CN218231726U - Transportation equipment and photovoltaic module installation system - Google Patents

Abstract

The utility model discloses a transportation equipment and photovoltaic module installing the system, wherein, the transportation equipment is including transportation automobile body and carrier assembly, carrier assembly includes elevating platform and plummer, the elevating platform connect with liftable in the transportation automobile body, the plummer is used for bearing the weight of photovoltaic panel, the plummer movably connect in the elevating platform, the moving direction perpendicular to of plummer the walking direction of transportation automobile body. The utility model discloses technical scheme aims at improving the conveying efficiency of haulage equipment, and then improves photovoltaic module's assembly efficiency.

Description

Transportation equipment and photovoltaic module installation system

Technical Field

The utility model relates to a photovoltaic device technical field, in particular to transportation equipment and photovoltaic module installing the system.

Background

In existing photovoltaic modules, the photovoltaic panels are mostly assembled on a photovoltaic support with a high height to convert solar radiation energy into electrical energy better towards the sun on the photovoltaic support far from the ground surface.

In the existing assembly system of the photovoltaic module, the photovoltaic panel is generally transported to the photovoltaic support by a crane or a forklift, and the photovoltaic panel is lifted from the ground by a suspension arm of the crane and moved to the photovoltaic support to complete transportation of the photovoltaic panel, or the photovoltaic panel is transported to the lower part of the photovoltaic support by the forklift and then lifted to the photovoltaic support for installation.

However, the existing crane is large in size and heavy in weight, the whole crane needs to be adjusted and assembled before the photovoltaic panel is transported by the crane, the existing crane is inconvenient to use, low in working efficiency, large in floor area and inconvenient to use in places with high photovoltaic module density. And because fork truck's the most can only one-way travel and lift transportation, when carrying photovoltaic panel to photovoltaic support, need drive fork truck turn get into photovoltaic support every installation station below promote photovoltaic panel to the installation station on, the direction of travel is adjusted again and is exited from this installation station, then move next installation station and repeat the transportation operation, such transportation mode removes the step more, and remove at every turn and all adjust the fork truck position so that photovoltaic panel can accurately install on the photovoltaic support, the process is numerous and diverse, lead to photovoltaic module's assembly efficiency lower.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a transportation equipment aims at improving transportation equipment's conveying efficiency, and then improves photovoltaic module's assembly efficiency.

In order to achieve the above object, the utility model provides a transportation equipment includes transportation automobile body and carrier assembly, carrier assembly includes elevating platform and plummer, the elevating platform connect with liftable in the transportation automobile body, the plummer is used for bearing photovoltaic panel, the plummer movably connect in the elevating platform, the moving direction perpendicular to of plummer the walking direction of transportation automobile body.

Optionally, the transportation automobile body includes car body and operation support body, the operation support body connect in the car body, the elevating platform connect in with liftable the operation support body, the operation support body is kept away from the one end of car body is equipped with and pulls the handle.

Optionally, the vehicle body includes a vehicle frame, a driving wheel and an auxiliary wheel, the operation frame is connected to the vehicle frame, and the vehicle frame is provided with a power supply; the driving wheel is arranged at one end of the frame and is arranged on two sides of the power supply source, and a driving device is arranged on the driving wheel and is electrically connected with the power supply source; the auxiliary wheel is connected to one end of the frame far away from the driving wheel.

Optionally, a sliding groove is formed in the inner side of the operation frame body, the lifting table comprises a lifting frame body and a pushing device, the lifting frame body is arranged in the operation frame body, a lifting pulley is arranged on one side, facing the sliding groove, of the lifting frame body, and the lifting pulley is slidably arranged in the sliding groove; the pushing device is connected to the lifting frame body and the bearing table and used for moving the bearing table.

Optionally, the transportation vehicle body further comprises a lifting device, the lifting device is used for lifting the lifting table, the lifting device comprises a lifting motor, a chain wheel and a chain, the lifting motor is connected to the vehicle body, and one end of the lifting motor is provided with a rotating wheel; the chain wheel is arranged at one end of the operation frame body, which is far away from the vehicle body; the chain is connected with the rotating wheel and penetrates through the chain wheel to be connected with the lifting frame body.

Optionally, the pushing device comprises a side plate and a push rod, the side plate is connected to the lifting frame body, and the plummer is arranged on one side of the side plate; the push rod is arranged between the side plate and the bearing platform in a telescopic mode, and two ends of the push rod are connected to the side plate and the bearing platform respectively, so that the bearing platform is pushed and pulled in the telescopic process of the push rod.

Optionally, the lifting direction of the lifting platform is defined as an up-down direction, so the pushing device further comprises a first guide rod and a second guide rod, one end of the first guide rod is rotatably connected to the side plate, and the other end of the first guide rod is slidably connected to the bearing platform along the up-down direction; one end of the second guide rod is rotatably connected to the bearing table, and the other end of the second guide rod is slidably connected to the side plate in the vertical direction.

Optionally, the bearing platform is provided with a first sliding groove extending in the up-down direction on the surface facing the side plate, a first guide wheel is arranged at one end of the first guide rod departing from the side plate, and the first guide wheel is slidably arranged in the first sliding groove. The curb plate is equipped with along the second spout that extends from top to bottom, the one end that the second guide bar deviates from the curb plate is equipped with the second leading wheel, second leading wheel slidable ground is located in the second spout.

Optionally, the surface of the operation frame body, which faces away from the bearing table, is provided with a handrail. And/or a button is arranged at the end part of the dragging handle back to the operation frame body. And/or, the transportation equipment still includes the controller, the controller connect in one side of operation support body, the controller is used for controlling car body, the elevating platform with the plummer removes.

The utility model also provides a photovoltaic module installing the system, photovoltaic module installing the system includes photovoltaic module and transportation equipment, transportation equipment is above the transportation equipment, photovoltaic module includes photovoltaic support and photovoltaic panel, transportation equipment be used for with photovoltaic panel transports extremely the photovoltaic support.

The utility model discloses technical scheme sets up on the transportation automobile body through the elevating platform with the carrier assembly, and make the elevating platform can go up and down on the transportation automobile body, the plummer that will bear photovoltaic panel simultaneously sets up on the elevating platform, and make the plummer can remove on the elevating platform, the walking direction through the moving direction perpendicular to transportation automobile body that makes the plummer, can make the plummer can pass photovoltaic panel to the photovoltaic support from one side of elevating platform on, make the transportation automobile body can keep the straight line to go in the transportation, the conveying efficiency of transportation equipment has effectively been improved. When transportation equipment carries, the transportation automobile body can keep straight line walking in one side of photovoltaic panel, when walking to corresponding mounted position, can go up and down the elevating platform to the height of photovoltaic support, can follow the elevating platform this moment and remove the plummer with photovoltaic panel propelling movement to photovoltaic support on alright accomplish the transportation of photovoltaic panel, the removal of transportation automobile body has effectively been reduced, the operation step of transportation equipment has been simplified, and then the transportation efficiency of transportation equipment has been improved, further improved photovoltaic module's assembly efficiency. Wherein, because the transportation equipment only needs to keep transporting the automobile body and walking in one side of photovoltaic support alright carry a plurality of photovoltaic panels to a plurality of installation stations of photovoltaic support in the handling, occupation area when being favorable to reducing the transportation equipment operation for the transportation equipment can be applicable to the more intensive environment of photovoltaic module, has effectively improved transportation equipment's practicality.

Drawings

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

Fig. 1 is a three-dimensional structure diagram of an embodiment of the transportation device transporting a photovoltaic panel to a photovoltaic support according to the present invention;

FIG. 2 is a three-dimensional block diagram of one embodiment of the transport apparatus of FIG. 1 lifting a photovoltaic panel under a photovoltaic rack;

FIG. 3 is a side view of the tilting movement of one embodiment of the transport apparatus of FIG. 1;

FIG. 4 is a three-dimensional block diagram of one embodiment of the transport apparatus of FIG. 1;

FIG. 5 is a three-dimensional structure diagram of the embodiment of the transportation device shown in FIG. 4 after the lifting platform is lifted and the bearing platform is moved;

fig. 6 is a front view of an embodiment of the transport apparatus of fig. 5.

The reference numbers indicate:

reference numerals	Name(s)	Reference numerals	Name (R)
				100	Transport device	30	Bearing assembly
10	Transportation vehicle body	31	Lifting platform
				11	Vehicle body	311	Lifting frame
111	Vehicle frame	313	Pushing device
				1111	Power supply source	3131	Side plate
113	Driving wheel	3133	Push rod
				115	Auxiliary wheel	3135	First guide bar
13	Operation rack	3137	Second guide bar
				131	Dragging handle	3139	Second chute
1311	Push button	33	Bearing platform
				133	Sliding groove	331	First chute
135	Armrest	50	Controller for controlling a motor
				15	Lifting device	1000	Photovoltaic module
151	Lifting motor	300	Photovoltaic panel
				153	Chain wheel	500	Photovoltaic support
155	Chain

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, back \8230;) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the attached drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In the present application, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., "fixed" may be fixedly connected or detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be interconnected within two elements or in a relationship where two elements interact with each other unless otherwise specifically limited. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

Furthermore, descriptions in the present application as to "first," "second," etc. are for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the expression "and/or" as used throughout is meant to encompass three juxtaposed aspects, exemplified by "A and/or B", including either the A aspect, or the B aspect, or aspects in which both A and B are satisfied. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The existing crane is large in size and large in weight, needs to be integrally adjusted and assembled before the crane is used for transporting a photovoltaic panel, is inconvenient to use, low in working efficiency, large in occupied area and inconvenient to use in places with large photovoltaic module density. And because fork truck's the most can only one-way travel and lifting transport, when carrying photovoltaic panel to photovoltaic support, need drive fork truck turn and get into photovoltaic support every installation station below promote photovoltaic panel to the installation station on, readjust the direction of travel and withdraw from this installation station, then remove the operation of transporting repeatedly to next installation station, such transportation mode removes the step more, and remove at every turn and all will adjust the fork truck position so that photovoltaic panel can accurately install on the photovoltaic support, the process is numerous and diverse, lead to photovoltaic module's assembly efficiency lower. In view of the above, the present invention provides a transportation device 100.

Referring to fig. 1 to 6, in the embodiment of the present invention, the transportation device 100 includes a transportation vehicle body 10 and a carrying assembly 30, the carrying assembly 30 includes an elevating platform 31 and a carrying platform 33, the elevating platform 31 is connected to the transportation vehicle body 10 in an elevating manner, the carrying platform 33 is used for carrying the photovoltaic panel 300, the carrying platform 33 is movably connected to the elevating platform 31, and a moving direction of the carrying platform 33 is perpendicular to a walking direction of the transportation vehicle body 10.

It is understood that the lifting platform 31 can be lifted on the transport vehicle 10 by means of a screw transmission, or can be lifted on the transport vehicle 10 by means of a lifting cable and a guide rail in a sliding manner. An electric push rod or a hydraulic push rod can be arranged between the bearing table 33 and the conveying table, so that the bearing table 33 can be pushed away from the lifting table 31 to realize the movement of the bearing table 33, or a sliding block and a guide rail can be arranged between the bearing table 33 and the lifting table 31, and the bearing table 33 can be moved by sliding the bearing table 33 on the lifting table 31. By making the moving direction of the bearing table 33 perpendicular to the traveling direction of the transport vehicle 10, the transport vehicle 10 can keep running straight when the transport equipment 100 carries the photovoltaic panel 300, and by moving the bearing table 33 from the side of the lifting table 31 facing the photovoltaic support 500, the photovoltaic panel 300 can be moved from the side of the transport equipment 100 to the photovoltaic support 500, thereby effectively reducing the moving steps of the transport vehicle 10 and improving the transport efficiency of the transport equipment 100. Wherein, the bearing table 33 may further be provided with a clamping member or a fixing strap for fixing the photovoltaic panel 300, so that the photovoltaic panel 300 can be more stably placed on the bearing table 33 in the moving process of the transportation device 100, thereby improving the stability and reliability of the overall structure of the transportation device 100.

The utility model discloses technical scheme sets up on transportation automobile body 10 through the elevating platform 31 with carrier assembly 30, and make elevating platform 31 can go up and down on transportation automobile body 10, the plummer 33 that will bear photovoltaic panel 300 simultaneously sets up on elevating platform 31, and make plummer 33 can move on elevating platform 31, the walking direction through the moving direction perpendicular to transportation automobile body 10 that makes plummer 33, can make plummer 33 can pass photovoltaic panel 300 to photovoltaic support 500 from one side of elevating platform 31 on, make transportation automobile body 10 can keep the straight line to go in the transportation, the conveying efficiency of transportation equipment 100 has effectively been improved. When the transportation equipment 100 is transported, the transportation vehicle body 10 can keep walking on one side of the photovoltaic panel 300 in a straight line, when walking to the corresponding installation position, the lifting platform 31 can be lifted to the height of the photovoltaic support 500, at the moment, the photovoltaic panel 300 can be pushed to the photovoltaic support 500 from the lifting platform 31 to the photovoltaic support 500 by the carrier platform 33 moving towards one side of the photovoltaic support 500, so that the transportation of the photovoltaic panel 300 can be completed, the movement of the transportation vehicle body 10 is effectively reduced, the operation steps of the transportation equipment 100 are simplified, the transportation efficiency of the transportation equipment 100 is further improved, and the assembly efficiency of the photovoltaic assembly 1000 is further improved. Wherein, because the transportation equipment 100 only needs to keep the transportation vehicle body 10 to walk on one side of the photovoltaic support 500 in the transportation process and can carry a plurality of photovoltaic panels 300 to a plurality of installation stations of the photovoltaic support 500, the occupied area of the transportation equipment 100 during operation is favorably reduced, so that the transportation equipment 100 can be suitable for the environment with more intensive photovoltaic modules 1000, and the practicability of the transportation equipment 100 is effectively improved.

Referring to fig. 3 and 4, in an embodiment of the present invention, the transportation vehicle body 10 includes a vehicle body 11 and an operation frame body 13, the operation frame body 13 is connected to the vehicle body 11, the lifting platform 31 is connected to the operation frame body 13 with being capable of lifting, and one end of the operation frame body 13 away from the vehicle body 11 is provided with a dragging handle 131.

It can be understood that the operation frame body 13 may be a frame set for guiding the lifting platform 31 to lift, and at this time, in order to ensure that the lifting platform 31 can have a certain lifting height, the operation frame body 13 may extend a certain length along the lifting direction of the lifting platform 31, so that the lifting platform 31 can better lift the plummer 33 to the height of the photovoltaic bracket 500 for installing the photovoltaic panel 300. In this embodiment, the dragging handle 131 is disposed at one end of the operation frame body 13 far from the vehicle body 11, so that when the transportation device 100 moves, as shown in fig. 3, the vehicle body 11 tilts to a rear direction for a certain angle, and a user can hold the dragging handle 131 to keep the balance of the vehicle body 11, so that the vehicle body 11 can stably continue to move forward, at this time, the vehicle body 11 tilts to run, so that the wheels in front are suspended, and the rear wheels move, so that the contact area between the vehicle body 11 and the ground is effectively reduced, when the transportation device 100 moves in an environment with a rugged or uneven ground, the ground gripping performance of the vehicle body 11 can be effectively improved only by moving one set of wheels, the shaking and the vibration of the vehicle body 11 are reduced, the transportation device 100 can move more stably, the moving stability and the reliability of the transportation device 100 are improved, and the transportation device 100 can be used in more inconvenient environments, and the practicability and the reliability of the transportation device 100 are further improved.

Further, referring to fig. 4 to 6, in an embodiment of the present invention, the vehicle body 11 includes a frame 111, a driving wheel 113 and an auxiliary wheel 115, the operation frame body 13 is connected to the frame 111, and the frame 111 is provided with a power supply 1111; the driving wheel 113 is mounted at one end of the frame 111 and is arranged at two sides of the power supply 1111, a driving device is arranged on the driving wheel 113, and the driving device is electrically connected with the power supply 1111; the auxiliary wheel 115 is connected to an end of the frame 111 remote from the drive wheel 113.

It can be understood that the driving device on the driving wheel 113 can be a driving motor or a transmission device, and the driving wheel 113 is rotated by arranging the driving motor inside the profile, so that the overall volume of the vehicle body 11 can be effectively reduced, the structure of the vehicle body 11 is simplified, and the light design of the vehicle body 11 is facilitated; or the transmission device can be used for transmitting power from the frame 111 to the driving wheel 113 to rotate the driving wheel 113, so that the overall power of the vehicle body 11 can be more stable and reliable. Wherein, through setting up driving wheel 113 and auxiliary wheel 115 respectively at the both ends of frame 111, can make when the car body 11 moves on level ground, utilize driving wheel 113 to drive auxiliary wheel 115 and go together, under the common removal of driving wheel 113 and auxiliary wheel 115, can make car body 11 move more steadily. Meanwhile, when the tilting cart body 11 moves, the driving wheel 113 with the driving device is kept in contact with the ground, the auxiliary wheel 115 is suspended, and the auxiliary wheel 115 has no power source, so that the suspension of the auxiliary wheel 115 has no great influence on the movement of the cart body 11, the stability of the whole structure of the transportation device 100 is further improved, and the practicability and the reliability of the transportation device 100 are improved.

Secondly, the power supply 1111 that sets up on the frame 111 can be used for supplying power to the drive wheel 113, or can also supply power to other power consumption devices of the transportation equipment 100, for example, the drive source that is used for driving the elevating platform 31 to go up and down and the drive source that drives the plummer 33 to move, etc., are favorable to realizing the whole regulation and control of the transportation equipment 100, further improve the operation convenience of the transportation equipment 100, make the overall structure of the transportation equipment 100 more succinct simultaneously, and the lightweight design of being convenient for.

Further, referring to fig. 4 and 5, in an embodiment of the present invention, the inner side of the operation frame body 13 is provided with a sliding groove 133, the lifting platform 31 includes a lifting frame body 311 and a pushing device 313, the lifting frame body 311 is disposed in the operation frame body 13, one side of the lifting frame body 311 facing the sliding groove 133 is provided with a lifting pulley, and the lifting pulley is slidably disposed in the sliding groove 133; the pushing device 313 is connected to the lifting frame 311 and connected to the carrying platform 33, and the pushing device 313 is used for moving the carrying platform 33.

In this embodiment, by providing the sliding groove 133 inside the operating frame body 13 and providing the lifting pulley on the side of the lifting frame body 311 facing the sliding groove 133, the lifting pulley can slide in the sliding groove 133, thereby guiding the lifting platform 31 to stably lift on the operating frame body 13. At this time, the cable traction device may be arranged to drive the lifting frame body 311 to slide up and down in the operation frame body 13 to realize the lifting of the lifting platform 31, or a motor may be arranged in the lifting pulley to drive the lifting pulley to slide up and down in the sliding groove 133 to realize the lifting of the lifting platform 31, or a push hinge may be arranged at the bottom of the lifting frame body 311 to enable the lifting frame body 311 to lift up and down in the operation frame body 13. By guiding the lifting platform 31 through the sliding groove 133 on the operation frame body 13, the lifting platform 31 can be more stably kept vertically lifted under the limiting effect of the operation frame body 13, and the overall structural stability and reliability of the transportation device 100 are further improved.

By providing the moving device 313 on the lifting frame body 311, the carrier table 33 can be moved to the photovoltaic support 500 from the side of the transportation apparatus 100 facing the photovoltaic support 500 by the moving device 313, so that the photovoltaic panel 300 can be stably transported to the photovoltaic support 500. Wherein, the pushing device 313 may be in a push rod 3133 structure, and the carrier 33 is connected to the lifting frame body 311 by being disposed at one side thereof, so that the carrier 33 can be pushed to the photovoltaic bracket 500 by the push rod 3133 structure; alternatively, the pushing device 313 may be a sliding rail structure, and the carrier 33 is slid to move the carrier 33 away from the lifting frame body 311 toward the photovoltaic support 500. Through utilizing the pushing device 313 to push the photovoltaic panel 300 to the photovoltaic support 500 by the carrying table 33, the carrying table 33 can better move towards the photovoltaic support 500 under the action of the pushing device 313, and the overall structural stability of the transportation device 100 is further improved.

Further, referring to fig. 2, 4 and 5, in an embodiment of the present invention, the transportation vehicle body 10 further includes a lifting device 15, the lifting device 15 is used to lift the lifting platform 31, the lifting device 15 includes a lifting motor 151, a sprocket 153 and a chain 155, the lifting motor 151 is connected to the vehicle body 11, and one end of the lifting motor 151 is provided with a rotating wheel; the chain wheel 153 is arranged at one end of the operating frame body 13 far away from the vehicle body 11; the chain 155 is connected to the wheel and connected to the elevator body 311 through the sprocket 153.

In this embodiment, by arranging the lifting motor 151 on the vehicle body 11 and connecting the rotating wheel of the lifting motor 151 and the lifting frame body 311 by using the chain 155 passing through the chain wheel 153 at the top end of the operating frame body 13, the chain 155 can be retracted when the lifting motor 151 drives the rotating wheel to rotate, so as to pull the lifting frame body 311 to lift on the operating frame body 13, thereby lifting the lifting platform 31; when the frame body is lifted to the top end of the operation frame body 13, the lifting motor 151 drives the rotating wheel to rotate reversely, so that the chain 155 can be released in the process of rotating reversely, and the lifting frame body 311 can slowly descend along the operation frame body 13 under the action of the self gravity and the traction of the chain 155, thereby realizing the descending of the lifting platform 31. Further, the elevating device 15 enables the elevating platform 31 to be stably and reliably operated to ascend and descend on the transporting vehicle body 10, thereby further improving the overall structural stability and reliability of the transporting apparatus 100.

Referring to fig. 4 to 6, in an embodiment of the present invention, the pushing device 313 includes a side plate 3131 and a push rod 3133, the side plate 3131 is connected to the lifting frame body 311, and the carrying platform 33 is disposed on one side of the side plate 3131; the push rod 3133 is telescopically disposed between the side plate 3131 and the platform 33, and two ends of the push rod 3133 are respectively connected to the side plate 3131 and the platform 33, so that the push rod 3133 pushes and pulls the platform 33 during the telescopic process.

In this embodiment, the pushing device 313 is connected to the lifting frame body 311 by the side plate 3131, which is beneficial to better simplify the overall structure of the lifting platform 31 and is convenient for the design of light weight. Wherein, it can be understood that the push rod 3133 can be an electric push rod or a hydraulic push rod, and the power rod is driven to stretch and contract by using electric drive or high-pressure liquid flow so as to realize the movement of the carrier table 33, which is beneficial to further improving the movement stability of the carrier table 33, so that the photovoltaic panel 300 can be more stably transferred to the photovoltaic bracket 500, and the practicability and reliability of the transportation device 100 are further improved. Secondly, a plurality of push rods 3133 can be arranged between the side plate 3131 and the carrying platform 33, and the integral stress of the carrying platform 33 can be more balanced and the movement is more stable by utilizing the simultaneous extension and contraction of the plurality of push rods 3133; or a hinge structure or a guide structure may be disposed between the side plate 3131 and the carrier table 33, so that the carrier table 33 can more smoothly push the photovoltaic panel 300 onto the photovoltaic support 500 under the guiding and limiting effects of the hinge structure and the guide structure, and the overall structural stability of the transportation apparatus 100 is further improved.

Further, referring to fig. 5 and 6, in an embodiment of the present invention, the lifting direction of the lifting platform 31 is defined as an up-down direction, so the pushing device 313 further includes a first guide rod 3135 and a second guide rod 3137, one end of the first guide rod 3135 is rotatably connected to the side plate 3131, and the other end of the first guide rod 3135 is slidably connected to the bearing platform 33 in the up-down direction; one end of the second guide lever 3137 is rotatably connected to the platform 33, and the other end of the second guide lever 3137 is slidably connected to the side plate 3131 in the up-down direction.

It can be understood that, during the process that the push rod 3133 pushes the carrier platform 33 to move, the distance between the side plate 3131 and the carrier platform 33 gradually increases, at this time, the first guide rod 3135 and the second guide rod 3137 can respectively slide up and down on the carrier platform 33 and the side plate 3131 while the distance increases, and then a certain limiting and guiding effect can be provided to the carrier platform 33 during the movement of the push rod 3133 by using the first guide rod 3135 and the second guide rod 3137, so that the carrier platform 33 can push the photovoltaic panel 300 towards the photovoltaic support 500 more stably under the action of the first guide rod 3135 and the second guide rod 3137, and the overall structural stability and reliability of the transportation apparatus 100 are further improved. The centers of the first and second guide rods 3135 and 3137 may be rotatably connected to each other, such that the first and second guide rods 3135 and 3137 may form a link structure, and thus the first and second guide rods 3135 and 3137 may better slide together, thereby achieving a better guiding and limiting function, and enabling the platform 33 to more stably move toward the photovoltaic support 500.

Further, referring to fig. 5 and 6, in an embodiment of the present invention, a surface of the bearing platform 33 facing the side plate 3131 is provided with a first sliding slot 331 extending in an up-down direction, and an end of the first guiding rod 3135 facing away from the side plate 3131 is provided with a first guiding wheel slidably disposed in the first sliding slot 331. The side plate 3131 has a second sliding groove 3139 extending in the up-down direction, and a second guide wheel is disposed at an end of the second guide rod 3137 facing away from the side plate 3131, and the second guide wheel is slidably disposed in the second sliding groove 3139.

In this embodiment, by providing the first sliding groove 331 on the carrier platform 33 to accommodate the first guide bar 3135, and by providing the second sliding groove 3139 on the side plate 3131 to accommodate the second guide bar 3137, the first sliding groove 331 and the second sliding groove 3139 extend in the vertical direction, so that one end of the first guide bar 3135 and one end of the second guide bar 3137 can be guided and limited by the first sliding groove 331 and the second sliding groove 3139, respectively, and can better slide in the vertical direction, thereby realizing a guiding and limiting effect of the first guide bar 3135 and the second guide bar 3137 on the movement of the carrier platform 33, ensuring that the carrier platform 33 can move towards the photovoltaic support 500 more stably and reliably, and further improving the overall structural stability and reliability of the transportation apparatus 100. Through the combination of the sliding of the guide wheels and the sliding grooves, the sliding of first guide rod 3135 and second guide rod 3137 in the up-down direction can be smoother, the resistance to the sliding process of first guide rod 3135 and second guide rod 3137 can be reduced, the movement of the plummer 33 is smoother and smoother, the operation convenience and the structural stability of the transportation device 100 are further improved, and the transportation device 100 is more stable and reliable. Wherein the carrier 33 and the side plate 3131 may form the first sliding groove 331 and the second sliding groove 3139, respectively, by providing a guide rail on a surface thereof, or may form the first sliding groove 331 and the second sliding groove 3139, respectively, by forming a groove on a surface of the carrier 33 and the side plate 3131.

Referring to fig. 4 to 6, in an embodiment of the present invention, a handrail 135 is disposed on a surface of the operation frame body 13 facing away from the bearing platform 33. And/or a button 1311 is arranged at the end of the dragging handle 131 opposite to the operation frame body 13. And/or, the transportation device 100 further includes a controller 50, the controller 50 is connected to one side of the operation frame body 13, and the controller 50 is used for controlling the vehicle body 11, the lifting platform 31 and the bearing platform 33 to move.

In this embodiment, the handrail 135 is disposed on the surface of the operation frame body 13 facing away from the carrying platform 33, so that when the user uses the transportation device 100 to transport the photovoltaic panel 300, the user can hold the handrail 135 to move along with the transportation device 100, thereby improving the operation convenience of the transportation device 100 and facilitating the use of the transportation device 100. Meanwhile, under the action of the handrail 135, a user can provide a certain supporting effect for the transportation device 100 by holding the handrail 135 when the transportation device 100 moves the bearing assembly 30, so that the bearing assembly 30 can operate more stably, and the overall structural stability and reliability of the transportation device 100 are further improved.

And through set up button 1311 at the tip that drags handle 131 and back to operation support body 13, can be when car body 11 tilting, the user holds drags handle 131 and can make car body 11 back-and-forth movement through operating button 1311, has further improved the operation convenience of haulage equipment 100. The button 1311 may also be used to control the moving speed of the cart body 11 and the movement of the bearing assembly 30, so that the cart body 11 does not have a great influence on the overall operation of the transportation device 100 when moving obliquely, and the practicability of the transportation device 100 is further improved.

Secondly, through setting up controller 50 in one side of operation support body 13, can make transportation automobile body 10 when moving and carrier assembly 30 when moving, the user can be in operation support body 13 one side to whole regulation and control of haulage equipment 100, is favorable to improving haulage equipment 100's overall operation convenience for utilize controller 50 can be better to haulage equipment 100 overall control. Wherein, the controller 50 can be dismantled and connect in one side of operation support body 13 for the user can be through dismantling controller 50, and through the mobile device on the signal connection haulage equipment 100, thereby realized keeping away from haulage equipment 100 and regulate and control haulage equipment 100, effectively improved haulage equipment 100's practicality.

The utility model also provides a photovoltaic module installing the system, this photovoltaic module installing the system include photovoltaic module 1000 and transportation equipment 100, and above-mentioned embodiment is referred to this transportation equipment 100's concrete structure, because this photovoltaic module installing the system has adopted all technical scheme of above-mentioned all embodiments, consequently has all beneficial effects that the technical scheme of above-mentioned embodiment brought at least, gives unnecessary detail here. Wherein the photovoltaic module 1000 comprises a photovoltaic rack 500 and a photovoltaic panel 300, the transport apparatus 100 is configured to transport the photovoltaic panel 300 to the photovoltaic rack 500.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. A transportation device for a photovoltaic module installation system, the transportation device comprising:

a transporter body; and

the bearing assembly comprises a lifting platform and a bearing platform, the lifting platform is connected with the transportation vehicle body in a lifting mode, the bearing platform is used for bearing the photovoltaic panel, the bearing platform is movably connected with the lifting platform, and the moving direction of the bearing platform is perpendicular to the walking direction of the transportation vehicle body.

2. The transportation apparatus of claim 1, wherein the transportation vehicle body comprises:

a vehicle body; and

the operation support body, the operation support body connect in car body, the elevating platform connect with liftable in the operation support body, the operation support body is kept away from the one end of car body is equipped with pulls the handle.

3. The transport apparatus of claim 2, wherein the car body comprises

The operation frame body is connected to the frame, and the frame is provided with a power supply;

the driving wheel is arranged at one end of the frame and arranged on two sides of the power supply source, and is provided with a driving device which is electrically connected with the power supply source; and

and the auxiliary wheel is connected to one end, far away from the driving wheel, of the frame.

4. The transportation apparatus as claimed in claim 2, wherein the operation frame body has a sliding groove formed on an inner side thereof, and the lifting platform comprises:

the lifting frame body is arranged in the operation frame body, a lifting pulley is arranged on one side of the lifting frame body facing the sliding groove, and the lifting pulley is slidably arranged in the sliding groove; and

the pushing device is connected to the lifting frame body and the bearing platform, and is used for moving the bearing platform.

5. The transportation apparatus of claim 4, wherein the transportation vehicle body further comprises a lifting device for lifting the lifting platform, the lifting device comprising:

the lifting motor is connected to the trolley body, and one end of the lifting motor is provided with a rotating wheel;

the chain wheel is mounted at one end, far away from the vehicle body, of the operation frame body; and

the chain is connected with the rotating wheel and penetrates through the chain wheel to be connected with the lifting frame body.

6. Transport apparatus according to claim 4, characterized in that the pusher shoe comprises:

the side plate is connected to the lifting frame body, and the bearing platform is arranged on one side of the side plate; and

the push rod is arranged between the side plate and the bearing platform in a telescopic mode, and two ends of the push rod are connected to the side plate and the bearing platform respectively, so that the bearing platform is pushed and pulled in the telescopic process of the push rod.

7. The transportation apparatus as claimed in claim 6, wherein the lifting direction of the lifting table is defined as an up-down direction, so that the pushing unit further comprises:

one end of the first guide rod is rotatably connected to the side plate, and the other end of the first guide rod is slidably connected to the bearing table along the vertical direction; and

and one end of the second guide rod is rotatably connected to the bearing table, and the other end of the second guide rod is slidably connected to the side plate along the vertical direction.

8. The transportation apparatus as claimed in claim 7, wherein the surface of the loading platform facing the side plate is provided with a first sliding slot extending in an up-and-down direction, and one end of the first guide rod facing away from the side plate is provided with a first guide wheel slidably arranged in the first sliding slot;

the curb plate is equipped with along the second spout that extends from top to bottom, the one end that the second guide bar deviates from the curb plate is equipped with the second leading wheel, second leading wheel slidable ground is located in the second spout.

9. The transport apparatus as claimed in any one of claims 2 to 8, wherein the surface of the handling frame facing away from the loading platform is provided with handrails;

and/or a button is arranged at the end part of the dragging handle back to the operation frame body;

and/or, the transportation equipment still includes the controller, the controller connect in one side of operation support body, the controller is used for controlling the car body, the elevating platform with the plummer removes.

10. A photovoltaic module installation system, comprising a photovoltaic module and a transport apparatus, the transport apparatus being as claimed in any one of claims 1 to 9, the photovoltaic module comprising a photovoltaic rack and a photovoltaic panel, the transport apparatus being configured to transport the photovoltaic panel to the photovoltaic rack.

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