CN111780039A

CN111780039A - Movable solar LED lamp

Info

Publication number: CN111780039A
Application number: CN202010797695.6A
Authority: CN
Inventors: 庄雯琦
Original assignee: Ningbo Jiahe Lamps Co Ltd
Current assignee: Wang Jinglan
Priority date: 2020-08-10
Filing date: 2020-08-10
Publication date: 2020-10-16
Anticipated expiration: 2040-08-10
Also published as: CN111780039B

Abstract

The invention discloses a movable solar LED lamp, which comprises a house outer wall, wherein a house inner cavity is arranged in the house outer wall, an opening cavity with an upward opening is communicated with the upper end wall of the inner cavity of the house, a solar shell is arranged in the opening cavity in a sliding way, a fixing cavity with a downward opening is arranged in the solar shell, a solar LED lamp supporting block is arranged in the fixing cavity in a sliding manner, the solar LED lamp is mainly used in unpowered mountainous areas, when not in use, when solar energy is sensed, the device can automatically rise out of the roof, then the solar panel is automatically unfolded to better and more quickly absorb the solar energy, when the sun disappears and the solar LED lamp is used, the solar LED lamp can automatically descend into a room, and the solar LED lamp can be conveniently disassembled for being held by a person to use.

Description

Movable solar LED lamp

Technical Field

The invention relates to the technical field of solar LED lamps, in particular to a movable solar LED lamp.

Background

Nowadays, in some remote and laggard areas, the power-on condition is still very severe, so that only a candle or a weak lamp can be used, some solar LED lamps at the present stage are too large in volume and complex to install, and the solar LED lamps with small volume have poor solar absorption effect, short service time and high price.

The application illustrates a movable solar LED lamp, which can solve the above problems.

Disclosure of Invention

Aiming at the technical defects, the invention provides a movable solar LED lamp which can overcome the defects.

The movable solar LED lamp comprises a house outer wall, a house inner cavity is arranged in the house outer wall, an opening cavity with an upward opening is communicated with the upper end wall of the house inner cavity, a solar shell is arranged in the opening cavity in a sliding mode, a fixing cavity with a downward opening is arranged in the solar shell, a solar LED lamp supporting block is arranged in the fixing cavity in a sliding mode, a power supply cavity with an upward opening is arranged in the solar LED lamp supporting block, and a charging block is arranged in the power supply cavity in a sliding mode; the left side and the right side of the power cavity are communicated with a pressure cavity which is bilaterally symmetrical along the central line of the power cavity, a connecting spring is fixedly arranged on the lower end wall of the pressure cavity, a pressure block which is slidably arranged in the pressure cavity is fixedly arranged at the upper end of the connecting spring, connecting blocks which are bilaterally symmetrical along the central line of the charging block are fixedly arranged at the lower end of the charging block, a lever is hinged in the end surface of one side of the connecting block away from the central line of the power cavity and is fixedly arranged on a lever supporting shaft, the front end and the rear end of the lever supporting shaft are respectively and rotatably arranged in the front end wall and the rear end wall of the communicated part of the power cavity and the pressure cavity, one end of the lever away from the central line of the power cavity is hinged with; a clamping block cavity with an opening facing away from one side of the center line of the power cavity is arranged on one side of the pressure cavity away from the center line of the power cavity, a connecting spring is fixedly arranged on the end wall of the clamping block cavity close to one side of the center line of the power cavity, a clamping block which is slidably mounted in the lower end wall of the clamping block cavity is fixedly arranged at one end of the connecting spring away from the center line of the power cavity, an ejector block is fixedly arranged on the upper end face of the clamping block, clamping grooves in the same horizontal line are arranged on one side of the clamping block cavity away from the center line of the power cavity, the clamping grooves are positioned in the left end wall and the right end wall of the fixed cavity, the opening of the clamping groove faces towards one side of the center line of the power cavity, an open groove which is positioned on one side of the clamping block cavity away from the center, one end of the pushing block, far away from the center line of the power cavity, extends out of the end face of the solar shell, far away from the side of the center line of the power cavity, a power generation cavity is arranged above the fixed cavity, a rope wheel cavity is arranged above the power generation cavity, the left side and the right side of the rope wheel cavity are bilaterally symmetrical along the center line of the rope wheel cavity, the opening faces to the side far away from the center line of the rope wheel cavity, an energy transmission block is fixedly arranged in the rear end wall, an energy transmission shaft is rotatably arranged on the front end face of the energy transmission block, a supporting block is slidably arranged on the front end wall, a connecting shaft is rotatably arranged on the rear end face of the supporting block, a telescopic solar panel group rotatably arranged on the connecting shaft and the energy transmission shaft is arranged between the connecting shaft and the energy transmission shaft, and the energy, the rope pulley is characterized in that a supporting plate is fixedly arranged on the upper end face of the supporting block, a penetrating cavity penetrating left and right is arranged in the supporting plate, a sliding block is arranged in the penetrating cavity in a sliding mode, and a supporting rod is fixedly arranged on the end wall close to one side of the center line of the rope pulley cavity.

Preferably, a fixed solar panel is fixedly arranged on the upper end face of the solar shell, a generator is fixedly arranged on the lower end wall of the power generation cavity and electrically connected with the fixed solar panel, a driven motor is fixedly arranged in the front end wall of the rope wheel cavity, the rear end of the driven motor is dynamically connected with a rope wheel shaft, rope wheels which are symmetrical in front and back are fixedly arranged on the rope wheel shaft, and a rope is wound on the rope wheels.

Preferably, a moving cavity with an opening facing away from one side of the center line of the sheave cavity is arranged in the end surface of the support rod on one side of the center line of the sheave cavity, an engaging block is arranged in the moving cavity in a sliding manner, a sliding cavity with an opening facing away from one side of the center line of the sheave cavity is arranged in the end surface of the engaging block on one side of the center line of the sheave cavity, a pushing block is arranged in the sliding cavity in a sliding manner, one end surface of the engaging block, which is close to the center line of the sheave cavity, is limited by the end wall of the moving cavity on one side of the center line of the sheave cavity, one end surface of the pushing block, which is close to the center line of the sheave cavity, is limited by the end wall of the sliding cavity on one side of the center line of the sheave cavity, a rope cavity communicated with the sheave cavity is arranged in the end wall of the sliding cavity on one side of, the rope is kept away from rope sheave chamber central line one end is passed through the rope chamber extends to the slip intracavity with the linking piece is close to rope sheave chamber central line side end fixed connection, the linking piece is close to reset spring has set firmly on the terminal surface of rope sheave chamber central line one side, reset spring is close to rope sheave chamber central line one end fixed mounting is in the slip chamber is close to on the end wall of rope sheave chamber central line one side, the sliding block is close to the terminal surface of rope sheave chamber central line one side with it keeps away from to promote the piece the terminal surface fixed connection of rope sheave chamber central line one side.

Preferably, opening chamber left side intercommunication is equipped with and is located the power chamber of indoor intracavity, power chamber rear end wall internal stability has the initiative motor, initiative motor front side power is connected and is equipped with the power shaft, the last power gear that has set firmly of power shaft, the meshing connection in power gear right side is equipped with the removal rack, remove rack right-hand member face fixed mounting in on the solar casing left end face, the power chamber upside be equipped with the opening towards the right side with the motor chamber of opening chamber intercommunication, set firmly motor power on the motor chamber upper end wall, motor power left end with initiative motor right-hand member electric connection, motor power right-hand member with the generator upper end is through conducting block electric connection.

Preferably, a storage power supply is fixedly arranged between the front end wall and the rear end wall in the fixed cavity, a charging cavity with a downward opening is arranged in the lower end face of the storage power supply, the upper end of the charging block slides into the charging cavity and is electrically connected with the storage power supply, and the upper end of the storage power supply is electrically connected with the lower end of the generator through a conducting rod.

The beneficial effects are that: the device is mainly used in unpowered mountainous areas, when the device is not used, the device can automatically rise to the outside of a roof when solar energy is sensed, then the solar panel is automatically unfolded to better and more quickly absorb the solar energy, and the device can automatically descend into a room when the sun disappears and the solar LED lamp is used.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic view of B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic view of C-C in FIG. 2 according to an embodiment of the present invention;

FIG. 5 is an enlarged schematic view of the structure at D in FIG. 2 according to an embodiment of the present invention;

FIG. 6 is a schematic view of E-E in FIG. 5 according to an embodiment of the present invention;

fig. 7 is an enlarged schematic view of the structure at F in fig. 2 according to the embodiment of the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-7, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a movable solar LED lamp, which comprises a house outer wall 11, wherein a house inner cavity 10 is arranged in the house outer wall 11, an opening cavity 71 with an upward opening is communicated and arranged in the upper end wall of the house inner cavity 10, a solar shell 17 is arranged in the opening cavity 71 in a sliding manner, a fixed cavity 72 with a downward opening is arranged in the solar shell 17, a solar LED lamp supporting block 73 is arranged in the fixed cavity 72 in a sliding manner, a power supply cavity 74 with an upward opening is arranged in the solar LED lamp supporting block 73, a charging block 20 is arranged in the power supply cavity 74 in a sliding manner, pressure cavities 75 which are bilaterally symmetrical along the central line of the power supply cavity 74 are communicated and arranged on the left and right sides of the power supply cavity 74, a connecting spring 54 is fixedly arranged on the lower end wall of the pressure cavity 75, a pressure block 55 which is slidably arranged in the pressure cavity 75 is fixedly arranged on the upper end of the connecting spring 54, connecting blocks 62 which, a lever 58 is hinged in the end face of the connecting block 62 on the side far away from the center line of the power supply cavity 74, the lever 58 is fixedly installed on a lever supporting shaft 59, the front end and the rear end of the lever supporting shaft 59 are respectively and rotatably installed in the front end wall and the rear end wall of the communication part of the power supply cavity 74 and the pressure cavity 75, one end of the lever 58 far away from the center line of the power supply cavity 74 is hinged with the end face of the pressure block 55 on the side near the center line of the power supply cavity 74, a fixing block 19 fixedly installed on the upper end face of the fixing cavity 72 is arranged above the pressure block 55, a fixture block cavity 52 with an opening facing away from the center line of the power supply cavity 74 is arranged on the side far away from the center line of the pressure cavity 75, a connecting spring 53 is fixedly arranged on the end wall of the fixture block cavity 52 on the side near the center line of the power, the upper end face of the fixture block 51 is fixedly provided with a top block 49, one side of the fixture block cavity 52, which is far away from the center line of the power cavity 74, is provided with a fixture groove 50 in the same horizontal line, the fixture groove 50 is positioned in the left and right end walls of the fixed cavity 72, the opening of the fixture groove 50 faces to one side of the center line of the power cavity 74, an open groove 16 positioned on one side of the fixture block cavity 52, which is far away from the center line of the power cavity 74, is arranged above the fixture groove 50, the open groove 16 is positioned in the left and right end walls of the fixed cavity 72, the opening of the open groove 16 faces to one side of the center line of the power cavity 74, a pushing block 15 is arranged in the open groove 16 in a sliding installation manner, one end, which is far away from the center line of the power cavity 74, extends to the outside the end face, which is far away from one side, the left side and the right side of the rope wheel cavity 30 are provided with 77 which are bilaterally symmetrical along the central line of the rope wheel cavity 30, the opening of the 77 faces away from the central line of the rope wheel cavity 30, an energy transmission block 45 is fixedly arranged in the rear end wall of the 77, an energy transmission shaft 46 is rotatably arranged on the front end surface of the energy transmission block 45, a supporting block 23 is slidably arranged on the front end wall of the 77, a connecting shaft 47 is rotatably arranged on the rear end surface of the supporting block 23, a telescopic solar panel group 26 which is rotatably arranged on the connecting shaft 47 and the energy transmission shaft 46 is arranged between the connecting shaft 47 and the energy transmission shaft 46, the energy transmission shaft 46 is electrically connected with the generator 36 through a connecting energy transmission rod 37, the upper end surface of the supporting block 23 is fixedly provided with a supporting plate 24, a penetrating cavity 25 which penetrates left and right is arranged in the supporting plate 24, a support rod 67 is fixedly arranged on the end wall of the pulley chamber 77 close to one side of the center line of the pulley chamber 30.

Beneficially, a fixed solar panel 29 is fixedly arranged on the upper end face of the solar shell 17, a generator 36 is fixedly arranged on the lower end wall of the generating cavity 35, the generator 36 is electrically connected with the fixed solar panel 29, a driven motor 48 is fixedly arranged in the front end wall of the rope wheel cavity 30, the rear end of the driven motor 48 is in power connection with a rope wheel shaft 32, rope wheels 33 which are symmetrical in front and back are fixedly arranged on the rope wheel shaft 32, and ropes 31 are wound on the rope wheels 33.

Advantageously, a moving cavity 66 with an opening facing away from the side of the center line of the sheave cavity 30 is arranged in the end surface of the support rod 67 on the side away from the center line of the sheave cavity 30, an engaging block 64 is slidably mounted in the moving cavity 66, a sliding cavity 65 with an opening facing away from the side of the center line of the sheave cavity 30 is arranged in the end surface of the engaging block 64 on the side away from the center line of the sheave cavity 30, a pushing block 63 is slidably mounted in the sliding cavity 65, one end surface of the engaging block 64 close to the center line of the sheave cavity 30 is limited by the end wall of the moving cavity 66 on the side away from the center line of the sheave cavity 30, one end surface of the pushing block 63 close to the center line of the sheave cavity 30 is limited by the end wall of the sliding cavity 65 on the side away from the center line of the sheave cavity 30, a sheave cavity 70 communicated with the sheave cavity 30 is arranged in the end wall of the sliding cavity 65 on, rope chamber 70 runs through the bracing piece 67 is close to the terminal surface of rope wheel chamber 30 central line one side, rope 31 is kept away from rope wheel chamber 30 central line one end is passed through rope chamber 70 extends to in the sliding chamber 65 with join the piece 64 and be close to rope wheel chamber 30 central line one side terminal surface fixed connection, join the piece 64 and be close to reset spring 68 has set firmly on the terminal surface of rope wheel chamber 30 central line one side, reset spring 68 is close to rope wheel chamber 30 central line one end fixed mounting slide chamber 65 is close to on the end wall of rope wheel chamber 30 central line one side, sliding block 28 is close to the terminal surface of rope wheel chamber 30 central line one side with it keeps away from to promote the piece 63 the terminal surface fixed connection of rope wheel chamber 30 central line one side.

Beneficially, a power cavity 12 located in the house inner cavity 10 is arranged on the left side of the opening cavity 71 in a communicating manner, a driving motor 39 is fixedly arranged in the rear end wall of the power cavity 12, a power shaft 14 is arranged on the front side of the driving motor 39 in a power connecting manner, a power gear 13 is fixedly arranged on the power shaft 14, a moving rack 18 is arranged on the right side of the power gear 13 in a meshing and connecting manner, the right end face of the moving rack 18 is fixedly arranged on the left end face of the solar shell 17, a motor cavity 41 with an opening facing the right and communicated with the opening cavity 71 is arranged on the upper side of the power cavity 12, a motor power source 40 is fixedly arranged on the upper end wall of the motor cavity 41, the left end of the motor power source 40 is electrically connected with the right end of the driving motor 39, and the right end of the motor power.

Advantageously, a storage power source 21 is fixedly arranged in the fixed cavity 72 between the front end wall and the rear end wall, a charging cavity 22 with a downward opening is arranged in the lower end face of the storage power source 21, the upper end of the charging block 20 slides into the charging cavity 22 and is electrically connected with the storage power source 21, and the upper end of the storage power source 21 is electrically connected with the lower end of the generator 36 through a conducting rod 38.

In the initial state: the return spring 68 and the engagement spring 54 are in a compressed state.

When the work is started: 1. when the lamp is not used, the fixed solar panel 29 senses sunlight, the generator 36 converts the solar energy into electric energy through the generator 36, the driving motor 39 is started through the conductive block 42, the surplus electric energy is stored in the storage power supply 21 through the conductive rod 38, the driving motor 39 drives the power shaft 14 to rotate, the power shaft 14 rotates to drive the power gear 13 to rotate, the power gear 13 rotates to drive the moving rack 18 to move upwards, the moving rack 18 moves upwards to drive the solar shell 17 to move upwards, and after the solar shell 17 moves upwards to the outside of the upper end face of the house outer wall 11, the driving motor 39 is turned off.

2. The generator 36 then energizes the driven motor 48, which in turn causes the driven motor 48 to rotate the rope pulley shaft 32, the rope wheel shaft 32 rotates to rotate the rope wheel 33, the rope wheel 33 rotates to loosen the rope 31, so that the elastic force generated by the return spring 68 drives the push block 63 to move to the side away from the centerline of the sheave cavity 30, the pushing block 63 moves to the side far away from the central line of the rope wheel cavity 30 and passes through the sliding block 28 so as to drive the through cavity 25 to move to the side far away from the central line of the rope wheel cavity 30, the through cavity 25 moves towards one side far away from the central line of the rope wheel cavity 30 so as to drive the telescopic solar panel group 26 to move towards one side far away from the central line of the rope wheel cavity 30 to expand so as to increase the absorption area of solar energy, and the solar energy can be absorbed better and faster.

3. The solar energy absorbed by the telescopic solar panel set 26 enters the generator 36 through the transmission of the energy transmission shaft 46, the energy transmission block 45 and the energy transmission rod 37, and is then converted into electric energy by the generator 36 to be stored in the storage power source 21.

4. When the fixed solar panel 29 cannot absorb solar energy or the solar LED lamp supporting block 73 is opened, the driven motor 48 drives the rope wheel shaft 32 to rotate reversely, the rope wheel shaft 32 rotates reversely to drive the rope wheel 33 to rotate reversely, the rope wheel 33 rotates reversely to drive the pushing block 63 to move to the side close to the center line of the rope wheel cavity 30 by tensioning the rope 31, the pushing block 63 moves to the side close to the center line of the rope wheel cavity 30 through the sliding block 28 to drive the penetrating cavity 25 to move to the side close to the center line of the rope wheel cavity 30, the penetrating cavity 25 moves to the side close to the center line of the rope wheel cavity 30 to retract the telescopic solar panel set 26 into the driving motor 77, when the driving motor 39 retracts into the driving motor 77, the driven motor 48 is turned off and starts the driving motor 39, the driving motor 39 drives the power shaft 14 to rotate reversely, the power shaft 14 rotates reversely to drive the power gear 13 to rotate reversely, the power gear 13 rotates reversely to drive the moving rack 18 to move downwards, and the moving rack 18 moves downwards to drive the solar housing 17 to move downwards to return to the initial position to illuminate the interior 10 of the house.

5. Meanwhile, when the solar shell 17 is to be taken down, the pushing block 15 is manually pressed down, so that the pushing block 15 moves to one side close to the central line of the power supply cavity 74, when the pushing block 15 moves into the open slot 16, the pushing block 15 drives the top block 49 to move to one side close to the central line of the power supply cavity 74, the top block 49 moves to one side close to the central line of the power supply cavity 74 so as to drive the fixture block 51 to move away from the fixture groove 50 into the fixture block cavity 52 and compress the connecting spring 53, then the solar shell 17 is taken out, when the solar shell 17 leaves the fixed cavity 72, the pressure block 55 moves upwards under the resilience of the engaging spring 54, the pressure block 55 moves upwards through the lever 58 and the fourteenth connecting block 62, the connecting block 62 moves downwards so as to drive the charging block 20 to move downwards into the power supply cavity 74 and drive the charging block 20 and the charging block 20 to move downwards together with the connecting block 62 The stored power source 21 is electrically disconnected and then the solar housing 17 is held in the hand for illumination.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. The utility model provides a mobilizable solar energy LED lamp, includes the house outer wall, be equipped with the house inner chamber in the house outer wall, its characterized in that: an opening cavity with an upward opening is communicated with the upper end wall of the inner cavity of the house, a solar shell is arranged in the opening cavity in a sliding mode, a fixing cavity with a downward opening is arranged in the solar shell, a solar LED lamp supporting block is arranged in the fixing cavity in a sliding mode, a power supply cavity with an upward opening is arranged in the solar LED lamp supporting block, and a charging block is arranged in the power supply cavity in a sliding mode; the left side and the right side of the power cavity are communicated with a pressure cavity which is bilaterally symmetrical along the central line of the power cavity, a connecting spring is fixedly arranged on the lower end wall of the pressure cavity, a pressure block which is slidably arranged in the pressure cavity is fixedly arranged at the upper end of the connecting spring, connecting blocks which are bilaterally symmetrical along the central line of the charging block are fixedly arranged at the lower end of the charging block, a lever is hinged in the end surface of one side of the connecting block away from the central line of the power cavity and is fixedly arranged on a lever supporting shaft, the front end and the rear end of the lever supporting shaft are respectively and rotatably arranged in the front end wall and the rear end wall of the communicated part of the power cavity and the pressure cavity, one end of the lever away from the central line of the power cavity is hinged with; a clamping block cavity with an opening facing away from one side of the center line of the power cavity is arranged on one side of the pressure cavity away from the center line of the power cavity, a connecting spring is fixedly arranged on the end wall of the clamping block cavity close to one side of the center line of the power cavity, a clamping block which is slidably mounted in the lower end wall of the clamping block cavity is fixedly arranged at one end of the connecting spring away from the center line of the power cavity, an ejector block is fixedly arranged on the upper end face of the clamping block, clamping grooves in the same horizontal line are arranged on one side of the clamping block cavity away from the center line of the power cavity, the clamping grooves are positioned in the left end wall and the right end wall of the fixed cavity, the opening of the clamping groove faces towards one side of the center line of the power cavity, an open groove which is positioned on one side of the clamping block cavity away from the center, one end of the pushing block, far away from the center line of the power cavity, extends out of the end face of the solar shell, far away from the side of the center line of the power cavity, a power generation cavity is arranged above the fixed cavity, a rope wheel cavity is arranged above the power generation cavity, the left side and the right side of the rope wheel cavity are bilaterally symmetrical along the center line of the rope wheel cavity, the opening faces to the side far away from the center line of the rope wheel cavity, an energy transmission block is fixedly arranged in the rear end wall, an energy transmission shaft is rotatably arranged on the front end face of the energy transmission block, a supporting block is slidably arranged on the front end wall, a connecting shaft is rotatably arranged on the rear end face of the supporting block, a telescopic solar panel group rotatably arranged on the connecting shaft and the energy transmission shaft is arranged between the connecting shaft and the energy transmission shaft, and the energy, the rope pulley is characterized in that a supporting plate is fixedly arranged on the upper end face of the supporting block, a penetrating cavity penetrating left and right is arranged in the supporting plate, a sliding block is arranged in the penetrating cavity in a sliding mode, and a supporting rod is fixedly arranged on the end wall close to one side of the center line of the rope pulley cavity.

2. The mobile solar LED lamp of claim 1, wherein: the solar energy power generation device is characterized in that a fixed solar panel is fixedly arranged on the upper end face of the solar shell, a generator is fixedly arranged on the lower end wall of the power generation cavity and is electrically connected with the fixed solar panel, a driven motor is fixedly arranged in the front end wall of the rope wheel cavity, the rear end of the driven motor is in power connection with a rope wheel shaft, rope wheels which are symmetrical in front and back are fixedly arranged on the rope wheel shaft, and ropes are wound on the rope wheels.

3. The mobile solar LED lamp of claim 1, wherein: a moving cavity with an opening facing away from one side of the central line of the rope wheel cavity is arranged in the end face of the support rod on one side of the central line of the rope wheel cavity, a connecting block is arranged in the moving cavity in a sliding manner, a sliding cavity with an opening facing away from one side of the central line of the rope wheel cavity is arranged in the end face of the connecting block on one side of the central line of the rope wheel cavity, a pushing block is arranged in the sliding cavity in a sliding manner, one end face of the connecting block, which is close to the central line of the rope wheel cavity, is limited by the end wall of the moving cavity on one side of the central line of the rope wheel cavity, one end face of the pushing block, which is close to the central line of the rope wheel cavity, is limited by the end wall of the sliding cavity on one side of the central line of the rope wheel cavity, a rope cavity communicated with the rope wheel cavity is arranged in the, the rope is kept away from rope sheave chamber central line one end is passed through the rope chamber extends to the slip intracavity with the linking piece is close to rope sheave chamber central line side end fixed connection, the linking piece is close to reset spring has set firmly on the terminal surface of rope sheave chamber central line one side, reset spring is close to rope sheave chamber central line one end fixed mounting is in the slip chamber is close to on the end wall of rope sheave chamber central line one side, the sliding block is close to the terminal surface of rope sheave chamber central line one side with it keeps away from to promote the piece the terminal surface fixed connection of rope sheave chamber central line one side.

4. The mobile solar LED lamp of claim 1, wherein: opening chamber left side intercommunication is equipped with and is located the power chamber of indoor intracavity, power chamber rear end wall internal stability has the initiative motor, initiative motor front side power connection is equipped with the power shaft, the last power gear that has set firmly of power shaft, the meshing connection in power gear right side is equipped with the removal rack, remove rack right-hand member fixed mounting in on the solar casing left end face, the power chamber upside be equipped with the opening towards the right side with the motor chamber of opening chamber intercommunication, set firmly motor power on the motor chamber upper end wall, motor power left end with initiative motor right-hand member electric connection, motor power right-hand member with the generator upper end is passed through conducting block electric connection.

5. The mobile solar LED lamp of claim 1, wherein: a storage power supply is fixedly arranged between the front end wall and the rear end wall in the fixed cavity, a charging cavity with a downward opening is arranged in the lower end face of the storage power supply, the upper end of the charging block slides into the charging cavity and is electrically connected with the storage power supply, and the upper end of the storage power supply is electrically connected with the lower end of the generator through a conducting rod.