CN117781251B - Indoor decoration uses intelligent lamps and lanterns - Google Patents

Abstract

The invention relates to the technical field of lighting lamps, in particular to an intelligent lamp for indoor design. Technical problems: the bulb can produce the heat radiation, and the bulb produces the heat radiation in-process, and the bulb can heat the inside air of lamp shade, makes the lamp shade intensify, and after lamps and lanterns used for a long time, lamps and lanterns can scald out because of overheated messenger's socket, and the short circuit accident can take place for the bulb damages. The technical scheme is as follows: an intelligent lamp for indoor design comprises a bracket; the device also comprises a fixed shell, a connecting seat and the like; the bracket is fixedly connected with a fixed shell, and a plurality of air inlets are annularly and equidistantly arranged on the outer side of the fixed shell; the left side of the fixed shell is fixedly connected with a connecting seat. According to the invention, the fan is started to pump out the hot air in the fixing shell and the bottom shell, at the moment, negative pressure is generated in the fixing shell and the bottom shell, so that the ambient normal-temperature air is sucked into the fixing shell and the bottom shell from the air inlet, and the cooling effect is achieved by exchanging the ambient normal-temperature air with the hot air in the fixing shell and the bottom shell.

Description

Indoor decoration uses intelligent lamps and lanterns

Technical Field

The invention relates to the technical field of lighting lamps, in particular to an intelligent lamp for indoor design.

Background

When the existing lamp is used, namely, in the process of lighting the lamp bulb, current passes through the lamp filament, the lamp filament can generate heat due to the effect of the resistor to heat the lamp bulb, the lamp bulb can generate heat radiation, in the process of generating the heat radiation by the lamp bulb, the lamp bulb can heat air in the lamp shade to heat the lamp shade, when the lamp is used for a long time, the lamp can burn out a lamp socket due to overheating, and the lamp bulb can generate a short-circuit accident to damage the lamp bulb;

Because the during operation needs brighter light, therefore the power of bulb is higher, and the higher heat that gives off of power leads to the bulb more, and after the bulb in the lamps and lanterns damages, the housing leads to lamp shade surface temperature higher because the heat that gives off of bulb, and current lamp shade is screw-in type connection generally, and the lamp shade can be taken off to need twist many times with the hand, and direct hand contact can be scalded by the lamp shade of high temperature.

Disclosure of Invention

In order to overcome the defects that a bulb generates heat radiation, the bulb heats air in a lampshade to heat the lampshade in the heat radiation process, and when the lamp is used for a long time, a lamp socket is scalded due to overheating, and the bulb is damaged due to short-circuit accidents, the invention provides an intelligent lamp for indoor design.

The technical scheme is as follows: an intelligent lamp for indoor design comprises a bracket; the bulb type heat radiator also comprises a fixed shell, a connecting seat, a bottom shell, an expansion block, a bulb, a deflector rod, a heat radiation unit and an adjusting unit; the bracket is fixedly connected with a fixed shell, and a plurality of air inlets are annularly and equidistantly arranged on the outer side of the fixed shell; a connecting seat is fixedly connected to the left side of the fixed shell; the connecting seat is movably connected with a bottom shell; the upper part of the bottom shell is fixedly connected with an expansion block, and the bottom of the fixed shell is provided with a clamping groove matched with the expansion block; a bulb is fixedly connected in the fixed shell; a deflector rod is fixedly connected to the right side of the bottom shell, and the deflector rod is made of heat insulation materials; the fixed shell is connected with a heat radiating unit for discharging heat; the fixed shell is connected with an adjusting unit for adjusting the air flow direction.

Furthermore, it is particularly preferred that the heat dissipating unit comprises a connection frame, a fan, a vent pipe, an annular pipe and a gas duct; the upper part of the fixed shell is fixedly connected with a connecting frame, a closed space is formed between the connecting frame and the upper part of the fixed shell, and a plurality of air outlets are formed in the upper part of the connecting frame; a fan is fixedly connected inside the connecting frame; a plurality of vent pipes which are distributed in an annular shape are fixedly connected in the fixed shell, and the upper part of each vent pipe penetrates through the fixed shell and is communicated with the inside of the connecting frame; the bottoms of all the vent pipes are fixedly connected together and communicated with an annular pipe; the annular pipe annular equidistance rotates and is connected with a plurality of air duct, and all air duct all communicate with the annular pipe, and every air duct all is equipped with the torsional spring with annular pipe junction, and the torsional spring makes the air duct vertical orientation below all the time.

Furthermore, it is particularly preferred that the adjusting unit comprises a first pull cord, a connecting ring and a second pull cord; each air duct is fixedly connected with a first stay cord; the other end of each first pull rope is fixedly connected with a connecting ring; the right side of the upper part of the bottom shell is fixedly connected with a second stay cord, the second stay cord upwards penetrates through the expansion block and the right side of the fixed shell and is fixedly connected with the upper part of the connecting ring, and the second stay cord is wound with redundant length inside the fixed shell.

Furthermore, it is particularly preferred that the second pull cord consists of one main cord and several strings.

Furthermore, it is particularly preferred that the top of the stationary housing is provided with a temperature sensor; the bracket is provided with a control module.

Furthermore, it is particularly preferred that a dust-proof assembly is also included; the dustproof assembly comprises a connecting block, a first rotating plate and a first baffle plate; the inner side of the fixed shell is fixedly connected with a plurality of connecting blocks, and each connecting block is positioned above the corresponding air inlet; each connecting block is rotatably connected with a first rotating plate; each first rotating plate is fixedly connected with a first baffle plate, and each first baffle plate completely blocks a corresponding air inlet.

Furthermore, it is particularly preferred that a stabilizing unit is also included; the stabilizing unit comprises a small iron block and an electromagnet; a plurality of small iron blocks are fixedly connected to the bottom of each baffle plate; each connecting block is fixedly connected with a plurality of electromagnets, and each electromagnet is matched with a corresponding small iron block.

Furthermore, it is particularly preferred that an exhaust assembly is also included; the exhaust assembly comprises a baffle frame, a rotating plate and a baffle plate; the upper part of the connecting frame is fixedly connected with a plurality of baffle frames, and each baffle frame is positioned above the corresponding air outlet; each baffle frame is rotatably connected with a rotating plate; the upper part of the connecting frame is fixedly connected with a plurality of baffles, and each baffle is positioned on one side of the corresponding rotating plate facing the center of the connecting frame.

Furthermore, it is particularly preferred that a blocking unit is also included; the blocking unit comprises a second rotating plate and a second blocking piece; the outer side surface of the connecting frame is provided with a plurality of air inlets; a plurality of second rotating plates are fixedly connected to the inner side surface of each connecting frame, and each second rotating plate is positioned above the corresponding air suction port; and each second rotating plate is fixedly connected with a second baffle, each second baffle is attached to the inner side surface of the connecting frame, and each second baffle blocks the corresponding air suction port.

In addition, it is particularly preferable that the air inlet is provided obliquely downward.

Compared with the prior art, the invention has the following advantages: the invention solves the problems that when the existing lamp is used, the bulb heats and radiates air in the fixed shell and the bottom shell to heat the air in the fixed shell and the bottom shell, and when the lamp is used for a long time, a large amount of heat is accumulated in the fixed shell and the bottom shell to cause the too high temperature in the fixed shell and the bottom shell, so that the lamp socket is easy to burn out, the bulb is short-circuited, and the bulb is damaged; when the inside temperature of fixed shell and drain pan risees gradually, through starting the fan, inhale the inside hot air of fixed shell and drain pan from the air duct, blow out from the gas outlet at last, after the inside hot air of fixed shell and drain pan was taken out, the inside negative pressure that produces of fixed shell and drain pan this moment for in external normal atmospheric temperature air was inhaled fixed shell and drain pan from the air inlet, through the normal atmospheric temperature air with the outside heat exchange of fixed shell and drain pan inside, reached the effect of cooling.

The invention solves the problems that when the lamp bulb is damaged, the damaged lamp bulb needs to be replaced in time in order not to influence the illumination work, the heat emitted by the lamp bulb can heat the lamp shade in the long-time use process of the lamp, so that the surface temperature of the lamp shade is higher, the existing lamp shade is usually connected in a screw-in mode, a person needs to twist for many times to take off the lamp shade, and the person can be scalded by the high-temperature lamp shade when contacting the lamp shade by the hand directly; through setting up the connection of drain pan and fixed shell into the easy-open structure, when the lamp shade needs to be taken down to the people, only need dial the driving lever downwards, make drain pan one end and fixed shell break away from, then the drain pan rotates downwards round the connecting seat under the influence of gravity, pulls out the expansion block in from the fixed shell, so the operation can be fast with the drain pan open, has promoted the efficiency of changing the bulb, and then reduces the influence to staff's work.

According to the invention, when the bulb is damaged and replaced, the fan can suck air from the air outlet, so that the air flows into the vent pipe, then flows into the annular pipe and the air guide pipe, and is blown out from the air guide pipe to the bottom of the bulb, but the air is directly sucked from the air outlet, so that the hot air just blown out from the air outlet can be sucked again, the effect of cooling the bulb by the hot air is poor, and the replacement speed of the bulb is prolonged; when the hot air in the fixed shell and the bottom shell is sprayed out from the air outlet, the hot air can blow the rotating plate, the rotating plate rotates upwards around the baffle frame to discharge the hot air, when the fan sucks air from the air outlet, the rotating plate can be blocked by the baffle plate, the baffle plate is always attached to the baffle frame, the air cannot enter from the air outlet, the air can be sucked from the air suction port, when the air is sucked from the air suction port, the air can blow the baffle plate II, the baffle plate II rotates upwards around the rotating plate, the baffle plate II does not block the air suction port any more, and then the air can be sucked from the air suction port.

Drawings

FIG. 1 is a schematic diagram of a disclosed structure of an intelligent lamp for indoor design;

FIG. 2 is a schematic diagram of a part of the structure of the intelligent lamp for indoor design;

FIG. 3 is a schematic diagram of the structure of an adjusting unit disclosed by the intelligent lamp for indoor design;

FIG. 4 is an enlarged view at A of FIG. 3;

fig. 5 is a schematic structural diagram of a dust-proof assembly disclosed by the intelligent lamp for indoor design of the invention.

In the figure: the device comprises a 1-support, a 2-fixed shell, a 3-connecting seat, a 4-bottom shell, a 5-expansion block, a 6-bulb, a 7-deflector rod, an 8-connecting frame, a 9-fan, a 201-vent pipe, a 202-annular pipe, a 203-air duct, a 204-stay wire I, a 205-connecting ring, a 206-stay wire II, a 301-connecting block, a 302-rotating plate I, a 303-baffle I, a 304-small iron block, a 305-electromagnet, a 401-baffle frame, a 402-rotating plate, a 403-baffle, a 404-rotating plate II, a 405-baffle II, a 2 a-air inlet, an 8 a-air outlet, an 8 b-air inlet and a 206 a-string.

Detailed Description

The objects, technical solutions and advantages of the present invention will become more apparent by the following detailed description of the present invention with reference to the accompanying drawings. It should be understood that the description is only illustrative and is not intended to limit the scope of the invention. In addition, in the following description, descriptions of well-known structures and techniques are omitted so as not to unnecessarily obscure the present invention.

Example 1

An intelligent lamp for indoor design, as shown in figures 1-5, comprises a bracket 1;

The bulb lamp also comprises a fixed shell 2, a connecting seat 3, a bottom shell 4, an expansion block 5, a bulb 6, a deflector rod 7, a heat dissipation unit and an adjusting unit; the bracket 1 is fixedly connected with a fixed shell 2, and a plurality of air inlets 2a are annularly and equidistantly formed in the outer side of the fixed shell 2; the left side of the fixed shell 2 is connected with a connecting seat 3 through bolts; the connecting seat 3 is hinged with a bottom shell 4; the upper part of the bottom shell 4 is fixedly connected with an expansion block 5, and the bottom of the fixed shell 2 is provided with a clamping groove matched with the expansion block 5; a bulb 6 is connected in the fixed shell 2 through bolts; the right side of the bottom shell 4 is fixedly connected with a deflector rod 7, and the deflector rod 7 is made of heat insulation materials; the fixed shell 2 is connected with a heat dissipation unit; the fixed housing 2 is connected with an adjusting unit.

The heat radiation unit comprises a connecting frame 8, a fan 9, a vent pipe 201, an annular pipe 202 and an air duct 203; the upper part of the fixed shell 2 is fixedly connected with a connecting frame 8, the connecting frame 8 and the upper part of the fixed shell 2 form a closed space, and a plurality of air outlets 8a are formed in the upper part of the connecting frame 8; a fan 9 is connected in the connecting frame 8 through bolts; a plurality of vent pipes 201 which are distributed in an annular shape are fixedly connected in the fixed shell 2, and the upper part of each vent pipe 201 penetrates through the fixed shell 2 and is communicated with the inside of the connecting frame 8; the bottoms of all the breather pipes 201 are fixedly connected together and communicated with an annular pipe 202; the annular pipe 202 is connected with five air ducts 203 in an annular equidistant rotation mode, all the air ducts 203 are communicated with the annular pipe 202, torsion springs are arranged at the connection positions of each air duct 203 and the annular pipe 202, and the air ducts 203 are vertically oriented downwards all the time through the torsion springs.

The adjusting unit comprises a first stay rope 204, a connecting ring 205 and a second stay rope 206; each air duct 203 is fixedly connected with a first stay rope 204; the other end of each first pull rope 204 is fixedly connected with a connecting ring 205; a second stay rope 206 is fixedly connected to the right side of the upper portion of the bottom shell 4, the second stay rope 206 penetrates through the expansion block 5 and the right side of the fixed shell 2 upwards to be fixedly connected with the upper portion of the connecting ring 205, and the second stay rope 206 winds the redundant length inside the fixed shell 2.

The second stay cord 206 is composed of a main rope and three strings 206a, and the strings 206a are distributed in a triangular mode, so that the stability of the annular tube 202 is more stable.

A temperature sensor is arranged at the top of the fixed shell 2; the bracket 1 is provided with a control module; the temperature inside the fixed shell 2 and the bottom shell 4 is monitored through the temperature sensor and fed back to the control module, and when the temperature inside the fixed shell 2 and the bottom shell 4 exceeds a preset value, the control module controls the fan 9 to start so as to cool the fixed shell 2 and the bottom shell 4.

The following is the working mode of the above embodiment:

When the existing lamp is used, the bulb 6 heats and radiates air in the fixed shell 2 and the bottom shell 4 to heat the air in the fixed shell 2 and the bottom shell 4, when the lamp is used for a long time, a large amount of heat can be accumulated in the fixed shell 2 and the bottom shell 4, so that the inside temperature of the fixed shell 2 and the bottom shell 4 is too high, a lamp socket is easy to burn out, the bulb 6 is short-circuited, the bulb 6 is damaged, therefore, when the inside temperature of the fixed shell 2 and the bottom shell 4 is gradually increased, the temperature sensor feeds back the temperature change in the fixed shell 2 and the bottom shell 4 to the control module, when the inside temperature of the fixed shell 2 and the bottom shell 4 exceeds a preset value, the control module controls the fan 9 to start, firstly, the fan 9 can pump out the air between the connecting frame 8 and the fixed shell 2, so that negative pressure is generated between the connecting frame 8 and the fixed shell 2, the hot air in the fixed shell 2 and the bottom shell 4 is sucked from the air duct 203 and then flows into the vent pipe 201 and finally is blown out from the air outlet 8a, when the hot air in the fixed shell 2 and the bottom shell 4 is pumped away, negative pressure is generated in the fixed shell 2 and the bottom shell 4 at the moment, so that the ambient normal-temperature air is sucked into the fixed shell 2 and the bottom shell 4 from the air inlet 2a, the effect of reducing the temperature is achieved by exchanging the ambient normal-temperature air with the hot air in the fixed shell 2 and the bottom shell 4, the problems that the lamp sockets are easy to burn out and short-circuited to cause damage to the bulb 6 are avoided, and when the temperature in the fixed shell 2 and the bottom shell 4 is reduced, the temperature sensor feeds back the temperature in the fixed shell 2 and the bottom shell 4 to the control module, and the control module controls the fan 9 to stop working;

When the lamp bulb 6 is damaged, the damaged lamp bulb 6 needs to be replaced in time, the lamp is used for a long time, the heat emitted by the lamp bulb 6 can heat the lamp shade, so that the surface temperature of the lamp shade is higher, the existing lamp shade is usually connected in a screwed mode, a person is required to screw the lamp shade for many times to remove the lamp shade, the person directly contacts the lamp shade by hand and can be scalded by the high-temperature lamp shade, the lamp shade needs to be removed after waiting for the lamp shade to cool, the replacement time is wasted, and the work of staff is influenced, therefore, through the fact that the connection between the bottom shell 4 and the fixed shell 2 is in a detachable structure, when the person needs to remove the lamp shade, only the deflector rod 7 is required to be stirred downwards, one end of the bottom shell 4 is separated from the fixed shell 2, then the bottom shell 4 rotates downwards around the connecting seat 3 under the influence of gravity, and the expansion block 5 is pulled out from the fixed shell 2, so that the bottom shell 4 can be quickly opened, the efficiency of replacing the lamp bulb 6 is improved, and the influence on the work of the staff is reduced;

When the bottom shell 4 is opened, the damaged bulb 6 is still high in temperature, if the bulb 6 is contacted with indoor air to automatically cool, the required time is too long, and the replacement time is greatly prolonged, so when the bottom shell 4 is turned down around the connecting seat 3 to be opened, the bottom shell 4 pulls the second pull rope 206, and the excessive second pull rope 206 in the fixed shell 2 is pulled first in the process that the bottom shell 4 is turned down around the connecting seat 3, when the residual second pull rope 206 in the fixed shell 2 is pulled out completely, the second pull rope 206 pulls the connecting ring 205 to move upwards, and when the connecting ring 205 moves upwards, the first pull rope 204 pulls the air duct 203 to rotate around the annular pipe 202 towards the bulb 6, at this time, the torsion spring at the joint of the air duct 203 and the annular pipe 202 is twisted, and when the bottom shell 4 is completely opened, all air duct 203 exports all are towards bulb 6's bottom, simultaneously, fan 9 reverses, inhale outside air by gas outlet 8a, the air of inhaling flows into in the annular duct 202 from breather pipe 201, then spout to bulb 6 bottom from air duct 203, make bulb 6 bottom receive the blow of normal atmospheric temperature air always, make bulb 6 bottom rapid cooling, avoid bulb 6 and indoor air contact automatic cooling, the problem of change time has been greatly prolonged, after new bulb 6 is changed, upwards promote drain pan 4, insert expansion piece 5 fixed shell 2 bottom can, at this moment, stay cord two 206 will be in the relaxation state, the torsional spring of air duct 203 and annular duct 202 junction will drive air duct 203 reset, air duct 203 will pull stay cord one 204 and make go-between 205 reset.

It should be noted that, when the bulb 6 is replaced, a person usually holds the bottom of the bulb 6 by hand to replace, so that the bottom of the bulb 6 is only required to be quickly cooled, and the bottom of the bulb 6 is cooled in a targeted manner, which is beneficial to improving the efficiency of replacing the bulb 6.

Example 2

On the basis of the embodiment 1, as shown in fig. 1-3 and 5, the dust-proof assembly is further included; the dustproof assembly comprises a connecting block 301, a first rotating plate 302 and a first baffle 303; five connecting blocks 301 are fixedly connected to the inner side of the fixed shell 2, and each connecting block 301 is positioned above the corresponding air inlet 2 a; each connecting block 301 is rotatably connected with a first rotating plate 302; each first rotating plate 302 is fixedly connected with a first baffle 303, and each first baffle 303 completely blocks the corresponding air inlet 2 a.

The device also comprises a stabilizing unit; the stabilizing unit comprises a small iron block 304 and an electromagnet 305; two small iron blocks 304 are fixedly connected to the bottom of each baffle 303; two electromagnets 305 are fixedly connected to each connecting block 301, and each electromagnet 305 is matched with a corresponding small iron block 304.

The following is the working mode of the above embodiment:

when outside air is sucked into the fixed shell 2 and the bottom shell 4 from the air inlet 2a, the sucked air blows the first baffle 303, so that the first baffle 303 rotates obliquely upwards around the connecting block 301 through the first rotating plate 302, the air inlet 2a is not blocked, the air enters the fixed shell 2 and the inside of the bottom shell 4 from the air inlet 2a, the bulb 6 is cooled, but in the sucked process, as the torsion spring in the first rotating plate 302 resists with wind entering from the air inlet 2a, the first baffle 303 always frequently changes to be opened and closed, the first baffle 303 always beats the inner wall of the fixed shell 2 to generate noise, the electromagnet 305 is started, the small iron block 304 on the first baffle 303 is attracted by the electromagnet 305, the small iron block 304 is adsorbed and attached together by the electromagnet 305, when the fan 9 sucks the air from the air inlet 2a, the first baffle 303 is in a stable open state, the first baffle 303 always beats the inner wall of the fixed shell 2, the first baffle 303 always stops working, and the first torsion spring 302 always stops working, and the first baffle 303 always changes to be closed, and the first baffle 303 always stops working, and the first baffle 303 always changes to be frequently stops working, and the first baffle 303 is always in a state, and the second baffle 303 stops working, and the second baffle 303 is always has the inner baffle 2, and stops working, and stops the second baffle 303, and has always has a and has a better air-stop;

In addition, the first baffle 303 is used for blocking the air inlet 2a, which is different from directly enabling the air inlet 2a to be in an open state, dust in air is not easy to enter the inside of the fixed shell 2 and the bottom shell 4, and the problem that the dust falls on the surface of the bulb 6 and the inner surface of the bottom shell 4, so that light emitted by the bulb 6 can be blocked by the dust, and the brightness of the light irradiated indoors is reduced is avoided.

It should be noted that, the air inlet 2a is blocked by the first blocking piece 303, so that the heat dissipation of the bulb 6 is affected to a certain extent, but the effect of discharging the heat inside the fixing shell 2 and the bottom shell 4 is not obvious only by the air inlet 2a, and the problem that the dust enters the fixing shell 2 and the bottom shell 4 is also caused, although the air inlet 2a is blocked by the first blocking piece 303, the invention is different from the prior art, when the temperature inside the fixing shell 2 and the bottom shell 4 is higher, the invention sucks the heat inside the fixing shell 2 and the bottom shell 4 and introduces the external air to dissipate the heat of the fixing shell 2, the bottom shell 4 and the bulb 6, the heat dissipation effect is obvious, and the invention solves the problem that the dust enters the fixing shell 2 and the bottom shell 4 from the air inlet 2a, and the external air and the dust enter the fixing shell 2 and the bottom shell 4 through the air inlet 2a, and the external air in the fixing shell 2 and the bottom shell 4 are sucked by the air guide 203 after the heat dissipation of the fixing shell 2 and the bottom shell 4, and the dust is not accumulated.

Example 3

On the basis of the embodiment 2, as shown in fig. 1-4, the air exhaust assembly is further included; the exhaust assembly comprises a baffle frame 401, a rotating plate 402 and a baffle plate 403; a plurality of baffle frames 401 are fixedly connected to the upper part of the connecting frame 8, and each baffle frame 401 is positioned above the corresponding air outlet 8 a; each baffle frame 401 is rotatably connected with a rotating plate 402; a plurality of baffle plates 403 are fixedly connected to the upper part of the connecting frame 8, and each baffle plate 403 is positioned on one side of the corresponding rotating plate 402 facing the center of the connecting frame 8.

The device also comprises a blocking unit; the blocking unit comprises a second rotating plate 404 and a second blocking piece 405; the outer side surface of the connecting frame 8 is provided with a plurality of annular air inlets 8b which are distributed at equal intervals; the inner side surface of each connecting frame 8 is connected with a plurality of second rotating plates 404 through bolts, and each second rotating plate 404 is positioned above the corresponding air suction port 8b; each second rotating plate 404 is fixedly connected with a second blocking piece 405, each second blocking piece 405 is attached to the inner side surface of the connecting frame 8, and each second blocking piece 405 blocks the corresponding air suction port 8b.

The air suction port 8b is obliquely arranged downwards, and because the heat energy is upwards dispersed, the air suction port 8b is obliquely arranged downwards, so that hot air just flowing out of the air outlet 8a is prevented from being sucked into the air suction port 8b again, and the cooling rate of the bulb 6 is reduced.

The following is the working mode of the above embodiment:

when the bulb 6 is damaged, when the bulb 6 is replaced, the fan 9 sucks air from the air outlet 8a, so that the air flows into the vent pipe 201, then flows into the annular pipe 202 and the air guide pipe 203, the air is blown out from the air guide pipe 203 to the bottom of the bulb 6, but is directly sucked from the air outlet 8a, hot air just blown out from the air outlet 8a is sucked again, so that the cooling effect of the hot air on the bulb 6 is poor, the replacement speed of the bulb 6 is prolonged, therefore, when the hot air in the fixed shell 2 and the bottom shell 4 is sprayed out from the air outlet 8a, the hot air can blow the rotating plate 402, the rotating plate 402 rotates upwards around the baffle frame 401, the hot air is discharged, when the fan 9 sucks air from the air outlet 8a, the rotating plate 402 can be blocked by the baffle plate 403, the baffle plate 403 is always attached to the baffle frame 401, so that the air cannot enter from the air outlet 8a, and the air can be sucked from the air inlet 8b, when the air is sucked from the air inlet 8b, the air inlet 405 can blow the baffle plate II 405, the rotating upwards around the rotating plate II 404, so that the baffle plate II 405 does not block the air inlet 8b, the air inlet 8b is greatly reduced, the air inlet 8b is sucked from the air inlet, and the air inlet hole is greatly reduced from the air inlet 6 b, and the problem of the dust is prevented from being sucked from the air inlet 6 b, and the air inlet is further, and the problem of the dust is prevented from being sucked from the air inlet 6 b, and the air inlet to the air inlet 6 is further, and the air inlet is further down from the air inlet 6, and the problem is further sucked when the dust is further, and the dust is sucked from the air is further, and the air is sucked from the air inlet 2 from the air inlet 2.

It should be noted that the fixed shell 2 is located above the bulb 6, and the fixed shell 2 is made of opaque materials, so that the bulb 6 is prevented from projecting parts in the fixed shell 2 onto a desk surface when the bulb emits light, and normal use of people is affected.

It is to be understood that the above description is intended to be illustrative only and is not intended to be limiting. Those skilled in the art will appreciate variations of the present invention that are intended to be included within the scope of the claims herein.

Claims (5)

1. An intelligent lamp for indoor design comprises a bracket (1); the method is characterized in that: the device also comprises a fixed shell (2), a connecting seat (3), a bottom shell (4), an expansion block (5), a bulb (6), a deflector rod (7), a heat dissipation unit and an adjusting unit; the bracket (1) is fixedly connected with a fixed shell (2), and a plurality of air inlets (2 a) are annularly and equidistantly arranged on the outer side of the fixed shell (2); a connecting seat (3) is fixedly connected to the left side of the fixed shell (2); the connecting seat (3) is movably connected with a bottom shell (4); an expansion block (5) is fixedly connected to the upper part of the bottom shell (4), and a clamping groove matched with the expansion block (5) is formed in the bottom of the fixed shell (2); a bulb (6) is fixedly connected in the fixed shell (2); a deflector rod (7) is fixedly connected to the right side of the bottom shell (4), and the deflector rod (7) is made of heat insulation materials; the fixed shell (2) is connected with a heat dissipation unit for discharging heat; the fixed shell (2) is connected with an adjusting unit for adjusting the air flow direction;

The radiating unit comprises a connecting frame (8), a fan (9), a vent pipe (201), an annular pipe (202) and an air duct (203); the upper part of the fixed shell (2) is fixedly connected with a connecting frame (8), the connecting frame (8) and the upper part of the fixed shell (2) form a closed space, and a plurality of air outlets (8 a) are formed in the upper part of the connecting frame (8); a fan (9) is fixedly connected in the connecting frame (8); a plurality of vent pipes (201) which are annularly distributed are fixedly connected in the fixed shell (2), and the upper part of each vent pipe (201) penetrates through the fixed shell (2) and is communicated with the inside of the connecting frame (8); the bottoms of all the breather pipes (201) are fixedly connected together and communicated with an annular pipe (202); the annular pipe (202) is circularly and equidistantly connected with a plurality of air guide pipes (203), all the air guide pipes (203) are communicated with the annular pipe (202), torsion springs are arranged at the connection parts of each air guide pipe (203) and the annular pipe (202), and the air guide pipes (203) are vertically oriented downwards all the time by the torsion springs;

The adjusting unit comprises a first stay cord (204), a connecting ring (205) and a second stay cord (206); each air duct (203) is fixedly connected with a first stay cord (204); the other end of each first pull rope (204) is fixedly connected with a connecting ring (205) together; a second stay rope (206) is fixedly connected to the right side of the upper part of the bottom shell (4), the second stay rope (206) upwards penetrates through the expansion block (5) and the right side of the fixed shell (2) and is fixedly connected with the upper part of the connecting ring (205), and the second stay rope (206) winds the redundant length inside the fixed shell (2);

The second stay cord (206) consists of a main rope and a plurality of strings (206 a);

The air exhaust assembly is also included; the exhaust assembly comprises a baffle frame (401), a rotating plate (402) and a baffle plate (403); a plurality of baffle frames (401) are fixedly connected to the upper part of the connecting frame (8), and each baffle frame (401) is positioned above the corresponding air outlet (8 a); each baffle frame (401) is rotatably connected with a rotating plate (402); the upper part of the connecting frame (8) is fixedly connected with a plurality of baffle plates (403), and each baffle plate (403) is positioned at one side of the corresponding rotating plate (402) facing the center of the connecting frame (8);

The device also comprises a blocking unit; the blocking unit comprises a second rotating plate (404) and a second blocking piece (405); the outer side surface of the connecting frame (8) is provided with a plurality of air inlets (8 b); a plurality of second rotating plates (404) are fixedly connected to the inner side surface of each connecting frame (8), and each second rotating plate (404) is positioned above the corresponding air suction port (8 b); each second rotating plate (404) is fixedly connected with a second baffle (405), each second baffle (405) is attached to the inner side surface of the connecting frame (8), and each second baffle (405) is used for blocking the corresponding air suction port (8 b).

2. The intelligent lamp for indoor design according to claim 1, wherein: a temperature sensor is arranged at the top of the fixed shell (2); the bracket (1) is provided with a control module.

3. The intelligent lamp for indoor design according to claim 1, wherein: the dust-proof assembly is also included; the dustproof assembly comprises a connecting block (301), a first rotating plate (302) and a first baffle (303); a plurality of connecting blocks (301) are fixedly connected to the inner side of the fixed shell (2), and each connecting block (301) is positioned above the corresponding air inlet (2 a); each connecting block (301) is rotatably connected with a first rotating plate (302); each first rotating plate (302) is fixedly connected with a first baffle (303), and each first baffle (303) completely blocks the corresponding air inlet (2 a).

4. The intelligent lamp for indoor design according to claim 3, wherein: the device also comprises a stabilizing unit; the stabilizing unit comprises a small iron block (304) and an electromagnet (305); the bottom of each first baffle (303) is fixedly connected with a plurality of small iron blocks (304); each connecting block (301) is fixedly connected with a plurality of electromagnets (305), and each electromagnet (305) is matched with a corresponding small iron block (304).

5. The intelligent lamp for indoor design according to claim 4, wherein: the air suction port (8 b) is arranged obliquely downwards.