CN112239174A - Solar cell's lifting device convenient to transportation - Google Patents

Abstract

The invention discloses a lifting device of a solar cell convenient to transport, which comprises a fixed plate, wherein a top wall of the middle side of the fixed plate is matched with a conversion shaft in a rotating mode, the upper side of the fixed plate is fixedly connected with a transport carriage, the transport carriage is internally provided with the lifting device, the lifting device comprises a transport cavity arranged in the transport carriage, the bottom wall of the left side of the transport cavity is fixedly connected with a bottom wall block, an extension groove is formed in the bottom wall block, the front wall of the extension groove is matched with a rotating shaft in a rotating mode, the rotating shaft is fixedly connected with one side of a connecting rod, the other side of the connecting rod is fixedly connected with a fixed block, a meshing groove with an upward opening is formed in the fixed.

Description

Solar cell's lifting device convenient to transportation

Technical Field

The invention relates to the field of solar energy transportation, in particular to a solar cell lifting device convenient to transport.

Background

In recent years, a lot of rural families can lay the solar cell on the eave of their own house, and when the solar cell needs to be carried to the roof from the ground, people often use manpower to lift the solar cell by using a rope, the solar cell is expensive in cost and easy to be damaged, the method is easy to cause accidents, so that economic loss is caused, some lifting devices are very high, and the solar cell cannot pass through the lifting device due to the limit of height of some places and the height of an actual building, so that the invention provides a device which has a protection effect on lifting of a photovoltaic panel and is convenient to transport.

Disclosure of Invention

Aiming at the technical defects, the invention provides the solar cell lifting device convenient to transport, which can overcome the defects.

According to the invention, the lifting device of the solar cell convenient to transport comprises a fixed plate, a conversion shaft is rotatably matched with a top wall of the middle side of the fixed plate, a transport carriage is fixedly connected with the upper side of the fixed plate, the lifting device is arranged in the transport carriage and comprises a transport cavity arranged in the transport carriage, a bottom wall block is fixedly connected with the left side bottom wall of the transport cavity, an extension groove is formed in the bottom wall block, a rotating shaft is rotatably matched with the front wall of the extension groove, one side of a connecting rod is fixedly connected with the rotating shaft, the other side of the connecting rod is fixedly connected with a fixed block, a meshing groove with an upward opening is formed in the fixed block, a belt wheel groove is formed in the right side of the meshing groove, a sliding groove is formed in the right side of the belt wheel groove, and connecting screw rods are rotatably matched with the wall, the connecting screw rod at the front side is positioned in the meshing groove and fixedly connected with a fixed bevel gear, the front and the rear connecting screw rods are positioned in the belt wheel groove and are in transmission connection through a belt wheel, the connecting screw rod is in threaded connection with a lifting block in sliding connection with the sliding groove, the lower side of the connecting screw rod is provided with a bevel gear transmission groove, a connecting shaft is in rotating fit with a wall body between the bevel gear transmission groove and the conveying cavity, the connecting shaft and the rotating shaft are positioned in the matching groove and are connected through a bevel gear pair, the left side of the conveying cavity is in rotating fit with a transmission groove, the wall body between the transmission groove and the conveying cavity is in rotating fit with a transmission groove, the fixed shaft extends rightwards into the conveying cavity and is fixedly connected with a transmission bevel gear meshed with the fixed bevel gear, the connecting shaft rotates to drive the rotating shaft to rotate, so that the transmission bevel gear is meshed with the fixed bevel gear, the fixed shaft can drive the connecting screw rod to rotate, and the lifting block is lifted and lowered, the lifting block is fixedly connected with a safe box, a safety device is arranged in the safe box and comprises a communicating groove which is arranged in the safe box and provided with an upward opening, a buffer block is connected in the communicating groove in a sliding manner, the buffer block is fixedly connected with a connecting block in a front-back symmetrical manner, a clamping groove with an upward opening is formed in the connecting block, a sliding groove is communicated with the right side of the communicating groove, a moving block is connected in the sliding groove in a sliding manner, a fixed groove is formed in the moving block, a matching shaft on the front side which is in rotating fit with the connecting block is rotatably connected to the left wall of the fixed groove, the matching shaft on the front side is positioned in the clamping groove and fixedly, the solar cell safety box is characterized in that a fitting shaft is arranged between the rotating groove and the sliding groove in a rotating matching mode, the fitting shaft is located in the fixing groove, a spline sleeve is connected to the spline sleeve in a spline mode, the spline sleeve and the fitting shaft on the front side are located in the fixing groove and connected through a bevel gear pair, a buffer spring is connected between the buffer block and the bottom wall of the communicating groove, the fitting shaft on the front side can rotate due to rotation of the fitting shaft, the solar cell can be clamped by the clamping block, when the safety box is vibrated, the solar cell can be always clamped by the clamping block, and the buffer spring can provide a buffering and damping effect for the solar cell.

Preferably, the lifting device further comprises a power shaft which is in running fit with the left wall of the transmission groove and is positioned on the lower side of the fixed shaft, the power shaft extends leftwards to the left side of the transmission groove and is in power connection with a power motor embedded in the transport carriage, a matching groove is formed in the left side of the transmission groove, a driving shaft is in running fit with a wall body between the matching groove and the transmission groove, the driving shaft is positioned in the transmission groove and is fixedly connected with a connecting gear, the fixed shaft is positioned in the transmission groove and is fixedly connected with a rotating gear, the power shaft is positioned in the transmission groove and is in spline connection with a spline gear which can be meshed with the rotating gear and the connecting gear, the left side of the spline gear is fixedly connected with a permanent magnet, the power shaft is fixedly connected with an electromagnet positioned on the left side of the permanent, the cooperation groove with wall body normal running fit between the bevel gear drive groove has the driven shaft, the driven shaft with the driving shaft is located the cooperation inslot is connected through band pulley transmission, the driven shaft with the connecting axle is located bevel gear drive inslot is through bevel gear pair connection, bilateral symmetry sets up the tire groove in the fixed plate, the back wall normal running fit in tire groove has the tire axle, the tire axle is located tire inslot fixedly connected with tire, conversion axle downwardly extending to power connection has embedded in the fixed plate conversion motor in the fixed plate.

Preferably, the safety device further comprises a transmission shaft in running fit with the rear wall of the rotating groove, the transmission shaft and the fitting shaft are located in the rotating groove and connected through a bevel gear pair, the transmission shaft is fixedly connected with a rotatable rotating block, the right side of the buffer block is fixedly connected with a fitting block, the fitting block is in running fit with a rotating shaft, the rotating shaft is in running fit with the fitting shaft on the front side and connected through a belt wheel, and the fitting shaft on the rear side is connected with the rotating shaft through a gear pair.

The invention has the beneficial effects that: through rotating the connecting rod ninety degrees for transmission bevel gear and fixed bevel gear meshing, under the effect of front and back connection lead screw, the elevator is accomplished and is gone up and down to the appointed height, and this device height need not too high like this, can be better pass some limit for height buildings, and this device has set up the safe simultaneously, gives off accident for the prevention connecting rod, thereby makes the fixed block upset striking transport the chamber diapire and provides the buffering, thereby has protected solar cell.

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.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view showing the overall structure of a solar cell lifting device for easy transportation;

FIG. 2 is a schematic view of the structure in the direction A-A in FIG. 1;

FIG. 3 is an enlarged view of a portion of the safe 41 of FIG. 1;

fig. 4 is a schematic view of the structure in the direction B-B in fig. 3.

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 of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: 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 lifting device of a solar cell convenient to transport, which comprises a fixed plate 14, wherein a conversion shaft 16 is rotatably matched on the top wall of the middle side of the fixed plate 14, a transport carriage 17 is fixedly connected on the upper side, the lifting device is arranged in the transport carriage 17 and comprises a transport cavity 18 arranged in the transport carriage 17, a bottom wall block 63 is fixedly connected on the bottom wall of the left side of the transport cavity 18, an extension groove 64 is arranged in the bottom wall block 63, a rotating shaft 13 is rotatably matched on the front wall of the extension groove 64, one side of a connecting rod 65 is fixedly connected with the rotating shaft 13, a fixed block 25 is fixedly connected on the other side of the connecting rod 65, an engagement groove 24 with an upward opening is arranged in the fixed block 25, a belt wheel groove 22 is arranged on the right side of the engagement groove 24, a sliding groove 21 is arranged on the right side of the belt wheel groove 22, and connecting screw rods 19 are rotatably matched, the front connecting screw rod 19 is positioned in the meshing groove 24 and fixedly connected with a fixed bevel gear 23, the front and rear connecting screw rods 19 are positioned in the pulley groove 22 and are in transmission connection through a pulley, the connecting screw rod 19 is in threaded connection with a lifting block 20 in sliding connection with the sliding groove 21, a bevel gear transmission groove 39 is formed in the lower side of the connecting screw rod 19, a connecting shaft 38 is in rotational fit with a wall body between the bevel gear transmission groove 39 and the conveying cavity 18, the connecting shaft 38 and the rotating shaft 13 are positioned in the fit groove and are connected through a bevel gear pair, a transmission groove 27 is in rotational fit at the left side of the conveying cavity 18, a transmission groove 27 is in rotational fit with a wall body between the transmission groove 27 and the conveying cavity 18, the fixed shaft 28 extends rightwards to the conveying cavity 18 and is fixedly connected with a transmission bevel gear 26 meshed with the fixed bevel gear 23, and the connecting shaft 38 rotates, the rotating shaft 13 is driven to rotate, so that the fixed block 25 rotates ninety degrees, so that the bevel drive gear 26 is meshed with the bevel fixed gear 23, the fixed shaft 28 can drive the connecting screw rod 19 to rotate, so that the lifting block 20 is lifted, the lifting block 20 is fixedly connected with a safe 41, a safety device is arranged in the safe 41, the safety device comprises a communication groove 44 which is arranged in the safe 41 and has an upward opening, a buffer block 46 is connected in the communication groove 44 in a sliding manner, the buffer block 46 is fixedly connected with a connecting block 42 in a front-back symmetrical manner, a clamping groove 57 with an upward opening is arranged on the connecting block 42, a sliding groove 47 is communicated with the right side of the communication groove 44, a moving block 60 is connected in the sliding groove 47 in a sliding manner, a fixed groove 48 is arranged in the moving block 60, and a front-side matching shaft 43 which is in rotating matching with the connecting block 42 is, the front side of the matching shaft 43 is located in the clamping groove 57 and is fixedly connected with a clamping block 55, the sliding groove 47 is provided with a rotating groove 51 at the upper side, the rotating groove 51 is matched with a matching shaft 50 in a wall body between the sliding groove 47 in a rotating mode, the matching shaft 50 is located in the fixing groove 48 and is connected with a spline sleeve 49 in a spline mode, the spline sleeve 49 and the front side of the matching shaft 43 are located in the fixing groove 48 and are connected through a bevel gear pair, a buffer spring 45 is connected between the bottom wall of the buffer block 46 and the bottom wall of the communication groove 44, the matching shaft 43 at the front side can rotate through the rotating of the matching shaft 50, the clamping block 55 can clamp the solar cell tightly, when the safe box 41 is vibrated, the clamping block 55 can clamp the solar cell all the time, and the buffer spring 45 provides a buffer damping effect for the solar cell.

Advantageously, the lifting device further comprises a power shaft 31 rotatably engaged with the left wall of the transmission groove 27 and located on the lower side of the fixed shaft 28, the power shaft 31 extends to the left side of the transmission groove 27 to be power connected with a power motor 30 embedded in the transport carriage 17, the left side of the transmission groove 27 is provided with a matching groove 36, a driving shaft 61 is rotatably engaged with the wall body between the matching groove 36 and the transmission groove 27, the driving shaft 61 is fixedly connected with a connecting gear 62 located in the transmission groove 27, the fixed shaft 28 is fixedly connected with a rotating gear 29 located in the transmission groove 27, the power shaft 31 is splined with a spline gear 35 located in the transmission groove 27 and capable of being engaged with the rotating gear 29 and the connecting gear 62, the left side of the spline gear 35 is fixedly connected with a permanent magnet 34, and the power shaft 31 is fixedly connected with an electromagnet 32 located on the left side of the permanent magnet 34, a connecting spring 33 is connected between the electromagnet 32 and the permanent magnet 34, a driven shaft 37 is rotatably matched with a wall body between the matching groove 36 and the bevel gear transmission groove 39, the driven shaft 37 and the driving shaft 61 are positioned in the matching groove 36 and are in transmission connection through a belt wheel, the driven shaft 37 and the connecting shaft 38 are positioned in the bevel gear transmission groove 39 and are connected through a bevel gear pair, tire grooves 10 are symmetrically arranged in the fixed plate 14 in the left and right direction, a tire shaft 11 is rotatably matched with the rear wall of the tire groove 10, a tire 12 is fixedly connected in the tire groove 10 of the tire shaft 11, the conversion shaft 16 extends downwards to the fixed plate 14 and is in power connection with a conversion motor 15 embedded in the fixed plate 14, and when the spline gear 35 is meshed with the connecting gear 62, the driving shaft 61 drives the driven shaft 37 to rotate, so that the connecting shaft 38 is rotated, the rotating shaft 13 is rotated, the connecting rod 65 is rotated ninety degrees, the electromagnet 32 is energized after the fixed bevel gear 23 is meshed with the transmission bevel gear 26, the spline gear 35 is meshed with the rotating gear 29, and the on time of the power motor 30 is controlled, so that the height of the lifting block 20 is controlled.

Advantageously, the safety device further comprises a transmission shaft 56 rotatably engaged with the rear wall of the rotation groove 51, the transmission shaft 56 and the engagement shaft 50 are located in the rotation groove 51 and connected through a bevel gear pair, the transmission shaft 56 is fixedly connected with a rotatable rotation block 53, the right side of the buffer block 46 is fixedly connected with a mating block 58, the mating block 58 is rotatably engaged with a rotation shaft 59, the rotation shaft 59 is in pulley transmission connection with the mating shaft 43 on the front side, the mating shaft 43 on the rear side is connected with the rotation shaft 59 through a gear pair, a user rotates the rotation block 53 to rotate the engagement shaft 50 so as to clamp the solar cell, and when the rotation block 53 rotates ninety degrees, the clamping block 55 turns ninety degrees, and the front and rear clamping blocks 55 clamp the solar cell.

The use steps herein are described in detail below with reference to fig. 1-4:

in the initial state, the engaging groove 24 is in a horizontal state, the transmission bevel gear 26 is not engaged with the fixed bevel gear 23, the spline gear 35 is engaged with the connecting gear 62, and the spline gear 35 is engaged with the rotating gear 29.

When solar energy needs to be transported to a high place, the fixing plate 14 is moved to be horizontal to the high place to be transported, then the rotating block 53 is rotated to open the rotating block 53, a solar cell is placed in the fixing plate, a user rotates the rotating block 53, so that the engaging shaft 50 rotates, the engaging shaft 50 rotates to drive the engaging shaft 43 on the front side to rotate, the engaging shaft 43 on the front side rotates to drive the rotating shaft 59 to rotate, the rotating shaft 59 rotates to drive the engaging shaft 43 on the rear side to rotate in the opposite direction, the clamping block 55 rotates ninety degrees to clamp the solar cell, at the moment, the power motor 30 is started, the spline gear 35 is meshed with the safe 62, the driving shaft 61 drives the driven shaft 37 to rotate, so that the connecting shaft 38 rotates, the rotating shaft 13 rotates, the connecting rod 65 rotates ninety degrees, the fixed bevel gear 23 is meshed with the transmission bevel gear 26, at the moment, the electromagnet 32 is electrified, the electromagnet 32 attracts the, thereby the lifting block 20 rises under the rotation of the front and back connecting screw rod 19, the opening time of the power motor 30 is controlled, the height of the lifting block 20 is controlled, the batteries are transported upwards in sequence, when the batteries rise to the required height, the power motor 30 is closed, the electromagnet 32 is powered off, the conversion motor 15 is started to drive the transportation carriage 17 to rotate ninety degrees, the communicating groove 44 is opened towards the person standing on the roof for receiving, the rotating block 53 is opened, the power motor 30 and the electromagnet 32 are controlled after the batteries are taken out, the device is reset, when the device breaks down, the connecting rod 65 can not drive the fixed block 25 to rotate, the fixed block 25 collides on the bottom wall of the transportation cavity 18 when the fixed block is unpowered, the impact force of the downward collision of the buffer block 46 can be relieved under the effect of the buffer spring 45 by the received impact force, and the solar batteries.

The invention has the beneficial effects that: through rotating the connecting rod ninety degrees for transmission bevel gear and fixed bevel gear meshing, under the effect of front and back connection lead screw, the elevator is accomplished and is gone up and down to the appointed height, and this device height need not too high like this, can be better pass some limit for height buildings, and this device has set up the safe simultaneously, gives off accident for the prevention connecting rod, thereby makes the fixed block upset striking transport the chamber diapire and provides the buffering, thereby has protected solar cell.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (3)

1. The utility model provides a solar cell's lifting device convenient to transportation, includes the fixed plate, its characterized in that: the middle side top wall of the fixed plate is in rotating fit with a conversion shaft, the upper side of the fixed plate is fixedly connected with a conveying carriage, a lifting device is arranged in the conveying carriage and comprises a conveying cavity arranged in the conveying carriage, the left side bottom wall of the conveying cavity is fixedly connected with a bottom wall block, an extension groove is formed in the bottom wall block, a rotating shaft is in rotating fit with the front wall of the extension groove, one side of a connecting rod is fixedly connected with the rotating shaft, the other side of the connecting rod is fixedly connected with a fixed block, an engagement groove with an upward opening is formed in the fixed block, a belt wheel groove is formed in the right side of the engagement groove, a sliding groove is formed in the right side of the belt wheel groove, connecting lead screws are symmetrically and rotationally matched with the wall body between the engagement groove and the sliding groove in a front-back manner, the connecting lead screws on the front side of the connecting lead screws are, the connecting screw rod is in threaded connection with a lifting block in sliding connection with the sliding groove, a bevel gear transmission groove is formed in the lower side of the connecting screw rod, a connecting shaft is in rotating fit with a wall body between the bevel gear transmission groove and the conveying cavity, the connecting shaft and the rotating shaft are located in the fit groove and are connected through a bevel gear pair, a transmission groove is in rotating fit with the left side of the conveying cavity, a transmission groove is in rotating fit with a wall body between the transmission groove and the conveying cavity, the fixing shaft extends rightwards into the conveying cavity and is fixedly connected with a transmission bevel gear meshed with the fixed bevel gear, the connecting shaft rotates to drive the rotating shaft to rotate, so that the fixing block rotates ninety degrees, the transmission bevel gear is meshed with the fixed bevel gear, the fixing shaft can drive the connecting screw rod to rotate, and the lifting block is lifted, the lifting block is fixedly connected with a safe box, a safety device is arranged in the safe box and comprises a communicating groove which is arranged in the safe box and provided with an upward opening, a buffer block is connected in the communicating groove in a sliding manner, connecting blocks are symmetrically and fixedly connected with the front and the back of the buffer block, a clamping groove with an upward opening is formed in the connecting block, a sliding groove is communicated with the right side of the communicating groove, a moving block is connected in the sliding groove in a sliding manner, a fixed groove is formed in the moving block, a matching shaft at the front side which is rotationally matched with the connecting block is connected to the left wall of the fixed groove, the matching shaft at the front side is positioned in the clamping groove and fixedly connected with the clamping block, a rotating groove is formed in the upper side of the sliding groove, a fitting shaft is rotationally matched with a wall body between the rotating groove and the sliding groove, and the fitting, the spline sleeve is connected with the fixing groove, which is located on the matching shaft on the front side, through a bevel gear pair, a buffer spring is connected between the buffer block and the bottom wall of the communicating groove, the matching shaft on the front side can rotate through the rotation of the matching shaft, so that the clamping block clamps the solar cell tightly, when the safe box is vibrated, the clamping block can clamp the solar cell tightly all the time, and the buffer spring provides a buffer damping effect for the solar cell.

2. A solar cell lift device for ease of transportation according to claim 1 wherein: the lifting device also comprises a power shaft which is in running fit with the left wall of the transmission groove and is positioned on the lower side of the fixed shaft, the power shaft extends leftwards to the left side of the transmission groove and is in power connection with a power motor embedded in the conveying carriage, a matching groove is formed in the left side of the transmission groove, a driving shaft is in running fit with the wall body between the matching groove and the transmission groove, the driving shaft is positioned in the transmission groove and is fixedly connected with a connecting gear, the fixed shaft is positioned in the transmission groove and is fixedly connected with a rotating gear, the power shaft is positioned in the transmission groove and is in spline connection with a spline gear which can be meshed with the rotating gear and the connecting gear, the left side of the spline gear is fixedly connected with a permanent magnet, the power shaft is fixedly connected with an electromagnet positioned on the left side of the, the cooperation groove with wall body normal running fit between the bevel gear drive groove has the driven shaft, the driven shaft with the driving shaft is located the cooperation inslot is connected through band pulley transmission, the driven shaft with the connecting axle is located bevel gear drive inslot is through bevel gear pair connection, bilateral symmetry sets up the tire groove in the fixed plate, the back wall normal running fit in tire groove has the tire axle, the tire axle is located tire inslot fixedly connected with tire, conversion axle downwardly extending to power connection has embedded in the fixed plate conversion motor in the fixed plate.

3. A solar cell lift device for ease of transportation according to claim 1 wherein: the safety device further comprises a transmission shaft which is in running fit with the rear wall of the rotating groove, the transmission shaft and the fit shaft are located in the rotating groove and are connected through a bevel gear pair, the transmission shaft is fixedly connected with a rotatable rotating block, the right side of the buffer block is fixedly connected with a fit block, the fit block is in running fit with a rotating shaft, the rotating shaft is connected with the front side of the fit shaft through a belt wheel in a transmission mode, and the back side of the fit shaft is connected with the rotating shaft through a gear pair.

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