A PC component roughening device

By incorporating a drive motor and a fixing nut into the PC component texturing device, the rotation adjustment and quick assembly/disassembly of the texturing brush are achieved, solving the problems of the texturing structure being unable to rotate and difficult to replace in existing devices, thus improving friction and ease of use.

CN224334664UActive Publication Date: 2026-06-09HENAN ZHUGONG CONSCTRUCTION TECH LTD CO

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HENAN ZHUGONG CONSCTRUCTION TECH LTD CO
Filing Date
2024-12-31
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing PC component roughening devices cannot rotate their roughening structure during use, resulting in only parallel lines being drawn on the component surface during roughening. This leads to insufficient friction, and the roughening structure is inconvenient to disassemble and replace.

Method used

By setting a first drive motor to drive the active gear to rotate, the active gear meshes with the driven gear, thereby causing the rotating shaft to drive the brush to rotate, achieving angle adjustment, and the fixing nut facilitates the quick disassembly and replacement of the brush.

Benefits of technology

It enables flexible adjustment of the brush angle, allowing users to select parallel or irregular lines as needed, solving the problem of insufficient friction and simplifying the brush replacement process.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to PC component pull wool technical field especially, a kind of PC component pull wool device, including equipment bin;Still including first drive motor, driving gear, pivot, driven gear, pull wool brush and fixed nut, the inner surface left side of equipment bin is rotatably connected with the one end of screw rod, the outer surface of screw rod is connected with moving seat with thread penetration;The utility model is by being provided with first drive motor, its output end will drive driving gear to rotate when working, driving gear drives the rotation of driven gear meshed with it, to make pivot drive bottom pull wool brush to rotate, to this end realize the adjustment of pull wool brush angle, so it can choose to pull out parallel line or irregular line according to actual demand, and by being provided with fixed nut, personnel can be facilitated to pull wool brush and quickly butt joint dismounting, pull wool brush is fixed by the cooperation with the internal thread of fixed nut, to replace different model pull wool brush.
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Description

Technical Field

[0001] This utility model relates to the field of PC component roughening technology, and in particular to a PC component roughening device. Background Technology

[0002] As the variety of PC component products continues to increase, more and more PC component surfaces need to be roughened after initial setting and before final setting. A roughening brush is used to scratch the outer surface of the PC component to improve the friction coefficient and setting degree of the surface during subsequent use.

[0003] Existing PC component roughening devices cannot rotate their roughening structure during use, resulting in only parallel lines being drawn on the component surface during roughening. This can easily lead to insufficient friction during subsequent use, and the roughening structure is not easy to disassemble and replace.

[0004] Therefore, addressing the issues of existing PC component texturing devices where the texturing structure cannot rotate during use, resulting in only parallel lines being drawn on the component surface and insufficient friction during subsequent use, and the texturing structure being inconvenient to disassemble and replace, a new PC component texturing device can be designed. This device incorporates a first drive motor, whose output drives a drive gear to rotate during operation. The drive gear, in turn, drives a meshing driven gear, causing the shaft to rotate the texturing brush at the bottom. This allows for adjustment of the texturing brush angle, enabling the creation of either parallel or irregular lines based on actual needs. Furthermore, a fixing nut facilitates quick assembly and disassembly of the texturing brush, securing it with the internal thread of the fixing nut and allowing for the replacement of different brush models. Utility Model Content

[0005] To overcome the problems of existing PC component roughening devices, such as the inability of the roughening structure to rotate during use, resulting in only parallel lines being drawn on the component surface during roughening, which easily leads to insufficient friction in subsequent use, and the roughening structure being inconvenient to disassemble and replace.

[0006] The technical solution of this utility model is as follows: a PC component texturing device, including an equipment compartment; it also includes a first drive motor, a drive gear, a rotating shaft, a driven gear, a texturing brush, and a fixing nut. One end of a screw is rotatably connected to the left side of the inner surface of the equipment compartment. A movable seat is threadedly connected to the outer surface of the screw. A mounting plate is provided on the bottom surface of the movable seat. The first drive motor is located on the right side of the bottom surface of the mounting plate. The output end of the first drive motor is connected to the drive gear. A rotating shaft is rotatably connected to the bottom surface of the mounting plate on the left side of the first drive motor. A driven gear is located in the middle of the outer surface of the rotating shaft. The driven gear meshes with the drive gear. A fixing nut is provided on the bottom surface of the rotating shaft. A texturing brush is threadedly connected to the bottom of the fixing nut.

[0007] Preferably, by setting a first drive motor, its output end drives the drive gear to rotate during operation. The drive gear drives the driven gear meshing with it to rotate, thereby causing the shaft to drive the bottom texturing brush to rotate. This allows for adjustment of the texturing brush angle, enabling the creation of parallel or irregular lines according to actual needs. Furthermore, by setting a fixing nut, it is easy for workers to quickly assemble and disassemble the texturing brush. The texturing brush is fixed by engaging with the internal thread of the fixing nut, allowing for the replacement of different types of texturing brushes. This solves the problems of existing PC component texturing devices, where the texturing structure cannot rotate, resulting in only parallel lines being drawn on the component surface during texturing, leading to insufficient friction in subsequent use, and the inconvenience of disassembling and replacing the texturing structure in existing devices.

[0008] Preferably, the bottom surface of the mounting plate is provided with a protective sleeve, and the inner surface of the protective sleeve is provided with a number of circumferentially distributed meshing teeth, and the driven gear meshes with the meshing teeth.

[0009] Preferably, a bearing is provided at the bottom edge of the mounting plate, and the inner ring surface of the bearing is connected to the outer ring surface of the casing.

[0010] Preferably, a fixing plate is provided on the lower part of both the left and right sides of the equipment compartment. A second drive motor is provided on the upper surface of the right fixing plate. The output end of the second drive motor passes through the right side wall of the equipment compartment and is connected to a drive shaft. The left side of the drive shaft is connected to the right side of the screw.

[0011] Preferably, the front and rear surfaces of the movable seat slide in contact with the front and rear surfaces of the inner surface of the equipment compartment.

[0012] Preferably, both fixed plates are provided with electric push rods on their bottom surfaces, and the bottom surfaces of the electric push rods are provided with bases, with a guard plate provided on the upper surface of the bases at the side of the electric push rods.

[0013] Preferably, casters are provided at the corners of the bottom surface of the base, and the casters are fixed to the base with bolts.

[0014] Preferably, a sliding groove is provided on the rear side of the upper surface of the equipment compartment, a pressure rod is provided on the upper surface of the movable seat, the pressure rod is slidably connected to the sliding groove, mounting plates are provided on both the left and right sides of the upper surface of the equipment compartment, trigger switches are provided on the opposite sides of the two mounting plates, and a controller is provided on the front side of the upper surface of the equipment compartment. The second drive motor, the trigger switch and the controller are electrically connected.

[0015] The beneficial effects of this utility model are:

[0016] 1. By setting a first drive motor, its output end will drive the drive gear to rotate during operation. The drive gear drives the driven gear meshing with it to rotate, thereby causing the shaft to drive the bottom brush to rotate. This allows for adjustment of the brush angle, enabling the brush to produce parallel or irregular lines according to actual needs. This solves the problem that existing PC component brushing devices cannot rotate during use, resulting in only parallel lines being produced on the component surface during brushing, which can easily lead to insufficient friction in subsequent use.

[0017] 2. By setting a fixing nut, it is easy for staff to quickly connect and disassemble the texturing brush. The texturing brush is fixed by engaging with the internal thread of the fixing nut, thereby solving the problem that the texturing structure of the existing PC component texturing device is not easy to disassemble and replace. Attached Figure Description

[0018] Figure 1 The diagram shown is a three-dimensional structural schematic of a PC component roughening device according to this utility model.

[0019] Figure 2 The diagram shown is a three-dimensional structural schematic of the screw of a PC component roughening device according to this utility model.

[0020] Figure 3 The diagram shown is a three-dimensional structural schematic of the drive gear of a PC component roughening device according to this utility model.

[0021] Figure 4 The diagram shown is a three-dimensional structural schematic of a texturing brush for a PC component texturing device according to this utility model.

[0022] Figure 5 The diagram shown is a three-dimensional structural schematic of an electric push rod for a PC component roughening device according to this utility model.

[0023] Explanation of reference numerals in the attached drawings: 1. Equipment compartment; 2. Screw; 3. Movable seat; 4. Mounting plate; 5. First drive motor; 6. Drive gear; 7. Rotating shaft; 8. Driven gear; 9. Brush; 10. Protective sleeve; 11. Meshing gear; 12. Bearing; 13. Fixing plate; 14. Second drive motor; 15. Transmission shaft; 16. Electric push rod; 17. Base; 18. Protective plate; 19. Caster wheel; 20. Slide groove; 21. Pressure rod; 22. Mounting plate; 23. Trigger switch; 24. Controller; 25. Fixing nut. Detailed Implementation

[0024] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0025] Please see Figures 1-5 This utility model provides an embodiment: a PC component texturing device, including an equipment compartment 1; it also includes a first drive motor 5, a drive gear 6, a rotating shaft 7, a driven gear 8, a texturing brush 9, and a fixing nut 25. One end of a screw 2 is rotatably connected to the left side of the inner surface of the equipment compartment 1. A movable seat 3 is threadedly connected to the outer surface of the screw 2. A mounting plate 4 is provided on the bottom surface of the movable seat 3. The first drive motor 5 is located on the right side of the bottom surface of the mounting plate 4. The output end of the first drive motor 5 is connected to the drive gear 6. A rotating shaft 7 is rotatably connected to the bottom surface of the mounting plate 4, located to the left of the first drive motor 5. A driven gear 8 is located in the middle of the outer surface of the rotating shaft 7. The driven gear 8 is connected to the drive gear 6. The drive gear 6 meshes with the shaft 7, and a fixing nut 25 is provided on the bottom surface of the shaft 7. The bottom thread of the fixing nut 25 is connected to the brush 9. By setting the first drive motor 5, its output end will drive the drive gear 6 to rotate during operation. The drive gear 6 drives the driven gear 8 that meshes with it to rotate, thereby causing the shaft 7 to drive the brush 9 at the bottom to rotate. This allows for adjustment of the angle of the brush 9, so that parallel lines or irregular lines can be drawn according to actual needs. Furthermore, the fixing nut 25 allows for quick assembly and disassembly of the brush 9 by the operator. The brush 9 is fixed by engaging with the internal thread of the fixing nut 25, thereby allowing for the replacement of different models of brush 9.

[0026] Please see Figures 1-4In this embodiment, a protective sleeve 10 is provided on the bottom surface of the mounting plate 4. The inner ring surface of the protective sleeve 10 is provided with a plurality of circumferentially distributed meshing teeth 11. The driven gear 8 meshes with the meshing teeth 11. By providing the protective sleeve 10 and the meshing teeth 11, the driven gear 8 will mesh with the meshing teeth 11 when rotating, thereby improving the stability of the device operation and preventing tooth disengagement. A bearing 12 is provided at the edge of the bottom surface of the mounting plate 4. The inner ring surface of the bearing 12 is connected to the outer ring surface of the protective sleeve 10. By providing the bearing 12, when the driven gear 8 rotates, it will drive the protective sleeve 10 to rotate in cooperation with the meshing teeth 11. The provision of the bearing 12 can improve... The smoothness of the rotation of the casing 10 is achieved by fixing plates 13 on the lower part of the left and right sides of the equipment compartment 1. A second drive motor 14 is installed on the upper surface of the right fixing plate 13. The output end of the second drive motor 14 passes through the right side wall of the equipment compartment 1 and is connected to a transmission shaft 15. The left side of the transmission shaft 15 is connected to the right side of the screw 2. By setting the second drive motor 14, its output end will drive the transmission shaft 15 to rotate during operation. The transmission shaft 15 drives the screw 2 to rotate, and the screw 2 will drive the moving seat 3 with its thread to reciprocate left and right, thereby driving the brush 9 below to move laterally to cover the upper surface of the component.

[0027] Please see Figures 1-5In this embodiment, the front and rear sides of the movable seat 3 slide against the front and rear sides of the inner surface of the equipment compartment 1. By fitting the movable seat 3 against the inner surface of the equipment compartment 1, the problem of the movable seat 3 being unable to move due to the screw 2 rotating synchronously can be avoided. Electric push rods 16 are provided on the bottom surfaces of both fixed plates 13, and bases 17 are provided on the bottom surfaces of the electric push rods 16. A guard plate 18 is provided on the upper surface of the base 17 at the side of the electric push rod 16. The electric push rods 16 allow for adjustment of the overall height of the device to adapt to different working environments. Furthermore, the guard plate 18 allows the device to be aligned with the side of the conveyor belt when the device is used with the conveyor belt, ensuring the device is level with the conveyor belt. Universal wheels 19 are provided at the corners of the bottom surface of the base 17, and the universal wheels 19 are connected to the base 17 by bolts. The base 17 is fixed, and the universal wheels 19 make it easy for staff to move the whole device, improving the convenience of use. A sliding groove 20 is provided on the rear side of the upper surface of the equipment compartment 1. A pressure rod 21 is provided on the upper surface of the movable seat 3. The pressure rod 21 is slidably connected to the sliding groove 20. Mounting plates 22 are provided on both the left and right sides of the upper surface of the equipment compartment 1. Trigger switches 23 are provided on the opposite sides of the two mounting plates 22. A controller 24 is provided on the front side of the upper surface of the equipment compartment 1. The second drive motor 14, the trigger switch 23 and the controller 24 are electrically connected. By setting the pressure rod 21, when the movable seat 3 moves left and right, it will drive the pressure rod 21 to slide inside the sliding groove 20. When it moves to contact the trigger switch 23, it will trigger the controller 24 to send a signal to the second drive motor 14 to control the second drive motor 14 to reverse, thereby preventing the brush 9 from contacting the guard plate 18.

[0028] During operation, the protective sleeve 10 and meshing teeth 11 are installed. When the driven gear 8 rotates, it meshes with the meshing teeth 11, thereby improving the stability of the device operation and preventing tooth dislodgement. By installing bearing 12, when the driven gear 8 rotates, it will drive the protective sleeve 10 to rotate in cooperation with the meshing teeth 11. The installation of bearing 12 can improve the smoothness of the rotation of the protective sleeve 10. By installing a second drive motor 14, its output end will drive the transmission shaft 15 to rotate during operation. The transmission shaft 15 drives the screw 2 to rotate, and the screw 2 will drive the moving seat 3 with its threaded engagement to reciprocate left and right, thereby driving the brush 9 below to move laterally to cover the upper surface of the component. By setting the moving seat 3 to fit against the inner surface of the equipment compartment 1, it can prevent the screw 2 from rotating and driving the inner surface of the component to rotate. The problem of the movable seat 3 being unable to move due to synchronous rotation is addressed by setting an electric push rod 16 to adjust the overall height of the device to adapt to different working environments. Furthermore, by setting a guard plate 18, when the device is used in conjunction with the conveyor belt, the guard plate 18 can fit against the side of the conveyor belt, thus leveling the device with the conveyor belt. The universal wheels 19 facilitate the movement of the device by the operator, improving its ease of use. The pressure rod 21, when the movable seat 3 moves left and right, will slide inside the slide groove 20. When it moves to contact the trigger switch 23, it will trigger the controller 24 to send a signal to the second drive motor 14, controlling the second drive motor 14 to reverse, thereby preventing the brush 9 from contacting the guard plate 18.

[0029] Through the above steps, by setting the first drive motor 5, its output end will drive the drive gear 6 to rotate during operation. The drive gear 6 drives the driven gear 8 that meshes with it to rotate, thereby causing the rotating shaft 7 to drive the bottom textured brush 9 to rotate. This allows for adjustment of the angle of the textured brush 9, so that parallel lines or irregular lines can be drawn according to actual needs. Furthermore, by setting the fixing nut 25, it is easy for the staff to quickly connect and disassemble the textured brush 9. The textured brush 9 is fixed by engaging with the internal thread of the fixing nut 25, thereby allowing the replacement of different models of textured brush 9. This solves the problem that the existing PC component textured device cannot rotate during use, resulting in only parallel lines being drawn on the surface of the component during textured application, which easily leads to insufficient friction in subsequent use. It also solves the problem that the existing device is inconvenient to disassemble and replace during use.

Claims

1. A PC component roughening device, comprising an equipment compartment (1); characterized in that: It also includes a first drive motor (5), a drive gear (6), a rotating shaft (7), a driven gear (8), a brush (9), and a fixing nut (25). The left side of the inner surface of the equipment compartment (1) is rotatably connected to one end of a screw (2). The outer surface of the screw (2) is threadedly connected to a movable seat (3). The bottom surface of the movable seat (3) is provided with a mounting plate (4). The right side of the bottom surface of the mounting plate (4) is provided with the first drive motor (5). The output end of the first drive motor (5) is connected to the drive gear (6). The bottom surface of the mounting plate (4) is rotatably connected to the rotating shaft (7) located to the left of the first drive motor (5). The middle position of the outer surface of the rotating shaft (7) is provided with a driven gear (8). The driven gear (8) meshes with the drive gear (6). The bottom surface of the rotating shaft (7) is provided with a fixing nut (25). The bottom of the fixing nut (25) is threadedly connected to the brush (9).

2. The PC component roughening device according to claim 1, characterized in that: The bottom surface of the mounting plate (4) is provided with a protective sleeve (10), and the inner ring surface of the protective sleeve (10) is provided with a number of circumferentially distributed meshing teeth (11), and the driven gear (8) meshes with the meshing teeth (11).

3. The PC component roughening device according to claim 2, characterized in that: A bearing (12) is provided at the bottom edge of the mounting plate (4), and the inner ring surface of the bearing (12) is connected to the outer ring surface of the casing (10).

4. The PC component roughening device according to claim 1, characterized in that: Fixing plates (13) are provided on the lower part of the left and right sides of the equipment compartment (1). A second drive motor (14) is provided on the upper surface of the right fixing plate (13). The output end of the second drive motor (14) passes through the right side wall of the equipment compartment (1) and is connected to a transmission shaft (15). The left side surface of the transmission shaft (15) is connected to the right side surface of the screw (2).

5. A PC component roughening device according to claim 1, characterized in that: The front and rear sides of the movable seat (3) slide against the front and rear sides of the inner surface of the equipment compartment (1).

6. A PC component roughening device according to claim 4, characterized in that: Both fixed plates (13) have electric push rods (16) on their bottom surfaces. The bottom surface of the electric push rods (16) has a base (17). The upper surface of the base (17) is provided with a guard plate (18) located on the side of the electric push rods (16).

7. A PC component roughening device according to claim 6, characterized in that: The bottom surface of the base (17) is equipped with casters (19) at the corners, and the casters (19) are fixed to the base (17) by bolts.

8. A PC component roughening device according to claim 1, characterized in that: A sliding groove (20) is provided on the rear side of the upper surface of the equipment compartment (1). A pressure rod (21) is provided on the upper surface of the movable seat (3). The pressure rod (21) is slidably connected to the sliding groove (20). Mounting plates (22) are provided on both the left and right sides of the upper surface of the equipment compartment (1). A trigger switch (23) is provided on the opposite side of the two mounting plates (22). A controller (24) is provided on the front side of the upper surface of the equipment compartment (1). The second drive motor (14), the trigger switch (23) and the controller (24) are electrically connected.