A modular assembled cable tray structure
The modular assembly of the cable tray structure solves the problem of inconvenient transportation and installation of traditional cable trays, achieving the effect of easy transportation and installation, and improving connection stability and ventilation and heat dissipation performance.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHENJIANG SHENLONG ELECTRICAL FITTINGS CO LTD
- Filing Date
- 2025-06-30
- Publication Date
- 2026-07-07
AI Technical Summary
Traditional cable trays are integrated structures, which result in large transportation space requirements, inconvenient installation, and the need for multiple people or lifting tools.
It adopts a modular assembly structure, including a supporting base plate, side plates and a top cover plate. The split design is formed by snap-fit and welding, which increases the connection stability and bending resistance, and ventilation slots are set to improve heat dissipation performance.
Modular production and installation are achieved, which facilitates transportation, improves installation convenience and stability, and enhances bending resistance and ventilation and heat dissipation.
Smart Images

Figure CN224472996U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of cable tray technology, specifically a modularly assembled cable tray structure. Background Technology
[0002] Cable trays are equipment used for cable laying and are very important for the entire cable construction process. Traditional cable trays are usually one-piece structures. One-piece cable trays have certain disadvantages in production, transportation and installation. They take up a lot of space during transportation, which cannot increase the transport capacity. During installation, multiple workers are required to lift the cable trays, and even hoisting tools are needed, which is not convenient for installation. Therefore, this application proposes a modular assembly cable tray structure. Utility Model Content
[0003] In view of the above situation and to overcome the defects of the prior art, this utility model provides a modularly assembled cable tray structure, which effectively solves the problem of inconvenient transportation and installation of the existing integrated cable bridging structure.
[0004] To achieve the above objectives, this utility model provides the following technical solution: a modularly assembled cable tray structure, comprising a cable tray body, the cable tray body being composed of a supporting base plate, side plate one, side plate two, and a top cover plate. Side plate one and side plate two are respectively snapped onto the two sides of the top of the supporting base plate, and the top cover plate is snapped onto the top of side plate one and side plate two. The supporting base plate is composed of a top support plate, a bent bottom support plate one, and a bent bottom support plate two. The bend of the bent bottom support plate one and the top support plate forms a folding snap-fit beam one, and the bend of the bent bottom support plate two and the top support plate forms a folding snap-fit beam two. The bottom end of one side of side plate one and side plate two each forms a U-shaped snap-fit sleeve that matches the folding snap-fit beam one and the folding snap-fit beam two.
[0005] Preferably, the bottom surface of the bent bottom support plate one is formed with several folding reinforcement ribs one, and the bottom surface of the bent bottom support plate two is formed with several folding reinforcement ribs two, and the folding joints of the folding reinforcement ribs one and two are welded together for reinforcement.
[0006] Preferably, both the first and second folding snap-fit beams have a strip-shaped groove on the side near the top support plate, and one side of the bottom end of the U-shaped snap-fit sleeve is bent to form a limiting buckle that matches the strip-shaped groove.
[0007] Preferably, one side of the first side plate and the second side plate forms several folded reinforcing ribs, and the folded joints of the folded reinforcing ribs are welded for reinforcement. Several strip-shaped ventilation slots are provided on both the first side plate and the second side plate.
[0008] Preferably, the top of one side of both side plate one and side plate two is formed with a V-shaped bend strip that matches the top cover plate, and the joint between the V-shaped bend strip and side plate one and side plate two is welded for reinforcement.
[0009] Preferably, concave bending strip one and concave bending strip two, which match the V-shaped bending strip, are formed on both sides of the bottom end of the top cover plate.
[0010] Compared with the prior art, the beneficial effects of this utility model are:
[0011] (1) In operation, by setting up a support base plate consisting of a top support plate, a bent bottom support plate one and a bent bottom support plate two, and setting up a side plate one, a side plate two, a top cover plate, a folding snap-fit protruding beam one, a folding snap-fit protruding beam two and a U-shaped snap-fit sleeve, the support base plate, side plate one, side plate two and the top cover plate can be bent and shaped, and side plate one and side plate two can be snap-fitted to the support base plate to improve the convenience of installation. By setting up strip grooves and limiting buckles, side plate one and side plate two can be auxiliaryly limited to the support base plate to improve stability. Through the split structure, modular production and installation can be realized, which can improve the convenience of transportation and installation.
[0012] (2) By setting up the first and second folding reinforcement ribs, the bending bottom plate 1 and the bending bottom plate 2 can be reinforced, and the bending resistance can be improved. By setting up the third folding reinforcement rib, the side plate 1 and the side plate 2 can be reinforced. By setting up the strip ventilation slot, the ventilation and heat dissipation performance can be improved.
[0013] (3) By setting V-shaped bending strip, concave bending strip one and concave bending strip two, the top cover plate can be snapped and limited with side plate one and side plate two, thereby improving the stability of the connection. Attached Figure Description
[0014] The accompanying drawings are provided to further understand the present invention and form part of the specification. They are used together with the embodiments of the present invention to explain the present invention and do not constitute a limitation thereof.
[0015] In the attached diagram:
[0016] Figure 1 This is a schematic diagram of the modular cable tray structure of this utility model, which is easy to assemble.
[0017] Figure 2 This is a cross-sectional view of the modular cable tray of this utility model that is easy to assemble;
[0018] Figure 3 This is a schematic diagram of the supporting base plate structure of this utility model;
[0019] Figure 4This is a schematic diagram of the second side plate structure of this utility model;
[0020] Figure 5 This is a schematic diagram of the top cover plate structure of this utility model;
[0021] In the diagram: 1. Cable tray body; 2. Support base plate; 3. Side plate one; 4. Side plate two; 5. Top cover plate; 6. Top support plate; 7. Bent bottom support plate one; 8. Bent bottom support plate two; 9. Folding snap-fit protruding beam one; 10. Folding snap-fit protruding beam two; 11. U-shaped snap-fit sleeve; 12. Folding reinforcement protruding rib one; 13. Folding reinforcement protruding rib two; 14. Strip groove; 15. Limiting buckle strip; 16. Folding reinforcement protruding rib three; 17. Strip ventilation slot; 18. V-shaped bending strip; 19. Concave bending strip one; 20. Concave bending strip two. Detailed Implementation
[0022] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the protection scope of the present utility model.
[0023] Depend on Figures 1 to 5 The present invention discloses a modularly assembled cable tray structure, comprising a cable tray body 1, which is composed of a supporting base plate 2, side plate 3, side plate 4, and a top cover plate 5. Side plate 3 and side plate 4 are respectively snapped onto the top of the supporting base plate 2 on both sides, and the top cover plate 5 is snapped onto the top of side plate 3 and side plate 4. The supporting base plate 2 is composed of a top support plate 6, a bent bottom support plate 7, and a bent bottom support plate 8. The bend of the bent bottom support plate 7 and the top support plate 6 forms a folding snap-fit beam 9, and the bend of the bent bottom support plate 8 and the top support plate 6 forms a folding snap-fit beam 10. The bottom end of one side of side plate 3 and side plate 4 is formed with a U-shaped snap-fit sleeve 11 that matches the folding snap-fit beam 9 and the folding snap-fit beam 10.
[0024] The supporting base plate 2, side plate 1 3, side plate 2 4 and top cover plate 5 are all integrally bent and formed structures, which facilitates production. By setting them as separate structures, the convenience of transportation and the amount of transportation can be improved. The top support plate 6, the bent bottom support plate 1 7 and the bent bottom support plate 2 8 can improve the strength of the supporting base plate 2. During installation, the U-shaped snap-fit sleeves 11 on side plate 1 3 and side plate 2 4 are snapped and positioned with the folding snap-fit protrusion beam 1 9 and the folding snap-fit protrusion beam 2 10 respectively. Then, the top cover plate 5 is snapped onto the top of side plate 1 3 and side plate 2 4.
[0025] The bottom surface of the bent bottom support plate 7 forms several folded reinforcing ribs 12, and the bottom surface of the bent bottom support plate 8 forms several folded reinforcing ribs 13. The folded joints of the folded reinforcing ribs 12 and 13 are welded together for reinforcement, which can achieve bending resistance reinforcement of the support base plate 2 and improve overall stability.
[0026] Both the first folding snap-fit protrusion 9 and the second folding snap-fit protrusion 10 have a strip groove 14 on the side near the top support plate 6. One side of the bottom end of the U-shaped snap-fit sleeve 11 is bent to form a limiting buckle 15 that matches the strip groove 14, which can realize auxiliary snap-fit limiting and improve the stability of the connection.
[0027] Several folded reinforcing ribs 16 are formed on one side of side plate 3 and side plate 4. The folded joints of the folded reinforcing ribs 16 are welded for reinforcement. Several strip ventilation slots 17 are provided on side plate 3 and side plate 4 to achieve bending resistance reinforcement of side plate 3 and side plate 4. The strip ventilation slots 17 can improve ventilation and heat dissipation.
[0028] The top of one side of side plate 3 and side plate 4 are both formed with V-shaped bending strips 18 that match the top cover plate 5. The joints of the V-shaped bending strips 18 with side plate 3 and side plate 4 are welded and reinforced. The bottom of the top cover plate 5 is formed with concave bending strips 19 and 20 that match the V-shaped bending strips 18, respectively. These can lock and limit the top cover plate 5 with side plate 3 and side plate 4, thereby improving the connection stability.
[0029] In operation, by setting up a support base plate consisting of a top support plate, a bent bottom support plate one, and a bent bottom support plate two, and by setting up side plates one, two, a top cover plate, a folding snap-fit beam one, a folding snap-fit beam two, and a U-shaped snap-fit sleeve, it is possible to bend and shape the support base plate, side plates one, side plates two, and the top cover plate. Side plates one and two can be snapped together with the support base plate, improving installation convenience. By setting up strip grooves and limiting strips, side plates one and two can be auxiliaryly limited to the support base plate, improving stability. Through the split structure, it is possible to... Modular production and installation improve transportation and installation convenience. The addition of two folding reinforcing ribs (one and two) strengthens the bent bottom support plates, enhancing their bending resistance. A third folding reinforcing rib strengthens the side plates. Strip ventilation slots improve ventilation and heat dissipation. V-shaped bending strips, concave bending strips (one and two) secure the top cover plate to the side plates, improving connection stability.
Claims
1. A modularly assembled cable tray structure, comprising a tray body (1), characterized in that: The cable tray body (1) is composed of a support base plate (2), side plate one (3), side plate two (4) and top cover plate (5). Side plate one (3) and side plate two (4) are respectively snapped onto the top of the support base plate (2) on both sides. The top cover plate (5) is snapped onto the top of side plate one (3) and side plate two (4). The support base plate (2) is composed of a top support plate (6), a bent bottom support plate one (7) and a bent bottom support plate two (8). The bent bottom support plate one (7) and the top support plate (6) form a folding snap-fit beam one (9). The bent bottom support plate two (8) and the top support plate (6) form a folding snap-fit beam two (10). The bottom end of one side of side plate one (3) and side plate two (4) are both formed with U-shaped snap-fit sleeves (11) that match the folding snap-fit beam one (9) and the folding snap-fit beam two (10).
2. The modularly assembled cable tray structure according to claim 1, characterized in that: The bottom surface of the bent bottom support plate one (7) forms several folded reinforcing ribs one (12), and the bottom surface of the bent bottom support plate two (8) forms several folded reinforcing ribs two (13). The folded joints of the folded reinforcing ribs one (12) and two folded reinforcing ribs two (13) are welded together for reinforcement.
3. The modularly assembled cable tray structure according to claim 1, characterized in that: Both the first folding snap-fit protrusion (9) and the second folding snap-fit protrusion (10) have a strip groove (14) on the side near the top support plate (6), and one side of the bottom end of the U-shaped snap-fit sleeve (11) is bent to form a limiting buckle (15) that matches the strip groove (14).
4. The modularly assembled cable tray structure according to claim 1, characterized in that: Several folded reinforcing ribs (16) are formed on one side of the side plate 1 (3) and side plate 2 (4). The folded joints of the folded reinforcing ribs (16) are welded and reinforced. Several strip ventilation slots (17) are provided on both side plate 1 (3) and side plate 2 (4).
5. The modularly assembled cable tray structure according to claim 1, characterized in that: The top of one side of both side plate 1 (3) and side plate 2 (4) is formed with a V-shaped bending strip (18) that matches the top cover plate (5). The V-shaped bending strip (18) is welded and reinforced at the joint between it and side plate 1 (3) and side plate 2 (4).
6. A modularly assembled cable tray structure according to claim 5, characterized in that: The bottom of the top cover plate (5) has concave bending strip one (19) and concave bending strip two (20) that match the V-shaped bending strip (18) on both sides.