A ceramic vase which is less prone to tipping over
Through the innovative design of a stable base, clamping support, and hollow inflatable bladder, the problems of large ceramic vase base size, inconvenient fixing, and tipping risk have been solved, achieving stable and flexible vase fixing and angle adjustment, thus improving the user experience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- FUJIAN S&A CERAMIC IND CO LTD
- Filing Date
- 2025-07-23
- Publication Date
- 2026-07-03
AI Technical Summary
Existing ceramic vase bases are too large, affecting aesthetics and taking up space. Once fixed, they cannot rotate, making operation inconvenient. Suction cup bases have limited protection when tipped over, easily causing the vase to tip over and be damaged.
A structure including a stable base, a clamping support, and a hollow inflatable pad is designed. The stable base is embedded with a spring assembly and a silicone suction plate. The clamping support is rotatable. The hollow inflatable pad is distributed around to provide cushioning. Combined with an electric push rod and a USB rechargeable controller, the vase can be stably fixed and its angle can be adjusted.
Without increasing the floor space, it provides a stable and flexible vase fixation, and the angle can be adjusted according to viewing needs, which improves the safety and ease of operation of the vase and avoids the risk of tipping over.
Smart Images

Figure CN224440882U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of ceramic vase technology, specifically to a ceramic vase that is not easily tipped over. Background Technology
[0002] Ceramic vases are containers used for arranging flowers for people to enjoy. They are pleasing to the eye and are widely used in the decoration of various places.
[0003] The existing patent document CN 222815591 U provides a ceramic vase that is not easily tipped over. This ceramic vase, through the installation of a positioning support mechanism, allows the user to adjust the position of the two sets of fixing plates by rotating the handwheel during use, facilitating quick assembly and disassembly of the ceramic vase. The integrated suction cup base structure ensures the stability of the ceramic base and improves the stability of the ceramic vase during use.
[0004] However, the ceramic base in the above structure is too large, which not only affects the aesthetics but also increases the space occupied. In addition, after the ceramic vase is fixed, it cannot be rotated according to the needs of appreciation. It is necessary to remove the fixation before operation, which increases the inconvenience of operation. Furthermore, the integrated suction cup base has limited protection when it is tipped over. If a gap appears in one corner, both the ceramic base and the ceramic vase will tip over and cause damage.
[0005] Therefore, it is particularly important to design a ceramic vase that is not easily tipped over to overcome the above-mentioned technical defects and improve its overall practicality. Utility Model Content
[0006] The purpose of this invention is to provide a ceramic vase that is not easily tipped over, so as to solve the problems mentioned in the background art.
[0007] To achieve the above objectives, this utility model provides the following technical solution:
[0008] A ceramic vase that is not easily tipped over includes a vase body, a stable base, and a clamping support. A short rotating shaft is rotatably connected to the middle of the top inner side of the stable base. Multiple sets of hollow inflatable bladders are provided at the bottom of the stable base. Spring assemblies are embedded in the hollow portions of the hollow inflatable bladders, and silicone suction cups are connected to the bottom of the spring assemblies. A fixed support plate is provided at the bottom of the clamping support. Folding brackets are symmetrically fixed to the top outer side of the clamping support. A fixed crossbar is installed at the top of the folding brackets. A rectangular groove extending along the length of the fixed crossbar is formed inwards at the top of the fixed crossbar. An electric push rod is installed at one end of the fixed crossbar. The telescopic end of the electric push rod passes through the interior of the rectangular groove and is connected to a sliding sleeve. A push plate is installed at the top of the sliding sleeve, and a clamping bent plate that cooperates with the vase body is fixed at one end of the push plate.
[0009] As a preferred embodiment of this utility model, a USB rechargeable controller is provided on the outside of the stable base, wherein the USB rechargeable controller and the electric push rod are connected by a wire, and the connection is an electrical connection.
[0010] As a preferred embodiment of this utility model, the top of the inner side of the stabilizing base is rotatably connected to the short rotating shaft through a rotating bearing seat. The internal structure size of the stabilizing base is adapted to the external structure size of the clamping support. The top of the short rotating shaft is fixed to the center position of the bottom of the fixed support plate by bolts.
[0011] The above technical solution allows the vase to be rotated according to viewing preferences after it is fixed, making it easy to operate. The internal structure size of the stable base is matched with the external structure size of the clamping support, which ensures that there is no jamming during rotation and guarantees smooth movement.
[0012] As a preferred embodiment of this utility model, the hollow inflatable bladder pads are provided in six groups, and are arranged in a ring shape at the edge of the bottom of the stable base. The hollow inflatable bladder pads are made of silicone air bladder shells and are fixed to the bottom of the stable base by gluing.
[0013] The above technical solution improves the uniformity of adsorption force through the surrounding distribution, making the vase more stable. The hollow inflatable pad can provide cushioning under the push of the tipping force, preventing the vase from falling over due to continuous force.
[0014] As a preferred embodiment of this utility model, the spring assembly adopts a columnar helical spring, and the top of the spring assembly is fixed to the bottom of the stable base by screws. The overall height of the spring assembly is slightly greater than the height of the hollow part of the hollow inflatable bladder.
[0015] Through the above technical solution, the spring assembly and the hollow inflatable bladder work together to form a stable bottom support and protection, thereby providing protection for the safe placement of the ceramic vase.
[0016] As a preferred embodiment of this utility model, the bottom of the vase body is placed inside the clamping support, the vase body and the clamping support are designed to be separable, and the inner side wall of the clamping support is fitted with an anti-slip adhesive.
[0017] Through the above technical solution, the anti-slip adhesive tape can improve the stability of the vase after it is placed, thereby enhancing its protective capabilities.
[0018] As a preferred embodiment of this utility model, the connection between the sliding sleeve and the rectangular groove is a sliding connection. Limiting guide grooves are provided on both the left and right sides inside the rectangular groove. Limiting protrusions that slide with the limiting guide grooves are provided on both the left and right sides of the sliding sleeve. Anti-slip adhesive is attached to the inner side of the clamping plate.
[0019] Through the above technical solution, the limiting guide groove and the limiting protrusion serve to limit the movement of the sliding sleeve, and the anti-slip adhesive patch improves the stability of the clamping bending plate and avoids slippage, thus preventing the vase from being unstable.
[0020] Compared with the prior art, the beneficial effects of this utility model are:
[0021] 1. In this utility model, a ceramic vase that is not easy to tip over is designed with a reasonable stable base structure. It provides anti-tipping protection for the ceramic vase without providing an excessive amount of space. At the same time, it can quickly clamp and fix vases of different diameters. After fixing, the ceramic vase can also be rotated, combining ornamental value with safety and making operation more convenient.
[0022] 2. In this utility model, a non-tipping ceramic vase is designed with six sets of hollow inflatable pads arranged in a ring at the bottom of a stable base. The surface of each pad is a silicone inflatable shell, and the inside is filled with gas to keep the hollow inflatable pads full. A spring assembly is installed in the hollow part of each inflatable pad. One end of the spring assembly is connected to the stable base, and the other end is connected to a silicone adsorption plate. Multiple sets of individual silicone adsorption plates can adsorb onto the ground or the surface where the vase is placed. This ensures that even if one set of silicone adsorption plates has gaps and is not firmly attached, the remaining silicone adsorption plates will continue to generate adsorption force to maintain the stability of the ceramic vase. Furthermore, if the ceramic vase is impacted and tilted, the spring assembly will deform with the tilting force, pressing against the corresponding hollow inflatable pad. This not only provides cushioning under the action of the hollow inflatable pads, but also prevents the tilting force from continuing, thus effectively avoiding the risk of the ceramic vase tipping over and protecting it. Attached Figure Description
[0023] Figure 1 This is a schematic diagram of the structure of this utility model;
[0024] Figure 2 This is an overall structural diagram of the stable base and clamping support of this utility model;
[0025] Figure 3 This is a structural diagram showing the separation of the stabilizing base and the clamping support of this utility model;
[0026] Figure 4 This is a schematic diagram of the bottom structure of the stable base of this utility model;
[0027] Figure 5 This is a schematic diagram of the clamping support part of this utility model.
[0028] In the diagram: 1. Vase body; 2. Stable base; 201. Rotating short shaft; 202. Hollow inflatable bladder pad; 203. Spring assembly; 204. Silicone suction cup; 3. Clamping support; 301. Fixed support plate; 302. Folding bracket; 303. Fixed crossbar; 304. Rectangular groove; 305. Electric push rod; 306. Sliding sleeve; 307. Push plate; 308. Clamping curved plate. Detailed Implementation
[0029] The technical solutions of the present utility model will be clearly and completely described below with reference to the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the protection scope of the present utility model.
[0030] To facilitate understanding of this utility model, a more comprehensive description of the utility model will be given below with reference to the accompanying drawings, and several embodiments of the utility model will be provided. However, the utility model can be implemented in many different forms and is not limited to the embodiments described herein. On the contrary, the purpose of providing these embodiments is to make the disclosure of the utility model more thorough and complete.
[0031] For examples, please refer to Figure 1-5 This utility model provides a technical solution:
[0032] A ceramic vase that is not easily tipped over includes a vase body 1, a stable base 2, and a clamping support 3. A short rotating shaft 201 is rotatably connected to the middle position of the top inner side of the stable base 2. Multiple sets of hollow inflatable bladders 202 are provided at the bottom of the stable base 2. A spring assembly 203 is embedded in the hollow part of the hollow inflatable bladder 202. A silicone suction plate 204 is connected to the bottom of the spring assembly 203.
[0033] The top of the inner side of the stabilizing base 2 is rotatably connected to the rotating short shaft 201 via a rotating bearing seat. The internal structure size of the stabilizing base 2 is adapted to the external structure size of the clamping support 3, ensuring smooth movement without jamming during rotation. The top of the rotating short shaft 201 is fixed to the center of the bottom of the fixed support plate 301 by bolts. Six sets of hollow inflatable bladder pads 202 are arranged in a ring shape along the edge of the bottom of the stabilizing base 2. The ring-shaped distribution can improve the uniformity of the adsorption force, making the vase more stable. The hollow inflatable bladder pads 202 are made of silicone air bladder shells, which can provide cushioning under the push of the tipping force to prevent the vase from falling over. The hollow inflatable bladder pads 202 are fixed to the bottom of the stabilizing base 2 by gluing. The spring assembly 203 is a column-type helical spring. The top of the spring assembly 203 is fixed to the bottom of the stabilizing base 2 by screws. The overall height of the spring assembly 203 is slightly greater than the height of the hollow part of the hollow inflatable bladder pads 202.
[0034] In this embodiment, a fixed support plate 301 is provided at the bottom of the clamping support 3, and folding brackets 302 are symmetrically fixed at the top position of the outer side of the clamping support 3. A fixed crossbar 303 is installed at the top of the folding bracket 302. A rectangular groove 304 extending along the length direction of the fixed crossbar 303 is opened inward at the top of the fixed crossbar 303. An electric push rod 305 is installed at one end of the fixed crossbar 303. The telescopic end of the electric push rod 305 passes through the interior of the rectangular groove 304 and is connected to a sliding sleeve 306. A push plate 307 is installed at the top of the sliding sleeve 306. A clamping bent plate 308 that cooperates with the vase body 1 is fixed at one end of the push plate 307.
[0035] A USB rechargeable controller is installed on the outer side of the stable base 2. The USB rechargeable controller is connected to the electric push rod 305 by a wire, and the connection is electrical. The bottom of the vase body 1 is placed inside the clamping support 3. The vase body 1 and the clamping support 3 are designed to be separable. The inner wall of the clamping support 3 is attached with anti-slip adhesive tape 1, which can improve the stability of the vase after placement, thereby improving the protection capability. The sliding sleeve 306 is connected to the rectangular groove 304 by sliding connection. Limiting guide grooves are opened on both the left and right sides of the rectangular groove 304. Limiting protrusions that slide with the limiting guide grooves are provided on both the left and right sides of the sliding sleeve 306. Anti-slip adhesive tape 2 is attached to the inner side of the clamping bending plate 308. Anti-slip adhesive tape 2 improves the clamping stability of the clamping bending plate 308 and prevents slippage, which would make the vase unstable.
[0036] The working process of this utility model is as follows: When using the ceramic vase designed to prevent tipping, the stable base 2 is fixed to the ground or a platform by multiple sets of silicone adsorption plates 204. Then, the bottom of the vase body 1 is placed inside the clamping support 3. Next, the two sets of electric push rods 305 are started by the USB rechargeable controller. The electric push rods 305 push the sliding sleeve 306 to move in the rectangular groove 304 of the fixed crossbar 303. This causes the two sets of push plates 307 to move the clamping bent plate 308 closer to the vase body 1 until the clamping bent plate 308 clamps and fixes the vase body 1 tightly.
[0037] The stable base 2 and the clamping support 3 are rotatably connected by a short rotating shaft 201, so the viewing angle can be adjusted at any time by rotating the vase body 1 without the need for disassembly, adjustment and reassembly.
[0038] At the bottom of the stable base 2, six sets of hollow inflatable airbag pads 202 are arranged in a ring, connected end to end. The surface of each pad is a silicone airbag shell, filled with gas to keep the airbag pads 202 fully inflated. Spring assemblies 203 are installed in the hollow portions of the airbag pads 202. One end of the spring assembly 203 is connected to the stable base 2, and the other end is connected to a silicone suction cup 204. Multiple sets of individual silicone suction cups 204 can individually adhere to the ground or the surface where the pad is placed, ensuring that even if one set of silicone suction cups is not fully inflated... Even if the silicone adsorption plate 204 has gaps and is not firmly attached, other silicone adsorption plates 204 continuously generate adsorption force to maintain the stability of the ceramic vase. In addition, if the ceramic vase is impacted and tilted, the spring assembly 203 will deform to a certain extent with the tilting force. At this time, it will press on the corresponding hollow inflatable bladder pad 202. Not only does the hollow inflatable bladder pad 202 play a buffering role, but the soft cushioning can also prevent the tilting force from continuing, thus effectively avoiding the risk of the ceramic vase tipping over and protecting the ceramic vase.
[0039] The USB rechargeable controller and electric linear actuator used in this invention are both existing known electrical devices and can be purchased and used directly on the market. Their structure, circuit and control principle are all existing known technologies. Therefore, the structure, circuit and control principle of the USB rechargeable controller and electric linear actuator will not be described in detail here.
[0040] All standard parts used in this application can be purchased from the market. The specific connection methods of each part adopt conventional methods such as bolts, rivets, and welding that are mature in the prior art. The machinery, parts and equipment adopt conventional models in the prior art and are also general components, which are common knowledge in this field.
[0041] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A non-toppling ceramic vase comprising a vase body (1), a stabilizing base (2) and a clamping holder (3), characterized in that: A short rotating shaft (201) is rotatably connected to the middle position of the top inner side of the stabilizing base (2). Multiple sets of hollow inflatable bladders (202) are provided at the bottom of the stabilizing base (2). A spring assembly (203) is embedded in the hollow part of each hollow inflatable bladder (202). A silicone suction cup (204) is connected to the bottom of the spring assembly (203). A fixed support plate (301) is provided at the bottom of the clamping support (3). Folding brackets (302) are symmetrically fixed at the top outer side of the clamping support (3). The top of the folding brackets (302)... A fixed crossbar (303) is installed on the part. The top of the fixed crossbar (303) has a rectangular groove (304) extending inward along the length direction of the fixed crossbar (303). An electric push rod (305) is installed at one end of the fixed crossbar (303). The telescopic end of the electric push rod (305) passes through the interior of the rectangular groove (304) and is connected to a sliding sleeve (306). A push plate (307) is installed on the top of the sliding sleeve (306). A clamping bent plate (308) for use with the vase body (1) is fixed at one end of the push plate (307).
2. A non-tipping ceramic vase according to claim 1, wherein: A USB rechargeable controller is provided on the outside of the stable base (2), wherein the USB rechargeable controller is connected to the electric push rod (305) by a wire and the connection is electrical.
3. A non-tipping ceramic vase according to claim 2, wherein: The top of the inner side of the stabilizing base (2) is rotatably connected to the rotating short shaft (201) through a rotating bearing seat. The internal structure size of the stabilizing base (2) is adapted to the external structure size of the clamping support (3). The top of the rotating short shaft (201) is fixed to the center position of the bottom of the fixed support plate (301) by bolts.
4. A non-tipping ceramic vase according to claim 2, wherein: The hollow inflatable bladder pad (202) is provided in six sets, and the ring shape is distributed at the bottom edge of the stable base (2). The hollow inflatable bladder pad (202) is made of silicone air bladder shell and is fixed to the bottom of the stable base (2) by gluing.
5. A ceramic vase that is not easily tipped over according to claim 2, characterized in that: The spring assembly (203) adopts a column-type helical spring. The top of the spring assembly (203) is fixed to the bottom of the stable base (2) by screws. The overall height of the spring assembly (203) is slightly greater than the height of the hollow part of the hollow inflatable bladder (202).
6. A non-tipping ceramic vase according to claim 2, wherein: The bottom of the vase body (1) is placed inside the clamping support (3). The vase body (1) and the clamping support (3) are designed to be separable. The inner side wall of the clamping support (3) is fitted with an anti-slip adhesive.
7. A non-tipping ceramic vase according to claim 2, wherein: The connection between the sliding sleeve (306) and the rectangular groove (304) is a sliding connection. The left and right sides of the rectangular groove (304) are provided with limiting guide grooves. The left and right sides of the sliding sleeve (306) are provided with limiting protrusions that slide with the limiting guide grooves. The inner side of the clamping bending plate (308) is covered with anti-slip adhesive.