CN115264450B - Light supplementing assembly of energy-saving lighting device - Google Patents

Abstract

The invention relates to the technical field of energy-saving illumination, in particular to a light supplementing component of an energy-saving illumination device. The illumination light supplementing component comprises a light pipe, a light collecting cover, a light supplementing plate, a diffuser, a protective lampshade, an illuminating lamp, a middle bearing frame, an end mounting plate, an external protruding plate and an elastic protective cover, wherein the illumination light supplementing component can be combined with an illuminating device for use, when sunlight exists in the daytime, the illumination light can be supplemented into a greenhouse through the illumination light supplementing component, at the moment, the illuminating lamp can stop working, the purpose of saving electricity is achieved, poultry can be better irradiated by natural light, the growth of the poultry is facilitated, the angle of the light collecting cover can be further adjusted, the light collecting cover can be better irradiated by the sun, meanwhile, the orientation of the solar panel can be adjusted along with the adjustment of the light collecting cover, the time of the solar panel irradiated by the sun is increased, and the purpose of further saving electricity can be achieved by means of the solar panel.

Description

Light supplementing assembly of energy-saving lighting device

Technical Field

The invention relates to the technical field of energy-saving illumination, in particular to a light supplementing component of an energy-saving illumination device.

Background

Illumination is a measure of illuminating work and living places or individual objects with various light sources. The lighting device is used for lighting, the current lighting device can be applied to various places, for example, in greenhouse cultivation, the lighting device can be used, in addition, in order to promote the growth of poultry, the lighting device can be used for continuously lighting the interior of the greenhouse, so that the growth period of the poultry is shortened, a large amount of power sources can be lost in uninterrupted lighting of the lighting device, even if an energy-saving lamp is adopted, the electric loss of the greenhouse cultivation in the aspect of lighting can be increased, and the normal growth of the poultry is not facilitated by the all-weather lighting of light.

Disclosure of Invention

The present invention is directed to a light supplementing assembly of an energy-saving lighting device, so as to solve the above-mentioned problems.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an energy-saving lighting device's light filling subassembly, illumination light filling subassembly is including light pipe, light collecting cover, light filling board, diffuser, protective cover, light, middle part carrier frame, tip mounting panel, outside protruding board and elasticity protection casing, wherein the light collecting cover is fixed to be arranged in the upside of light pipe, the light filling board symmetrical arrangement is inside the downside of light pipe, wherein diffuse the fixed lower extreme both sides of arranging at the light pipe that play, protective cover fixes the downside intermediate position at the light pipe, wherein the inside at protective cover is installed to the light, the outside at the light pipe is born to the middle part carrier frame cover, wherein the tip mounting panel is fixed in the upside of middle part carrier frame, outside protruding board is fixed outside the downside of tip mounting panel, wherein one side of elasticity protection casing is fixed in the inside upside of tip mounting panel, the light energy utilization subassembly is arranged on the tip mounting panel.

Preferably, the diffuser is located outside the light filling plate, wherein the opposite side of the elastic protection cover is fixed on the light pipe, a connecting thread groove is formed in the middle position of the lower side of the middle bearing frame, an adjusting connecting frame connected in a threaded mode is arranged in the connecting thread groove, the bottom lantern ring is fixed on the lower side of the adjusting connecting frame, the light collecting cover is located on the upper side of the elastic protection cover, and the outer protruding plate is sleeved outside the upper side of the middle bearing frame.

Preferably, the anti-falling limiting frame is fixedly connected in the middle position of the bottom lantern ring, wherein the inner accommodating frame is arranged in the anti-falling limiting frame, the inner accommodating frame is fixed on the light pipe, the outer groove is formed in the middle position of the outer side of the inner accommodating frame, the reset elastic rod is symmetrically arranged in the outer groove, and the other side of the reset elastic rod is fixed on the anti-falling limiting frame.

Preferably, a holding frame fixedly connected with the holding frame is embedded in one side of the external protruding plate, wherein the in-situ self-rotating frame is placed in the holding frame, a rotating screw is placed in the middle of the in-situ self-rotating frame, an anti-rotating sleeve plate fixedly connected with the lower side of the in-situ self-rotating frame is arranged in the in-situ self-rotating frame, and a lifting moving rod is arranged in the middle of the anti-rotating sleeve plate in a penetrating mode, wherein the lifting moving rod is in threaded connection with the rotating screw.

Preferably, the outer through hole is formed in the middle of the lower side of the in-situ self-rotating frame in a penetrating manner, a distance-increasing disc is arranged on the lower side of the lifting moving rod and is fixedly connected with the outer through hole, the distance-increasing disc is arranged below the anti-rotating sleeve plate, a friction pad connected with glue is arranged on the lower side of the distance-increasing disc, and a distance-adjusting telescopic rod is arranged on the middle of the upper side of the in-situ self-rotating frame and is fixedly connected with the outer through hole.

Preferably, the light energy utilization assembly comprises an inner cavity placement frame, an embedded clamping groove, a rotary receiving ring, a control rotary drum, a placement penetrating groove, an inner connecting rod, an outer connecting rod, a locking groove, an outward extending plate and a solar panel, wherein the embedded clamping groove is formed in the middle of the inner cavity placement frame, the receiving rotary ring is embedded and arranged in the embedded clamping groove, one side of the control rotary drum is located in the inner cavity placement frame, the placement penetrating groove is uniformly formed in the upper side of the inner cavity placement frame, one side of the inner connecting rod and one side of the outer connecting rod are located in the placement penetrating groove, the locking groove is formed in the upper side of the inner connecting rod and the outer connecting rod located in the inner cavity placement frame, the outward extending plate is sleeved on the outer side of all the inner connecting rod and the outer connecting rod, and the solar panel is uniformly embedded and fixed on the upper side of the outer box extending plate.

Preferably, the inner cavity placement frame is sleeved on the light pipe, the inner cavity placement frame is fixedly connected with the light pipe, the control rotary drum is fixedly connected with the bearing rotary ring, the inner connecting rod and the outer connecting rod are all arranged through the end mounting plate, the outward extending plate is sleeved on the outer side of the end mounting plate, the outward extending plate is movably connected with the distance adjusting telescopic rod, and the outward extending plate is fixedly connected with all the inner connecting rods and the outer connecting rods.

Preferably, the arc-shaped rotating pin rods which are fixedly connected are uniformly arranged on one side of the control rotary drum, wherein the arc-shaped rotating pin rods are positioned in the locking grooves, a content groove is formed in one side middle position of each arc-shaped rotating pin rod, a counter top spring is arranged in the content groove, one side of an inserting rod is arranged in the content groove, the inserting rod is positioned outside the counter top spring, the inserting rod is an arc-shaped rod, a positioning baffle which is fixedly connected is arranged on one side, away from the arc-shaped rotating pin rods, of the inserting rod, and the positioning baffle is fixed on the inner cavity installation frame.

Compared with the prior art, the invention has the beneficial effects that:

through the arrangement of the invention, the illumination light supplementing component and the illumination device can be combined for use, when sunlight exists in the daytime, illumination can be supplemented into the greenhouse through the illumination light supplementing component, at the moment, the illumination lamp can stop working, the purpose of saving electricity is achieved, poultry can be better irradiated by natural light, the growth of the poultry is facilitated, the angle of the lighting cover can be adjusted, the lighting cover can be better irradiated by the sun, meanwhile, the orientation of the solar panel can be adjusted along with the adjustment of the lighting cover, the time of the solar panel irradiated by the sun is increased, and the purpose of further saving electricity can be achieved by means of the solar panel.

Drawings

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

FIG. 2 is a schematic view of a light pipe of the present invention in semi-cut-away perspective;

FIG. 3 is a right side view of the light pipe of the present invention;

FIG. 4 is a right side view of the light shade of the present invention;

FIG. 5 is a schematic view of a middle carrying frame in a right side view in half section of the present invention;

FIG. 6 is a schematic perspective view of an inner cavity placement frame of the present invention;

FIG. 7 is a schematic perspective view of a cavity placement frame of the present invention in semi-section;

FIG. 8 is an enlarged schematic view of the invention at A in FIG. 3;

FIG. 9 is an enlarged schematic view of the invention at B in FIG. 4;

fig. 10 is an enlarged schematic view of fig. 7 at C in accordance with the present invention.

In the figure: light pipe 1, light shade 11, light supplementing plate 12, diffuser 13, protective cover 14, light 15, middle carrying frame 16, connection screw groove 1601, adjustment connection frame 1602, bottom collar 1603, anti-drop limiting frame 1604, inner mounting frame 1605, outer groove 1606, return spring 1607, end mounting plate 17, outer protruding plate 18, receiving outer frame 1801, in-situ rotating frame 1802, rotating screw 1803, anti-rotation sleeve 1804, lifting moving rod 1805, outer through hole 1806, distance increasing disc 1807, friction pad 1808, distance adjusting telescoping rod 1809, inner cavity placement frame 2, insertion clamping groove 21, receiving rotating ring 22, steering drum 23, arc rotating pin 2301, inner cavity 2302, anti-top spring 3, insertion rod 2304, positioning baffle 2305, mounting through groove 24, inner and outer connecting rod 25, locking groove 26, outward extending plate 27, solar panel 28.

Detailed Description

Features and exemplary embodiments of various aspects of the invention are described in detail below. In the following detailed description, numerous specific details are set forth in order to provide a thorough understanding of the invention. It will be apparent, however, to one skilled in the art that the present invention may be practiced without some of these specific details. The following description of the embodiments is merely intended to provide a better understanding of the invention by showing examples of the invention. The present invention is in no way limited to any particular configuration and algorithm set forth below, but rather covers any modification, substitution, and improvement of elements, components, and algorithms without departing from the spirit of the invention. In the drawings and the following description, well-known structures and techniques have not been shown in order to avoid unnecessarily obscuring the present invention.

Referring to fig. 1 to 10, the present invention provides a technical solution: the light supplementing assembly comprises a light pipe 1, a light collecting cover 11, a light supplementing plate 12, a diffuser 13, a protective lampshade 14, an illuminating lamp 15, a middle bearing frame 16, end mounting plates 17, an outer protruding plate 18 and an elastic protective cover 19, wherein the light collecting cover 11 is fixedly arranged on the upper side of the light pipe 1, the light supplementing plate 12 is symmetrically arranged inside the lower side of the light pipe 1, the diffuse light supplementing plate 13 is fixedly arranged on two sides of the lower end of the light pipe 1, the protective lampshade 14 is fixedly arranged in the middle of the lower side of the light pipe 1, the illuminating lamp 15 is arranged inside the protective lampshade 14, the middle bearing frame 16 is sleeved outside the light pipe 1, the end mounting plates 17 are fixedly arranged on the upper side of the middle bearing frame 16, the outer protruding plate 18 is fixedly arranged on the lower side of the end mounting plates 17, one side of the elastic protective cover 19 is fixedly arranged on the inner upper side of the end mounting plates 17, and the light energy utilizing assembly is arranged on the end mounting plates 17.

In the process of raising the poultry greenhouse, the environment inside the greenhouse can be supplemented by means of the illuminating lamp 15, the rapid growth of the poultry can be guaranteed, the further lighting cover 11 can collect external sun light, and the light can be provided for the interior of the greenhouse by directly utilizing sunlight in the daytime by means of the light guide tube 1 and the diffuser 13, the illuminating lamp 15 can stop working at the moment, the power supply used by the illuminating lamp 15 can be saved, meanwhile, the light in the greenhouse can not be dull, a plurality of reserve batteries can be further arranged on one side of the light guide tube 1, the solar panel 28 absorbs sunlight, generated electric energy can be stored on the reserve batteries, the reserve batteries are connected with the light supplementing plate 12, so that the light supplementing plate 12 supplements light, meanwhile, the light supplementing plate 12 adopts an LED lamp panel, the sunlight can be effectively prevented from being irradiated in the interior of the greenhouse by means of the light supplementing plate 12, and the reserve batteries can be reserved for use in advance in the process of installation.

The diffuser 13 is located outside the light filling plate 12, wherein the opposite side of the elastic protection cover 19 is fixed on the light pipe 1, a connecting thread groove 1601 is formed in the middle position of the lower side of the middle bearing frame 16, an adjusting connecting frame 1602 in threaded connection is arranged in the connecting thread groove 1601, a bottom lantern ring 1603 is fixed on the lower side of the adjusting connecting frame 1602, the light filling cover 11 is located on the upper side of the elastic protection cover 19, and an external protruding plate 18 is sleeved outside the upper side of the middle bearing frame 16.

The bottom ring 1603 is connected with the middle bearing frame 16 by means of the screw connection between the adjusting connection frame 1602 and the connecting screw groove 1601, wherein the height of the adjusting connection frame 1602 is the adjustable distance between the bottom ring 1603 and the middle bearing frame 16, which further facilitates the installation of the middle bearing frame 16, the bottom ring 1603 can be positioned inside the greenhouse and the outer protruding plate 18 can be positioned outside the greenhouse during the installation of the middle bearing frame 16.

The inner middle position of the bottom collar 1603 is provided with a fixedly connected anti-falling limiting frame 1604, wherein an inner accommodating frame 1605 is arranged in the anti-falling limiting frame 1604, the inner accommodating frame 1605 is fixed on the light pipe 1, an outer groove 1606 is arranged in the middle position outside the inner accommodating frame 1605, reset elastic rods 1607 are symmetrically arranged in the outer groove 1606, and the other side of the reset elastic rods 1607 is fixed on the anti-falling limiting frame 1604.

The outside of anticreep restriction frame 1604 cover in internally disposed frame 1605 can make internally disposed frame 1605 can not follow and break away from on the anticreep restriction frame 16054, further make internally disposed frame 1605 can move about in the inside of anticreep restriction frame 1604 to the angle scope light pipe 1 of activity contacts anticreep restriction frame 1604 and stops, further in internally disposed frame 1605 movable in-process, reset elastic rod 1607 can take place deformation, so help the reset of later stage internally disposed frame 1605, wherein the existence of outer recess is convenient for reset elastic rod 1607 takes place deformation.

A fixedly connected accommodating outer frame 1801 is embedded and arranged inside one side of the outer protruding plate 18, wherein a in-situ self-rotating frame 1802 is arranged inside the accommodating outer frame 1801, a rotating screw 1803 is arranged in the middle position inside the in-situ self-rotating frame 1802, a fixedly connected anti-rotating sleeve plate 1804 is arranged on the lower side inside the in-situ self-rotating frame 1802, a lifting moving rod 1805 is arranged in the middle of the anti-rotating sleeve plate 1804 in a penetrating mode, and the lifting moving rod 1805 is in threaded connection with the rotating screw 1803.

The accommodating outer frame 1801 is formed by jointly splicing and fixing two hemispherical frames, the accommodating outer frame 1801 can limit the position of the in-situ self-rotating frame 1802, so that the in-situ self-rotating frame 1802 can be hinged in an angle mode in the accommodating outer frame 1801, meanwhile, a small motor which is fixedly connected is arranged on the inner side of the in-situ self-rotating frame 1802 and is electrically connected with a storage battery, the small motor is controlled by a remote control, a rotating shaft on the small motor is fixedly connected with the rotating screw 1803, further rotation of the rotating screw 1803 can drive the lifting moving rod 1805 to reciprocate, and meanwhile, under the action of the anti-rotation sleeve plate 1804, the lifting moving rod 1805 can be prevented from rotating along with the rotating screw 1803.

The outer through hole 1806 is formed in the middle of the lower side of the in-situ self-rotating frame 1802, a fixed distance increasing disc 1807 is arranged on the lower side of the lifting moving rod 1805, the lifting moving rod 1805 is connected with the distance increasing disc 1807 through screws, the distance increasing disc 1807 is located below the anti-rotation sleeve plate 1804, a rubber-connected friction pad 1808 is arranged on the lower side of the distance increasing disc 1807, and a fixed distance adjusting telescopic rod 1809 is arranged on the middle of the upper side of the in-situ self-rotating frame 1802.

In the process of angle adjustment of the outward extension plate 27, the friction pad 1808 does not need to be attached to the accommodating outer frame 1801, then the distance adjusting telescopic rod 1809 stretches out and draws back, meanwhile, the in-situ self-rotating cylinder 1802 rotates in the accommodating outer frame 1801 and performs angle adjustment, the further rotating screw 1803 rotates, then the lifting moving rod 1805 is pushed, then the friction pad 1808 can be attached to the inner portion of the accommodating outer frame 1801 by means of the distance increasing disc 1807, the purpose of locking the position of the in-situ self-rotating cylinder 1802 is achieved, and in the process of angle adjustment of the lighting cover 11, the friction pad 1808 does not attach to the accommodating outer frame 1801.

The light energy utilization assembly comprises an inner cavity placing frame 2, an embedded clamping groove 21, a bearing rotating ring 22, a control rotary drum 23, a mounting penetrating groove 24, an inner connecting rod and an outer connecting rod 25, a locking groove 26, an outward extending plate 27 and a solar panel 28, wherein the embedded clamping groove 21 is formed in the middle of the inner cavity placing frame 2, the bearing rotating ring 22 is embedded and arranged in the embedded clamping groove 21, one side of the control rotary drum 23 is positioned in the inner cavity placing frame 2, the mounting penetrating groove 24 is uniformly formed in the upper side of the inner cavity placing frame 2, one side of the inner connecting rod and one side of the outer connecting rod 25 are positioned in the mounting penetrating groove 24, the locking groove 26 is formed in the upper side of the inner connecting rod and the outer connecting rod 25 in the inner cavity placing frame 2, the outward extending plate 27 is sleeved on the outer side of all the inner connecting rods 25, and the solar panel 28 is uniformly embedded and fixed on the upper side of the outer extending plate 27.

By means of the insertion slot 21 and the receiving rotary ring 22, the actuating cylinder 23 can be rotated inside the inner chamber housing frame 2, wherein the actuating cylinder 23 is fitted over the light guide 1.

Because the inner cavity placement frame 2 is fixedly connected with the light pipe 1, when the light collecting cover 11 is subjected to angle adjustment, the inner placement frame 2 can be adjusted along with the adjustment of the light pipe 1, and under the inner and outer bridges of the inner and outer connecting rods 25, the orientation of the outward extending plate 27 can be changed, and meanwhile, the orientation of the solar panel 28 along with the change of the orientation of the outward extending plate 27 can be changed, so that when the light collecting cover 11 well receives sunlight, the solar panel 28 can be better irradiated by the sun.

The inner cavity is arranged on the light pipe 1 by the frame 2, the inner cavity is arranged between the frame 2 and the light pipe 1 for fixed connection, the control rotary drum 23 is fixedly connected with the bearing rotary ring 22, the inner connecting rod 25 and the outer connecting rod 25 are all arranged through the end mounting plate 17, the outward extending plate 27 is sleeved on the outer side of the end mounting plate 17, the outward extending plate 27 is movably connected with the distance adjusting telescopic rod 1809, and the movable connection is a spherical hinge. The outwardly extending plate 27 is fixedly connected to all of the inner and outer connecting rods 25.

The arc-shaped rotating pin rods 2301 which are fixedly connected are uniformly arranged on one side of the control rotary drum 23, wherein the arc-shaped rotating pin rods 2301 are positioned in the locking grooves 26, the inner grooves 2302 are formed in the middle of one side of the arc-shaped rotating pin rods 2301, the counter top springs 2303 are arranged in the inner grooves 2302, one side of the inserting rods 2304 is arranged in the inner grooves 2302, the inserting rods 2304 are positioned outside the counter top springs 2303, the inserting rods 2304 are arc-shaped rods, the fixed stop plates 2305 are arranged on one side, away from the arc-shaped rotating pin rods 2301, of the inserting rods 2304, and the fixed stop plates 2305 are fixed on the inner cavity placing frame 2.

When needs are to be limited on inner chamber place frame 2 to inside and outside connecting rod 25, directly rotate to controlling rotary drum 23, arc rotatory round pin pole 2301 rotates along with controlling rotary drum 23 this moment, further insert the inside of groove 2302 into, then anti-top spring 2303 takes place to hold the power deformation, further place inside and outside connecting rod 25 and place the inside of laying through groove 24, then loosen and control rotary drum 23, further under anti-top spring 2303's effect, control rotary drum 23 and reset, then arc rotatory round pin pole 2301 can insert the inside of holding groove 26 for inside and outside connecting rod 25's position is restricted fixedly, be convenient for carry out quick installation fixedly to all inside and outside connecting rod 25.

The different technical features presented in the different embodiments may be combined to advantage. Other variations to the disclosed embodiments can be understood and effected by those skilled in the art in view of the drawings, the description, and the claims. In the claims, the term "comprising" does not exclude other means or steps; the indefinite article "a" does not exclude a plurality; the terms "first," "second," and the like, are used for designating a name and not for indicating any particular order. Any reference signs in the claims shall not be construed as limiting the scope. The functions of the various elements presented in the claims may be implemented by means of a single hardware or software module. The presence of certain features in different dependent claims does not imply that these features cannot be combined to advantage.

Claims (4)

1. The utility model provides an energy-saving lighting device's light filling subassembly, includes illumination light filling subassembly and light energy utilization subassembly, its characterized in that: the lighting and light supplementing assembly comprises a light pipe (1), a light collecting cover (11), a light supplementing plate (12), a diffuser (13), a protective lampshade (14), an illuminating lamp (15), a middle bearing frame (16), an end mounting plate (17), an external protruding plate (18) and an elastic protective cover (19), wherein the light collecting cover (11) is fixedly arranged on the upper side of the light pipe (1), the light supplementing plate (12) is symmetrically arranged inside the lower side of the light pipe (1), the diffusion light collecting plate (13) is fixedly arranged on two sides of the lower end of the light pipe (1), the protective lampshade (14) is fixed on the middle position of the lower side of the light pipe (1), the illuminating lamp (15) is arranged inside the protective lampshade (14), the middle bearing frame (16) is sleeved outside the light pipe (1), the end mounting plate (17) is fixed on the upper side of the middle bearing frame (16), the external protruding plate (18) is fixed on the lower side of the end mounting plate (17), one side of the elastic protective cover (19) is fixed on the upper side of the inner side of the end mounting plate (17), the self-rotating outer frame (1801) can be accommodated in the inner frame (1801), the device is characterized in that a rotary screw (1803) is placed at the middle position inside the in-situ self-rotating frame (1802), a fixedly connected anti-rotating sleeve plate (1804) is arranged at the lower side inside the in-situ self-rotating frame (1802), a lifting moving rod (1805) is arranged at the middle part of the anti-rotating sleeve plate (1804) in a penetrating manner, the lifting moving rod (1805) is in threaded connection with the rotary screw (1803), an outer through hole (1806) is formed at the middle position of the lower side of the in-situ self-rotating frame (1802), a fixedly connected distance increasing disc (1807) is arranged at the lower side of the lifting moving rod (1805), a friction pad (1808) which is in glue connection is arranged at the lower side of the distance increasing disc (1807), a fixedly connected distance adjusting telescopic rod (1809) is arranged at the middle position on the upper side of the in-situ self-rotating frame (1802), the optical energy utilization component comprises an inner cavity placing frame (2), an embedded clamping groove (21), a rotating ring (22), a control drum (24), a connecting rod (26) and a connecting rod (26) which can be embedded into the inner cavity placing groove (21) and the inner groove (21) are arranged at the middle position inside the inner cavity placing groove (21) in the in-situ self-rotating frame (1802), wherein control one side of rotary drum (23) and be in the inside that frame (2) was placed to the inner chamber, lay and run through groove (24) evenly offer the upside of placing frame (2) at the inner chamber, wherein one side of inside and outside connecting rod (25) is in the inside of laying and run through groove (24), the recess of holding down (26) is offered and is being placed on the inside upside of frame (2) at the inner chamber in inside and outside connecting rod (25), wherein outside extension board (27) cover is in the outside of all inside and outside connecting rods (25), solar panel (28) evenly imbeds and fix the upside at outside extension board (27), the cover of inner chamber is placed on light pipe (1), and carries out fixed connection between inner chamber placement frame (2) and light pipe (1), control between rotary drum (23) and the accepted rotation ring (22), wherein inside and outside connecting rod (25) all run through tip mounting panel (17) and arrange, outside extension board (27) cover is in the outside of tip mounting panel (17), wherein outside extension board (27) and accent between pole (27) carry out swing joint and outside extension board (1809).

2. The light filling assembly of an energy efficient lighting device of claim 1, wherein: the diffuser (13) is located the outside of light filling board (12), and wherein the opposite side of elasticity protection casing (19) is fixed on light pipe (1), connection screw thread groove (1601) have been seted up to middle part carrier frame (16) downside intermediate position, and adjustment connecting frame (1602) that screw connection was connected are arranged in the inside of connection screw thread groove (1601), bottom lantern ring (1603) are fixed in the downside of adjustment connecting frame (1602), and wherein light collecting cover (11) are in the upside of elasticity protection casing (19), outside protruding board (18) cover is outside in the upside of middle part carrier frame (16).

3. The light filling assembly of an energy efficient lighting device of claim 2, wherein: the anti-drop limiting frame (1604) of fixed connection is arranged in inside intermediate position of bottom lantern ring (1603), wherein inside settling frame (1605) has been placed to the inside of anti-drop limiting frame (1604), inside settling frame (1605) is fixed on light pipe (1), and wherein outside recess (1606) have been seted up to inside settling frame (1605) outside intermediate position, reset elastic rod (1607) have been placed to outside recess (1606) inside symmetry, and wherein reset elastic rod's (1607) opposite side is fixed on anti-drop limiting frame (1604).

4. A light filling assembly for an energy efficient lighting device as defined in claim 3, wherein: the utility model discloses a rotary table is characterized in that an arc-shaped rotary pin rod (2301) which is fixedly connected is uniformly arranged on one side of the control rotary drum (23), wherein the arc-shaped rotary pin rod (2301) is positioned in the inside of a locking groove (26), a content groove (2302) is formed in one side middle position of the arc-shaped rotary pin rod (2301), a counter top spring (2303) is arranged in the inside of the content groove (2302), one side of an inserting rod (2304) is arranged in the inside of the content groove (2302), the inserting rod (2304) is positioned outside the counter top spring (2303), the inserting rod (2304) is an arc-shaped rod, a positioning baffle (2305) which is fixedly connected is arranged on one side, far away from the arc-shaped rotary pin rod (2301), of the inserting rod (2304), and the positioning baffle (2305) is fixed on an inner cavity placing frame (2).