A corner brick mold

By designing an adjustable right-angled trapezoidal outer frame and a right-angled trapezoidal support plate for corner brick molds, the problem of insufficient versatility of traditional brick molds was solved, enabling the production of bricks of different shapes and improving brick-making precision and mold life.

CN224374412UActive Publication Date: 2026-06-19SHANGHAI HUJIN CONSTRUCTION ENGINEERING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI HUJIN CONSTRUCTION ENGINEERING CO LTD
Filing Date
2025-06-09
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Traditional brick molds have fixed sizes and shapes, making it difficult to meet diverse production needs and lacking versatility.

Method used

Design a corner brick mold that includes a right-angled trapezoidal outer frame and a right-angled trapezoidal support plate. By adjusting the position of the outer frame and fixing the support plate with locking components, the production of bricks of different shapes can be achieved. The material quantity and cleaning are optimized by combining beveled edges and through-groove structures.

Benefits of technology

It improves the versatility of the mold, ensures accurate brick dimensions, extends the service life of the mold, and meets diverse production needs.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to a kind of corner brick mould, including outer frame, sliding slot is opened in outer frame, outer frame is provided with insertion port, bearing plate is slidably arranged in sliding slot, and bearing plate is provided with locking assembly;By adjusting the relative position of two outer frames, cooperate the fixing of cross fixing frame, both corner mould can be built to be used to make corner brick, and rectangular mould can be built to be used to make rectangular brick, compared with the mould of traditional only specific shape brick block production, the mould can produce different shape products by changing outer frame combination mode, significantly improve the versatility of mould, satisfy the diversified production demand.
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Description

Technical Field

[0001] This utility model belongs to the field of brick mold technology, specifically relating to a corner brick mold. Background Technology

[0002] Brick molds, as specialized tools for manufacturing bricks, are generally made of specific materials such as plastic and metal, and have fixed shapes and sizes. In brick production, brick-making materials such as concrete, cement, and sand and gravel mixtures are filled into the mold, followed by a series of processes including vibration, pressing, and curing, to ultimately shape the material into the desired brick form.

[0003] In actual production, traditional brick molds are often designed and manufactured based on specific bricks. Their dimensions and shape are determined during the manufacturing process and are usually difficult to change later. This limits the use of traditional brick molds to producing bricks of specific shapes, resulting in poor versatility and difficulty in meeting diverse production needs. Therefore, we have proposed a corner brick mold to address these issues. Utility Model Content

[0004] The purpose of this utility model is to provide a corner brick mold to solve the problems existing in the background art.

[0005] To achieve the above-mentioned technical objectives, the technical solution adopted by this utility model is as follows:

[0006] A corner brick mold, comprising:

[0007] Two outer frames, each frame being a right-angled trapezoid with an open hypotenuse, the openings of the two outer frames abutting each other;

[0008] Four support plates are provided, each support plate is configured as a right-angled trapezoid, and two of the outer frames have symmetrically opened grooves on their inner walls, and two of the outer frames have symmetrically opened insertion ports on their outer sides, and the insertion ports are connected to the two grooves on the same horizontal plane. The support plate is slidably disposed between the two grooves on the same horizontal plane.

[0009] A locking assembly for securing two adjacent support plates.

[0010] Furthermore, each of the bearing plates has a clamping block fixed at one end extending from the insertion port, and the surface area of ​​the clamping block is larger than the opening area of ​​the insertion port.

[0011] Further specifying, the locking component includes:

[0012] The cross fixing bracket has two threaded holes on the outer sides of two adjacent bearing plates. The cross fixing bracket is installed on the two bearing plates on the same end face. The cross fixing bracket has through holes that match each of the threaded holes.

[0013] Furthermore, the inclined sides of each of the aforementioned bearing plates are all configured as beveled edges.

[0014] Furthermore, the groove is located inside the outer frame.

[0015] Furthermore, the two outer frames are symmetrically provided with through slots on their outer sides, and the through slots are connected to the corresponding sliding grooves.

[0016] The beneficial effects of this utility model are:

[0017] 1. By adjusting the relative positions of the two right-angled trapezoidal outer frames, corner molds can be built with the outer frames perpendicular to each other to produce corner bricks, and rectangular molds can be built with the outer frames parallel to each other to produce rectangular bricks. By changing the combination of the outer frames, products of different shapes can be produced, which greatly improves the versatility of the mold and meets diverse production needs.

[0018] 2. By setting the beveled edge of the support plate to a beveled edge, when too much brick-making material is poured in, the excess material can be scraped off like a scraper, ensuring that the amount of material in the mold is appropriate and that the corner bricks produced are dimensionally accurate.

[0019] 3. The two outer frames have symmetrically designed through-slots on their upper and lower sides that connect to corresponding sliding grooves. After brick making is complete, cleaning tools can enter the sliding grooves through the through-slots to remove residual material, reducing the impact of material accumulation on the next use of the mold and extending its service life. A scraping wire or cutting wire can also be inserted to move along the through-slots and remove excess brick-making material, further ensuring precise brick dimensions. Attached Figure Description

[0020] This utility model can be further illustrated by the non-limiting embodiments given in the accompanying drawings.

[0021] Figure 1 This is a schematic diagram of the structure of a corner brick mold according to the present invention. Figure 1 ;

[0022] Figure 2 This is a schematic diagram of the structure of a corner brick mold according to the present invention. Figure 2 ;

[0023] Figure 3 This is a schematic diagram of the internal structure of a corner brick mold according to the present invention;

[0024] Figure 4 This is a schematic diagram of a modified corner brick mold according to the present invention;

[0025] Figure 5 This is a schematic diagram of the structure of a corner brick mold according to the present invention. Figure 3 ;

[0026] The symbols for the main components are explained below:

[0027] Outer frame 100, support plate 101, slide groove 102, insertion port 103

[0028] Clamping block 200, cross fixing bracket 201, threaded hole 202, through groove 203. Detailed Implementation

[0029] To enable those skilled in the art to better understand this utility model, the technical solution of this utility model will be further described below in conjunction with the accompanying drawings and embodiments.

[0030] Example 1:

[0031] like Figures 1-5 As shown, a corner brick mold includes:

[0032] Two outer frames 100, each set as a right-angled trapezoid with an open hypotenuse, and the openings of the two outer frames 100 abut against each other.

[0033] Four support plates 101 are configured as right-angled trapezoids. The inner walls of the two outer frames 100 are symmetrically provided with grooves 102. The outer sides of the two outer frames 100 are symmetrically provided with insertion ports 103. The insertion ports 103 are connected to the two grooves 102 on the same horizontal plane. The support plates 101 are slidably disposed between the two grooves 102 on the same horizontal plane.

[0034] A locking assembly is used to secure two adjacent support plates 101.

[0035] The outer frame 100 is designed as a right-angled trapezoid with an opening on the hypotenuse, and the openings of the two outer frames 100 abut against each other. The shape of the right-angled trapezoid is the basis for constructing the special mold space, and its hypotenuse opening is for docking with another outer frame 100. When the two outer frames 100 dock and are perpendicular to each other, a corner-shaped frame structure can be formed. This frame provides space for the subsequent filling of brick-making materials, defines the shape of the corner part of the brick, is the basic support structure of the entire mold, and determines the outer contour of the final corner brick.

[0036] The support plate 101 is also a right trapezoid, which is adapted to the outer frame 100. It can slide between two grooves 102 on the same horizontal plane. Its main function is to support the brick making material. During the brick making process, the support plate 101 slides into the groove 102 through the insertion port 103. When the hypotenuses of the two support plates 101 on the same horizontal plane abut against each other, one side of the corner frame can be closed, so that the brick making material can be confined within the space enclosed by the outer frame 100 and the support plate 101, ensuring that the brick making material will not leak during the molding process, and also participating in shaping the side shape of the brick.

[0037] The insertion port 103 is an external channel for inserting the carrier plate 101 into the slide groove 102.

[0038] The slide 102 is used to accommodate the sliding track of the support plate 101, so that the support plate 101 can only slide along the slide 102 and block the side opening of the outer frame 100.

[0039] The locking assembly can firmly connect adjacent support plates 101 together, maintain the stability of the mold structure, and ensure the smooth progress of the brick making process.

[0040] The outer frame 100, the support plate 101, and the locking assembly are combined to form a complete and stable corner brick mold structure. The outer frame 100 constructs a corner-shaped space, the support plate 101 encloses the space and supports the brick-making material, and the locking assembly ensures the stable connection of the support plate 101. The three work together to allow the brick-making material to be shaped within a specific space, thereby producing corner bricks that meet the requirements. This combination not only realizes the corner brick production function, but also improves the reliability of the mold and the precision of brick making by the coordinated work of each component, providing an effective tool for the production of corner bricks.

[0041] Each bearing plate 101 has a clamping block 200 fixed at one end extending from the insertion port 103, and the surface area of ​​the clamping block 200 is larger than the opening area of ​​the insertion port 103.

[0042] The clamping block 200 mainly serves to strengthen and fix the mold. During the mold's operation, two adjacent bearing plates 101 are fixed together by the locking assembly. Since the surface area of ​​the clamping block 200 is larger than the opening area of ​​the insertion port 103, it can reinforce the outer frame to a certain extent, thereby improving the stability of the mold during the brick-making process.

[0043] The locking components include:

[0044] The cross fixing bracket 201 has two threaded holes 202 on the outer sides of two adjacent bearing plates 101. The cross fixing bracket 201 is installed on the two bearing plates 101 on the same end face. The cross fixing bracket 201 has through holes that match each threaded hole 202.

[0045] The cross-fixing bracket 201 is the core component of the locking assembly. Its main function is to firmly connect two adjacent bearing plates 101 together, ensuring that the bearing plates 101 will not undergo relative displacement during the brick making process, maintaining the stability of the mold structure, and thus ensuring that the corner bricks produced are accurate in size and regular in shape.

[0046] The threaded holes 202 provide an installation position for the cross bracket 201. Workers can use bolts to thread and fix the cross bracket 201 into the threaded holes 202, thereby enabling the cross bracket 201 to achieve a stable connection with the support plate 101. This enhances the reliability of the connection between the cross bracket 201 and the support plate 101, prevents loosening of the connection, and ensures that the locking components function properly.

[0047] The beveled edges of each bearing plate 101 are all set as beveled edges.

[0048] When pouring brick-making material into the mold, it is difficult to accurately control the amount of material. The beveled edge of the support plate 101 can act like a scraper to easily remove the excess material when too much material is poured in, ensuring that the amount of material in the mold is appropriate and guaranteeing that the final corner bricks are sized accurately.

[0049] The slide 102 is located inside the outer frame 100.

[0050] The slide 102 provides a precise sliding track for the support plate 101, ensuring that the support plate 101 can move stably and smoothly within the outer frame 100; this allows the support plate 101 to maintain the correct position and orientation during installation, position adjustment, and brick making, ensuring the sealing and structural stability of the mold.

[0051] Meanwhile, the chute 102 can also limit the movement range of the support plate 101, preventing the support plate 101 from shifting or shaking during use, thereby ensuring the accuracy and quality of brick making;

[0052] The slide 102 is located inside the outer frame 100, and there is a gap between it and the end face of the outer frame 100. When the mold is inverted, it will contact the end face of the outer frame 100 first, so that the brick mold has space to slide, which makes it easier for the brick mold to be better removed from the mold and improves the mold production efficiency.

[0053] Two outer frames 100 have symmetrical through grooves 203 on their outer sides, which are connected to the corresponding sliding grooves 102.

[0054] The through groove 203 facilitates the cleaning and maintenance of the mold; after the brick making is completed, the brick making material may remain in the slide 102. The through groove 203 allows the cleaning tool to enter the slide 102 to remove the residual material, reduce the impact of material accumulation on the next use of the mold, and extend the service life of the mold.

[0055] The through groove 203 can also accommodate scraping steel wire or cutting steel wire; by pulling the scraping steel wire or cutting steel wire, the scraping steel wire or cutting steel wire can be moved along the through groove 203 to remove excess brick making material, thereby ensuring that the amount of material in the mold is appropriate and ensuring that the final corner brick is dimensionally accurate.

[0056] Build corner molds:

[0057] First, the diagonal openings of the two outer frames 100 are joined together and made perpendicular to each other to form a corner-shaped frame structure, providing filling space for the brick material and determining the outer contour of the corner brick.

[0058] Then, the bearing plate 101 is slid into the groove 102 on the same horizontal plane of the inner wall of the outer frame 100 through the insertion port 103. When the hypotenuses of the two bearing plates 101 on the same horizontal plane abut against each other, one side of the closed corner frame is realized.

[0059] Finally, the cross fixing bracket 201 is installed into the threaded holes 202 on the outside of the two bearing plates 101 on the same end face using bolts, so as to firmly connect the adjacent bearing plates 101. With the clamping block 200 abutting against the outer frame 100, the stability of the mold structure is maintained, ensuring the smooth brick making process and guaranteeing that the corner bricks are accurate in size and regular in shape.

[0060] This creates a corner mold used to make corner bricks.

[0061] Build a rectangular mold:

[0062] The diagonal openings of the two outer frames 100 abut against each other and the two outer frames 100 are parallel to each other to form a rectangular frame structure, providing filling space for brick-making materials and determining the outer contour of the corner bricks.

[0063] The subsequent installation steps are the same as those described above, and will not be described in detail here. This completes the assembly of a rectangular mold for making rectangular bricks.

[0064] In this embodiment, by adjusting the relative positions of the two outer frames 100 and fixing them with the cross fixing bracket 201, a corner mold can be built to produce corner bricks, and a rectangular mold can be built to produce rectangular bricks. Compared with traditional molds that can only produce bricks of specific shapes, this mold can produce products of different shapes by changing the combination of the outer frames, which significantly improves the versatility of the mold and meets diverse production needs.

[0065] The above embodiments are merely illustrative of the principles and effects of this utility model and are not intended to limit the scope of this utility model. Any person skilled in the art can modify or alter the above embodiments without departing from the spirit and scope of this utility model. Therefore, all equivalent modifications or alterations made by those skilled in the art without departing from the spirit and technical concept disclosed in this utility model should still be covered by the claims of this utility model.

Claims

1. A corner brick mold characterized by, include: Two outer frames (100) are configured as right-angled trapezoids with open hypotenuses, and the openings of the two outer frames (100) abut against each other; Four support plates (101) are configured as right trapezoids. The inner walls of the two outer frames (100) are symmetrically provided with grooves (102) and the outer sides of the two outer frames (100) are symmetrically provided with insertion ports (103). The insertion ports (103) are connected to the two grooves (102) on the same horizontal plane. The support plates (101) are slidably disposed between the two grooves (102) on the same horizontal plane. A locking assembly for securing two adjacent support plates (101).

2. A corner brick mold according to claim 1, characterized in that: Each of the bearing plates (101) has a clamping block (200) fixed at one end extending from the insertion port (103), and the surface area of ​​the clamping block (200) is greater than the opening area of ​​the insertion port (103).

3. A corner brick mold according to claim 1, characterized in that: The locking component includes: The cross fixing bracket (201) has two threaded holes (202) on the outer side of each of the two adjacent bearing plates (101). The cross fixing bracket (201) is installed on the two bearing plates (101) on the same end face. The cross fixing bracket (201) has through holes that match each of the threaded holes (202).

4. A corner brick mold according to claim 1, characterized in that: The oblique edges of each of the aforementioned bearing plates (101) are all set as beveled edges.

5. A corner brick mold according to claim 1, characterized in that: The groove (102) is located inside the outer frame (100).

6. A corner brick mold according to claim 1, characterized in that: The two outer frames (100) are symmetrically provided with through slots (203) on their outer sides, and the through slots (203) are connected to the corresponding sliding grooves (102).