Environment-friendly non-clay solid brick wall body
By combining V-shaped and diamond-shaped brick layers, the problems of poor thermal insulation and difficulty in threading wires in environmentally friendly non-clay solid brick walls are solved, achieving weight reduction, thermal insulation, aesthetics, and waterproofing effects, and reducing construction costs.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANXI INSTALLATION GRP CO LTD
- Filing Date
- 2025-05-21
- Publication Date
- 2026-06-09
AI Technical Summary
Existing environmentally friendly non-clay solid brick walls have poor thermal insulation performance and are difficult to thread wires through, increasing construction costs.
The structure uses a combination of V-shaped and diamond-shaped brick layers, with diamond-shaped brick layers placed between the V-shaped brick layers to form a hollow wall. The brick layers have grooves for wires to pass through. It uses environmentally friendly non-clay solid brick materials, combined with waterproof coating to enhance aesthetics and waterproofness.
It improves the thermal insulation performance and aesthetics of the walls, reduces construction costs, facilitates internal wiring, prevents moisture accumulation, and enhances indoor environmental comfort.
Smart Images

Figure CN224338454U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of building block technology, specifically to an environmentally friendly non-clay solid brick wall. Background Technology
[0002] Environmentally friendly non-clay solid brick walls are walls made using environmentally friendly non-clay solid bricks as building materials. Environmentally friendly non-clay solid bricks are a type of environmentally friendly wall material made from industrial waste residue, recycled materials, or natural non-clay minerals through scientific formulation and production processes.
[0003] Most existing environmentally friendly non-clay solid brick walls are solid walls, which are prone to poor thermal insulation performance due to their nature. This requires the addition of an extra insulation layer, which can increase construction costs. In addition, existing solid walls are not easy to run wires through, requiring additional wire channels to be made. Utility Model Content
[0004] The purpose of this utility model is to provide an environmentally friendly non-clay solid brick wall to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, this utility model provides the following technical solution: an environmentally friendly non-clay solid brick wall, comprising a V-shaped brick layer, a rhombus-shaped brick layer, a lower rhombus-shaped brick layer, and an upper rhombus-shaped brick layer. The lower rhombus-shaped brick layer is in contact with the ground. Multiple V-shaped brick layers are provided on the upper part of the lower rhombus-shaped brick layer. A rhombus-shaped brick layer is provided between two adjacent V-shaped brick layers. The openings of the V-shaped brick layers are adapted to the protrusions of the rhombus-shaped brick layers. Two adjacent V-shaped brick layers are staggered. The rhombus-shaped brick layer includes two rows of rhombus-shaped bricks arranged at intervals. The two rows of rhombus-shaped bricks are respectively arranged on both sides of the lower V-shaped brick layer. A V-shaped brick layer is erected on the upper part of the two rows of rhombus-shaped bricks. The edge gaps of the V-shaped brick layer at the top of the wall are filled by the upper rhombus-shaped brick layer. Both the lower and upper rhombus-shaped brick layers include rows of rhombus-shaped bricks.
[0006] Furthermore, the V-shaped brick layer includes multiple V-shaped brick groups arranged side by side. Each V-shaped brick group includes a first side brick and a second side brick. The first side brick and the second side brick are two symmetrically arranged parallelogram bricks. The adjacent surfaces of the first side brick and the second side brick are bonded together to form a V-shape. The first side brick and the second side brick are built on two rows of opposite rhomboid bricks on the same layer. The first side brick, the second side brick and the rhomboid bricks are all environmentally friendly non-clay solid bricks.
[0007] Furthermore, a first threading groove is provided at the middle of both ends of the first side brick, and a second threading groove is provided at the middle of both ends of the second side brick, with the first threading groove and the second threading groove cooperating with each other.
[0008] Furthermore, in the same V-shaped brick group, the two ends of the first side brick and the second side brick that are far apart are both vertically arranged. The first side brick has a first limiting protrusion on both sides of its upper surface, and the second side brick has a second limiting protrusion on both sides of its upper surface. The two rows of rhomboid bricks in the same rhomboid brick layer abut against the first limiting protrusion and the second limiting protrusion on the same V-shaped brick layer, respectively.
[0009] Furthermore, the lower rhomboid brick layer includes four rows of rhomboid bricks, and these four rows of rhomboid bricks are aligned and in contact. The rhomboid bricks are rhomboid bricks that are horizontally cut off from the middle, and the cross-section is in contact with the ground.
[0010] Furthermore, the upper diamond-shaped brick layer includes two rows of diamond-shaped bricks, which are spaced apart on both sides of the lower V-shaped brick layer.
[0011] Compared with the prior art, the present invention has the following beneficial effects:
[0012] 1. This utility model provides an environmentally friendly non-clay solid brick wall, which has multiple V-shaped brick layers and a diamond-shaped brick layer between two adjacent V-shaped brick layers. The diamond-shaped brick layer includes two rows of diamond-shaped bricks spaced apart. The two rows of diamond-shaped bricks are respectively set on both sides of the lower V-shaped brick layer to form a hollow wall. This can reduce the weight of the wall, while blocking some sound and heat, improving the physical properties of the wall, eliminating the need for an additional insulation layer, and reducing construction costs.
[0013] 2. This utility model provides an environmentally friendly non-clay solid brick wall. The V-shaped brick assembly includes a first side brick and a second side brick. The first side brick has a first wire-passing groove in the middle of both ends, and the second side brick has a second wire-passing groove in the middle of both ends. The first and second wire-passing grooves cooperate to form a crisscrossing wire-passing channel, which facilitates wire passing through the wall and improves the aesthetics of the interior. At the same time, it connects multiple hollow spaces, which can promote air circulation in the wall, prevent moisture accumulation, reduce mold growth, and enhance the winter warmth and summer coolness effect of the interior space composed of this wall.
[0014] 3. This utility model provides an environmentally friendly non-clay solid brick wall, in which the first side brick, the second side brick, and the diamond-shaped brick are all environmentally friendly non-clay solid bricks. Different colors of waterproof coatings can be applied to the outer surfaces of the first side brick, the second side brick, and the diamond-shaped brick to enhance the external aesthetics and waterproofness. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of an environmentally friendly non-clay solid brick wall structure according to an embodiment of the present utility model;
[0016] Figure 2 This is a schematic diagram of the V-shaped brick assembly structure described in an embodiment of the present utility model;
[0017] Figure 3 This is a schematic diagram of the structure of the first and second side bricks in an embodiment of this utility model;
[0018] Figure 4 This is a schematic diagram of the cross-sectional structure of an environmentally friendly non-clay solid brick wall according to an embodiment of the present utility model;
[0019] Figure 5 This is a schematic diagram of the rhomboid brick structure described in an embodiment of the present utility model.
[0020] In the diagram: 1. V-shaped brick layer; 11. V-shaped brick group; 111. First side brick; 1111. First limiting protrusion; 1112. First wire groove; 112. Second side brick; 1121. First limiting protrusion; 1122. Second wire groove; 2. Rhombus brick layer; 21. Rhombus brick; 3. Lower rhombus brick layer; 4. Upper rhombus brick layer. Detailed Implementation
[0021] 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.
[0022] In the following description of the utility model, it should be noted that the terms "upper," "lower," "left," "right," "inner," and "outer," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, and are only for the convenience of describing the utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation or be constructed and operated in a specific orientation. The term "connection" only indicates the connection between devices and has no special meaning.
[0023] Furthermore, the technical fields and installation methods involved in the embodiments of this utility model described below can be combined with each other as long as they do not conflict with each other.
[0024] Specific implementation examples Figures 1-5The environmentally friendly non-clay solid brick wall includes a V-shaped brick layer 1, a rhombus-shaped brick layer 2, a lower rhombus-shaped brick layer 3, and an upper rhombus-shaped brick layer 4. The lower rhombus-shaped brick layer 3 is in contact with the ground. Multiple V-shaped brick layers 1 are arranged on the upper part of the lower rhombus-shaped brick layer 3. A rhombus-shaped brick layer 2 is arranged between two adjacent V-shaped brick layers 1. The openings of the V-shaped brick layers 1 are adapted to the protrusions of the rhombus-shaped brick layers 2. The staggered arrangement of adjacent V-shaped brick layers 1 can improve the wall strength. The rhombus-shaped brick layer 2 includes two rows of rhombus-shaped bricks 21 spaced apart. The rhombus-shaped bricks 21 are respectively set on both sides of the lower V-shaped brick layer 1. The V-shaped brick layer 1 is supported on the top of the two rows of rhombus-shaped bricks 21. The two rows of rhombus-shaped bricks 21 form a hollow wall, which can block some sound and heat, improve the physical properties of the wall, and eliminate the need for an additional insulation layer, thus reducing construction costs. The edge gap of the V-shaped brick layer 1 at the top of the wall is filled by the upper rhombus-shaped brick layer 4. The lower rhombus-shaped brick layer 3 and the upper rhombus-shaped brick layer 4 both include rows of rhombus-shaped bricks, which are rhombus-shaped bricks 21 that are horizontally cut off from the middle.
[0025] The V-shaped brick layer 1 includes multiple V-shaped brick groups 11 arranged side by side. Each V-shaped brick group 11 includes a first side brick 111 and a second side brick 112. The first side brick 111 and the second side brick 112 are two symmetrically arranged parallelogram bricks. The adjacent surfaces of the first side brick 111 and the second side brick 112 are bonded together to form a V-shape. The first side brick 111 and the second side brick 112 are built on two rows of opposite rhomboid bricks 21 on the same layer. The first side brick 111, the second side brick 112 and the rhomboid brick 21 are all environmentally friendly non-clay solid bricks, made from industrial waste, coal gangue, fly ash and other raw materials, and formed by pressing. Different colored waterproof coatings can be applied to the outer surfaces of the first side brick 111, the second side brick 112 and the rhomboid brick 21 to enhance the external aesthetics and waterproofness. In addition, the brick joints formed between the first side brick 111, the second side brick 112 and the rhomboid brick 21 are inclined, which has good water conductivity and reduces water accumulation, thereby reducing the risk of water leakage in the entire wall.
[0026] In the same V-shaped brick group 11, the two ends of the first side brick 111 and the second side brick 112 that are far apart are both vertically arranged, which facilitates the contact and cooperation of two adjacent V-shaped brick groups 11, reduces the gap between two adjacent V-shaped brick groups 11, and enhances the strength of the wall; the upper surface of the first side brick 111 is provided with a first limiting protrusion 1111 on both sides, and the upper surface of the second side brick 112 is provided with a second limiting protrusion 1121 on both sides. The two ends of the first limiting protrusion 1111 and the second limiting protrusion 1121 that are far apart are both vertically arranged, which facilitates the contact and cooperation of the first limiting protrusion 1111 and the second limiting protrusion 1121. The two ends of the first limiting protrusion 1111 and the second limiting protrusion 1121 that are far apart are both horizontally arranged, which prevents them from affecting the laying of the upper brick layer. The same rhomboid brick layer 2 Two rows of rhomboid bricks 21 respectively abut against the first limiting protrusion 1111 and the second limiting protrusion 1121 on the same V-shaped brick layer 1, which can help workers position the rhomboid bricks 21 during construction and prevent the rhomboid bricks 21 from shifting laterally; the first side brick 111 has a first wire-passing groove 1112 at the middle of both ends, and the second side brick 112 has a second wire-passing groove 1122 at the middle of both ends. The first wire-passing groove 1112 and the second wire-passing groove 1122 cooperate with each other and, together with the gaps between the two rows of rhomboid bricks 21 on the same rhomboid brick layer 2, can form a crisscrossing wire-passing channel, which facilitates wire passing in the wall, improves the interior aesthetics, and connects multiple hollow spaces, which can promote air circulation in the wall, avoid moisture accumulation, reduce mold growth, and also enhance the winter warmth and summer coolness effect of the interior space composed of this wall.
[0027] The lower diamond-shaped brick layer 3 includes four rows of diamond-shaped bricks, which are aligned and in contact without gaps, and their cross-sections are in contact with the ground, which can improve the strength of the wall; the upper diamond-shaped brick layer 4 includes two rows of diamond-shaped bricks, which are spaced apart at both ends of the lower V-shaped brick layer 1.
[0028] In the construction of an environmentally friendly non-clay solid brick wall, a lower diamond-shaped brick layer 3 is laid at the bottom, a V-shaped brick layer 1 is laid on top of the lower diamond-shaped brick layer 3, and a diamond-shaped brick layer 2 is laid on top of the V-shaped brick layer 1. Then, the V-shaped brick layer 1 and the diamond-shaped brick layer 2 are laid repeatedly until a suitable height is reached. The edge gap of the V-shaped brick layer 1 at the top of the wall is filled by the upper diamond-shaped brick layer 4. Then, the V-shaped brick group 11 and the diamond-shaped brick 21 protruding from both ends of the wall are cut off vertically.
[0029] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. An environmentally friendly non-clay solid brick wall, characterized in that: It includes a V-shaped brick layer, a diamond-shaped brick layer, a lower diamond-shaped brick layer, and an upper diamond-shaped brick layer. The lower diamond-shaped brick layer is in contact with the ground. Multiple V-shaped brick layers are set on the upper part of the lower diamond-shaped brick layer. A diamond-shaped brick layer is set between two adjacent V-shaped brick layers. The opening of the V-shaped brick layer matches the protrusion of the diamond-shaped brick layer. Two adjacent V-shaped brick layers are staggered. The diamond-shaped brick layer includes two rows of diamond-shaped bricks set at intervals. The two rows of diamond-shaped bricks are set on both sides of the lower V-shaped brick layer. A V-shaped brick layer is set on the upper part of the two rows of diamond-shaped bricks. The edge gap of the V-shaped brick layer at the top of the wall is filled by the upper diamond-shaped brick layer. Both the lower diamond-shaped brick layer and the upper diamond-shaped brick layer include rows of diamond-shaped bricks.
2. The environmentally friendly non-clay solid brick wall according to claim 1, characterized in that: The V-shaped brick layer includes multiple V-shaped brick groups arranged side by side. Each V-shaped brick group includes a first side brick and a second side brick. The first side brick and the second side brick are two symmetrically arranged parallelogram bricks. The adjacent surfaces of the first side brick and the second side brick are bonded together to form a V shape. The first side brick and the second side brick are built on two rows of opposite rhomboid bricks on the same layer. The first side brick, the second side brick and the rhomboid bricks are all environmentally friendly non-clay solid bricks.
3. The environmentally friendly non-clay solid brick wall according to claim 2, characterized in that: The first side brick has a first wire-passing groove at the middle of both ends, and the second side brick has a second wire-passing groove at the middle of both ends. The first wire-passing groove and the second wire-passing groove cooperate with each other.
4. The environmentally friendly non-clay solid brick wall according to claim 2, characterized in that: In the same V-shaped brick group, the two ends of the first and second side bricks that are far apart are both vertically arranged. The first side brick has a first limiting protrusion on both sides of its upper surface, and the second side brick has a second limiting protrusion on both sides of its upper surface. The two rows of rhomboid bricks in the same rhomboid brick layer abut against the first and second limiting protrusions on the same V-shaped brick layer, respectively.
5. The environmentally friendly non-clay solid brick wall according to claim 1, characterized in that: The lower rhomboid brick layer includes four rows of rhomboid bricks, and these four rows of rhomboid bricks are aligned and in contact. The rhomboid bricks are rhomboid bricks that are horizontally cut from the middle, and the cross-section is in contact with the ground.
6. The environmentally friendly non-clay solid brick wall according to claim 1, characterized in that: The upper diamond-shaped brick layer includes two rows of diamond-shaped bricks, which are spaced apart on both sides of the lower V-shaped brick layer.