CN206207336U - A kind of reflective module of efficient LED lamp and matrix LED Projecting Lamp - Google Patents
A kind of reflective module of efficient LED lamp and matrix LED Projecting Lamp Download PDFInfo
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- CN206207336U CN206207336U CN201621087958.XU CN201621087958U CN206207336U CN 206207336 U CN206207336 U CN 206207336U CN 201621087958 U CN201621087958 U CN 201621087958U CN 206207336 U CN206207336 U CN 206207336U
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Abstract
The utility model is related to a kind of reflective module of efficient LED lamp, the multiple radiators of hinge dress are spaced between two sides long of housing, shell is installed on each radiator, end face installs reflector on a heat sink, LED light source is set on the radiator upper surface of the two junction, the LED light source is stretched into the one end open of reflector, and a binding post for being used to be connected with the LED light source is installed on a heat sink, and a short hinge is respectively provided with two short sides of housing.In the utility model, the structure of reflector and convex lens, shape and size cooperate, form the best shape of light collection enhancing effect, its range, the uniformity of ground light and ground intensity of illumination can meet and be actually needed, reflector and convex lens with the use of reducing glare effects, it is ensured that the normal driving operations of driver and the normal observation of sportsman.
Description
Technical field
The utility model belongs to light projector modulated structure technical field of improvement, especially a kind of reflective module of efficient LED lamp and square
Array type LED Projecting Lamp.
Background technology
During Projecting Lamp is the Code in Hazardous Special Locations such as conventional airport, road, harbour, harbour, it is exactly the characteristics of common in these places
Lamp installation position is very high, and ordinary lamp and lantern cannot meet the parameters such as light projector distance, ground intensity of illumination, so producer more often uses
High-pressure mercury lamp with reflector, meets the characteristics of using the high power of high-pressure mercury lamp, high brightness and is shone compared with long-range and ground light
The requirement of intensity, in addition to high-pressure mercury lamp, people can also be using other light fixtures with wide range and high brightness.Above-mentioned light fixture
The requirement of range and intensity of illumination can be met when using, but power is larger, i.e., and very power-consuming, use cost is higher.
Convex lens have been installed additional in high-brightness LED lamp in some producers, are projected away after carrying out convergence enhancing to light using convex lens,
Overall power is smaller, saves electric power, but this light fixture range is shorter, during installed in high height, the intensity of illumination on ground without
Method meets needs, and these high-brightness LED lamps also have dazzle, such as:Driving on road in driving vehicle
Member can go out that eyes are easily tired easily by glare effects, the problem that identification capability declines, and traffic accident easily occur, for another example:
In sports buildings, the sportsman of exercise or match can also be influenceed by dazzle.
Utility model content
The purpose of this utility model is to overcome the deficiencies in the prior art, there is provided rational in infrastructure, illuminance and range are higher
And glare index is low, influence a kind of less reflective module of efficient LED lamp to people.
The utility model is adopted the technical scheme that:
A kind of reflective module of efficient LED lamp, it is characterised in that:Including housing, shell, radiator, reflector, convex lens and
LED light source, is spaced the multiple radiators of hinge dress between two sides long of housing, shell is installed on each radiator, on a heat sink
End face installs reflector, and LED light source is set on the radiator upper surface of the two junction, and the LED light source stretches into the one of reflector
In end opening, convex lens are installed at another end opening of reflector, the convex lens stretch out from the end face outside of shell, described one
Less than the internal diameter of another end opening, the inwall of reflector is outwardly by one end open to another end opening to the internal diameter of end opening
Arcwall face, the convex lens be located at another end opening of reflector at end face be a cambered surface to convex lens sunken inside, it is described
The surface that convex lens are located at outside shell is an outwardly cambered surface, and one is installed on a heat sink is used to connect with the LED light source
The binding post for connecing, a short hinge is respectively provided with two short sides of housing.
And, reflector one end open is inlaid in the upper surface of a base, and a LED Integrated Lights are embedded in the bottom surface of base
Source, the ceramic substrate end face of the LED integrated optical sources is located at the end face outside of base and for being connected with fin, and the LED is integrated
The transparent enclosure end face of light source is towards reflector inside and is used for transmitted ray.
And, reflector one end open is inlaid in the made setting-in seat in base upper surface, is made in setting-in seat upper surface
Multiple is crimped on the support block of reflector outer rim, is set with a water proof ring on the fin that the convex lens outer rim is made, the water proof ring
It is inlaid in annular groove made on reflector other end rims.
And, the height of reflector is 30~40 millimeters, and a diameter of 28~38 millimeters of reflector one end open, one end is opened
Mouthful and the same side end of two diameters that is parallel to each other of another end opening intersect with one end open and another end opening respectively two
The angle between line and reflector axis between individual point is 20~28 degree, the reflector inwall between described two points
The radius of circle where camber line is 48~58 millimeters.
And, the structure of convex lens be 1., 2. or 3. in any one;
1. the cone angle that the convex lens converge the ray cone for projecting is 55~65 degree, convex lens primary optical axis and base
The distance between end face outside intersection point and primary optical axis and the outwardly cambered surface intersection point of convex lens are 73~84 millimeters, outwardly
Cambered surface where sphere radius be 13~23 millimeters, to convex lens sunken inside cambered surface where sphere radius for 88~98 milli
Rice, a diameter of 73~83 millimeters of the maximum cross-section of the vertical primary optical axis of convex lens;
Or
2. the cone angle that the convex lens converge the ray cone for projecting is 85~95 degree, convex lens primary optical axis and base
The distance between end face outside intersection point and primary optical axis and the outwardly cambered surface intersection point of convex lens are 67~77 millimeters, outwardly
Cambered surface where sphere radius be 13~23 millimeters, to convex lens sunken inside cambered surface where sphere radius for 88~98 milli
Rice, a diameter of 73~83 millimeters of the maximum cross-section of the vertical primary optical axis of convex lens;
Or
3. the cone angle that the convex lens converge the ray cone for projecting is 115~125 degree, convex lens primary optical axis and base
End face outside intersection point and the distance between primary optical axis and the outwardly cambered surface intersection point of convex lens be 62~72 millimeters, convex
The radius of sphere where the cambered surface for going out is 33~43 millimeters, is 88~98 to the radius of sphere where the cambered surface of convex lens sunken inside
Millimeter, a diameter of 73~83 millimeters of the maximum cross-section of the vertical primary optical axis of convex lens.
And, the annular groove upper end is made and be embedded in jointly between bending edges lower end and shell lower end and radiator upper surface
One sealing strip, the bolt that the lower end that the multiple mounting posts made in the shell are passed through from bending edges installs with radiator upper surface
Connection, installs binding post and scavenging air valve on radiator bottom surface, is made on the radiator bottom surface on the outside of binding post and scavenging air valve
Go out multiple radiating fins.
Another purpose of the present utility model is to provide a kind of matrix LED Projecting Lamp, it is characterised in that:Including frame,
Reflective module described in lower carriage, suspension bracket and claim 5, two symmetrical side wall inner edges of frame are spaced hinge by short hinge
Multiple reflective modules are filled, a lower carriage, two lower carriage upper ends are respectively mounted in two symmetrical side wall outer rims of frame
On the bottom of suspension bracket both sides, the middle part of suspension bracket is located at the top of the radiator to hinge.
And, a backboard is installed on the frame end face below the suspension bracket, multiple venetian blind types are provided with the backboard and are opened
Mouthful, a total terminals are installed on backboard, total terminals are connected with the binding post filled on each radiator.
And, lower carriage upper end outer rim is provided for identifying the scale of rotational angle, is set in the center of scale
One through lower carriage upper end and the swivel bolt of suspension bracket bottom is put, the swivel bolt makes lower carriage upper end and suspension bracket lower end
Portion rotates along it, and the fixation of point arranged radially centered on a swivel bolt is made in the lower carriage upper end above swivel bolt
Hole, in the perforate that the engagement connection suspension bracket bottom contraposition of clamping screw end that fixing hole is installed is made and by rotation after under
Pedestal upper end portion and suspension bracket bottom are fixed.
Advantage of the present utility model and good effect are:
In the utility model, interval hinge fills multiple reflective modules in frame, hinge dress in interval in the frame of each reflective module
Multiple radiators, install on each radiator and reflector and convex lens are set in a shell, shell, and convex lens are arranged on reflective
At the lower ending opening of device, floor installation at the upper end open of reflector, positioned at upper end open by the LED integrated optical sources installed in base
At mouthful, the structure of reflector and convex lens, shape and size cooperate, and form the best shape of light collection enhancing effect
Shape, LED integrated optical sources are distributed heat by radiator by the ceramic substrate in it, it is ensured that the stabilization of LED integrated optical sources
Work, shell, bending edges and sealing strip close inside, it is to avoid the interference to reflector and lens such as dust, water, scavenging air valve
It is exhausted when air pressure is too high in shell.When using, the inwall of reflector is converged by light reflecting focal, then by convex lens
After shine out, light by foring homogeneous circular cone light beam after reflector and convex lens, its range, ground light it is uniform
Degree and ground intensity of illumination can meet and be actually needed, reflector and convex lens with the use of reducing glare effects, guarantor
The normal driving operations of driver and the normal observation of sportsman are demonstrate,proved.
Brief description of the drawings
Fig. 1 is the structural representation of reflector and convex lens in the utility model;
Fig. 2 is the left view of Fig. 1;
Fig. 3 is the upward view of Fig. 1;
Fig. 4 is a kind of A-A of Fig. 2 to sectional view;
Fig. 5 is another A-A of Fig. 2 to sectional view;
Fig. 6 is the third A-A of Fig. 2 to sectional view;
Fig. 7 is the structural representation of radiator and shell;
Fig. 8 is the sectional view of Fig. 7;
Fig. 9 is the outline drawing of reflective module in the utility model;
Figure 10 is the top view of Fig. 9;
Figure 11 is the upward view of Fig. 9;
Figure 12 is structural representation of the present utility model;
Figure 13 is the upward view of Figure 12;
Figure 14 is the left view of Figure 12;
Figure 15 is the rearview of Figure 13;
Figure 16 is the structural representation that another reflective module is applied in combination.
Specific embodiment
With reference to embodiment, the utility model is further illustrated, following embodiments are illustrative, be not limited
, it is impossible to protection domain of the present utility model is limited with following embodiments.
A kind of reflective module of efficient LED lamp, as shown in Fig. 1~11, innovation of the present utility model is:Including housing 24,
Shell 15, radiator 16, reflector 4, convex lens 1 and LED light source 8, are spaced between two sides long of housing by hinge long 23
The 25 hinge multiple radiators of dress, install shell on each radiator, end face installs reflector on a heat sink, and the two junction dissipates
LED light source is set on hot device upper surface, the LED light source is stretched into the one end open (lower end in Fig. 1~6,8) of reflector, instead
Convex lens are installed at another end opening (upper end in Fig. 1~6,8) place of light device, and the convex lens are stretched from the end face outside of shell
Go out, the internal diameter of the internal diameter less than another end opening of the one end open, the inwall of reflector is by one end open to another end opening
It is outwardly arcwall face, the end face that the convex lens are located at another end opening of reflector is one to convex lens sunken inside
Cambered surface 9, the convex lens be located at shell outside surface be an outwardly cambered surface, on a heat sink install one be used for it is described
The binding post 17 of LED light source connection, a short hinge 22 is respectively provided with two short sides of housing.
In the present embodiment, reflector one end open is inlaid in the upper surface of a base 7, and one is embedded in the bottom surface of base
LED integrated optical sources, the ceramic substrate end face 14 of the LED integrated optical sources is located at the end face outside of base and is used to connect with fin
Connect, the transparent enclosure end face 13 of the LED integrated optical sources is towards reflector inside and for transmitted ray.Transparent material can be with silicon
Glue, epoxy resin or other transparent materials, the general power of LED is 50 watts, and it is encapsulated in transparent with drive circuit and power supply chip
In material, two terminals of extraction are connected with external supply line, because LED and power supply chip etc. are encapsulated in ceramic substrate
On, make overall installation very convenient, ceramic substrate can also direct etched circuit, thus further reduce the complexity of encapsulation
Property, reduce overall thickness and volume.The through hole made at base corner is used to install screw, and base and radiator are connected to
Together, ceramic substrate distributes the heat of LED integrated optical sources by radiator.
Reflector one end open is inlaid in the made setting-in seat 6 in base upper surface, and multiple is made in setting-in seat upper surface
The support block 5 of reflector outer rim is crimped on, a water proof ring 10, the water proof ring are set with the fin 11 that the convex lens outer rim is made
It is inlaid in annular groove 2 made on reflector other end rims.
The height H2 of reflector is 30~40 millimeters, and the diameter L1 of reflector one end open is 28~38 millimeters, and one end is opened
Mouthful and the same side end of two diameters that is parallel to each other of another end opening intersect with one end open and another end opening respectively two
The angle β between line and reflector axis between individual point is 20~28 degree, the reflector inwall between described two points
Camber line 12 where the radius R3 of circle be 48~58 millimeters.Preferred scheme is:H2 is 35 millimeters, and L1 is 33 millimeters, and β is 24
Degree, R3 53 millimeters.
The size of convex lens be selected from 1., 2. or 3. in any one:
1. as shown in figure 4, the cone angle that the convex lens converge the ray cone for projecting is 55~65 degree, convex lens key light
The distance between the end face outside intersection point and primary optical axis and the outwardly cambered surface intersection point of convex lens of axle and base H1 is 73~84
Millimeter, the radius R1 of sphere where outwardly cambered surface is 13~23 millimeters, to sphere where the cambered surface of convex lens sunken inside
Radius R2 be 88~98 millimeters, the maximum cross-section diameter L2 of the vertical primary optical axis of convex lens is 73~83 millimeters.Preferred side
Case is:Cone angle is 60 degree, and H1 78.5 millimeters, R1 is 18 millimeters, and R2 is that 93, L2 is 78 millimeters.
Or
2. as shown in figure 5, the cone angle that the convex lens converge the ray cone for projecting is 85~95 degree, convex lens key light
The distance between the end face outside intersection point and primary optical axis and the outwardly cambered surface intersection point of convex lens of axle and base H1 is 67~77
Millimeter, the radius R1 of sphere where outwardly cambered surface is 13~23 millimeters, to sphere where the cambered surface of convex lens sunken inside
Radius R2 be 88~98 millimeters, the maximum cross-section diameter L2 of the vertical primary optical axis of convex lens is 73~83 millimeters.Preferred side
Case is:Cone angle is 90 degree, and H1 72.5 millimeters, R1 is 18 millimeters, and R2 is that 93, L2 is 78 millimeters.
Or
3. as shown in fig. 6, the cone angle that the convex lens converge the ray cone for projecting is 115~125 degree, convex lens master
The distance between the end face outside intersection point and primary optical axis of optical axis and base and the outwardly cambered surface intersection point of convex lens H1 is 62~
72 millimeters, the radius R1 of sphere where outwardly cambered surface is 33~43 millimeters, to ball where the cambered surface of convex lens sunken inside
The radius R2 in face is 88~98 millimeters, and the maximum cross-section diameter L2 of the vertical primary optical axis of convex lens is 73~83 millimeters.More preferably
Scheme is:Cone angle is 120 degree, and H1 67.5 millimeters, R1 is 38 millimeters, and R2 is that 93, L2 is 78 millimeters.
It is close that common setting-in one between the lower end of bending edges 3 and shell lower end and radiator upper surface is made in the annular groove upper end
Strip of paper used for sealing 20, the bolt that the lower end that the multiple mounting posts 19 made in the shell are passed through from bending edges installs with radiator upper surface
Connection, installs binding post and scavenging air valve 18, on the radiator bottom surface on the outside of binding post and scavenging air valve on radiator bottom surface
Make multiple radiating fins 21.
A kind of matrix LED Projecting Lamp is as shown in Figure 12~15, including frame 33, lower carriage 26, suspension bracket 30 and above-mentioned anti-
Light module, two symmetrical side wall inner edges of frame are spaced hinge and fill multiple reflective modules by short hinge 22, at two of frame
A bottom for lower carriage 34, two lower carriage upper end hinge dresses are respectively mounted by fixing bolt 35 in symmetrical side wall outer rim
On suspension bracket both sides bottom 27, the middle part of suspension bracket is located at the top of the radiator, and hole for hoist 36 is made on suspension bracket.
One backboard 31 is installed on the frame end face below suspension bracket, multiple venetian blind type openings 37 are provided with the backboard,
One total terminals 32 are installed, total terminals are connected with the binding post filled on each radiator on backboard.
Lower carriage upper end outer rim is provided for identifying the scale 38 of rotational angle, and setting one in the center of scale passes through
The swivel bolt 29 of lower carriage upper end and suspension bracket bottom, the swivel bolt makes lower carriage upper end and suspension bracket bottom along it
The fixing hole 39 of point arranged radially centered on a swivel bolt is made in rotation, the lower carriage upper end above swivel bolt,
Lower branch after in the perforate that the engagement connection suspension bracket bottom contraposition of the end of clamping screw 28 that fixing hole is installed is made and by rotation
Frame upper end and suspension bracket bottom are fixed.
As shown in figure 16, reflective module can also be three, and radiator, shell in each reflective module etc. is three.
Application Example 1
Application scenarios:Certain street lamp post, the structure of application drawing 15, outer inframe hinge fills four radiators, on each radiator
One reflector and convex lens are set
Lamp installation is highly:20 meters
LED light source general power:200W
Whether ground has hot spot:Uniformly without hot spot
Ground intensity of illumination:50~60/LUX
Glare index;GR≤40
Colour rendering index;Ra≥80
The high-pressure mercury lamp power and ground intensity of illumination of control:It is poorer than the present invention
The common LED lamp power and ground intensity of illumination of control:It is poorer than the present invention
Application Example 2
Application scenarios:Certain tennis venue, the structure of application drawing 16, outer inframe hinge fills nine radiators, each radiating
One reflector and convex lens are set on device
Lamp installation is highly:20 meters
LED light source general power:450W
Whether ground has hot spot:Uniformly without hot spot
Ground intensity of illumination:1000~1200/LUX
Glare index;GR≤40
Colour rendering index;Ra≥80
The high-pressure mercury lamp power and ground intensity of illumination of control:It is poorer than the present invention
The common LED lamp power and ground intensity of illumination of control:It is poorer than the present invention
In the utility model, interval hinge fills multiple reflective modules in frame, hinge dress in interval in the frame of each reflective module
Multiple radiators, install on each radiator and reflector and convex lens are set in a shell, shell, and convex lens are arranged on reflective
At the lower ending opening of device, floor installation at the upper end open of reflector, positioned at upper end open by the LED integrated optical sources installed in base
At mouthful, the structure of reflector and convex lens, shape and size cooperate, and form the best shape of light collection enhancing effect
Shape, LED integrated optical sources are distributed heat by radiator by the ceramic substrate in it, it is ensured that the stabilization of LED integrated optical sources
Work, shell, bending edges and sealing strip close inside, it is to avoid the interference to reflector and lens such as dust, water, scavenging air valve
It is exhausted when air pressure is too high in shell.When using, the inwall of reflector is converged by light reflecting focal, then by convex lens
After shine out, light by foring homogeneous circular cone light beam after reflector and convex lens, its range, ground light it is uniform
Degree and ground intensity of illumination can meet and be actually needed, reflector and convex lens with the use of reducing glare effects, guarantor
The normal driving operations of driver and the normal observation of sportsman are demonstrate,proved.
Claims (9)
1. the reflective module of a kind of efficient LED lamp, it is characterised in that:Including housing, shell, radiator, reflector, convex lens and
LED light source, is spaced the multiple radiators of hinge dress between two sides long of housing, shell is installed on each radiator, on a heat sink
End face installs reflector, and LED light source is set on the radiator upper surface of the two junction, and the LED light source stretches into the one of reflector
In end opening, convex lens are installed at another end opening of reflector, the convex lens stretch out from the end face outside of shell, described one
Less than the internal diameter of another end opening, the inwall of reflector is outwardly by one end open to another end opening to the internal diameter of end opening
Arcwall face, the convex lens be located at another end opening of reflector at end face be a cambered surface to convex lens sunken inside, it is described
The surface that convex lens are located at outside shell is an outwardly cambered surface, and one is installed on a heat sink is used to connect with the LED light source
The binding post for connecing, a short hinge is respectively provided with two short sides of housing.
2. the reflective module of a kind of efficient LED lamp according to claim 1, it is characterised in that:Reflector one end open is embedded in
In the upper surface of a base, a LED integrated optical sources, the ceramic substrate end face of the LED integrated optical sources are embedded in the bottom surface of base
Positioned at base end face outside and for being connected with fin, the transparent enclosure end face of the LED integrated optical sources is towards in reflector
Portion is simultaneously used for transmitted ray.
3. the reflective module of a kind of efficient LED lamp according to claim 2, it is characterised in that:Reflector one end open is embedded in
In the made setting-in seat in base upper surface, multiple support blocks for being crimped on reflector outer rim, institute are made in setting-in seat upper surface
State and be set with a water proof ring on the fin that convex lens outer rim is made, the water proof ring is inlaid in made on reflector other end rims
Annular groove in.
4. the reflective module of a kind of efficient LED lamp according to Claims 2 or 3, it is characterised in that:The height of reflector is 30
~40 millimeters, a diameter of 28~38 millimeters of reflector one end open, be parallel to each other two of one end open and another end opening
Line and reflector axis between two points that the same side end of diameter intersects with one end open and another end opening respectively
Between angle be 20~28 degree, the radius of circle where the camber line of the reflector inwall between described two points is 48~58 millis
Rice.
5. the reflective module of a kind of efficient LED lamp according to claim 4, it is characterised in that:The structure of convex lens is for 1., 2.
Or 3. in any one;
1. the cone angle that the convex lens converge the ray cone for projecting is 55~65 degree, the outside of convex lens primary optical axis and base
The distance between end face intersection point and primary optical axis and the outwardly cambered surface intersection point of convex lens are 73~84 millimeters, outwardly arc
The radius of sphere where face is 13~23 millimeters, is 88~98 millimeters to the radius of sphere where the cambered surface of convex lens sunken inside,
A diameter of 73~83 millimeters of the maximum cross-section of the vertical primary optical axis of convex lens;
Or
2. the cone angle that the convex lens converge the ray cone for projecting is 85~95 degree, the outside of convex lens primary optical axis and base
The distance between end face intersection point and primary optical axis and the outwardly cambered surface intersection point of convex lens are 67~77 millimeters, outwardly arc
The radius of sphere where face is 13~23 millimeters, is 88~98 millimeters to the radius of sphere where the cambered surface of convex lens sunken inside,
A diameter of 73~83 millimeters of the maximum cross-section of the vertical primary optical axis of convex lens;
Or
3. the cone angle that the convex lens converge the ray cone for projecting is 115~125 degree, and convex lens primary optical axis is outer with base
The distance between side end face intersection point and primary optical axis and the outwardly cambered surface intersection point of convex lens are 62~72 millimeters, outwardly
The radius of sphere where cambered surface is 33~43 millimeters, is 88~98 millis to the radius of sphere where the cambered surface of convex lens sunken inside
Rice, a diameter of 73~83 millimeters of the maximum cross-section of the vertical primary optical axis of convex lens.
6. the reflective module of a kind of efficient LED lamp according to claim 5, it is characterised in that:Make the annular groove upper end
One sealing strip of common setting-in between bending edges lower end and shell lower end and radiator upper surface, the multiple peaces made in the shell
The bolt connection that the lower end that dress post is passed through from bending edges installs with radiator upper surface, binding post is installed on radiator bottom surface
And scavenging air valve, make multiple radiating fins on the radiator bottom surface on the outside of binding post and scavenging air valve.
7. a kind of matrix LED Projecting Lamp, it is characterised in that:Including described in frame, lower carriage, suspension bracket and claim 5 or 6
Reflective module, two symmetrical side wall inner edges of frame are spaced hinge and fill multiple reflective modules by short hinge, at two of frame
A lower carriage is respectively mounted in symmetrical side wall outer rim, two lower carriage upper end hinges are mounted on the bottom of suspension bracket both sides, suspension bracket
Middle part be located at the radiator top.
8. a kind of matrix LED Projecting Lamp according to claim 7, it is characterised in that:Frame end below the suspension bracket
One backboard is installed on face, multiple venetian blind type openings are provided with the backboard, a total terminals, total wiring are installed on backboard
End is connected with the binding post filled on each radiator.
9. a kind of matrix LED Projecting Lamp according to claim 7 or 8, it is characterised in that:Outside the lower carriage upper end
Edge is provided for identifying the scale of rotational angle, and setting one in the center of scale passes through lower carriage upper end and suspension bracket bottom
Swivel bolt, the swivel bolt make lower carriage upper end and suspension bracket bottom along its rotate, the lower branch above swivel bolt
The fixing hole of point arranged radially centered on a swivel bolt is made in frame upper end, in the clamping screw end engagement that fixing hole is installed
In the perforate that the contraposition of connection suspension bracket bottom is made and the lower carriage upper end and suspension bracket bottom after rotation are fixed.
Priority Applications (1)
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CN201621087958.XU CN206207336U (en) | 2016-09-28 | 2016-09-28 | A kind of reflective module of efficient LED lamp and matrix LED Projecting Lamp |
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CN201621087958.XU CN206207336U (en) | 2016-09-28 | 2016-09-28 | A kind of reflective module of efficient LED lamp and matrix LED Projecting Lamp |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106338051A (en) * | 2016-09-28 | 2017-01-18 | 天津中创天地科技发展有限公司 | Efficient LED lamp light reflecting module and matrix type LED project lamp |
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2016
- 2016-09-28 CN CN201621087958.XU patent/CN206207336U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106338051A (en) * | 2016-09-28 | 2017-01-18 | 天津中创天地科技发展有限公司 | Efficient LED lamp light reflecting module and matrix type LED project lamp |
CN106338051B (en) * | 2016-09-28 | 2018-09-28 | 天津中创天地科技发展有限公司 | A kind of reflective module of efficient LED lamp and matrix LED Projecting Lamp |
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