CN204962467U - Double -barrelled frame lamp of LED - Google Patents

Abstract

The utility model relates to a double -barrelled frame lamp of LED, it sets up on the LED installation trench of aluminium groove both sides to be 60 -80 angle ground symmetry each other with 2 LED lamp strips, 2 the smooth curve dispersion of individual LED lamp strip is overlapped and formation butterfly type grading, the separated design of traditional LED twins' frame lamp has not only been broken, let the double -barrelled frame lamp enable of integrated design, and the double -barrelled frame lamp beginning of industry butterfly grading has been started, the more pleasing to the eye volume of appearance is smaller and more exquisite, but also can come design accuse light according to the demand, moreover, the steam generator is simple in structure, therefore, the carrier wave prepaid electric energy meter is low in cost, good heat dissipation, and convenient installation and maintenance.

Description

A kind of LED twin-tube stent lamp

Technical field

The utility model relates to field of illumination lamp technology, is a kind of LED twin-tube stent lamp specifically.

Background technology

Existing LED twin-tube stent lamp great majority are that traditional bracket lamp is equipped with LED lamp tube and combines, integrated design seldom occurs on the market, extra small volume and cost performance is had in order to make whole lamp, insider starts to seek a kind of Eco-power twin-tube stent modulated structure design one after another, traditional twins' Frame lamp can be taken under normal circumstances as reference foundation, and the most products designed so all can not escape traditional shadow.

Make a general survey of the LED twin-tube stent lamp occurred on the market, great majority are all the designs that conventional lamp is equipped with LED lamp tube, even if having this series products to occur is take traditional light fixture outward appearance transformation to form substantially, also some LED frame lamp have successfully been produced, but most of LED frame lamp all only has a luminous tube, when having two luminous tubes, volume becomes very large, this imperfect mainly because this structural design is also in developing stage, fails to obtain reasonable precipitation and innovation.

The LED twin-tube stent lamp occurred at present is on the market mainly reflected in: 1, light fixture fluorescent tube separate design, and namely traditional twins' bracket lamp is equipped with LED lamp tube; 2, weak heat-dissipating, only relies on the radiator heat-dissipation of fluorescent tube self; 3, earth-continuity is bad, and wiring relies on one piece of built-in shell fragment top on a heat sink; 4, LED twin-tube stent lamp body is long-pending large, namely effectively can not control light fixture fluorescent tube and be separated the large quality large volume brought; 5, be not easy to install, namely waiting when mounted needs the back panel wiring structure changing traditional twins' bracket lamp, wastes time and energy; 6, can not make butterfly-like luminous intensity distribution, two fluorescent tube is positioned at the side setting that walks abreast cannot reach light distribution requirements.These designs respectively have advantage, but also respectively have drawback.

Thus in order to the lamp integrated design concept of LED twin-tube stent better can be utilized, and LED twin-tube stent lamp can also be accomplished have more lightweight and low cost can substitute traditional LED twins' Frame lamp, the part of these needs improvement all can be cost-saving very large degree, thus better promote product, therefore inventing this structural design is necessity very.

Utility model content

In order to overcome the defect of above-mentioned prior art, technical problem to be solved in the utility model be to provide a kind of structure simple, be convenient to install, volume is little, the LED twin-tube stent lamp of good heat dissipation, butterfly-like luminous intensity distribution.

In order to solve the problems of the technologies described above, the technical solution adopted in the utility model is:

A kind of LED twin-tube stent lamp, comprises aluminium groove, drive circuit board and two LED lamp bar;

The top card of described aluminium groove links and is connected to wall installing tache, and wall installing tache is connected with gecko like nail by self-tapping screw;

The both sides of described aluminium groove are respectively arranged with LED and install slot, and two LED lamp bar are symmetricly set in 60-80 ° of angle on the LED installation slot of aluminium groove both sides mutually, LED lamp bar are covered with PC diffusion shell;

The bottom of described aluminium groove is provided with drive circuit board, and drive circuit board is placed in drive circuit board protective sleeve, and the two ends of drive circuit board protective sleeve are respectively arranged with drive circuit board over cap, and drive circuit board over cap offers wiring hole;

The two ends of described aluminium groove are respectively arranged with end cap; end cap is provided with more than one installation stuck point; aluminium groove corresponds to installation stuck point and be provided with more than one stuck point installing hole; end cap is arranged on the end of aluminium groove by installation stuck point and being clasped of stuck point installing hole; end cap is provided with attaching plug; the power line of described drive circuit board passes the wiring hole on drive circuit board over cap and is fixed on attaching plug by wire screw, described attaching plug is plugged with plug cord or is covered with plug protective cover.

Wherein, also comprise gland, suspension rod and installing tache gland, described self-tapping screw is threaded with gecko like nail through suspension rod and gland successively, the lower end of described suspension rod is provided with screwed hole, described wall installing tache corresponds to described screwed hole and is provided with convex closure hole, and described installing tache gland is threaded with the screwed hole of suspension rod lower end by convex closure hole and is fixed in the lower end of suspension rod and wall installing tache.

Wherein, also comprise serial connection plug cord and seamless spliced head, the LED twin-tube stent lamp of more than two is connected in series mutually by serial connection plug cord and seamless spliced head, and the two ends of serial connection plug cord are plugged on the attaching plug of two adjacent LED twin-tube stent lamps respectively.

Wherein, described end cap is provided with 3 position of bone that cross met at together towards the one side protrusion of aluminium groove, and it is limited that the protrusion height of the position of bone that crosses makes to install stuck point.

Wherein, the both side ends of described aluminium groove is provided with limited impression respectively, and described end cap is provided with spacing preiection towards the one side of aluminium groove corresponding to described limited impression.

Wherein, described end cap corresponds to PC diffusion shell towards the one side of aluminium groove and is provided with the spacing position of bone of C type for fixing PC diffusion shell.

Wherein, described end cap is provided with 2 M type position of bone towards the one side protrusion of aluminium groove, leaves the gap can inserting a grounding screw between 2 M type position of bone.

Wherein, the C type slot for dead earth screw is provided with inside the bottom surface of described aluminium groove.

Wherein, the both sides of described PC diffusion shell are respectively arranged with for controlling light and increasing the button limit of creep age distance.

Wherein, two LED lamp bar are symmetricly set in 76 ° of angles on the LED installation slot of aluminium groove both sides mutually, and the lighting angle of LED lamp bar is greater than 120 °.

The beneficial effects of the utility model are: the separation design not only breaking traditional LED twins Frame lamp, the twin-tube stent lamp of integrated design is allowed to become possibility, profile volume more attractive in appearance is smaller and more exquisite, and control light can also be designed according to demand, the more important thing is the twin-tube stent lamp beginning having started industry butterfly luminous intensity distribution, and structure is simple, with low cost, thermal diffusivity is good, is convenient to installation and maintenance.

Accompanying drawing explanation

Figure 1 shows that a kind of structural representation of LED twin-tube stent lamp of the present utility model.

Figure 2 shows that the assembling schematic diagram of Fig. 1.

Figure 3 shows that the partial enlarged drawing A of Fig. 2.

Figure 4 shows that the partial enlarged drawing B of Fig. 2.

Figure 5 shows that the partial enlarged drawing C of Fig. 2.

Figure 6 shows that the partial enlarged drawing D of Fig. 2.

Figure 7 shows that the serial connection schematic diagram of the LED twin-tube stent lamp shown in Fig. 1.

Figure 8 shows that the another kind of structural representation of LED twin-tube stent lamp of the present utility model.

Figure 9 shows that the assembling schematic diagram of gecko like nail in Fig. 7, gland, suspension rod, self-tapping screw, wall installing tache and installing tache gland.

Figure 10 shows that the serial connection schematic diagram of the LED twin-tube stent lamp shown in Fig. 8.

Figure 11 shows that the distribution curve flux schematic diagram of LED twin-tube stent lamp of the present utility model.

Label declaration:

1-gecko like nail; 2-self-tapping screw; 3-wall installing tache; 31-convex closure hole; The bending of 32-V type; 4-end cap; 41-installs stuck point; 42-crosses the position of bone; 43-spacing preiection; The spacing position of bone of 44-C type; The 45-M type position of bone; 5-plug protective cover; 6-aluminium groove; 61-stuck point installing hole; 62-limited impression; 63-C type slot; 7-grounding screw; 8-wire screw; 9-plug cord; 10-drive circuit board; 11-drive circuit board over cap; 12-drive circuit board protective sleeve; 13-LED lamp bar; 14-PC diffusion shell; 141-detains limit; 15-gland; 16-suspension rod; 17-installing tache gland; 18-is connected in series plug cord; The seamless spliced head of 19-.

Detailed description of the invention

By describing technology contents of the present utility model in detail, realized object and effect, accompanying drawing is coordinated to be explained below in conjunction with embodiment.

Please refer to shown in Fig. 1 to Figure 11, LED twin-tube stent lamp of the present utility model, comprise aluminium groove 6, drive circuit board 10 and two LED lamp bar 13;

The top card of described aluminium groove 6 links and is connected to wall installing tache 3, and wall installing tache 3 is connected with gecko like nail 1 by self-tapping screw 2;

The both sides of described aluminium groove 6 are respectively arranged with LED and install slot, and two LED lamp bar 13 are symmetricly set in 60-80 ° of angle on the LED installation slot of aluminium groove 6 both sides mutually, LED lamp bar 13 are covered with PC diffusion shell 14;

The bottom of described aluminium groove 6 is provided with drive circuit board 10, drive circuit board 10 is placed in drive circuit board protective sleeve 12, the two ends of drive circuit board protective sleeve 12 are respectively arranged with drive circuit board over cap 11, and drive circuit board over cap 11 offers wiring hole;

The two ends of described aluminium groove 6 are respectively arranged with end cap 4; end cap 4 is provided with more than one installation stuck point 41; aluminium groove 6 corresponds to installation stuck point 41 and be provided with more than one stuck point installing hole 61; end cap 4 is arranged on the end of aluminium groove 6 by installing stuck point 41 with being clasped of stuck point installing hole 61; end cap 4 is provided with attaching plug; the power line of described drive circuit board 10 passes the wiring hole on drive circuit board over cap 11 and is fixed on attaching plug by wire screw 8, described attaching plug is plugged with plug cord 9 or is covered with plug protective cover 5.

The utility model has 2, and in 60-80 ° of angle, (preferably 76 ° of angles) are symmetricly set on the LED lamp bar 13 on the LED installation slot of aluminium groove 6 both sides mutually, the light curve dispersion of 2 LED lamp bar 13 is overlapping and form buttferfly-type luminous intensity distribution, has started the twin-tube stent lamp beginning of industry butterfly luminous intensity distribution; End cap 4 is arranged on the end of aluminium groove 6 by more than one installation stuck point 41 with being clasped of stuck point installing hole 61, and end cap 4 is not screwed when buckling into aluminium groove 6, and simplify structure, optimizing product outward appearance, is convenient to installation and maintenance; Drive circuit board 10 is kept apart with aluminium groove 6 and external environment condition by drive circuit board protective sleeve 12 and drive circuit board over cap 11, improve the security reliability of LED twin-tube stent lamp, and thermal diffusivity is good.

From foregoing description, the beneficial effects of the utility model are: the separation design not only breaking traditional LED twins Frame lamp, the twin-tube stent lamp of integrated design is allowed to become possibility, profile volume more attractive in appearance is smaller and more exquisite, and can also design control light according to demand, the more important thing is the twin-tube stent lamp beginning having started industry butterfly luminous intensity distribution, and structure is simple, with low cost, security reliability is high, is convenient to installation and maintenance.

Further, shown in Fig. 3, Fig. 8 and Fig. 9, the utility model also comprises gland 15, suspension rod 16 and installing tache gland 17, described self-tapping screw 2 is threaded with gecko like nail 1 through suspension rod 16 and gland 15 successively, the lower end of described suspension rod 16 is provided with screwed hole, described wall installing tache 3 corresponds to described screwed hole and is provided with convex closure hole 31, and described installing tache gland 17 is threaded with the screwed hole of suspension rod 16 lower end by convex closure hole 31 and is fixed in the lower end of suspension rod 16 and wall installing tache 3.

From foregoing description, the beneficial effects of the utility model are: by setting up gland, suspension rod and installing tache gland, during installation, gland is locked on installed surface by self-tapping screw, suspension rod screws in gland, by installing tache gland, wall installing tache is lock onto on suspension rod again, lifting can be realized, thus become the LED twin-tube stent lamp of a kind of lifting dress butterfly luminous intensity distribution unique on the market.

Further, shown in Fig. 2 and Fig. 3, wall installing tache 3 can also arrange 2 or multiple V-type bendings 32, and make wall installing tache 3 can firmly fix aluminium groove 6 when inhaling or lift, this fixing is not engineering properties, is elastically-deformable result.

Further, shown in Fig. 7 and Figure 10, also comprise serial connection plug cord 18 and seamless spliced 19, the LED twin-tube stent lamp of more than two is connected in series mutually by serial connection plug cord 18 and seamless spliced 19, and the two ends of serial connection plug cord 18 are plugged on the attaching plug of two adjacent LED twin-tube stent lamps respectively.

From foregoing description, the beneficial effects of the utility model are: by arranging serial connection plug cord and seamless spliced head, the LED twin-tube stent lamp of more than two can be connected in series, meet different user demands, it is convenient to install.

Further, shown in Fig. 2 and Fig. 4, described end cap 4 is provided with 3 position of bone 42 that cross met at together towards the one side protrusion of aluminium groove 6, and it is limited that the protrusion height of the position of bone 42 that crosses makes to install stuck point 41.

From foregoing description, the beneficial effects of the utility model are: because end cap has 3 position of bone met at together, and it is limited highly to make to install stuck point, and therefore when maintenance is taken off, end cap can not cause button bit to be split by instrument and be damaged.

Further, shown in Fig. 2, Fig. 4 and Fig. 5, the both side ends of described aluminium groove 6 is provided with limited impression 62 respectively, and described end cap 4 is provided with spacing preiection 43 towards the one side of aluminium groove 6 corresponding to described limited impression 62.

From foregoing description, the beneficial effects of the utility model are: when end cap is clasped fastening when the end of aluminium groove by what install stuck point and stuck point installing hole, spacing preiection on end cap is embedded in the limited impression of aluminium groove end simultaneously, make end cap tightr with coordinating of aluminium groove, structure is more stable.

Further, shown in Fig. 2 and Fig. 4, described end cap 4 corresponds to PC diffusion shell 14 towards the one side of aluminium groove 6 and is provided with the spacing position of bone 44 of C type for fixing PC diffusion shell 14.

From foregoing description, the beneficial effects of the utility model are: all sides being propped up PC diffusion shell by the spacing position of bone of C type, and make PC diffusion shell because of by external force, off normal can not occur after mounting, structure is more stable.

Further, shown in Fig. 2 and Fig. 4, described end cap 4 protrudes towards the one side of aluminium groove 6 and is provided with between 2 M type position of bone, 45,2 M type position of bone 45 and leaves the gap can inserting a grounding screw.

From foregoing description, the beneficial effects of the utility model are: by arranging 2 M type position of bone and the gap can inserting a grounding screw is left in centre on end cap, make it possible to rely on traditional shell fragment to carry out ground connection, and have splendid earth-continuity, the M type position of bone also add creep age distance.

Further, shown in Fig. 2 and Fig. 5, inside the bottom surface of described aluminium groove 6, be provided with the C type slot 63 for dead earth screw 7.

From foregoing description, the beneficial effects of the utility model are: C type slot can make the earth connection on end cap better be conducting on aluminium groove, for earthing test is laid a good foundation.

Further, shown in Fig. 2 and Fig. 6, the both sides of described PC diffusion shell 14 are respectively arranged with for controlling light and increasing the button limit 141 of creep age distance.

From foregoing description, the beneficial effects of the utility model are: the design on button limit makes light output more evenly and light utilization efficiency is higher, has elongated creep age distance when Hi-pot test.

Further, two LED lamp bar 13 are symmetricly set in 76 ° of angles on the LED installation slot of aluminium groove 6 both sides mutually, and the lighting angle of LED lamp bar 13 is greater than 120 °.

In sum, the LED twin-tube stent lamp that the utility model provides, not only breaks the separation design of traditional LED twins' Frame lamp, allows the twin-tube stent lamp of integrated design become possibility, profile volume more attractive in appearance is smaller and more exquisite, structure is more stable, and can also design control light according to demand, the more important thing is the twin-tube stent lamp beginning having started industry butterfly luminous intensity distribution, and structure is simple, with low cost, thermal diffusivity is good, is convenient to installation and maintenance.

The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalents utilizing the utility model description and accompanying drawing content to do; or be directly or indirectly used in relevant technical field, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. a LED twin-tube stent lamp, is characterized in that: comprise aluminium groove, drive circuit board and two LED lamp bar;

The top card of described aluminium groove links and is connected to wall installing tache, and wall installing tache is connected with gecko like nail by self-tapping screw;

The both sides of described aluminium groove are respectively arranged with LED and install slot, and two LED lamp bar are symmetricly set in 60-80 ° of angle on the LED installation slot of aluminium groove both sides mutually, LED lamp bar are covered with PC diffusion shell;

The bottom of described aluminium groove is provided with drive circuit board, and drive circuit board is placed in drive circuit board protective sleeve, and the two ends of drive circuit board protective sleeve are respectively arranged with drive circuit board over cap, and drive circuit board over cap offers wiring hole;

The two ends of described aluminium groove are respectively arranged with end cap; end cap is provided with more than one installation stuck point; aluminium groove corresponds to installation stuck point and be provided with more than one stuck point installing hole; end cap is arranged on the end of aluminium groove by installation stuck point and being clasped of stuck point installing hole; end cap is provided with attaching plug; the power line of described drive circuit board passes the wiring hole on drive circuit board over cap and is fixed on attaching plug by wire screw, described attaching plug is plugged with plug cord or is covered with plug protective cover.

2. LED twin-tube stent lamp according to claim 1, it is characterized in that: also comprise gland, suspension rod and installing tache gland, described self-tapping screw is threaded with gecko like nail through suspension rod and gland successively, the lower end of described suspension rod is provided with screwed hole, described wall installing tache corresponds to described screwed hole and is provided with convex closure hole, and described installing tache gland is threaded with the screwed hole of suspension rod lower end by convex closure hole and is fixed in the lower end of suspension rod and wall installing tache.

3. LED twin-tube stent lamp according to claim 1, it is characterized in that: also comprise serial connection plug cord and seamless spliced head, the LED twin-tube stent lamp of more than two is connected in series mutually by serial connection plug cord and seamless spliced head, and the two ends of serial connection plug cord are plugged on the attaching plug of two adjacent LED twin-tube stent lamps respectively.

4. LED twin-tube stent lamp according to claim 1, is characterized in that: described end cap is provided with 3 position of bone that cross met at together towards the one side protrusion of aluminium groove, and it is limited that the protrusion height of the position of bone that crosses makes to install stuck point.

5. LED twin-tube stent lamp according to claim 1, is characterized in that: the both side ends of described aluminium groove is provided with limited impression respectively, and described end cap is provided with spacing preiection towards the one side of aluminium groove corresponding to described limited impression.

6. LED twin-tube stent lamp according to claim 1, is characterized in that: described end cap corresponds to PC diffusion shell towards the one side of aluminium groove and is provided with the spacing position of bone of C type for fixing PC diffusion shell.

7. LED twin-tube stent lamp according to claim 1, is characterized in that: described end cap is provided with 2 M type position of bone towards the one side protrusion of aluminium groove, leaves the gap can inserting a grounding screw between 2 M type position of bone.

8. LED twin-tube stent lamp according to claim 1, is characterized in that: be provided with the C type slot for dead earth screw inside the bottom surface of described aluminium groove.

9. LED twin-tube stent lamp according to claim 1, is characterized in that: the both sides of described PC diffusion shell are respectively arranged with for controlling light and increasing the button limit of creep age distance.

10. LED twin-tube stent lamp according to claim 1, is characterized in that: two LED lamp bar are symmetricly set in 76 ° of angles on the LED installation slot of aluminium groove both sides mutually, and the lighting angle of LED lamp bar is greater than 120 °.