CN113830415B

CN113830415B - New forms of energy power generation equipment accessory conveyer

Info

Publication number: CN113830415B
Application number: CN202111150230.2A
Authority: CN
Inventors: 冯显火
Original assignee: Jiangsu Taimingyi Automation Equipment Co ltd
Current assignee: Jiangsu Taimingyi Automation Equipment Co ltd
Priority date: 2021-09-29
Filing date: 2021-09-29
Publication date: 2022-11-25
Anticipated expiration: 2041-09-29
Also published as: CN113830415A

Abstract

The invention belongs to the technical field of new energy accessory packaging and transportation, and particularly relates to a new energy power generation equipment accessory transportation device which comprises two positioning supporting seats which are opened and closed along the horizontal direction, wherein L-shaped positioning grooves are formed in the two positioning supporting seats, and a first cushion pad is arranged on one inner wall in each L-shaped positioning groove, which is vertical to the opening and closing direction of the corresponding positioning supporting seat; the first cushion pad is assembled to be capable of being locked with the two positioning supporting seats when the first cushion pad reaches the preset compression amount, so that the two positioning supporting seats can be kept at the current distance. The photovoltaic panel fixing device can adapt to photovoltaic panels of different specifications, and ensures moderate pressure acting on the photovoltaic panels, thereby not only ensuring effective fixation of the photovoltaic panels, but also avoiding deformation of the photovoltaic panels caused by overlarge pressure.

Description

New forms of energy power generation equipment accessory conveyer

Technical Field

The invention belongs to the technical field of new energy accessory packaging and transportation, and particularly relates to a new energy power generation equipment accessory transportation device.

Background

The solar photovoltaic board generally adopts vertical packing in order to prevent that the face pressurized in transportation process, and traditional packaging mode generally adopts foam or paper hornblock to protect the corner of photovoltaic board, then stacks polylith photovoltaic board together, ligature photovoltaic board on the tray with the bandage at last. The above packaging method mainly has the following defects: firstly, the photovoltaic panel is often installed in mountainous areas, suburbs and other areas with poor traffic conditions, the vehicle jolts very violently when running in the areas, the traditional packaging mode has poor buffering effect, and the photovoltaic panel is difficult to be effectively protected; secondly, a large amount of disposable buffer materials are used in the packaging process, and the materials cannot be recycled, so that the packaging cost is high; thirdly, the photovoltaic panel has various specifications, and packaging consumables such as a packaging box, a cushion block and the like are required to be manufactured according to different specifications, so that the packaging cost is further increased; fourthly, the extrusion force of the buffer material in the packaging process is difficult to control, the photovoltaic panel can be caused to shake due to the over-small extrusion force, and the photovoltaic panel can be caused to deform or even to crack due to the over-large extrusion force. The above problems are urgently needed to be solved.

Disclosure of Invention

The invention aims to provide a new energy power generation equipment accessory transportation device which can be suitable for carrying photovoltaic panels of different specifications, has a good buffering effect, is controllable in cushion extrusion force, and avoids the photovoltaic panels from being deformed due to over-compression while being reliably fixed.

The technical scheme adopted by the invention is as follows:

a new energy power generation equipment accessory transportation device comprises two positioning support seats which are mutually opened and closed along the horizontal direction, wherein L-shaped positioning grooves are formed in the two positioning support seats, the L-shaped positioning grooves in the two positioning support seats are symmetrically arranged so that a photovoltaic panel can be vertically inserted between the two L-shaped positioning grooves, and a first cushion pad is arranged on one inner wall, perpendicular to the opening and closing direction of the positioning support seats, in the L-shaped positioning groove; the first cushion pad is assembled to be capable of achieving the preset compression amount, and the two positioning support seats can be locked mutually to keep the two positioning support seats at the current distance.

Be equipped with between two positioning support seats and be used for driving actuating mechanism that both opened and shut, actuating mechanism is including being located the drive seat between two positioning support seats, and the drive seat both sides are equipped with the flexible unit of connecting in two positioning support seats respectively, flexible unit include with drive two first swing arms of seat pin joint to and with two second swing arms of positioning support seat pin joint, the pivot of two first swing arms makes both synchronous counter swings through gear engagement, the pivot of two second swing arms makes both synchronous counter swings through two gear engagement, two first swing arms respectively with two second swing arm pin joints, be equipped with on the drive seat and be used for driving arbitrary one first swing arm wobbling drive division.

The drive portion includes the lead screw of being connected with the rotation of drive seat to and constitute screw-thread fit's slider with the lead screw, it has the connecting rod to articulate on the slider, the connecting rod is articulated with first swing arm, the one end of lead screw is equipped with twist grip.

The locking mechanism comprises a locking oil cylinder arranged on the positioning support seat, the cylinder body of the locking oil cylinder is hinged with the positioning support seat, a swing rod is fixedly connected to a rotating shaft of one second swing arm, the swing rod is hinged with a piston rod of the locking oil cylinder, the locking oil cylinder is a double-end oil cylinder, two piston cylinders of the locking oil cylinder are respectively connected with a stop valve through pipelines, the stop valve is provided with a first station and a second station, when the stop valve is positioned at the first station, the two piston cylinders of the locking oil cylinder are mutually communicated, and when the stop valve is positioned at the second station, the two piston cylinders of the locking oil cylinder are mutually disconnected; the L-shaped positioning groove is provided with a switching mechanism, and the switching mechanism is assembled to drive the stop valve to be switched from the first station to the second station when the first cushion pad reaches a preset compression amount.

The switching mechanism comprises a top rod movably arranged in the direction perpendicular to the first cushion pad, one end of the top rod extends to the inner side of the L-shaped positioning groove in a protruding mode, a round hole used for avoiding the top rod is formed in the first cushion pad, the length of the top rod extending in the L-shaped positioning groove in the protruding mode is smaller than the uncompressed thickness of the first cushion pad, the top rod is connected with a fixing block arranged on the outer wall of the L-shaped positioning groove in a sliding mode, a first elastic unit is arranged between the top rod and the fixing block, and the first elastic unit is assembled to enable the top rod to be driven to slide into the L-shaped positioning groove through elasticity; the switching mechanism further comprises a locking block fixedly connected with a valve core of the stop valve, the locking block is movably arranged along the vertical direction, a locking hole is formed in the locking block and comprises a round hole area and a flat hole area extending upwards along the edge of the round hole area, the diameter of the round hole area is larger than the width of the flat hole area, a second elastic unit used for driving the locking block to move downwards is arranged on the positioning support seat, a diameter-variable part with the diameter larger than that of the ejector rod is arranged on the ejector rod, the diameter of the diameter-variable part is larger than that of the flat hole area and smaller than or equal to that of the round hole area, and the diameter of the ejector rod is smaller than or equal to that of the flat hole area; when the first cushion pad is not compressed to the preset compression amount, the reducing portion is located in the round hole area, the stop valve is located at the first station, when the first cushion pad is compressed to the preset compression amount, the end portion of the photovoltaic panel can push the ejector rod in an extruding mode, the reducing portion is separated from the round hole area, the locking block slides downwards under the action of the second elastic unit, and the stop valve is switched to the second station.

The positioning support seats are provided with a plurality of L-shaped positioning grooves side by side, the L-shaped positioning grooves on the two positioning support seats are arranged in a one-to-one correspondence mode, and the switching mechanism is arranged in at least one L-shaped positioning groove.

And horizontal grooves corresponding to the L-shaped positioning grooves one by one are arranged on the top surface of the driving seat.

Two side walls adjacent to the inner wall of the first cushion pad in the L-shaped positioning groove are provided with second cushion pads made of elastic materials; and a third cushion pad made of elastic material is arranged on the bottom wall of the L-shaped positioning groove.

And a lifting handle is arranged on the locking block.

And universal casters are arranged at the bottoms of the positioning supporting seats.

The invention has the technical effects that:

in addition, a first cushion pad and a locking mechanism are arranged in the L-shaped positioning groove, the pressure of the carrier acting on the photovoltaic panel is judged according to the compression amount of the first cushion pad, the two positioning support seats can be automatically locked when the first cushion pad is compressed to a preset compression amount, the moderate pressure acting on the photovoltaic panel is ensured, the photovoltaic panel is effectively fixed, and the photovoltaic panel is prevented from being deformed due to overlarge pressure;

the invention adopts a rhombic connecting rod structure to realize the opening and closing of the two positioning supporting seats, and when the two positioning supporting seats are folded with the driving seat, each swing arm can be completely hidden in the positioning supporting seat and the driving seat, so that the large stroke is met, the occupied space is reduced, and the transportation cost is indirectly reduced;

according to the invention, the oil cylinder locking mechanism is adopted, and the oil cylinder can lock each swing arm at any position in the stroke, so that the linear locking in the true sense is realized, and the photovoltaic panel with any size can be fixed in a certain range;

the compression amount of the first cushion pad is indirectly judged by utilizing the compression amount of the ejector rod, and the ejector rod is of a rigid structure, so that the compression amount can be accurately transmitted to the stop valve, the stop valve is triggered to be switched among different stations, the mutual locking between the two positioning supporting seats is finally realized, the whole process is realized in a pure mechanical mode, electronic components are not needed, and the weather resistance of the device during outdoor operation is improved.

Drawings

Fig. 1 is a perspective view of a new energy power plant accessory transportation apparatus provided by an embodiment of the present invention;

FIG. 2 is an enlarged view of section I of FIG. 1;

FIG. 3 is a top view of a new energy power plant accessory transportation apparatus provided by an embodiment of the present invention;

FIG. 4 isbase:Sub>A sectional view taken along line A-A of FIG. 3;

FIG. 5 is a cross-sectional view B-B of FIG. 4;

FIG. 6 is a bottom view of a new energy power plant accessory transportation device provided by an embodiment of the present invention with the floor removed;

fig. 7 is a cross-sectional view C-C of fig. 6.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the following description is given in conjunction with the accompanying examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed.

As shown in fig. 1, a new energy power generation equipment accessory transportation device includes two positioning support seats 10 which are opened and closed along a horizontal direction, wherein L-shaped positioning grooves 11 are formed in the two positioning support seats 10, the L-shaped positioning grooves 11 on the two positioning support seats 10 are symmetrically arranged so that a photovoltaic panel can be vertically inserted between the two L-shaped positioning grooves 11, and a first cushion pad 111 is arranged on an inner wall of the L-shaped positioning groove 11, which is perpendicular to the opening and closing direction of the positioning support seats 10; and a locking mechanism configured to lock the two positioning support bases 10 to each other when the first cushion pad 111 reaches a preset compression amount so as to keep the two positioning support bases at a current distance. In addition, the first buffer cushion 111 and the locking mechanism are arranged in the L-shaped positioning groove 11, the pressure of the carrier acting on the photovoltaic panel is judged according to the compression amount of the first buffer cushion 111, when the first buffer cushion 111 is compressed to the preset compression amount, the two positioning support seats 10 can be automatically locked, the moderate pressure acting on the photovoltaic panel is ensured, the effective fixation of the photovoltaic panel is ensured, and the deformation of the photovoltaic panel caused by overlarge pressure is avoided. First blotter 111 can select elastic material such as silica gel pad, memory cotton, it sets up according to first blotter 111's elasticity coefficient to predetermine the decrement, and concrete numerical value can be confirmed according to experience or limited experiment, as long as guarantee can press from both sides the photovoltaic board tightly, can not make the photovoltaic board warp simultaneously again can.

Further, as shown in fig. 3 and 6, a driving mechanism for driving the two positioning support seats 10 to open and close is arranged between the two positioning support seats 10, the driving mechanism includes a driving seat 20 located between the two positioning support seats 10, two sides of the driving seat 20 are respectively provided with a telescopic unit connected to the two positioning support seats 10, the telescopic unit includes two first swing arms 21 pivoted to the driving seat 20, and two second swing arms 12 pivoted to the positioning support seats 10, the two first swing arms 21 are synchronously and reversely swung by the rotating shafts of the two first swing arms 21 through gear engagement, the two second swing arms 12 are synchronously and reversely swung by the rotating shafts of the two second swing arms 12 through gear engagement, the two first swing arms 21 are respectively pivoted to the two second swing arms 12, and a driving portion for driving any one of the first swing arms 21 to swing is arranged on the driving seat 20. Preferably, as shown in fig. 6, the driving portion includes a lead screw 24 rotatably connected to the driving base 20, and a slider 23 forming a threaded fit with the lead screw 24, a connecting rod 22 is hinged on the slider 23, the connecting rod 22 is hinged with the first swing arm 21, and a rotating handle 25 is provided at one end of the lead screw 24. The invention adopts a diamond-shaped connecting rod structure to realize the opening and closing of the two positioning supporting seats 10, and when the two positioning supporting seats 10 and the driving seat 20 are folded, each swing arm can be completely hidden inside the positioning supporting seat 10 and the driving seat 20, thereby satisfying the requirement of larger stroke, reducing the occupied space and further indirectly reducing the transportation cost.

Preferably, as shown in fig. 6 and 7, the locking mechanism includes a locking oil cylinder 14 disposed on the positioning support base 10, a cylinder body of the locking oil cylinder 14 is hinged to the positioning support base 10, a swing rod 13 is fixedly connected to a rotating shaft of one of the second swing arms 12, the swing rod 13 is hinged to a piston rod of the locking oil cylinder 14, the locking oil cylinder 14 is a double-headed oil cylinder, two piston cylinders of the locking oil cylinder 14 are respectively connected to a stop valve 15 through a pipeline, the stop valve 15 has a first station and a second station, when the stop valve 15 is located at the first station, the two piston cylinders of the locking oil cylinder 14 are communicated with each other, and when the stop valve 15 is located at the second station, the two piston cylinders of the locking oil cylinder 14 are disconnected with each other; the L-shaped positioning slot 11 is provided with a switching mechanism, which is configured to drive the stop valve 15 to switch from the first position to the second position when the first buffer pad 111 reaches a predetermined compression amount. According to the invention, the oil cylinder locking mechanism is adopted, and the oil cylinder can lock each swing arm at any position in the stroke, so that the linear locking in the real sense is realized, and the photovoltaic panel with any size can be fixed in a certain range.

Preferably, as shown in fig. 2, 4 and 5, the switching mechanism includes a top bar 16 movably disposed in a direction perpendicular to the first buffer pad 111, one end of the top bar 16 protrudes into the L-shaped positioning slot 11, the first buffer pad 111 is provided with a circular hole for avoiding the top bar 16, the length of the top bar 16 protruding into the L-shaped positioning slot 11 is less than the uncompressed thickness of the first buffer pad 111, the top bar 16 is slidably connected to a fixing block 19 disposed on the outer wall of the L-shaped positioning slot 11, a first elastic unit 191 is disposed between the top bar 16 and the fixing block 19, and the first elastic unit 191 is assembled such that the elastic force thereof can drive the top bar 16 to slide into the L-shaped positioning slot 11; the switching mechanism further comprises a locking block 17 fixedly connected with a valve core 151 of the stop valve 15, the locking block 17 is movably arranged along the vertical direction, a locking hole 171 is formed in the locking block 17, the locking hole 171 comprises a round hole area and a flat hole area extending upwards along the edge of the round hole area, the diameter of the round hole area is larger than the width of the flat hole area, a second elastic unit 18 used for driving the locking block 17 to descend is arranged on the positioning support seat 10, a diameter-changing portion with the diameter larger than that of the ejector rod 16 is arranged on the ejector rod 16, the diameter of the diameter-changing portion is larger than that of the flat hole area and smaller than or equal to that of the round hole area, and the diameter of the ejector rod 16 is smaller than or equal to that of the flat hole area; when the first cushion pad 111 is not compressed to the preset compression amount, the diameter-variable part is located in the circular hole area, the stop valve 15 is located at the first station, when the first cushion pad 111 is compressed to the preset compression amount, the end part of the photovoltaic panel pushes the ejector rod 16, the diameter-variable part is separated from the circular hole area, and the locking block 17 slides downwards under the action of the second elastic unit 18 to switch the stop valve 15 to the second station. The compressed amount of the first cushion pad 111 is indirectly judged by utilizing the compressed amount of the ejector rod 16, and the ejector rod 16 is of a rigid structure, so that the compressed amount can be accurately transmitted to the stop valve 15, the stop valve 15 is triggered to be switched between different stations, the mutual locking between the two positioning supporting seats 10 is finally realized, the whole process is realized by adopting a pure mechanical mode, electronic components are not needed, and the weather resistance of the device during outdoor operation is improved.

Preferably, a plurality of L-shaped positioning grooves 11 are arranged on the positioning support seats 10 side by side, the L-shaped positioning grooves 11 on the two positioning support seats 10 are arranged in a one-to-one correspondence manner, and the switching mechanism is arranged in at least one of the L-shaped positioning grooves 11. The top surface of the driving seat 20 is provided with horizontal grooves 26 corresponding to the L-shaped positioning grooves 11 one to one. Two side walls adjacent to the inner wall where the first cushion pad 111 is located in the L-shaped positioning groove 11 are provided with second cushion pads 112 made of elastic materials; a third cushion 113 made of elastic material is provided on the bottom wall of the L-shaped positioning slot 11. The locking block 17 is provided with a lifting handle 172. The bottom of the positioning support base 10 is provided with a universal caster 30.

The specific using process of the invention is as follows: during loading, the distance between the two positioning support seats 10 is adjusted to be slightly greater than the length of the photovoltaic panel, the photovoltaic panel can be conveniently inserted into each positioning groove, after the photovoltaic panel is fully inserted into each positioning groove, the two positioning support seats 10 are driven to be folded, the two ends of the photovoltaic panel can extrude the first cushion pad 111 at the moment, along with the continuous folding of the two positioning support seats 10, the end portion of the photovoltaic panel starts to contact the ejector rod 16 and extrude the ejector rod 16, when the first cushion pad 111 reaches a preset compression amount, the diameter-variable portion on the ejector rod 16 just breaks away from the locking hole 171, the locking block 17 moves downwards under the action of the second elastic unit 18 at the moment, the stop valve 15 is closed, the piston cavities on the two sides of the locking oil cylinder 14 cannot generate convection, the piston rods cannot stretch out and draw back, and further, and each swing arm is locked at the current position. In the uninstallation process, operating personnel at first lifts locking piece 17, makes stop valve 15 switch on, then drives two location supporting seats 10 and keeps away from each other again, thereby ejector pin 16 loses the extrusion of photovoltaic board and resets under the effect of first elastic unit 191, and reducing portion gets back to in the locking hole 171 again, can loosen locking piece 17 this moment, then continues to drive two location supporting seats 10 and keeps away from until can relax take out the photovoltaic board.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and amendments can be made without departing from the principle of the present invention, and these modifications and amendments should also be considered as the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims

1. The utility model provides a new forms of energy power generation equipment accessory conveyer which characterized in that: the photovoltaic panel positioning device comprises two positioning supporting seats which are mutually opened and closed along the horizontal direction, wherein L-shaped positioning grooves are arranged on the two positioning supporting seats, the L-shaped positioning grooves on the two positioning supporting seats are symmetrically arranged so that a photovoltaic panel can be vertically inserted between the two L-shaped positioning grooves, and a first cushion pad is arranged on one inner wall, perpendicular to the opening and closing direction of the positioning supporting seats, in each L-shaped positioning groove; the first cushion pad is assembled to be capable of achieving the preset compression amount, and the two positioning support seats can be locked mutually to keep the current distance between the two positioning support seats; a driving mechanism for driving the two positioning supporting seats to open and close is arranged between the two positioning supporting seats, the driving mechanism comprises a driving seat positioned between the two positioning supporting seats, telescopic units connected to the two positioning supporting seats are respectively arranged on two sides of the driving seat, each telescopic unit comprises two first swing arms pivoted with the driving seat and two second swing arms pivoted with the positioning supporting seats, and the two first swing arms are respectively pivoted with the two second swing arms; the locking mechanism comprises a locking oil cylinder arranged on the positioning support seat, the cylinder body of the locking oil cylinder is hinged with the positioning support seat, a swing rod is fixedly connected to a rotating shaft of one second swing arm, the swing rod is hinged with a piston rod of the locking oil cylinder, the locking oil cylinder is a double-end oil cylinder, two piston cylinders of the locking oil cylinder are respectively connected with a stop valve through pipelines, the stop valve is provided with a first station and a second station, when the stop valve is positioned at the first station, the two piston cylinders of the locking oil cylinder are mutually communicated, and when the stop valve is positioned at the second station, the two piston cylinders of the locking oil cylinder are mutually disconnected; the L-shaped positioning groove is provided with a switching mechanism, and the switching mechanism is assembled to drive the stop valve to be switched from the first station to the second station when the first cushion pad reaches a preset compression amount.

2. The new energy power plant accessory transportation device of claim 1, wherein: the rotating shafts of the two first swing arms are meshed through gears to enable the two first swing arms to synchronously swing in a reverse direction, the rotating shafts of the two second swing arms are meshed through the two gears to enable the two second swing arms to synchronously swing in a reverse direction, and a driving portion used for driving any one first swing arm to swing is arranged on the driving seat.

3. The new energy power plant accessory transportation device of claim 2, wherein: the drive portion includes the lead screw of being connected with the rotation of drive seat to and constitute screw-thread fit's slider with the lead screw, it has the connecting rod to articulate on the slider, the connecting rod is articulated with first swing arm, the one end of lead screw is equipped with twist grip.

4. The new energy power plant accessory transportation device of claim 1, wherein: the switching mechanism comprises a top rod movably arranged in the direction perpendicular to the first cushion pad, one end of the top rod extends to the inner side of the L-shaped positioning groove in a protruding mode, a round hole used for avoiding the top rod is formed in the first cushion pad, the length of the top rod extending into the L-shaped positioning groove in a protruding mode is smaller than the uncompressed thickness of the first cushion pad, the top rod is connected with a fixing block arranged on the outer wall of the L-shaped positioning groove in a sliding mode, a first elastic unit is arranged between the top rod and the fixing block, and the first elastic unit is assembled to enable the top rod to slide into the L-shaped positioning groove under the action of elasticity of the first elastic unit; the switching mechanism further comprises a locking block fixedly connected with a valve core of the stop valve, the locking block is movably arranged along the vertical direction, a locking hole is formed in the locking block and comprises a round hole area and a flat hole area extending upwards along the edge of the round hole area, the diameter of the round hole area is larger than the width of the flat hole area, a second elastic unit used for driving the locking block to move downwards is arranged on the positioning support seat, a diameter-variable portion with the diameter larger than that of the ejector rod is arranged on the ejector rod, the diameter of the diameter-variable portion is larger than that of the flat hole area and smaller than or equal to that of the round hole area, and the diameter of the ejector rod is smaller than or equal to that of the flat hole area; when the first cushion pad is not compressed to the preset compression amount, the diameter-variable part is located in the round hole area, the stop valve is located at the first station, when the first cushion pad is compressed to the preset compression amount, the end part of the photovoltaic panel can push the ejector rod in an extruding mode, the diameter-variable part is separated from the round hole area, the locking block slides downwards under the action of the second elastic unit, and the stop valve is switched to the second station.

5. The new energy power plant accessory transportation device of claim 1, wherein: the positioning support seats are provided with a plurality of L-shaped positioning grooves side by side, the L-shaped positioning grooves on the two positioning support seats are arranged in a one-to-one correspondence mode, and the switching mechanism is arranged in at least one L-shaped positioning groove.

6. The new energy power plant accessory transportation device of claim 5, wherein: and horizontal grooves corresponding to the L-shaped positioning grooves one by one are arranged on the top surface of the driving seat.

7. The new energy power generation equipment accessory transportation device of claim 1, wherein: two side walls, adjacent to the inner wall where the first cushion pad is located, in the L-shaped positioning groove are provided with second cushion pads made of elastic materials; a third cushion pad made of elastic material is arranged on the bottom wall of the L-shaped positioning groove.

8. The new energy power generation equipment accessory transportation device of claim 4, wherein: and a lifting handle is arranged on the locking block.

9. The new energy power plant accessory transportation device of claim 1, wherein: and universal casters are arranged at the bottoms of the positioning supporting seats.