CN108843985A - Light source module group and lamps and lanterns - Google Patents

Abstract

This application discloses a kind of light source module group and lamps and lanterns.Light source module group includes light source board, luminescence unit and heat-conducting piece；The light source board has the first surface and second surface mutually deviated from, the luminescence unit setting is on the first surface, the heat-conducting piece has the first thermal conductive surface and the second thermal conductive surface mutually deviated from, and first thermal conductive surface fits with the second surface.Lamps and lanterns include shell and the light source module group；The shell has assembly cavity, multiple interior radiating fins is placed in the assembly cavity, the light source module group is arranged in the assembly cavity and second thermal conductive surface fits with the interior radiating fin.Light source module group and lamps and lanterns disclosed in the embodiment of the present application can reduce product cost by comprehensive.

Description

Light source module group and lamps and lanterns

Technical field

This application involves lighting technical field more particularly to a kind of light source module group and lamps and lanterns.

Background technique

In lighting area, the radiating mode of lamps and lanterns mainly has outer radiation fin type, interior radiation fin type etc..Outer radiating fin Formula radiator structure is radiating fin, this radiator structure good heat dissipation effect to be arranged in the outside of shell, but be unfavorable for industry and set Moulding is counted, and self-cleaning ability is poor.Interior radiation fin type radiator structure is that radiating fin is arranged in the inside of shell, this Radiator structure hides radiating fin inside housings, not only improves industrial design moulding, while also having superior automatically cleaning Ability, therefore use is more extensive.

However, interior radiation fin type radiator structure is since self structure limits, heat dissipation effect is poor.It is scattered in order to improve Thermal effect needs to be arranged in shell radiating fin in more and is sufficiently radiated with light source module group.These interior radiating fins It needs to consume a large amount of raw material, causes the increase of cost.

But according to the different demands of client, same a shell in the related technology can usually match a variety of different capacities Light source module group, the respective size of these light source module groups are had nothing in common with each other, therefore are dissipated being installed in shell in matched later Hot number of fins is also different.Those interior radiating fins not cooperated with light source module group become in order to substantially useless Structure.

Therefore, this radiator structure higher cost in the related technology.

Summary of the invention

The embodiment of the present application provides a kind of light source module group and lamps and lanterns, to solve the above problems.

The embodiment of the present application adopts the following technical solutions：

In a first aspect, the embodiment of the present application provides a kind of light source module group, including light source board, luminescence unit and thermally conductive Part；

The light source board has the first surface and second surface that mutually deviate from, and the luminescence unit setting is described the On one surface, the heat-conducting piece has the first thermal conductive surface and the second thermal conductive surface mutually deviated from, first thermal conductive surface and institute Second surface is stated to fit.

Preferably, in above-mentioned light source module group, the heat-conducting piece has length direction, and the light source board is along the length side To extension, and the luminescence unit is arranged along the length direction.

It preferably, further include light distribution element in above-mentioned light source module group, the light distribution element is opposite with the luminescence unit And for carrying out light distribution to the luminescence unit.

Preferably, in above-mentioned light source module group, the light distribution element includes multiple monomer-type lens, multiple monomer-types Lens arrange along the length direction and correspond light distribution with the luminescence unit.

Preferably, further include press box in above-mentioned light source module group, the press box and the monomer-type lens correspond and It snaps connection, the press box is also snapped connection with the light source board.

Preferably, in above-mentioned light source module group, the light source board all has perpendicular to the two sides of the length direction to be exceeded The protrusion of first thermal conductive surface, the press box are snapped connection with two protrusions simultaneously.

Preferably, in above-mentioned light source module group, error-proof structure is provided between the monomer-type lens and the light source board.

Preferably, in above-mentioned light source module group, the heat-conducting piece includes main body and mounting portion, first thermal conductive surface with And second thermal conductive surface is respectively positioned in the main body, the body normal is arranged in the length direction in the mounting portion Two sides.

Preferably, in above-mentioned light source module group, installing port is placed with along the length direction on the mounting portion.

Preferably, in above-mentioned light source module group, air duct is provided in the heat-conducting piece, the air duct is along the length direction Through the heat-conducting piece.

Preferably, in above-mentioned light source module group, thermally conductive muscle is provided in the air duct, the thermally conductive muscle is separately connected described Air duct close to the side of first thermal conductive surface and the air duct close to the side of second thermal conductive surface, and the thermally conductive muscle It is opposite with the luminescence unit.

Preferably, in above-mentioned light source module group, the heat-conducting piece is aluminium heat-conducting piece.

Preferably, in above-mentioned light source module group, the heat-conducting piece is profile.

Second aspect, the embodiment of the present application provide a kind of lamps and lanterns, including shell and the light source module group；

The shell has assembly cavity, and multiple interior radiating fins, the light source module group setting are placed in the assembly cavity In the assembly cavity and second thermal conductive surface fits with the interior radiating fin.

Preferably, in above-mentioned lamps and lanterns, the interior radiating fin is divided into several groups, and interior radiating fin is along straight described in every group Line arrangement, and interior radiating fin described in every group is respectively cooperating with the light source module group.

Preferably, in above-mentioned lamps and lanterns, the interior radiating fin is divided into two groups, and interior radiating fin described in two groups is symmetrically set It sets.

It preferably, further include cloche in above-mentioned lamps and lanterns, the cloche connect with the housing seal and closes institute State assembly cavity.

Preferably, in above-mentioned lamps and lanterns, the edge of the assembly cavity is provided with sealing ring, the cloche and the sealing Circle crimping sealing.

It preferably, further include decoration panel in above-mentioned lamps and lanterns, the decoration panel is arranged in the assembly cavity and covers Cover the light source module group.

Preferably, in above-mentioned lamps and lanterns, the shell further includes the separate cavities around the assembly cavity, and the glass covers The assembly cavity and the separate cavities are covered, the cloche is fixedly connected with the separate cavities.

Preferably, in above-mentioned lamps and lanterns, error-proof structure is provided between the light source module group and the assembly cavity.

Preferably, in above-mentioned lamps and lanterns, it further includes the connector for connecting lamp stand, the company that the lamps and lanterns, which are street lamp, Connector is connect with the shell.

Preferably, in above-mentioned lamps and lanterns, one end of the connector and the shell is rotatablely connected and can adjust opposite Angle.

At least one above-mentioned technical solution that the embodiment of the present application uses can reach following beneficial effect：

Light source module group and lamps and lanterns disclosed in the embodiment of the present application can shift in advance the heat of light source board by heat-conducting piece, make The requirement for obtaining the heat dissipation performance of the internal radiating fin of lamps and lanterns accordingly reduces, and the quantity and area of interior radiating fin can subtract It is small, it is thus possible to save raw material.At the same time, depending on the size of heat-conducting piece can be with the power of light source module group, therefore will not Cause extra waste.Therefore reduction product cost can be integrated.

Detailed description of the invention

The drawings described herein are used to provide a further understanding of the present application, constitutes part of this application, this Shen Illustrative embodiments and their description please are not constituted an undue limitation on the present application for explaining the application.In the accompanying drawings：

Fig. 1 is the detonation configuration view of lamps and lanterns disclosed in the embodiment of the present application；

Fig. 2 is the detonation configuration view after lamps and lanterns disclosed in the embodiment of the present application are splitted；

Fig. 3 is the assembling structure view of light source module group and shell disclosed in the embodiment of the present application；

Fig. 4 is the topology view of light source module group disclosed in the embodiment of the present application；

Fig. 5 is the fit structure view of lens and press box disclosed in the embodiment of the present application；

Fig. 6 is the cross-sectional view of light source module group disclosed in the embodiment of the present application.

Description of symbols：

1- light source module group, 10- light source board, 10a- first surface, 10b- second surface, 100- protrusion, 101- first are filled Distribution, the second pilot hole of 102-, 11- luminescence unit, 12- heat-conducting piece, the first thermal conductive surface of 12a-, the second thermal conductive surface of 12b-, 120- Main body, 122- mounting portion, 122a- installing port, 122b- fool proof notch, the air duct 124-, the thermally conductive muscle of 126-, 13- light distribution element/mono- Body formula lens, the first protrusion of 130-, the second protrusion of 131-, radiating fin in 14- press box, 2- shell, 20- assembly cavity, 22-, 220- fool proof column, 24- sealing ring, 26- separate cavities, 3- cloche, 4- decoration panel, 5- connector.

Specific embodiment

To keep the purposes, technical schemes and advantages of the application clearer, below in conjunction with the application specific embodiment and Technical scheme is clearly and completely described in corresponding attached drawing.Obviously, described embodiment is only the application one Section Example, instead of all the embodiments.Based on the embodiment in the application, those of ordinary skill in the art are not doing Every other embodiment obtained under the premise of creative work out, shall fall in the protection scope of this application.

Below in conjunction with attached drawing, the technical scheme provided by various embodiments of the present application will be described in detail.

The embodiment of the present application discloses a kind of lamps and lanterns, as shown in Figures 1 to 6, including light source module group 1 and shell 2.Light source Mould group 1 is the luminous component of lamps and lanterns, including light source board 10, luminescence unit 11 and heat-conducting piece 12, and light source board 10 is usually PCB (printed circuit board) has the first surface 10a and second surface 10b mutually deviated from.Luminescence unit 11 can use LED light The light-emitting components such as pearl, luminescence unit 11 are arranged on first surface 10a.Heat-conducting piece 12 is using good materials of thermal conductivity such as metals Manufacture has the first thermal conductive surface 12a and the second thermal conductive surface 12b mutually deviated from, and the first thermal conductive surface 12a is used for and light source board 10 second surface 10b fits, and the heat of light source board 10 can quickly be conducted to heat-conducting piece 12.Due to heat-conducting piece 12 In the presence of generated heat can be rapidly transferred on heat-conducting piece 12 in 1 course of work of light source module group, without in light source board It is accumulated at 10.

The inside of shell 2 has assembly cavity 20, is placed with multiple interior radiating fins 22 in assembly cavity 20, light source module group 1 is set It sets in assembly cavity 20, the second thermal conductive surface 12b and interior radiating fin 22 fit to pass the heat on heat-conducting piece 12 at this time It is directed on interior radiating fin 22.The heat that light source board 10 is shifted due to having passed through heat-conducting piece 12 in advance, in the present embodiment Requirement for the heat dissipation performance of interior radiating fin 22 can be reduced accordingly, therefore the quantity and area of interior radiating fin 22 To reduce, it is thus possible to save raw material.And the size of heat-conducting piece 12 can not will cause more depending on the power with light source module group 1 Remaining waste.Therefore reduction product cost can be integrated.

According to different lamp types, interior radiating fin 22 can be divided into several groups, such as one group, two groups etc., in multiple groups Radiating fin 22 between each other can be with regular array.Radiating fin 22 is arranged along straight line in every group, radiating fin 22 in every group Arragement direction can be the same or different.As shown in Figure 1 to Figure 3, when lamps and lanterns are street lamp, interior radiating fin 22 can divide It is symmetrically arranged two groups.Radiating fin 22 is respectively cooperating with a light source module group 1 in every group.

In the present embodiment, in order to protect to light source module group 1, cloche 3, cloche 3 and shell 2 can also be set It is tightly connected simultaneously closed assembly chamber 20.One circle sealing ring 24, cloche 3 and sealing ring 24 can be set at the edge of assembly cavity 20 Crimping sealing, this sealing effect is preferable, can satisfy the requirement of shelter of IP65 or more.On this basis, it can also assemble Decoration panel 4 is arranged to cover light source module group 1 in the inside of chamber 20.Light is mentioned through will form decorative effect after decoration panel 4 Rise the appearance of lamps and lanterns.

In order to promote the sealed waterproof effect of lamps and lanterns, the shell 2 in the present embodiment can also include surrounding assembly cavity 20 Separate cavities 26, cloche 3 covers assembly cavity 20 and separate cavities 26 simultaneously, while cloche 3 is fixedly connected with separate cavities 26.This Sample, separate cavities 26 can become isolating seal chamber 26 and extraneous another road barrier, and extraneous steam and dust first have to pass through The gap of shell 2 and cloche 3 enters separate cavities 26, the periphery of assembly cavity 20 can be touched later, to have more Excellent water proof and dust proof effect.

In the present embodiment, for the ease of processing, heat-conducting piece 12 can use profile structure, and profile can squeeze out work with metal Skill molding, and required size can be arbitrarily intercepted according to demand after forming, it does not waste substantially, cost is relatively low.In addition to this, Heat-conducting piece 12 can have apparent length direction, and light source board 10 extends along its length, while luminescence unit 11 is along length side To arrangement.Light source board 10 itself can also be manufactured using extrusion molding process, and after shaping according to demand needed for any interception Size.

Heat-conducting piece 12 may include main body 120 and mounting portion 122, and the first thermal conductive surface 12a and the second thermal conductive surface 12b are equal In main body 120, main body 120 is arranged in perpendicular to the two sides of length direction in mounting portion 122.Assembly cavity 20 can pass through buckle Structure, screw or other any feasible connection structures are fixedly connected with mounting portion 122, so that light source module group 1 is fixed on assembly In chamber 20.For the ease of being fixedly connected, the auxiliary such as installing port 122a to arrange along its length can be set on mounting portion 122 Connection structure.

As shown in Figures 4 to 6, it is generally the case that light source module group 1 can also carry out luminescence unit 11 by light distribution element 13 Light distribution.Light distribution element 13 in the related technology can be divided into two classes, and one kind is monoblock type lens, that is, pass through a lens on light source plate All luminescence units 11 on 10 carry out light distribution, and another kind of is monomer-type lens, i.e., each lens are individually for one or are gathered in Several luminescence units 11 together carry out light distribution.Both monoblock type lens can be used in the present embodiment, can also use monomer-type Lens can meet light distribution effect.But since different customer demands is different, luminescence unit 11 possessed by light source module group 1 Quantity is also different, if needing to make different lens, cost to measure for different customer demands using monoblock type lens It is higher.It, can be by monomer-type lens 13 (in order to make it easy to understand, hereafter continuing to use light distribution element and if using monomer-type lens Appended drawing reference) along its length arrangement and with luminescence unit 11 correspond light distribution.Monomer-type lens 13 can use in this way Same structure batch production, only need to be according to the list of the quantity configuration respective numbers of luminescence unit 11 in light source module group 1 in assembly Body formula lens 13, cost is relatively low.

In the present embodiment, monomer-type lens 13 can be fixedly connected with light source board 10 by the modes such as Nian Jie, in order to mention High fastness can also pass through 14 securing unit formula lens 13 of press box.Specifically, press box 14 and monomer-type lens 13 correspond And be attached by buckle structure, meanwhile, press box 14 is also attached with light source board 10 by buckle structure.I.e. in press box 14 Above while there are two sets of different buckle structure parts, is respectively used to be snapped connection with monomer-type lens 13 and light source board 10 It uses.In the present embodiment with no restrictions to buckle structure, for example, fixture block card slot be engaged by clamping, grab flange be engaged by clamping etc. structures ?.

It is clamped for the ease of press box 14 and light source board 10, light source board 10 can be simultaneously perpendicular to the two sides of length direction Beyond the first thermal conductive surface 12a, two protrusions 100 are formed, the part that second surface 10b is located at protrusion 100 is hanging, convenient for card Buckle connects.Press box 14 can be crossed the edge and simultaneously of light source board 10 by structures such as grab, claws by the side first surface 10a Two protrusions 100 are blocked, completion snaps connection process.

According to the purpose difference of lamps and lanterns, monomer-type lens 13 may use symmetrical structure, it is also possible to use unsymmetric structure. For example, the street lamp beside road is arranged in and is required to be irradiated to road center when lamps and lanterns are the street lamp for road lighting Region, it is therefore desirable to the light of luminescence unit 11 is deflected using the monomer-type lens 13 of unsymmetric structure.It is single at this time Body formula lens 13 are just provided with directionality, need with the installation of specific posture.It is large number of due to monomer-type lens 13, in order to Prevent individual monomers formula lens 13 in assembling process from posture mistake occur, the present embodiment is recommended in monomer-type lens 13 and light source board Error-proof structure is set between 10.Error-proof structure can use independent structure, can also be integrally disposed with buckle structure.Such as scheme Shown in 4 and Fig. 6, one first protrusion 130 and second protrusion 131, the first protrusion 130 can be respectively set on lens 13 Distinct in shape or size parameter with the second protrusion 131, the two cannot be identical, such as by the first protrusion 130 It is provided in round protrusion, and sets elliptical shaped lobes for the second protrusion 131.One first dress is set on light source board 10 simultaneously Distribution hole 101 and second pilot hole 102, the shape of the first protrusion 131 are matched with size with the first pilot hole 101, and second The shape of protrusion 131 matches with size and the second pilot hole 102.When monomer-type lens 13 are fixed to be completed, the first protrusion 131 It protrudes into the first pilot hole 101, the second protrusion 131 protrudes into the second pilot hole 102, and the two is unable to transposition, to realize Fool proof effect.Certainly, the error-proof structure that can also be taken other form between monomer-type lens 13 and light source board 10, the present embodiment It is without limitation.

In addition, in order to connect with light pole, being generally also provided with connector 5, connector and shell 2 when lamps and lanterns are street lamp Connection, and can be fixedly connected with light pole, so that street lamp is fixed on light pole.Connector 5 in the present embodiment can be with It is rotatablely connected with one end of shell 2, angular adjustment is able to carry out between such connector 5 and shell 2, to adjust the photograph of street lamp Penetrate direction.The two can be prevented to continue by position limiting structure after being adjusted to required angle, between shell 2 and connector 5 opposite Rotation, to realize the fixation of angle.There are many kinds of the implementations of position limiting structure, such as an edge is arranged on connector 5 The strip-shaped hole 50 of circumferentially extending, while a threaded hole (not shown) is set on shell 2, (do not shown in figure by screw It passes through strip-shaped hole 50 out) to be threadedly coupled with threaded hole, the limitation to the two rotation process can be realized when tightening screw.Except this Except can also use other position limiting structures, the present embodiment is with no restrictions.

When light source module group 1 is installed to 20 inside of assembly cavity, if there is mistake and can make in the direction of 1 entirety of light source module group Error-proof structure also can be set at light distribution mistake, therefore between light source module group 1 and fitting groove 20.Light source module group 1 and assembly Error-proof structure between slot 20 can also be independently arranged or be integrated in light source module group 1 and the fixed connection structure of fitting groove 20 Together.Such as shown in Fig. 3 and Fig. 4, some fool proof notch 122b can be set on the mounting portion 122 of side, while dissipate inside The fool proof column 220 to match with fool proof notch 122b is set on hot fin 22.When light source module group 1 and assembly cavity 20 are assembled When, due to being only provided with fool proof notch 122b, the installation process of light source module group 1 on the mounting portion 122 of wherein side There can be directionality, it will not be anti-loaded.Likewise, the error-proof structure that light source module group 1 and assembly cavity 20 can also take other form, The present embodiment is without limitation.

In the present embodiment, the material of shell 2 is usually aluminium alloy, and heat-conducting piece 12 can use material identical with shell 2, Heat-conducting piece 12 is identical as the heat conduction rate of shell 2 at this time.Heat-conducting piece 12 can also use aluminium heat-conducting piece, that is, use fine aluminium for material Heat-conducting piece is manufactured, fine aluminium not only has excellent processing performance, while heat transfer efficiency is also higher than aluminium alloy, therefore leads using aluminium Warmware is able to ascend the heat-conducting effect of heat-conducting piece 12, promotes the heat-sinking capability of lamps and lanterns.

In nature there are mainly three types of the modes of heat transfer, i.e. conduction, convection current and radiation.In order to improve heat dissipation effect, Air duct 124 can be arranged in the present embodiment in heat-conducting piece 12, and heat-conducting piece 12 is run through in air duct 124 along its length.Air duct 124 can be with For airflow and enhance the convective heat transfer ability of heat-conducting piece 12.However, the presence in air duct 124 can also reduce the biography of heat-conducting piece 12 Heat area, to weaken heat conduction efficiency to a certain extent.In order to obtain optimal heat dissipation effect, the present embodiment can be in air duct The thermally conductive muscle 126 of setting, thermally conductive muscle 126 are separately connected side and air duct 124 of the air duct 124 close to the first thermal conductive surface 12a in 124 Close to the side of the second thermal conductive surface 12b, while thermally conductive muscle 126 is also opposite with luminescence unit 11.Luminescence unit 11 is light source module group 1 Origin of heat, thermally conductive muscle 126 can form a thermally conductive bridge between luminescence unit 11 and the second thermal conductive surface 12b, more The heat near luminescence unit 11 is rapidly transferred to the second thermal conductive surface 12b by thermally conductive muscle 126.This structure is not yet simultaneously It can be substantially reduced the sectional area in air duct 124, therefore the influence very little to heat loss through convection, it is comprehensive to improve heat dissipation effect.

Light source module group and lamps and lanterns disclosed in the embodiment of the present application can reduce product cost by comprehensive.

Emphasis describes the difference between each embodiment, difference between each embodiment in the application foregoing embodiments As long as optimization feature non-contradiction, can combine to form more preferably embodiment, it is contemplated that style of writing is succinct, then no longer superfluous at this It states.

The above description is only an example of the present application, is not intended to limit this application.For those skilled in the art For, various changes and changes are possible in this application.All any modifications made within the spirit and principles of the present application are equal Replacement, improvement etc., should be included within the scope of the claims of this application.

Claims (23)

1. a kind of light source module group, which is characterized in that including light source board, luminescence unit and heat-conducting piece；

The light source board has the first surface and second surface mutually deviated from, and the luminescence unit is arranged in first table On face, the heat-conducting piece has the first thermal conductive surface and the second thermal conductive surface that mutually deviate from, first thermal conductive surface and described the Two surfaces fit.

2. light source module group according to claim 1, which is characterized in that the heat-conducting piece has length direction, the light source Plate extends along the length direction, and the luminescence unit is arranged along the length direction.

3. light source module group according to claim 2, which is characterized in that it further include light distribution element, the light distribution element and institute Luminescence unit is stated relatively and for carrying out light distribution to the luminescence unit.

4. light source module group according to claim 3, which is characterized in that the light distribution element includes multiple monomer-type lens, Multiple monomer-type lens arrange along the length direction and correspond light distribution with the luminescence unit.

5. light source module group according to claim 4, which is characterized in that it further include press box, the press box and the monomer-type Lens are corresponded and are snapped connection, and the press box is also snapped connection with the light source board.

6. light source module group according to claim 5, which is characterized in that the light source board perpendicular to the length direction two Side all has the protrusion beyond first thermal conductive surface, and the press box is snapped connection with two protrusions simultaneously.

7. light source module group according to claim 6, which is characterized in that set between the monomer-type lens and the light source board It is equipped with error-proof structure.

8. according to the described in any item light source module groups of claim 2 to 7, which is characterized in that the heat-conducting piece include main body and Mounting portion, first thermal conductive surface and second thermal conductive surface are respectively positioned in the main body, and the mounting portion is arranged described Body normal is in the two sides of the length direction.

9. light source module group according to claim 8, which is characterized in that be placed on the mounting portion along the length direction Installing port.

10. according to the described in any item light source module groups of claim 2 to 7, which is characterized in that be provided with wind in the heat-conducting piece The heat-conducting piece is run through along the length direction in road, the air duct.

11. light source module group according to claim 10, which is characterized in that thermally conductive muscle is provided in the air duct, it is described to lead Hot muscle is separately connected the air duct close to the side of first thermal conductive surface and the air duct close to second thermal conductive surface Side, and the thermally conductive muscle is opposite with the luminescence unit.

12. light source module group according to any one of claims 1 to 7, which is characterized in that the heat-conducting piece is aluminium heat-conducting piece.

13. light source module group according to any one of claims 1 to 7, which is characterized in that the heat-conducting piece is profile.

14. a kind of lamps and lanterns, which is characterized in that including shell and the described in any item light source module groups of claim 1 to 13；

The shell has assembly cavity, and multiple interior radiating fins are placed in the assembly cavity, and the light source module group is arranged in institute It states in assembly cavity and second thermal conductive surface fits with the interior radiating fin.

15. lamps and lanterns according to claim 14, which is characterized in that the interior radiating fin is divided into several groups, described in every group Interior radiating fin is arranged along straight line, and interior radiating fin described in every group is respectively cooperating with the light source module group.

16. lamps and lanterns according to claim 15, which is characterized in that the interior radiating fin is divided into two groups, interior described in two groups Radiating fin is symmetrical arranged.

17. 4 to 16 described in any item lamps and lanterns according to claim 1, which is characterized in that it further include cloche, the cloche It is connect with the housing seal and closes the assembly cavity.

18. lamps and lanterns according to claim 17, which is characterized in that the edge of the assembly cavity is provided with sealing ring, described Cloche crimps sealing with the sealing ring.

19. lamps and lanterns according to claim 17, which is characterized in that further include decoration panel, the decoration panel setting exists In the assembly cavity and cover the light source module group.

20. lamps and lanterns according to claim 17, which is characterized in that the shell further includes the isolation around the assembly cavity Chamber, the cloche covers the assembly cavity and the separate cavities, the cloche are fixedly connected with the separate cavities.

21. 4 to 16 described in any item lamps and lanterns according to claim 1, which is characterized in that the light source module group and the assembly cavity Between be provided with error-proof structure.

22. 4 to 16 described in any item lamps and lanterns according to claim 1, which is characterized in that the lamps and lanterns are street lamp, further include using In the connector of connection lamp stand, the connector is connect with the shell.

23. lamps and lanterns according to claim 22, which is characterized in that one end of the connector and the shell is rotatablely connected And relative angle can be adjusted.