CN220043323U - Four pan assembly lock for flexible inhaul cable photovoltaic assembly fixing system - Google Patents

Abstract

The utility model provides a four-pan assembly lock for a flexible inhaul cable photovoltaic assembly fixing system, which is characterized by comprising a positioning clamping plate, a base plate, a positioning pressing plate, a steel strand clamping plate and an outer bolt, wherein the positioning clamping plate is arranged at the lower side of the positioning pressing plate, the steel strand clamping plate is arranged at the lower side of the positioning clamping plate, fixing holes are formed in the upper sides of the positioning clamping plate, the positioning pressing plate and the steel strand clamping plate, the outer bolt penetrates through the fixing holes to fix the positioning clamping plate, the base plate, the positioning pressing plate and the steel strand clamping plate together, the base plate is fixed before the outer bolt penetrates through the fixing clamping plate, and nuts are fixed at the lower side of the outer bolt. The utility model uses the four locking pieces of the locating clamping plate, the backing plate, the locating pressing plate and the steel strand clamping plate to mutually cooperate to form a complete assembly lock, and when in use, the experiment school tightly cooperates to firmly fix the assembly on the steel strand, and the stability in all directions meets the design and use requirements.

Description

Four pan assembly lock for flexible inhaul cable photovoltaic assembly fixing system

Technical Field

The utility model relates to the field of photovoltaic supports, in particular to a four-pan assembly lock for a flexible stay cable photovoltaic assembly fixing system.

Background

When photovoltaic module installs on flexible support's cable, need use the connector to carry out fixed connection with photovoltaic module frame and cable to with photovoltaic module fixed mounting on adjacent cable, mainly adopt U-shaped bolt to connect to the connection between photovoltaic module and the cable at present, namely every photovoltaic module is fixed connection between a plurality of U-shaped bolts and the cable respectively all around, this kind of connected mode all belongs to independent installation to every photovoltaic module, if certain photovoltaic module mounting structure appears not hard up wherein, photovoltaic module will follow cable axial displacement, the photovoltaic module of striking adjacent both sides causes the subassembly to damage. For the connector patent of the photovoltaic module with the patent number of CN202122652698.3 and the flexible support steel cable, the problem that the connector can only independently fix the photovoltaic module on the steel cable is solved. The connecting plate is provided with two frame connecting parts and a bottom plate mounting part, wherein the two frame connecting parts are respectively positioned at two sides of the bottom plate mounting part, and the frame of the photovoltaic module is suitable for being fixedly connected with the frame connecting parts; the connector of the photovoltaic module and the flexible support steel cable can simultaneously connect two adjacent photovoltaic module frames together while being connected with the steel cable, so that the adjacent photovoltaic module is prevented from being impacted by axial movement when a certain photovoltaic module loosens on the steel cable.

Although the problem of the prior art is solved, the assembly lockset has the limitations, is complicated to install and has an unattractive appearance; the connector of the patent has poor displacement limiting capability and cannot automatically adjust the position; the connector assembly of this patent has a small contact area and poor resistance to wind damage.

Disclosure of Invention

According to the technical problems, the four-pan assembly lock for the flexible inhaul cable photovoltaic assembly fixing system is characterized by comprising a positioning clamping plate, a base plate, a positioning pressing plate, a steel strand clamping plate and an outer bolt, wherein the positioning clamping plate is arranged on the lower side of the positioning pressing plate, the steel strand clamping plate is arranged on the lower side of the positioning clamping plate, fixing holes are formed in the upper sides of the positioning clamping plate, the positioning pressing plate and the steel strand clamping plate, the outer bolt penetrates through the fixing holes to fix the positioning clamping plate, the base plate, the positioning pressing plate and the steel strand clamping plate together, the base plate is fixed before the outer bolt penetrates through the fixing clamping plate, and nuts are fixed on the lower side of the outer bolt.

The upper side of the positioning clamping plate is provided with two folds, and a reserved hole is formed between the two folds.

The device also comprises an upward pressing structure, wherein the upward pressing structure comprises an inner bolt, a pressing block and a middle pressing block, and the inner bolt penetrates through the pressing block, the middle pressing block and is fixed on the positioning clamping plate.

The pressing block is of an inverted concave structure.

The steel strand clamping plate is provided with a groove on the upper side, and the groove corresponds to the type of the steel strand.

The positioning pressing plate is of a T-shaped structure.

The outer bolt is an outer hexagon bolt.

The inner bolt is an inner hexagon bolt.

The fixed holes on the positioning pressing plate are strip holes.

The beneficial effects of the utility model are as follows: the utility model uses the locating clamping plate, the backing plate, the locating pressing plate and the steel strand clamping plate to mutually cooperate to form a complete assembly lock, when in use, the experiment school tightly cooperates to firmly fix the assembly on the steel strand, and the stability in all directions meets the design and use requirements; the utility model has good positioning performance when in use, and better limits the displacement of the photovoltaic panel.

The utility model comprises the backing plate, the thickness of the backing plate is the same as that of the assembly, and the gap between the positioning pressing plate and the positioning clamping plate is filled, so that the pressing plate, the assembly frame and the positioning clamping plate are tightly attached and fixed more firmly.

The positioning holes of the positioning pressing plate are strip holes, and the positioning pressing plate has adjustability in fixing and can adapt to various photovoltaic modules; after the photovoltaic module is used, the photovoltaic module is integrally and flatly installed, the stability in all directions is reliable, the deformation is small, and the hidden cracking of the module is reduced.

Drawings

Fig. 1 is an exploded view of the present utility model without the push-up structure.

FIG. 2 is a schematic diagram of the present utility model.

FIG. 3 is a cross-sectional view of the utility model taken along the direction A-A in FIG. 2.

Fig. 4 is a cross-sectional view of the utility model in the direction B-B of fig. 2.

Fig. 5 is a schematic diagram of embodiment 2 of the present utility model.

FIG. 6 is a schematic diagram of embodiment 3 of the present utility model.

As shown in the figure, a positioning clamping plate 1, a backing plate 2, a positioning pressing plate 3, a steel strand clamping plate 4, an outer bolt 5, an inner bolt 6, a pressing block 7 and a middle pressing block 8.

Detailed Description

The utility model is further elucidated on the basis of the drawings:

example 1

The utility model provides a four-pan assembly lock for a flexible inhaul cable photovoltaic assembly fixing system, which is characterized by comprising a positioning clamping plate, a base plate, a positioning pressing plate, a steel strand clamping plate and an outer bolt, wherein the positioning clamping plate is arranged at the lower side of the positioning pressing plate, the steel strand clamping plate is arranged at the lower side of the positioning clamping plate, fixing holes are formed in the upper sides of the positioning clamping plate, the positioning pressing plate and the steel strand clamping plate, the outer bolt penetrates through the fixing holes to fix the positioning clamping plate, the base plate, the positioning pressing plate and the steel strand clamping plate together, the base plate is fixed before the outer bolt penetrates through the fixing clamping plate, and nuts are fixed at the lower side of the outer bolt. The upper side of the positioning clamping plate is provided with two folds, and a reserved hole is formed between the two folds. The steel strand clamping plate is provided with a groove on the upper side, and the groove corresponds to the type of the steel strand. The positioning pressing plate is of a T-shaped structure. The outer bolt is an outer hexagon bolt. The inner bolt is an inner hexagon bolt. The fixed holes on the positioning pressing plate are strip holes.

The locating clamping plate is a main component of the assembly lock, the connection of other small pieces is fixed on the foundation of the assembly lock, the space between the frames of the assembly can be well controlled by the two middle folded edges, and the two middle reserved holes also provide positions for fixing partial middling pressure.

The backing plate, its thickness is unanimous with subassembly frame thickness, has filled the clearance of location clamp plate and location cardboard to make clamp plate, subassembly frame, location cardboard laminating tighter, it is more firm to fix.

The locating pressing plate, the uppermost part of subassembly lock compresses tightly the subassembly frame, and auxiliary locating cardboard locking subassembly frame limits its displacement, and it is rectangular hole that its upper portion was opened, can adapt to the size of different subassembly frames, accomplishes better regulation, the biggest fastening.

The steel strand clamping plate is characterized in that a groove formed in the middle of the steel strand clamping plate corresponds to a specific steel strand model, so that the steel strand clamping plate can be attached to a larger area, and the steel strand clamping plate is connected with other parts through screws to fix the frame of the assembly on the steel strand better.

Example 2

As shown in fig. 5, when the photovoltaic module is not in use, the photovoltaic module is tiled on the steel strands, and the positioning clamping plate is arranged between the photovoltaic module and the steel strands. The backing plate and the positioning pressing plate are placed on the positioning clamping plate in sequence, and the positioning pressing plate is adjusted to enable the backing plate and the positioning pressing plate to press the frame of the photovoltaic module better. Placing the steel strand clamping plate at the bottom of the steel strand, enabling the groove of the steel strand clamping plate to be tightly attached to the steel strand, and aligning the holes with the holes of the upper parts. And installing the four outer hexagon bolts in sequence, and locking and fixing.

The scheme is based on a positioning clamping plate and comprises a plurality of locking pieces. The locating clamping plate is a first installed locking piece, plays a role of a frame, is installed between the assembly and the steel stranded wires, and the bent edges of the middle of the locating clamping plate are well separated from the assembly arrangement, so that the locating clamping plate keeps a certain safety distance. The backing plate is the part that the second needs to install, places it on the location cardboard, aligns the fixed orifices can, its surface can flush with the inboard hem of subassembly, makes clamp plate and subassembly area of contact bigger, and the stability of subassembly also can be better. The locating pressing plate is installed on the base plate when in use, and the T-shaped structure is designed, so that the end head can obtain larger contact area with the assembly, and the upper side of the locating pressing plate is provided with a strip-shaped opening, so that the locating pressing plate can adapt to the specification and the size of various assemblies. The assembly is firmly secured to the steel strand by cooperation with other locks. The steel strand clamping plate is fixed below the steel strands when in use, and the grooves formed in the middle of the steel strand clamping plate correspond to specific steel strand types, so that the steel strand clamping plate can be attached in a larger area. Four bolts are used to pass through four holes at four corners to connect several locking pieces together to form a complete assembly lock. Two holes are reserved in the middle of the positioning clamping plate, and are reserved holes for pressing blocks in installation. The number of middle-pressure blocks can be adjusted according to the wind pressure.

Example 3

As shown in fig. 6, when the pressing structure is used, the photovoltaic module is tiled on the steel strands, and the positioning clamping plate is placed between the photovoltaic module and the steel strands. The backing plate and the positioning pressing plate are placed on the positioning clamping plate in sequence, and the positioning pressing plate is adjusted to enable the backing plate and the positioning pressing plate to press the frame of the photovoltaic module better. Placing the steel strand clamping plate at the bottom of the steel strand, enabling the groove of the steel strand clamping plate to be tightly attached to the steel strand, and aligning the holes with the holes of the upper parts. And installing the four outer hexagon bolts in sequence, and locking and fixing. The middle pressing block is placed between two photovoltaic modules, then a groove of the pressing block is clamped between the two photovoltaic modules, an inner six bolt penetrates through a gasket to be inserted into a fixing hole on the upper side of the groove, and then the middle pressing block is inserted into a reserved hole of the positioning clamping plate and is locked and fixed through a nut.

The foregoing has shown and described the basic principles and main features of the present utility model and the advantages of the present utility model. Various components mentioned in the present utility model are common in the art, and it should be understood by those skilled in the art that the present utility model is not limited by the above embodiments, and the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications can be made in the present utility model without departing from the spirit and scope of the utility model, which is defined in the claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (8)

1. Four pan assembly locks for flexible cable photovoltaic module fixing system, its characterized in that is including location cardboard, backing plate, location clamp plate, steel strand wires cardboard, outer bolt, the location clamp plate downside is provided with the location cardboard, location cardboard downside is provided with the steel strand wires cardboard, the fixed orifices has been seted up to location cardboard, location clamp plate, steel strand wires cardboard upside, outer bolt passes the fixed orifices and fixes together location cardboard, backing plate, location clamp plate, steel strand wires cardboard, be fixed with the backing plate before outer bolt passes fixed cardboard, outer bolt downside is fixed with the nut.

2. The four-pan assembly lock for the flexible stay cable photovoltaic assembly fixing system according to claim 1, wherein two folds are arranged on the upper side of the positioning clamping plate, and a reserved hole is formed between the two folds.

3. The four-pan assembly lock for a flexible stay cable photovoltaic assembly fixing system according to claim 2, further comprising an upward pressing structure, wherein the upward pressing structure comprises an inner bolt, a pressing block and a middle pressing block, and the inner bolt penetrates through the pressing block, the middle pressing block and is fixed on the positioning clamping plate.

4. A four pan assembly lock for a flexible cable photovoltaic module fixing system according to claim 3 wherein the briquette is of inverted concave configuration.

5. The four-pan assembly lock for a flexible stay cable photovoltaic assembly fixing system according to claim 1, wherein the upper side of the steel strand clamping plate is provided with a groove, and the groove corresponds to the type of the steel strand.

6. A four pan assembly lock for a flexible cable photovoltaic module fixing system according to claim 1 wherein the locating pressure plate is of T-type construction.

7. A four pan assembly lock for a flexible cable photovoltaic module fastening system according to claim 1 wherein the outer bolts are outer hexagonal bolts.

8. A four pan assembly lock for a flexible cable photovoltaic module fastening system according to claim 3 wherein the inner bolts are socket head cap bolts.