A protective hot dip galvanizing tank stand

By using snap-fit ​​components and drainage structure design, the cables are suspended one by one and water accumulation is self-sealed, which solves the problems of heat accumulation and moisture backflow in the cables and improves the safety and waterproof performance of the hot-dip galvanized cable tray.

CN224502823UActive Publication Date: 2026-07-14漯河市永鑫金具有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
漯河市永鑫金具有限公司
Filing Date
2025-08-15
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

The concentrated contact of cables in existing hot-dip galvanized cable trays leads to heat accumulation, posing safety hazards and short-circuit risks. In addition, moisture can easily flow back after water is drained, affecting the waterproofing effect.

Method used

The design incorporates snap-fit ​​and drainage components to allow cables to be suspended one by one. Combined with rubber pads and elastic sealing structures, it prevents heat accumulation and moisture backflow in the cables. Heat dissipation and dust prevention are achieved through heat dissipation grooves and dustproof nets.

Benefits of technology

It effectively avoids safety hazards and short circuits caused by heat accumulation in cables, while preventing moisture backflow, ensuring waterproofing, and improving the safety and reliability of cable installation.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224502823U_ABST
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Abstract

The utility model discloses a protective hot galvanizing groove frame, including galvanizing shell, the bottom wall of galvanizing shell is equipped with the uniformly distributed conical plate seat, still include wiring mechanism, wiring mechanism: it includes horizontal plate seat, draw -in groove no.
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Description

Technical Field

[0001] This utility model relates to the technical field of hot-dip galvanized tank racks, specifically a protective hot-dip galvanized tank rack. Background Technology

[0002] Hot-dip galvanized cable trays are cable trays processed by hot-dip galvanizing. Using steel as the base material, they are coated with a corrosion-resistant layer by immersion in molten zinc at high temperatures. Their structure mainly consists of modular components in the form of troughs, trays, or ladders. Suitable for cable support systems, trough-type cable trays offer better interference shielding performance compared to other types. In the prior art, patent CN 211720177 U discloses a novel hot-dip galvanized trough-type cable tray, including a cable tray with a fixed block on one side and heat dissipation holes on both sides. A partition plate is provided inside the cable tray, and a through hole is provided at the bottom of the fixed block. A push rod is installed inside the through hole, and the surface of the push rod has multiple positioning slots. This invention includes a push rod, positioning slots, and a reset rod. The guide block slides in the guide groove, adjusting the length of the partition plate and the cable tray left and right. One end of the reset rod enters the positioning slot, connecting the partition plate and the cable tray. The distance between the racks is also fixed, which can accommodate different numbers of cables. A first screw hole and a second screw hole are provided. The fastening bolts are embedded into the first screw hole and the second screw hole to realize the installation of the cover and the cable tray. The installation is simple. When installing cables, the device fixes multiple cables together by the partition plate. However, when multiple cables are fixed together, the cables are in face-to-face contact, which causes the heat released by the cables to continuously accumulate between these contact surfaces, which poses a safety hazard. At the same time, the multiple cables in compression contact may cause short circuits. To this end, we propose a protective hot-dip galvanized cable tray. Utility Model Content

[0003] The technical problem this invention aims to solve is to overcome existing defects and provide a protective hot-dip galvanized cable tray. This device, through a snap-fit ​​element, allows for the individual suspension and placement of cables, and the suspension and placement position of the cables can be varied according to the number and diameter of the cables. This avoids the safety hazards caused by heat accumulation between cables due to concentrated contact placement, and also prevents short circuits that may occur when cables are placed together. Furthermore, the device uses a drainage element to drain water accumulated inside the hot-dip galvanized cable tray while preventing backflow of moisture from the drainage area, thus waterproofing the hot-dip galvanized cable tray and effectively solving the problems in the background art.

[0004] To achieve the above objectives, this utility model provides the following technical solution: a protective hot-dip galvanizing tank rack, including a galvanized outer shell, wherein the bottom wall of the galvanized outer shell is provided with uniformly distributed conical plate seats, and further including a wiring mechanism;

[0005] Cable routing mechanism: It includes a horizontal plate base, a first slot, a U-shaped slot, hooks, and fixing components. The horizontal plate base is evenly arranged inside the galvanized shell. The upper side of the horizontal plate base has evenly distributed first slots, and each first slot has a U-shaped slot engaged inside. Each U-shaped slot has a hook on its lower side. The horizontal plate base and the galvanized shell are both equipped with horizontally symmetrical fixing components. This device can hang cables individually in the air through the engaging elements. The hanging position of the cables can be changed according to the number and diameter of the cables, avoiding the safety hazards caused by heat accumulation between the cables due to concentrated contact placement. It also avoids short circuits that may occur when cables are placed in concentrated placement. Furthermore, the device can drain water accumulated inside the hot-dip galvanized tank rack through the drainage element, while preventing moisture backflow at the drainage point, thus waterproofing the hot-dip galvanized tank rack.

[0006] Furthermore, the cable routing mechanism also includes rubber pads, which are respectively disposed inside the hooks to avoid hard contact between the hooks in the protective hot-dip galvanized cable tray and the cables.

[0007] Furthermore, the fixing assembly includes a second slot, an L-shaped bracket, a connecting rod, an arc-shaped bracket, and a post. The second slot is evenly opened on the left and right walls of the galvanized shell. The inside of the second slot is fitted with an L-shaped bracket. The side of the L-shaped bracket closest to the transverse center of the galvanized shell is fitted with an arc-shaped bracket via a connecting rod that is symmetrically distributed longitudinally. The lower left and right ends of the transverse plate are fitted with posts, which are fitted with the vertically adjacent arc-shaped brackets to fix the transverse plate in the protective hot-dip galvanized tank frame to the device wall.

[0008] Furthermore, the fixing component also includes a longitudinal limiting seat, which is respectively disposed on the front and rear sides of the arc-shaped card seat. The longitudinal limiting seat is installed in conjunction with the adjacent insertion post to longitudinally limit the insertion post engaged by the arc-shaped card seat in the protective hot-dip galvanized channel frame.

[0009] Furthermore, the bottom wall of the galvanized outer shell is provided with evenly distributed drain pipes. The upper end of each drain pipe is connected to the bottom conical opening of the adjacent conical plate seat. The inner wall of each drain pipe is provided with a cross seat and a conical ring. The cross seat is located above the adjacent conical ring. The lower side of each cross seat is provided with a sealing seat through a telescopic column and a spring. The spring is movably connected to the outer end of the adjacent telescopic column, so that the drain pipe of the protective hot-dip galvanizing tank is sealed in time after the water is discharged, avoiding the backflow of moisture in the external pipe connected to the drain pipe.

[0010] Furthermore, the left and right walls of the galvanized shell are provided with evenly distributed heat dissipation grooves, and the inside of each heat dissipation groove is equipped with a dustproof net to dissipate heat from the inside of the protective hot-dip galvanized tank frame while preventing external dust from entering.

[0011] Furthermore, a cover plate is provided on the upper side of the galvanized shell to cover the upper opening of the protective hot-dip galvanizing tank frame.

[0012] Compared with the prior art, the beneficial effects of this utility model are as follows: This protective hot-dip galvanized channel rack has the following advantages:

[0013] 1. When using the protective hot-dip galvanized cable tray, the cable routing mechanism of this device uses a snap-fit ​​connection, which allows the cables to be suspended individually, which is beneficial for the heat dissipation of the cables themselves. The suspension position of the cables can be changed according to the number and diameter of the cables, avoiding the safety hazards caused by the heat accumulation between the cables due to the concentrated contact placement of the cables. At the same time, it can also avoid the short circuit that may occur when the cables are placed in a concentrated manner.

[0014] 2. When using a protective hot-dip galvanized tank rack, the device utilizes the force difference between the gravity of the accumulated water and the elastic element to drain the water inside the hot-dip galvanized tank rack and then self-close, preventing the backflow of moisture in the external pipes connected to the drainage part, thus waterproofing the hot-dip galvanized tank rack. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the structure of this utility model;

[0016] Figure 2 This is a schematic diagram of the internal structure of this utility model;

[0017] Figure 3 This is a schematic diagram of the structure of this utility model from below;

[0018] Figure 4 This is a schematic diagram of the structure of the L-shaped card holder of this utility model;

[0019] Figure 5 This is a schematic diagram of the structure of the conical plate seat of this utility model;

[0020] Figure 6 This is a cross-sectional structural schematic diagram of the drain pipe of this utility model;

[0021] Figure 7 This is an enlarged structural diagram of point A in this utility model.

[0022] In the diagram: 1. Galvanized outer shell, 2. Cable routing mechanism, 21. Horizontal plate seat, 22. Slot 1, 23. U-shaped seat, 24. Hook, 25. Rubber pad, 26. Fixing component, 261. Slot 2, 262. L-shaped seat, 263. Link 1, 264. Arc-shaped seat, 265. Longitudinal limit seat, 266. Insert post, 3. Conical plate seat, 4. Drain pipe, 5. Cross seat, 6. Telescopic post, 7. Spring, 8. Sealing seat, 9. Conical ring, 10. Heat dissipation groove, 11. Cover plate. Detailed Implementation

[0023] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0024] Please see Figure 1-7 This embodiment provides a technical solution: a protective hot-dip galvanizing tank rack, including a galvanized outer shell 1. The bottom wall of the galvanized outer shell 1 is provided with uniformly distributed conical plate seats 3. The bottom wall of the galvanized outer shell 1 is provided with uniformly distributed drain pipes 4. The upper end of each drain pipe 4 is connected to the bottom conical opening of the adjacent conical plate seat 3. The inner wall of each drain pipe 4 is provided with a cross seat 5 and a conical ring 9. The cross seat 5 is located above the adjacent conical ring 9. The lower side of each cross seat 5 is provided with a sealing seat 8 through a telescopic column 6 and a spring 7. The spring 7 is movably sleeved with the outer end of the adjacent telescopic column 6. The left and right walls of the galvanized outer shell 1 are provided with evenly distributed heat dissipation grooves 10, and dustproof nets are installed inside the heat dissipation grooves 10. The upper side of the galvanized outer shell 1 is provided with a cover plate 11. When installing cables using the protective hot-dip galvanized tank frame, the lower end of the drain pipe 4 is connected to the external pipe. After the cables are laid in the hot-dip galvanized tank frame, the cover plate 11 is bolted to the upper end of the galvanized outer shell 1 to cover and protect the exposed upper opening of the galvanized outer shell 1. During the use of the hot-dip galvanized tank frame, the conical surface of the conical plate seat 3 collects the water accumulated inside the device. Water enters the drain pipe 4. When the water in the drain pipe 4 accumulates to a certain level, the pressure exerted by the water on the sealing seat 8 exceeds the upward stretching and restoring force exerted by the spring 7 on the sealing seat 8 (the spring 7 is always in a stretched state). The sealing seat 8 moves vertically downward, thus separating from the corresponding conical ring 9, thereby draining the water from the drain pipe 4. After the water in the drain pipe 4 is drained, the stretching and restoring force of the spring 7 causes the sealing seat 8 to move upward again to seal the drain pipe 4, thereby preventing moisture from the external pipe connected to the drain pipe 4 from entering the galvanized outer shell. Inside the device, the heat generated by the cable operation is dissipated through the heat dissipation groove 10. The dustproof net prevents dust from the external environment from entering the galvanized shell 1 through the heat dissipation groove 10. After the device has been used for a period of time, the drain pipe 4 can be replaced as a whole (the drain pipe 4 is installed and fixed by the flange), thereby preventing the spring 7 from aging. The device can drain the water inside the hot-dip galvanized tank frame through the drainage element while preventing the moisture in the drainage part from flowing back, thus waterproofing the hot-dip galvanized tank frame. It also includes a cable routing mechanism 2.

[0025] Cable routing mechanism 2 includes a horizontal plate base 21, slot 1 22, U-shaped bracket 23, hook 24, and fixing components 26. The horizontal plate base 21 is evenly arranged inside the galvanized shell 1. The upper side of the horizontal plate base 21 has evenly distributed slot 1 22, and each slot 1 22 is fitted with a U-shaped bracket 23. Each U-shaped bracket 23 has a hook 24 on its lower side. The horizontal plate base 21 and the galvanized shell 1 are both provided with horizontally symmetrical fixing components 26. The cable routing mechanism 2 also includes rubber pads 25, which are respectively arranged inside the hooks 24. The fixing components 26 include a second slot 261, an L-shaped bracket 262, a connecting rod 263, an arc-shaped bracket 264, and a pin 266. The second slot 261 is divided into... The slots 261 are evenly distributed on the left and right walls of the galvanized outer shell 1. Each slot 261 contains an L-shaped retainer 262. On the side of the L-shaped retainer 262 closest to the transverse center of the galvanized outer shell 1, an arc-shaped retainer 264 is provided via longitudinally symmetrically distributed connecting rods 263. The lower left and right ends of the transverse plate base 21 are each provided with a post 266, which engages with the vertically adjacent arc-shaped retainer 264. The fixing assembly 26 also includes a longitudinal limiting seat 265, which is respectively located on the front and rear sides of the arc-shaped retainer 264. The longitudinal limiting seats 265 are installed in conjunction with the adjacent post 266. The L-shaped retainer 262 is vertically inserted downwards into the corresponding slot 261, thereby achieving the engagement of the L-shaped retainer 262 with the galvanized outer shell 1. After the zinc shell 1 is fixed by insertion, the horizontal plate seat 21 is inserted into the horizontally adjacent arc-shaped bracket 264 through the insertion post 266 on its lower side. The longitudinal limiting seat 265 on the arc-shaped bracket 264 longitudinally limits the corresponding insertion post 266, thereby realizing the installation and fixation between the horizontal plate seat 21 and the galvanized shell 1. Then, the worker presses the upper part of the U-shaped bracket 23, causing the upper left and right ends of the U-shaped bracket 23 to fold towards the middle. Then, the U-shaped bracket 23 is inserted into the corresponding slot 22 from bottom to top and the centering pressure applied to the upper left and right ends of the U-shaped bracket 23 is released, so that the U-shaped bracket 23 is vertically locked into the corresponding slot 22, thereby realizing the connection between the hook 24 and the galvanized shell 1. After the installation and fixing of the outer casing 1, the staff will lay each cable longitudinally into the adjacent hook 24 (by using rubber pads 25 to avoid hard contact between the hook 24 and the cable), thus rotating and hanging the cable individually. During this process, the staff can adjust the position of the hook 24 horizontally or vertically according to the number of cables installed and the installation diameter. It is easy to use. The device can hang the cable individually through the snap-fit ​​element, and the hanging position of the cable can be changed according to the number of cables and the diameter. This avoids the safety hazards caused by heat accumulation between the cables due to concentrated contact placement, and also avoids short circuits that may occur when the cables are placed in a concentrated manner.

[0026] The working principle of the protective hot-dip galvanized cable tray provided by this utility model is as follows: When installing cables using the protective hot-dip galvanized cable tray, connect the lower end of the drain pipe 4 to the external pipe, insert the L-shaped bracket 262 vertically downward into the corresponding slot 261, thereby achieving the insertion and fixation between the L-shaped bracket 262 and the wall of the galvanized outer shell 1. Then, insert the horizontal plate base 21 into the horizontally adjacent arc-shaped bracket 264 through the insert post 266 on its lower side. The longitudinal limiting seat 265 on the arc-shaped bracket 264 longitudinally limits the corresponding insert post 266, thereby achieving the installation and fixation between the horizontal plate base 21 and the galvanized outer shell 1. Then, the worker presses the upper part of the U-shaped bracket 23, so that... The upper left and right ends of the U-shaped bracket 23 are brought together towards the center. Then, the U-shaped bracket 23 is inserted from bottom to top into the corresponding slot 22, and the pressure applied to the upper left and right ends of the U-shaped bracket 23 is released, causing the U-shaped bracket 23 to vertically engage with the corresponding slot 22. This achieves the installation and fixation between the hook 24 and the galvanized shell 1. Subsequently, each cable is individually laid longitudinally into the adjacent hook 24 (using rubber pads 25 to avoid hard contact between the hook 24 and the cable), thus individually rotating and splicing each cable. During this process, the position of the hook 24 can be adjusted horizontally or vertically according to the number of cables installed and the installation diameter. It is easy to use. By laying the cables separately in a suspended manner, it avoids the safety hazards caused by heat accumulation between the cables due to concentrated contact placement, as well as the potential short circuits caused by concentrated cable placement. After the cables are laid in the hot-dip galvanized cable tray, the cover plate 11 is bolted to the upper end of the galvanized shell 1 to cover and protect the exposed upper opening of the galvanized shell 1. During the use of the hot-dip galvanized cable tray, the conical surface of the conical plate seat 3 collects the water inside the device. The water enters the drain pipe 4. When the water in the drain pipe 4 accumulates to a certain level, the pressure exerted by the water on the sealing seat 8 is greater than the upward stretching and restoring force exerted by the spring 7 on the sealing seat 8 (the spring 7 is always in a state of tension). In the stretched state, the sealing seat 8 moves vertically downward to separate from the corresponding cone ring 9, thereby draining the water in the drain pipe 4. After the water in the drain pipe 4 is drained, the tension and reset force of the spring 7 causes the sealing seat 8 to move upward again to seal the drain pipe 4, thereby preventing moisture from the external pipe connected to the drain pipe 4 from entering the galvanized shell 1. The heat dissipation groove 10 dissipates the heat generated by the operation of the cable in the device, and the dustproof net prevents dust from the external environment from entering the galvanized shell 1 through the heat dissipation groove 10. After the device has been used for a period of time, the drain pipe 4 can be replaced as a whole (the drain pipe 4 is installed and fixed by flanges), thereby preventing the spring 7 from aging.

[0027] The above description is merely an embodiment of this utility model and does not limit the patent scope of this utility model. Any equivalent structural or procedural transformations made based on the content of this utility model specification and drawings, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of this utility model.

Claims

1. A protective hot-dip galvanized tank rack, comprising a galvanized outer shell (1), wherein the bottom wall of the galvanized outer shell (1) is provided with uniformly distributed conical plate seats (3), characterized in that: It also includes the wiring mechanism (2); The wiring mechanism (2) includes a horizontal plate base (21), a slot 1 (22), a U-shaped slot (23), a hook (24), and a fixing component (26). The horizontal plate base (21) is evenly arranged inside the galvanized shell (1). The upper side of the horizontal plate base (21) is provided with evenly distributed slots 1 (22). The slots 1 (22) are all fitted with U-shaped slots (23). The lower side of the U-shaped slots (23) is provided with hooks (24). The horizontal plate base (21) and the galvanized shell (1) are provided with horizontally symmetrical fixing components (26).

2. The protective hot-dip galvanized tank rack according to claim 1, characterized in that: The wiring mechanism (2) also includes rubber pads (25), which are respectively disposed inside the hooks (24).

3. The protective hot-dip galvanized tank rack according to claim 1, characterized in that: The fixing component (26) includes a second slot (261), an L-shaped bracket (262), a connecting rod (263), an arc-shaped bracket (264), and a post (266). The second slot (261) is evenly opened on the left and right walls of the galvanized shell (1). The L-shaped bracket (262) is engaged inside the second slot (261). The side of the L-shaped bracket (262) near the horizontal center of the galvanized shell (1) is provided with an arc-shaped bracket (264) through the connecting rod (263) which is symmetrically distributed in the longitudinal direction. The lower left and right ends of the horizontal plate seat (21) are provided with posts (266). The posts (266) are engaged with the vertically adjacent arc-shaped brackets (264).

4. A protective hot-dip galvanized tank rack according to claim 3, characterized in that: The fixing component (26) also includes a longitudinal limiting seat (265), which is respectively disposed on the front and rear sides of the arc-shaped card seat (264), and the longitudinal limiting seat (265) is installed in conjunction with the adjacent insert (266).

5. A protective hot-dip galvanized tank rack according to claim 1, characterized in that: The bottom wall of the galvanized shell (1) is provided with uniformly distributed drain pipes (4). The upper end of each drain pipe (4) is connected to the bottom conical opening of the adjacent conical plate seat (3). The inner wall of each drain pipe (4) is provided with a cross seat (5) and a conical ring (9). The cross seat (5) is located above the adjacent conical ring (9). The lower side of each cross seat (5) is provided with a sealing seat (8) through a telescopic column (6) and a spring (7). The spring (7) is movably connected to the outer end of the adjacent telescopic column (6).

6. A protective hot-dip galvanized tank rack according to claim 1, characterized in that: The galvanized shell (1) has uniformly distributed heat dissipation grooves (10) on both the left and right walls, and dustproof nets are installed inside the heat dissipation grooves (10).

7. A protective hot-dip galvanized tank rack according to claim 1, characterized in that: The galvanized outer shell (1) is provided with a cover plate (11) on its upper side.