed outward from the through hole, an upper end surface of the rib 331 has a clamping point 3311, and the clamping point 3311 can contact with the protruding point 3121 along with the rotation of the rotating link 330, so that the rotation angle of the rotating link 330 is less than 360 °, and specifically, the rotation angle of the rotating link 330 ranges from 0 to 355 °. Wherein, shot-light module 300 is through setting up swivelling joint pole 330 in order to drive shot-light main part 320 and can rotate around swivelling joint pole 330's axis for the electrically conductive installation device 310 of shot-light, enlarges shot-light module 300's the position of shining, need not additionally to install new shot-light, reduces cost of life, and the practicality is strong.

Specifically, in this embodiment, the rotating connecting rod 330 is hinged to the spotlight body 320 to make the spotlight body 320 swing back and forth around the rotating connecting rod 330, the spotlight body 320 includes a main body housing 321 and a light emitting component 323, the main body housing 321 is a hollow main body structure, a notch for the rotating connecting rod 330 to pass through is formed on a side edge of one end of the main body housing 321, a hinged base is disposed in the main body housing 321 corresponding to the notch, and a lower end of the rotating connecting rod 330 passes through the notch and is mounted in the hinged base through a pin, so that a swing angle of the spotlight body 320 relative to the rotating connecting rod 330 reaches ninety degrees. The medial surface of main part shell 321 is fixed with an mounting bracket 3213, articulated base fixed mounting in mounting bracket 3213 is close to one of swivelling joint pole 330 and serves, light-emitting component 323 is located main part shell 321 and set up in on the other end of mounting bracket 3213, the light-emitting component 323 overcoat is equipped with a safety cover 322 that is used for protecting light-emitting component 323, safety cover 322 is hollow body structure, the one end of safety cover 322 set up in main part shell 321, a lens 3221 is equipped with to the other end endotheca of safety cover 322 to the light that light-emitting component 323 sent of transmission. Specifically, the main body case 321 is divided into two parts along a length direction thereof, which are a front case 3211 and a rear case 3212, respectively, and the front case 3211 is located at a front end of the rear case 3212 and connected to each other. The slot is disposed on a side edge of one end of the rear casing 3212, the mounting frame 3213 is located in the rear casing 3212, the light emitting assembly 323 is disposed on the other end of the mounting frame 3213 and located in the front casing 3211, and one end of the protection cover 322 is disposed in the front casing 3211.

Preferably, a bottom plate is installed on the bottom surface of the main body case 321, a slot is formed on the bottom plate corresponding to the hinge base, and the lower end of the rotating connecting rod 330 passes through the slot and is installed in the hinge base through the pin, so that the swinging angle of the spotlight main body 320 relative to the rotating connecting rod reaches ninety degrees. Specifically, be formed with a plurality of through-holes that are used for the ventilation on the bottom plate, the mounting bracket corresponds with the bottom plate and is equipped with the locating hole that supplies the mounting to put into with fixed connection, the mounting can adopt the screw, preferably, the number of locating hole is two and evenly distributed in the both sides of bottom plate. The reflector lamp main body 320 can swing back and forth around the rotating connecting rod 330 by hinging the reflector lamp main body 320 to the lower end part of the rotating connecting rod 330, so as to expand the irradiation angle of the reflector lamp module 300.

Specifically, in this embodiment, the spotlight body 320 further includes a sleeve expansion device 324, the sleeve expansion device 324 includes an inner tube 3241 and an outer tube 3242, the inner tube 3241 is disposed in the outer tube 3242 and can move back and forth along a length direction of the outer tube 3242 to achieve expansion and contraction, the sleeve expansion device 324 is disposed in the main body casing 321 and sleeved outside the light emitting component 323, and one end of the protection cover 322 is disposed in the main body casing 321 and sleeved on one end of the inner tube 3241. The sleeve expansion piece 324 is sleeved outside the light emitting component 323, so that the lens 3221 in the protective cover 322 can be driven to gradually approach or move away from the light emitting component 323, and stepless adjustment of the light emitting angle is achieved according to actual requirements.

Specifically, in this embodiment, two conductive electrodes 313 are further disposed in the housing of the conductive mounting device 310 of the spotlight, one ends of the two conductive electrodes 313 are connected to the circuit board of the conductive mounting device 310 of the spotlight, the two conductive electrodes 313 are disposed corresponding to the accommodating groove 121, so that the other ends of the two conductive electrodes 313 are respectively connected to the positive electrode and the negative electrode of the power line 130 of the conductive track 100, and a conductive hole for extending the other end of the conductive electrode 313 is formed in the housing corresponding to the conductive electrode 313. Specifically, the conductive electrode 313 is made of a conductive copper sheet. The light-emitting component comprises a PCB and an LED lamp electrically connected with the PCB, and the PCB is connected with the circuit board of the spotlight conductive mounting device 310 through a wire so as to control the work of the LED lamp.

With reference to fig. 2, 6 and 7, preferably, in this embodiment, the conductive mounting device 310 further includes a reset component 314, the reset component 314 includes a key 3141 and a spring 3142, one end of the key 3141 is disposed in the housing of the conductive mounting device 310, and a support rod 3143 for the spring 3142 to penetrate through is formed on the lower surface of the key 3141, the spring 3142 is disposed on the support rod 3143, and one end of the spring 3141 abuts against the lower surface of the key 3141, and the other end of the spring 31abuts against the inner surface of the housing of the conductive mounting device 310. Connecting protrusions 3144 are formed on two sides of one end of the key 3141, a positioning hole for the connecting protrusion 3144 to extend out is formed on the shell of the spotlight conductive mounting device 310 corresponding to the connecting protrusion 3144, and the connecting protrusion 3144 extends out of the positioning hole and is clamped with the positioning groove 122. The up end of the coupling protrusion 3144 is inclined downward from inside to outside to form a first guide surface, and the down end of the coupling protrusion 3144 is inclined upward from inside to outside to form a second guide surface, so that the coupling protrusion 3144 is engaged with the positioning groove 122 along the first guide surface and is disengaged from the positioning groove 122 along the second guide surface. The other end of the key 3141 extends out of the housing of the spotlight conductive mounting device 310, and a sliding groove 315 is formed on the outer surface of the housing corresponding to the key 3141 along the height direction of the housing, wherein the sliding groove allows the end of the key 3141 to extend out and slide up and down along the housing.

When the spotlight conducting mounting device is mounted, the lower end of the positioning groove 122 of the conducting track 100 provides downward pressure for the connecting protrusion 3144 of the spotlight conducting mounting device 310 to drive the key 3141 to compress the spring 3142 downwards, the key 3141 moves downwards, the connecting protrusion 3144 is better placed in the positioning groove 122 of the conducting track 100 through the first guide surface, and the spring 3142 recovers the original length by utilizing the characteristic of the spring 3142, so that the connecting protrusion 3144 is clamped in the positioning groove 122 of the conducting track 100; when the spotlight is unloaded, the button 3141 is pressed to extend out of the end of the spotlight conductive mounting device 310, so that the spotlight conductive mounting device can slide downwards along the sliding groove 315, the spring 3142 is compressed, the connecting protrusion 3144 is separated from the positioning groove 122 of the conductive track 100 through the second guide surface, and the spring 3142 recovers the original length by utilizing the characteristic of the spring 3142.

Referring to fig. 9, 10 and 11, the strip lamp module 400 includes a strip lamp conductive mounting device 410, a strip lamp main body 420 and a bracket 430. The bar lamp conductive mounting device 410 is arranged in the conductive track 100, the support 430 is mounted under the bar lamp conductive mounting device 410, so that the bar lamp main body 420 can be arranged at the rear side of the ceiling lamp main body 220, the mounting space can be saved, the space utilization rate is improved, and the practicability is high. The upper end of support 430 respectively with the electrically conductive installation device 410 of bar lamp's both ends are connected, its lower tip respectively with the both ends of bar lamp main part 420 are articulated so that bar lamp main part 420 swing back and forth, extension illumination scope and angle need not to add lamps and lanterns, reduction in production cost, and the practicality is strong, preferably, the swing angle scope of bar lamp main part 420 is for swinging 30 to 30 backward for preceding pendulum.

Specifically, the upper end internal surface both sides of support 430 all follow the direction of height of support 430 is formed with recess 433, the both ends of the electrically conductive installation device 410 of bar lamp outwards extend respectively and are formed with lug 411, lug 411 with the upper end of support 430 is connected just the both sides of the lower tip of lug 411 all court the direction extension of recess 433 is formed with arch 4111, arch 4111 is arranged in recess 433 and can be followed recess 433 slides to the distance between the electrically conductive installation device 410 of flexible regulation bar lamp main part 420 and the bar lamp. The illumination range of the bar lamp module is favorably enlarged, meanwhile, the bar lamp main body 420 is convenient to replace, the lamp can be replaced without disassembling the whole lamp, maintenance is convenient, and the bar lamp module is high in practicability.

Specifically, two ends of the upper end of the bracket 430 extend upward vertically to form upper connecting arms 431, two ends of the lower end of the bracket 430 extend downward vertically to form lower connecting arms 432, the two upper connecting arms 431 are connected to two ends of the fixed conductive mounting device 410, and the two lower connecting arms 432 are connected to two ends of the strip-shaped lamp main body 420. The strip-shaped lamp body 420 comprises a lamp cover 421 and a light-emitting module 422, the light-emitting module 422 is installed in the lamp cover 421, and the two lower connecting arms 432 are respectively hinged to two ends of the lamp cover 421 to enable the strip-shaped lamp body 420 to swing back and forth. Two sides of the upper connecting arm 431 of the bracket 430 extend towards the strip-shaped lamp conductive mounting device 410 to form a rib 4311, the groove 433 is located in the rib 4311 and is arranged along the length direction of the rib 4311, and the protrusion 411 is connected with the upper connecting arm 431. Specifically, the length of the groove 433 is 20 mm.

Specifically, two conductive electrodes 412 are further disposed in the casing of the strip-shaped lamp conductive mounting device 410, one end of each of the two conductive electrodes 412 is connected to the circuit board of the strip-shaped lamp conductive mounting device 410, the two conductive electrodes 412 are disposed corresponding to the accommodating groove 121, so that the other ends of the two conductive electrodes 412 are respectively connected to the positive electrode and the negative electrode of the power line 130 of the conductive track 100, a conductive hole for extending the other end of the conductive electrode 412 is formed in the casing of the strip-shaped lamp conductive mounting device 410 corresponding to the conductive electrode 412, and the two conductive electrodes 412 extend out of the conductive hole to be connected to the positive electrode and the negative electrode of the power line 130 of the conductive track 100. Specifically, the conductive electrode 412 is made of a conductive copper sheet.

With reference to fig. 2, 9 and 11, in particular, the bar-shaped lamp conductive mounting device 410 further includes a reset assembly 413, the reset assembly 413 includes a button 4131 and a spring 4132, one end of the button 4131 is disposed in the housing of the bar-shaped lamp conductive mounting device 410, a support rod 4133 for the spring 4132 to penetrate through is formed on the lower surface of the button 4131, the spring 4132 is disposed on the support rod 4133 in a penetrating manner, one end of the spring 4132 abuts against the lower surface of the button 4131, and the other end of the spring abuts against the inner surface of the housing of the bar-shaped lamp conductive mounting device 410. Connecting protrusions 4134 are formed on two sides of one end of the key 4131, a positioning hole for the connecting protrusions 4134 to extend out is formed on the shell of the bar-shaped lamp conductive installation device 410 corresponding to the connecting protrusions 4134, and the connecting protrusions 4134 extend out of the positioning hole and are clamped with the positioning groove 122. The upper end surface of the connecting protrusion 4134 is inclined downward from inside to outside to form a first guide surface, and the lower end surface of the connecting protrusion 4134 is inclined upward from inside to outside to form a second guide surface, so that the connecting protrusion 4134 is clamped with the positioning groove 122 along the first guide surface and is separated from the positioning groove 122 along the second guide surface. The other end of the key 4131 extends out of the casing of the bar-shaped lamp conductive mounting device 410, and a sliding groove 414 for the end of the key 4131 to extend out and slide up and down along the casing is formed on the outer surface of the casing corresponding to the key 4131 along the height direction of the casing.

When the conductive mounting device is mounted, the lower end of the positioning groove 122 of the conductive rail 100 provides downward pressure to the connecting protrusion 4134 of the bar-shaped lamp conductive mounting device 410 to drive the key 4131 to compress the spring 4132 downward, the key 4131 moves downward, the connecting protrusion 4134 is better placed in the positioning groove 122 of the conductive rail 100 through the first guide surface, and by utilizing the characteristic of the spring 4132, the spring 4132 recovers the original length, so that the connecting protrusion 4134 is clamped in the positioning groove 122 of the conductive rail 100; when unloaded, the spring 4132 is compressed by pressing the button 4131 protruding from the end of the bar-shaped lamp electrical conduction mounting apparatus 410 to slide down the sliding groove 414, the coupling protrusion 4134 is separated from the positioning groove 122 of the electrical conduction rail 100 by the second guide surface, and the spring 4132 is restored to its original length by the characteristic of the spring 4132.

In conclusion, the linear lighting system improves the space utilization rate by integrally installing different lighting lamps in the conductive tracks, and meanwhile, the plurality of conductive tracks can be freely spliced, so that seamless connection is realized, the practicability is high, and the application range is wide; moreover, the ceiling lamp module, the spot light module, the bar lamp module are all through in electrically conductive installation device in order to install lamps and lanterns in conductive track, and the change of lamps and lanterns need not to take off whole ceiling lamp module, and convenient operation is nimble, and the accessible sets up the seamless connection of electrically conductive installation device's position in order to realize ceiling lamp module, spot light module and/or bar lamp module simultaneously, and the practicality is strong.

The foregoing is considered as illustrative of the preferred embodiments of the invention and is not to be construed as limiting the invention in any way. Various equivalent changes and modifications can be made by those skilled in the art based on the above embodiments, and all equivalent changes and modifications within the scope of the claims should fall within the protection scope of the present invention.

Claims (8)

1. The linear lighting system is characterized by comprising a plurality of conductive tracks which can be spliced mutually, a plurality of ceiling lamp modules, a plurality of spotlight modules and a plurality of strip lamp modules, wherein the ceiling lamp modules, the spotlight modules and the strip lamp modules are arranged in the conductive tracks; the conductive mounting device comprises a shell, a circuit board is arranged in the shell, and the circuit board is electrically connected with the corresponding ceiling lamp main body, the spotlight main body or the strip-shaped lamp main body through a conducting wire so as to control the work of the circuit board;

the conductive track also comprises two positioning grooves which are respectively arranged below the two accommodating grooves, the conductive mounting device also comprises a reset assembly, the reset assembly comprises a key and a spring, one end of the key is arranged in the shell, a support rod for the spring to penetrate is formed on the lower surface of the key, the spring penetrates the support rod, one end of the spring is abutted against the lower surface of the key, and the other end of the spring is abutted against the inner surface of the shell; connecting bulges are formed on two sides of one end of the key, positioning holes for the connecting bulges to extend out are formed in the shell corresponding to the connecting bulges, and the connecting bulges extend out of the positioning holes and are clamped with the positioning grooves; the upper end surface of the connecting bulge is downwards inclined from inside to outside to form a first guide surface, and the lower end surface of the connecting bulge is upwards inclined from inside to outside to form a second guide surface, so that the connecting bulge is clamped with the positioning groove along the first guide surface and is separated from the positioning groove along the second guide surface; the other end of the key extends out of the shell, and a sliding groove for the end portion of the key to extend out and slide up and down along the shell is formed on the outer surface of the shell corresponding to the key along the height direction of the shell.

2. The linear lighting system according to claim 1, wherein two conductive electrodes are further disposed in the housing, one ends of the two conductive electrodes are connected to the circuit board, the two conductive electrodes are disposed corresponding to the receiving slot, so that the other ends of the two conductive electrodes are respectively connected to the positive electrode and the negative electrode of the power line of the conductive track, and the housing is formed with a conductive hole corresponding to the conductive electrode, through which the other end of the conductive electrode extends.

3. The linear lighting system according to claim 1, wherein the ceiling lamp module comprises a ceiling lamp body and two ceiling lamp conductive mounting devices disposed on two sides of the ceiling lamp body, wherein the upper end of each ceiling lamp conductive mounting device is disposed in the conductive track, a fixing clip for mounting the ceiling lamp body is disposed at the lower end of each ceiling lamp conductive mounting device, each fixing clip comprises a panel, the upper end of each panel is connected to the front side of the lower end of each ceiling lamp conductive mounting device, the upper end and the lower end of each panel respectively extend outwards along the horizontal direction to form an upper clamping plate and a lower clamping plate, and the upper clamping plate and the lower clamping plates are respectively perpendicular to the panels; be provided with electrically conductive splicing in the fixation clamp, electrically conductive splicing set up in on the panel, the circuit board passes through wire and electrically conductive splicing electric connection, ceiling lamp main part both ends are arranged in respectively in the fixation clamp and with electrically conductive splicing electric connection.

4. The linear lighting system according to claim 3, wherein the ceiling lamp main body comprises a lampshade and a lamp strip, two sides of the lampshade are respectively abutted against two sides of the fixing clip, the lamp strip is installed in the lampshade, the length of the lamp strip is greater than that of the lampshade so that two ends of the lamp strip extend out of the lampshade and are installed in the fixing clip, the lamp strip comprises a PCB, and two ends of the PCB are respectively electrically connected with the conductive connecting pieces so as to provide a working power supply for the ceiling lamp main body.

5. The linear lighting system according to claim 3, wherein the bar-shaped light module further comprises a support, the bar-shaped light conductive installation device is disposed in the conductive track, the support is disposed between the bar-shaped light conductive installation device and the bar-shaped light main body and is installed under the bar-shaped light conductive installation device, so that the bar-shaped light main body can be disposed at the rear side of the ceiling light main body, the upper end of the support is connected with two ends of the bar-shaped light conductive installation device, and the lower end of the support is hinged to two ends of the bar-shaped light main body, so that the bar-shaped light main body swings back and forth.

6. The linear lighting system according to claim 5, wherein grooves are formed on both sides of the inner surface of the upper end portion of the bracket along the height direction of the bracket, the two ends of the strip-shaped lamp conductive mounting device are respectively extended outward to form a projection, the projection is connected with the upper end portion of the bracket, both sides of the lower end portion of the projection are extended toward the grooves to form a protrusion, and the protrusion is disposed in the groove and can slide along the groove to telescopically adjust the distance between the strip-shaped lamp main body and the strip-shaped lamp conductive mounting device.

7. The linear lighting system according to claim 3, wherein the spotlight module further comprises a rotary connecting rod, the spotlight conductive mounting device is disposed in the conductive track, the upper end of the rotary connecting rod is disposed at the center of the spotlight conductive mounting device and is connected to the spotlight conductive mounting device, the rotary connecting rod can rotate around its axis relative to the spotlight conductive mounting device, and the lower end of the rotary connecting rod is connected to the spotlight body, so that the spotlight body can be disposed at the rear side of the ceiling lamp body; the bottom center of the shell of the spotlight conductive mounting device is provided with an accommodating opening for the rotating connecting rod to penetrate through, the periphery of the upper end part of the rotating connecting rod extends outwards to form a flange, and the outer diameter of the flange is larger than the accommodating opening so as to block the rotating connecting rod from falling.

8. The linear lighting system according to claim 7, wherein the rotary connecting rod is hinged to the spotlight body to swing the spotlight body back and forth, the spotlight body comprises a main body housing and a light emitting assembly, the main body housing is a hollow main body structure, a slot is formed at one end of the main body housing on a side thereof for the rotary connecting rod to pass through, a hinge base is disposed in the main body housing corresponding to the slot, and a lower end of the rotary connecting rod passes through the slot and is mounted in the hinge base through a pin, so that a swing angle of the spotlight body relative to the rotary connecting rod reaches ninety degrees.

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