CN204534195U - Light-emitting device - Google Patents

Abstract

A kind of light-emitting device, comprises a light source socket, multiple light-emitting component, a conductive component, a pedestal, a conductive contact and a power supply module.Light source socket has multiple light source slot and an electrode slot.Light-emitting component is inserted in light source slot respectively.Conductive component is embedded in light source socket, and has an electrode tip, protrudes from a sidewall of electrode slot.Pedestal is arranged at light source socket.Conductive contact is arranged at pedestal.Power supply module comprises a power supply body and an electrode member.Power supply body is arranged in conductive contact.Electrode member is connected to power supply body, and is inserted in electrode slot through pedestal, and contacts electrode tip.The utility model can simplify the assembling of light-emitting device, and can save the cost made.

Description

Light-emitting device

Technical field

The utility model relates generally to a kind of light-emitting device, espespecially a kind of bulb.

Background technology

Light emitting diode, because having the advantages such as the life-span is grown, power consumption is few, replaces traditional incandescent lamp bulb in recent years gradually as light source.But in order to coordinate existing light fixture, the light source with light emitting diode is also designed to the form of conventional bulb.

But not easily, cost of manufacture is high in the assembling of existing light emitting diode bulb, be difficult to a large amount of popularizing.Therefore, how to simplify assembling, and reduce cost of manufacture, still there is many challenges.

Utility model content

The utility model provides a kind of light-emitting device, can assemble in a simplified manner, can save cost of manufacture further.

The utility model provides a kind of light-emitting device, comprises a light source socket, multiple light-emitting component, a conductive component, a pedestal, a conductive contact and a power supply module.Light source socket has an end face, is formed at multiple light source slots of end face, in contrast to end face a bottom surface and be formed at an electrode slot of bottom surface.Light-emitting component is inserted in light source slot respectively.Conductive component is embedded in light source socket, and wherein conductive component has an electrode tip, and electrode tip protrudes from a first side wall of electrode slot.Pedestal is arranged at bottom surface, and has the electrode perforations corresponding to electrode slot.Conductive contact is arranged at pedestal.Power supply module comprises a power supply body and an electrode member.Power supply body is arranged in conductive contact.Electrode member is connected to power supply body, and is inserted in electrode slot through electrode perforations, and contacts electrode tip.Electrode member is a column structure.

Light-emitting device described in the utility model, wherein, this electrode slot has one second sidewall towards this first side wall, this electrode tip and this second sidewall spaced.

Light-emitting device described in the utility model, wherein, this electrode slot has one second sidewall towards this first side wall, and this electrode member is resisted against this second sidewall, and spaced with this first side wall.

Light-emitting device described in the utility model, wherein, this electrode member has a buckling groove, and this electrode tip is connected in this buckling groove.

Light-emitting device described in the utility model, wherein, this conductive component has a junction being connected to this electrode tip, and this connecting portion is embedded in this light source socket, and perpendicular to this electrode member.

Light-emitting device described in the utility model, wherein, each light source slot has the opening being positioned at this end face, and this opening radially arranges relative to a center of this end face.

Light-emitting device described in the utility model, wherein, this opening has an end, and wherein this end and this central row are listed on a straight line, and accompany an acute angle between the longitudinal direction of this opening and this straight line.

Light-emitting device described in the utility model, wherein, described acute angle is between 15 degree to 60 degree.

Light-emitting device described in the utility model, wherein, this conductive component has multiple conducting end, and described conducting end protrudes from a side of this light source slot.

Light-emitting device described in the utility model, wherein, each light-emitting component comprises: a circuit board, in order to be inserted in this light source slot, and have a front, in contrast to this front a back side and be arranged at the conductive junction point in front; Multiple luminescence unit, is arranged at this front, and is electrically connected with this conductive junction point; And a fluorescence coating, be covered in this front and this luminescence unit, wherein this conductive junction point contacts with this conducting end.

Light-emitting device described in the utility model, wherein, this fluorescence coating is not covered in this conductive junction point and this back side.

Light-emitting device described in the utility model, wherein, this light-emitting device is a bulb, and in order to be inserted in a light fixture, wherein this circuit board is a transparent circuit board, and described luminescence unit is light emitting diode.

Light-emitting device described in the utility model, wherein, also comprise a cover body, this cover body is arranged at this conductive contact, and coated described light-emitting component.

Light-emitting device described in the utility model, wherein, this light source socket comprises the buckling parts being arranged at this bottom surface, and this pedestal comprises a fastening hole, when this light source socket is combined in this pedestal, this buckling parts passes this fastening hole so that this light source socket is fixed on this pedestal.

In sum, light-emitting device of the present utility model is by being combined in light source socket in the mode of planting, so as to the assembling of simplification light-emitting device by light-emitting component and power supply module.In addition, because the circuit board with luminescence unit is combined in light source socket in the mode of planting, and do not need the metal heat sink of large volume, and then the cost made can be saved.

Accompanying drawing explanation

Fig. 1 is the stereogram of light-emitting device of the present utility model.

Fig. 2 is the exploded view of light-emitting device of the present utility model.

Fig. 3 is the exploded view of light source socket of the present utility model and light-emitting component.

Fig. 4 is the top view of light source socket of the present utility model and light-emitting component, wherein for purposes of clarity, only depicts two light-emitting components.

Fig. 5 is the stereogram of light-emitting component of the present utility model.

Fig. 6 A to Fig. 6 C is that light-emitting device of the present utility model is in the schematic diagram in an assembling stage.

Fig. 7 is the top view of a metal sheet of the present utility model.

Fig. 8 is the decomposed figure of light-emitting device of the present utility model.

Fig. 9 is the upward view of light source socket of the present utility model.

Figure 10 is the schematic diagram that electrode member of the present utility model is inserted in electrode slot.

Figure 11 is the schematic diagram that the electrode member of another embodiment of the present utility model is inserted in electrode slot.

Wherein, being simply described as follows of symbol in accompanying drawing:

1: light-emitting device; 10: conductive contact; 11: screw thread; 12: link slot; 20: pedestal; 21: storage tank; 211: sidewall; 22: fastening hole; 23: holddown groove; 24: limited block; 25: hook part; 26: electrode perforations; 30: power supply module; 31: power supply body; 32: electrode member; 321: buckling groove; 40: light source socket; 41: end face; 42: light source slot; 421: opening; 422,423: end; 424: the first sides; 425: the second sides; 43: bottom surface; 44: buckling parts; 45: stopper slot; 46: electrode slot; 461: the first side wall; 462: the second sidewalls; 50: conductive component; 51: conducting element; 511: connecting portion; 512,513: conducting end; 514: electrode tip; 515: end face; 60: light-emitting component; 61: circuit board; 611: conductive junction point; 612: front; 613: the back side; 614: side; 62: luminescence unit; 63: fluorescence coating; 70: cover body; A1: acute angle; B1: metal sheet; B10: metal frame; C1: center; D1: longitudinally; D2, D3: grafting direction; L1: straight line; P1: circular path.

Detailed description of the invention

Fig. 1 is the stereogram of light-emitting device 1 of the present utility model.Fig. 2 is the exploded view of light-emitting device 1 of the present utility model.Fig. 3 is the exploded view of light source socket 40 of the present utility model and light-emitting component 60.Fig. 4 is the top view of light source socket 40 of the present utility model and light-emitting component 60, for purposes of clarity, in Fig. 4, only depicts two light-emitting components 60.Light-emitting device 1 can be a bulb, in order to be inserted in a light fixture (not shown).

Light-emitting device 1 comprises conductive contact 10, pedestal 20, power supply module 30, conductive component 50, light source socket 40, conductive component 50, multiple light-emitting component 60 and a cover body 70.

Conductive contact 10 can be a metal shell.The lateral wall 211 of conductive contact 10 can have screw thread 11, in order to be locked in the supply socket (not shown) of a light fixture.Conductive contact 10 has a link slot 12.

Pedestal 20 is arranged at conductive contact 10.The bottom of pedestal 20 is inserted in the link slot 12 of conductive contact 10.Pedestal 20 can made by isolation material, such as plastic cement.In some embodiments, in isolation material, conductive powder can be added, such as material with carbon element, inorganic conductive particle or metallic.The top of pedestal 20 has a storage tank 21.

Power supply module 30 is arranged in the link slot 12 of conductive contact 10, and between conductive contact 10 and pedestal 20.Power supply module 30 comprises a power supply body 31 and multiple electrode member 32.Power supply body 31 is arranged at the link slot 12 of conductive contact 10.Power supply body 31 is electrically connected at conductive contact 10.Electrode member 32 is connected to power supply body 31, and through the bottom of pedestal 20 to storage tank 21.Electrode member 32 can be a column structure extended linearly.In some embodiments, the horizontal section of electrode member 32 is a circular or rectangle.

Generally speaking, the power supply that the supply socket of light fixture provides is the alternating current of voltage 110V or 220V, therefore power supply body 31 alternating current can be converted to direct current and light-emitting component 60 the voltage that is suitable for.In some embodiments, power supply body 31 comprises the electronic component (not shown) such as a transformer and a rectifier.

Light source socket 40 is arranged at pedestal 20.Light source socket 40 can made by isolation material, such as plastic cement.In some embodiments, in isolation material, conductive powder can be added, such as material with carbon element, inorganic conductive particle or metallic.Conductive component 50 is embedded in light source socket 40 (as shown in Figure 4), and conductive component 50 is in order to be electrically connected conductive contact 10, power supply module 30 and light-emitting component 60.

Light-emitting component 60 is inserted in light source socket 40.Light-emitting component 60 can be approximately perpendicular to light source socket 40.Light-emitting component 60 as a light source in order to produce light.In the present embodiment, as shown in Figure 1, 2, the bottom of light-emitting component 60 is adjacent to the edge of the end face 41 of light source socket 40, and the top of light-emitting component 60 is adjacent to the top of end face 41 central authorities, can increase the attractive in appearance of light-emitting device 1.

Cover body 70 is arranged at conductive contact 10, and coated light source socket 40 and light-emitting component 60.In other words, light source socket 40 and light-emitting component 60 are positioned at the inside of cover body 70.Cover body 70 can made by transparent material, such as glass.Outer surface bottom cover body 70 can be fixed on the sidewall 211 of storage tank 21, and in other words, the bottom of cover body 70 is between the sidewall 211 and light source socket 40 of storage tank 21.In the present embodiment, cover body 70 can with light source socket 40 and light-emitting component 60 spaced.

As shown in Figures 3 and 4, light source socket 40 has multiple light source slot 42.Light source slot 42 is formed at end face 41.The number of light source slot 42 can be more than 5, and in the present embodiment, the number of light source slot 42 is 6.Each light source slot 42 has the opening 421 being positioned at end face 41.Opening 421 radially arranges relative to the center C1 of end face 41.

Opening 421 can be long and narrow, and in some embodiments, opening 421 is a rectangle.Opening 421 has end 422 and an end 423.End 422 is adjacent to center C1, and end 423 is adjacent to the edge of end face 41.End 422 can arrange along a circular path P1, and in some embodiments, circular path P1 is a positive circular or ellipse.

End 422 and center C1 are arranged on a straight line L1, and accompany an acute angle A1 between longitudinal D1 of opening 421 and straight line L1, and acute angle A1 is approximately between 15 degree to 60 degree.In the present embodiment, acute angle A1 is approximately 45 degree.

Light-emitting component 60 is inserted in the light source slot 42 of light source socket 40.Light-emitting component 60 can be approximately perpendicular to the end face 41 of light source socket 40.Fig. 5 is the stereogram of light-emitting component 60 of the present utility model.Light-emitting component 60 comprises a circuit board 61, multiple luminescence unit 62 and a fluorescence coating 63.Circuit board 61 is in order to be inserted in the light source slot 42 of light source socket 40.In the present embodiment, circuit board 61 is a strip structure, and can roughly extend along a grafting direction D2.

In some embodiments, circuit board 61 can be a transparent circuit board 61.Therefore the light that luminescence unit 62 produces can penetrate circuit board 61, and then increases the overall brightness of light-emitting device 1.In some embodiments, circuit board 61 can be glass substrate, metal substrate or ceramic substrate.In some embodiments, above-mentioned glass substrate can be alundum (Al2O3) glass substrate, and said metal substrates can be aluminum oxidation substrate or covers copper aluminium base, and above-mentioned ceramic substrate can be aluminum oxide ceramic substrate.

Circuit board 61 has multiple conductive junction point 611.Conductive junction point 611 is arranged at the front 612 of circuit board 61, and is positioned at the bottom of circuit board 61.Conductive junction point 611 can have a positive conductive contact and a negative conductive contact.

Luminescence unit 62 can be light emitting diode, in order to produce light.Luminescence unit 62 is arranged at the front 612 of circuit board 61.In the present embodiment, luminescence unit 62 is roughly arranged in circuit board 61 along grafting direction D2, and is electrically connected with conductive junction point 611.

Fluorescence coating 63 is covered in front 612 and luminescence unit 62.Fluorescence coating 63 is not covered in the bottom in conductive junction point 611 and front 612.In some embodiments, fluorescence coating 63 is not covered in the side 614 of circuit board 61 and/or the back side 613 in contrast to front 612.

In some embodiments, circuit board 61 is a transparent circuit board 61, and luminescence unit 62 is for sending the light emitting diode that wavelength is blue light.The blue light that the front of luminescence unit 62 sends is by exciting the light (such as gold-tinted or white light) into another wavelength after fluorescence coating 63.Because circuit board 61 is transparent circuit board 61, therefore the blue light that the back side (being attached at the front 612 of circuit board 61) of luminescence unit 62 sends then can not by fluorescence coating 63, and directly by the back side 613 of circuit board 61, or penetrated by the side 614 of circuit board 61 by circuit board 61 inside warp after reflection.Therefore the back side 613 of circuit board 61 and side 614 can send blue light.

As shown in Figure 4,5, via the arrangement of light-emitting component 60 and light source slot 42, the back side 613 of circuit board 61 and be adjacent to center C1 side 614 send blue light major part and by the fluorescence coating 63 of another luminescence unit 62, and the light (such as gold-tinted or white light) into another wavelength can be excited via fluorescence coating 63.Therefore, in the present embodiment, fluorescence coating 63 only can be covered in the front 612 of circuit board 61, and the Production Time of savable light-emitting component 60 and cost have good Luminescence Uniformity to make light-emitting device 1.

Shown in Fig. 4 and Fig. 6 A, conductive component 50 comprises multiple conducting element 51, and conducting element 51 radially arranges with the center C1 of light source socket 40, and in some embodiments, conducting element 51 is positioned in a plane.

Conducting element 51 comprises a junction 511, conducting end 512, conducting end 513 and an electrode tip 514.Connecting portion 511 is embedded in light source socket 40.Connecting portion 511 connect conducting end 512,513, with electrode tip 514.Connecting portion 511 and conducting end 512,513 are platy structure.In the present embodiment, as shown in Figure 4, the conducting element 51 of part does not comprise electrode tip 514.

The conducting end 512 of same conducting element 51 is positioned within light source slot 42, and conducting end 513 is positioned at another light source slot 42.As shown in Fig. 4 and Fig. 6 A, conducting end 512,513 protrudes from one first side 424 of light source slot 42.The conducting end 512,513 being positioned at same light source slot 42 can be respectively a positive conductive end and a negative conductive end.One second side 425 of conducting end 512,513 and light source slot 42 is spaced.Second side 425 towards and relative to the first side 424.

Fig. 6 A to Fig. 6 C is that light-emitting device 1 of the present utility model is in the schematic diagram in an assembling stage.As shown in figs. 6 a and 6b, it is inner that light-emitting component 60 moves to light source slot 42 along grafting direction D2 via opening 421, and light source slot 42 can extend along grafting direction D2.Conducting end 512 and connecting portion 511 are approximately perpendicular to circuit board 61.In other words, conducting end 512 and connecting portion 511 are approximately perpendicular to grafting direction D2.

As Fig. 6 B and Fig. 6 C and shown, be inserted in the process of light source slot 42 in circuit board 61, after circuit board 61 is contacted with conducting end 512,513, circuit board 61 continues to move and then push conducting end 512,513 along grafting direction D2, produces elastic deformation or bending to make conducting end 512,513.Conducting end 512 produces elastic deformation or bending can form fillet (rounded corner).

When circuit board 61 is inserted in plug-in position as shown in Figure 6 C, produce elastic force makes conducting end 512,513 be connected to conductive junction point 611 respectively by the elastic deformation of conducting end 512,513, circuit board 61 is made to be resisted against the second side 425, and spaced with the first side 424.In other words, by above-mentioned elastic force, circuit board 61 is held between the second side 425 and conducting end 512,513.Therefore, also light-emitting component 60 can be fixed on light source socket 40 by above-mentioned elastic force, and light-emitting component 60 is not drawn out easily in the light source slot 42 of light source socket 40.

Be combined in light source socket 40 by light-emitting component 60 in the mode of planting, the assembling of light-emitting device 1 can be simplified.In addition, by being only plugged in light source socket 40 with the bottom of circuit board 61, good radiating effect can be obtained, therefore not needing the metal heat sink that large volume is set, and then the cost made can be saved.

Fig. 7 is the top view of a metal sheet B1 of the present utility model.Conductive component 50 can be formed via processing procedures such as punching presses by a metal sheet B1.Metal sheet B1 comprises multiple conductive component 50 and metal frame B10.Conductive component 50 is connected to metal frame B10.In the present embodiment, light source socket 40 can be formed at the conductive component 50 on metallic plate in the mode of ejection formation.

Afterwards, then each conducting element 51 being separated with metal frame B10 via the mode such as cutting, conductive component 50 can be made accurately to imbed light source socket 40.Whereby, the production method of light-emitting device 1, can simplify the process that conductive component 50 is assembled in light source socket 40.

Fig. 8 is the decomposed figure of light-emitting device 1 of the present utility model.Fig. 9 is the upward view of light source socket 40 of the present utility model.Light source socket 40 has more a bottom surface 43, a multiple buckling parts 44, multiple stopper slot 45 and multiple electrode slot 46.Bottom surface 43 is in contrast to end face 41.Light source slot 42 can pass bottom surface 43.

Buckling parts 44 is arranged at bottom surface 43, is adjacent to and is positioned at the edge of bottom surface 43.Pedestal 20 is arranged at bottom surface 43, and the bottom of pedestal 20 has fastening hole 22, holddown groove 23, multiple hook part 25.Fastening hole 22 is communicated in storage tank 21 and holddown groove 23.Fastening hole 22 corresponds to buckling parts 44.When light source socket 40 is combined in pedestal 20, buckling parts 44 passes and is fixed on fastening hole 22, so as to light source socket 40 is fixed on pedestal 20.

Stopper slot 45 is formed at bottom surface 43.In the present embodiment, stopper slot 45 is arc, is matched with the shape at the edge of bottom surface 43, and is adjacent to the edge of bottom surface 43.Pedestal 20 also comprises multiple limited block 24, is positioned at the bottom of storage tank 21.When light source socket 40 is combined in pedestal 20, limited block 24 is positioned at stopper slot 45, rotates relative to pedestal 20 to prevent light source socket 40.

By the fastening structure between above-mentioned pedestal 20 and light source socket 40, light source socket 40 can be made to be assembled in pedestal 20 easily.

In addition, pedestal 20 also comprises multiple hook part 25, is positioned at holddown groove 23, and power supply body 31 (as shown in Figure 2) can be fastened on hook part 25, and is fixed in holddown groove 23 by hook part 25.

Figure 10 is the schematic diagram that electrode member 32 of the present utility model is inserted in electrode slot 46.As shown in Figures 8 to 10, electrode slot 46 is formed at bottom surface 43, and is adjacent to the edge of bottom surface 43.The electrode tip 514 of conductive component 50 protrudes from a first side wall 461 of electrode slot 46.Connecting portion 511 is approximately perpendicular to electrode member 32.Pedestal 20 has multiple electrode perforations 26, is communicated in storage tank 21 and holddown groove 23.The position of electrode perforations 26 corresponds to electrode slot 46.

When power supply module 30 is assembled in the holddown groove 23 of pedestal 20, electrode member 32 is inserted in electrode slot 46 through electrode perforations 26.As the principle of Fig. 6 A to Fig. 6 B, when the non-electrode insertion slot 46 of electrode member 32, electrode tip 514 is approximately perpendicular to electrode member 32 and extends, and is parallel to connecting portion 511.When electrode member 32 moves along grafting direction D3, and then push electrode tip 514, produce elastic deformation or bending to make electrode tip 514.Electrode tip 514 produces elastic deformation or bending can form fillet.

Produce elastic force makes electrode tip 514 be connected to electrode member 32 by the elastic deformation of electrode tip 514, and make electrode member 32 be resisted against the second sidewall 462 relative to the first side wall 461 and spaced with the first side wall 461.In other words, by above-mentioned elastic force, electrode member 32 is held between the second sidewall 462 and electrode tip 514.

In the present embodiment, electrode member 32 has multiple buckling groove 321, and electrode tip 514 is connected in buckling groove 321.Buckling groove 321 can be surrounded on the sidewall of electrode member 32.In some embodiments, buckling groove 321 is not towards the second sidewall 462.In addition, multiple buckling grooves 321 of arrangement on the D3 of grafting direction, can coordinate the position of the electrode tip 514 in Different Light socket 40, also can avoid the tolerance on making, cause electrode tip 514 cannot be connected in buckling groove 321.

As shown in Figure 10, the end face 515 of electrode tip 514 is towards a side of buckling groove 321, therefore when power supply module 30 moves along the rightabout of grafting direction D3, the end face 515 of electrode tip 514 supports the side of buckling groove 321, and the warp architecture formed due to electrode tip 514 makes electrode member 32 be difficult to extract out in electrode slot 46 along the contrary of grafting direction D3.

Therefore, by above-mentioned structure, power supply module 30 can be fixed on light source socket 40, and electrode member 32 is not drawn out easily in the electrode slot 46 of light source socket 40.

Figure 11 is the schematic diagram that the electrode member 32 of another embodiment of the present utility model is inserted in electrode slot 46.In this embodiment, conducting element 51 has another electrode tip 514 and protrudes from the second sidewall 462, and is connected in buckling groove 321.Electrode member 32 is positioned at the central authorities of two electrode tips 514, and with the first side wall 461 and the second sidewall 462 spaced.In other words, by the elastic force of electrode tip 514, electrode member 32 is clamped by two electrode tips 514.By above-mentioned structure, electrode member 32 also can be made not to be drawn out easily in the electrode slot 46 of light source socket 40.

The embodiment that the above-mentioned technical characteristic disclosed can disclose with one or more in any appropriate manner mutually combines, modifies, replaces or converts, and is not limited to specific embodiment.

In sum, light-emitting device of the present utility model is by being combined in light source socket in the mode of planting, so as to the assembling of simplification light-emitting device by light-emitting component and power supply module.In addition, because the circuit board with luminescence unit is combined in light source socket in the mode of planting, and do not need the metal heat sink of large volume, and then the cost made can be saved.Moreover, by the arrangement mode of light source slot and light-emitting component, light source socket can be made to have good Luminescence Uniformity.

The foregoing is only the utility model preferred embodiment; so itself and be not used to limit scope of the present utility model; anyone familiar with this technology; not departing from spirit and scope of the present utility model; can do on this basis and further improve and change, the scope that therefore protection domain of the present utility model ought define with claims of the application is as the criterion.

Claims (14)

1. a light-emitting device, is characterized in that, comprising:

One light source socket, there is an end face, be formed at multiple light source slots of this end face, in contrast to this end face a bottom surface and be formed at an electrode slot of this bottom surface;

Multiple light-emitting component, is inserted in this light source slot respectively;

One conductive component, be embedded in this light source socket, wherein this conductive component has an electrode tip, and this electrode tip protrudes from a first side wall of this electrode slot;

One pedestal, is arranged at this bottom surface, and has the electrode perforations corresponding to this electrode slot;

One conductive contact, is arranged at this pedestal; And

One power supply module, comprising:

One power supply body, is arranged in this conductive contact; And

One electrode member, is connected to this power supply body, and is inserted in this electrode slot through this electrode perforations, and contacts this electrode tip;

Wherein this electrode member is a column structure.

2. light-emitting device according to claim 1, is characterized in that, this electrode slot has one second sidewall towards this first side wall, this electrode tip and this second sidewall spaced.

3. light-emitting device according to claim 1, is characterized in that, this electrode slot has one second sidewall towards this first side wall, and this electrode member is resisted against this second sidewall, and spaced with this first side wall.

4. light-emitting device according to claim 1, is characterized in that, this electrode member has a buckling groove, and this electrode tip is connected in this buckling groove.

5. light-emitting device according to claim 1, is characterized in that, this conductive component has a junction being connected to this electrode tip, and this connecting portion is embedded in this light source socket, and perpendicular to this electrode member.

6. light-emitting device according to claim 1, is characterized in that, each light source slot has the opening being positioned at this end face, and this opening radially arranges relative to a center of this end face.

7. light-emitting device according to claim 6, is characterized in that, this opening has an end, and wherein this end and this central row are listed on a straight line, and accompany an acute angle between the longitudinal direction of this opening and this straight line.

8. light-emitting device according to claim 7, is characterized in that, described acute angle is between 15 degree to 60 degree.

9. light-emitting device according to claim 1, is characterized in that, this conductive component has multiple conducting end, and described conducting end protrudes from a side of this light source slot.

10. light-emitting device according to claim 9, is characterized in that, each light-emitting component comprises:

One circuit board, in order to be inserted in this light source slot, and have a front, in contrast to this front a back side and be arranged at the conductive junction point in front;

Multiple luminescence unit, is arranged at this front, and is electrically connected with this conductive junction point; And

One fluorescence coating, is covered in this front and this luminescence unit;

Wherein this conductive junction point contacts with this conducting end.

11. light-emitting devices according to claim 10, is characterized in that, this fluorescence coating is not covered in this conductive junction point and this back side.

12. light-emitting devices according to claim 10, is characterized in that, described light-emitting device is a bulb, and in order to be inserted in a light fixture, wherein this circuit board is a transparent circuit board, and described luminescence unit is light emitting diode.

13. light-emitting devices according to claim 1, is characterized in that, also comprise a cover body, and this cover body is arranged at this conductive contact, and coated described light-emitting component.

14. light-emitting devices according to claim 1, it is characterized in that, this light source socket comprises the buckling parts being arranged at this bottom surface, and this pedestal comprises a fastening hole, when this light source socket is combined in this pedestal, this buckling parts passes this fastening hole so that this light source socket is fixed on this pedestal.