A brick clamping device for brick stacking
By using a lifting assembly and a brick clamping mechanism, the friction between the clamping plate and the rubber block is increased, which solves the problem of poor brick clamping stability in brick stacking machines and achieves stable clamping and protection against falling of bricks.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHEJIANG SHUNYE MATERIAL TECH CO LTD
- Filing Date
- 2025-08-11
- Publication Date
- 2026-07-07
Smart Images

Figure CN224467023U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of brick stacking technology, specifically to a brick clamping device for brick stacking. Background Technology
[0002] After the bricks are made, they often need to be stacked. This is usually done manually, which is not only inefficient but also increases the labor intensity of the workers.
[0003] Currently, some brick factories use palletizing machines to stack bricks. Palletizing is a mechanical device that neatly and tightly stacks workpieces together. In the brick production process, it is generally necessary to stack the produced brick sets to reduce the space occupied.
[0004] In the above solution, although existing brick-making industry palletizers can stack bricks, existing palletizers usually use two clamping arms set on the left and right to clamp the outside of the brick group. By increasing the friction between the bricks, the brick group is clamped and transferred, thereby realizing the stacking of the brick group. However, this brick clamping method has poor stability and is prone to brick falling off, causing the bricks to break. Utility Model Content
[0005] The purpose of this utility model is to overcome the shortcomings of the prior art and provide a brick clamping device for stacking bricks. By providing a lifting component and a brick clamping mechanism, it can effectively clamp and fix the brick group and ensure that the bricks will not be broken. It solves the problems of poor stability and easy brick falling off in the existing brick clamping method, thereby ensuring that the quality of the bricks is not affected.
[0006] The solution of this utility model to the aforementioned technical problem is:
[0007] A brick clamping device for stacking bricks includes a brick group conveying device, a support frame is provided on one side of the brick group conveying device, a guide frame is fixed inside the support frame, a lifting plate is inserted inside the guide frame, a lifting component is provided at the lower end of the lifting plate, and a brick clamping mechanism is provided above the lifting plate. The brick clamping mechanism includes a frame, and a clamping component and a driving component are provided on the frame.
[0008] When stacking bricks, the brick conveying device is activated to move the bricks to the top of the lifting plate. The frame is then moved downwards, simultaneously moving the clamping and driving components downwards, so that the bricks are positioned within the clamping components. The driving component is then activated to clamp the bricks on all four sides, thus securing them in place. The lifting component is then activated to move the lifting plate downwards. If any bricks are not clamped, they will move downwards with the lifting plate, preventing them from falling during the transfer process and ensuring the bricks are not damaged.
[0009] By incorporating a lifting assembly and a brick clamping mechanism, the brick assembly can be effectively clamped and fixed, ensuring that the bricks are not broken. This solves the problems of poor stability and easy brick detachment in existing brick clamping methods, thus ensuring that the quality of the bricks is not affected.
[0010] The utility model is further configured such that: the lifting assembly includes a cylinder fixed to the bottom of the support frame, and the output end of the cylinder is fixed to the lower end of the lifting plate.
[0011] With the above technical solution, when it is necessary to move the lifting plate, the cylinder is activated, which can then move the lifting plate.
[0012] The utility model is further configured such that: the clamping assembly includes multiple guide rods fixed on the four sides of the frame, and the same clamping plate is inserted into the multiple guide rods on the same side.
[0013] With the above technical solution, when it is necessary to clamp and fix the brick group, the drive component is activated, which simultaneously drives the four clamping plates to move inward, so that the four clamping plates clamp the four sides of the brick group respectively, thereby clamping and fixing the brick group.
[0014] The utility model is further configured such that: the drive assembly includes a first connecting rod rotatably connected to the upper end of the clamping plate, a connecting shaft rotatably connected inside the frame, two second connecting rods fixed on the side wall of the connecting shaft, the ends of the two opposing first connecting rods rotatably connected to the two ends of one of the second connecting rods, a motor fixed at the upper end of the frame, and the output end of the motor fixed at the upper end of the connecting shaft.
[0015] With the above technical solution, when it is necessary to move four clamping plates simultaneously, the motor is started, which drives the connecting shaft to rotate. The rotation of the connecting shaft drives the two second connecting rods to rotate, and the rotation of the two second connecting rods simultaneously drives the four first connecting rods to move, thereby moving the four clamping plates simultaneously.
[0016] The utility model is further configured such that a rubber block is fixed on the side wall of the clamping plate.
[0017] With the above technical solution, when the clamping plate clamps the outside of the brick assembly, the rubber block increases the friction between the clamping plate and the brick, allowing the clamping plate to clamp the outside of the brick assembly more effectively. At the same time, it can prevent the outside of the brick assembly from being pinched or damaged, thus ensuring that the quality of the brick is not affected.
[0018] The beneficial effects of this utility model are:
[0019] Compared with existing technologies, by incorporating a lifting component and a brick clamping mechanism, the brick assembly can be effectively clamped and fixed, ensuring that the bricks are not broken. This solves the problems of poor stability and easy brick detachment in existing brick clamping methods, thus ensuring that the quality of the bricks is not affected.
[0020] By incorporating rubber blocks, the friction between the clamping plate and the bricks can be increased, while preventing the outer side of the brick assembly from being pinched or damaged. Attached Figure Description
[0021] Figure 1 This is a three-dimensional structural schematic diagram of the present invention;
[0022] Figure 2 A three-dimensional structural diagram of the brick clamping mechanism with part of the frame removed.
[0023] Reference numerals: 1. Brick assembly conveying device; 2. Support frame; 3. Guide frame; 4. Lifting plate; 5. Frame; 6. Cylinder; 7. Guide rod; 8. Clamping plate; 9. First connecting rod; 10. Connecting shaft; 11. Second connecting rod; 12. Motor; 13. Rubber block. Detailed Implementation
[0024] The specific embodiments of this utility model will be described in further detail below with reference to the accompanying drawings and examples. The following examples are used to illustrate this utility model, but are not intended to limit its scope.
[0025] The following is for reference Figures 1 to 2 This utility model will now be described.
[0026] A brick clamping device for stacking bricks includes a brick group conveying device 1, a support frame 2 is provided on one side of the brick group conveying device 1, a guide frame 3 is fixed inside the support frame 2, a lifting plate 4 is inserted inside the guide frame 3, a lifting component is provided at the lower end of the lifting plate 4, and a brick clamping mechanism is provided above the lifting plate 4. The brick clamping mechanism includes a frame 5, and a clamping component and a driving component are provided on the frame 5.
[0027] When stacking bricks, the brick conveying device 1 is activated to move the bricks to the top of the lifting plate 4. The frame 5 is then moved downwards, simultaneously moving the clamping assembly and the drive assembly downwards, so that the bricks are positioned within the clamping assembly. The drive assembly is then activated to clamp the four sides of the bricks, thus securing them in place. The lifting assembly is then activated to move the lifting plate 4 downwards. If any bricks in the bricks are not clamped, they will move downwards along with the lifting plate 4, preventing bricks from falling during the transfer process and ensuring that the bricks are not damaged.
[0028] By incorporating a lifting assembly and a brick clamping mechanism, the brick assembly can be effectively clamped and fixed, ensuring that the bricks are not broken. This solves the problems of poor stability and easy brick detachment in existing brick clamping methods, thus ensuring that the quality of the bricks is not affected.
[0029] The lifting assembly includes a cylinder 6 fixed to the bottom of the support frame 2, and the output end of the cylinder 6 is fixed to the lower end of the lifting plate 4.
[0030] When it is necessary to move the lifting plate 4, the cylinder 6 is activated, which will move the lifting plate 4.
[0031] The clamping assembly includes multiple guide rods 7 fixed on the four sides of the frame 5, and the same clamping plate 8 is inserted into the multiple guide rods 7 on the same side.
[0032] When it is necessary to clamp and fix the brick group, the drive component is activated, which simultaneously drives the four clamping plates 8 to move inward, so that the four clamping plates 8 clamp the four sides of the brick group respectively, thereby clamping and fixing the brick group.
[0033] The drive assembly includes a first connecting rod 9 rotatably connected to the upper end of the clamping plate 8, a connecting shaft 10 rotatably connected inside the frame 5, two second connecting rods 11 fixed on the side wall of the connecting shaft 10, the ends of the two opposing first connecting rods 9 rotatably connected to the two ends of one of the second connecting rods 11, and a motor 12 fixed at the upper end of the frame 5, the output end of the motor 12 being fixed at the upper end of the connecting shaft 10.
[0034] When it is necessary to move all four clamping plates 8 at the same time, start the motor 12 to drive the connecting shaft 10 to rotate. The rotation of the connecting shaft 10 drives the two second connecting rods 11 to rotate. The rotation of the two second connecting rods 11 drives the four first connecting rods 9 to move at the same time, thereby moving all four clamping plates 8 at the same time.
[0035] A rubber block 13 is fixed on the side wall of the clamping plate 8.
[0036] When the clamping plate 8 clamps the outside of the brick assembly, the rubber block 13 increases the friction between the clamping plate 8 and the brick, allowing the clamping plate 8 to clamp the outside of the brick assembly more effectively. This also prevents the outside of the brick assembly from being damaged or injured, thus ensuring that the quality of the bricks is not affected.
[0037] Working principle:
[0038] When stacking bricks, the brick conveying device 1 is activated to move the bricks to the top of the lifting plate 4. The frame 5 is then moved downwards, simultaneously moving the clamping and driving components downwards, so that the bricks are positioned within the four clamping plates 8. The motor 12 is then activated to rotate the connecting shaft 10. The rotation of the connecting shaft 10 rotates the two second connecting rods 11, which in turn rotate the four first connecting rods 9, thus moving the four clamping plates 8 inwards. This clamps the bricks on all four sides, securing them in place. The cylinder 6 is then activated to move the lifting plate 4 downwards. If any bricks are not clamped, they will move downwards along with the lifting plate 4, preventing them from falling during the transfer process and ensuring the bricks are not damaged.
[0039] The above description is only a preferred embodiment of the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the technical principles of the present utility model. These improvements and modifications assumed above should also be considered within the protection scope of the present utility model.
Claims
1. A brick clamping device for stacking bricks, comprising a brick group conveying device (1), characterized in that: A support frame (2) is provided on one side of the brick conveying device (1). A guide frame (3) is fixed inside the support frame (2). A lifting plate (4) is inserted inside the guide frame (3). A lifting component is provided at the lower end of the lifting plate (4). A brick clamping mechanism is provided above the lifting plate (4). The brick clamping mechanism includes a frame (5). A clamping component and a driving component are provided on the frame (5).
2. A brick clamping device for stacking bricks according to claim 1, characterized in that: The lifting assembly includes a cylinder (6) fixed to the bottom of the support frame (2), and the output end of the cylinder (6) is fixed to the lower end of the lifting plate (4).
3. A brick clamping device for stacking bricks according to claim 1, characterized in that: The clamping assembly includes multiple guide rods (7) fixed on the four sides of the frame (5), and the same clamping plate (8) is inserted on the multiple guide rods (7) on the same side.
4. A brick clamping device for stacking bricks according to claim 3, characterized in that: The drive assembly includes a first connecting rod (9) rotatably connected to the upper end of the clamping plate (8), a connecting shaft (10) rotatably connected inside the frame (5), two second connecting rods (11) fixed on the side wall of the connecting shaft (10), the ends of the two opposing first connecting rods (9) rotatably connected to the two ends of one of the second connecting rods (11), a motor (12) fixed at the upper end of the frame (5), and the output end of the motor (12) fixed at the upper end of the connecting shaft (10).
5. A brick clamping device for stacking bricks according to claim 3, characterized in that: A rubber block (13) is fixed on the side wall of the clamping plate (8).