CN219078258U - Device for transporting house roof photovoltaic assembly of steel structure factory - Google Patents

Abstract

The utility model provides a steel construction factory building roof photovoltaic module device of transporting, includes guide rail and sliding connection's device main part on the guide rail, and the device main part includes bottom frame and supporting component, and supporting component's front is "A" font structure and bottom fixed connection is at bottom frame's middle part, and supporting component's surface fixedly connected with first rubber protection layer. The photovoltaic module carrying device is simple in structure and convenient to manufacture, the photovoltaic module is stably carried through the bottom frame and the supporting component, and a plurality of photovoltaic modules can be transported each time by manually pushing or pulling the device main body, so that the installation efficiency of the photovoltaic module is improved, and the problem that manual back transport of the modules wastes time and labor is solved.

Description

Device for transporting house roof photovoltaic assembly of steel structure factory

Technical Field

The utility model belongs to the technical field of photovoltaic module transportation equipment, and particularly relates to a house roof photovoltaic module transporting device of a steel structure factory.

Background

The roof distributed photovoltaic project is a novel power generation and energy comprehensive utilization project for building a photovoltaic power generation system on a building roof and connecting the power generation system to a public power grid, and the novel power generation and energy comprehensive utilization project is used for supplying power to nearby users together with the public power grid, and has the characteristics of low cost, safety and high efficiency.

The roof of the steel structure factory building is large in general area and wide, is not influenced by the orientation of a building, has long illumination time, and is an ideal place for installing a photovoltaic power generation system. The transportation mode of the general photovoltaic module is as follows: after the assembly arrives at the truck, the assembly is hoisted to a roof by an automobile crane, and then is manually carried to an installation position. In this kind of transportation mode, the automobile crane can only hoist and mount the subassembly to roof parapet department, and the subassembly transport of surplus position still needs to rely on the manual work to accomplish, and not only the labour demand is big, and the construction progress is slow moreover, and the subassembly quantity that once can carry is limited, leads to the installation effectiveness low, and the subassembly can't in time transport to the mounted position. In addition, there is also great construction risk in the manual handling, and the subassembly appears the damage easily in the delivery connects the in-process.

Disclosure of Invention

The utility model aims to solve the problems, and provides a device for transporting the top photovoltaic modules of a house in a steel structure factory, which can move a plurality of photovoltaic modules to mounting positions along a guide rail at one time, thereby saving manpower and improving mounting efficiency.

The utility model provides a steel construction factory building roof photovoltaic module device of transporting, includes guide rail and sliding connection's device main part on the guide rail, and the device main part includes bottom frame and supporting component, and supporting component's front is "A" font structure and bottom fixed connection is at bottom frame's middle part, and supporting component's surface fixedly connected with first rubber protection layer.

The further technical scheme is as follows: the bottom frame comprises a transverse bottom rod and a longitudinal bottom rod, the transverse bottom rod and the longitudinal bottom rod are sequentially and fixedly connected to form a rectangular frame body, and the upper surface of the transverse bottom rod is fixedly connected with a second rubber protection layer.

The further technical scheme is as follows: a plurality of clamping grooves are formed in the second rubber protective layer at equal intervals.

The further technical scheme is as follows: the support assembly comprises two square support frames with the top ends connected and the bottom ends fixedly connected to the transverse bottom rod respectively, and a reinforcing rod is further arranged in the support frames.

The further technical scheme is as follows: the support frame is made of square tubes with the cross sections of 30mm multiplied by 30 mm.

The further technical scheme is as follows: four track pulleys matched with the guide rail are uniformly distributed on the lower surface of the bottom frame.

The further technical scheme is as follows: the guide rail is welded from square steel with sections of 40mm by 20mm and 20mm by 20mm to form a ladder-shaped rail.

The beneficial effects of the utility model are as follows:

1. the photovoltaic module carrying device is simple in structure and convenient to manufacture, the photovoltaic module is stably carried through the bottom frame and the supporting component, and a plurality of photovoltaic modules can be transported each time by manually pushing or pulling the device main body, so that the installation efficiency of the photovoltaic module is improved, and the problem that manual back transport of the modules wastes time and labor is solved.

2. According to the photovoltaic module, the stability of the photovoltaic module in transportation is improved by arranging the first rubber protection layer and the second rubber protection layer, and the clamping grooves are arranged on the second rubber protection layer, so that a plurality of photovoltaic modules can be separated, limited and prevented from being collided with each other and damaged during transportation.

Drawings

FIG. 1 is a front elevational view of the present utility model;

FIG. 2 is a side elevational view of the present utility model;

fig. 3 is a top view of the structure of the present utility model.

In the figure:

1. the bottom frame, 2, supporting component, 3, first rubber protection layer, 4, horizontal sill bar, 5, vertical sill bar, 6, second rubber protection layer, 7, screens recess, 8, support frame, 9, reinforcing rod, 10, guide rail, 11, track pulley, 12, screw.

Detailed Description

The utility model will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic representations which merely illustrate the basic structure of the utility model and therefore show only the structures which are relevant to the utility model.

As shown in fig. 1-3, a steel structure factory house roof photovoltaic module transporting device comprises a guide rail 10 and a device main body which is connected to the guide rail 10 in a sliding mode, wherein the device main body comprises a bottom frame 1 and a supporting component 2, the front face of the supporting component 2 is of an A-shaped structure, the bottom end of the supporting component is fixedly connected to the middle of the bottom frame 1, and a first rubber protection layer 3 is fixedly connected to the outer surface of the supporting component 2. The first rubber blanket 3 is preferably secured to the support assembly 2 by screws 12. In use, a number of photovoltaic modules are placed on the bottom frame 1 and tilted against the support module 2. During transportation, the device body is pushed along the guide rail 10 to transport the photovoltaic module to the mounting position.

The bottom frame 1 comprises a transverse bottom rod 4 and a longitudinal bottom rod 5, the transverse bottom rod 4 and the longitudinal bottom rod 5 are sequentially and fixedly connected to form a rectangular frame body, and the transverse bottom rod 4 and the longitudinal bottom rod 5 can be made of four 10# channel steel. The upper surface of the transverse bottom rod 4 is fixedly connected with a second rubber protection layer 6 for further protecting the photovoltaic module and improving the stability during transportation. The second rubber blanket 6 is fixed to the transverse bottom bar 4 by screws.

A plurality of clamping grooves 7 are formed in the second rubber protection layer 6 at equal intervals, the clamping grooves 7 can separate and limit a plurality of photovoltaic modules, the photovoltaic modules are prevented from shaking during transportation, and the photovoltaic modules are protected from being damaged. 4-12 clamping grooves 7 can be arranged.

The support assembly 2 comprises two square support frames 8, wherein the top ends of the square support frames are connected with each other, the bottom ends of the square support frames are fixedly connected to the transverse bottom rods 4 respectively, reinforcing rods 9 are further arranged in the support frames 8, and the stability of the support assembly 2 can be enhanced through the reinforcing rods 9. Specifically, the support frame 8 can be manufactured by adopting square tubes with the specification of 30mm multiplied by 30 mm.

Four track pulleys 11 matched with the guide rail 10 are uniformly distributed on the lower surface of the bottom frame 1, and the bottom frame is in sliding connection with the guide rail 10 through the track pulleys 11. Specifically, the guide rail 10 is a rail in a ladder shape formed by welding square steel of 40mm multiplied by 20mm and 20mm multiplied by 20mm, and the guide rail 10 is paved on color steel tiles of a roof of a steel structure factory building, so that a device main body can slide and walk on the roof along the guide rail 10.

With the above-described preferred embodiments according to the present utility model as an illustration, the above-described descriptions can be used by persons skilled in the relevant art to make various changes and modifications without departing from the scope of the technical idea of the present utility model. The technical scope of the present utility model is not limited to the description, but must be determined according to the scope of claims.

Claims (7)

1. The utility model provides a steel construction factory building roof photovoltaic module device of transporting, its characterized in that, including guide rail and sliding connection device main part on the guide rail, the device main part includes bottom frame and supporting component, and supporting component's front is "A" font structure and bottom fixed connection is at bottom frame's middle part, and supporting component's surface fixedly connected with first rubber protection layer.

2. The steel structure factory building roof photovoltaic module transporting device according to claim 1, wherein the bottom frame comprises a transverse bottom rod and a longitudinal bottom rod, the transverse bottom rod and the longitudinal bottom rod are sequentially and fixedly connected to form a rectangular frame, and a second rubber protection layer is fixedly connected to the upper surface of the transverse bottom rod.

3. The steel structure factory building roof photovoltaic module transporting device according to claim 2, wherein a plurality of clamping grooves are formed in the second rubber protection layer at equal intervals.

4. The steel structure factory building roof photovoltaic module transporting device according to claim 1, wherein the supporting assembly comprises two square supporting frames with top ends connected and bottom ends fixedly connected to the transverse bottom rods respectively, and reinforcing rods are further arranged in the supporting frames.

5. The steel structure factory building roof photovoltaic module transporting device according to claim 4, wherein the supporting frame is made of square tubes with the cross sections of 30mm multiplied by 30 mm.

6. The steel structure factory building roof photovoltaic module transporting device according to claim 1, wherein four track pulleys matched with the guide rails are uniformly distributed on the lower surface of the bottom frame.

7. The steel structure factory building roof photovoltaic module transporting device according to claim 6, wherein the guide rail is formed into a ladder-shaped rail by welding square steel with a cross section of 40mm x 20mm and 20mm x 20 mm.

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