Road cone sleeve reflective pressing processing equipment

By designing equipment consisting of a roll assembly, a pressing assembly, and a winding assembly, the problems of difficult and unstable roll rollers and unstable materials in the processing of road cone reflective stickers have been solved, achieving stable pressing and rapid winding, and adapting to the processing needs of materials of different thicknesses.

CN224493058UActive Publication Date: 2026-07-14

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Filing Date
2025-07-03
Publication Date
2026-07-14

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    Figure CN224493058U_ABST
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Abstract

The utility model relates to road cone cover pressing processing technical field, concretely is road cone cover reflection pressing processing equipment, including base plate, the base plate upper surface from right to left is equipped with material winding subassembly, pressing subassembly and winding subassembly in proper order, and material winding subassembly includes two symmetrical first control box, the first control box front end face all is equipped with first bracket symmetry, two first bracket all are equipped with material winding roller between, and material winding roller one end is equipped with driven gear, and the output shaft coaxial connection of first motor has driving gear, this road cone cover reflection pressing processing equipment sets up base plate and provides the force point, and the installation cooperation of material winding subassembly, pressing subassembly and winding subassembly is convenient, in material winding subassembly, material winding roller passes through rotating shaft and first bracket insertion joint cooperation, and under the cooperation of fixed peg, the position of material winding roller rotation is fixed, and driven gear and the driving gear of first motor meshing cooperation is convenient for quick combination installation, and fixed peg dismounting, help material winding roller separate and take out from first bracket.
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Description

Technical Field

[0001] This utility model relates to the field of road cone sleeve pressing and processing technology, specifically to road cone sleeve reflective pressing and processing equipment. Background Technology

[0002] Traffic cones are frequently used in urban traffic control and accident sites to mark vehicles and pedestrians. The cones used on the road are generally cone-shaped plastic cones with reflective stickers on the outer wall. With the help of the reflective stickers, they attract attention. The process of making reflective stickers on cones requires multiple layers of pressing and processing.

[0003] However, during the reflective pressing process of traffic cone sleeves, the roll rollers are not easy to remove and disassemble quickly, and it is not easy to quickly feed the material that needs to be pressed. Furthermore, during the reflective pressing of traffic cone sleeves, the receiving and pressing process cannot be stable, and it is not possible to stably press and press the fabric of different thicknesses. After pressing, it is not easy to quickly rewind and press. Utility Model Content

[0004] The purpose of this invention is to provide a road cone sleeve reflective pressing processing equipment to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution:

[0006] A road cone reflective pressing and processing equipment includes a base plate. From right to left, the upper surface of the base plate is provided with a material winding assembly, a pressing assembly, and a winding assembly. The material winding assembly includes two symmetrical first control boxes. Each first control box has a first bracket symmetrically arranged on its front end. The right end of the first bracket has a slot, and the bottom of the first bracket has a first screw hole communicating with the slot. A fixing bolt is provided in the first screw hole. A material winding roller is provided between the two first brackets. One end of the material winding roller has a driven tooth. A first motor is provided on the first control box at a position corresponding to the driven tooth. The output shaft of the first motor is coaxially connected to a driving tooth.

[0007] Preferably, the pressing assembly includes symmetrical second control boxes, with first receiving rollers symmetrically arranged between the second control boxes near the right end, and a heating roller arranged between the second control boxes near the top left side. A pressing roller that can move horizontally left and right is arranged below the heating roller. An electric push rod is arranged on the inner wall of the second control box corresponding to the pressing roller, and the telescopic arm of the electric push rod is connected to a slider on the pressing roller's rotating shaft.

[0008] In this invention, an electric push rod is provided and connected to an external power source. The electric push rod extends or retracts to move the pressing roller left and right. The heating roller is rotatably connected to the second control box via a rotating shaft. The heating roller is also rotatably connected to the rotating mechanism inside the second control box via the rotating shaft. This allows the heating roller to continuously heat and rotate to transport the material to be pressed. Two first guide rollers are provided to help stably guide the material being transported at the roll assembly.

[0009] Preferably, a reflective film pressing roller is provided between the two second control boxes on the left side of the pressing roller, and a limiting roller is provided above the reflective film pressing roller.

[0010] In this invention, a reflective film pressing roller is provided, which, in conjunction with a pressing roller, presses the material conveyed from the heating roller.

[0011] Preferably, the winding assembly includes symmetrical third control boxes, with second receiving rollers symmetrically arranged between the third control boxes near the right side, and pallets symmetrically arranged on the left end face of each of the third control boxes. A detachable winding roller is arranged between the pallets located on the same horizontal plane, and a second motor is arranged on the left side face of each of the third control boxes corresponding to the winding roller.

[0012] In this invention, the provision of two second receiving rollers facilitates the receiving and engagement of the pressed material, and with the cooperation of the take-up roller, the pressed material is concentrated and wound up. Furthermore, the take-up roller engages with the second motor output shaft receiving gear via a locking gear, enabling rapid assembly and installation. The material after winding is facilitated for removal and replacement.

[0013] Preferably, each of the third control boxes is provided with a swing arm near the top left side. The swing arm is rotatably connected to the third control box via a rotating shaft. A pressure roller is provided at the end of the swing arm, and the pressure roller is close to the take-up roller.

[0014] In this invention, with the cooperation of the swing arm and the action of the pressure roller, the material wound on the take-up roller is stably pressed to prevent the material from loosening and affecting the stable winding.

[0015] Preferably, the bottom of the first bracket is welded and fixed to the first control box, the fixing bolt is threaded to the first screw hole, and the end of the fixing bolt extends into the slot. The end of the winding roller is provided with a rotating shaft, the rotating shaft is inserted into the slot, the end of the fixing bolt intercepts the rotating shaft, and the rotating shaft and the driven tooth are integrally formed.

[0016] In this invention, the fixing bolt is threadedly connected to the first screw hole, which facilitates manual disassembly or installation. The roll roller is engaged with the slot under the cooperation of the rotating shaft, and with the cooperation of the fixing bolt, the rotating shaft is prevented from disengaging from the first bracket, thus affecting the overall installation of the roll roller.

[0017] Preferably, the first motor is fixedly connected to the first control box by screws, the output shaft of the first motor is welded and fixed to the driving gear, and the driving gear and the driven gear are correspondingly inserted and meshed with each other.

[0018] In this utility model, a first motor is provided and connected to an external power source. With the cooperation of the active gear and the driven gear, the output shaft of the first motor rotates, driving the roll roller to rotate continuously. The active gear and the driven gear are interlocked, which facilitates disassembly and installation.

[0019] Compared with the prior art, the beneficial effects of this utility model are:

[0020] 1. This utility model provides a force point by setting a base plate, which facilitates the installation and coordination of the winding assembly, pressing assembly and take-up assembly. In the winding assembly, the winding roller is inserted and engaged with the first bracket through a rotating shaft, and the position of the winding roller is fixed with the help of the fixing bolt. The driven tooth meshes with the driving tooth of the first motor, which facilitates quick assembly and installation. The removal of the fixing bolt helps the winding roller to be separated and removed from the first bracket.

[0021] 2. This utility model, by setting up symmetrical first receiving rollers, helps to stably receive and engage the material conveyed on the roll assembly. In conjunction with the heating roller, the material to be pressed is heated and engaged. With the cooperation of the pressing roller and the reflective film pressing roller, the road cone sleeve reflective film is stably pressed. After pressing, it is guided to the take-up roller by the second receiving roller for winding and engagement. With the cooperation of the swing arm with the pressure roller, the material on the take-up roller is pressed and engaged, reducing the looseness of the material on the take-up roller, which would affect the centralized collection and engagement, and reducing the space occupied. Attached Figure Description

[0022] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0023] Figure 2 This is a side view of the entire utility model;

[0024] Figure 3 This is a schematic diagram of the roll assembly structure of this utility model;

[0025] Figure 4 This is a schematic diagram of the pressing component structure of this utility model.

[0026] The meanings of the labels in the diagram are as follows:

[0027] Base plate;

[0028] 20. Coil assembly; 21. First control box; 22. First bracket; 23. Slot; 24. First screw hole; 25. Fixing bolt; 26. First motor; 27. Drive gear; 28. Coil roller; 29. ​​Rotating shaft; 20. Driven gear; 21. Guide roller;

[0029] 30. Pressing assembly; 30. Second control box; 300. Electric push rod; 31. Heating roller; 32. Pressing roller; 33. Reflective film pressing roller; 34. Limiting roller; 35. First receiving roller;

[0030] 40. Rewinding assembly; 41. Third control box; 42. Second receiving roller; 43. Swing arm; 44. Pressure roller; 45. Second motor; 46. Support plate; 47. Rewinding roller. Detailed Implementation

[0031] 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.

[0032] Please see Figures 1-4 This embodiment provides the following technical solution:

[0033] The road cone reflective pressing processing equipment includes a base plate 1. From right to left, the upper surface of the base plate 1 is provided with a material winding assembly 2, a pressing assembly 3, and a winding assembly 4. The material winding assembly 2 includes two symmetrical first control boxes 20. The front face of each first control box 20 is provided with a first bracket 21. The right end of the first bracket 21 is provided with a slot 210. The bottom of the first bracket 21 is provided with a first screw hole 211 communicating with the slot 210. A fixing bolt 212 is provided in the first screw hole 211. A material winding roller 23 is provided between the two first brackets 21. One end of the material winding roller 23 is provided with a driven tooth 231. A first motor 22 is provided on the first control box 20 at a position corresponding to the driven tooth 231. The output shaft of the first motor 22 is coaxially connected to a drive tooth 220.

[0034] Furthermore, the bottom of the first bracket 21 is welded and fixed to the first control box 20, the fixing bolt 212 is threadedly connected to the first screw hole 211, and the end of the fixing bolt 212 extends into the slot 210. The end of the winding roller 23 is provided with a rotating shaft 230, which is inserted into the slot 210. The end of the fixing bolt 212 intercepts the rotating shaft 230, and the rotating shaft 230 and the driven tooth 231 are integrally formed.

[0035] In this utility model, the fixing bolt 212 is threadedly connected to the first screw hole 211, which facilitates manual disassembly or installation. The roll 23 is engaged with the slot 210 with the cooperation of the rotating shaft 230, and with the cooperation of the fixing bolt 212, the rotating shaft 230 is prevented from disengaging from the first bracket 21, which would affect the overall installation of the roll.

[0036] Specifically, the first motor 22 is fixedly connected to the first control box 20 by screws. The output shaft of the first motor 22 is welded and fixed to the active gear 220. The active gear 220 and the driven gear 231 are correspondingly inserted and meshed with each other.

[0037] In this utility model, a first motor 22 is provided and connected to an external power source. With the cooperation of the active gear 220 and the driven gear 231, the output shaft of the first motor 22 rotates, driving the roll roller 23 to rotate continuously. The active gear 220 and the driven gear 231 are inserted into each other, which facilitates disassembly and installation.

[0038] It should be noted that the pressing assembly 3 includes symmetrical second control boxes 30. First receiving rollers 35 are symmetrically arranged between the second control boxes 30 near the right end. Heating rollers 31 are arranged between the second control boxes 30 near the top left side. Pressing rollers 32 that can move horizontally left and right are arranged below the heating rollers 31. Electric push rods 300 are arranged on the inner wall of the second control boxes 30 corresponding to the pressing rollers 32. The telescopic arm of the electric push rods 300 is connected to the slider on the rotating shaft of the pressing rollers 32.

[0039] In this invention, an electric push rod 300 is provided and connected to an external power source. The electric push rod 300 extends or shortens to move the pressing roller 32 left and right. The heating roller 31 is rotatably connected to the second control box 30 via a rotating shaft. The heating roller 31 is also rotatably connected to the rotating mechanism inside the second control box 30 through the cooperation of the rotating shaft. This enables the heating roller 31 to continuously heat and rotate to transport the material to be pressed. Two first receiving rollers 35 are provided to help stably guide and coordinate the material transported at the roll assembly 2.

[0040] Furthermore, a reflective film pressing roller 33 is provided between the two second control boxes 30 on the left side of the pressing roller 32, and a limiting roller 34 is provided above the reflective film pressing roller 33.

[0041] In this invention, a reflective film pressing roller 33 is provided, which, in conjunction with a pressing roller 32, presses the material conveyed from the heating roller 31.

[0042] Specifically, the winding assembly 4 includes symmetrical third control boxes 40, with second receiving rollers 41 symmetrically arranged near the right side between the third control boxes 40, and support plates 44 symmetrically arranged on the left end face of each third control box 40. A detachable winding roller 45 is arranged between the support plates 44 located on the same horizontal plane, and a second motor 43 is arranged on the left side face of the third control box 40 at the position corresponding to the winding roller 45.

[0043] In this invention, the provision of two second receiving rollers 41 facilitates the receiving and engagement of the pressed material, and with the cooperation of the take-up roller 45, the pressed material is concentrated and wound up. The take-up roller 45 engages with the output shaft of the second motor 43 via a locking gear, enabling rapid assembly and installation. The material after winding is easy to remove and replace.

[0044] Furthermore, each of the third control boxes 40 is provided with a swing arm 42 near the top left side. The swing arm 42 is rotatably connected to the third control box 40 via a rotating shaft. A pressure roller 420 is provided at the end of the swing arm 42, and the pressure roller 420 is close to the winding roller 45.

[0045] In this invention, with the cooperation of the swing arm 42 and the action of the pressure roller 420, the material wound on the take-up roller 45 is stably pressed to prevent the material from loosening and affecting the stable winding.

[0046] In this embodiment, when using the road cone reflective pressing processing equipment, the user first installs the first control box 20, the second control box 30, and the third control box 40 sequentially on the base plate 1. The guide roller 24 with driven teeth 231 is inserted into the slot 210 on the first bracket 21 and connected by a fixing bolt 212 to limit the position of the roll roller 23. The driven teeth 231 mesh with the driving teeth 220 of the first motor 22 on the first control box 20. Then, the electric push rod 30 is... 0 is installed in the second control box 30, and the end of the telescopic arm of the electric push rod 300 is connected to the slider combination connected to the end of the rotating shaft of the pressing roller 32. The heating roller 31 and the reflective film pressing roller 33 are connected to the rotating machine inside the second control box 30, and the heating roller 31 and the reflective film pressing roller 33 are close to the pressing roller 32. Then the take-up roller 45 is inserted and engaged with the support plate 44. The swing arm 42 with the pressing roller 420 is rotatably connected to the third control box 40, and the pressing roller 420 is close to the take-up roller 45.

[0047] When road cone reflective pressing is required, the corresponding material is placed on the roll 23, and the material passes sequentially through the guide rollers 24 between the first control boxes 20 and enters the pressing assembly 3. With the cooperation of the first receiving roller 35, the polypropylene and thermoplastic resin materials pass sequentially from the corresponding roll 23 onto the heating roller 31, overlap and heat together, and pass between the reflective film pressing roller 33 and the pressing roller 32. After pressing, the material enters the winding assembly 4, and with the cooperation of the second receiving roller 41, it enters the winding roller 45 for centralized collection. After collection, the winding roller 45 can be quickly removed from the tray 44 for replacement. With the cooperation of the pressing roller 420, the material wound on the winding roller 45 is made tight, reducing the impact of space occupation. When polypropylene and thermoplastic resin materials of different thicknesses are overlapped and pressed, the position of the telescopic arm of the electric push rod 300 is manually adjusted according to the different thicknesses to realize the distance adjustment between the pressing roller 32 and the reflective film pressing roller 33, which helps to stabilize the pressing.

Claims

1. A road cone reflective pressing and processing equipment, comprising a base plate (1), wherein a roll assembly (2), a pressing assembly (3) and a winding assembly (4) are arranged sequentially from right to left on the upper surface of the base plate (1), characterized in that: The coil assembly (2) includes two symmetrical first control boxes (20). Each first control box (20) has a first bracket (21) symmetrically arranged on its front end face. The right end of the first bracket (21) has a slot (210). The bottom of the first bracket (21) has a first screw hole (211) communicating with the slot (210). The first screw hole (211) has a fixing bolt (212). A coil roller (23) is arranged between the two first brackets (21). One end of the coil roller (23) has a driven tooth (231). A first motor (22) is arranged on the first control box (20) at a position corresponding to the driven tooth (231). The output shaft of the first motor (22) is coaxially connected to a driving tooth (220).

2. The road cone sleeve reflective pressing processing equipment according to claim 1, characterized in that: The pressing assembly (3) includes symmetrical second control boxes (30), with first receiving rollers (35) symmetrically arranged between the second control boxes (30) near the right end, and heating rollers (31) arranged between the second control boxes (30) near the top left side. A pressing roller (32) that can move horizontally left and right is arranged below the heating roller (31). An electric push rod (300) is arranged on the inner wall of the second control box (30) corresponding to the pressing roller (32). The telescopic arm of the electric push rod (300) is connected to the slider on the rotating shaft of the pressing roller (32).

3. The road cone sleeve reflective pressing processing equipment according to claim 2, characterized in that: A reflective film pressing roller (33) is provided between the two second control boxes (30) on the left side of the pressing roller (32), and a limiting roller (34) is provided above the reflective film pressing roller (33).

4. The road cone sleeve reflective pressing processing equipment according to claim 1, characterized in that: The winding assembly (4) includes symmetrical third control boxes (40), with second receiving rollers (41) symmetrically arranged between the third control boxes (40) near the right side, and pallets (44) symmetrically arranged on the left end face of each third control box (40). A detachable winding roller (45) is arranged between the pallets (44) located on the same horizontal plane, and a second motor (43) is arranged on the left side face of each third control box (40) corresponding to the winding roller (45).

5. The road cone sleeve reflective pressing processing equipment according to claim 4, characterized in that: Each of the third control boxes (40) is provided with a swing arm (42) near the top left side. The swing arm (42) is rotatably connected to the third control box (40) via a rotating shaft. A pressure roller (420) is provided at the end of the swing arm (42), and the pressure roller (420) is close to the winding roller (45).

6. The road cone sleeve reflective pressing processing equipment according to claim 1, characterized in that: The bottom of the first bracket (21) is welded and fixed to the first control box (20). The fixing bolt (212) is threadedly connected to the first screw hole (211), and the end of the fixing bolt (212) extends into the slot (210). The end of the winding roller (23) is provided with a rotating shaft (230). The rotating shaft (230) is inserted into the slot (210). The end of the fixing bolt (212) intercepts the rotating shaft (230). The rotating shaft (230) and the driven tooth (231) are integrally formed.

7. The road cone sleeve reflective pressing processing equipment according to claim 1, characterized in that: The first motor (22) is fixedly connected to the first control box (20) by screws. The output shaft of the first motor (22) is welded and fixed to the active gear (220). The active gear (220) and the driven gear (231) are correspondingly inserted and meshed with each other.