CN218001315U - Intelligent building lighting device capable of being controlled in centralized mode - Google Patents

Abstract

The utility model discloses a but centralized control's building intelligent lighting device, including the lamp body, the inside fixed mounting of lamp body has control circuit board, filter plate, filter screen pipe, heat radiation fins, LED lamp plate, temperature sensor, relay and controller, the lower part fixed mounting of filter plate has the heat dissipation fan, inductive switch is installed to the lower part of LED lamp plate, the installation screwed pipe is installed to the lower part of lamp body, and the internally mounted of installation screwed pipe has lamp shade and conflict round hole board, the fixed cover fishplate bar that installs of lateral wall of lamp shade, the outside lateral wall of conflict round hole board is provided with the external screw thread, the multiunit recess has been seted up to the lower part of conflict round hole board, multiunit signal receiver is installed to the lateral wall of lamp body. Has the advantages that: the utility model discloses an air duct, through the air duct that sets up, need not to install electronic cleaning device, just can accomplish the cleaning of lamp shade automatically, but make centralized control's building intelligent lighting device accord with the theory of green development.

Description

Intelligent building lighting device capable of being controlled in centralized mode

Technical Field

The utility model relates to an intelligent lighting technology field particularly, relates to a but centralized control's building intelligent lighting device.

Background

The lighting device plays a role in lighting and decoration, most buildings still adopt a traditional lighting control mode nowadays, along with continuous progress of current building science and technology, intelligent control also becomes one of mainstream technologies of current building development, the building intelligent lighting device capable of being controlled in a centralized mode is used mostly at present, building intelligent lighting control is achieved, and the building intelligent lighting device capable of being controlled in a centralized mode has the advantages of being simple in operation, sensitive in response, long in service life and the like in practical use.

However, the existing building intelligent lighting device capable of being controlled in a centralized manner needs to be installed with an electric cleaning device to clean the lampshade regularly, the installation of the electric cleaning device can increase the production and use cost of the building intelligent lighting device capable of being controlled in a centralized manner, a large amount of electric power can be consumed by using the electric cleaning device for a long time, so that the building intelligent lighting device capable of being controlled in a centralized manner is not in accordance with the concept of green environmental development, secondly, the installation structure of the existing building intelligent lighting device capable of being controlled in a centralized manner is mostly an iron structure, when the using environment is a humid environment, the corrosion speed of the iron installation structure can be accelerated, when the building intelligent lighting device capable of being controlled in a centralized manner needs to be overhauled temporarily, the iron installation structure and the installation plane need to be separated, installation screws are mostly used for the installation of the iron installation structure, the installation screws are inserted into the installation planes at the same positions for multiple times, the puncture holes of the installation planes can be enlarged, the building intelligent lighting device capable of being controlled in a centralized manner is loosened, and the installation of the building intelligent lighting device capable of being controlled in a centralized manner is unstable.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a not enough to prior art, the utility model provides a but centralized control's building intelligent lighting device possesses and need not to install electronic cleaning device, just can accomplish the cleaning work of lamp shade automatically, when can preventing the corrosion of iron system mounting structure, need not to separate iron system mounting structure and mounting plane, just can accomplish the advantage of the building intelligent lighting device's that can centralized control dismouting work, and then solve the problem in the above-mentioned background art.

(II) technical scheme

Need not to install electronic cleaning device for realizing the aforesaid, just can accomplish the cleaning work of lamp shade automatically, can prevent when iron system mounting structure corrosion, need not to separate iron system mounting structure and mounting plane, just can accomplish the advantage of the building intelligent lighting device's that can centralized control dismouting work, the utility model discloses a concrete technical scheme as follows:

the utility model provides a but centralized control's building intelligent lighting device, includes the lamp body, the inside fixed mounting of lamp body has control circuit board, filter plate, filter screen pipe, heat radiation fins, LED lamp plate, temperature sensor, relay and controller, the lower part fixed mounting of filter plate has the heat dissipation fan, inductive switch is installed to the lower part of LED lamp plate, the installation screwed pipe is installed to the lower part of lamp body, and the internally mounted of installation screwed pipe has lamp shade and conflict round hole board, the fixed cover joint board that cup joints of lateral wall of lamp shade, the outside lateral wall of conflict round hole board is provided with the external screw thread, the multiunit recess has been seted up to the lower part of conflict round hole board, multiunit signal receiver is installed to the lateral wall of lamp body, the fixed battery case that runs through in upper portion of lamp body, rust-resistant mount pad is installed to the top of lamp body, multiunit ventilation window and multiunit air duct have been seted up to the lateral wall of lamp body.

Further, the multiunit the lateral wall of air duct all cup joints installs the sleeve pipe, and the multiunit the equal fixed mounting of sheathed tube lateral wall has the connecting plate, and the multiunit the one end tip of connecting plate all with the lateral wall fixed connection of lamp body, the multiunit the equal fixed mounting of one end tip of air duct has collection wind funnel, multiunit the other end of air duct all is located side of lamp shade, multiunit the equal fixed mounting in inside bottom surface of louver has the fixed plate, and the multiunit the through hole has all been seted up to one side of fixed plate, and the multiunit the inside of through hole all runs through and installs multiunit T type pole, multiunit the equal fixed mounting of one end tip of T type pole has the sloping block, multiunit the lateral wall of T type pole all cup joints installs expanding spring and bellows, multiunit the both ends tip of expanding hose respectively with the multiunit fixed plate and multiunit the face fixed connection that faces to one side of sloping block.

Furthermore, the vertical cross-sectional dimension of the plurality of groups of T-shaped rod limiting ends is larger than that of the plurality of groups of through holes.

Furthermore, the lower portion of the antirust mounting seat is provided with an annular built-in T-shaped groove, a screw and four groups of mounting holes, a T-shaped rotating ring is arranged inside the annular built-in T-shaped groove, the lower portion of the T-shaped rotating ring is provided with a plurality of groups of ball sockets and two groups of pull ropes, balls are arranged inside the plurality of groups of ball sockets, one end portions of the two groups of pull ropes are fixedly connected with the upper portion of the lamp housing, the upper portion of the battery box is fixedly provided with a connecting threaded pipe, and the upper portion of the lamp housing is fixedly provided with a rubber sleeve.

Further, the screw rod is meshed with the connecting threaded pipe.

Further, the cross section size of rubber sleeve is greater than rust-resistant mount pad's cross section size.

Furthermore, the plurality of groups of the ventilation windows and the filter screen pipes are all positioned on the same horizontal plane.

Further, the installation threaded pipe is meshed with the external thread.

(III) advantageous effects

Compared with the prior art, the utility model provides a but centralized control's building intelligent lighting device possesses following beneficial effect:

(1) The utility model discloses an air duct, but in-service use centralized control's building intelligent lighting device, when temperature sensor detects the inside stability of lamp body when too high, can send the signal of telecommunication to the controller, the controller makes the heat dissipation fan begin work, the rotatory mobile steam that produces of heat dissipation fan is derived through the multiunit louver, part mobile steam can get into the inside of multiunit wind-collecting funnel, the other end of final way multiunit air duct is derived, this part derived mobile steam can blow towards the surface of lamp shade, along with the speed of rotation of heat dissipation fan accelerates, mobile steam wind speed increases, when running through the filter screen pipe, can promote the multiunit sloping block, make it keep away from the heat dissipation fan gradually, in this process, multiunit expanding spring and multiunit expansion hose receive the extrusion of multiunit fixed plate and multiunit sloping block gradually and are in compression state, meanwhile, along with the removal of multiunit sloping block, its inclined plane can jack-up multiunit wind-collecting funnel gradually, drive the multiunit air duct respectively and shift up the motion, change is mobile hot-blast derivation position, make the clean area increase of lamp shade, when heat dissipation fan stop work, multiunit expanding spring receives self elastic action of multiunit, through multiunit air duct, make the multiunit air duct slow development of green intelligent lighting device that the environmental protection lighting device that the installation can set up, it is just need not to set up, the green light of the automatic control lamp shade, it can be enough.

(2) The utility model adopts the rust-proof mounting seat, when the building intelligent lighting device which can be centrally controlled is required to be mounted, an operator respectively penetrates the four groups of mounting holes through the four groups of mounting screws, when one ends of the four groups of mounting screws are inserted into the mounting plane, the operator manually moves up the lamp shell to guide one end of the screw rod into the connecting threaded pipe, then the screw rod is meshed with the connecting threaded pipe to rotate the connecting threaded pipe clockwise, in the process, when the two groups of stay ropes are straightened, the T-shaped rotating ring rotates in the annular built-in T-shaped groove by pulling the two groups of stay ropes, so that the two groups of stay ropes do not hinder the rotating use of the lamp shell, when the upper end of the rubber sleeve is tightly contacted with the mounting plane, the mounting work is completed, because the intercepted external water vapor of the rubber sleeve can not contact the rust-proof mounting seat, anticlockwise rotation lamp body, when screw rod and connecting thread pipe separation, loosen the lamp body, through dragging of two sets of stay cords, in the lamp body suspension air this moment, the operation workman can overhaul it, need not frequent dismouting installation screw, the rotatory in-process of the rotatory ring of T type, the multiunit ball receives the frictional force effect of rust-resistant mount pad, roll in the inside of multiunit ball socket respectively, because the surface of multiunit ball is smooth, can reduce the rotatory rotational resistance of the rotatory ring of T type, through the rust-resistant mount pad that sets up, when can prevent iron system mounting structure corrosion, need not to separate iron system mounting structure and mounting plane, just can accomplish the dismouting work of building intelligent lighting device that can centralized control, but bring a guarantee for centralized control's building intelligent lighting device's use.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a building intelligent lighting device capable of being controlled in a centralized manner according to the present invention;

fig. 2 is a perspective view of the rust-proof mounting base proposed by the present invention;

fig. 3 is an enlarged view of a in fig. 1 according to the present invention;

fig. 4 is an enlarged view of B in fig. 1 according to the present invention;

fig. 5 is an enlarged view of C in fig. 1 according to the present invention.

In the figure:

1. a lamp housing; 2. a control circuit board; 3. filtering the plate; 4. a filter screen pipe; 5. heat dissipation fins; 6. an LED lamp panel; 7. a temperature sensor; 8. a relay; 9. a controller; 10. a heat dissipation fan; 11. an inductive switch; 12. installing a threaded pipe; 13. a lamp shade; 14. sleeving and connecting plates; 15. against the round hole plate; 16. an external thread; 17. a groove; 18. a signal receiver; 19. a battery case; 20. an antirust mounting seat; 21. a ventilation window; 22. an air duct; 23. a sleeve; 24. a connecting plate; 25. a fixing plate; 26. a through hole; 27. a T-shaped rod; 28. a sloping block; 29. a tension spring; 30. a flexible hose; 31. a wind collecting funnel; 32. an annular built-in T-shaped groove; 33. a T-shaped rotating ring; 34. a ball socket; 35. a ball bearing; 36. pulling a rope; 37. a screw; 38. connecting a threaded pipe; 39. a rubber sleeve; 40. and (7) installing holes.

Detailed Description

For further explanation of the embodiments, the drawings are provided as part of the disclosure and serve primarily to illustrate the embodiments and, together with the description, to explain the principles of operation of the embodiments, and to provide further explanation of the invention and advantages thereof, it will be understood by those skilled in the art that various other embodiments and advantages of the invention are possible, and that elements in the drawings are not to scale and that like reference numerals are generally used to designate like elements.

According to the utility model discloses an embodiment provides a but centralized control's building intelligent lighting device.

Now combine the attached drawing and detailed description mode right the utility model discloses it is further explained, as shown in fig. 1-5, according to the utility model discloses a but centralized control's building intelligent lighting device, including lamp body 1, the inside fixed mounting of lamp body 1 has control circuit board 2, filter plate 3, filter screen pipe 4, heat radiation fins 5, LED lamp plate 6, temperature sensor 7, relay 8 and controller 9, the lower part fixed mounting of filter plate 3 has heat dissipation fan 10, inductive switch 11 is installed to the lower part of LED lamp plate 6, installation screwed pipe 12 is installed to the lower part of lamp body 1, and the internally mounted of installation screwed pipe 12 has lamp shade 13 and conflict round hole board 15, the fixed cup joint of lateral wall of lamp shade 13 is installed and is overlapped board 14, the outside lateral wall of conflict round hole board 15 is provided with external screw thread 16, the lower part of conflict round hole board 15 has seted up multiunit recess 17, multiunit signal receiver 18 is installed to the lateral wall of lamp body 1, the upper portion fixed through installation of lamp body 1 has battery case 19, rust-resistant mount pad 20 is installed to the top of lamp body 1, multiunit breather window 21 and multiunit air duct 22 have been seted up to the lateral wall of 1, control circuit board 2, control circuit board 3, filter screen 4, heat radiation fins 4, filter plate 6, heat radiation fins 6, relay lamp plate 7 and controller 9 do not do too much, this LED lamp body structure do not do this at lamp body in LED lamp body structure.

In one embodiment, the side walls of the plural sets of air ducts 22 are sleeved with the sleeves 23, the side walls of the plural sets of sleeves 23 are fixedly provided with the connecting plates 24, one end portions of the plural sets of connecting plates 24 are fixedly connected with the side wall of the lamp housing 1, one end portions of the plural sets of air ducts 22 are fixedly provided with the air collecting funnel 31, the other ends of the plural sets of air ducts 22 are positioned at the side of the lamp shade 13, the bottom surfaces of the inside of the plural sets of ventilation windows 21 are fixedly provided with the fixing plates 25, one side of the plural sets of fixing plates 25 are provided with the through holes 26, the inside of the plural sets of through holes 26 is provided with the plural sets of T-shaped rods 27 in a penetrating manner, one end portions of the plural sets of T-shaped rods 27 are fixedly provided with the inclined blocks 28, the side walls of the plural sets of T-shaped rods 27 are sleeved with the telescopic springs 29 and the telescopic hoses 30, the end portions of the plural sets of telescopic hoses 30 are fixedly connected with the opposite surfaces of the fixing plates 25 and the inclined blocks 28, in practical use, when the temperature sensor 7 detects that the interior of the lamp housing 1 is too high, an electric signal is sent to the controller 9, the controller 9 enables the heat dissipation fan 10 to start working, flowing hot air generated by rotation of the heat dissipation fan 10 is led out through the plurality of groups of ventilation windows 21, part of the flowing hot air enters the interior of the plurality of groups of air collection funnels 31 and is finally led out through the other ends of the plurality of groups of air guide pipes 22, the part of the led flowing hot air is blown towards the surface of the lamp shade 13, the air speed of the flowing hot air is increased along with the acceleration of the rotation speed of the heat dissipation fan 10, and when the flowing hot air penetrates through the filter screen pipe network 4, the plurality of groups of inclined blocks 28 are pushed to gradually keep away from the heat dissipation fan 10, in the process, the plurality of groups of expansion springs 29 and the plurality of expansion hoses 30 are gradually compressed by the plurality of groups of fixing plates 25 and the plurality of inclined blocks 28, and at the same time, along with multiunit sloping block 28's removal, multiunit wind-collecting funnel 31 can be jack-up gradually on its inclined plane, it shifts up the motion to drive multiunit air duct 22 respectively, the change flows hot-blast derivation position, make the increase of the clean area of lamp shade 13, when heat dissipation fan 10 stop work, multiunit expanding spring 29 receives self elasticity effect, through contradicting multiunit sloping block 28, make multiunit wind-collecting funnel 31 and multiunit air duct 22 slowly move down and reset, air duct 22 through setting up, need not to install electronic cleaning equipment, just can accomplish the cleaning of lamp shade 13 automatically, but make centralized control's building intelligent lighting device accord with the theory of green development.

In one embodiment, the vertical cross-sectional dimension of the limiting end of the plurality of sets of T-shaped rods 27 is larger than the vertical cross-sectional dimension of the plurality of sets of through holes 26, so as to prevent the plurality of sets of T-shaped rods 27 from being separated from the plurality of sets of fixing plates 25.

In one embodiment, the lower portion of the antirust mounting seat 20 is provided with an annular built-in T-shaped groove 32, a screw rod 37 and four sets of mounting holes 40, the interior of the annular built-in T-shaped groove 32 is provided with a T-shaped rotating ring 33, the lower portion of the T-shaped rotating ring 33 is provided with a plurality of sets of ball sockets 34 and two sets of pulling ropes 36, the interior of each set of ball sockets 34 is provided with a ball 35, one end portions of the two sets of pulling ropes 36 are fixedly connected with the upper portion of the lamp housing 1, the upper portion of the battery box 19 is fixedly provided with a connecting threaded pipe 38, the upper portion of the lamp housing 1 is fixedly provided with a rubber sleeve 39, when a building intelligent lighting device capable of being controlled in a centralized manner needs to be mounted, an operator respectively penetrates through the four sets of mounting holes 40, when one end portions of the four sets of mounting screws are inserted into the mounting plane, the operator moves the lamp housing 1 by hand to guide one end portion of the screw rod 37 into the connecting threaded pipe 38, then, the screw 37 is engaged with the connecting threaded pipe 38, the connecting threaded pipe 38 is rotated clockwise, in the process, when the two groups of pulling ropes 36 are straightened, the T-shaped rotating ring 33 rotates in the annular built-in T-shaped groove 32 through pulling of the two groups of pulling ropes 36, so that the two groups of pulling ropes 36 do not hinder the rotating use of the lamp housing 1, when the upper end of the rubber sleeve 39 is in close contact with the mounting plane, the mounting work is completed, because the rubber sleeve 39 intercepts external water vapor and cannot contact the antirust mounting seat 20, the lamp housing 1 rotates anticlockwise, when the screw 37 is separated from the connecting threaded pipe 38, the lamp housing 1 is loosened, the lamp housing 1 is pulled through the two groups of pulling ropes 36, at the moment, the lamp housing 1 is suspended in the air, an operator can overhaul the lamp housing without frequently dismounting and mounting screws, in the rotating process of the T-shaped rotating ring 33, the plurality of groups of balls 35 are subjected to the friction force of the antirust mounting seat 20 and roll in the plurality of groups of ball sockets 34 respectively, because the surface of multiunit ball 35 is smooth, can reduce the rotatory resistance of the rotatory ring 33 of T type, through the rust-resistant mount pad 20 that sets up, when can prevent the corrosion of iron system mounting structure, need not to separate iron system mounting structure and mounting plane, just can accomplish centralized control's building intelligent lighting device's dismouting work, but bring a guarantee for centralized control's building intelligent lighting device's use.

In one embodiment, the threaded rod 37 is intermeshed with the connecting threaded tube 38 to facilitate adjustment of the use position of the connecting threaded tube 38.

In one embodiment, the cross-sectional dimension of the rubber sleeve 39 is larger than the cross-sectional dimension of the rustproof mounting seat 20, so as to avoid that the rubber sleeve 39 cannot cover the rustproof mounting seat 20 for use because the cross-sectional dimension of the rubber sleeve 39 is smaller than the cross-sectional dimension of the rustproof mounting seat 20.

In one embodiment, the plurality of sets of ventilation windows 21 and the filter screen tube 4 are located on the same horizontal plane, so as to intercept foreign objects from entering the interior of the lamp housing 1 through the plurality of sets of ventilation windows 21.

In one embodiment, the mounting threaded tube 12 is intermeshed with external threads 16 to facilitate adjustment of the position of use against the circular orifice plate 15.

The working principle is as follows:

in the practical use of the intelligent building lighting device capable of being controlled in a centralized manner, when the temperature sensor 7 detects that the interior of the lamp housing 1 is too high, an electric signal is sent to the controller 9, the controller 9 enables the heat dissipation fan 10 to start working, flowing hot air generated by rotation of the heat dissipation fan 10 is led out through the plurality of groups of ventilation windows 21, part of the flowing hot air enters the interior of the plurality of groups of air collection funnels 31 and is finally led out through the other ends of the plurality of groups of air guide pipes 22, the part of the led flowing hot air is blown towards the surface of the lamp shade 13, the air speed of the flowing hot air is increased along with the acceleration of the rotation speed of the heat dissipation fan 10, the plurality of groups of inclined blocks 28 are pushed to be away from the heat dissipation fan 10 gradually when penetrating through the filter screen pipe network 4, the plurality of groups of inclined blocks 29 and the plurality of groups of telescopic hoses 30 are gradually compressed by the extrusion of the plurality of groups of fixing plates 25 and the plurality of inclined blocks 28, and simultaneously, along with the movement of the plurality of inclined blocks 28, the inclined plane will gradually jack up the multiple sets of wind-collecting funnels 31 to respectively drive the multiple sets of air ducts 22 to move upwards, the guiding position of the flowing hot wind is changed, the cleaning area of the lampshade 13 is enlarged, when the heat-dissipating fan 10 stops working, the multiple sets of expansion springs 29 are under the action of self elasticity, the multiple sets of wind-collecting funnels 31 and the multiple sets of air ducts 22 are slowly moved downwards to reset by abutting against the multiple sets of inclined blocks 28, the cleaning work of the lampshade 13 can be automatically completed through the arranged air ducts 22 without installing electric cleaning equipment, the centralized control building intelligent lighting device conforms to the concept of green environmental development, meanwhile, when the centralized control building intelligent lighting device needs to be installed, an operator respectively penetrates the four sets of installation screws through the four sets of installation holes 40, when one end of the four sets of installation screws is inserted into the installation plane, the operator moves the lamp housing 1 upwards by hand, the utility model discloses a building intelligent lighting device, including screw 37, connecting threaded pipe 38, screw 37 and connecting threaded pipe 38, clockwise rotation connecting threaded pipe 38, in this process, when two sets of stay cords 36 are stretched out, through the pulling of two sets of stay cords 36, T type swivel ring 33 is rotatory at the inside of cyclic annular built-in T type groove 32, make two sets of stay cords 36 do not hinder the rotatory use of lamp body 1, when the upper end of rubber sleeve 39 and mounting plane in close contact with, accomplish the installation work, because the unable rust-resistant mount pad 20 of the outer steam of interception of rubber sleeve 39, anticlockwise rotation lamp body 1, when screw 37 and connecting threaded pipe 38 separate, loosen lamp body 1, through the pulling of two sets of stay cords 36, lamp body 1 hangs in the air this moment, the operation workman can overhaul it, need not frequent dismouting installation screw, in the T type swivel ring 33 rotation process, multiunit ball 35 receives the frictional force effect of rust-resistant mount pad 20, roll respectively in the inside of multiunit ball 34, because the surface of multiunit ball 35 is smooth, can reduce the rotation resistance of T type swivel ring 33, can prevent the simultaneous rust-control installation structure from bringing for building intelligent lighting device to concentrate on the installation.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate medium, and may be used for communicating the inside of two elements or for interacting with each other, unless otherwise specifically defined, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to the specific circumstances.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. An intelligent building lighting device capable of being controlled in a centralized way is characterized by comprising a lamp shell (1), a control circuit board (2), a filter plate (3), a filter screen pipe (4), a heat dissipation fin (5), an LED lamp panel (6), a temperature sensor (7), a relay (8) and a controller (9) are fixedly arranged inside the lamp shell (1), a heat radiation fan (10) is fixedly arranged at the lower part of the filter plate (3), an inductive switch (11) is arranged at the lower part of the LED lamp panel (6), the lower part of the lamp shell (1) is provided with a mounting threaded pipe (12), a lampshade (13) and a contact round hole plate (15) are arranged inside the mounting threaded pipe (12), the side wall of the lampshade (13) is fixedly sleeved with a sleeved plate (14), the outer side wall of the interference round hole plate (15) is provided with an external thread (16), the lower part of the abutting circular hole plate (15) is provided with a plurality of groups of grooves (17), a plurality of groups of signal receivers (18) are arranged on the side wall of the lamp shell (1), a battery box (19) is fixedly arranged at the upper part of the lamp shell (1) in a penetrating way, an antirust mounting seat (20) is arranged above the lamp shell (1), the side wall of the lamp shell (1) is provided with a plurality of groups of ventilation windows (21) and a plurality of groups of air ducts (22).

2. The building intelligent lighting device capable of being controlled in a centralized manner according to claim 1, wherein the side walls of the air ducts (22) are sleeved with sleeves (23), the side walls of the sleeves (23) are fixedly provided with connecting plates (24), the end parts of one ends of the connecting plates (24) are fixedly connected with the side wall of the lamp housing (1), the end parts of one ends of the air ducts (22) are fixedly provided with air collecting funnels (31), and the other ends of the air ducts (22) are positioned at the side of the lamp shade (13), multiunit the equal fixed mounting in inside bottom surface of louver (21) has fixed plate (25), and the multiunit through hole (26) have all been seted up to one side of fixed plate (25), and the multiunit the inside of through hole (26) all runs through and installs multiunit T type pole (27), multiunit the equal fixed mounting of one end tip of T type pole (27) has sloping block (28), multiunit the lateral wall of T type pole (27) all cup joints installs expanding spring (29) and bellows (30), multiunit the both ends tip of bellows (30) respectively with the multiunit fixed plate (25) and multiunit the face fixed connection that faces to one side of sloping block (28).

3. The intelligent lighting device for buildings as claimed in claim 2, wherein the vertical cross-sectional dimension of the limiting ends of the T-shaped rods (27) is larger than the vertical cross-sectional dimension of the through holes (26).

4. The intelligent building lighting device capable of being controlled in a centralized manner according to claim 1, wherein an annular built-in T-shaped groove (32), a screw (37) and four groups of mounting holes (40) are formed in the lower portion of the antirust mounting seat (20), a T-shaped rotating ring (33) is arranged inside the annular built-in T-shaped groove (32), a plurality of groups of ball sockets (34) and two groups of pull ropes (36) are arranged on the lower portion of the T-shaped rotating ring (33), balls (35) are arranged inside the plurality of groups of ball sockets (34), one end portions of the two groups of pull ropes (36) are fixedly connected with the upper portion of the lamp housing (1), a connecting threaded pipe (38) is fixedly mounted on the upper portion of the battery box (19), and a rubber sleeve (39) is fixedly mounted on the upper portion of the lamp housing (1).

5. A centralized control building intelligent lighting device as claimed in claim 4, wherein the screw (37) is engaged with the connecting threaded pipe (38).

6. The intelligent building lighting device capable of being controlled in a centralized manner as claimed in claim 4, wherein the cross-sectional dimension of the rubber sleeve (39) is larger than that of the antirust mounting seat (20).

7. A centrally controllable building intelligent lighting device as claimed in claim 1, characterized in that the plurality of sets of ventilation windows (21) and filter screen pipes (4) are all located on the same horizontal plane.

8. A centrally controllable building intelligent lighting device according to claim 1, characterized in that the mounting threaded pipe (12) is intermeshed with the external thread (16).

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