Rotatable kettle body frame
By using the sliding fit between the vessel body retaining ring and the retaining ring support, as well as the vessel body rotating assembly, the problem of damage during vessel body rotation is solved, achieving stable rotation and adaptability of the vessel body and avoiding damage to the outer wall of the vessel body.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- WUXI LEILEJIA MASCH CO LTD
- Filing Date
- 2025-05-07
- Publication Date
- 2026-06-26
AI Technical Summary
Existing vessel frame supports are prone to damaging the outer wall of the vessel when rotating it, especially vessels without racks cannot rotate effectively.
The vessel body retaining ring and retaining ring support are slidably engaged, combined with the vessel body rotating assembly, including a rotating base plate, vessel body rotating wheel and conical turntable. The vessel body rotating wheel is driven to rotate in the same direction by a transmission belt, avoiding direct contact with the outer wall of the vessel body. The conical turntable increases the contact area and the rubber pad improves the friction.
It effectively avoids damage to the outer wall of the vessel, improves the stability and adaptability of the vessel rotation, and is suitable for vessels of different sizes.
Smart Images

Figure CN224405094U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of reaction vessel technology, and in particular to a rotatable vessel frame. Background Technology
[0002] In the production process of chemical products, reaction vessels are frequently used. A reaction vessel is a container that achieves the heating, evaporation, cooling, and low-to-high-speed mixing functions required by the process through structural design and parameter configuration. In actual use, the reaction vessel body needs to be rotated according to the usage requirements. Existing vessel body supports often use gear meshing to rotate the vessel body, with gear drive components installed on the vessel body support and racks installed on the outer wall of the reaction vessel body. However, not every reaction vessel body has racks. Therefore, when it is necessary to rotate the vessel body at an angle, how can a vessel body without racks be rotated? The gear rotation method will inevitably cause damage to the vessel body. Therefore, a rotatable vessel body support is needed. Utility Model Content
[0003] In view of the shortcomings of the prior art described above, the purpose of this utility model is to provide a rotatable vessel frame to solve the problem of how the vessel can be rotated during use in the prior art.
[0004] To achieve the above and other related objectives, this utility model provides the following technical solution:
[0005] A rotatable vessel frame includes a vessel body and a vessel frame for supporting the vessel body, and further includes:
[0006] The vessel body is provided with a vessel retaining ring, and the top of the vessel frame is provided with a retaining ring support. When the vessel body is placed on the vessel frame, the vessel retaining ring is located on the upper side of the retaining ring support, and the vessel retaining ring and the retaining ring support are in sliding engagement.
[0007] A vessel rotation assembly is provided on the vessel frame on the lower side of the vessel body to drive the vessel body to rotate on the vessel frame.
[0008] To achieve the above technical solution, the vessel body retaining ring and the retaining ring support are slidably fitted together. When the vessel body is placed on the vessel body frame, the vessel body retaining ring is located on the upper side of the retaining ring support. When it is necessary to rotate the vessel body, the vessel body rotating component is provided on the vessel body frame to drive the vessel body to rotate.
[0009] In one embodiment of the present invention, the vessel rotating assembly includes a rotating base plate connected to the vessel frame. Two sets of vessel rotating wheels are symmetrically arranged on the rotating base plate. The two sets of vessel rotating wheels are rotatably connected to the rotating base plate. A rotating wheel drive is provided on the lower side of the rotating base plate. A transmission belt is provided between the movable end of the rotating wheel drive and the two sets of vessel rotating wheels to drive the two sets of vessel rotating wheels to rotate in the same direction.
[0010] To achieve the above technical solution, two sets of vessel rotating wheels rotatably connected to a rotating base plate are used. Under the drive of the rotating wheel drive, the two sets of vessel rotating wheels contact the side wall of the vessel body. The two sets of vessel rotating wheels drive the vessel body to rotate, thus avoiding the problem of gears damaging the outer wall of the vessel body.
[0011] In one embodiment of the present invention, a conical turntable is provided on the upper side of the vessel body rotor, and the conical turntable moves synchronously with the vessel body rotor.
[0012] To achieve the above technical solution, since the lower side of some vessel bodies is a conical surface, in order to increase the contact area between the vessel body rotor and the vessel body, and thus better drive the vessel body to rotate, a conical turntable is provided on the upper side of the vessel body rotor. The conical turntable is used to contact the vessel body on the conical bottom surface, thereby improving the rotational stability of the vessel body and protecting the vessel body.
[0013] In one embodiment of this utility model, rubber pads are provided on the outer walls of both the vessel rotor and the conical turntable.
[0014] To achieve the above technical solution, the rubber pad can, on the one hand, increase the friction between the vessel rotor and the vessel body, and on the other hand, increase the friction between the vessel rotor and the vessel body, thereby improving the stability of the vessel body's rotation.
[0015] In one embodiment of the present invention, a rotating bracket is provided on the vessel frame, and a base plate support is provided between the rotating base plate and the rotating bracket, wherein the base plate support is detachably connected to the rotating bracket.
[0016] To achieve the above technical solution, the substrate support is detachably connected to the rotating bracket, which facilitates the assembly of the rotating substrate and improves ease of use.
[0017] In one embodiment of the present invention, the rotating substrate is slidably connected to the substrate support, and a substrate driving member is provided between the substrate support and the rotating substrate. The rotating substrate is located at the movable end of the substrate driving member, and the fixed end of the substrate driving member is located on the substrate support. The substrate driving member drives the rotating substrate to move away from or towards the rotating support.
[0018] To achieve the above technical solution, the substrate driving component is used to drive the rotating substrate to move away from or towards the rotating support, thereby enabling the vessel body rotor to better contact the side wall of the vessel body, thus providing stability for the rotation of the vessel body and improving the adaptability of the vessel body rotor to vessel bodies of different sizes.
[0019] In one embodiment of the present invention, sliding guide rails are provided on the substrate supports on both sides of the substrate driving member, and a substrate slider is provided on the rotating substrate, with the substrate slider and the sliding guide rails slidingly engaged.
[0020] To achieve the above technical solution, the sliding cooperation between the substrate slider and the sliding guide rail can improve the sliding stability of the substrate driving component driving the rotating substrate.
[0021] As described above, the rotatable vessel frame of this utility model has the following beneficial effects: by slidingly engaging the vessel retaining ring and the retaining ring support, when the vessel body is placed on the vessel frame, the vessel retaining ring is located on the upper side of the retaining ring support. When it is necessary to rotate the vessel body, the vessel rotating assembly provided on the vessel frame drives the vessel body to rotate, and the two sets of vessel rotating wheels contact the side wall of the vessel body. The two sets of vessel rotating wheels drive the vessel body to rotate, thus avoiding the problem of gears damaging the outer wall of the vessel body. Attached Figure Description
[0022] Figure 1 The diagram shown is a structural schematic of the rotatable vessel frame disclosed in an embodiment of this utility model.
[0023] Figure 2 The diagram shown is a schematic diagram of the rotating base plate structure of the rotatable vessel frame disclosed in the embodiment of this utility model.
[0024] Figure 3 The diagram shown is a schematic diagram of the rotating vessel frame's wheel drive structure as disclosed in an embodiment of this utility model.
[0025] Component designation explanation
[0026] 1. Vessel body; 2. Vessel frame; 3. Vessel retaining ring; 4. Retaining ring support; 5. Rotating base plate; 6. Vessel wheel; 7. Wheel drive component; 8. Conical turntable; 9. Rotating bracket; 10. Base plate support; 11. Base plate drive component; 12. Sliding guide rail; 13. Base plate slider; 14. Transmission belt. Detailed Implementation
[0027] The following specific embodiments illustrate the implementation of this utility model. Those skilled in the art can easily understand other advantages and effects of this utility model from the content disclosed in this specification. It should be noted that, unless otherwise specified, the following embodiments and features can be combined with each other.
[0028] Please see Figures 1 to 3 This utility model provides a rotatable vessel frame, including a vessel body 1 and a vessel frame 2 for supporting the vessel body 1. It also includes a vessel retaining ring 3 on the vessel body 1 and a retaining ring support 4 on the top of the vessel frame 2. When the vessel body 1 is placed on the vessel frame 2, the vessel retaining ring 3 is located on the upper side of the retaining ring support 4, and the vessel retaining ring 3 and the retaining ring support 4 are slidably engaged. A vessel rotating assembly is provided on the vessel frame 2 on the lower side of the vessel body 1 to drive the vessel body 1 to rotate on the vessel frame 2.
[0029] By sliding the vessel body retaining ring 3 and retaining ring support 4, when the vessel body 1 is placed on the vessel body frame 2, the vessel body retaining ring 3 is located on the upper side of the retaining ring support 4. When it is necessary to rotate the vessel body 1, the vessel body rotating component set on the vessel body frame 2 is used to drive the vessel body 1 to rotate.
[0030] The vessel rotation assembly includes a rotating base plate 5 connected to the vessel frame 2. Two sets of vessel rotating wheels 6 are symmetrically arranged on the rotating base plate 5. The two sets of vessel rotating wheels 6 are rotatably connected to the rotating base plate 5. A rotating wheel drive 7 is provided on the lower side of the rotating base plate 5. A transmission belt 14 is provided between the movable end of the rotating wheel drive 7 and the two sets of vessel rotating wheels 6 to drive the two sets of vessel rotating wheels 6 to rotate in the same direction.
[0031] By using two sets of vessel body rotating wheels 6 rotatably connected to the rotating base plate 5, which rotate in the same direction under the drive of the rotating wheel drive 7, the two sets of vessel body rotating wheels 6 contact the side wall of the vessel body 1, and drive the vessel body 1 to rotate by the two sets of vessel body rotating wheels 6. This can avoid the problem of gears damaging the outer wall of the vessel body 1.
[0032] A conical turntable 8 is provided on the upper side of the vessel body rotor 6. The conical turntable 8 moves synchronously with the vessel body rotor 6. Since the lower side of some vessel bodies 1 is a conical surface, in order to increase the contact area between the vessel body rotor 6 and the vessel body 1, and thus better drive the vessel body 1 to rotate, a conical turntable 8 is provided on the upper side of the vessel body rotor 6. The conical turntable 8 is used to contact the conical bottom surface of the vessel body 1, thereby improving the rotational stability of the vessel body 1 and protecting the vessel body 1.
[0033] Rubber pads are provided on the outer walls of both the vessel body rotor 6 and the conical turntable 8. The rubber pads can increase the friction between the vessel body rotor 6 and the vessel body 1, and also increase the friction between the vessel body rotor 6 and the vessel body 1, thereby improving the stability of the rotation of the vessel body 1.
[0034] A rotating bracket 9 is provided on the vessel frame 2, and a base plate support 10 is provided between the rotating base plate 5 and the rotating bracket 9. The base plate support 10 is detachably connected to the rotating bracket 9, which facilitates the assembly of the rotating base plate 5 and improves the ease of use.
[0035] The rotating substrate 5 is slidably connected to the substrate support 10. A substrate driving member 11 is provided between the substrate support 10 and the rotating substrate 5. The rotating substrate 5 is located at the movable end of the substrate driving member 11, and the fixed end of the substrate driving member 11 is located on the substrate support 10. The substrate driving member 11 drives the rotating substrate 5 to move away from or towards the rotating bracket 9.
[0036] The base plate drive 11 drives the rotating base plate 5 to move away from or closer to the rotating support 9, thereby enabling the vessel body roller 6 to better contact the side wall of the vessel body 1, thus providing stability for the rotation of the vessel body 1 and improving the adaptability of the vessel body roller 6 to vessel bodies 1 of different sizes.
[0037] The substrate support 10 on both sides of the substrate driver 11 is provided with sliding guide rails 12, and the rotating substrate 5 is provided with a substrate slider 13. The substrate slider 13 and the sliding guide rail 12 are slidably engaged. By utilizing the slidable engagement between the substrate slider 13 and the sliding guide rail 12, the sliding stability of the substrate driver 11 driving the rotating substrate 5 can be improved.
[0038] This invention achieves a sliding fit between the vessel body retaining ring and the retaining ring support. When the vessel body is placed on the vessel body frame, the retaining ring is located on the upper side of the retaining ring support. When it is necessary to rotate the vessel body, a vessel body rotating assembly is provided on the vessel body frame to drive the vessel body to rotate, bringing two sets of vessel body rotating wheels into contact with the side wall of the vessel body. The two sets of vessel body rotating wheels drive the vessel body to rotate, thus avoiding the problem of gears damaging the outer wall of the vessel body.
[0039] The above embodiments are merely illustrative of the principles and effects of this utility model and are not intended to limit this utility model. All equivalent modifications or alterations made by those skilled in the art without departing from the spirit and technical concept disclosed in this utility model should still be covered by the claims of this utility model.
Claims
1. A rotatable vessel frame, comprising a vessel body and a vessel frame for supporting the vessel body, characterized in that, Also includes: The vessel body is provided with a vessel retaining ring, and the top of the vessel frame is provided with a retaining ring support. When the vessel body is placed on the vessel frame, the vessel retaining ring is located on the upper side of the retaining ring support, and the vessel retaining ring and the retaining ring support are in sliding engagement. A vessel rotation assembly is provided on the vessel frame on the lower side of the vessel body to drive the vessel body to rotate on the vessel frame.
2. The rotatable vessel frame according to claim 1, characterized in that: The vessel rotation assembly includes a rotating base plate connected to the vessel frame. Two sets of vessel rotating wheels are symmetrically arranged on the rotating base plate. The two sets of vessel rotating wheels are rotatably connected to the rotating base plate. A rotating wheel drive is provided on the lower side of the rotating base plate. A transmission belt is provided between the movable end of the rotating wheel drive and the two sets of vessel rotating wheels to drive the two sets of vessel rotating wheels to rotate in the same direction.
3. The rotatable vessel frame according to claim 2, characterized in that: A conical turntable is provided on the upper side of the vessel body rotor, and the conical turntable moves synchronously with the vessel body rotor.
4. The rotatable vessel frame according to claim 2, characterized in that: Rubber pads are provided on the outer walls of both the vessel rotor and the conical turntable.
5. The rotatable vessel frame according to claim 2, characterized in that: The vessel frame is provided with a rotating bracket, and a base plate support is provided between the rotating base plate and the rotating bracket. The base plate support is detachably connected to the rotating bracket.
6. The rotatable vessel frame according to claim 2, characterized in that: The rotating substrate is slidably connected to the substrate support. A substrate driving component is provided between the substrate support and the rotating substrate. The rotating substrate is located at the movable end of the substrate driving component, and the fixed end of the substrate driving component is located on the substrate support. The substrate driving component drives the rotating substrate to move away from or towards the rotating support.
7. The rotatable vessel frame according to claim 6, characterized in that: The substrate support on both sides of the substrate driver is provided with sliding guide rails, and the rotating substrate is provided with a substrate slider, and the substrate slider and the sliding guide rail are slidably engaged.