Ventilated brick with spliced structure

By designing a permeable brick with a splicing structure, and using snap-fit ​​components and locking devices to achieve a stable connection of the permeable brick body, the stability problem of permeable bricks in slope or side slope areas is solved, and waste refractory brick resources are effectively utilized, improving the stability of paving and resource utilization.

CN224412233UActive Publication Date: 2026-06-26WUXI NANFANG REFRACTORIES CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
WUXI NANFANG REFRACTORIES CO LTD
Filing Date
2025-06-27
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

When existing permeable bricks are used on slopes or sloping areas, they are prone to detachment due to landslides or collapses, which reduces the stability of the paving and the waste refractory brick resources are not effectively utilized.

Method used

A permeable brick with a splicing structure was designed, including a permeable brick body and a splicing mechanism. Through the cooperation of snap-fit ​​parts, snap-fit ​​blocks and locking components, a stable connection between the permeable brick bodies is achieved. The locking effect of the snap-fit ​​parts and locking components ensures the stability of the brick splicing.

Benefits of technology

It improves the connection stability of breathable bricks, ensuring stable laying in sloping or edge areas, and allows for the recycling of waste refractory bricks, reducing resource waste.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a ventilated brick with splicing structure, including ventilated brick body, splicing mechanism sets up between adjacent ventilated brick body, splicing mechanism is used for splicing locking to adjacent ventilated brick body, and the bottom of adjacent ventilated brick body is slidingly clamped in clamping part, and locking assembly sets up at the end of clamping part, and locking assembly is used for locking clamping part and ventilated brick body, and the bottom of ventilated brick body is opened in butt joint groove, and the outer wall of clamping part is slidingly sleeved with butt joint groove, and the bottom of clamping block is fixedly connected with clamping part, and the top of butt joint groove inner wall is opened with locating groove, and the outer wall of clamping block is slidingly clamped with the inner chamber of locating groove, the utility model provides a ventilated brick with splicing structure with simple structure, flexible clamping, splicing firm, convenient disassembly, improve the ventilated brick with splicing structure with the stability of connection.
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Description

Technical Field

[0001] This utility model relates to the field of breathable brick technology, and more specifically to a breathable brick with a splicing structure. Background Technology

[0002] In the traditional refractory brick industry, whether it's sliding block bricks, nozzle bricks, stopper rods, or permeable bricks, their service life is relatively short. During the steelmaking process in steel plants, it's necessary to replace different types of refractory bricks in a timely manner to ensure the quality of the molten steel. A portion of these used refractory bricks can be recycled to produce new refractory bricks, while the unusable portions are currently disposed of through centralized landfill.

[0003] This represents a significant waste of refractory bricks that have been landfilled. Even if the reprocessing requirements for refractory bricks cannot be met, they can be processed into paving bricks at a lower standard. Therefore, improvements have been made to existing permeable bricks to utilize waste refractory bricks.

[0004] Permeable bricks are a type of building material with good air permeability. They are widely used in landscaping, architecture, roads and other infrastructure. The design of permeable bricks is intended to promote the circulation of water and air, thereby improving soil permeability and plant growth conditions.

[0005] Permeable bricks are not only used in gardens, sidewalks, and buildings, but also for slope protection of riverbanks, lakes, and other bodies of water to reduce soil erosion. When laying permeable bricks, adjacent sides are usually laid together. However, when this method is used on riverbanks, slopes, and other slope areas, some permeable bricks may slide off when landslides or collapses occur on the slope, thus reducing the overall stability of the permeable brick paving and thus having certain defects. Summary of the Invention

[0006] To address the aforementioned problems, the purpose of this utility model is to provide a breathable brick with a splicing structure that is simple in structure, flexible in snap-fit, stable in splicing, easy to disassemble, and improves connection stability.

[0007] According to one aspect of the present invention, a breathable brick with a splicing structure is provided, comprising:

[0008] Breathable brick body;

[0009] A splicing mechanism, disposed between adjacent permeable bricks, is used to splice and lock adjacent permeable bricks. The splicing mechanism includes:

[0010] A snap-fit ​​component, which is slidably snapped into the bottom of an adjacent breathable brick body;

[0011] A locking component is disposed at the end of the snap-fit ​​member, and the locking component is used to lock the snap-fit ​​member and the breathable brick body.

[0012] In some embodiments, the splicing mechanism further includes:

[0013] A docking groove is provided at the bottom of the breathable brick body, and the outer wall of the snap-fit ​​component is slidably sleeved with the docking groove.

[0014] The card block has its bottom fixedly connected to the card connector, and a positioning groove is provided on the top of the inner wall of the docking groove. The outer wall of the card block is slidably engaged with the inner cavity of the positioning groove.

[0015] In some implementations, the locking component includes:

[0016] A locking cover, which is sleeved onto the end of the snap-fit ​​component;

[0017] A positioning plate, one end of which is fixedly connected to a locking cover, and the outer wall of the positioning plate is slidably inserted and sleeved with a snap-fit ​​component;

[0018] A groove is cut into the top of the inner wall of the breathable brick, and one end of the outer wall of the positioning plate is engaged with the bottom of the grooved cavity.

[0019] In some embodiments, the locking component further includes:

[0020] A connector, one end of which is fixedly connected to a locking cover;

[0021] The mounting hole is located at the end of the snap-fit ​​member, and the connector is located inside the mounting hole.

[0022] Preferably, the locking component further includes:

[0023] The buckle is fixedly connected to the connector on its side, and the inner wall of the mounting hole is provided with a slot, and the buckle is slidably engaged in the inside of the slot;

[0024] An elastic element is fixedly connected between adjacent connecting elements.

[0025] In some embodiments, the locking component further includes:

[0026] A fixing bolt is provided on one side of the locking cover, and the outer wall of the fixing bolt is threadedly connected to the snap-fit ​​component;

[0027] A protective cap, which is snapped onto the end of the outer wall of the fixing bolt.

[0028] This invention offers advantages over existing technologies, including simple structure, flexible interlocking, stable splicing, convenient disassembly, and improved connection stability. By utilizing the combined use of breathable bricks and a splicing mechanism, the splicing mechanism includes interlocking components, interlocking blocks, and locking components. The interlocking components and interlocking blocks are engaged at the bottom between two adjacent breathable bricks, ensuring the stability of the splicing of adjacent breathable bricks. Furthermore, the locking components ensure the stability of the interlocking between the interlocking components and adjacent breathable bricks. Attached Figure Description

[0029] Figure 1 This is a structural schematic diagram of the breathable brick with a splicing structure according to this utility model;

[0030] Figure 2 This is a schematic diagram of the internal structure of the front of the breathable brick body in the first embodiment of the breathable brick with splicing structure of this utility model;

[0031] Figure 3 yes Figure 2 A magnified view of a section at point A in the middle;

[0032] Figure 4 This is a schematic diagram of the internal structure of the front part of the breathable brick body in the second embodiment of the present invention, which has a splicing structure. Detailed Implementation

[0033] The present invention will now be described in detail with reference to the embodiments shown in the accompanying drawings. However, it should be noted that these embodiments are not intended to limit the present invention. Equivalent transformations or substitutions in function, method or structure made by those skilled in the art based on these embodiments are all within the protection scope of the present invention.

[0034] In the description of this utility model, it should be noted that, unless otherwise specified and limited, the terms "installation", "connection" and "connection" should be interpreted broadly. For example, they can refer to mechanical or electrical connections, or internal connections between two components. They can be direct connections or indirect connections through an intermediate medium. Those skilled in the art can understand the specific meaning of the terms according to the specific circumstances.

[0035] First embodiment: This utility model provides as follows: Figure 1-3The diagram shows a breathable brick with a splicing structure, comprising a breathable brick body 1 and a splicing mechanism 2. The breathable brick body 1 is hexagonal in shape, and the splicing mechanism 2 is disposed between adjacent breathable brick bodies 1. The splicing mechanism 2 is used to splice and lock adjacent breathable brick bodies 1. The splicing mechanism 2 includes a snap-fit ​​member 21 and a locking component 22. The snap-fit ​​member 21 is slidably snapped onto the bottom of adjacent breathable brick bodies 1. The snap-fit ​​member 21 is U-shaped and made of metal iron. Both ends of the snap-fit ​​member 21 are snapped into the interior of two adjacent breathable brick bodies 1, so that the snap-fit ​​member 21 can splice and lock two adjacent breathable brick bodies 1, thereby ensuring the overall stability of the spliced ​​multiple breathable brick bodies 1. The locking component 22 is disposed at the end of the snap-fit ​​member 21 and is used to lock the snap-fit ​​member 21 and the breathable brick body 1, thereby ensuring the stability of the snap-fit ​​member 21 with the two adjacent breathable brick bodies 1.

[0036] Furthermore, the splicing mechanism 2 also includes a docking groove 23 and a locking block 24. The docking groove 23 is opened at the bottom of the breathable brick body 1. The outer wall of the locking member 21 is slidably sleeved with the docking groove 23. The bottom of the locking block 24 is fixedly connected with the locking member 21. A positioning groove is opened at the top of the inner wall of the docking groove 23. Both the docking groove 23 and the positioning groove are protruding modules set on the brick mold during the production of the breathable brick body 1, thereby forming the docking groove 23 and the positioning groove at the bottom of the breathable brick body 1. The outer wall of the locking block 24 is slidably locked with the inner cavity of the positioning groove. The locking block 24 can improve the stability of the locking member 21 and the two adjacent breathable brick bodies 1.

[0037] Furthermore, the locking component 22 includes a locking cover 221, a positioning plate 222, and a slot 223. The locking cover 221 is sleeved on the end of the snap-fit ​​member 21. One end of the positioning plate 222 is fixedly connected to the locking cover 221. The outer wall of the positioning plate 222 is slidably inserted into the snap-fit ​​member 21, that is, the end of the snap-fit ​​member 21 is provided with a hole that matches the positioning plate 222. The slot 223 is opened at the top of the inner wall of the breathable brick body 1. The slot 223 is formed at the top of the inner wall of the breathable brick body 1 by inserting a protrusion into the mold during the production of the breathable brick body 1. One end of the outer wall of the positioning plate 222 is snapped into the bottom of the inner cavity of the slot 223. When one end of the positioning plate 222 is snapped into the bottom of the inner wall of the slot 223, the snap-fit ​​member 21 can be limited, preventing the snap-fit ​​member 21 from sliding and separating relative to the breathable brick body 1.

[0038] Furthermore, the locking assembly 22 also includes a connector 224, a mounting hole 225, a latch 226, and an elastic member 228. One end of the connector 224 is fixedly connected to the locking cover 221. The mounting hole 225 is located at the end of the latching member 21, and the connector 224 is located inside the mounting hole 225. The side of the latch 226 is fixedly connected to the connector 224. A groove 227 is provided on the inner wall of the mounting hole 225, and the latch 226 slides and engages with the inside of the groove 227. Figure 3 As shown, when the buckles 226 on the opposite side of the two connectors 224 engage with the slots 227, the locking cover 221 can be locked and limited, ensuring the stability of the locking cover 221 engaged with the outer wall end of the connector 21. The elastic element 228 is fixedly connected between the adjacent connectors 224. The elastic element 228 can provide an elastic force to the two connectors 224, so that the buckles 226 on the opposite side of the two connectors 224 maintain a stable engagement with the slots 227.

[0039] Second embodiment: Unlike the first embodiment, as follows Figure 4 As shown, the locking assembly 22 also includes a fixing bolt 229 and a protective cap 2210. The fixing bolt 229 is disposed on one side of the locking cover 221. The outer wall of the fixing bolt 229 is threadedly connected to the snap-fit ​​member 21. That is, the end of the snap-fit ​​member 21 is provided with a threaded groove that matches the fixing bolt 229. Thus, under the action of the fixing bolt 229, the stability of the locking cover 221 sleeved on the end of the snap-fit ​​member 21 can be guaranteed. The protective cap 2210 is snapped onto the end of the outer wall of the fixing bolt 229. The protective cap 2210 can shield and protect the end of the fixing bolt 229. The inner wall of the protective cap 2210 is fixedly connected with a plastic protrusion. The outer wall of the fixing bolt 229 is provided with a groove that matches the protrusion. Thus, the protective cap 2210 is stably snapped onto the end of the fixing bolt 229 through the plastic protrusion.

[0040] The above descriptions are merely some embodiments of this utility model. It should be noted that those skilled in the art can make other modifications and improvements without departing from the inventive concept of this utility model, and these all fall within the protection scope of this utility model.

Claims

1. A breathable brick with a spliced ​​structure, characterized in that, include: Breathable brick body; A splicing mechanism is provided between adjacent breathable bricks, and the splicing mechanism is used to splice and lock adjacent breathable bricks. The splicing mechanism includes: a snap-fit ​​component, which is slidably snapped into the bottom of an adjacent breathable brick body; A locking component is disposed at the end of the snap-fit ​​member, and the locking component is used to lock the snap-fit ​​member and the breathable brick body.

2. The breathable brick with a spliced ​​structure according to claim 1, characterized in that, The splicing mechanism also includes: A docking groove is provided at the bottom of the breathable brick body, and the outer wall of the snap-fit ​​component is slidably sleeved with the docking groove. The card block has its bottom fixedly connected to the card connector, and a positioning groove is provided on the top of the inner wall of the docking groove. The outer wall of the card block is slidably engaged with the inner cavity of the positioning groove.

3. The breathable brick with a spliced ​​structure according to claim 1, characterized in that, The locking component includes: A locking cover, which is sleeved onto the end of the snap-fit ​​component; A positioning plate, one end of which is fixedly connected to a locking cover, and the outer wall of the positioning plate is slidably inserted and sleeved with a snap-fit ​​component; A groove is cut into the top of the inner wall of the breathable brick, and one end of the outer wall of the positioning plate is engaged with the bottom of the grooved cavity.

4. The breathable brick with a spliced ​​structure according to claim 3, characterized in that, The locking component also includes: A connector, one end of which is fixedly connected to a locking cover; The mounting hole is located at the end of the snap-fit ​​member, and the connector is located inside the mounting hole.

5. The breathable brick with a spliced ​​structure according to claim 4, characterized in that, The locking component also includes: The buckle is fixedly connected to the connector on its side, and the inner wall of the mounting hole is provided with a slot, and the buckle is slidably engaged in the inside of the slot; An elastic element is fixedly connected between adjacent connecting elements.

6. The breathable brick with a spliced ​​structure according to any one of claims 1-5, characterized in that, The locking component also includes: A fixing bolt is provided on one side of the locking cover, and the outer wall of the fixing bolt is threadedly connected to the snap-fit ​​component; A protective cap, which is snapped onto the end of the outer wall of the fixing bolt.