CN215287862U - Photovoltaic power plant subassembly transportation equipment - Google Patents

Abstract

The utility model relates to a photovoltaic power plant subassembly transfer equipment, including first swing arm, second swing arm, rocking arm, connecting rod, flat crotch, first flat crotch, the flat crotch of second, wherein the one end both sides of flat crotch articulate respectively in the one end of first swing arm and second swing arm, and the other end of flat crotch is articulated with the one end of connecting rod, and the other end of connecting rod is articulated with the one end of rocking arm, and the both sides at flat crotch are fixed to first flat crotch and second flat crotch. The utility model provides a mountain region and complicated topography subassembly transport difficult, with high costs problem transports efficiently, has reduced artifical intensity and cost, has guaranteed the quality of subassembly in the transportation, is a design benefit, excellent performance, convenient and practical's photovoltaic power plant subassembly transfer apparatus.

Description

Photovoltaic power plant subassembly transportation equipment

Technical Field

The utility model relates to a photovoltaic power plant subassembly transfer apparatus, especially a photovoltaic power plant subassembly transfer apparatus who is applied to mountain region and complicated topography belongs to photovoltaic power plant subassembly transfer apparatus's innovation technique.

Background

At present, most of poverty-alleviation photovoltaic power stations are concentrated in mountain areas, and compared with photovoltaic power stations in plain areas, the transportation of photovoltaic modules and materials is a difficult point for building the mountain photovoltaic power stations. Because of its topography is complicated and the road is narrow, the large truck that transports the material generally just stops in the place far away from the job site, need continue to transport to the job site with the help of small-size vehicle or manpower, nevertheless uses these two kinds of modes to transport and all have certain defect: when the small-sized vehicle is transported, the problems of high forklift transferring difficulty and high cost exist; the problem of there is artifical inefficiency, intensity again when the manpower is transported, has very big probability to appear the subassembly and collide with the problem moreover in the transportation, both extravagant manpower and materials can cause the unable in service behavior of subassembly damage again.

Disclosure of Invention

An object of the utility model is to consider above-mentioned problem and provide a photovoltaic power plant subassembly transfer apparatus. The utility model provides a mountain region and complicated topography subassembly transport difficult, with high costs problem transports efficiently, has reduced artifical intensity and cost, has guaranteed the quality of subassembly in the transportation.

The technical scheme of the utility model is that: the utility model discloses a photovoltaic power plant subassembly transfer apparatus, including first swing arm, second swing arm, rocking arm, connecting rod, flat crotch, first flat crotch, the flat crotch of second, wherein the one end both sides of flat crotch articulate respectively in the one end of first swing arm and second swing arm, and the other end of flat crotch is articulated with the one end of connecting rod, and the other end of connecting rod is articulated with the one end of rocking arm, and the both sides at the flat crotch are fixed to first flat crotch and the flat crotch of second.

The utility model discloses can solve mountain region and complicated topography subassembly and transport difficult, with high costs problem, transport efficiently, reduce artifical intensity and cost, guarantee the quality of subassembly in the transportation, be a simple structure, convenient and practical's photovoltaic power plant subassembly transfer equipment.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the bottom fork connection structure of the present invention;

fig. 3 is a schematic view of the first fork strip and the second fork strip of the present invention being fixed by pins passing through pin holes formed therein and tooth grooves formed in the bottom fork frame, respectively;

fig. 4 is a schematic view of the fixed purlin of the flat fork frame of the present invention hinged to one end of the connecting rod, and the other end of the connecting rod hinged to the movable arm through the hinge shaft and the hinge hole;

fig. 5 is a schematic structural view of the flat fork strip of the present invention;

fig. 6 is a schematic view of the bottom fork strip of the present invention connected to the bottom fork frame through the clamping groove.

Detailed Description

Example (b):

the utility model discloses a structural schematic diagram is shown in fig. 1, the utility model discloses a photovoltaic power plant subassembly transfer device, including first swing arm 2, second swing arm 3, rocking arm 4, connecting rod 5, flat fork 6, first flat fork strip 7, the flat fork strip 8 of second, wherein the one end both sides of flat fork 6 articulate respectively in the one end of first swing arm 2 and second swing arm 3, and the other end of flat fork 6 is articulated with the one end of connecting rod 5, and the other end of connecting rod 5 is articulated with the one end of rocking arm 4, and the both sides at flat fork 6 are fixed to first flat fork strip 7 and the flat fork strip 8 of second. When in use, the utility model discloses install on loader fuselage 1, make the other end of first swing arm 2, second swing arm 3 be connected with loader fuselage 1, the other end of rocking arm 4 is connected with the power unit who installs on loader fuselage 1, and power unit can be cylinder or hydro-cylinder.

In this embodiment, both sides of one end of the fork 6 are respectively hinged to the first boom 2 and the second boom 3 through hinge shafts.

In this embodiment, the first fork 7 and the second fork 8 are right-angled structures, the tail ends of the first fork 7 and the second fork 8 are provided with a clamping groove 15, and the first fork 7 and the second fork 8 are embedded on two sides of a fixing purlin 61 of the bottom fork 6 through the clamping groove 15.

In this embodiment, the fixing purlin of the bottom fork 6 is provided with a tooth socket 62, and the first and second forks 7 and 8 are fixed by pins passing through the pin holes 9 and 10 provided thereon and the tooth socket 62 provided on the bottom fork 6, respectively. When the positions of the first fork strip 7 and the second fork strip 8 need to be adjusted, the pins in the pin holes 9 and 10 can be pulled out, and the horizontal movement is only needed.

In this embodiment, two symmetrical hinge holes 11 and 12 are welded at two ends of the bottom of the flat fork frame 6, and the hinge shaft passes through the hinge holes 11 and 12 to hinge the first movable arm 2 and the second movable arm 3.

In addition, a hinge hole 13 is welded in the middle of the back surface of the fixed purline 61 of the fork carriage 6, a hinge shaft passes through the hinge hole 13 in the middle of the back surface of the fixed purline 61 and is hinged with one end of the connecting rod 5, and the other end of the connecting rod 5 is hinged with the movable arm 4 through the hinge shaft and the hinge hole 14.

The utility model provides a photovoltaic module of mountain region and complicated topography transports the current situation of consuming time power, with the improvement of very big degree transportation efficiency, avoids transporting the condition that the in-process subassembly collided with simultaneously, guarantees the integrality of subassembly, and greatly reduced cost of transportation ensures the transportation of the high-efficient and safety of subassembly, lays good basis for the normal construction of mountain region photovoltaic engineering. The utility model relates to a simple structure, convenient and practical's photovoltaic power plant subassembly transfer apparatus.

In this embodiment, the utility model discloses rely on the weight of loader fuselage 1 and good mountain region and complicated topography adaptation and working ability, usable first fork strip 7 and second fork strip 8 pick up subassembly case or other goods that become the case and bundle, then rely on flat crotch frame 6 to guarantee to transport the stability of in-process, the play, the dress of goods, fortune, put, unanimous with former loader theory of operation.

The working principle of the embodiment is as follows: in a photovoltaic project with complex mountainous regions and terrains, unloading a component box from a large truck, lifting a first movable arm 2 and a second movable arm 3 by the equipment, adjusting a rocker arm 4 and a connecting rod 5 when the equipment is lifted to a tray position at the bottom of the component box, enabling a first fork strip 7 and a second fork strip 8 to be horizontal, then moving a loader body 1 forwards, inserting the first fork strip 7 and the second fork strip 8 into the bottom of the component tray, adjusting the first movable arm 2 and the second movable arm 3 to lift the tray, moving the loader body 1 to be close to a transfer small-sized vehicle, moving the loader body to a proper position, descending the first movable arm 2 and the second movable arm 3, and placing the component box in the small-sized vehicle; when the transfer distance is short, the system can be directly conveyed to a construction point; when the component box is placed, the first movable arm 2 and the second movable arm 3 are lowered to the position of about 5 cm from the ground, the rocker arm 4 and the connecting rod 5 are adjusted, the heads of the first fork strip 7 and the second fork strip 8 are slightly inclined to the ground, and the equipment is moved backwards, so that the component box is stably conveyed to a construction point.

Claims (6)

1. The utility model provides a photovoltaic power plant subassembly transfer equipment which characterized in that includes first swing arm, second swing arm, rocking arm, connecting rod, flat fork frame, first fork strip, second fork strip, wherein the one end both sides of flat fork frame articulate the one end at first swing arm and second swing arm respectively, and the other end of flat fork frame is articulated with the one end of connecting rod, and the other end of connecting rod articulates with the one end of rocking arm, and first fork strip and second fork strip are fixed in the both sides of flat fork frame.

2. The photovoltaic power plant module transfer apparatus according to claim 1, wherein the flat fork carriage is hinged at both sides of one end thereof to the first boom and the second boom through hinge shafts, respectively.

3. The photovoltaic power plant component transfer equipment of claim 1 or 2, wherein the first and second forks are of a right-angle structure, the tail ends of the first and second forks are provided with clamping grooves, and the first and second forks are embedded on two sides of a fixing purlin provided on the fork frame through the clamping grooves.

4. The photovoltaic power plant module transfer apparatus of claim 3 wherein the stationary purlins of the fork arms are provided with splines and the first and second forks are secured by pins passing through pin holes provided therein and splines provided on the fork arms.

5. The photovoltaic power plant component transfer device according to claim 4, wherein the middle part of the fixed purline of the flat fork frame is provided with a hinge hole, the flat fork frame is hinged with one end of the connecting rod by a hinge shaft passing through the hinge hole in the middle part of the fixed purline, and the other end of the connecting rod is hinged with the movable arm by the hinge shaft and the hinge hole.

6. The photovoltaic power plant module transferring device according to claim 2, characterized in that the bottom of the fork carriage 6 is provided with two symmetrical hinge holes at both ends, and the fork carriage is hinged to the first movable arm and the second movable arm through the hinge shaft passing through the two hinge holes provided at both ends of the bottom.

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