CN-224213648-U - Plastic-coated roof net structure

Abstract

The utility model discloses a plastic-coated roof net structure, which comprises two adjacent roof nets and a plurality of portable connecting components arranged between the two adjacent roof nets; the roof net is formed by weaving a plurality of crisscrossed transverse metal wires and vertical metal wires; the portable connecting component comprises a connecting seat, two T-shaped wire grooves formed in the top surface of the connecting seat, a shaft block fixed in the center of the top of the connecting seat and a rotary substrate rotatably sleeved on the surface of the shaft block; the utility model discloses an improve current plastic-coated roof net structure, add a portable coupling assembling between two adjacent plastic-coated roof nets, can easily realize quick, the firm connection between two adjacent roof nets, need not complicated construction tool and technique, greatly reduced the plastic-coated roof net in the installation degree of difficulty and the cost on site, guaranteed the stability and the durability of junction simultaneously, provided powerful technical support for the wide application of plastic-coated roof net.

Inventors

• LIU JIAN

Assignees

• 河北麦特克贸易有限公司

Dates

Publication Date

20260508

Application Date

20250519

Claims (7)

1. 1. A plastic-coated roof net structure is characterized by comprising Two adjacent roof nets, a plurality of portable connection assemblies (2) arranged between the two adjacent roof nets; The roof net is formed by weaving a plurality of crisscrossed transverse metal wires (11) and vertical metal wires (12); The portable connecting assembly (2) comprises a connecting seat (21), two T-shaped wire grooves (22) formed in the top surface of the connecting seat (21), a shaft block (23) fixed at the center of the top of the connecting seat (21), a rotating base plate (24) rotatably sleeved on the surface of the shaft block (23), and two limiting pressing plates (25) fixed on the two end surfaces of the rotating base plate (24), wherein the vertical wires (12) and the transverse wires (11) are embedded into the T-shaped wire grooves (22), the limiting pressing plates (25) are pressed above the T-shaped wire grooves (22), and the portable connecting assembly (2) further comprises limiting structures (26) arranged between the rotating base plate (24) and the shaft block (23).
2. 2. The plastic-coated roof net structure of claim 1, wherein the limiting structure (26) comprises two transverse sliding grooves (261) formed in the rotary base plate (24), springs (262) and transverse inner sliding blocks (263) arranged in the transverse sliding grooves (261), transverse clamping rods (264) are fixed on one side of each transverse inner sliding block (263), four side clamping grooves (265) corresponding to the corresponding transverse clamping rods (264) are uniformly formed in the surface of each shaft block (23), and the end portions of the transverse clamping rods (264) penetrate into one side clamping groove (265).
3. 3. The plastic-coated roof net structure as set forth in claim 2, wherein the other side surface of the transverse inner slide (263) is provided with a circular groove, and one end of the spring (262) is inserted into the circular groove.
4. 4. The plastic-coated roof net structure of claim 2, wherein a top sliding block (266) is fixed on the top surface of the transverse sliding block (263), a top slideway (267) for sliding the top sliding block (266) is arranged on the top surface of the rotary base plate (24), and the top end of the top sliding block (266) penetrates through the top slideway (267) to the top of the rotary base plate (24) and is fixed with a top shifting block (268).
5. 5. The plastic-coated roof net structure of claim 4, wherein a rectangular notch is formed in a top surface of the top deflector (268).
6. 6. The plastic-coated roof net structure according to claim 1, wherein a circular middle hole matched with the bottom end of the shaft block (23) in size is penetrated and formed in the center of the rotary base plate (24).
7. 7. The plastic-coated roof net structure of claim 2, wherein the inner wall of one end of the transverse chute (261) is provided with a through hole corresponding to the transverse clamping rod (264) in a penetrating way, and the through hole is communicated with the circular middle hole.

Description

Plastic-coated roof net structure Technical Field The utility model belongs to the technical field of roof nets, and particularly relates to a plastic-coated roof net structure. Background In the modern building field, the roof is used as an important component of a building, not only is required to have good waterproof and heat insulation performance, but also has certain structural strength and durability, traditional roof materials such as tiles, asphalt coiled materials and the like are required to have good performances in certain aspects, but the construction efficiency, maintenance cost and environmental protection performance are still insufficient, along with the progress of material science and technology, the plastic-coated roof net is used as a novel roof structural material, is favored by the market due to the characteristics of light weight, high strength, corrosion resistance, easy installation and maintenance and the like, and is usually manufactured by a precise welding or braiding process of vertical metal wires and transverse metal wires, so that a net structure with high flexibility and flexibility is formed, the structure can be suitable for various complex roof shapes, can effectively disperse roof loads, improve the stability and safety of the whole structure, and the plastic-coated layer not only enhances the corrosion resistance of the metal net, but also endows the metal net with good waterproof and sun-proof functions, and prolongs the service life; However, in practical application, the installation process of the plastic-coated roof net still faces some challenges, especially how to efficiently and stably connect two adjacent roof nets when laying in a large area, which becomes a key factor affecting the construction efficiency and the overall performance of the roof, and the traditional connection mode, such as direct welding or screw fixation, is complex in operation and long in time consumption, and can easily damage the plastic-coated layer in the construction process, affect the waterproof effect, and even may cause potential safety hazards due to weak connection. Disclosure of utility model The utility model aims to provide a plastic-coated roof net structure, which solves the problems that the prior plastic-coated roof net in the background art has complicated operation and long time consumption in the connection between two adjacent plastic-coated roof nets. In order to achieve the aim, the utility model provides the technical scheme that the plastic-coated roof net structure comprises Two adjacent roof nets, and a plurality of portable connection components arranged between the two adjacent roof nets; The roof net is formed by weaving a plurality of crisscrossed transverse metal wires and vertical metal wires; The portable connecting assembly comprises a connecting seat, two T-shaped wire grooves formed in the top surface of the connecting seat, a shaft block fixed in the center of the top of the connecting seat, a rotating base plate rotatably sleeved on the surface of the shaft block, and two limiting pressing plates fixed on the two end surfaces of the rotating base plate, wherein vertical wires and transverse wires are embedded into the T-shaped wire grooves, the limiting pressing plates are pressed above the T-shaped wire grooves, and the portable connecting assembly further comprises a limiting structure arranged between the rotating base plate and the shaft block. Preferably, the limit structure comprises two transverse sliding grooves formed in the rotary substrate, a spring and a transverse inner sliding block, wherein the spring and the transverse inner sliding block are arranged in the transverse sliding grooves, a transverse clamping rod is fixed on one side of the transverse inner sliding block, four side clamping grooves corresponding to the transverse clamping rod are uniformly formed in the surface of the shaft block, and the end parts of the transverse clamping rods penetrate into one side clamping groove. Preferably, a circular groove is formed in the surface of the other side of the transverse inner sliding block, and one end of the spring is inserted into the circular groove. Preferably, the top surface of the horizontal inner sliding block is fixed with a top sliding block, the top surface of the rotating substrate is provided with a top sliding way for the top sliding block to slide, and the top end of the top sliding block penetrates through the top sliding way to the top of the rotating substrate and is fixed with a top shifting block. Preferably, a rectangular notch is formed in the top surface of the top shifting block. Preferably, a circular middle hole matched with the bottom end of the shaft block in size is formed in the center of the rotary substrate in a penetrating mode. Preferably, a through hole corresponding to the transverse clamping rod is formed in the inner wall of one end of the transverse sliding groove in a penetrating mode, an