A windproof water tank suitable for seaside, outdoor construction site scenes

By optimizing the structural design of the windproof water tank and utilizing components such as embedded shafts and L-shaped connectors, the water tank is made windproof and durable, solving the stability problem of above-ground fire water tanks in strong wind environments, reducing the weight of the equipment and maintenance costs, and making it suitable for coastal and outdoor construction sites.

CN224379017UActive Publication Date: 2026-06-19JIANGSU MINGXING WATER SUPPLY EQUIP

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGSU MINGXING WATER SUPPLY EQUIP
Filing Date
2025-05-13
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Above-ground fire water tanks are susceptible to wind damage in strong wind environments, which can lead to structural deformation, tipping, or seal failure, resulting in water leakage and equipment damage. Existing technologies improve stability by adding counterweights or reinforcing the frame, but these methods are bulky, costly, and inconvenient to maintain.

Method used

The windproof water tank structure consists of pre-embedded shafts, L-shaped connectors, galvanized bolts, a bottom plate, and side plates. By optimizing the structural design and fixing method, the bottom of the water tank is reinforced and fixed by bolts to the foundation beam using vertical modular plates and L-shaped connectors, thus avoiding the need to add counterweights or reinforce the frame.

Benefits of technology

It achieves windproof and durable water tanks in strong wind environments, avoiding lifespan damage caused by severe weather, reducing after-sales costs and maintenance difficulty, and is suitable for scenarios such as seaside and outdoor construction sites. It is also convenient to transport and assemble.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a windproof water tank suitable for seaside, outdoor construction site scene, and the water tank bottom plate, water tank sideboard and water tank bottom plate and water tank sideboard are connected through galvanized bolt and sealing strip and form windproof water tank main part, and the water tank sideboard adopts vertical module board, and the steel reinforced concrete cushion layer, steel reinforced concrete whole board foundation and multiple parallel foundation beams are fixed in the pit from below to above in turn, the foundation beam is located at the connecting place or the end of water tank sideboard below, the built -in embedded shaft of foundation beam is equipped with thread and end thread exposes foundation beam lateral wall, and one side plate of L type connecting piece is fixed locking end thread through galvanized nut, and the other side plate of L type connecting piece is fixed locking water tank bottom plate turn -up through galvanized bolt. The utility model discloses windproof, durable, especially suitable for seaside, outdoor construction site, and the utility model does not pass through increasing counterweight or reinforcing frame and promote stability, has higher structural strength and is not easy to rust after galvanizing, and transportation and assembly are convenient.
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Description

Technical Field

[0001] This utility model belongs to the field of water storage equipment technology, and relates to a water tank structure, especially to an above-ground windproof fire-fighting water tank suitable for outdoor or harsh weather environments. It has functions such as windproof and impact resistance, and is mainly suitable for seaside, outdoor construction sites and other scenarios that require wind protection, and can effectively resist the impact of strong wind environments. Background Technology

[0002] Fire water tanks are fire-fighting facilities that provide water to fire brigades during firefighting and rescue operations, and are one of the key pieces of equipment in fire protection. The water stored in fire water tanks keeps the fire water supply pipes full, saving time that would otherwise be needed for the fire pumps to fill the pipes after they are turned on, thus gaining valuable time for extinguishing the fire.

[0003] Above-ground fire water tanks are susceptible to wind damage in strong wind environments, which can lead to structural deformation, tipping, or seal failure, resulting in water leakage or equipment damage. Existing technologies have improved the stability of some above-ground fire water tanks by adding counterweights or reinforcing the frame, but these methods suffer from problems such as bulkiness, high cost, and inconvenient maintenance.

[0004] Therefore, it is necessary to design a water tank with a lightweight structure that does not require additional counterweights or reinforced frames and has excellent wind resistance. Summary of the Invention

[0005] In view of the shortcomings and deficiencies of the existing technology, the purpose of this utility model is to provide a windproof water tank suitable for seaside and outdoor construction site scenarios.

[0006] To achieve the above objectives, the technical solution of this utility model is as follows:

[0007] A windproof water tank suitable for seaside and outdoor construction site scenarios includes a pre-embedded shaft, an L-shaped connector, galvanized bolts, a water tank bottom plate, water tank side plates, foundation beams, a reinforced concrete slab foundation, a reinforced concrete pad layer, and galvanized nuts. The main body of the windproof water tank is formed by galvanized bolts and sealing strips assembling and connecting the water tank bottom plate, the water tank side plates, and the water tank bottom plate and the water tank side plates. The water tank side plates are made of vertical modular plates. A reinforced concrete pad layer, a reinforced concrete slab foundation, and multiple parallel foundation beams are fixed in the pit from bottom to top. The foundation beams are located below the connection points or ends of the water tank side plates. A pre-embedded shaft is built into the foundation beam along its width direction. The pre-embedded shaft has threads at both ends, with the end threads protruding from the side wall of the foundation beam. One side plate of the L-shaped connector is fixed and locked with the end threads by galvanized nuts, and the other side plate of the L-shaped connector is fixed and locked with the flange of the water tank bottom plate by galvanized bolts.

[0008] Furthermore, the height of the side panel of the water tank is no higher than 4.5m.

[0009] Furthermore, the L-shaped connector is designed with an "L"-shaped plate structure, and screw holes are provided on both adjacent side plates.

[0010] Furthermore, the L-shaped connector is made of angle steel.

[0011] Furthermore, iron blocks are vertically arranged on both sides of the pre-embedded shaft. The iron blocks are welded to the pre-embedded shaft and then fully welded to the reinforcing bars in the foundation beam for fixation.

[0012] Furthermore, multiple embedded shafts are pre-embedded within the foundation beam.

[0013] Furthermore, the foundation beam is constructed by pouring reinforced concrete, and longitudinal and transverse reinforcing bars are installed within the foundation beam.

[0014] Furthermore, the molding blocks of the water tank bottom plate and the water tank side plate are made of stainless steel, composite stainless steel molding blocks or carbon steel, and the entire surface is galvanized.

[0015] Furthermore, the side panel of the water tank adopts an arc-ribbed modular panel or an isosceles trapezoidal modular panel.

[0016] Furthermore, the reinforced concrete cushion layer is made of impermeable concrete, and the reinforced concrete slab foundation is made of impermeable reinforced concrete.

[0017] The advantages of this utility model are as follows:

[0018] (1) The windproof water tank of this utility model achieves windproof and durable functions by optimizing the structural design and fixing method (this water tank is spliced ​​together with vertical module plates such as arc rib type module plates, and the side plate of the water tank is only subjected to vertical force. As long as the bottom of the water tank is reinforced and fixed, windproof can be achieved. Specifically, the bottom of the water tank is fixed by fixing the foundation beam and the bottom plate of the water tank with L-shaped connectors and bolts). This effectively avoids the impact of severe weather such as typhoons and rainstorms on the service life of the water tank, the increase in after-sales costs of the water tank, and the difficulty of personnel maintenance. This windproof water tank is particularly suitable for seaside, outdoor construction sites and other scenarios that require windproof protection and can resist the impact of strong wind environment.

[0019] (2) The windproof water tank of this utility model has a superior bottom structure design, which does not improve stability by adding counterweights or reinforcing the frame. Therefore, it does not have problems such as bulky size, high cost, and inconvenient maintenance.

[0020] Regarding maintenance, apart from the pre-embedded shaft which cannot be disassembled, all other parts are detachable. If deformation or damage occurs during later use, they can be disassembled and replaced.

[0021] (3) The windproof water tank of this utility model is made of stainless steel, composite stainless steel molded block or carbon steel, and the whole surface is galvanized, which has relatively high structural strength and is not easy to rust after galvanizing; the L-shaped connector is made of Q235 material, and the whole surface is galvanized, which has relatively high structural strength and is not easy to rust after galvanizing; the bolt assembly installation method is flexible and quick, without on-site welding, avoiding the risk of material rusting later due to the lack of surface treatment during on-site welding, which poses a safety hazard.

[0022] (4) The windproof water tank of this utility model is convenient to transport. The required materials can be disassembled into parts and sent to the site. Workers can assemble it directly. The assembly method meets the needs of various environmental operations. In actual application, it can effectively reduce the assembly difficulty and improve the production efficiency. Attached Figure Description

[0023] Figure 1 This is a schematic diagram of the windproof water tank of this utility model;

[0024] Figure 2 for Figure 1 A partial cross-sectional view;

[0025] Figure 3 Schematic diagram of L-shaped connector Figure 1 ;

[0026] Figure 4 Schematic diagram of L-shaped connector Figure 2 ;

[0027] Figure 5 This is a cross-sectional view of the L-shaped connector;

[0028] Among them, 1-embedded shaft, 2-L-shaped connector, 3-galvanized bolt, 4-iron block, 5-water tank bottom plate, 6-water tank side plate, 7-foundation beam, 8-reinforced concrete slab foundation, 9-reinforced concrete cushion layer, 10-galvanized nut, 11-reinforcing bar. Detailed Implementation

[0029] The present invention will now be described in further detail with reference to the accompanying drawings and embodiments.

[0030] Reference Figures 1 to 2 As shown, the windproof water tank applicable to seaside and outdoor construction site scenarios in this embodiment includes a pre-embedded shaft 1, an L-shaped connector 2, galvanized bolts 3, an iron block 4, a water tank bottom plate 5, a water tank side plate 6, a foundation beam 7, a reinforced concrete slab foundation 8, a reinforced concrete cushion layer 9, and galvanized nuts 10.

[0031] A reinforced concrete pad 9 is installed beneath the reinforced concrete slab foundation 8. The installation of the reinforced concrete pad 9 improves the stability of the reinforced concrete slab foundation 8 and reduces the construction difficulty of the reinforced concrete slab foundation 8.

[0032] Preferably, the reinforced concrete cushion layer 9 is made of impermeable concrete, and the reinforced concrete slab foundation 8 is made of impermeable reinforced concrete.

[0033] Among them, a foundation beam 7 is fixedly installed above the reinforced concrete slab foundation 8. Multiple foundation beams 7 are arranged in parallel and are located at the connection of the water tank side plate 6 or below the end of the water tank side plate 6.

[0034] Among them, the foundation beam 7 has a pre-embedded shaft 1 built in the width direction. The two ends of the pre-embedded shaft 1 are threaded, and the end threads are exposed on the side wall of the foundation beam 1.

[0035] Preferably, for accurate positioning and greater stability, iron blocks 4 need to be vertically installed on both sides of the embedded shaft 1. The iron blocks 4 pass through the embedded shaft 1 (the iron blocks 4 and the embedded shaft 1 are welded and fixed) and then connected to the reinforcing steel bars ( Figure 2 The thick black line in the middle is fully welded, which can prevent the position of the pre-embedded shaft 1 from shifting when the foundation beam 7 is poured into concrete, and at the same time increase reliability.

[0036] Preferably, each foundation beam 7 requires the pre-embedded shafts 1.

[0037] Preferably, the foundation beam 7 is made of reinforced concrete, and reinforcing bars 11 are provided in both the transverse and longitudinal directions of the foundation beam 7 to increase the structural strength.

[0038] Among them, such as Figures 3 to 5 As shown, the L-shaped connector 2 is designed with an "L" shaped plate structure, and screw holes are provided on both adjacent plates.

[0039] In this embodiment, the L-shaped connector 2 is made of Q235B structural steel and 4# equal-sided angle steel (equal-sided angle steel with a side length of 40mm), with a length of approximately 200mm.

[0040] One side plate of the L-shaped connector 2 is connected to the end thread of the embedded shaft 1 by a galvanized nut 10, and the other side plate of the L-shaped connector 2 is connected to the flange of the water tank bottom plate 5 by a galvanized bolt 3. The two side plates of the L-shaped connector 2 are locked respectively.

[0041] The water tank body is formed by galvanized bolts 3 and sealing strips connecting the bottom plates 5, the side plates 6, and the bottom plates 5 and side plates 6.

[0042] Preferably, the molding blocks of the water tank bottom plate 5 and the water tank side plate 6 are made of stainless steel, composite stainless steel molding blocks or carbon steel, and the entire surface is galvanized, which has relatively high structural strength and is not easy to rust after galvanizing.

[0043] The molded blocks of the water tank bottom plate 5 and the water tank side plate 6 are vertical modular plates.

[0044] The molded blocks of the water tank bottom plate 5 and the water tank side plate 6 adopt arc rib type modular plates, as described in Chinese patent CN216766091U "A kind of ultra-rigid bidirectional corrugated structure", which will not be repeated here.

[0045] Alternatively, the molding blocks of the water tank bottom plate 5 and the water tank side plate 6 can be made of isosceles trapezoidal modular plates, as described in Chinese patent CN217603076U "A High-Rigidity Modular Plate Suitable for Water Tanks or Pump Rooms", which will not be elaborated here.

[0046] Considering that the water tank is designed to be windproof, the height of the side panel 6 of the water tank should not exceed 4.5m, otherwise the windproof effect may be affected.

[0047] The preparation process of the windproof water tank suitable for seaside and outdoor construction site scenarios in this embodiment is as follows:

[0048] First, before installing the windproof water tank, the original ground needs to be constructed: from bottom to top, a reinforced concrete pad 9, a reinforced concrete slab foundation 8, and foundation beams 7 are set up in sequence; multiple foundation beams 7 are set in parallel, located below the connection of the water tank side plate 6 or below the end point of the water tank side plate 6.

[0049] To achieve effective wind and earthquake resistance, the windproof water tank requires the pre-embedded shaft 1 (with threads at both ends) to be installed before the concrete is poured into the foundation beam 7 during civil construction. For accurate positioning and greater stability, iron blocks 4 need to be vertically installed on both sides of the pre-embedded shaft 1. The iron blocks 4 pass through the pre-embedded shaft 1 and then connect with the reinforcing steel bars (…). Figure 2 The thick black line in the diagram is fully welded to prevent the position of the embedded shaft 1 from shifting during concrete pouring, thus increasing reliability. Preferably, each foundation beam 7 requires four embedded shafts 1.

[0050] Then, the L-shaped connector 2 passes through the embedded shaft 1. One side plate of the L-shaped connector 2 is connected to the end thread of the embedded shaft 1, and the other side plate of the L-shaped connector 2 is connected to the bottom plate of the water tank 5. Both ends are locked with galvanized nuts 10 and galvanized bolts 3 respectively.

[0051] Finally, the water tank bottom plate 5 and water tank side plate 6 are assembled: the water tank bottom plate 5, the water tank side plate 6, and the water tank bottom plate 5 and water tank side plate 6 are assembled and connected by galvanized bolts 3 and sealing strips to form a whole.

[0052] Ultimately, this achieves the goal of making the water tank windproof and durable.

[0053] The above description is merely a preferred embodiment of the present utility model and does not constitute a limitation on the scope of protection of the present utility model. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of the present utility model should be included within the scope of protection of the claims of the present utility model.

Claims

1. A windproof water tank suitable for seaside and outdoor construction site scenarios, characterized in that: The windproof water tank includes a pre-embedded shaft, L-shaped connectors, galvanized bolts, a water tank bottom plate, a water tank side plate, a foundation beam, a reinforced concrete slab foundation, a reinforced concrete cushion layer, and galvanized nuts. The main body of the windproof water tank is formed by galvanized bolts and sealing strips connecting the bottom plate, the side plates, and the bottom and side plates of the water tank; the side plates of the water tank are made of vertical modular panels. From bottom to top, the pit is fixed with a reinforced concrete pad layer, a reinforced concrete slab foundation and multiple parallel foundation beams. The foundation beams are located at the connection or end of the water tank side plate. The foundation beams have embedded shafts built into the width direction, and the embedded shafts have threads at both ends with the end threads protruding from the side wall of the foundation beam. One side plate of the L-shaped connector is fixed and locked with the end thread by a galvanized nut, and the other side plate of the L-shaped connector is fixed and locked with the flange of the water tank bottom plate by a galvanized bolt.

2. The windproof water tank suitable for seaside and outdoor construction site scenarios as described in claim 1, characterized in that: The height of the side panel of the water tank shall not exceed 4.5m.

3. A windproof water tank suitable for seaside and outdoor construction site scenarios as described in claim 1 or 2, characterized in that: The L-shaped connector is designed with an "L" shaped plate structure, and screw holes are provided on both adjacent side plates.

4. A windproof water tank suitable for seaside and outdoor construction site scenarios as described in claim 3, characterized in that: The L-shaped connector is made of angle steel.

5. A windproof water tank suitable for seaside and outdoor construction site scenarios as described in claim 1 or 2, characterized in that: Iron blocks are vertically installed on both sides of the pre-embedded shaft. The iron blocks are welded to the pre-embedded shaft and then fully welded to the reinforcing bars in the foundation beam for fixation.

6. A windproof water tank suitable for seaside and outdoor construction site scenarios as described in claim 1 or 2, characterized in that: Multiple pre-embedded shafts are embedded in the foundation beam.

7. A windproof water tank suitable for seaside and outdoor construction site scenarios as described in claim 1 or 2, characterized in that: The foundation beam is constructed by pouring reinforced concrete, with longitudinal and transverse reinforcing bars inside.

8. A windproof water tank suitable for seaside and outdoor construction site scenarios as described in claim 1 or 2, characterized in that: The molded blocks of the water tank bottom plate and water tank side plate are made of stainless steel, composite stainless steel, or carbon steel, and the entire surface is galvanized.

9. A windproof water tank suitable for seaside and outdoor construction site scenarios as described in claim 1 or 2, characterized in that: The side panels of the water tank are made of arc-ribbed modular panels or isosceles trapezoidal modular panels.

10. A windproof water tank suitable for seaside and outdoor construction site scenarios as described in claim 1 or 2, characterized in that: The reinforced concrete cushion layer is made of impermeable concrete, and the reinforced concrete slab foundation is made of impermeable reinforced concrete.