A brick supporting frame for brick factory facilitating the taking and placing of the forklift

By using hollow rectangular steel pipes and sliding positioning baffles in the brick support frame, combined with positioning pins and reinforcing ribs, the problem of unstable forklift operation was solved, achieving stable support and efficient transportation of the bricks.

CN224491900UActive Publication Date: 2026-07-14FENGJIE WUJIAGOU BUILDING MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FENGJIE WUJIAGOU BUILDING MATERIALS CO LTD
Filing Date
2025-07-29
Publication Date
2026-07-14

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    Figure CN224491900U_ABST
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Abstract

The utility model relates to the technical field of brick factory equipment, and disclose a kind of brick factory is used to brick support frame of fork truck pick-and-place easily, including frame main body, the frame main body is integrally welded into shape using high-strength steel material, four hollow rectangular steel tubes are distributed in parallel along width direction inside the frame main body, and the four hollow rectangular steel tubes are symmetrically arranged in two groups.The brick support frame of brick factory that pick-and-place easily, by setting hollow rectangular steel tube and positioning baffle, hollow rectangular steel tube provides stable insertion track for fork truck fork, ensures that fork can accurately enter inside frame along preset path, when positioning baffle slides in steel tube, the position can be adjusted according to the width of different fork truck fork, forms wraparound type limiting from both sides to fork, avoid relative deviation of frame and fork in pick-and-place process, solve the problem that traditional frame causes brick to fall due to fork shaking, make fork truck operation more stable and efficient.
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Description

Technical Field

[0001] This utility model relates to the field of brick factory equipment technology, specifically to a brick support frame for brick factories that is easy for forklifts to pick up and put down. Background Technology

[0002] In the brick factory production process, after the bricks are made through the molding process, they need to be stacked, transported, and cured with the help of a support frame.

[0003] The existing patent document CN210083822U provides a brick pallet support that is easy to handle. This utility model can support the placement plate by setting a support plate and left and right connecting plates, and a moving groove is set under the support plate to facilitate forklift transportation. Furthermore, by setting a groove, bricks can be placed in the groove to prevent them from falling off under external force.

[0004] However, the existing brick support frame is not convenient for flexibly adjusting the limiting structure according to the width of the forklift forks. Although the existing support frame is equipped with a movable slot for the forklift forks to insert, which can realize basic transportation functions, it lacks a positioning baffle that can slide in the slot. It cannot adjust the limiting position according to the width of the forks, and therefore cannot form a wrap-around fixation for the forks from both sides. This makes it easy for the forks to offset relative to the frame after insertion. During the picking, placing and handling process, the frame is prone to shaking, causing bricks to fall off, which affects the stability and efficiency of forklift operation. Utility Model Content

[0005] (a) Technical problems to be solved

[0006] The purpose of this utility model is to provide a brick support frame for brick factories that is easy for forklifts to pick up and put down, so as to solve the problem mentioned in the background art that the existing brick support frame is not convenient for flexibly adjusting the limiting structure according to the width of the forklift forks.

[0007] (II) Technical Solution

[0008] To achieve the above objectives, this utility model provides the following technical solution: a brick support frame for brick factories that is easy for forklifts to pick up and place, comprising a frame body, wherein the frame body is integrally welded from high-strength steel, and four hollow rectangular steel tubes are distributed parallel to each other along the width direction inside the frame body, the four hollow rectangular steel tubes are arranged in two symmetrical groups, and a positioning baffle is slidably embedded inside each hollow rectangular steel tube, the length of the positioning baffle being consistent with the inner cavity length of the hollow rectangular steel tube.

[0009] As a further improvement to the above solution, the top of the positioning baffle is symmetrically provided with fixing holes on both sides, and the upper surface of the frame body is symmetrically distributed with several sets of evenly arranged guide holes corresponding to the two sides of the positioning baffle.

[0010] As a further improvement to the above solution, the diameter of the guide hole is adapted to the fixed hole, and the frame body is equipped with a positioning pin, which can vertically penetrate the guide hole and be inserted into the corresponding fixed hole.

[0011] As a further improvement to the above solution, the two ends of the positioning baffle are respectively integrally formed with limiting blocks. The size of the limiting blocks is larger than the opening size of the hollow rectangular steel pipe and is tightly fitted to the outer wall surface of the frame body.

[0012] As a further improvement to the above solution, a grid-like bottom plate is horizontally arranged in the middle of the frame body, and an upper reinforcing rib layer is horizontally welded inside the frame body between the grid-like bottom plate and the hollow rectangular steel pipe.

[0013] As a further improvement to the above solution, the interior of the frame body is located below the hollow rectangular steel tube, and a lower reinforcing rib layer is welded longitudinally. Positioning protrusions are symmetrically arranged on both sides of the bottom end of the frame body, and positioning grooves corresponding to the positioning protrusions are arranged on both sides of the upper surface of the frame body.

[0014] Compared with the prior art, the beneficial effects of this utility model are:

[0015] 1. This brick support frame for brick factories, which facilitates forklift loading and unloading, features hollow rectangular steel pipes and positioning baffles. The hollow rectangular steel pipes provide a stable insertion track for the forklift forks, ensuring that the forks can accurately enter the frame along a preset path. When the positioning baffles slide inside the steel pipes, their position can be adjusted according to the width of different forklift forks, forming a wrap-around limit on the forks from both sides. This prevents relative displacement between the frame and the forks during loading and unloading, solving the problem of bricks falling due to fork wobbling in traditional frames, and making forklift operation more stable and efficient.

[0016] 2. This brick support frame for brick factories, which facilitates forklift loading and unloading, features fixed holes, guide holes, and positioning pins. When the positioning baffle is adjusted to the appropriate position, the positioning pins can precisely pass through the guide holes and insert into the fixed holes, firmly locking the positioning baffle in its current position. This structure ensures that the adjusted positioning baffle will not shift under force, and also allows for fine adjustment of the spacing through multiple evenly distributed guide holes, adapting to different sizes of forklift forks. Compared with the traditional fixed-size slot design, it has greater versatility, and the adjustment operation is simple and quick, requiring no additional tools.

[0017] 3. This brick support frame for brick factories, which is easy for forklifts to pick up and put in, has an upper reinforcing rib layer between the grid-like base plate and the hollow rectangular steel pipe, and a lower reinforcing rib layer below the hollow rectangular steel pipe. The main body of the frame is made of high-strength steel and welded as a whole, forming a multi-layer three-dimensional reinforced structure. This design significantly improves the overall load-bearing capacity and deformation resistance of the frame, can stably support multi-layer stacked bricks, and extend the service life of the frame.

[0018] 4. This brick support frame for brick factories, which is easy for forklifts to pick up and put down, has a positioning protrusion at the bottom of the frame body and a corresponding positioning groove on the upper surface. This allows multiple frames to be precisely aligned when stacked. The interlocking structure of the positioning protrusion and the groove restricts lateral displacement, which not only improves the space utilization during storage and transportation, but also reduces the risk of collapse during stacking, thus improving the practicality of the support frame. Attached Figure Description

[0019] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0020] Figure 2 This is a schematic diagram of the three-dimensional structure of the main frame of this utility model;

[0021] Figure 3 This is a three-dimensional structural diagram of the positioning baffle of this utility model;

[0022] Figure 4 This is a magnified structural diagram showing a partial detail of the hollow rectangular steel tube of this utility model.

[0023] In the diagram: 1. Main frame; 2. Hollow rectangular steel pipe; 3. Positioning baffle; 4. Fixing hole; 5. Guide hole; 6. Positioning pin; 7. Limiting block; 8. Grid-like base plate; 9. Upper reinforcing rib layer; 10. Lower reinforcing rib layer; 11. Positioning protrusion; 12. Positioning groove. Detailed Implementation

[0024] 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.

[0025] Please see Figure 1 - Figure 4This utility model provides a technical solution: a brick support frame for brick factories that is easy for forklifts to pick up and put down, including a frame body 1. The frame body 1 is integrally welded from high-strength steel. Four hollow rectangular steel tubes 2 are distributed parallel to each other along the width direction inside the frame body 1. The four hollow rectangular steel tubes 2 are arranged in two symmetrical groups. A positioning baffle 3 is slidably embedded inside each hollow rectangular steel tube 2. The length of the positioning baffle 3 is consistent with the inner cavity length of the hollow rectangular steel tube 2.

[0026] Before use, adjust the position of the positioning baffle 3 according to the actual width of the forklift forks. First, pull out the positioning pin 6 on the frame body 1 to release the locking between the positioning baffle 3 and the hollow rectangular steel tube 2. Push the positioning baffle 3 to slide inside the hollow rectangular steel tube 2 until the distance between the positioning baffles 3 on both sides matches the width of the forks. When the forklift picks up and puts down the forks, the forklift forks are precisely inserted along the four hollow rectangular steel tubes 2 (in two sets of symmetrical distribution). The positioning baffles 3 on both sides form a wrap-around limit on the forks to prevent relative displacement between the forks and the frame, ensuring a smooth picking and putting process.

[0027] The top of the positioning baffle 3 has symmetrically through-holes 4 on both sides. On the upper surface of the frame body 1, corresponding to the two sides of the positioning baffle 3, there are several sets of evenly arranged guide holes 5. The diameter of the guide holes 5 is adapted to the fixed holes 4. The frame body 1 is equipped with positioning pins 6. The positioning pins 6 can penetrate the guide holes 5 vertically and be inserted into the corresponding fixed holes 4. The two ends of the positioning baffle 3 are respectively integrally formed with limit blocks 7. The size of the limit blocks 7 is larger than the opening size of the hollow rectangular steel pipe 2 and is tightly fitted to the outer wall of the frame body 1. A grid-like bottom plate 8 is horizontally arranged in the middle of the frame body 1. The inside of the frame body 1 is located between the grid-like bottom plate 8 and the hollow rectangular steel pipe 2 and is horizontally welded with an upper reinforcing rib layer 9. The inside of the frame body 1 is located below the hollow rectangular steel pipe 2 and is vertically welded with a lower reinforcing rib layer 10. The bottom of the frame body 1 has symmetrically arranged positioning protrusions 11 on both sides. The upper surface of the frame body 1 has positioning grooves 12 corresponding to the positioning protrusions 11 on both sides.

[0028] After the positioning baffle 3 is adjusted, the fixing hole 4 at the top of the positioning baffle 3 is aligned with the guide hole 5 on the upper surface of the frame body 1. The positioning pin 6 is inserted vertically through the guide hole 5 and into the corresponding fixing hole 4 to fix the positioning baffle 3. The limiting block 7 fits against the outer wall of the frame body 1 to prevent the positioning baffle 3 from slipping out of the steel pipe. When stacking bricks, the bricks are neatly placed on the grid-like bottom plate 8 in the middle of the frame body 1. The grid structure can provide stable support and form ventilation gaps to facilitate heat dissipation and drying of the bricks during the curing process. The upper reinforcing rib layer 9 (located between the grid-like bottom plate 8 and the hollow rectangular steel pipe 2) and the lower reinforcing rib layer 10 (located below the hollow rectangular steel pipe 2) inside the frame body 1 enhance the overall structural strength and can withstand the weight of the stacked bricks and the impact force when the forklift is handling. When multiple layers of the frame need to be stacked, the positioning protrusion 11 at the top of the lower frame is embedded into the corresponding positioning groove 12 at the bottom of the upper frame to achieve precise positioning of the upper and lower frames, prevent lateral sliding during stacking, and improve stacking stability.

[0029] Working principle: Before use, adjust the position of the positioning baffle 3 according to the actual width of the forklift forks. First, pull out the positioning pin 6 on the frame body 1 to release the locking between the positioning baffle 3 and the hollow rectangular steel tube 2. Push the positioning baffle 3 to slide inside the hollow rectangular steel tube 2 until the distance between the two positioning baffles 3 matches the width of the forks. At this time, the fixing hole 4 at the top of the positioning baffle 3 is aligned with the guide hole 5 on the upper surface of the frame body 1. Insert the positioning pin 6 vertically through the guide hole 5 and into the corresponding fixing hole 4 to complete the fixing of the positioning baffle 3. The limiting block 7 fits against the outer wall of the frame body 1 to prevent the positioning baffle 3 from slipping out of the steel tube. When stacking bricks, place the bricks neatly on the grid-like base plate 8 in the middle of the frame body 1. The grid structure can provide stable support and form a ventilation space. The gaps allow for heat dissipation and drying of the bricks during the curing process. When a forklift is picking up or placing the bricks, the forklift forks are precisely inserted along the four hollow rectangular steel pipes 2 (distributed symmetrically in two sets). The positioning baffles 3 on both sides form a wrapping limit on the forks, preventing relative displacement between the forks and the frame and ensuring a smooth picking and placing process. The upper reinforcing rib layer 9 (located between the grid-like bottom plate 8 and the hollow rectangular steel pipes 2) and the lower reinforcing rib layer 10 (located below the hollow rectangular steel pipes 2) inside the frame body 1 enhance the overall structural strength, which can withstand the weight of stacked bricks and the impact force during forklift handling. When multiple layers of the frame are required to be stacked, the positioning protrusion 11 at the top of the lower frame is embedded into the corresponding positioning groove 12 at the bottom of the upper frame, achieving precise positioning of the upper and lower frames, preventing lateral sliding during stacking, and improving stacking stability.

[0030] Finally, it should be noted that the above content is only used to illustrate the technical solution of this utility model, and is not intended to limit the scope of protection of this utility model. Simple modifications or equivalent substitutions made by those skilled in the art to the technical solution of this utility model do not depart from the essence and scope of the technical solution of this utility model.

Claims

1. A brick support frame for brick factories that is easy to load and unload with a forklift, comprising a frame body (1), characterized in that: The frame body (1) is integrally welded from high-strength steel. Four hollow rectangular steel pipes (2) are distributed parallel to each other along the width direction inside the frame body (1). The four hollow rectangular steel pipes (2) are arranged in two symmetrical groups. A positioning baffle (3) is slidably embedded inside each hollow rectangular steel pipe (2). The length of the positioning baffle (3) is consistent with the inner cavity length of the hollow rectangular steel pipe (2).

2. The brick support frame for brick factories that facilitates forklift loading and unloading according to claim 1, characterized in that: The top of the positioning baffle (3) has symmetrical through-holes (4) on both sides, and the upper surface of the frame body (1) has several sets of evenly arranged guide holes (5) symmetrically distributed on both sides of the positioning baffle (3).

3. A brick support frame for brick factories that facilitates forklift loading and unloading, as described in claim 2, is characterized in that: The diameter of the guide hole (5) is adapted to the fixed hole (4). The frame body (1) is equipped with a positioning pin (6). The positioning pin (6) can penetrate the guide hole (5) vertically and be inserted into the corresponding fixed hole (4).

4. A brick support frame for brick factories that is easy for forklifts to load and unload, as described in claim 1, is characterized in that: The two ends of the positioning baffle (3) are integrally formed with limiting blocks (7). The size of the limiting blocks (7) is larger than the opening size of the hollow rectangular steel pipe (2) and is closely fitted to the outer wall of the frame body (1).

5. A brick support frame for brick factories that is easy for forklifts to load and unload, as described in claim 1, characterized in that: The frame body (1) has a horizontally arranged grid-shaped bottom plate (8) in the middle. The frame body (1) is located between the grid-shaped bottom plate (8) and the hollow rectangular steel pipe (2), and an upper reinforcing rib layer (9) is welded horizontally.

6. A brick support frame for brick factories that facilitates forklift loading and unloading, as described in claim 1, characterized in that: The frame body (1) is located below the hollow rectangular steel pipe (2) and has a lower reinforcing rib layer (10) welded longitudinally. The bottom of the frame body (1) has symmetrical positioning protrusions (11) on both sides, and the upper surface of the frame body (1) has positioning grooves (12) corresponding to the positioning protrusions (11) on both sides.