Conical object turning device
By designing a combination of support and adjustment parts, along with support wheels, rolling wheels, and a driver, the problem of stable rotation of conical objects under different taper angles was solved, achieving stable rotation and improved precision of the conical objects.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHEJIANG GONGZHENG INTELLIGENT EQUIPMENT CO LTD
- Filing Date
- 2026-06-05
- Publication Date
- 2026-07-14
AI Technical Summary
Existing technologies are difficult to adapt to the stable rotation of conical objects with different taper angles, especially since the control of the print head on the surface of the conical object is complex and structurally complicated during the printing process.
A conical object rotation device was designed, including a support part and an adjustment part. Through the cooperation of the support part and the adjustment part, it can adapt to conical objects with different taper angles. The stable rotation of the conical object is achieved by the combination of support wheel, rolling wheel, driver and limiting part.
It improves the applicability and stability of the conical object rotation device, reduces frictional resistance, and improves the accuracy and quality of printing or inspection.
Smart Images

Figure CN224490433U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a transmission device, specifically a device for rotating a conical object. Background Technology
[0002] In some applications, such as printing on the surface of a conical object, the conical object needs to rotate or the print head needs to move around the conical object during printing. The latter requires higher control of the print head and involves complex structures. If the conical object rotates, the taper of the conical object's surface also needs to be considered. Utility Model Content
[0003] In view of the shortcomings of the existing technology, the purpose of this utility model is to provide a conical object rotation device that can adapt to conical objects of different taper and drive them to rotate stably.
[0004] To achieve the above objectives, the present invention provides the following technical solution: a conical object rotating device, comprising a support part and an adjusting part, wherein the support part is rotatably arranged, and the adjusting part is adjusted up and down relative to the support part in the supporting direction; the adjusting part is used to support the small end of the conical object, and the support part supports the large end of the conical object.
[0005] As a further improvement of this utility model, the adjusting part is adjusted by lifting to support the side of the conical object away from the supporting part to be horizontal.
[0006] As a further improvement of this utility model, the adjusting part has an adjusting member and a locking member, and the adjusting member is adjusted and then locked in place with the locking member.
[0007] As a further improvement of this utility model, a support wheel is rotatably connected to one end of the adjusting member used to support the conical object, and the conical object is supported by the support wheel.
[0008] As a further improvement of this utility model, the number of support wheels is two, and the space between the two support wheels is used to place the small end of the cone-shaped object.
[0009] As a further improvement of this utility model, the support includes two rotating shafts and rolling wheels on the two rotating shafts, and the space between the two rolling wheels is used to place the large end of the conical object.
[0010] As a further improvement of this utility model, the surface of the rolling wheel is covered with a rubber sleeve, which is used to contact the conical object.
[0011] As a further improvement of this utility model, at least one of the rotating shafts is connected to a driver, which is connected to the rotating shaft to drive the rotating shaft to rotate.
[0012] As a further improvement of this utility model, a limiting member is also provided at the position corresponding to the large end of the conical object. The limiting member can be adjusted up and down relative to the support direction of the support part to abut the end of the large end of the conical object.
[0013] As a further improvement of this utility model, the limiting member includes a movable member, a locking member, and an abutting member. The abutting member is movably and adjustablely connected to the movable member. After the movable member moves up and down, it is locked by the locking member. The abutting member is used to abut against the end of the large end of the conical object.
[0014] The beneficial effect of this utility model is that, through the cooperation of the support part and the adjustment part, it can adapt to conical objects with different tapers and drive them to rotate stably, thereby improving the applicability of the conical object rotation device. Attached Figure Description
[0015] Figure 1 This is a top view of the overall structure of this utility model; Figure 2 This is a three-dimensional schematic diagram of the overall structure of this utility model; Figure 3 This is a three-dimensional schematic diagram of the overall structure of this utility model from another perspective; Figure 4 for Figure 2 Enlarged view of part A in the image; Figure 5 for Figure 3 Enlarged view of part B in the image.
[0016] Reference numerals: 1. Support part; 11. Rotating shaft; 12. Roller; 2. Adjustment part; 21. Adjusting component; 22. Locking component; 23. Support wheel; 3. Driver; 4. Limiting component; 41. Moving component; 42. Locking component; 43. Abutting component. Detailed Implementation
[0017] The present invention will now be described in further detail with reference to the embodiments shown in the accompanying drawings.
[0018] Reference Figure 1-5 As shown, a cone-shaped object rotating device according to this embodiment includes a support part 1 and an adjusting part 2. The support part 1 is rotatably arranged, and the adjusting part 2 is adjusted up and down relative to the support part 1 in the supporting direction. The adjusting part 2 is used to support the small end of the cone-shaped object, and the support part 1 supports the large end of the cone-shaped object.
[0019] In use, the larger end of the conical object is placed on the support 1, and the smaller end on the adjustment 2. The height of the smaller end is adjusted by raising and lowering the adjustment 2, bringing the axis of the conical object to the desired angle. The support 1 rotates under external force, causing the conical object to rotate around its axis. Alternatively, the conical object can rotate under external force. This design, through the coordinated raising and lowering of the support 1 and adjustment 2, can accommodate conical objects of different tapers and ensure their stable rotation, thus expanding the applicability of the conical object rotation device. It also facilitates subsequent operations on the conical object, such as printing.
[0020] As an improved specific embodiment, the adjustment part 2 supports the side of the conical object away from the support part 1 to be horizontal by adjusting the height.
[0021] The adjustment unit 2 can be adjusted to change the support height of the small end of the conical object, making the side of the conical object away from the support unit 1 more horizontal. When printing or inspecting this side, the horizontal state can improve the accuracy of processing or inspection and improve the quality of the work.
[0022] To facilitate fixing the position of the adjustment part 2, in one optional embodiment, the adjustment part 2 has an adjustment member 21 and a locking member 22, and the adjustment member 21 is adjusted and then locked in place with the locking member 22.
[0023] The adjusting component 21 can be a plate-like structure, and the locking component 22 can be a locking bolt, nut, set screw, or clamp, etc. The adjusting component 21 and the locking component 22 can be connected via threaded engagement or plug-in connection. After the adjusting component 21 moves and adjusts to its position along the support direction, the locking component 22 locks the adjusting component 21 in place, keeping the adjusting part 2 at the set height. This design, through the cooperation of the adjusting component 21 and the locking component 22, improves the convenience of height adjustment of the adjusting part 2 and the stability after locking.
[0024] Specifically, further optimization can be achieved by selecting the following method: a support wheel 23 is rotatably connected to one end of the adjusting component 21 that supports the conical object, and the conical object is supported by the support wheel 23.
[0025] When the conical object rotates, the support wheel 23 contacts the outer circumferential surface of the small end of the conical object and rotates accordingly, changing the sliding friction between the adjusting part 21 and the conical object into rolling friction, reducing frictional resistance, improving the smoothness of the conical object's rotation, and reducing the wear of the small end of the conical object.
[0026] In some options, there are two support wheels 23, with the space between the two support wheels 23 forming a space for placing the small end of the cone-shaped object.
[0027] Two support wheels 23 are arranged parallel to each other and spaced apart at the end of the adjusting member 21, forming a support space between them for placing the small end of the conical object. The small end of the conical object is placed in this space, and both support wheels 23 simultaneously contact the outer circumferential surface of the small end, forming two-point support. This design, through the cooperation of the two support wheels 23, improves the support stability of the small end, alleviates the possibility of the small end shifting or wobbling during rotation, and improves the rotational balance of the conical object.
[0028] In terms of the structural selection of the support part 1, the support part 1 includes two rotating shafts 11 and rolling wheels 12 on the two rotating shafts 11, and the space between the two rolling wheels 12 is used to place the large end of the cone-shaped object.
[0029] Two rotating shafts 11 can be mounted in parallel on a frame or base. Rolling wheels 12 can be mounted on the rotating shafts 11 via bearings, forming a support space between the two rolling wheels 12 for placing the larger end of a conical object. The larger end of the conical object is placed between the two rolling wheels 12, contacting the outer circumferential surfaces of the two rolling wheels 12. When the rolling wheels 12 rotate, friction causes the larger end of the conical object to rotate, thereby causing the entire conical object to rotate around its axis; or, when the conical object is rotated by an external force, the rolling wheels 12 provide support for the rotation. This design, through the cooperation of the two rotating shafts 11 and the rolling wheels 12, improves the smoothness of the conical object's rotation.
[0030] To improve the contact between the roller 12 and the conical object, the surface of the roller 12 is covered with a rubber sleeve, which is used to contact the conical object.
[0031] The rubber sleeve can be applied to the outer circumferential surface of the rolling wheel 12 by means of bonding, vulcanization molding, or tight fitting. The rubber sleeve can be made of natural rubber, synthetic rubber, or other elastic polymer materials. The rolling wheel 12 contacts the outer circumferential surface of the large end of the conical object through the rubber sleeve. The rubber sleeve can increase the friction between the rolling wheel 12 and the conical object, alleviate slippage, improve the tightness of contact, and reduce the risk of damage to the surface of the conical object.
[0032] In terms of the driving method, at least one of the rotating shafts 11 is connected to a driver 3, which is connected to the rotating shaft 11 to drive the rotating shaft 11 to rotate.
[0033] The driver 3 can be selected from rotary drive devices such as motors and geared motors. The output end of the driver 3 can be connected to the rotating shaft 11 via a coupling, gear transmission mechanism, or belt transmission mechanism. The driver 3 drives the rotating shaft 11 to rotate, and the rotating shaft 11 drives the rolling wheel 12 on it to rotate, thereby driving the conical object to rotate through friction. This solution, through the connection between the driver 3 and the rotating shaft 11, can provide continuous and stable power for the rotation of the conical object, improving the convenience and automation of rotation control.
[0034] To prevent the conical object from shifting axially, a limiting member 4 is provided at the position where the large end of the conical object is placed. The limiting member 4 can be adjusted up and down relative to the support part 1 in the support direction and is used to abut the end of the large end of the conical object.
[0035] The limiting member 4 can be disposed on one or both sides of the support part 1 along the axial direction of the conical object. Referring to the figure, the limiting member 4 and the adjusting part 2 are respectively located at both ends of the conical object. After the limiting member 4 is adjusted to an appropriate height, its end abuts against the end of the large end of the conical object, restricting the movement of the conical object along its axial direction. This solution, through the setting of the limiting member 4, can alleviate the situation of the conical object moving sideways during rotation and improve the axial positioning stability of the conical object.
[0036] In some implementations, the limiting member 4 may adopt the following structure: the limiting member 4 includes a movable member 41, a locking member 42 and an abutment member 43. The abutment member 43 is movably and adjustablely connected to the movable member 41. After the movable member 41 moves up and down, it is locked by the locking member 42. The abutment member 43 is used to abut against the end of the large end of the conical object.
[0037] The movable component 41 can be configured as a slider or a movable seat, etc., and can move up and down along the support direction of the support part 1. The locking component 42 can be configured as a nut structure, used to lock the position of the movable component 41 after it is adjusted to the correct position. The abutment component 43 can be configured as a rod-shaped or block-shaped structure. The abutment component 43 can be adjusted to move with the movable component 41 through threaded connection or by using a nut, so that the abutment component 43 can adapt to the position of the large end of conical objects of different diameters. After the movable component 41 drives the abutment component 43 to move up and down to the appropriate position, the movable component 41 is fixed by the locking component 42, and the abutment component 43 abuts against the large end of the conical object. This solution improves the flexibility and adaptability of the position adjustment of the limiting component 4 through the cooperation of the movable component 41, the locking component 42, and the abutment component 43, and can adapt to the limiting requirements of conical objects of different specifications, thus improving the limiting effect.
[0038] In summary, when using the conical object rotation device, the larger end of the conical object is placed between the two rolling wheels 12 of the support part 1, and the smaller end is placed between the two support wheels 23 of the adjustment part 2. By adjusting the height of the adjustment part 2, the conical object is positioned in the desired horizontal or inclined state. After the adjustment part 21 is adjusted to the correct position, it is locked by the locking part 22. The limiting part 4 drives the abutting part 43 to be adjusted to the position where it abuts the larger end of the conical object through the movable part 41, and the movable part 41 is locked by the locking part 42. The driver 3 drives the rotating shaft 11 and the rolling wheels 12 to rotate. The rolling wheels 12 drive the conical object to rotate around its axis through the friction between the rubber sleeve and the larger end of the conical object. The support wheels 23 rotate accordingly, thereby achieving stable rotation of the conical object.
[0039] The above description is merely a preferred embodiment of this utility model. The protection scope of this utility model is not limited to the above embodiments. All technical solutions falling within the scope of this utility model's concept are protected. It should be noted that for those skilled in the art, any improvements and modifications made without departing from the principle of this utility model should also be considered within the protection scope of this utility model.
Claims
1. A device for rotating a conical object, characterized in that, It includes a support part and an adjustment part. The support part is rotatably arranged, and the adjustment part is adjusted up and down relative to the support part in the support direction. The adjustment part is used to support the small end of the conical object, and the support part supports the large end of the conical object.
2. The conical object rotating device according to claim 1, characterized in that, The adjustment unit, through lifting and lowering adjustment, supports the side of the conical object away from the support unit to be horizontal.
3. The conical object rotating device according to claim 2, characterized in that, The adjustment part has an adjustment component and a locking component. After the adjustment component is adjusted, it is locked in place with the locking component.
4. The conical object rotating device according to claim 3, characterized in that, The adjusting member has a support wheel rotatably connected to one end for supporting the conical object, and the conical object is supported by the support wheel.
5. The conical object rotating device according to claim 4, characterized in that, The number of support wheels is two, and the space between the two support wheels is used to place the small end of the cone-shaped object.
6. The conical object rotating device according to any one of claims 1 to 5, characterized in that, The support includes two rotating shafts and rolling wheels on the two rotating shafts, with a space between the two rolling wheels for placing the large end of the conical object.
7. The conical object rotating device according to claim 6, characterized in that, The surface of the roller is covered with a rubber sleeve, which is used to contact the conical object.
8. The conical object rotating device according to claim 6, characterized in that, At least one of the shafts is connected to a driver, which is connected to the shaft to drive the shaft to rotate.
9. The conical object rotating device according to claim 1, characterized in that, A limiting component is also provided at the position corresponding to the placement of the large end of the conical object. This limiting component can be adjusted up and down relative to the support direction of the support part to abut the end of the large end of the conical object.
10. The conical object rotating device according to claim 9, characterized in that, The limiting component includes a movable component, a locking component, and an abutment component. The abutment component is movably and adjustablely connected to the movable component. After the movable component moves up and down, it is locked by the locking component. The abutment component is used to abut against the end of the large end of the conical object.