CN220135401U - Building lighting device for building intelligent engineering - Google Patents

Abstract

The utility model discloses a building lighting device for building intelligent engineering, and relates to the technical field of building lighting equipment. The utility model comprises a base, an illuminating lamp rotatably arranged on the base, a wire connected between the base and the illuminating lamp, and two connecting covers respectively constructed on the illuminating lamp and the base, wherein through grooves for the wire to pass through are formed in the two connecting covers, a flexible protection tube is detachably arranged between the two through grooves through a sealing component, the wire is positioned in the flexible protection tube, and the sealing component is arranged on the connecting covers. According to the utility model, through the design of the flexible protection pipe and the sealing assembly, rainwater can be prevented from penetrating into the connecting cover from the position between the through groove and the flexible protection pipe, so that the lead is protected, and the possibility of short circuit caused by water seepage at the joint of the lighting lamp and the base and the lead is reduced.

Description

Building lighting device for building intelligent engineering

Technical Field

The utility model relates to the technical field of building lighting equipment, in particular to a building lighting device for building intelligent engineering.

Background

Building brightening is an important means for beautifying night scenes, building atmospheres and adding fun to urban environments, and building illumination which improves the overall image of the city and creates bright spots attracts people's attention. The building illuminating lamp is generally arranged outside, a wire between the base part and the lamp body part is exposed outside, a protective sleeve outside the wire is mainly adopted for protecting the wire, the building illuminating lamp has the functions of remote control flicker and rotation, and remote control is realized through software corresponding to a control terminal or a mobile phone.

After the existing building lighting lamp is installed outside a high building, in order to ensure the transmission and remote control of electric power, an electric wire and other transmission lines are connected between the lighting lamp and a base, and because the lighting lamp and the base have a certain gap so far, part of the electric wire and the transmission lines are exposed outside, however, in order to prevent the existing electric wire and the transmission lines from being corroded by rainwater in rainy days, the existing electric wire and the existing electric wire can be connected with the base and the lighting lamp by using one wire, the electric wire and the transmission lines positioned outside are arranged inside the wire, but the connection parts of the lighting lamp and the base and the wires easily enter the rainwater, so that the short circuit condition is easy to occur at the connection parts of the wires inside the base.

Disclosure of Invention

The utility model aims at: in order to solve the problems that in the background, the lead penetrating-in position between the existing building illuminating lamp and the base is easy to enter rainwater, so that the lead connecting part inside the base is easy to be short-circuited, the utility model provides the building illuminating device for building intelligent engineering.

The utility model adopts the following technical scheme for realizing the purposes:

building lighting device for building intelligent engineering, including the base to and rotate the light of installing on the base, the base with be connected with the wire between the light, still include two junction housing, two the junction housing constructs respectively on light and the base, two all offered on the junction housing and supply the wire passes the groove of wearing, two through sealing component demountable installation has flexible protection tube between wearing the groove, the wire is located in the flexible protection tube, sealing component installs on the junction housing.

Further, the flexible protection tube is made of rubber and is in a bellows shape, rubber rings are constructed at two ends of the flexible protection tube, the rubber rings are inserted into the through grooves, and the outer peripheral sides of the rubber rings are abutted against the inner side walls of the through grooves through the sealing assembly.

Further, the seal assembly comprises two symmetrical arc-shaped seal plates which are slidably mounted in the connecting cover, the two arc-shaped seal plates are combined to form an annular plate, the outer diameter of the annular plate is consistent with the inner diameter of the rubber ring, the arc-shaped seal plates are located in the through grooves, and the connecting cover is provided with an adjusting assembly for driving the two arc-shaped seal plates to move.

Further, the arc-shaped sealing plate top is provided with a connecting plate positioned in the connecting cover, the adjusting component comprises a positive and negative threaded rod which is horizontally and rotatably installed in the connecting cover, and the positive and negative threaded rod is sleeved with symmetrical threads corresponding to the two connecting plates.

Furthermore, two mounting plates are symmetrically arranged in the connecting cover, two ends of the positive and negative threaded rod are respectively and rotatably mounted on the two mounting plates, a guide rod is mounted between the two mounting plates, the guide rod is symmetrically distributed with the positive and negative threaded rod, and the guide rod is movably sleeved with the corresponding two connecting plates.

Further, a through hole is formed in one side of the connecting cover, one end of the positive and negative threaded rod penetrates through the connecting cover and is provided with a convex plate, and the convex plate is located in the through hole and one end of the convex plate is provided with a polygonal groove.

Further, a sealing cover for shielding the through hole is mounted on the connecting cover through bolts.

Further, a reverse groove is formed in the opening end of the sealing cover, and a sealing ring is installed in the reverse groove.

The beneficial effects of the utility model are as follows: according to the utility model, through the design of the flexible protection pipe and the sealing assembly, rainwater can be prevented from penetrating into the connecting cover from the position between the through groove and the flexible protection pipe, so that the lead is protected, and the possibility of short circuit caused by water seepage at the joint of the lighting lamp and the base and the lead is reduced.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a perspective partial cross-sectional view of FIG. 1 in accordance with the present utility model;

FIG. 3 is an exploded view of a portion of the structure of the present utility model;

FIG. 4 is an enlarged view of the structure of FIG. 3A according to the present utility model

FIG. 5 is a schematic view of the utility model from another perspective of FIG. 3

Reference numerals: 1. a base; 2. a lighting lamp; 3. a wire; 4. a connection cover; 5. penetrating a groove; 6. a flexible protective tube; 7. a seal assembly; 701. an arc-shaped sealing plate; 8. a rubber ring; 9. an adjustment assembly; 901. a connecting plate; 902. a positive and negative threaded rod; 903. a convex plate; 10. a mounting plate; 11. a guide rod; 12. perforating; 13. polygonal grooves; 14. a seal ring; 15. a sealing cover; 16. a loop-shaped groove.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

As shown in fig. 1-5, building lighting device for building intelligent engineering, including base 1, and rotate the light 2 of installing on base 1, light 2 is unanimous with the lighting apparatus of intelligent usefulness in the current building, current building light 2 can carry out long-range intelligent control through cell-phone or computer terminal, like the light under the light of Yeelight flag, accessible cell-phone APP control, be connected with wire 3 between base 1 and the light 2, still include two connection cover 4, two connection cover 4 construct respectively on light 2 and base 1, the through groove 5 that supply wire 3 passed has all been seted up on two connection covers 4, flexible protection tube 6 is installed through seal assembly 7 detachable between two through grooves 5, wire 3 is located flexible protection tube 6, flexible protection tube 6 can make light 2 at the in-process of rotation, thereby also can protect wire 3 at the in-process of light 2 rotation, prevent to permeate wire 3 and light 2 or base 1's junction, do not influence the rotation of light 2, seal assembly 7 installs seal assembly 7 and can reduce the condition that can take place between seal assembly 7 and seal assembly 5 and the normal rain water from permeating into, thereby, seal assembly 4 has reduced the condition that can take place between seal assembly and the seal assembly 4.

As shown in fig. 1-5, in some embodiments, the flexible protection tube 6 is made of rubber and is in a corrugated shape, so that the flexible protection tube 6 has good ductility, which is better than the corrugated drain tube of the existing washing machine, and the flexible protection tube 6 is made of rubber, so that the flexible protection tube 6 has good waterproof property and good elastic deformation, so that the lighting lamp 2 is not easy to crack after bending in the rotating process, rubber rings 8 are constructed at two ends of the flexible protection tube 6, the rubber rings 8 are inserted in the through grooves 5, the outer peripheral sides of the rubber rings 8 are abutted against the inner side walls of the through grooves 5 through the sealing assembly 7, that is, the outer peripheral sides of the rubber rings 8 inserted in the through grooves 5 are abutted against the outer peripheral sides of the corresponding through grooves 5 through the sealing assembly 7, and the characteristic of good elastic deformation of the rubber rings 8 is matched, so that rainwater is prevented from penetrating into the connecting cover 4 between the through grooves 5 and the rubber rings 8.

As shown in fig. 2, 3 and 5, in some embodiments, the sealing assembly 7 includes two symmetrical arc sealing plates 701 slidably mounted in the connecting cover 4, the two arc sealing plates 701 are combined to form an annular plate, the outer diameter of the annular plate is consistent with the inner diameter of the rubber ring 8, the arc sealing plates 701 are located in the through groove 5, that is, when the rubber ring 8 is inserted into the through groove 5, the arc sealing plates 701 are located in the rubber ring 8, the size of the through groove 5 can just be used for inserting the rubber ring 8, the connecting cover 4 is provided with an adjusting assembly 9 for driving the two arc sealing plates 701 to move, when the rubber ring 8 is inserted into the through groove 5, the arc sealing plates 701 are moved by the adjusting assembly 9, so that the outer circumference side of the arc sealing plates 701 is abutted against the inner circumference side of the rubber ring 8, and the inner circumference side of the through groove 5 is matched to clamp the rubber ring 8, so that the installation of the rubber ring 8 is achieved, a gap between the rubber ring 8 and the through groove 5 is reduced, and the rubber material of the rubber ring 8 can be well attached to the inner circumference side of the through groove 5, thereby improving the sealing effect.

As shown in fig. 2 and fig. 5, in some embodiments, the top of the arc-shaped sealing plate 701 is configured with a connecting plate 901 located in the connecting cover 4, the adjusting assembly 9 includes a forward and reverse threaded rod 902 horizontally and rotatably installed in the connecting cover 4, and symmetric threads corresponding to the two connecting plates 901 are sleeved on the forward and reverse threaded rod 902, and it should be noted that the annular plate formed by the two arc-shaped sealing plates 701 in a butt joint mode is circularly located on the central axis of the through groove 5, so when the forward and reverse threaded rod 902 is rotated, the two arc-shaped sealing plates 701 are made to be close to or far away from each other, so that the arc-shaped sealing plates 701 move and abut against the inner side wall of the rubber ring 8, and because of the self-locking property of the threaded engagement, the moving arc-shaped sealing plates 701 are not easy to move by themselves when abutting against the rubber ring 8.

As shown in fig. 1-5, in some embodiments, two mounting plates 10 are symmetrically configured inside the connecting cover 4, two ends of the positive and negative threaded rod 902 are respectively rotatably mounted on the two mounting plates 10, a guide rod 11 is mounted between the two mounting plates 10, the guide rod 11 and the positive and negative threaded rod 902 are symmetrically distributed, two corresponding connecting plates 901 are movably sleeved on the guide rod 11, the guide rod 11 plays a role in guiding and limiting, so that the arc-shaped sealing plate 701 is smoother when moving, and the guide rod 11 and the positive and negative threaded rod 902 are symmetrically distributed, so that the stress of the arc-shaped sealing plate 701 is more balanced when moving when the positive and negative threaded rod 902 rotates, the sealing effect is indirectly improved, and the interference force between the arc-shaped sealing plate 701 and the sealing ring 14 is more balanced.

As shown in fig. 2, 3 and 5, in some embodiments, a through hole 12 is formed on one side of the connection cover 4, one end of the positive and negative threaded rod 902 passes through the connection cover 4 and is configured with a convex plate 903, the convex plate 903 is located in the through hole 12, and one end of the convex plate 903 is provided with a polygonal groove 13, and the polygonal groove 13 is designed such that an L-shaped socket head cap screw driver can be used to rotate the convex plate 903 when a worker needs to rotate the threaded rod.

As shown in fig. 3 and 4, in some embodiments, a sealing cap 15 for shielding the through hole 12 is mounted on the connection cap 4 through bolts, and the sealing cap 15 is designed to prevent the possibility of short-circuiting caused by rainwater penetrating into the connection cap 4 from a gap between the through hole 12 and the bump.

As shown in fig. 4, in some embodiments, the open end of the sealing cover 15 is provided with a circular groove 16, and a sealing ring 14 is installed in the circular groove 16, and the sealing effect of the connecting cover 4 is further improved by the design of the sealing ring 14, and rainwater is permeated into the sealing cover 15.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. Building lighting device for building intelligent engineering, including base (1) to and rotate and install light (2) on base (1), base (1) with be connected with wire (3) between light (2), its characterized in that still includes two connecting cover (4), two connecting cover (4) are constructed respectively on light (2) and base (1), two all set up on connecting cover (4) the confession wire (3) pass groove (5), two install flexible protection tube (6) through seal assembly (7) demountable installation between groove (5), wire (3) are located in flexible protection tube (6), seal assembly (7) install on connecting cover (4).

2. The building lighting device for building intelligent engineering according to claim 1, wherein the flexible protection tube (6) is made of rubber and is corrugated, rubber rings (8) are constructed at two ends of the flexible protection tube (6), the rubber rings (8) are inserted into the through grooves (5), and the outer circumference sides of the rubber rings (8) are abutted against the inner side walls of the through grooves (5) through the sealing assembly (7).

3. Building lighting device for intelligent engineering according to claim 2, characterized in that the sealing component (7) comprises two symmetrical arc-shaped sealing plates (701) which are slidably mounted in the connecting cover (4), the two arc-shaped sealing plates (701) are combined to form an annular plate, the outer diameter of the annular plate is consistent with the inner diameter of the rubber ring (8), the arc-shaped sealing plates (701) are positioned in the through groove (5), and the connecting cover (4) is provided with an adjusting component (9) for driving the two arc-shaped sealing plates (701) to move.

4. A building lighting device for building intelligent engineering according to claim 3, wherein the top of the arc-shaped sealing plate (701) is provided with a connecting plate (901) positioned in the connecting cover (4), the adjusting component (9) comprises a positive and negative threaded rod (902) horizontally and rotatably installed in the connecting cover (4), and the positive and negative threaded rod (902) is symmetrically sleeved with the corresponding two connecting plates (901) in a threaded manner.

5. The building lighting device for building intelligent engineering according to claim 4, wherein two mounting plates (10) are symmetrically arranged in the connecting cover (4), two ends of the positive and negative threaded rod (902) are respectively rotatably mounted on the two mounting plates (10), a guide rod (11) is mounted between the two mounting plates (10), the guide rod (11) and the positive and negative threaded rod (902) are symmetrically distributed, and the two corresponding connecting plates (901) are movably sleeved on the guide rod (11).

6. The building lighting device for building intelligent engineering according to claim 5, wherein a through hole (12) is formed in one side of the connecting cover (4), one end of the positive and negative threaded rod (902) penetrates through the connecting cover (4) and is provided with a convex plate (903), and the convex plate (903) is located in the through hole (12) and one end of the convex plate is provided with a polygonal groove (13).

7. Building lighting device for intelligent engineering according to claim 6, characterized in that the connecting cover (4) is provided with a sealing cover (15) for shielding the perforation (12) by bolts.

8. The building lighting device for building intelligent engineering according to claim 7, wherein the opening end of the sealing cover (15) is provided with a circular groove (16), and a sealing ring (14) is arranged in the circular groove (16).