KR101723940B1 - Lamp head of street light - Google Patents

Abstract

Disclosed is a street light lamp with a block-type assembly structure. The street light lamp with a block-type assembly structure of the present invention comprises: a power supply unit combined with an arm wherein a power supply apparatus is installed; and a lighting unit combined with the power supply unit wherein a light source connected to the power supply apparatus with wiring is installed. The lighting unit comprises one or more lighting modules which respectively have a light source and which may serially be connected. According to the present invention, the street light lamp of the present invention is applicable to a broad light distribution regulation, and is able to keep an efficiency of heat radiation at a higher level than a conventional one; to easily have a smart function such as IoT, security camera, and wireless communication; and to be adapted and installed in a variety of arm sizes and various shapes of arm end units.

Description

[0001] The present invention relates to a lamp assembly,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a street lamp of a block-type assembly structure, and more particularly, to a street lamp of a block-type assembly structure which is applicable to a wide range of light distribution regulations, .

Street light is an illumination facility installed along the street for the safety and security of the street traffic. The street light is used according to the installation place such as the highway, the main road of the city area, the commercial district road, and the housing district road.

In this connection, Korean Patent Registration No. 916113 discloses an LED street light. Patent Document No. 916113 discloses an LED street lamp in which an LED mounted PCB is installed in a housing and two or more LED mounted LEDs are installed at different irradiation angles. In this LED street lamp, a lamp mounted on a lamp mount, At least two or more LED lamp modules closely contacted and treated as a single bundle with different irradiation angles; And a housing in which at least one module installation unit for installing the LED lamp module in a heat exchangeable manner is provided.

Patent Document 916113 discloses an LED lamp module in which two or more LED packaged LEDs are closely coupled to a lamp mount so that the LED lamp module can be installed and dismounted as a single bundle on the housing, The facility management cost is remarkably reduced, and various light distribution regulations can be easily adjusted.

However, since the LED streetlight of the registered patent publication No. 916113 can not change the size of the module installation part where the LED is installed even if the PC's seating surface is selectively applied according to the light distribution regulations, the technical limit .

In addition, the LED street lamp of Japanese Patent No. 916113 has a disadvantage in that the size of the housing becomes excessively large as compared with the light quantity of the LED when a small number of LEDs are installed according to the light distribution regulations, and the heat radiation structure of the housing is the same, There has been a problem that the heat radiation efficiency fluctuates depending on the quantity change of the LED according to the regulation.

In addition, the LED street lamp of Patent Publication No. 916113 has a problem that it is necessary to change the housing or install it separately in the street lamp or the like in order to install the IOT function, the security camera, and the wireless communication module in the streetlight.

In addition, the size of the arm and the shape of the end portion of the arm that can be coupled to each housing are determined in the conventional street light, so that the size of the arm and the housing has to be adjusted in advance.

(0001) Korean Patent Registration No. 916113 (Registered on August 31, 2009)

It is an object of the present invention to provide a lighting system that can be applied to a wide range of light distribution regulations, can maintain a constant heat radiation efficiency higher than the conventional one, can easily provide smart functions such as IOT, security camera and wireless communication, And a lamp assembly having a block-type assembly structure that can be installed in accordance with the shape of the end portion.

According to the present invention, said object is achieved by a power supply unit which is coupled to an arm and is equipped with a power supply unit; And an illumination unit coupled to the power supply unit and having a light source connected to the power supply unit. The illumination unit includes one or more illumination modules each of which is provided with a light source, And the lamps of the block type assembly structure.

A pair of supporting bars extending parallel to each other from the power supply unit, an insertion hole into which the pair of supporting bars are inserted, and the power supply unit and the lighting module are connected in series .

The illumination unit may further include an end cap which is pressed by a fastening means screwed to an end of the support bar and closely contacts the lighting module toward the power source unit.

And a smart module provided with a camera or a communication device to which the insertion hole is formed and which is connected to the power supply device by wiring, wherein the smart module includes a power supply unit and a lighting module, . ≪ / RTI >

And a waterproof packing provided between the power source unit and the at least one lighting module and having a through hole through which the wiring passes, wherein the waterproof packing is configured to form a multi-stage sealed space between the outside and the through hole.

Wherein a first insertion hole is formed at one end of the power source unit and the lighting module, and a second insertion hole is formed at the other end of the lighting module, the second insertion hole being connected to the first insertion hole, A body having a hole formed therein; A plurality of first elastic protrusions formed on the outer surface of the body and closely contacting the inner surface of the first insertion hole to form the multi-end closed space in the first insertion hole; And a plurality of second elastic protrusions formed on an outer surface of the body and closely contacting the inner surface of the second insertion hole to form the multi-end closed space in the second insertion hole.

The lighting module includes a housing having the insertion hole and the heat dissipating rib formed thereon. The upper surface of the housing forms a symmetrical ramp which is lowered toward the support bar. A suction port through which the outside air and foreign matter passes is formed between the ramp and the support bar .

The illumination module may include: a substrate having the light source disposed on a bottom surface thereof; And a housing having a heat radiation rib for emitting heat of the substrate, wherein the heat radiation rib is brought into contact with the upper surface of the substrate on the upper side of the light source.

The power supply unit includes a case forming an inlet hole through which the arm passes, and a mount for receiving an end of the arm; And a mounting bracket bolted to the case between the inlet hole and the mounting portion, the arm being adapted to be fixed between the inlet hole, the mounting portion and the mounting bracket.

The mounting bracket includes: a plurality of fastening portions bolted to the case; And a pressing portion connecting the plurality of fastening portions to each other and pressing the arm by the fastening force of the bolts.

Wherein the pressing portion is protruded from the coupling portion to one side and the coupling portion is coupled to the case in a protruding direction of the pressing portion or in a direction opposite to the pressing direction, And the interval between the pressing portions may be changed.

The mounting portion may be configured to form a plurality of stepped portions spaced apart from each other by the pressing portion.

According to the present invention, it is possible to provide a street lamp of a block-type assembled structure that is configured to include at least one lighting module that can be connected to each other in series so that the lighting unit can be applied to a wide range of light distribution regulations.

Further, it is possible to provide a street lamp of a block-type assembled structure which is capable of maintaining a uniform heat radiation efficiency higher than the conventional one by forming a symmetrical ramp and an intake port in the housing.

Also, since the smart module is connected to the power module and the lighting module in one direction by the support bar, it is possible to provide a street lamp of a block-type assembly structure that can easily provide smart functions such as IOT, security camera, and wireless communication.

Further, since the arm is fixed between the inlet hole, the mounting portion and the mounting bracket, it is possible to provide a street lamp with a block-type assembly structure that can be installed in accordance with various types of sizes of the arm or the end of the arm.

1 and 2 are perspective views of a streetlight lamp according to an embodiment of the present invention.
FIG. 3 and FIG. 4 are exploded perspective views of the streetlight lamp of FIG. 1;
5 is a cross-sectional view of the streetlight lamp of Fig.
Fig. 6 is a perspective view showing a mounting bracket of the streetlight lamp of Fig. 1; Fig.
7 is a rear view of the case of the streetlight lamp of Fig.
Figure 8 is a partial cross-sectional view of the streetlight lamp of Figure 1;
Fig. 9 is a perspective view showing a state in which the lighting unit of the streetlight lamp of Fig. 1 is composed of one lighting module; Fig.
10 is an exploded perspective view of the streetlight lamp of Fig.
11 is a side view showing a state in which the smart module is coupled to the street lamp of FIG.
12 is an exploded side view of the streetlight lamp of Fig.
13 is a sectional view of the lighting module of the streetlight lamp of Fig. 1;
Figure 14 is a partially exploded perspective view of the lighting module of the streetlight lamp of Figure 1;
FIGS. 15, 16 and 19 are perspective views of a waterproof packing of the streetlight lamp of FIG. 1;
17 and 20 are partial sectional views of the streetlight lamp of Fig. 3;
Figs. 18 and 21 are partial enlarged views of the streetlight lamp of Fig. 5; Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the well-known functions or constructions are not described in order to simplify the gist of the present invention.

The street lamp of the block assembly structure according to the present invention can be applied to a wide range of light distribution regulations and can maintain the heat radiation efficiency which is higher than the conventional one constantly and can easily provide smart functions such as IOT, security camera and wireless communication , And can be installed in accordance with the shape of various arm sizes or arm ends.

FIG. 1 is a perspective view of a streetlight lamp according to an embodiment of the present invention, FIG. 3 is a perspective view of the streetlight lamp of FIG. 1, FIG. Fig. 7 is a rear view of the case of the streetlight lamp of Fig. 1, Fig. 8 is a partial cross-sectional view of the streetlight lamp of Fig. 1, Fig. 9 is a partial perspective view of the lighting fixture of the streetlight lamp of Fig. 11 is a side view showing a state in which the smart module is coupled to the street lamp of Fig. 9, Fig. 12 is a side view of the street lamp of Fig. 11, and Fig. Fig. 13 is a sectional view of the lighting module of the streetlight lamp of Fig. 1, Fig. 14 is a partially separated perspective view of the lighting module of the streetlight lamp of Fig. 1, Figs. 15, 16 and 19 are perspective views of the waterproof packing of the streetlight lamp of Fig. , Figs. 17 and 20 are graphs In such portion of the ramp section, Fig. 18 and Fig. 21 is a partially enlarged view of the streetlight lamp of Figure 5;

As shown in FIGS. 1 to 4, the street lamp of the block assembly structure of the present invention can be applied to a wide range of light distribution regulations, An illumination unit 200, and a waterproof packing 300. Hereinafter, in order to facilitate understanding of the present invention, upper and lower portions will be described in detail.

5, the power supply unit 100 includes a case 110, a mounting bracket 120, and a power supply unit 130 for supplying an external power source to the illumination unit 200 side.

The case 110 forms a coupling force with the arm 1 of the streetlight. In the streetlight, the arm (1) is a well-known term that refers to a portion extending from a lantern to a ramp into a road or a walkway. The case 110 includes a main body 111 and a power door 112.

8, the main body 111 is formed with an inlet hole 111H through which the arm 1 passes and a mounting portion 111F through which the end of the arm 1 is mounted.

5 and 8, the mounting bracket 120 is a structure for fixing the arm 1 to the main body 111, and is provided between the inlet hole 111H and the mounting portion 111F, 111). The mounting bracket 120 is fixed to the main body 111 by a bolt fastening force between the mounting portion 111F and the mounting bracket 120. [ The main body 111 is formed with a plurality of protrusions 111P that separate the mounting bracket 120 from the inlet hole 111H and the mounting portion 111F by a predetermined distance. The mounting bracket 120 is bolted to the projection 111P.

The mounting bracket 120 includes a fastening portion 121 and a pressing portion 122.

The fastening portions 121 are fastened to the main body 111 by bolts, and a plurality of fastening portions 121 are provided. 6 shows that four fastening portions 121 are provided. Each of the fastening portions 121 is formed with a hole for bolt connection to the main body 111, respectively.

The pressing portion 122 is configured to press the arm 1 by the fastening force of the bolt, and is provided so as to connect the plurality of fastening portions 121 to each other. The pressing portion 122 protrudes from the coupling portion 121 in one direction and the coupling portion 121 is in the protruding direction of the pressing portion 122 'To the main body 111. [ The distance between the inlet hole 111H and the mounting portion 111F and the pressing portion 122 is changed by reversing the direction in which the coupling portion 121 is coupled to the main body 111. [ A curved surface 122F which is in close contact with the outer surface of the arm 1 is formed at an upper end portion and a lower end portion of the pressing portion 122, respectively. A plurality of teeth may be formed on the curved surface 122F to increase frictional force.

Figures 6 (a) and 6 (b) show the mounting bracket 120 switched in opposite directions. 7A and 7B are rear views showing a state in which the mounting bracket 120 turned in the opposite direction to each other is bolted to the projecting portion 111P. FIGS. 8A and 8B are cross- Sectional view illustrating a state in which the mounting bracket 120 turned in opposite directions is bolted.

7A and 8A, when the fastening portion 121 is coupled to the main body 111 in the first direction, the inlet hole 111H and the mounting portion 111F are engaged with the pressing portion The distance between the arm 122 and the arm 1 is shortened, and therefore, the arm 1 having a relatively small diameter can be fixed. 5, the end of the arm 1 is in contact with the mounting portion 111F, is in close contact with the upper portion of the inlet hole 111H at the rear side, and the mounting portion 111F and the inlet hole 111H The pressing portion 122 is pressed upward.

As shown in Figs. 7 and 8, the mounting portion 111F is formed with a plurality of steps separated from the pressing portion 122 at different intervals. When the end of the arm 1 is brought into contact with the different stepped portion at the mounting portion 111F, the fixed angle of the arm 1 can be varied variously.

7 (b) and 8 (b), when the fastening portion 121 is coupled to the main body 111 in the second direction, the inlet hole 111H and the mounting portion 111F are engaged with the pressing portion The spacing distance between the arm 122 and the arm 122 is increased, and thus the arm 1 having a relatively large diameter can be fixed. 8, the end of the arm 1 is in contact with the mounting portion 111F and is in close contact with the upper portion of the inlet hole 111H at the rear side, and the mounting portion 111F and the inlet hole 111H The pressing portion 122 is pressed upward.

3 and 4, a pair of support bars D are coupled to the main body 111. As shown in FIG. The supporting bar D is a structure for maintaining at least one lighting module 210 in a straight line shape connected to the main body 111 in one direction and is connected to the main body 111 from the main body 111, 210).

As shown in FIG. 5, the power door 112 is rotatably coupled to the main body 111 below the inlet hole 111H. The inner space between the main body 111 and the power door 112 is opened or closed through the rotation of the power door 112 in the state where the street lamp is installed. Reference numeral 110N denotes a hinge portion for rotatably connecting the power door 112 and the main body 111. [

5, when the operator rotates the power door 112 counterclockwise (with respect to the hinge portion 110N), the first internal space S1 is opened. When the power door 112 is rotated in the clockwise direction with the first inner space S1 opened, the first inner space S1 is closed from the outside. Power supply 130 may be coupled to power door 112.

Referring to FIG. 1, when the first internal space S1 is closed, the main body 111 and the power door 112 are prevented from rotating relative to each other by the locking member 110R. The locking member 110R is a coupling means for forming a coupling force between the main body 111 and the power door 112, and can be selectively applied to various known technologies such as a rotation locking structure and a bolt locking structure.

5, the first inner space S1 includes a space (hereinafter referred to as 'engagement space S1-1') to which the arm 1 is coupled (hereinafter referred to as 'engagement space S1-1') and a space in which the power supply device 130 is installed Space S1-2 '). The coupling space S1-1 and the installation space S1-2 are partitioned by the partition 110W formed in the case 110. [

The partition wall 110W is formed with a hole through which the external power line passes, and the cable gland G is coupled to the hole to seal the installation space S1-2. The external power line is drawn into the engagement space S1-1 through the arm 1 and connected to the power supply unit 130 via the cable gates G. [

The main body 111 is formed with a first insertion hole H1 on the opposite side of the insertion hole 111H. The first insertion hole H1 is a portion where the waterproof packing 300 is inserted from the outside. The wiring (not shown) of the power supply unit 130 passes through the through hole 310H formed in the waterproof packing 300 and enters the inside of the illumination unit 200. [ 5, 18, and 21 do not show wiring for easy understanding of the internal configuration.

As shown in FIG. 5, the illumination unit 200 includes a light source 212 and at least one illumination module 210 and an end cap 220. The lighting modules 210 have the same structure, and a light source 212 is installed. The lighting module 210 may be connected in series from the end of the light source 212 portion. The total amount of light increases or decreases in proportion to the number of the lighting modules 210 installed.

The number of the lighting modules 210 connected in series is not limited. FIG. 1 and FIG. 2 show a state in which two lighting modules 210 are installed, and FIG. 9 shows a state in which one lighting module 210 is installed. Hereinafter, a description will be made with reference to a state where two lighting modules 210 are installed. The lighting module 210 directly coupled to the power source unit 100 is referred to as a 'first lighting module' and the lighting module 210 coupled to the first lighting module is referred to as a ' 2 lighting module '.

The length of the support bars D is determined in proportion to the number of lighting modules 210 connected in series. Assuming that the length of one lighting module 210 is L, the support bar D has a length L + α (the length of the fastening portion of the case 110 and the end cap 220) when one lighting module 210 is installed, The supporting bar D is formed to have a length of 2L + α when the two lighting modules 210 are installed and the supporting bar D has a length of 3L + α when the three lighting modules 210 are installed. .

The lighting module 210 includes a housing 211, a light source 212, an LED module, a packing 213, a lens 214 and a cover 215.

An opening is formed in the lower end of the housing 211, and a substrate 212B provided with a light source 212 on the bottom is seated around the opening. A lens 214 for condensing the light of the LED is provided under the substrate 212B. A packing 213 is interposed between the lens 214 and the housing 211 to block the penetration of moisture through the opening. The lens 214 is in close contact with the packing 213 by the lid 215.

On the outer surface and the inner surface of the housing 211, heat radiating ribs 211R for rapidly discharging the heat of the light source 212 to the outside are respectively formed. Hereinafter, the inner space of the housing 211 is referred to as a 'second inner space S2'.

13 and 14, the heat dissipating rib 211R is in contact with the upper surface of the substrate 212B on the upper side of the light source 212, so that the heat of the light source 212 can be quickly radiated to the outside . 13 is a cross-sectional view of the light source portion, and FIG. 14 is a cross-sectional view of the light source portion.

3 and 4, the housing 211 is formed with a first insertion hole H1 and a second insertion hole H2 through which the waterproof packing 300 is inserted from the outside. The first insertion hole H1 and the second insertion hole H2 are formed on opposite sides in the direction in which the illumination modules 210 are connected to each other.

As shown in FIGS. 5, 17, 18, 20 and 21, the first insertion hole H1 and the second insertion hole H2 receive the waterproof packing 300 together. 17 and 18) together with the first insertion hole H1 of the power source unit 100 in a state of being connected to the second insertion hole H2 of the first lighting module 210, And the first insertion hole H1 of the first lighting module 210 receives the waterproof packing 300 together with the second insertion hole H2 of the second lighting module 210 21). The first insertion hole H1 and the second insertion hole H2 may be formed in the same shape (see FIGS. 20 and 21) or may be formed in different shapes (see FIGS. 17 and 18).

17, 18, 20, and 21, the first insertion hole H1 and the second insertion hole H2 are provided with a step (not shown) for compressing the body 310 in the direction of the through hole 310H W are formed. The body 310 is compressed by the coupling force between the case 110 and the housing 211 in the first insertion hole H1 and the second insertion hole H2.

The housing 211 is formed with insertion holes 211H into which a pair of support bars D are inserted. The first illumination module 210 and the second illumination module 210 are maintained in a straight line shape connected in one direction by the support bar D extending from the main body 111. Although not shown in detail, a hole through which the bolt B is screwed is formed at an end of the support bar D.

The end cap 220 is pressed toward the power source unit 100 by the fastening means B screwed to the end of the support bar D so as to closely contact the lighting module 210 to the power source unit 100 side. In addition, the end cap 220 closes the first insertion hole H1 in which the waterproof packing 300 is not inserted from the outside.

The end cap 220 is coupled to the end of the second illumination module 210 when two illumination modules 220 are installed as in the embodiment of the present invention. Although not shown, it is to be understood that the end cap 220 is coupled to the end of the third illumination module (not shown), assuming that three illumination modules 220 are installed.

13, the upper surface of the housing 211 forms a symmetrical ramp 211A which is lowered toward the support bar D, and outside air and foreign matter pass between the ramp 211A and the support bar D An inlet 211D is formed. Therefore, the dust and floating matter accumulated on the upper surface of the housing 211 easily slides along the inclined road 211A due to its own weight, wind and rain water, and then quickly discharged through the inlet 211D.

The wind that flows around the housing 211 flows into the ramp 211A through the intake port 211D and then flows along the streamlined ramp 211A to the upper side or flows downward along the ramp 211A, 211D so that the heat of the heat radiating rib 211R formed on the inclined road 211A is quickly discharged to the outside due to the high wind speed.

5, in a state where the power source unit 100, the first lighting module 210 and the second lighting module 210 are coupled to each other, the first insertion hole H1 of the power source unit 100, The first insertion hole H1 of the first illumination module 210 and the second insertion hole H2 of the second illumination module 210 are connected to each other (see FIGS. 17 and 18) The insertion holes H2 are also connected to each other (see Figs. 20 and 21).

15, 16 and 19, the waterproof packing 300 has a structure in which a multi-stage hermetically sealed space A1 is formed between the outside and the through hole 310H, and includes a body 310, The second elastic protrusions 330, the third elastic protrusions 340, and the fourth elastic protrusions 350. The elastic protrusions 320, the second elastic protrusions 330, the third elastic protrusions 340,

The waterproof packing 300 is provided inside the first insertion hole H1 and the second insertion hole H2 between the power source unit 100 and the first lighting module 210 (See Figs. 20 and 21) between the lighting module 210 and the second lighting module 210 in the first insertion hole H1 and the second insertion hole H2. The waterproof packing 300 provided between the power source unit 100 and the first lighting module 210 is referred to as a first waterproof packing and the first lighting module 210 is referred to as a first waterproof packing, And the waterproof packing 300 provided between the first illumination module 210 and the second illumination module 210 will be referred to as a 'second waterproof packing'.

One end of the body 310 is received in the first insertion hole H1 and the other side of the body 310 is inserted into the second insertion hole H2, as shown in FIGS. 17, 18, 20, Lt; / RTI > The outer surface of the body 310 is separated from the inner surfaces of the first insertion hole H1 and the second insertion hole H2 by the first elastic protrusion 320, the second elastic protrusion 330, and the third elastic protrusion 340 It is separated. In the body 310, a through hole 310H through which wiring is passed is formed. The first inner space S1 and the second inner space S2 are connected to each other by a through hole 310H.

The first elastic protrusions 320 are formed in close contact with the inner surface of the first insertion hole H1 to form a multi-end closed space A1 in the first phase inlet hole, and a plurality of the elastic protrusions 320 are formed on the outer surface of the body 310. [ The second elastic protrusion 330 has a structure in which a multi-end closed space A1 is formed in the second insertion hole H2 by being closely attached to the inner surface of the second insertion hole H2, and a plurality of the elastic protrusions 330 are formed on the outer surface of the body 310 . The first elastic protrusions 320 and the second elastic protrusions 330 are formed on the opposite sides of the third elastic protrusions 340.

The third elastic protrusion 340 extends along the first insertion hole 311 along a portion where the case 110 and the housing 211 are coupled to each other (see FIG. 18) and a portion where the pair of the housings 211 are coupled End sealed space A1 together with the first elastic protrusion 320 and the second elastic protrusion 330 by being in close contact with the inner surfaces of the first insertion hole H1 and the second insertion hole H2.

Therefore, even when external moisture permeates between the case 110 and the housing 211 and between the pair of housings 211, the moisture is primarily absorbed by the inner surfaces of the first insertion holes H1 and the second insertion holes H2, The first insertion hole H1 and the second insertion hole H2 are prevented from being introduced into the second insertion hole H2 by the third elastic protrusion 340 adhered to the first insertion hole H1. Even if moisture passes through the third elastic protrusions 340, the moisture is trapped in the multi-end closed space A1 formed on both sides of the third elastic protrusion 340, and the first internal space S1 and the second internal space (S2) is blocked.

17, 18, 20 and 21, in the process of inserting the waterproof packing 300 into the first insertion hole H1 and the second insertion hole H2, the first elastic protrusion 320 Is deflected in the direction of the second insertion hole H2 by the frictional force with the inner surface of the first insertion hole H1 and the second elastic protrusion 330 is bent by the frictional force with the inner surface of the second insertion hole H2, And is deflected in the direction of the insertion hole H1.

The first elastic protrusion 320 is formed with a first inclined surface 321 which is brought into close contact with the inner surface of the first insertion hole H1 during the bending deformation and the second elastic protrusion 330 is provided with a second insertion hole H2 A second inclined surface 331 is formed. The area of the first elastic protrusion 320 which is brought into close contact with the inner surface of the first insertion hole H1 is increased by the first inclined surface 321 and the area of the second elastic protrusion 330 is increased by the second inclined surface 331 The area of the second insertion hole H2 that is in close contact with the inner surface increases.

As shown in FIGS. 15, 16 and 19, the waterproof packing 300 is formed with the fourth elastic protrusions 350 at both ends in the direction in which the through hole 310H is formed. The fourth elastic projection 350 is formed to surround the entrance of the through hole 310H. 17, 18, 20, and 21, the fourth elastic projection 350 is compressed by the step W so that the penetration of water between the through hole 310H and the multi- Lt; / RTI >

As shown in FIGS. 11 and 12, the streetlight lamp 10 of the present invention may further include a smart module 400 having a camera or a communication device installed therein.

The smart module 400 includes an IOT unit, a surveillance camera unit or a communication unit. The housing 420 is formed with an insertion hole (not shown) into which the support bar D is inserted, The power source unit 100 and the lighting module 210 in one direction. Reference numeral 410 denotes a camera of the surveillance camera unit.

Although not shown in detail, first and second insertion holes H1 and H2 through which wires are passed are formed at both ends of the housing 420, and between the power source unit 100 and the lighting module 210, It should be understood that the packing 300 is interposed between the first insertion hole H1 and the second insertion hole H2.

According to the present invention, it is possible to provide a street lamp of a block-type assembled structure that is configured to include at least one lighting module that can be connected to each other in series so that the lighting unit can be applied to a wide range of light distribution regulations.

Further, it is possible to provide a street lamp of a block-type assembled structure which is capable of maintaining a uniform heat radiation efficiency higher than the conventional one by forming a symmetrical ramp and an intake port in the housing.

Also, since the smart module is connected to the power module and the lighting module in one direction by the support bar, it is possible to provide a street lamp of a block-type assembly structure that can easily provide smart functions such as IOT, security camera, and wireless communication.

Further, since the arm is fixed between the inlet hole, the mounting portion and the mounting bracket, it is possible to provide a street lamp with a block-type assembly structure that can be installed in accordance with various types of sizes of the arm or the end of the arm.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, it should be understood that such modifications or alterations should not be understood individually from the technical spirit and viewpoint of the present invention, and that modified embodiments fall within the scope of the claims of the present invention.

10: street lamp
100: power supply unit 200:
110: Case 210: Lighting module
111: main body 211: housing
111H: inlet hole 211A: ramp
111F: mounting portion 211D: inlet
H1: first insertion hole 211R: heat dissipating rib
W: step H2: second insertion hole
D: support bar S2: second inner space
112: Power door 212: Light source
S1: First internal space 213: Packing
S1-1: coupling space 214: lens
S1-2: Installation space 215: Cover
110N: Hinge part 220: End cap
110W: bulkhead 1: arm
110R: locking member
G: Cable Grand
120: Mounting bracket
130: Power supply
300: Waterproof packing
310: Body
310H: through hole
320: first elastic projection
321: first inclined surface
330: second elastic projection
331: second inclined surface
340: third elastic projection
350: fourth elastic projection
360: fifth elastic projection
A1: Multistage sealed space
A2: Isolation space

Claims (12)

A power supply coupled to the arm and having a power supply; And
And a lighting unit coupled to the power supply unit and having a light source connected to the power supply unit by wiring,
Wherein the illumination unit includes at least one illumination module each of which is provided with the light sources and can be connected to each other in series,
The power supply unit,
A case for forming an inlet hole through which the arm passes, and a mounting portion for receiving an end of the arm; And
And a mounting bracket bolted to the case between the inlet hole and the mounting portion,
Wherein the arm is fixed between the inlet hole, the mounting portion and the mounting bracket. The method according to claim 1,
A pair of support bars extending parallel to each other from the power supply unit,
Wherein the illumination module is formed with an insertion hole into which the pair of support bars are inserted,
Wherein the power supply unit and the lighting module maintain a serial form connected in one direction by the support bar. 3. The method of claim 2,
Wherein the lighting unit further comprises an end cap which is pressed by a fastening means screwed to an end of the support bar to closely contact the lighting module with the power source unit. 3. The method of claim 2,
Further comprising a smart module in which the insertion hole is formed and in which a camera or a communication device connected to the power supply device is connected,
Wherein the smart module maintains a serial form connected to the power unit and the lighting module in one direction by the support bar. The method according to claim 1,
And a waterproof packing provided between the power source unit and the at least one lighting module, the waterproof packing having through holes through which the wiring lines pass,
Wherein the waterproof packing forms a multi-end closed space between the outside and the through hole. 6. The method of claim 5,
Wherein a first insertion hole is formed at one end of the power supply unit and the lighting module,
A second insertion hole connected to the first insertion hole is formed at the other end of the illumination module,
The waterproof packing
A body having the through-hole formed therein;
A plurality of first elastic protrusions formed on the outer surface of the body and closely contacting the inner surface of the first insertion hole to form the multi-end closed space in the first insertion hole; And
And a plurality of second elastic protrusions formed on the outer surface of the body and closely contacting the inner surface of the second insertion hole to form the multi-end closed space in the second insertion hole. . 3. The method of claim 2,
Wherein the illumination module includes a housing having the insertion hole and the heat dissipating rib formed therein,
Wherein the upper surface of the housing forms a symmetrical ramp which is lowered toward the support bar,
And a suction port through which outside air and foreign matter pass is formed between the ramp and the support bar. 3. The method of claim 2,
The lighting module includes:
A substrate on which the light source is disposed; And
And a housing having a heat dissipating rib for dissipating heat of the substrate,
Wherein the heat radiating rib is in contact with the upper surface of the substrate on the upper side of the light source. delete delete delete delete

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