TWM618341U - Smart street light device - Google Patents

Abstract

This case provides an intelligent street lamp device, which includes a lamp, a connecting shell, and a control box. The lamp includes a first top surface, a first power connection terminal disposed on the first top surface, a first bottom surface, and a light emitting module disposed on the first bottom surface. The connecting shell is arranged on the first top surface of the lamp, the connecting shell includes a second top surface, and the second top surface has two side flanges. The control box is arranged on the second top surface of the connecting shell. The control box includes a third top surface, a third bottom surface opposite to the third top surface, and two extension parts. The two extension parts are respectively located on two opposite sides of the third bottom surface. Parallel to each other, the two extensions respectively extend toward the inside to form two grooves relative to the third bottom surface. The two grooves are used for accommodating the two side flanges of the connecting shell, so that the control box is slidably arranged on the connecting shell .

Description

Smart street light device

This case is related to a lighting fixture, especially a smart street light device.

Traditional street lights are mostly installed on outdoor roads, highways or sports fields. They are affected by the outdoor environment. Traditional street lights need to withstand weather changes such as wind, rain or sun. These weather changes will cause the light-emitting modules and power supplies inside the street lights. Circuit components such as modules and control modules are short-circuited or damaged, so inspection and maintenance are often required.

However, traditional street lights do not have a good system for management. Maintenance personnel can only judge whether traditional street lights are functioning normally through visual observation, although there is already a so-called smart street light management system to provide maintenance personnel through the Internet of Things. Quickly find the problematic street lamp, but most of the current smart street lamps still use an integrated structure, combining circuit components such as light-emitting modules, power modules, and control modules into a lamp and installed on the street light pole. Such a bulky design Not only makes it difficult for maintenance personnel to perform maintenance or replacement operations, but also causes the cost of replacing lamps to be too expensive.

In view of this, this case discloses an intelligent street lamp device, which includes a lamp, a connecting housing and a control box. The lamp includes a first top surface, a first bottom surface, a light emitting module, and a first power connection end. The first power connection end is disposed on the first top surface, the light emitting module is disposed on the first bottom surface, and the first top surface has two sides. Card slot. The connecting housing is arranged on the first top surface of the lamp, which includes a second top surface, a first side surface, a second side surface, a first front surface and a rear opening opposite to the first front surface, wherein the second top surface has two A side flange, the first side surface has a first side surface extension, and the second side surface has a second side surface extension. The control box includes a third top surface, a second front surface, a third bottom surface opposite to the third top surface, and two extension parts, wherein the two extension parts are respectively located on two opposite sides of the third bottom surface and are parallel to each other. The two extensions respectively extend toward the inner side to form two grooves relative to the third bottom surface, and the two grooves are used for accommodating the two side flanges of the connecting shell, so that the control box is slidably disposed on the connecting shell. The second top surface.

In some embodiments, the two side grooves of the lamp of the smart street light device are used to accommodate the first side surface extension part and the second side surface extension part of the connecting shell, so that the connecting shell is slidably arranged on the lamp .

In some embodiments, the above-mentioned smart street lamp device further includes a plurality of screws, the first side surface extension portion and the second side surface extension portion are provided with a plurality of first lock holes, and the first top surface of the lamp is provided with a first lock A plurality of first lock seats corresponding to the holes, and the screws respectively pass through the first lock holes and the first lock seats to lock the connecting shell on the lamp.

In some embodiments, the above-mentioned smart street light device further includes a plurality of screws, the second extension of the control box is provided with a plurality of second locking holes, and the two sides of the connecting housing are provided with a plurality of second locking holes corresponding to the second locking holes. Three lock holes, the screws respectively pass through each second lock hole and each third lock hole to lock the control box on the connecting shell.

In some embodiments, a plurality of heat dissipation fins are formed on the first top surface of the lamp of the smart street lamp device.

In some embodiments, a threading hole is formed on the first front surface of the connecting housing of the smart street light device.

In some embodiments, the above-mentioned smart street light device further includes a controller socket disposed on the third top surface of the control box.

In some embodiments, the controller socket of the smart street light device is a NEMA socket.

In some embodiments, the aforementioned NEMA socket includes seven pins.

In some embodiments, the control box of the above-mentioned smart street light device further includes a second power connection terminal and a third power connection terminal. The second power connection end is arranged on the second front surface of the control box and is electrically connected to the external power supply through the first power cord. The third power connection terminal is arranged on the second front surface of the control box and is electrically connected to the first power connection terminal through the second power cord.

In some embodiments, the control box of the above-mentioned smart street light device further includes a second power connection terminal and a third power connection terminal. The second power connection end is arranged on the third bottom surface of the control box and is electrically connected to the external power supply through the first power line. The third power connection end is arranged on the third bottom surface of the control box, and is electrically connected to the first power connection end through the second power cord.

FIGS. 1-9 illustrate a smart street light device 10, and the smart street light device 10 depicted includes a lamp 100, a connection housing 200 and a control box 300. The lamp 100 is used to provide a light source, and the connection housing 200 is used to install the smart street lamp device 10 on the lamp pole of the street lamp. The control box 300 is provided with a power supply module, wherein the power supply module is used to receive the external power supply. Provide the power supply, and convert the power supply into a suitable power supply specification to provide the lamp 100 for use. The structures of the lamp 100, the connecting housing 200 and the control box 300 will be respectively described below, and the arrangement of each other will be explained in detail.

As shown in FIGS. 1 and 7, the lamp 100 includes a first top surface 130, a first bottom surface 110, a light emitting module 111, and a first power connection terminal 120. The first power connection terminal 120 is disposed on the first top surface 130 and emits light. The module 111 is arranged on the first bottom surface 110, wherein the light-emitting module 111 can be an LED light board module of any model and any luminous power according to the actual required illuminance. A common LED light board module contains multiple identical watts. An array of LEDs. The first power connection terminal 120 is electrically connected to the light-emitting module 111, and is used to receive power from the control box 300 to provide the light-emitting module 111 for use. In some embodiments, the first top surface 130 of the lamp 100 is formed with a plurality of heat dissipation fins 131, wherein the heat dissipation fins 131 are used to conduct heat generated during the operation of the lamp 100 and perform passive heat dissipation.

As shown in FIGS. 8 and 9, the connecting housing 200 includes a second top surface 210, a first side surface 250, a second side surface 260, a first front surface 220, and is opposite to the first front surface 220. A rear opening 240, wherein the rear opening 240 is used to connect with a light pole, so that the lamp 100 can be installed at a predetermined height from the ground by the light pole to provide illumination of the area.

In some embodiments, as shown in FIGS. 8 and 9, the bottom of the first side surface 250 of the connecting housing 200 has a first side surface extension 251 extending outward, and the bottom of the second side surface 260 has an outward extension. An extended second side surface extension 261. 2 and 3, the first top surface 130 of the lamp 100 has two side grooves 132A, 132B, wherein the two side grooves 132A, 132B are respectively used to accommodate the first side of the connecting housing 200 The surface extension 251 and the second side surface extension 261 enable the connecting housing 200 to be slidably coupled to the two side grooves 132A and 132B of the lamp 100 through the first side surface extension 251 and the second side surface extension 261. As shown in Figures 1, 8 and 9, in some embodiments, the first side surface extension 251 and the second side surface extension 261 of the connecting housing 200 are respectively provided with a plurality of keyholes, and the lamp 100 The first top surface 130 is provided with lock seats corresponding to the lock holes of the first side surface extension 251 and the second side surface extension 261, and the connecting housing 200 is locked by passing the screw 400 through the lock hole and the lock seat.于灯100上。 On the lamp 100.

The control box 300 includes a third top surface 310, a third bottom surface 330 opposite to the third top surface 310, two extension portions 331A and 331B, and a third rear surface 340. The two extension portions 331A, 331B are respectively located on two opposite sides of the third bottom surface 330 and are parallel to each other, and the two extension portions 331A, 331B respectively extend toward the inner side to form two grooves 332A, 332B, and two grooves 332A relative to the third bottom surface 330 332B is used to accommodate the two side flanges 211A, 211B of the connecting housing 200, so that the control box 300 can be slidably coupled to the two side flanges 211A, 211B of the connecting housing 200 through the two grooves 332A, 332B.

In some embodiments, the lamp 100 is a standard product, and its first top surface 130 will also have a connecting shell for connecting with the lamp pole. However, the connecting shell on the existing street lamp can only provide the lamp with the connecting shell. For the function of connecting rods, the top surface does not have two side flanges. Therefore, for non-intelligent street lamp devices that are currently installed on the road, only the connecting housing needs to be modified so that the top surface of the connecting housing has two side projections that can match the two grooves 332A, 332B of the control box 300 in this case. Because of this, the non-intelligent street lamp device currently installed on the road and the control box 300 can be connected to each other and upgraded to a smart street lamp device.

One of the ways to modify the connecting shell is to additionally provide a tailor-made cover on the top surface of the connecting shell, and the top surface of the cover has two grooves that can be compatible with the control box 300 of this case. 332A and 332B have matching two-side flanges, so that the current non-smart street lamp device installed on the road can be upgraded to the smart street lamp device disclosed in this case with minimal cost.

As shown in Figures 8 and 9, in some embodiments, the two extensions 331A, 331B of the control box 300 are provided with a plurality of locking holes 410, and the two side surfaces 250, 260 of the connecting housing 200 are also provided with control The lock hole 410 of the box 300 corresponds to the lock hole 410, and the control box 300 is fixed to the connecting housing 200 through the screw 400 passing through the lock hole 410.

As shown in FIG. 1, in some embodiments, the smart street light device 10 further includes a controller socket 311, and the controller socket 311 is disposed on the third top surface 310 of the control box 300. The controller socket 311 is a NEMA (National Electrical Manufacturers Association) socket with one of seven pins in a mechanical structure. The NEMA socket is a socket standard defined by the American National Standards Institute (ANSI). In some embodiments, the electrical characteristics of a NEMA socket with seven pins can be three pins (AC only), five pins (DIMMING), or seven pins (customized specifications). The NEMA socket is used to set up a street lamp NEMA controller of any model. Among them, the street lamp NEMA controller mainly has three purposes. The first is to control the switch and light brightness of the smart street light device 10; the second is to detect the temperature of the smart street light device 10 , Power and usage status; the third is to report the status of the smart street light device 10 through e-mail, mobile phone text messaging, or the Internet of Things. In some embodiments, the controller socket 311 may also be a control socket that complies with one of other socket standards.

As shown in FIGS. 1, 8 and 9, in some embodiments, the smart street light device 10 further includes a second power connection terminal 321 and a third power connection terminal 322, which are arranged on the second front of the control box 300 Surface 320. The second power connector 321 is electrically connected to an external power supply through a first power cord 323, and the third power connector 322 is electrically connected to the first power connector 120 through a second power cord 324. The power cord 323 passes through a threading hole 221 of the first front surface 220 of the connection housing 200 and is fixed by a power cord holder 222. The function of the second power connection terminal 321 is to receive the power provided by the external power supply and transmit it to the control box 300. The function of the third power connection terminal 322 is to make the control box 300 transmit power to the first power supply line 324. The power connection terminal 120 is further transmitted to the light-emitting module 111.

As shown in Figures 8 and 9, in some embodiments, the control box 300 can be slidably separated from the connecting housing 200, and the control box 300 can be set at any position within a specified distance, where the specified distance The maximum value is determined by the length of the first power line 323 and the second power line 324. There are three main benefits of separating the control box 300 from the connecting housing 200. The first is a high degree of freedom. As long as the length of the first power cord 323 and the second power cord 324 is long enough, you can choose the control box 300 by yourself. For example, it is installed on the ground to facilitate regular inspections and repairs by maintenance personnel. The second is low maintenance cost. Compared with traditional street lamps that need to be repaired or replaced when a whole group of lamps are damaged, the smart street lamp device 10 can be repaired or repaired individually. Replace the damaged lamp 100, connection housing 200 or control box 300 to reduce costs; the third is high compatibility, the control box 300 is suitable for all light-emitting modules, so as long as there is a suitable connection device (for example, the connection housing 200), the control box 300 can be installed on any type of lamps to form a smart street lamp.

As shown in FIG. 10, in some embodiments, the second power connection terminal 321 and the third power connection terminal 322 may also be disposed on the third bottom surface 330 of the control box 300. The advantage of disposing the second power connection terminal 321 and the third power connection terminal 322 on the third bottom surface 330 of the control box 300 is to prevent the second power connection terminal 321 and the third power connection terminal 322 from being directly damaged by weather changes. For example, when it rains, rainwater will flow to the ground along the two extensions 331A and 331B of the control box 300, instead of directly showering on the second power connection end 321 and the third power connection end 322.

Although this case has been disclosed as above by the embodiment, it is not used to limit the creation of this case. Anyone with ordinary knowledge in the technical field can make some modifications and changes without departing from the spirit and scope of the content of this disclosure. However, these slight modifications and changes are still within the scope of the patent application in this case.

10: Smart street light device 100: lamps 110: first bottom 111: light-emitting module 120: The first power connection 130: first top surface 131: cooling fins 132A: Card slot 132B: card slot 200: Connect the shell 210: second top surface 211A: Flange 211B: flange 220: first front surface 221: Threading Hole 222: Power cord retainer 240: rear opening 250: first side surface 251: First side surface extension 260: second side surface 261: Second side surface extension 300: control box 310: third top surface 311: Controller socket 320: second front surface 321: second power connection 322: third power connection terminal 323: The first power cord 324: second power cord 330: third bottom 340: third rear surface 331A: Extension 331B: Extension 332A: Groove 332B: groove 400: Screw 410: keyhole

[Fig. 1] is a three-dimensional schematic diagram of an embodiment of the smart street light device in this case. [Figure 2] is a front three-dimensional schematic diagram of an embodiment of the smart street light device in this case. [Figure 3] is a rear perspective schematic view of an embodiment of the smart street light device of this case. [Fig. 4] is a first perspective schematic diagram of an embodiment of the smart street light device in this case. [Fig. 5] is a second side perspective schematic diagram of an embodiment of the smart street light device of this case. [Figure 6] is a top perspective schematic view of an embodiment of the smart street light device of this case. [Fig. 7] is a bottom three-dimensional schematic diagram of an embodiment of the smart street light device in this case. [Fig. 8] is a partial three-dimensional exploded view of an embodiment of the smart street light device in this case from a first perspective. [Fig. 9] is a partial three-dimensional exploded view of an embodiment of the smart street lamp device of the present case from a second view angle. [Fig. 10] is a three-dimensional schematic diagram of another embodiment of the smart street light device in this case.

10: Smart street light device

100: lamps

110: first bottom

120: The first power connection

130: first top surface

131: cooling fins

200: Connect the shell

220: first front surface

260: second side surface

261: Second side surface extension

300: control box

310: third top surface

311: Controller socket

320: second front surface

321: second power connection

322: third power connection terminal

323: The first power cord

324: second power cord

330: third bottom

331B: Extension

400: Screw

Claims (11)

An intelligent street lamp device, including: A lamp comprising a first top surface, a first bottom surface, a light emitting module and a first power connection end, the first power connection end is arranged on the first top surface, and the light emitting module is arranged on the first On the bottom surface, the first top surface has two-side card slots; A connecting housing is disposed on the lamp. The connecting housing includes a second top surface, a first side surface, a second side surface, a first front surface, and a rear surface opposite to the first front surface. Opening, the second top surface has two side flanges, the first side surface has a first side surface extension, and the second side surface has a second side surface extension; and A control box is arranged on the connecting shell, the control box includes a third top surface, a second front surface, a third bottom surface opposite to the third top surface, and two extension parts, the two extension parts respectively Located on two opposite sides of the third bottom surface and parallel to each other, the two extension portions respectively extend toward the inner side to form two grooves relative to the third bottom surface, and the two grooves are used for accommodating the two side protrusions of the connecting housing Edge, so that the control box can be slidably arranged on the connecting shell. According to the smart street lamp device of claim 1, the two side grooves of the lamp are used for accommodating the first side surface extension and the second side surface extension of the connecting shell, so that the connecting shell can be slid The ground is set on the lamp. The smart street lamp device according to claim 1, further comprising a plurality of screws, the first side surface extension portion and the second side surface extension portion are provided with a plurality of first keyholes, and the first top surface of the lamp is provided with the A plurality of first lock seats corresponding to the first lock holes, and the screws respectively pass through the first lock holes and the first lock seats to lock the connecting shell on the lamp. The smart street lamp device according to claim 1, further comprising a plurality of screws, the second extension part of the control box is provided with a plurality of second locking holes, and the two side surfaces of the connecting shell are provided with corresponding to the second locking holes A plurality of third locking holes, the screws respectively pass through the second locking holes and the third locking holes to lock the control box on the connecting shell. The smart street lamp device according to claim 1, wherein a plurality of heat dissipation fins are formed on the first top surface of the lamp. The smart street lamp device according to claim 1, wherein a threading hole is formed on the first front surface of the connecting housing. The smart street light device according to claim 1, further comprising a controller socket, which is arranged on the third top surface of the control box. The smart street light device according to claim 7, wherein the controller socket is a NEMA socket. The smart street light device according to claim 8, wherein the NEMA socket includes seven pins. The smart street light device as described in claim 1, further comprising: A second power connection terminal, arranged on the second front surface of the control box, and electrically connected to an external power supply through a first power cord; and A third power connection terminal is arranged on the second front surface of the control box, and is electrically connected to the first power connection terminal through a second power cord. The smart street light device as described in claim 1, further comprising: A second power connection terminal, arranged on the third bottom surface of the control box, and electrically connected to an external power supply through a first power cord; and A third power connection terminal is arranged on the third bottom surface of the control box, and is electrically connected to the first power connection terminal through a second power cord.

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