CN108709143B

CN108709143B - Energy-saving lamp

Info

Publication number: CN108709143B
Application number: CN201810345553.9A
Authority: CN
Inventors: 苏涛; 俞燕; 欧阳刚; 陈冬; 苏姝; 欧阳桦
Original assignee: Chongqing Industry Polytechnic College
Current assignee: Chongqing Industry Polytechnic College
Priority date: 2018-04-17
Filing date: 2018-04-17
Publication date: 2020-09-04
Anticipated expiration: 2038-04-17
Also published as: CN108709143A

Abstract

The invention discloses an energy-saving lamp, belongs to the field of lighting equipment, and provides the following solutions for solving the problem that an energy-saving desk lamp in the prior art needs to be turned over manually when used as a night lamp: the lamp comprises a lamp body, wherein the lamp body comprises a lamp holder, a lamp post of which the lower end is fixedly connected with the lamp holder and a lamp cap fixed at the upper end of the lamp post, the lamp cap comprises an outer shell, an embedded body and a driving mechanism, a groove is formed in the side wall of the outer shell, the embedded body can be embedded into the groove, the driving mechanism is respectively connected with the outer shell and the embedded body, and the driving mechanism can drive the embedded body to swing along the end part of the outer shell so as to be; the side wall of the inner inlay body is provided with a photosensitive resistor for collecting the illumination intensity and a controller for controlling the operation of the driving mechanism according to the level of a circuit in which the photosensitive resistor is arranged.

Description

Energy-saving lamp

Technical Field

The invention belongs to the field of lighting equipment, and particularly relates to an energy-saving lamp.

Background

An energy-saving lamp is an illumination device adopting a power-saving bulb and generally comprises a lamp holder, a lamp post and a lamp holder, wherein a switch used for controlling the on-off of a circuit where the bulb is located on the lamp holder is arranged at the top of the lamp holder, a power transmission line used for supplying power to the bulb on the lamp holder is arranged at the rear part of the lamp holder, the power transmission line extends out of the lamp holder, and a plug capable of being inserted into a household socket is arranged at one end, away from the bulb. When the household socket is used, a user inserts a plug into the household socket, and the switch is turned on, so that the bulb at the bottom of the lamp holder can be lightened, and the household socket is convenient and fast.

The existing energy-saving lamp has single function and is usually used as a household desk lamp; when the energy-saving lamp is used at night, the energy-saving lamp shines strongly, can sting eyes and is not suitable for being used during sleeping at night. In view of the above situation, chinese patent CN105805630B discloses an energy-saving desk lamp, wherein a lamp holder of the energy-saving desk lamp adopts a foldable design, the lamp holder includes a front end connected to a lamp post and a rear end capable of being turned upwards relative to the front end, a hall sensor at the top of the front end detects the magnetic field strength generated by a magnet on the rear end, and determines whether the lamp holder is folded or not according to the change of the magnetic field strength; when the lamp holder is folded, the controller receives the information feedback of the Hall sensor and controls the lamp at the rear end part of the lamp holder to be turned off, the number of the light-emitting bulbs of the whole energy-saving desk lamp is reduced, and the illumination intensity generated by the whole desk lamp is reduced, so that the energy-saving desk lamp is convenient to use during sleeping at night; when the lamp holder is not folded, the bulbs at the rear end part and the front end part of the lamp holder are all lightened, the overall illumination intensity of the desk lamp is increased, the desk lamp can be used as the desk lamp, and a user can concentrate on the desk lamp conveniently.

According to the scheme, the number of the light-emitting bulbs of the desk lamp is changed, so that the effect of adjusting the illumination intensity of the desk lamp is achieved, and the desk lamp can be used as a lamp for sleeping at night and a lamp for working at daytime.

However, when the energy-saving table lamp is used at night, the bulb at the front end part emits light, and mosquitoes have phototaxis, so that when the energy-saving table lamp is used, the mosquitoes are close to the front end part, light is shielded, uneven illumination is caused, and the sleeping quality of a user is influenced.

And when the energy-saving table lamp is in a switching state, the rear end part needs to be turned upwards or turned downwards manually. Thus, when switching the state, a person with mobility is required to perform the switching. If the user forgets to manually switch the energy-saving desk lamp when the user is in a vague state, dazzling light of the energy-saving desk lamp will inevitably cause adverse effects on the user.

Disclosure of Invention

The invention provides an energy-saving lamp, which solves the problem that in the prior art, when an energy-saving desk lamp is used as a night lamp, the energy-saving desk lamp needs to be turned over manually.

The basic scheme of the invention is as follows: an energy-saving lamp comprises a lamp body, wherein the lamp body comprises a lamp holder, a lamp post of which the lower end is fixedly connected with the lamp holder and a lamp holder fixed at the upper end of the lamp post, the lamp holder comprises an outer shell, an inner inlay, a control mechanism and a driving mechanism, a groove is formed in the side wall of the outer shell, the inner inlay can be embedded into the groove, the driving mechanism is respectively connected with the outer shell and the inner inlay, and the driving mechanism can drive the inner inlay to swing along the end part of the outer shell so as to be embedded into the groove; the control mechanism can control the starting of the driving mechanism according to the illumination intensity, and the inner inlay is rotatably embedded into the groove along the end part of the outer shell;

the utility model discloses a smart oil tank, including shell body, recess, heating tank, gasbag, discharge gate, casing top is opened there is the heating groove, the heating groove lateral wall is equipped with the feed port with recess bottom intercommunication, be equipped with the gasbag that is used for saving essential oil liquid in the recess, the gasbag is equipped with the discharge gate, discharge gate and feed port intercommunication.

The principle and the beneficial effects of the basic scheme are as follows: the energy-saving lamp in the scheme has the common condition that the inner inlay is away from the outer shell, and at the moment, the two ends of the second bulb at the bottom of the outer shell are respectively connected with the anode and the cathode of the power line, so that the second bulb is continuously in a lighting state;

the embedded body leaves the outer shell, so that the metal block in the sliding groove cannot be in contact with the embedded body, and the metal block is in contact with the second current conducting plate at the end part of the sliding groove under the action of the elastic force of the pressure spring, so that a circuit where the first bulb at the bottom of the embedded body is located is conducted, namely the first bulb at the bottom of the embedded body is also in a lighting state;

therefore, in daily use, the second bulb at the bottom of the outer shell and the first bulb at the bottom of the inner embedding body are both in a lighting state, and the illumination intensity is high at the moment, so that the lamp is suitable for being used in daytime work;

when the external environment is changed from the daytime to the night, the control mechanism controls the driving mechanism to be started, so that the inner inlay is rotatably embedded into the groove along the end part of the outer shell;

the swinging process of the inlay is thus completed without manual operation, i.e. even if the user pulls the inlay out of the recess during the day, the inlay is reinserted into the recess during the night.

During the recess was plugged into along with the embedded body, the embedded body touched the gasbag of recess bottom gradually, and the embedded body extrudees the gasbag for essential oil liquid in the gasbag spouts into the heating bath through discharge gate and feed port, thereby accomplishes the feeding process that essential oil put into the heating bath.

And the bulb on the lamp body can produce a large amount of heat energy after long-term work, and essential oil in the heating tank can absorb these heat energies and evaporate, cools down whole lamp body, avoids the high temperature to reduce the life of bulb.

When the inner inlay is plugged into the groove, the inner inlay is in contact with the metal block to push the metal block to move towards the first current conducting plate, the pressure spring gradually contracts, the metal block is far away from the second current conducting plate, and then a circuit where a first bulb at the bottom of the inner inlay is located is disconnected, and the first bulb is turned off; therefore, the whole lamp body is only lighted by the second bulb of the outer shell, the illumination intensity of the whole lamp body is reduced, the illumination becomes soft, and the lamp is suitable for being used at night.

In conclusion, the control mechanism senses the illumination intensity change of the external environment, the control mechanism is used for judging whether the current environment is daytime or nighttime, and when the illumination intensity is very weak, the current environment is judged to be nighttime, so that the control mechanism controls the driving mechanism to enable the embedded body to swing along the end part of the outer shell body and be embedded into the groove of the outer shell body, and the embedded body extrudes the air bag at the bottom of the groove along with the embedding of the embedded body into the groove; the extruded air bag sprays the essential oil liquid into the heating tank, and the evaporation of the essential oil liquid can absorb heat generated by long-term work of the first bulb and the second bulb in the lamp body, so that the heat energy is fully utilized; and along with the second current conducting plate that the metal block kept away from for first bulb in the inlay goes out, makes the holistic illumination intensity of lamp body weaken, and illumination is soft, is applicable to the night illumination.

Furthermore, the top of the embedded body is provided with a solar cell, and the solar cell can supply power for the lamp body.

In the scheme, the solar cell is used for supplying power to the lamp body, so that the requirement of the energy-saving lamp on household electricity is reduced; when the power is cut off suddenly, the solar cell in the scheme can still absorb external solar energy, so that power is supplied to the lamp body in the scheme; the lamp body can not work normally under the condition of emergency is avoided.

Further, a one-way valve is arranged in the feeding hole.

Considering that the position of the energy-saving lamp can be moved when a user uses the energy-saving lamp in the scheme, and when the user carries the energy-saving lamp, the lamp body of the energy-saving lamp vibrates, so that essential oil liquid in the heating tank shakes, and the essential oil liquid can flow back into the air bag through the feeding hole; therefore, aiming at the situation, the check valve is arranged in the feed hole, so that the essential oil liquid is only allowed to flow to the heating tank from the air bag in the feed hole, and the phenomenon that the essential oil liquid in the heating tank flows back to the air bag is avoided.

Furthermore, a perforated dust guard plate is arranged at the top of the heating groove.

Considering that dust in the air can enter the heating tank to pollute the essential oil liquid and influence the evaporation effect of the essential oil liquid; this scheme has set up the dust guard at the heating bath top, reduces the entering of external dust to this dust guard is provided with the porose, and this is also for the passageway that steam loss that lets the evaporation of essential oil liquid produce goes out, has guaranteed that the effect of the essential oil in this scheme can obtain embodying.

Further, a heating resistance wire is arranged at the bottom of the heating groove, the first conducting plate is connected with one end of the heating resistance wire through a conducting wire, and the other end of the heating resistance wire is connected with the positive pole or the negative pole of the power line through a conducting wire.

Furthermore, a partition board is arranged at the bottom of the heating groove and is positioned above the heating resistance wires.

In this scheme, essential oil liquid gets into the heating tank and is blocked by the baffle to make the essential oil liquid that gets into the heating tank all be located the top of baffle, the baffle successfully avoids the direct contact of essential oil liquid and heating resistor silk.

Furthermore, the driving mechanism comprises a motor, a winder and a torsion spring, the motor is installed at the top of the outer shell, the winder is installed at the end part of a rotating shaft of the motor, a wire is wound on the winder, one end of the wire is fixed with the winder, and the other end of the wire is fixed with the end part of the inner inlay; one end of the torsion spring is connected with the outer shell, and the other end of the torsion spring is connected with the embedded body; the on-off power of a circuit where the motor is located can be controlled by the controller.

In the scheme, the driving mechanism is composed of a motor, a winder and a torsion spring, the torsion spring provides an elastic force, and the elastic force enables the embedded body to rotate so as to be embedded into the outer shell; when the motor rotates in the positive direction, the wire winder winds the wire, and tension is provided through the tightened wire and can be offset with the torsion spring; in daytime, the controller controls the motor to rotate in the positive direction, the winder winds the wire, and the tightened wire provides a pulling force for the embedded body to offset with the torsion spring, so that the embedded body is ensured to be outside the shell body and cannot move; at night, the light intensity information detected by the photosensitive sensor is reduced, the controller controls the motor to rotate reversely, the winder rotates reversely, the winder releases the wires, the wires are not tightened any more and cannot provide tension for the embedded body, and the embedded body swings and is embedded into the outer shell again under the action of the torsion spring; here, the forward rotation and the reverse rotation are opposite directions, and for example, when the forward rotation is clockwise rotation, the reverse rotation is counterclockwise rotation.

Further, the top of the outer shell is also provided with a feeding channel, the air bag is provided with a feeding hole, the feeding hole is communicated with the feeding channel, and the top of the feeding channel is provided with a plug body.

Considering that the essential oil liquid in the gasbag is limited, in this scheme, can add material for the essential oil liquid in the gasbag through reinforced passageway and feed inlet, use the cock body to plug up reinforced passageway after the reinforced completion to guarantee that the gasbag can not spill over from reinforced passageway in being extruded.

Further, control mechanism is including setting up at the photo resistance and the controller of inlay body lateral wall, and the controller is according to the high-low level control actuating mechanism of photo resistance place circuit with inlay body along the rotatory embedding recess of shell body tip.

In the scheme, the light intensity is sensed by using the photoresistor, and the controller obtains the illumination intensity according to the high and low levels of the circuit where the photoresistor is located; for example, the resistance value of the photoresistor is smaller as the light is stronger, when the photoresistor is at night, the circuit where the photoresistor is at the low level, the controller controls the driving mechanism to start, and the inner inlay is embedded into the groove in a rotating mode along the end portion of the outer shell.

Drawings

FIG. 1 is a schematic diagram of an embodiment of an energy saving lamp according to the present invention;

FIG. 2 is a top view of the lamp head of FIG. 1;

fig. 3 is a bottom view of the lamp cap of fig. 1.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the lamp comprises a lamp holder 1, a lamp post 2, a lamp holder 3, an outer shell 4, an inlay 5, a motor 6, a winder 7, a groove 8, an air bag 9, a heating groove 10, a feeding channel 11, a sliding groove 12, a first conducting plate 13, a second conducting plate 14, a metal block 15, a first bulb 16, a second bulb 17 and a heating resistance wire 18.

The specific implementation process is as follows:

as shown in fig. 1, an energy-saving lamp comprises a lamp body, wherein the lamp body comprises a lamp holder 1, a lamp post 2 of which the lower end is fixedly connected with the lamp holder 1, and a lamp cap 3 fixed with the upper end of the lamp post 2, and the lamp cap 3 comprises an outer shell 4, an inlay 5, a control mechanism and a driving mechanism; the front wall of the outer shell 4 is provided with a groove 8, and the size of the inner embedded body 5 can be just embedded into the groove 8; the driving mechanism comprises a motor 6, a winder 7 and a torsion spring, the motor 6 is arranged at the top of the outer shell 4, as shown in fig. 2, the motor 6 is positioned behind the groove on the outer shell 4, and the torsion spring can drive the inner inlay 5 to swing along the end part of the outer shell 4 so as to be embedded into the groove 8; as shown in fig. 1, the bobbin 7 is installed at the upper end of the rotating shaft of the motor 6, the bobbin 7 is wound with a wire, as shown in fig. 2, the left end of the wire is glued with the bottom of the bobbin 7, and the right end of the wire is glued with the right front end of the inner embedding body 5; the left end of the torsion spring is connected with the outer shell 4, and the right end of the torsion spring is connected with the embedded body 5;

the control mechanism comprises a photosensitive resistor and a controller which are arranged on the side wall of the inlay body, the controller controls the driving mechanism according to the high and low levels of a circuit where the photosensitive resistor is located, and specifically, the higher the illumination of the photosensitive resistor is, the smaller the resistance value is; in the daytime, the circuit of the photoresistor is at a high level, and the controller controls the motor 6 to rotate clockwise, so that the wire on the wire winder 7 is released.

When night, the photo resistance place circuit is the high level, and controller control actuating mechanism starts, in the rotatory embedding recess of shell body tip with the inlay, then 6 anticlockwise rotations of controller control motor to it is taut with the line of winding on spooler 7.

As shown in fig. 2, the top wall of the outer shell 4 is provided with a heating tank 10 and a feeding channel 11 communicated with the bottom of the groove 8, the top of the heating tank 10 is provided with a dustproof plate with holes, the side wall of the heating tank 10 is provided with a feeding hole communicated with the bottom of the groove 8, the bottom of the groove 8 is provided with an air bag 9 for storing essential oil, the air bag 9 is provided with a discharging hole and a feeding hole, the discharging hole is communicated with the feeding hole, the feeding hole is internally provided with a one-way valve, the feeding hole is communicated with the feeding channel 11, the upper part of the feeding channel 11 is provided with a plug body capable of being pulled out, and;

as shown in fig. 3, the bottom of the outer shell 4 is provided with a chute 12 communicated with the side wall of the groove 8, and the length direction of the chute 12 is the front-back direction; the sliding chute 12 is provided with a metal block 15, the left end of the metal block 15 slides along the side wall of the sliding chute 12, the rear end of the sliding chute 12 is glued with the first conductive plate 13, and the front end of the sliding chute 12 is glued with the second conductive plate 14; a pressure spring is glued between the first current conducting plate 13 and the metal block 15, an insulating skin is wrapped outside the pressure spring, the pressure spring is guaranteed to be wholly non-conductive, and the metal block 15 can be in contact with the inner inlay 5;

as shown in fig. 2, a heating resistance wire 18 is arranged at the bottom of the heating tank 10, and a partition board is arranged above the heating resistance wire 18; the first conductive plate 13 is connected with one end of a heating resistance wire 18 through a lead, and the other end of the heating resistance wire 18 is connected with the anode or the cathode of a power line through a lead;

as shown in fig. 3, eight first bulbs 16 are arranged at the bottom of the inlay 5, the second conductive plate 14 is connected with one end of the first bulb 16 through a wire, the other end of the first bulb 16 is connected with the positive pole or the negative pole of the power line through a wire, and the conductive plate is connected with the negative pole or the positive pole of the power line through a wire; eight second bulbs 17 are arranged at the bottom of the outer shell 4, and two ends of the second bulbs 17 are respectively connected with the positive pole and the negative pole of the power line.

The energy-saving lamp in the scheme has the common condition that the embedded body 5 is away from the outer shell 4, and at the moment, the two ends of the second bulb 17 at the bottom of the outer shell 4 are respectively connected with the anode and the cathode of the power line, so that the second bulb 17 is continuously in a lighting state;

because the inlay 5 leaves the outer shell 4, the metal block 15 in the sliding groove 12 cannot contact with the inlay 5, and the metal block 15 contacts with the second conductive plate 14 at the end of the sliding groove 12 under the action of the elastic force of the pressure spring, so that the circuit where the first bulb 16 at the bottom of the inlay 5 is located is conducted, that is, the first bulb 16 at the bottom of the inlay 5 is also in a lighting state;

in addition, the illumination intensity collected by the photosensitive sensor on the embedded body 5 is gradually higher, the controller controls the motor 6 to rotate anticlockwise, so that the wire wound on the winder 7 anticlockwise is tensioned, the tensioned wire provides the embedded body 5 with a tensile force which is offset with the torsion spring, and the embedded body 5 is ensured to be outside the outer shell 4 and cannot move;

therefore, in daily use, the second bulb 17 at the bottom of the outer shell 4 and the first bulb 16 at the bottom of the inner embedded body 5 are both in a lighting state, and the illumination intensity is high at the moment, so that the lamp is suitable for being used as a lamp for daily work;

when the external environment is converted into night from the daytime, the illumination intensity collected by the photosensitive sensor on the embedded body 5 is gradually weakened, the current light intensity information collected by the photosensitive sensor is gradually reduced, the current light intensity information is smaller than or equal to the standard light intensity information through comparison by the controller, the controller controls the motor 6 to rotate clockwise, the winder 7 rotates clockwise, the winder 7 releases the wire, the wire is not tightened any more, tension cannot be provided for the embedded body 5, the embedded body 5 swings to be embedded into the outer shell 4 again under the action of the torsion spring, the swinging process of the embedded body 5 is completed, manual operation is not needed in the period, namely, even if a user pulls out the embedded body 5 from the groove 8 in the daytime, the embedded body 5 can be plugged into the groove 8 again under the night condition.

Along with the fact that the inner inlay 5 is plugged into the groove 8, the inner inlay 5 gradually touches the air bag 9 at the bottom of the groove 8, the inner inlay 5 extrudes the air bag 9, essential oil liquid in the air bag 9 is sprayed into the heating groove 10 through the discharge hole and the feed hole, and therefore the feeding process of the essential oil into the heating groove 10 is completed; and the one-way valve in the feeding hole ensures that the essential oil liquid in the heating tank 10 can not flow back to the air bag 9 even if the energy-saving lamp is in a shaking state. And the essential oil liquid in the air bag 9 is added before the energy-saving lamp is used, the plug body is pulled out from the feeding channel 11, then the essential oil liquid is injected into the air bag 9 from the feeding channel 11 through the feeding hole, and after the injection is finished, the plug body is plugged into the feeding channel 11 again.

When the inner inlay 5 is plugged into the groove 8, the inner inlay 5 is in contact with the metal block 15, the metal block 15 is pushed to move towards the first conductive plate 13, the pressure spring gradually contracts, the metal block 15 is far away from the second conductive plate 14, a circuit where the first bulb 16 at the bottom of the inner inlay 5 is located is disconnected, and the first bulb 16 is turned off; therefore, the whole lamp body is only lighted by the second bulb 17 of the outer shell 4, the illumination intensity of the whole lamp body is reduced, the illumination becomes soft, and the lamp is suitable for being used at night.

After the metal plate is far away from the second conductive plate 14, the metal plate is finally pushed by the inlay 5 to be in contact with the first conductive plate 13, so that a circuit where the heating resistance wire 18 is located is conducted, and after the heating resistance wire 18 is electrified, heat is generated to heat essential oil liquid in the heating tank 10, evaporation of the essential oil liquid is accelerated, and extra essential oil diffusion equipment is omitted; the perforated dust guard plate at the top of the heating tank 10 can prevent the essential oil liquid from being polluted by dust in the outside air as far as possible while ensuring that the gas after the essential oil liquid is evaporated can escape; in addition, essential oil liquid in this scheme enters into behind the heating bath 10 not direct with the contact of heating resistor silk 18, and essential oil liquid stops on the baffle, avoids the evaporation back impurity of the poor essential oil liquid of quality to show, hardens on heating resistor silk 18 for heating resistor silk 18's heating efficiency descends.

The foregoing is merely an example of the present invention, and common general knowledge in the field of known specific structures and characteristics is not described herein in any greater extent than that known in the art at the filing date or prior to the priority date of the application, so that those skilled in the art can now appreciate that all of the above-described techniques in this field and have the ability to apply routine experimentation before this date can be combined with one or more of the present teachings to complete and implement the present invention, and that certain typical known structures or known methods do not pose any impediments to the implementation of the present invention by those skilled in the art. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. The utility model provides an energy-saving lamp, includes the lamp body, the lamp body include lamp stand, lower extreme and lamp stand rigid coupling the lamp pole and with the lamp holder of lamp pole upper end fixed, its characterized in that: the lamp holder comprises an outer shell, an inner inlay, a control mechanism and a driving mechanism, wherein a groove is formed in the side wall of the outer shell, the inner inlay can be embedded into the groove, the driving mechanism is respectively connected with the outer shell and the inner inlay, and the driving mechanism can drive the inner inlay to swing along the end part of the outer shell so as to be embedded into the groove; the control mechanism can control the starting of the driving mechanism according to the illumination intensity, and the inner inlay is rotatably embedded into the groove along the end part of the outer shell; the top of the outer shell is provided with a heating groove, the side wall of the heating groove is provided with a feed hole communicated with the bottom of the groove, the groove is internally provided with an air bag for storing essential oil, the air bag is provided with a discharge hole, and the discharge hole is communicated with the feed hole; the bottom of the outer shell is provided with a sliding chute communicated with the side wall of the groove, and the length direction of the sliding chute is vertical to the length direction connecting line of the outer shell; a slidable metal block is arranged in the sliding chute, and a first current-conducting plate and a second current-conducting plate are respectively arranged at two ends of the sliding chute; a pressure spring is connected between the first current-conducting plate and the metal block, and when the pressure spring is in a free state, the metal block abuts against the second current-conducting plate; a heating resistance wire is arranged at the bottom of the heating groove, the first conducting plate is connected with one end of the heating resistance wire through a conducting wire, and the other end of the heating resistance wire is connected with the anode or the cathode of the power wire through a conducting wire;

when the embedded body is rotatably embedded into the groove, the embedded body can be abutted against the metal block and push the metal block to the first conductive plate; the bulb in the lamp body comprises a first bulb at the bottom of the embedded body and a second bulb at the bottom of the outer shell; the second conductive plate is connected with one end of the first bulb through a wire, the other end of the first bulb is connected with the positive pole or the negative pole of the power line through a wire, and the second conductive plate is connected with the negative pole or the positive pole of the power line through a wire; two ends of the second bulb are respectively connected with the anode and the cathode of the power line;

the control mechanism comprises a photoresistor and a controller, wherein the photoresistor and the controller are arranged on the side wall of the inner inlay, and the controller controls the driving mechanism to rotationally embed the inner inlay into the groove along the end part of the outer shell according to the high-low level of the circuit where the photoresistor is located.

2. An energy saving lamp as claimed in claim 1, wherein: the solar cell piece is arranged on the top of the inlay body and can supply power to the lamp body.

3. An energy saving lamp as claimed in claim 1, wherein: and a one-way valve is arranged in the feed hole.

4. An energy saving lamp as claimed in claim 1, wherein: and a perforated dust guard plate is arranged at the top of the heating groove.

5. An energy saving lamp as claimed in claim 1, wherein: the bottom of the heating groove is provided with a partition plate which is positioned above the heating resistance wires.

6. An energy saving lamp as claimed in claim 1, wherein: the driving mechanism comprises a motor, a winder and a torsion spring, the motor is arranged at the top of the outer shell, the winder is arranged at the end part of a rotating shaft of the motor, a wire is wound on the winder, one end of the wire is fixed with the winder, and the other end of the wire is fixed with the end part of the inlay; one end of the torsion spring is connected with the outer shell, and the other end of the torsion spring is connected with the embedded body; the on-off power of a circuit where the motor is located can be controlled by the controller.

7. An energy saving lamp as claimed in claim 1, wherein: the shell body top still is equipped with charging channel, the gasbag is equipped with the feed inlet, feed inlet and charging channel intercommunication, charging channel's top is equipped with the cock body.