CN219367566U - Man-machine interaction lamp capable of rotating at random by 360 degrees - Google Patents

Abstract

The utility model relates to the technical field of lighting lamps, in particular to a man-machine interaction lamp capable of rotating at 360 degrees, which comprises an upper cover assembly, wherein the upper end of the upper cover assembly is rotationally connected with a base assembly, the lower end of the upper cover assembly is rotationally connected with a mask assembly, and a lamp panel assembly is arranged in the mask assembly; the upper cover subassembly passes through rotation subassembly with the face guard subassembly and realizes swivelling joint, lamp plate subassembly includes the heat dissipation inner shell, the top of heat dissipation inner shell walk the spool run through behind the rotation subassembly with upper cover subassembly locking fixed, from last down setting gradually the control panel in the inner chamber of heat dissipation inner shell, the lamp plate, the upper surface of control panel sets up the response components and parts, lamp pearl is installed to the bottom surface of lamp plate, the lower port closing cap glass apron of face guard subassembly, the magnet that the response components and parts were installed on the face guard subassembly cooperatees, the power cord that lamp plate and control panel both draw forth runs through behind the spool from the base subassembly. The utility model has reasonable and ingenious structure, can be suitable for various scenes, and can randomly adjust the angle of the lamp according to the environmental requirements.

Description

Man-machine interaction lamp capable of rotating at random by 360 degrees

Technical Field

The utility model relates to the technical field of lighting lamps, in particular to a man-machine interaction lamp capable of rotating at 360 degrees.

Background

In the construction of more beautiful cities, the bright light at night can warm the mind of people, and the interaction of the enhanced light can enrich the life of people, so the light interaction device is deeply favored by people.

Disclosure of Invention

Aiming at the problems, the utility model provides the man-machine interaction lamp capable of rotating at random by 360 degrees, the structural design of the interaction lamp is reasonable and ingenious, the color and the change frequency of the lamp can be controlled by rotating, when no one rotates the lamp body, the lamp can slowly stop rotating, the color also slowly changes back to a single color, so that the interaction is better performed, the experience sense and the rhythm sense are increased, the life of people is enriched, and infinite interactivity and interestingness are generated.

According to the technical scheme of the utility model: human-computer interaction lamps and lanterns that can 360 arbitrary rotations, its characterized in that: the upper cover assembly is rotatably connected with the base assembly, the lower end of the upper cover assembly is rotatably connected with the mask assembly, and the lamp panel assembly is arranged in the mask assembly;

the upper cover subassembly passes through the rotation subassembly with the face guard subassembly and realizes swivelling joint, the lamp plate subassembly is including heat dissipation inner shell, and the top of heat dissipation inner shell walks the spool and runs through behind the rotation subassembly and lock fixedly with the upper cover subassembly, down set gradually control panel, lamp plate from last in the inner chamber of heat dissipation inner shell, the upper surface of control panel sets up the response components and parts, lamp pearl is installed to the bottom surface of lamp plate, and the lower port closing cap glass apron of face guard subassembly, and the response components and parts cooperatees with the magnet of installing on the face guard subassembly, and the power cord that lamp plate and control panel both draw forth runs through and draws forth from the base subassembly after walking the spool.

As a further improvement of the utility model, the rotating assembly comprises a positioning shaft, a rotating shaft is arranged on the positioning shaft, the upper end surface of the inner ring of the rotating shaft is limited by a flange constructed at the upper end of the positioning shaft, the bottom surface of the rotating shaft is provided with a lower cover plate, the lower cover plate is fixedly connected with the upper cover assembly by a screw, the lower end of the outer ring of the rotating shaft is limited, and the outer ring of the rotating shaft is tightly matched with the inner wall of the upper cover assembly;

the lower end of the positioning shaft sequentially penetrates through the lower cover plate and the top plate of the mask assembly and then is locked through a second nut, and the upper end of the mask assembly is fixedly matched and connected with the lower end face of the inner ring of the rotating shaft.

As a further improvement of the utility model, the lower end of the positioning shaft is provided with a conical guide part for positioning the second nut when the second nut is connected with the positioning shaft.

As a further improvement of the utility model, the upper cover assembly comprises an upper cover, an upper cover inner cylinder extending axially is constructed in an inner cavity of the upper cover, and the outer ring of a rotating shaft of the rotating assembly is tightly matched with the inner wall of the upper cover inner cylinder; the lower cover plate of the rotating assembly is fixedly connected with the upper cover inner cylinder through a first screw;

the top end plate of the upper cover is of a concave structure, and the upper end of the wiring pipe is locked through a first nut after extending out of the top end plate.

As a further improvement of the utility model, the top end surface of the upper cover is fixedly connected with the upper cover plate through a fixing screw, and the upper cover plate is provided with a wiring hole.

As a further improvement of the utility model, the base assembly comprises a base, the base is rotationally connected with the top connecting seat of the upper cover through an inner hexagon screw, the top connecting seat of the upper cover is also rotationally connected with a hexagon set screw, and the hexagon set screw can fix the position of the base.

As a further improvement of the utility model, the mask assembly comprises a mask, the mask comprises a first mask part, a second mask part and a third mask part, steps are respectively formed between the second mask part and the third mask part and between the first mask part and the second mask part, the lower end of an upper cover of the upper cover assembly is abutted against a step surface formed between the second mask part and the first mask part, and magnets are uniformly distributed on the step surface formed between the second mask part and the third mask part.

The utility model has the technical effects that: the product of the utility model has reasonable and ingenious structural design, can be compatible with various mounting brackets when in use, and can select different mounting modes, such as circular, elliptic and other fixed mounting modes according to the mounting requirements of a design site; in order to prevent the lamp from loosening during rotation, a hexagonal set screw is added at the position of the rotation point, so that the base and the lamp body are integrated; the lamp panel and the control panel are separately arranged in the heat dissipation inner shell; when the mask rotates along the center during operation, the lamp panel and the lamp beads on the lamp panel are not moved, and after the sensing components on the control panel sense the magnet on the upper surface of the mask, a program in the chip starts a color changing function; the heat dissipation shell passes through the rotating shaft and is connected with the upper cover, and is fixed on the upper cover by the nut, and the mask and the rotating shaft are fixed by the nut.

Drawings

Fig. 1 is an exploded view of the present utility model.

Fig. 2 is a schematic connection diagram of the heat dissipation inner shell in the present utility model.

Fig. 3 is a schematic view of the attachment of the mask of the present utility model.

Detailed Description

The following describes the embodiments of the present utility model further with reference to the drawings.

In fig. 1 to 3, the device comprises an upper cover assembly 10, an upper cover 11, an upper cover plate 12, a fixing screw 13, an inner hexagon screw 14, a hexagon set screw 15, a rotating assembly 20, a positioning shaft 21, a conical guide part 21-1, a rotating shaft 22, a lower cover plate 23, a first screw 24, a second nut 25, a first flat pad 26, a mask assembly 30, a mask 31, a first mask 31-1, a second mask 31-2, a third mask 31-3, a magnet 32, a glass cover 33, a lamp panel assembly 40, a first nut 41, a wiring tube 41-1, a control board 42, a lamp panel 43, a sensing element 44, a first nut 45, a second flat pad 46, a silica gel pad 47, a base assembly 50, a base 51, a fixing bracket 52, an inner hexagon screw 53, a power cord 60, and the like.

As shown in fig. 1 to 3, the utility model relates to a man-machine interaction lamp capable of arbitrarily rotating by 360 degrees, which comprises an upper cover assembly 10, wherein the upper end of the upper cover assembly 10 is rotatably connected with a base assembly 50, the lower end of the upper cover assembly 10 is rotatably connected with a mask assembly 30, and a lamp panel assembly 40 is arranged in the mask assembly 30.

Further, the upper cover assembly 10 is rotatably coupled to the mask assembly 30 by the rotation assembly 20, and in operation, the upper cover assembly 10 is coupled to an external component via the base assembly 50.

The lamp plate assembly 40 plays a role in lighting and a colorful gradual change effect of color, in order to achieve the working effect, the lamp plate assembly 40 comprises a heat dissipation inner shell 41, a top wiring tube 41-1 of the heat dissipation inner shell 41 penetrates through the rotating assembly 20 and then is locked and fixed with the upper cover assembly 10, a control plate 42 and a lamp plate 43 are sequentially arranged in an inner cavity of the heat dissipation inner shell 41 from top to bottom, an induction component 44 is arranged on the upper surface of the control plate 42, lamp beads are arranged on the bottom surface of the lamp plate 43, a lower port of the mask assembly 30 covers the glass cover plate 33, and the glass cover plate 33 is fixedly connected with the mask 31 through glue, so that the waterproof effect can be achieved.

The sensing element 44 is matched with the magnet 32 mounted on the mask assembly 30, and the power wires 60 led out from the lamp panel 43 and the control board 42 penetrate through the wiring tube 41-1 and are led out from the base assembly 50.

In order to realize that the mask assembly 30 can freely and smoothly rotate relative to the upper cover assembly 10, the rotating assembly 20 comprises a positioning shaft 21, a rotating shaft 22 is installed on the positioning shaft 21, the upper end face of the inner ring of the rotating shaft 22 is limited by a flange formed at the upper end of the positioning shaft 21, a lower cover plate 23 is arranged on the bottom surface of the rotating shaft 22, the lower cover plate 23 is fixedly connected with the upper cover assembly 10 through screws 24, the lower end of the outer ring of the rotating shaft 22 is limited, the outer ring of the rotating shaft 22 is tightly matched with the inner wall of the upper cover assembly 10, so that when the mask assembly is in operation, the outer ring of the rotating shaft 22 is fixed, the inner ring and the mask 31 freely rotate together, and in the rotating process of the mask 31, a magnet 32 installed on the mask assembly is matched with an induction element 44 on the control plate 42.

The lower extreme of locating shaft 21 passes through apron 23 down in proper order, and the roof of face guard assembly 30 is back through second nut 25 locking, and the upper end of face guard assembly 30 is connected with the lower terminal surface fixed cooperation of rotation axis 22 inner circle, still cooperates between second nut 25 and the locating shaft 21 and sets up first flat pad 26.

The lower end of the positioning shaft 21 is configured with a tapered guide portion 21-1 to position the second nut 25 when the second nut 25 is coupled to the positioning shaft 21, thereby facilitating the installation of the second nut 25.

The upper cover assembly 10 comprises an upper cover 11, an inner cavity of the upper cover 11 is provided with an axially extending upper cover inner cylinder 11-1, and the outer ring of a rotating shaft 22 of the rotating assembly 20 is tightly matched with the inner wall of the upper cover inner cylinder 11-1; the lower cover plate 23 of the rotating assembly 20 is fixedly connected with the upper cover inner cylinder 11-1 through a first screw 24.

The top end plate of the upper cover 11 is of a concave structure, the upper end of the wiring tube 41-1 is locked through the first nut 45 after extending out of the top end plate, and in order to achieve a good shock absorption and buffering effect, the second flat pad 46 and the silica gel pad 47 are arranged between the first nut 45 and the wiring tube 41-1, and the shock absorption and buffering effect is achieved through the silica gel pad 47.

The top end surface of the upper cover 11 is fastened and connected to the upper cover plate 12 by a fixing screw 13, and wiring holes are formed in the upper cover plate 12 to pass through the power line 60.

In order to realize that the product of the utility model can be compatible with various mounting brackets during operation, the base assembly 50 comprises a base 51, the base 51 is rotationally connected with the top connecting seat of the upper cover 11 through the socket head cap screw 14, the top connecting seat of the upper cover 11 is also rotationally connected with the hexagonal set screw 15, and the hexagonal set screw 15 can fix the position after rotating the base 51 for 360 degrees. It can be understood that the fixing bracket 52 is also disposed in the inner cavity of the base 51 in a matching manner, so as to realize connection with external components when the product of the utility model is in use, specifically, the vertical connecting lug below the bottom plate of the fixing bracket 52 is connected with the base 51 in a matching manner through the socket head cap screws 53. The fixing bracket 52 is provided with a wiring hole to facilitate the extraction of the power cord 60.

The mask assembly 30 comprises a mask 31, the mask 31 comprises a first mask part 31-1, a second mask part 31-2 and a third mask part 31-3, steps are respectively formed between the second mask part 31-2 and the third mask part 31-3 and between the first mask part 31-1 and the second mask part 31-2, the lower end of an upper cover 11 of the upper cover assembly 10 abuts against a step surface formed between the second mask part 31-2 and the first mask part 31-1, magnets 32 are uniformly distributed on the step surface formed between the second mask part 31-2 and the third mask part 31-3, a partition plate is respectively arranged between every two adjacent magnets 32, and the partition plate divides the top surface of the second mask part 31-2 into four equally divided parts. When the mask assembly rotates, the magnets 32 and the sensing components 44 are correspondingly matched, so that the magnets 32 and the sensing components 44 are alternately matched, the lamp body of the lamp panel assembly 40 turns red, the lamp body adjacent to the lamp body turns the same color, namely, the running water effect (the color sequence is sequentially red, green, blue, yellow, cyan and purple), the whole lamp maintains the last rotating color after running water is finished, and the lamp panel assembly 40 continues to perform colorful gradual change after 8 seconds.

As shown in fig. 1 to 3, when the product of the utility model works, the base assembly 50 and the external component are used for realizing installation and fixation, and the lamp panel assembly 40 can be subjected to angle adjustment according to the field work requirement so as to realize the adjustment of the luminous direction of the product of the utility model, and meanwhile, the upper cover assembly 10 with the adjusted angle is subjected to position fixation through the inner hexagon screw 14.

In specific practice, the mask 31 may be made of aluminum or PC, and when the aluminum is used, the mask 31 made of aluminum can achieve light irradiation toward the lower opening of the mask 31; when a PC is used, the PC adopts a semitransparent diffusion shape, so that light emission in a plurality of directions can be realized.

In the working process of the product, when the product is in a static state, the whole color of all lamps is gradually changed, the color sequence is red, green, blue, yellow, cyan and purple, when the mask 31 is rotated, the upper cover 11 and the heat dissipation inner shell 41 are fixed, and the magnet 32 rotates along the center along with the mask 31; when the magnet 32 rotates along with the mask 31 and passes through the upper surface of the sensing element 44, a chip on the control board 42 detects the signal of the sensing element 44 and starts an internal program, and the lamp beads turn red; when the product is installed and used, lamps adjacent to the lamp with the color changed into red are changed into the same color, namely, the running water effect, and the color sequence is red, green, blue, yellow, cyan and purple; when the mask 31 stops rotating, the lamp will maintain the last color rotated, and after 8S, the lamp will continue to change color.

Claims (7)

1. Human-computer interaction lamps and lanterns that can 360 arbitrary rotations, its characterized in that: the light source comprises an upper cover assembly (10), wherein the upper end of the upper cover assembly (10) is rotatably connected with a base assembly (50), the lower end of the upper cover assembly (10) is rotatably connected with a mask assembly (30), and a lamp panel assembly (40) is arranged in the mask assembly (30);

the upper cover assembly (10) is rotationally connected with the mask assembly (30) through the rotating assembly (20), the lamp panel assembly (40) comprises a heat dissipation inner shell (41), a top wiring tube (41-1) of the heat dissipation inner shell (41) penetrates through the rotating assembly (20) and then is locked and fixed with the upper cover assembly (10), a control board (42) and a lamp panel (43) are sequentially arranged in an inner cavity of the heat dissipation inner shell (41) from top to bottom, an induction component (44) is arranged on the upper surface of the control board (42), lamp beads are mounted on the bottom surface of the lamp panel (43), a lower port of the mask assembly (30) is covered with a glass cover plate (33), the induction component (44) is matched with a magnet (32) mounted on the mask assembly (30), and a power line (60) led out by the lamp panel (43) and the control board (42) penetrates through the wiring tube (41-1) and then is led out from the base assembly (50).

2. The human-machine interaction lamp capable of rotating at 360 degrees randomly as claimed in claim 1, wherein: the rotating assembly (20) comprises a positioning shaft (21), a rotating shaft (22) is mounted on the positioning shaft (21), the upper end face of the inner ring of the rotating shaft (22) is limited by a flange constructed at the upper end of the positioning shaft (21), a lower cover plate (23) is arranged on the bottom surface of the rotating shaft (22), the lower cover plate (23) is fixedly connected with the upper cover assembly (10) by a screw (24), the lower end of the outer ring of the rotating shaft (22) is limited, and the outer ring of the rotating shaft (22) is tightly matched with the inner wall of the upper cover assembly (10);

the lower end of the positioning shaft (21) sequentially penetrates through the lower cover plate (23) and the top plate of the mask assembly (30) and then is locked through the second nut (25), and the upper end of the mask assembly (30) is fixedly matched and connected with the lower end face of the inner ring of the rotating shaft (22).

3. The human-machine interaction lamp capable of rotating at 360 degrees randomly as claimed in claim 2, wherein: the lower end of the positioning shaft (21) is provided with a conical guide part for positioning the second nut (25) when being connected with the positioning shaft (21).

4. The human-machine interaction lamp capable of rotating at 360 degrees randomly as claimed in claim 1, wherein: the upper cover assembly (10) comprises an upper cover (11), an upper cover inner cylinder (11-1) extending axially is formed in an inner cavity of the upper cover (11), and an outer ring of a rotating shaft (22) of the rotating assembly (20) is tightly matched with the inner wall of the upper cover inner cylinder (11-1); the lower cover plate (23) of the rotating assembly (20) is fixedly connected with the upper cover inner cylinder (11-1) through a first screw (24);

the top end plate of the upper cover (11) is of a concave structure, and the upper end of the wiring pipe (41-1) is locked through a first nut (45) after extending out of the top end plate.

5. The human-machine interaction lamp capable of rotating at 360 degrees randomly as claimed in claim 4, wherein: the top end face of the upper cover (11) is fixedly connected with the upper cover plate (12) through a fixing screw (13), and wiring holes are formed in the upper cover plate (12).

6. The human-machine interaction lamp capable of rotating at 360 degrees randomly as claimed in claim 1, wherein: the base assembly (50) comprises a base (51), the base (51) is rotationally connected with a top connecting seat of the upper cover (11) through an inner hexagon screw (14), the top connecting seat of the upper cover (11) is rotationally connected with a hexagon set screw (15), and the hexagon set screw (15) can fix the position of the base (51).

7. The human-machine interaction lamp capable of rotating at 360 degrees randomly as claimed in claim 1, wherein: the mask assembly (30) comprises a mask (31), the mask (31) comprises a first mask part (31-1), a second mask part (31-2) and a third mask part (31-3), steps are respectively formed between the second mask part (31-2) and the third mask part (31-3) and between the first mask part (31-1) and the second mask part (31-2), the lower end of an upper cover (11) of the upper cover assembly (10) is abutted against a step surface formed between the second mask part (31-2) and the first mask part (31-1), and magnets (32) are uniformly distributed on the step surface formed between the second mask part (31-2) and the third mask part (31-3).