CN206093531U - Modular lighting module , combination formula lighting device and combination formula lighting system - Google Patents
Modular lighting module , combination formula lighting device and combination formula lighting system Download PDFInfo
- Publication number
- CN206093531U CN206093531U CN201620742017.9U CN201620742017U CN206093531U CN 206093531 U CN206093531 U CN 206093531U CN 201620742017 U CN201620742017 U CN 201620742017U CN 206093531 U CN206093531 U CN 206093531U
- Authority
- CN
- China
- Prior art keywords
- substrate
- heat
- light structures
- removable light
- base construction
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Abstract
The utility model discloses a modular lighting module, combination formula lighting device and combination formula lighting system. Combination formula lighting system includes a supporting mechanism and a plurality of combination formula lighting device. A plurality of combination formula lighting device detachably set up on the supporting mechanism. Each combination formula lighting device is including bearing mechanism, active radiator fan and combination formula lighting module. Combination formula lighting module includes a base construction and a plurality of removable illumination structure. Each removable illumination structure includes a radiating basal plate and a plurality of light -emitting component. Borrow this and since a plurality of radiating basal plate detachably of a plurality of removable illumination structures according to the preface be linked to be mutually the round with connect around base construction and detachably in base construction is so a plurality of removable illumination structure just can be linked to be the round in order to connect in base construction around base construction and detachably according to the preface by detachably mutually.
Description
Technical field
This utility model is related to a kind of lighting module, illuminator and illuminator, more particularly to a kind of combination type
Lighting module, combined illuminating device and Combined lighting system.
Background technology
With regard to the comparison of light emitting diode (LED) and conventional light source, light emitting diode has small volume, power saving, luminous effect
Rate is good, life-span length, operation response speed are fast, and the advantages of the pollution of noxious substance such as non-thermal radiation and hydrargyrum.Therefore in recent years
Come, the application surface of light emitting diode is extremely wide.Past cannot also replace traditional illumination due to the brightness of light emitting diode
Light source, but with the continuous lifting of technical field, the High Power LED of high illumination briliancy is had been developed that at present, which be enough to
Replace traditional lighting source.However, existing light emitting diode still has improved space in use.
Utility model content
Technical problem to be solved in the utility model is to provide a kind of Combined lighting for the deficiencies in the prior art
Module, combined illuminating device and Combined lighting system.
In order to solve above-mentioned technical problem, the wherein technical scheme adopted by this utility model is to provide a kind of group
Box-like lighting module, which includes:One base construction and multiple removable light structures.Multiple removable light structures can
Releasably sequentially it is connected to a circle to be removably attachable to around the base construction, and multiple removable light structures
The base construction.Wherein, each described removable light structures include a heat-radiating substrate, one be removably disposed in it is described
Circuit substrate on heat-radiating substrate, multiple it are arranged on the circuit substrate and are electrically connected at luminous group of the circuit substrate
Part, one are removably disposed in and are removably disposed in the radiating around shape waterproof colloid and one on the heat-radiating substrate
On substrate and cover multiple luminescence components and the light transmitting cover around shape waterproof colloid.Wherein, it is multiple described removable
The multiple described heat-radiating substrate of formula light structures is removably sequentially connected to a circle to surround the base construction, and multiple institutes
The multiple described heat-radiating substrate for stating removable light structures is removably attachable to the base construction.
Further, the base construction includes a first substrate and one is arranged on the first substrate second
Substrate, the first substrate have multiple circular the first location divisions for arranging, and the second substrate has multiple circular settings
First clamping part, the heat-radiating substrate of each removable light structures have at least two with two corresponding institutes
State the second location division that the first location division cooperates and is cooperated with corresponding first clamping part second
Clamping part;Wherein, the heat-radiating substrate of each removable light structures has at least two connections being oppositely arranged
Portion, the heat-radiating substrate of each removable light structures by one of them described connecting portion with one of phase
One of them described connecting portion of adjacent described removable light structures cooperates, and each described removable light structures
The heat-radiating substrate by another described connecting portion with the described removable light structures adjacent with another its
In a connecting portion cooperate.
Further, the top of the heat-radiating substrate is used to house the main accommodation space of the circuit substrate with one
It is and one around the main accommodation space and separated from one another with the main accommodation space first surrounds shape groove, described to dissipate
The bottom of hot substrate has multiple radiating fins, and the top of the light transmitting cover has and corresponds respectively to multiple luminescence components
Multiple lens sections, the bottom of the light transmitting cover surrounds shape ditch around the second of shape groove corresponding to described first with one
Groove, and it is described be arranged between the heat-radiating substrate and the light transmitting cover around shape waterproof colloid and be placed in described first enclose
Around shape groove and described second in shape groove.
Further, the multiple described luminescence component of each removable light structures is distinguished into multiple close
First luminescence component of the base construction and multiple the second luminescence components away from the base construction, and the euphotic cover
The multiple described lens section of body is distinguished into multiple close base constructions and corresponds respectively to the multiple described first luminous groups
First lens section of part and multiple away from the base construction and correspond respectively to the second of multiple second luminescence components
Lens section;Wherein, the first light beam produced by first luminescence component passes through corresponding first lens section, to be formed
One first light source with one first predetermined lighting angle, the second light beam produced by second luminescence component is by corresponding
Second lens section, to form a secondary light source with one second predetermined lighting angle, and the institute of first light source
State described second predetermined lighting angle of the first predetermined lighting angle more than the secondary light source;Wherein, it is multiple described removable
The base construction, and each described removable light structures are connected to light structures pivot joint relative to the base construction
Incline a predetermined acute angle;Wherein, the base construction has multiple first drainage openings and for an accommodating at least temperature
The accommodation space of sensor, the base construction include a discharge pipe line for being connected to the first drainage openings wherein described in, and
Multiple second drainage openings are formed between the adjacent described removable light structures of each two.
In order to solve above-mentioned technical problem, the other technical scheme adopted by this utility model is to provide a kind of group
Box-like illuminator, which includes:One load carrier, an active radiator fan and a Combined lighting module.The active
Formula radiator fan is removably disposed on the load carrier.The Combined lighting module is removably disposed in described holding
On mounted mechanism, wherein the Combined lighting module includes a base construction and multiple removable light structures.It is multiple described
Removable light structures are removably sequentially connected to a circle to tie around the base construction, and multiple removable illuminations
Structure is removably attachable to the base construction.Wherein, each described removable light structures includes one towards the active
The heat-radiating substrate of formula radiator fan, a circuit substrate being removably disposed on the heat-radiating substrate, it is multiple be arranged on it is described
On circuit substrate and it is electrically connected at the luminescence component of the circuit substrate, one is removably disposed on the heat-radiating substrate
Be removably disposed on the heat-radiating substrate around shape waterproof colloid and one and cover multiple luminescence components with it is described
Around the light transmitting cover of shape waterproof colloid.Wherein, the multiple described heat-radiating substrate of multiple removable light structures is detachable
Ground is sequentially connected to a circle to surround the base construction, and the multiple described heat-radiating substrate of multiple removable light structures
It is removably attachable to the base construction.
Further, the base construction includes a first substrate and one is arranged on the first substrate second
Substrate, the first substrate have multiple circular the first location divisions for arranging, and the second substrate has multiple circular settings
First clamping part, the heat-radiating substrate of each removable light structures have at least two with two corresponding institutes
State the second location division that the first location division cooperates and is cooperated with corresponding first clamping part second
Clamping part;Wherein, the heat-radiating substrate of each removable light structures has at least two connections being oppositely arranged
Portion, the heat-radiating substrate of each removable light structures by one of them described connecting portion with one of phase
One of them described connecting portion of adjacent described removable light structures cooperates, and each described removable light structures
The heat-radiating substrate by another described connecting portion with the described removable light structures adjacent with another its
In a connecting portion cooperate.
Further, the top of the heat-radiating substrate is used to house the main accommodation space of the circuit substrate with one
It is and one around the main accommodation space and separated from one another with the main accommodation space first surrounds shape groove, described to dissipate
The bottom of hot substrate has multiple radiating fins, and the top of the light transmitting cover has and corresponds respectively to multiple luminescence components
Multiple lens sections, the bottom of the light transmitting cover surrounds shape ditch around the second of shape groove corresponding to described first with one
Groove, and it is described be arranged between the heat-radiating substrate and the light transmitting cover around shape waterproof colloid and be placed in described first enclose
Around shape groove and described second in shape groove.
Further, the multiple described luminescence component of each removable light structures is distinguished into multiple close
First luminescence component of the base construction and multiple the second luminescence components away from the base construction, and the euphotic cover
The multiple described lens section of body is distinguished into multiple close base constructions and corresponds respectively to the multiple described first luminous groups
First lens section of part and multiple away from the base construction and correspond respectively to the second of multiple second luminescence components
Lens section;Wherein, the first light beam produced by first luminescence component passes through corresponding first lens section, to be formed
One first light source with one first predetermined lighting angle, the second light beam produced by second luminescence component is by corresponding
Second lens section, to form a secondary light source with one second predetermined lighting angle, and the institute of first light source
State described second predetermined lighting angle of the first predetermined lighting angle more than the secondary light source;Wherein, it is multiple described removable
The base construction is connected to light structures pivot joint, each described removable light structures inclines relative to the base construction
An oblique predetermined acute angle, and removable light structures are arranged on the load carrier described in two of which;Wherein, the pedestal knot
Structure has multiple first drainage openings and for housing the accommodation space of an at least temperature sensor, the base construction bag
Include a discharge pipe line for being connected to the first drainage openings wherein described in, and the adjacent described removable light structures of each two it
Between be formed with multiple second drainage openings.
In order to solve above-mentioned technical problem, the other yet another aspect adopted by this utility model is to provide one kind
Combined lighting system, which includes:One supporting mechanism and multiple combined illuminating devices.Multiple combined illuminating devices
It is removably disposed on the supporting mechanism, combined illuminating device described in each of which includes a load carrier, a master
Dynamic formula radiator fan and a Combined lighting module.The load carrier is removably disposed on the supporting mechanism.Institute
State active radiator fan to be removably disposed on the load carrier.The Combined lighting module is removably disposed in
On the load carrier, wherein the Combined lighting module includes a base construction and multiple removable light structures.It is many
The individual removable light structures are removably sequentially connected to a circle to surround the base construction, and multiple described removable
Light structures are removably attachable to the base construction.Wherein, each described removable light structures includes one towards institute
State the heat-radiating substrate of active radiator fan, one be removably disposed in the circuit substrate on the heat-radiating substrate, multiple settings
On the circuit substrate and it is electrically connected at the luminescence component of the circuit substrate, one is removably disposed in the radiating base
Being removably disposed on the heat-radiating substrate around shape waterproof colloid and one on plate and cover multiple luminescence components
With the light transmitting cover around shape waterproof colloid.Wherein, the multiple described heat-radiating substrate of multiple removable light structures
Removably sequentially it is connected to a circle to dissipate around the base construction, and the multiple described of multiple removable light structures
Hot substrate is removably attachable to the base construction.
Further, the base construction includes a first substrate and one is arranged on the first substrate second
Substrate, the first substrate have multiple circular the first location divisions for arranging, and the second substrate has multiple circular settings
First clamping part, the heat-radiating substrate of each removable light structures have at least two with two corresponding institutes
State the second location division that the first location division cooperates and is cooperated with corresponding first clamping part second
Clamping part;Wherein, the heat-radiating substrate of each removable light structures has at least two connections being oppositely arranged
Portion, the heat-radiating substrate of each removable light structures by one of them described connecting portion with one of phase
One of them described connecting portion of adjacent described removable light structures cooperates, and each described removable light structures
The heat-radiating substrate by another described connecting portion with the described removable light structures adjacent with another its
In a connecting portion cooperate.
The beneficial effects of the utility model are the Combined lighting module provided by technical solutions of the utility model, group
Box-like illuminator and Combined lighting system, which can pass through " the multiple described radiating of multiple removable light structures
Substrate is removably sequentially connected to a circle with around the base construction " and " multiple removable light structures it is many
The individual heat-radiating substrate is removably attachable to the base construction " technical characteristic so that multiple removable illuminations
Structure is removably sequentially connected to a circle to surround the base construction, and multiple removable light structures are detachable
Be connected to the base construction.
Feature of the present utility model and technology contents are further understood that to enable, are referred to below in connection with this utility model
Detailed description and accompanying drawing, but the accompanying drawing for being provided only provides with reference to and illustrates to use, not for this utility model in addition
Limit.
Description of the drawings
Perspective exploded views of the Fig. 1 for this utility model combined illuminating device.
Three-dimensional combination diagrams of the Fig. 2 for this utility model combined illuminating device.
Three-dimensional combination diagrams of the Fig. 3 for a wherein viewing visual angle of this utility model Combined lighting module.
Three-dimensional combination diagrams of the Fig. 4 for an other viewing visual angle of this utility model Combined lighting module.
Solids point of the Fig. 5 for a wherein viewing visual angle of the removable light structures of this utility model Combined lighting module
Solution schematic diagram.
Three-dimensional group for a wherein viewing visual angle of the removable light structures of this utility model Combined lighting module of Fig. 6
Close schematic diagram.
Solids point of the Fig. 7 for an other viewing visual angle of the removable light structures of this utility model Combined lighting module
Solution schematic diagram.
Three-dimensional group for an other viewing visual angle of the removable light structures of this utility model Combined lighting module of Fig. 8
Close schematic diagram.
Fig. 9 is the wherein viewing visual angle that the removable light structures of this utility model are removably attachable to base construction
Three-dimensional combination diagram.
Figure 10 is the other viewing visual angle that the removable light structures of this utility model are removably attachable to base construction
Three-dimensional combination diagram.
Partial cutaway schematic views of the Figure 11 for this utility model Combined lighting module.
Schematic diagrams of the Figure 12 for this utility model Combined lighting system.
Specific embodiment
The following is by particular specific embodiment illustrate disclosed in this utility model it is relevant " Combined lighting module,
The embodiment of combined illuminating device and Combined lighting system ", those skilled in the art can be by disclosed in this specification
Content understand advantage of the present utility model and effect.This utility model can be implemented by other different specific embodiments
Or application, the every details in this specification may be based on different viewpoints and application, in the case where spirit of the present utility model is not departed from
Carry out various modifications and change.In addition, accompanying drawing of the present utility model is only simple schematically illustrate, not retouching according to actual size
Paint, stated.Following embodiment will be explained in further detail correlation technique content of the present utility model, but disclosed
Content simultaneously is not used to limit technical scope of the present utility model.
Refer to shown in Fig. 1 to Figure 11, this utility model provides a kind of combined illuminating device D, and which includes a carrying machine
Structure C, an active radiator fan F and Combined lighting module M.In addition, active radiator fan F is removably disposed in
On load carrier C, Combined lighting module M is removably disposed on load carrier C, and Combined lighting module M includes
One base construction 1 and multiple removable light structures 2.For example, corresponding 2 meeting of removable light structures of two of which
It is arranged on load carrier C, and combined illuminating device D can be used to the illumination as fishing lamp, street lamp or other purposes
Lamp.
First, coordinate shown in Fig. 2 and Fig. 5 to Fig. 8, each removable light structures 2 includes that one dissipates towards active
Circuit substrate 22 that the heat-radiating substrate 21, one of Hot-air fan F is removably disposed on heat-radiating substrate 21, multiple it is arranged on circuit base
On plate 22 and be electrically connected at circuit substrate 22 luminescence component 23, be removably disposed on heat-radiating substrate 21 around shape
Waterproof colloid 24 and one is removably disposed on heat-radiating substrate 21 and covers multiple luminescence components 23 and surround shape marine glue
The light transmitting cover 25 of body 24.Furthermore, coordinating shown in Fig. 3 and Fig. 5, multiple removable light structures 2 are removably sequentially connected
Into a circle to surround base construction 1, and multiple removable light structures 2 are removably attachable to base construction 1.Namely
Say, multiple heat-radiating substrates 21 of multiple removable light structures 2 are removably sequentially connected to a circle to surround base construction 1,
And multiple heat-radiating substrates 21 of multiple removable light structures 2 are removably attachable to base construction 1.Whereby, due to actively
Formula radiator fan F, heat-radiating substrate 21, circuit substrate 22, around shape waterproof colloid 24 and light transmitting cover 25 all adopt removable
Unload the design of formula, it is possible to increase convenience and motility of the combined illuminating device D in assembling.
For example, heat-radiating substrate 21 can be through hardening anodising, to increase corruption of the heat-radiating substrate 21 to resistant to sea water
Erosion ability.In addition, luminescence component 23 can be LED chip or any other luminescence chip, and produced by luminescence component 23
Optical source wavelength can be regulated and controled according to customized demand, for the different types of marine organisms of supplementary set.Additionally, multiple
Removable light structures 2 can be connected to pivot joint base construction 1, so that each removable light structures 2 is relative to pedestal
Structure 1 inclined one predetermined acute angle can be adjusted according to different demands.
For further, coordinate shown in Fig. 5 to Fig. 8, the heat-radiating substrate 21 of each removable light structures 2 has extremely
Few two connecting portions 213 being oppositely arranged, the heat-radiating substrate 21 of each removable light structures 2 can be by one of connection
Portion 213 is cooperated with one of connecting portion 213 of the removable light structures 2 adjacent with one of them, and each
The heat-radiating substrate 21 of removable light structures 2 can be by another connecting portion 213 with the removable photograph adjacent with another
One of connecting portion 213 of bright structure 2 cooperates.In other words, multiple heat-radiating substrates 21 of multiple removable light structures 2
Cooperating for multiple connecting portions 213 can be passed through, to be removably sequentially connected to a circle, whereby so that multiple removable
Light structures 2 are removably sequentially connected to a circle with around base construction 1.
For further, coordinate shown in Fig. 5 to Fig. 8, the top of heat-radiating substrate 21 is used to house circuit substrate with one
22 main accommodation space 2100 and is around main accommodation space 2100 and separated from one another with main accommodation space 2100
First surrounds shape groove 2101, and the bottom of heat-radiating substrate 21 has multiple radiating fins 214.Furthermore, light transmitting cover 25
Top has the multiple lens sections 251 for corresponding respectively to multiple luminescence components 23, and the bottom of light transmitting cover 25 has a pair
Shape groove 2501 should be surrounded around the second of shape groove 2101 in first.Whereby, radiating base is arranged at around shape waterproof colloid 24
Between plate 21 and light transmitting cover 25 and it is placed in first around shape groove 2101 and second in shape groove 2501, for
Completely cut off the contact of multiple luminescence components 23 and extraneous aqueous vapor.
For further, coordinate shown in Fig. 8, Fig. 9 and Figure 10, base construction 1 includes a first substrate 11 and
The second substrate 12 being arranged on first substrate 11.In addition, first substrate 11 has multiple the first location divisions around setting
111, second substrate 12 has multiple the first clamping parts 121 around setting, and the radiating of each removable light structures 2
Substrate 21 with least two the second location divisions 211 cooperated with two corresponding the first location divisions 111 and one with
The second clamping part 212 that the first corresponding clamping part 121 cooperates.Whereby, each heat-radiating substrate 21 can just pass through
Second location division 211 and the first location division 111 cooperate and the second clamping part 212 is mutual with the first clamping part 121
Coordinate, firmly to connect and be positioned on base construction 1.For example, the first location division 111 can be pass through aperture or
Bolt, the first clamping part 121 can be for one along the first plates extended towards the direction of first substrate 11, the second positioning
Portion 211 can be one for the projection through the first location division 111 (such as through hole) or for housing the first location division 111
The groove of (such as bolt), and the second clamping part 212 can be used for the first clamping part of contact 121 (such as the first plates) for one
And the second plates being mutually clasped with the first clamping part 121.However, this utility model with above-mentioned institute's illustrated example is not
Limit.
For further, coordinate shown in Fig. 3, Fig. 4 and Fig. 9 to Figure 11, there are base construction 1 multiple first drainings to open
Mouth 100 and one is used for the accommodating at least accommodation space 101 of a temperature sensor T.In addition, base construction 1 includes that one is connected to
It is formed between the adjacent removable light structures 2 of the wherein discharge pipe line of one first drainage openings 100, and each two multiple
Second drainage openings 200.Whereby, this utility model can be by multiple first drainage openings 100, discharge pipe line and multiple
The design of two drainage openings 200, to lift the drainage effect of Combined lighting module M.
For further, as shown in figure 11, multiple luminescence components 23 of each removable light structures 2 can be distinguished
Into multiple the first luminescence component 23A and multiple the second luminescence component 23B away from base construction 1 near base construction 1, and
And multiple lens sections 251 of light transmitting cover 25 can be distinguished into multiple close base constructions 1 and correspond respectively to multiple first
The first lens section 251A of optical assembly 23A and multiple away from base construction 1 and correspond respectively to multiple second luminescence component 23B
The second lens section 251B.Whereby, to pass through corresponding first saturating for the first light beam L11 produced by the first luminescence component 23A
Mirror portion 251A, to form a first light source L12 with one first predetermined lighting angle θ 1, produced by the second luminescence component 23B
The second light beam L21 can be by the second corresponding lens section 251B, to form one with one second predetermined lighting angle θ 2
Secondary light source L22, and the first predetermined lighting angle θ 1 of the first light source L12 can be more than second predetermined of secondary light source L22
Angular θ 2.Significantly, since the first predetermined lighting angle θ 1 (such as 120 degree) of the first light source L12 can be more than the
The second predetermined lighting angle θ 2 (such as 60 degree) of two light source L22, so the first light source with the first predetermined lighting angle θ 1
L12 can invest the upper area of base construction 1, whereby with the brightness of the upper area of reinforcement base construction 1, that is to say, that
It is capable of the brightness of the middle section of reinforcement Combined lighting module M.
Refer to shown in Figure 12, this utility model furthermore provides a kind of Combined lighting system S, and which includes:One
Support mechanism P and multiple combined illuminating device D, and multiple combined illuminating device D are removably disposed in supporting mechanism P
On.Coordinate shown in Fig. 2 and Figure 12, each combined illuminating device D includes a load carrier C, an active radiator fan F
And Combined lighting module M, load carrier C is removably disposed on supporting mechanism P, and active radiator fan F is removable
It is arranged on unloading on load carrier C, and Combined lighting module M is removably disposed on load carrier C.In addition, combination
Formula lighting module M includes a base construction 1 and multiple removable light structures 2, and multiple removable light structures 2 are removably
A circle is sequentially connected to surround base construction 1, and multiple removable light structures 2 are removably attachable to base construction 1.
The beneficial effect of embodiment
In sum, the beneficial effects of the utility model are that the combination type provided by technical solutions of the utility model shines
Bright module M, combined illuminating device D and Combined lighting system S, its can pass through " multiple removable light structures 2 it is multiple
Heat-radiating substrate 21 is removably sequentially connected to a circle with around base construction 1 " and " multiple removable light structures 2 it is many
Individual heat-radiating substrate 21 is removably attachable to base construction 1 " technical characteristic so that multiple removable light structures 2 are removable
Sequentially it is connected to a circle with unloading be removably attachable to pedestal and tie around base construction 1, and multiple removable light structures 2
Structure 1.
For further, due to active radiator fan F, heat-radiating substrate 21, circuit substrate 22, around shape waterproof colloid
24 and light transmitting cover 25 all adopt detachable design, it is possible to increase combined illuminating device D in assembling just
Profit and motility.
For further, due to being arranged between heat-radiating substrate 21 and light transmitting cover 25 and holding around shape waterproof colloid 24
It is placed in first to surround in shape groove 2501, so can just be used for around shape waterproof colloid 24 around shape groove 2101 and second
Completely cut off the contact of multiple luminescence components 23 and extraneous aqueous vapor.
For further, as multiple heat-radiating substrates 21 of multiple removable light structures 2 are removably sequentially connected
Into a circle with around base construction 1 and being removably attachable to base construction 1, and each heat-radiating substrate 21 can be by the
Two location divisions 211 and the first location division 111 cooperate and the second clamping part 212 and the first clamping part 121 phase interworking
Close, so multiple heat-radiating substrates 21 just can firmly connect and be positioned on base construction 1.
For further, due to multiple first drainage openings 100, discharge pipe line and multiple second drainage openings 200
Can design on base construction 1, so can just lift the drainage effect of Combined lighting module M.
For further, as the first predetermined lighting angle θ 1 of the first light source L12 can be more than the of secondary light source L22
Two predetermined lighting angle θ 2, so the first light source L12 with the first predetermined lighting angle θ 1 can invest the upper of base construction 1
Square region, whereby with the brightness of the upper area of reinforcement base construction 1, that is to say, that be capable of reinforcement Combined lighting module M
The brightness of middle section.
Content disclosed above is only preferred possible embodiments of the present utility model, not thereby limits to this utility model
Scope of the claims, therefore all utilization this utility model description and accompanying drawing content done equivalence techniques change,
It is contained in scope of the claims of the present utility model.
Claims (10)
1. a kind of Combined lighting module, it is characterised in that the Combined lighting module includes:
One base construction;And
Multiple removable light structures, multiple removable light structures are removably sequentially connected to a circle with around described
Base construction, and multiple removable light structures are removably attachable to the base construction;
Wherein, each described removable light structures includes that a heat-radiating substrate, one are removably disposed in the heat-radiating substrate
On circuit substrate, it is multiple be arranged on the circuit substrate and be electrically connected at the luminescence component of the circuit substrate, one can
Being removably disposed on the heat-radiating substrate around shape waterproof colloid and one on the heat-radiating substrate is arranged on releasably
And cover multiple luminescence components and the light transmitting cover around shape waterproof colloid;
Wherein, the multiple described heat-radiating substrate of multiple removable light structures is removably sequentially connected to a circle to surround
The base construction, and the multiple described heat-radiating substrate of multiple removable light structures is removably attachable to the pedestal
Structure.
2. Combined lighting module according to claim 1, it is characterised in that the base construction includes a first substrate
And one be arranged on the second substrate on the first substrate, the first substrate has multiple around the arrange first positioning
Portion, the second substrate have multiple the first clamping parts around setting, and the described of each removable light structures dissipates
Hot substrate has at least two the second location divisions cooperated with corresponding two first location divisions and one and phase
The second clamping part that corresponding first clamping part cooperates;Wherein, each removable light structures is described
The heat-radiating substrate that heat-radiating substrate has at least two connecting portions being oppositely arranged, each removable light structures leads to
One of them described connecting portion is crossed with one of them described connecting portion of the described removable light structures adjacent with one of them
Cooperate, and the heat-radiating substrate of each removable light structures by another described connecting portion with it is another
One of them described connecting portion of outer one adjacent described removable light structures cooperates.
3. Combined lighting module according to claim 1, it is characterised in that use with the top of the heat-radiating substrate
The main accommodation space is surrounded in the main accommodation space for housing the circuit substrate and one and sky is mainly housed with described
Between separated from one another first surround shape groove, the bottom of the heat-radiating substrate has multiple radiating fins, the light transmitting cover
The bottom that top has the multiple lens sections for corresponding respectively to multiple luminescence components, the light transmitting cover is corresponded to one
Described first surrounds shape groove around the second of shape groove, and described is arranged at the heat-radiating substrate and institute around shape waterproof colloid
State between light transmitting cover and be placed in described first to surround in shape groove around shape groove and described second.
4. Combined lighting module according to claim 3, it is characterised in that each removable light structures
Multiple luminescence components are distinguished into multiple the first luminescence components near the base constructions and multiple away from the base
Second luminescence component of holder structure, and the multiple described lens section of the light transmitting cover is distinguished into multiple close pedestals knots
Structure and correspond respectively to the first lens section of multiple first luminescence components and multiple away from the base construction and difference
Corresponding to the second lens section of multiple second luminescence components;Wherein, the first light beam produced by first luminescence component
By corresponding first lens section, to form first light source with one first predetermined lighting angle, described second
The second light beam produced by luminescence component is by corresponding second lens section, predetermined luminous with one second to form one
The secondary light source of angle, and the described first predetermined lighting angle of first light source is more than described the second of the secondary light source
Predetermined lighting angle;Wherein, the base construction is connected to multiple removable light structures pivot joints, and described in each
Removable light structures incline a predetermined acute angle relative to the base construction;Wherein, the base construction has multiple first
For housing the accommodation space of an at least temperature sensor, the base construction includes that one is connected to wherein to drainage openings and
Multiple are formed between the discharge pipe line of the first drainage openings described in, and the adjacent described removable light structures of each two
Two drainage openings.
5. a kind of combined illuminating device, it is characterised in that the combined illuminating device includes:
One load carrier;
One active radiator fan, the active radiator fan are removably disposed on the load carrier;And
One Combined lighting module, the Combined lighting module are removably disposed on the load carrier, wherein described
Combined lighting module includes:
One base construction;And
Multiple removable light structures, multiple removable light structures are removably sequentially connected to a circle with around described
Base construction, and multiple removable light structures are removably attachable to the base construction;
Wherein, each described removable light structures include one towards the active radiator fan heat-radiating substrate, one can
The circuit substrate that is releasably arranged on the heat-radiating substrate, multiple it are arranged on the circuit substrate and are electrically connected at described
The luminescence component of circuit substrate, one be removably disposed in it is detachable around shape waterproof colloid and one on the heat-radiating substrate
Be arranged on the heat-radiating substrate and cover multiple luminescence components with the light transmitting cover around shape waterproof colloid;
Wherein, the multiple described heat-radiating substrate of multiple removable light structures is removably sequentially connected to a circle to surround
The base construction, and the multiple described heat-radiating substrate of multiple removable light structures is removably attachable to the pedestal
Structure.
6. combined illuminating device according to claim 5, it is characterised in that the base construction includes a first substrate
And one be arranged on the second substrate on the first substrate, the first substrate has multiple around the arrange first positioning
Portion, the second substrate have multiple the first clamping parts around setting, and the described of each removable light structures dissipates
Hot substrate has at least two the second location divisions cooperated with corresponding two first location divisions and one and phase
The second clamping part that corresponding first clamping part cooperates;Wherein, each removable light structures is described
The heat-radiating substrate that heat-radiating substrate has at least two connecting portions being oppositely arranged, each removable light structures leads to
One of them described connecting portion is crossed with one of them described connecting portion of the described removable light structures adjacent with one of them
Cooperate, and the heat-radiating substrate of each removable light structures by another described connecting portion with it is another
One of them described connecting portion of outer one adjacent described removable light structures cooperates.
7. combined illuminating device according to claim 5, it is characterised in that use with the top of the heat-radiating substrate
The main accommodation space is surrounded in the main accommodation space for housing the circuit substrate and one and sky is mainly housed with described
Between separated from one another first surround shape groove, the bottom of the heat-radiating substrate has multiple radiating fins, the light transmitting cover
The bottom that top has the multiple lens sections for corresponding respectively to multiple luminescence components, the light transmitting cover is corresponded to one
Described first surrounds shape groove around the second of shape groove, and described is arranged at the heat-radiating substrate and institute around shape waterproof colloid
State between light transmitting cover and be placed in described first to surround in shape groove around shape groove and described second.
8. combined illuminating device according to claim 7, it is characterised in that each removable light structures
Multiple luminescence components are distinguished into multiple the first luminescence components near the base constructions and multiple away from the base
Second luminescence component of holder structure, and the multiple described lens section of the light transmitting cover is distinguished into multiple close pedestals knots
Structure and correspond respectively to the first lens section of multiple first luminescence components and multiple away from the base construction and difference
Corresponding to the second lens section of multiple second luminescence components;Wherein, the first light beam produced by first luminescence component
By corresponding first lens section, to form first light source with one first predetermined lighting angle, described second
The second light beam produced by luminescence component is by corresponding second lens section, predetermined luminous with one second to form one
The secondary light source of angle, and the described first predetermined lighting angle of first light source is more than described the second of the secondary light source
Predetermined lighting angle;Wherein, be connected to the base construction to multiple removable light structures pivot joints, each it is described can
Tear formula light structures open and a predetermined acute angle is inclined relative to the base construction, and removable light structures are arranged described in two of which
On the load carrier;Wherein, the base construction has multiple first drainage openings and one to be used for accommodating at least one warm
The accommodation space of degree sensor, the base construction include a discharge pipe line for being connected to the first drainage openings wherein described in,
And multiple second drainage openings are formed between the adjacent described removable light structures of each two.
9. a kind of Combined lighting system, it is characterised in that the Combined lighting system includes:
One supporting mechanism;And
Multiple combined illuminating devices, multiple combined illuminating devices are removably disposed on the supporting mechanism, its
In each described combined illuminating device include:
One load carrier, the load carrier are removably disposed on the supporting mechanism;
One active radiator fan, the active radiator fan are removably disposed on the load carrier;And
One Combined lighting module, the Combined lighting module are removably disposed on the load carrier, wherein described
Combined lighting module includes:
One base construction;And
Multiple removable light structures, multiple removable light structures are removably sequentially connected to a circle with around described
Base construction, and multiple removable light structures are removably attachable to the base construction;
Wherein, each described removable light structures include one towards the active radiator fan heat-radiating substrate, one can
The circuit substrate that is releasably arranged on the heat-radiating substrate, multiple it are arranged on the circuit substrate and are electrically connected at described
The luminescence component of circuit substrate, one be removably disposed in it is detachable around shape waterproof colloid and one on the heat-radiating substrate
Be arranged on the heat-radiating substrate and cover multiple luminescence components with the light transmitting cover around shape waterproof colloid;
Wherein, the multiple described heat-radiating substrate of multiple removable light structures is removably sequentially connected to a circle to surround
The base construction, and the multiple described heat-radiating substrate of multiple removable light structures is removably attachable to the pedestal
Structure.
10. Combined lighting system according to claim 9, it is characterised in that the base construction includes one first base
Plate and one it is arranged on the second substrate on the first substrate, the first substrate has multiple around the arrange first positioning
Portion, the second substrate have multiple the first clamping parts around setting, and the described of each removable light structures dissipates
Hot substrate has at least two the second location divisions cooperated with corresponding two first location divisions and one and phase
The second clamping part that corresponding first clamping part cooperates;Wherein, each removable light structures is described
The heat-radiating substrate that heat-radiating substrate has at least two connecting portions being oppositely arranged, each removable light structures leads to
One of them described connecting portion is crossed with one of them described connecting portion of the described removable light structures adjacent with one of them
Cooperate, and the heat-radiating substrate of each removable light structures by another described connecting portion with it is another
One of them described connecting portion of outer one adjacent described removable light structures cooperates.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620742017.9U CN206093531U (en) | 2016-07-14 | 2016-07-14 | Modular lighting module , combination formula lighting device and combination formula lighting system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620742017.9U CN206093531U (en) | 2016-07-14 | 2016-07-14 | Modular lighting module , combination formula lighting device and combination formula lighting system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206093531U true CN206093531U (en) | 2017-04-12 |
Family
ID=58466203
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201620742017.9U Expired - Fee Related CN206093531U (en) | 2016-07-14 | 2016-07-14 | Modular lighting module , combination formula lighting device and combination formula lighting system |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN206093531U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109237417A (en) * | 2017-06-13 | 2019-01-18 | 亘顺科技股份有限公司 | The manufacturing method of weather-proof lamps and lanterns and its light emitting module |
-
2016
- 2016-07-14 CN CN201620742017.9U patent/CN206093531U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109237417A (en) * | 2017-06-13 | 2019-01-18 | 亘顺科技股份有限公司 | The manufacturing method of weather-proof lamps and lanterns and its light emitting module |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
AU2014295951B2 (en) | A light collection and projection system | |
CN102691972B (en) | LED secondary optical system, LED light source module and the LED light fixture of orthogonal hot spot | |
JP7444899B2 (en) | Lens cover with lens element | |
US20210282332A1 (en) | Light fixture for indoor grow application including housing that defines a passageway | |
WO2007006186A1 (en) | The light source generating device on line | |
CN211875895U (en) | Novel LED starry sky projection lamp | |
CN206093531U (en) | Modular lighting module , combination formula lighting device and combination formula lighting system | |
CN106502034A (en) | Light-emitting device and the luminaire including light-emitting device | |
TWI807450B (en) | Light fixture for an indoor growing facility and method for manufacturing a light fixture for an indoor growing facility | |
CN103470992B (en) | A kind of projection illuminator | |
CN202303205U (en) | LED (light emitting diode) secondary optical system generating similar rectangular light spots, LED light source module and LED lamp | |
CN102980057A (en) | Light emitting diode lamp bulb | |
TW201200803A (en) | LED lamp | |
CN206221995U (en) | A kind of COB integrated optical sources module | |
CN209672082U (en) | A kind of LED light with excellent heat dispersion performance | |
CN207471331U (en) | Spherical shape COB downlights in a kind of anti-dazzle | |
JP6909393B2 (en) | Optical and lighting equipment | |
CN208138909U (en) | A kind of full spectral illumination device | |
JPS5967673A (en) | Light emitting diode for surface illumination | |
CN205877754U (en) | Working lamp | |
CN103712156A (en) | Full-angle light-emitting LED bulb lamp | |
CN109611698B (en) | Light source module | |
CN110307488A (en) | LED light device and cultivation rack for plant | |
CN218510758U (en) | Lamp for indoor planting facility | |
CN203615114U (en) | Outward heat radiation LED (Light-Emitting Diode) lamp |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170412 Termination date: 20210714 |
|
CF01 | Termination of patent right due to non-payment of annual fee |