Anti-toppling chemical barrel

The design of the anti-tipping and pressing components solves the problem of chemical drums tipping over during storage, achieving stable locking and reliable sealing of the chemical drums, and preventing chemical material leakage.

CN224393569UActive Publication Date: 2026-06-23SHANGHAI XINKAI CHEM TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI XINKAI CHEM TECH CO LTD
Filing Date
2025-08-27
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Existing chemical drums are prone to tipping over due to collisions during storage, causing the chemical raw materials to leak out, resulting in resource waste and potential environmental and personal injury.

Method used

An anti-tipping chemical drum has been designed, comprising an anti-tipping component and a pressing component. The combination of a sliding rod, a U-shaped frame, an anti-tipping plate, and a locking device enables the chemical drum to be securely locked, and the pressing component enhances the sealing performance of the drum lid.

Benefits of technology

It effectively prevents chemical drums from tipping over, ensures the safe storage of chemical materials, eliminates chemical material leakage, and improves storage stability and sealing reliability.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of anti-toppling chemical barrels, it is related to chemical barrel storage technical field, including chemical barrel, anti-toppling component and pressing assembly, chemical barrel includes barrel body and barrel cover being set at barrel body top, fixed ring is fixedly connected on barrel body, anti-toppling component is slidably connected with fixed ring, pressing assembly is fixedly installed on fixed ring, locking member for limiting anti-toppling component is provided on fixed ring;By pressing top plate, make slide bar drive U-shaped frame to press down, U-shaped frame is driven to move down anti-toppling board by connecting rod, cooperate the guidance of triangular block and the effect of torsion spring, promote anti-toppling board to unfold, until locking member locks slide bar state;Subsequently, rotate fixed bolt, fixed anti-toppling board to guarantee the stability of support, simultaneously, by spring two and connecting plate, drive lifting rod in pressing assembly to move, cooperate and overturn rotating plate, make it exert downward pressure on barrel cover, effectively prevent barrel cover from accidental stress and separate from barrel body, avoid chemical material leakage.
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Description

Technical Field

[0001] This utility model relates to the field of chemical drum storage technology, specifically to an anti-tipping chemical drum. Background Technology

[0002] Most chemical drums are made of plastic and are generally called plastic chemical drums or rubber chemical drums. They are blow-molded using scientific formulas, and come in a variety of colors and have a beautiful and elegant appearance. They meet packaging performance standards in terms of acid and alkali resistance, corrosion resistance, leak prevention, colorfastness, and non-deformation, making them an ideal choice for long-distance transportation of chemical products.

[0003] Currently, chemical drums are often placed directly on the ground during storage or use. This makes them prone to tipping over due to impacts, causing the chemical concentrate inside to spill out. This not only wastes resources but also harms the environment and workers. Therefore, this solution provides an anti-tipping chemical drum to address the aforementioned problems. Utility Model Content

[0004] To solve the above-mentioned technical problems, an anti-tipping chemical drum is provided. This technical solution solves the problems mentioned in the background art.

[0005] To achieve the above objectives, the technical solution adopted by this utility model is as follows:

[0006] An anti-tipping chemical drum includes a chemical drum, an anti-tipping component, and a pressing component. The chemical drum includes a drum body and a drum lid disposed on the top of the drum body. A fixing ring is fixedly connected to the drum body. The anti-tipping component is slidably connected to the fixing ring. The pressing component is fixedly installed on the fixing ring. The fixing ring is provided with a locking element for limiting the anti-tipping component. The anti-tipping component includes multiple sets of slide rods slidably connected to the fixing ring. Each slide rod has a slidable connecting plate on its upper side. The pressing component is fixedly connected to each connecting plate. Each slide rod has an opening frame on its lower side. The opening frame has an anti-tipping plate for enhanced stability inside.

[0007] Preferably, a U-shaped frame is fixedly connected to the lower end of the slide rod, and a spring sleeved on the slide rod is fixedly connected between the U-shaped frame and the fixed ring. The open frame is fixedly installed on the barrel body. A connecting rod is fixedly connected to the inner side of the U-shaped frame. Fixed grooves for sliding the connecting rod are opened at both ends of the open frame. An anti-tipping plate is rotatably installed on the connecting rod. A torsion spring sleeved on the connecting rod is fixedly connected to the anti-tipping plate. One end of the torsion spring is fixedly connected to the connecting rod. A triangular block fixedly connected to the bottom of the lifting rod is provided on the lower side of the anti-tipping plate.

[0008] Preferably, the lifting rod is threaded with a fixing bolt, and the anti-tipping plate is provided with a threaded hole for limiting the movement in conjunction with the fixing bolt.

[0009] Preferably, a top plate is fixedly installed on the top of the slide rod on the upper side of the connecting plate, and a spring sleeved on the slide rod is fixedly connected between the top plate and the connecting plate.

[0010] Preferably, the pressing component includes a column fixedly connected to a fixed ring, a groove is provided at one end of the column near the connecting plate, a lifting rod is slidably connected inside the groove, the lower end of the lifting rod is fixedly connected to the connecting plate, the upper end of the lifting rod passes through the column and is fixedly connected to a rotating seat, and a rotating plate is rotatably mounted on the rotating seat.

[0011] Preferably, the locking component includes a locking box fixedly connected to a fixing ring, a pull rod slidably connected inside the locking box, a pull ring fixedly connected to one end of the pull rod away from the slide rod, and a limit plate fixedly connected to the other end of the pull rod; an insert rod for limiting the slide rod is fixedly connected to the limit plate, and a fixing hole and a snap-fit ​​hole for cooperating with the insert rod are respectively provided on the fixing ring and the slide rod, and a spring sleeved on the pull rod is fixedly connected between the limit plate and the locking box.

[0012] Compared with the prior art, this utility model proposes an anti-tipping chemical drum, which has the following beneficial effects:

[0013] 1. This utility model is equipped with an anti-tipping component. After the chemical drum is placed, the user can push and press the sliding rod in the anti-tipping component. Simply press the top plate at the top of the sliding rod, and the top plate will drive the U-shaped frame to press down through the sliding rod. During the downward movement, the U-shaped frame at the bottom will drive the connecting rod to slide along the fixed groove of the open frame, thereby driving the anti-tipping plate to move down. During the downward movement of the anti-tipping plate, it will contact the triangular block at the bottom. The inclined surface of the triangular block will push the anti-tipping plate to unfold outward. At the same time, under the action of the torsion spring, the anti-tipping plate will always keep in contact with the inclined surface of the triangular block. After unfolding into place, the locking rod can be automatically inserted into the snap-fit ​​hole of the sliding rod under the action of the spring, locking the unfolded state. At this time, the fixing bolt in the open frame is coaxial with the threaded hole in the anti-tipping plate. Then, by rotating the fixing bolt, it will be screwed into the threaded hole of the anti-tipping plate, realizing the rigid mechanical locking of the anti-tipping plate, preventing shaking or accidental retraction, and ensuring the stability of the support.

[0014] 2. This utility model is equipped with a pressing component. When the user presses the top plate to drive the sliding rod to move downward, the second spring, which is fixedly connected to the top plate of the sliding rod, is compressed. The elastic force of the second spring acts on the connecting plate, pushing the connecting plate to move downward synchronously. The downward movement of the connecting plate directly drives the lifting rod in the pressing component to move downward along the column sliding groove. The rotating seat at the upper end of the lifting rod also descends. At this time, the rotating plate can be flipped to a horizontal position so that it covers and abuts against the bucket lid. As the sliding rod is finally locked in the unfolded position by the locking component, the second spring, which is in a compressed state, continuously applies downward pressure to the bucket lid through the connecting plate, the lifting rod, and the rotating plate. This continuous pressure provides additional clamping force to the bucket lid, effectively preventing the bucket lid from detaching from the bucket body due to accidental force, effectively improving the sealing reliability of the bucket lid and avoiding leakage of chemical materials. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0016] Figure 2 This is a schematic diagram of the structure of the chemical drum in this utility model;

[0017] Figure 3 This is a schematic diagram of the anti-tipping component in this utility model;

[0018] Figure 4 This is a schematic diagram of the connection structure of the anti-tipping plate in the anti-tipping assembly of this utility model;

[0019] Figure 5 This is a schematic diagram of the pressing component in this utility model;

[0020] Figure 6 This is a schematic diagram of the locking component in this utility model.

[0021] The numbers on the map are:

[0022] 1. Chemical drums; 2. Anti-tipping components; 3. Press-down components; 4. Locking components;

[0023] 101. Barrel body; 102. Barrel lid; 103. Retaining ring; 104. Retaining hole;

[0024] 201. Slide bar; 202. U-shaped frame; 203. Open frame; 204. Fixing groove; 205. Connecting rod; 206. Triangular block; 207. Anti-tipping plate; 208. Torsion spring; 209. Fixing bolt; 2010. Spring one; 2011. Top plate; 2012. Connecting plate; 2013. Spring two; 2014. Snap-fit ​​hole;

[0025] 301. Column; 302. Slide groove; 303. Lifting rod; 304. Rotating seat; 305. Rotating plate;

[0026] 401. Locking box; 402. Pull rod; 403. Pull ring; 404. Limiting plate; 405. Insert rod; 406. Spring 3. Detailed Implementation

[0027] The following description is intended to disclose the present invention so that those skilled in the art can implement it. The preferred embodiments described below are merely examples, and other obvious variations will occur to those skilled in the art.

[0028] Reference Figure 1-2 As shown, an anti-tipping chemical drum includes a chemical drum 1, an anti-tipping component 2, and a pressing component 3. The chemical drum 1 includes a drum body 101 and a drum cover 102 disposed on the top of the drum body 101. A fixing ring 103 is fixedly connected to the drum body 101. The anti-tipping component 2 is slidably connected to the fixing ring 103. The pressing component 3 is fixedly installed on the fixing ring 103. A locking member 4 for limiting the anti-tipping component 2 is provided on the fixing ring 103.

[0029] Furthermore, this device has a simple structure, is easy to operate, and has a stable and reliable anti-tipping effect. It is fixed to the barrel 101 by a fixing ring 103, which integrates a sliding anti-tipping component 2 and a pressing component 3, and is secured by a locking component 4 to ensure safety.

[0030] Reference Figure 3-4 As shown, specifically in this embodiment, the anti-tipping component 2 includes multiple sets of slide rods 201 that are slidably connected to the fixed ring 103. Each slide rod 201 has a slidable connecting plate 2012 on its upper side. The pressing component 3 is fixedly connected to the connecting plate 2012 respectively. Each slide rod 201 has an open frame 203 on its lower side. The open frame 203 has an anti-tipping plate 207 inside to enhance stability.

[0031] Reference Figure 3-4 As shown, specifically in this embodiment, a U-shaped frame 202 is fixedly connected to the lower end of the slide rod 201. A spring 2010 sleeved on the slide rod 201 is fixedly connected between the U-shaped frame 202 and the fixing ring 103. The open frame 203 is fixedly installed on the barrel body 101. A connecting rod 205 is fixedly connected to the inner side of the U-shaped frame 202. Both ends of the open frame 203 are provided with fixing grooves 204 for sliding with the connecting rod 205. An anti-tipping plate 207 is rotatably installed on the connecting rod 205. A torsion spring 208 sleeved on the connecting rod 205 is fixedly connected to the anti-tipping plate 207. One end of the torsion spring 208 is fixedly connected to the connecting rod 205. A triangular block 206 fixedly connected to the bottom of the lifting rod 303 is provided on the lower side of the anti-tipping plate 207.

[0032] Furthermore: After the chemical drum 1 is placed, the user can push the slide bar 201 in the anti-tipping assembly 2. Simply press the top plate 2011 at the top of the slide bar 201. The top plate 2011 drives the U-shaped frame 202 to press down through the slide bar 201. During the downward movement, the bottom U-shaped frame 202 drives the connecting rod 205 to slide along the fixing groove 204 of the open frame 203, thereby driving the anti-tipping plate 207 to move down. During the downward movement of the anti-tipping plate 207, it contacts the bottom triangular block 206. The inclined surface of the triangular block 206 pushes the anti-tipping plate 207 to unfold outward. At the same time, under the action of the torsion spring 208, the anti-tipping plate 207 always keeps in contact with the inclined surface of the triangular block 206. After unfolding into place, the insertion rod 405 of the locking part 4 can automatically insert into the snap-fit ​​hole 2014 of the slide bar 201 under the action of the spring 406, locking the unfolded state.

[0033] Reference Figure 4 As shown, specifically in this embodiment, the lifting rod 303 is threaded with a fixing bolt 209, and the anti-tipping plate 207 is provided with a threaded hole for limiting the movement in conjunction with the fixing bolt 209.

[0034] Furthermore: After the slide bar 201 is locked in its unfolded state by the locking member 4, the fixing bolt 209 in the open frame 203 is coaxial with the threaded hole in the anti-tipping plate 207. Then, by rotating the fixing bolt 209, it is screwed into the threaded hole of the anti-tipping plate 207, thereby achieving rigid mechanical locking of the anti-tipping plate 207, preventing shaking or accidental retraction, and ensuring the stability of the support.

[0035] Reference Figure 3 As shown, specifically in this embodiment, a top plate 2011 is fixedly installed on the top of the slide rod 201 on the upper side of the connecting plate 2012, and a spring 2013 sleeved on the slide rod 201 is fixedly connected between the top plate 2011 and the connecting plate 2012.

[0036] Furthermore: When the user presses the top plate 2011 to drive the slide bar 201 to move down, the second spring 2013, which is fixedly connected to the top plate of the slide bar 201, is compressed. The elastic force of the second spring 2013 acts on the connecting plate 2012, pushing the connecting plate 2013 to move down synchronously. The downward movement of the connecting plate 2012 directly drives the pressing component 3 to move synchronously.

[0037] Reference Figure 5As shown, specifically in this embodiment, the pressing component 3 includes a column 301 fixedly connected to the fixing ring 103. A groove 302 is provided at one end of the column 301 near the connecting plate 2012. A lifting rod 303 is slidably connected inside the groove 302. The lower end of the lifting rod 303 is fixedly connected to the connecting plate 2012. The upper end of the lifting rod 303 passes through the column 301 and is fixedly connected to a rotating seat 304. A rotating plate 305 is rotatably mounted on the rotating seat 304.

[0038] Furthermore: When the user presses the top plate 2011 to drive the slide bar 201 downward, the second spring 2013, which is fixedly connected to the top plate 2011 of the slide bar 201, is compressed. The elastic force of the second spring 2013 acts on the connecting plate 2012, pushing the connecting plate 2012 downward synchronously. The downward movement of the connecting plate 2012 directly drives the lifting rod 303 in the pressing assembly 3 to move downward along the column slide groove 302. The rotating seat 304 at the upper end of the lifting rod 303 also descends. At this time, the rotating plate 305 can be flipped to... The spring 2013 is positioned horizontally, covering and abutting against the lid 102. As the slide bar 201 is finally locked in the unfolded position by the locking member 4, the compressed spring 2013 continuously applies downward pressure to the lid 102 through the connecting plate 2012, the lifting rod 302, and the rotating plate 305. This continuous pressure provides additional clamping force to the lid 102, effectively preventing the lid 102 from detaching from the barrel 101 due to accidental force, improving the sealing reliability of the lid 102, and avoiding leakage of chemical materials.

[0039] Reference Figure 6 As shown, specifically in this embodiment, the locking component 4 includes a locking box 401 fixedly connected to the fixing ring 103. A pull rod 402 is slidably connected inside the locking box 401. A pull ring 403 is fixedly connected to one end of the pull rod 402 away from the slide rod 201. A limiting plate 404 is fixedly connected to the other end of the pull rod 402. An insert rod 405 for limiting the slide rod 201 is fixedly connected to the limiting plate 404. The fixing ring 103 and the slide rod 201 are respectively provided with a fixing hole 105 and a snap-fit ​​hole 2014 for cooperating with the insert rod 405. A spring 406 sleeved on the pull rod 402 is fixedly connected between the limiting plate 404 and the locking box 401.

[0040] Furthermore: When the slide rod 201 moves into place, the snap-fit ​​hole 2014 on the slide rod 201 is coaxially set with the fixing hole 104 on the fixing ring 103. At this time, the insertion rod 405 used for fixing in the locking member 4 is inserted into the fixing hole 104 and the snap-fit ​​hole 2014 under the action of the spring 406, thereby fixing the slide rod 201 and locking the anti-tipping component 2.

[0041] The working principle of this utility model is as follows: When the chemical drum 1 is placed at the storage point, the anti-tipping component 2 is activated. Simply press the top plate 2011 at the top of the slide rod 201. The top plate 2011 drives the U-shaped frame 202 to press down through the slide rod 201. During the downward movement, the bottom U-shaped frame 202 drives the connecting rod 205 to slide along the fixing groove 204 of the open frame 203, thereby driving the anti-tipping plate 207 to move down. During the downward movement of the anti-tipping plate 207, it contacts the bottom triangular block 206 and is pushed by the inclined surface of the triangular block 206. The anti-tipping plate 207 unfolds outward, and under the action of the torsion spring 208, the anti-tipping plate 207 always keeps in contact with the inclined surface of the triangular block 206. After unfolding into place, the snap-fit ​​hole 2014 on the slide rod 201 is coaxially set with the fixing hole 104 on the fixing ring 103. At this time, the plug rod 405 used for fixing in the locking member 4 is inserted into the fixing hole 104 and the snap-fit ​​hole 2014 under the action of the spring 406, thereby fixing the slide rod 201 and locking the state of the anti-tipping component 2.

[0042] At this time, the fixing bolt 209 in the open frame 203 is coaxial with the threaded hole in the anti-tipping plate 207. Then, by rotating the fixing bolt 209, it is screwed into the threaded hole of the anti-tipping plate 207, thereby achieving rigid mechanical locking of the anti-tipping plate 207, preventing shaking or accidental retraction, and ensuring the stability of the support.

[0043] Simultaneously, when the slide bar 201 moves downward, the second spring 2013, which is fixedly connected to the top plate 2011 of the slide bar 201, is compressed. The elastic force of the second spring 2013 acts on the connecting plate 2012, pushing the connecting plate 2012 to move downward synchronously. The downward movement of the connecting plate 2012 directly drives the lifting rod 303 in the pressing assembly 3 to move downward along the column slide groove 302. The rotating seat 304 at the upper end of the lifting rod 303 also descends. At this time, the rotating plate 305 can be flipped to a horizontal position so that it covers and abuts against the bucket lid 102. As the slide bar 201 is finally locked in the unfolded position by the locking member 4, the second spring 2013, which is in a compressed state, continuously applies downward pressure to the bucket lid 102 through the connecting plate 2012, the lifting rod 302, and the rotating plate 305. This continuous pressure provides additional clamping force to the bucket lid 102, effectively preventing the bucket lid 102 from detaching from the bucket body 101 due to accidental force, improving the sealing reliability of the bucket lid 102, and avoiding leakage of chemical materials.

[0044] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A tip-resistant chemical drum, characterized by, The device includes a chemical drum (1), an anti-tipping component (2), and a pressing component (3). The chemical drum (1) includes a drum body (101) and a drum cover (102) disposed on the top of the drum body (101). A fixing ring (103) is fixedly connected to the drum body (101). The anti-tipping component (2) is slidably connected to the fixing ring (103). The pressing component (3) is fixedly installed on the fixing ring (103). A locking element (4) for limiting the anti-tipping component (2) is provided on the fixing ring (103). The anti-tipping component (2) includes multiple sets of slide rods (201) slidably connected to the fixed ring (103). Each slide rod (201) has a slidable connecting plate (2012) on its upper side. The pressing component (3) is fixedly connected to the connecting plate (2012) respectively. Each slide rod (201) has an open frame (203) on its lower side. The open frame (203) has an anti-tipping plate (207) inside it to enhance stability.

2. The anti-toppling chemical drum according to claim 1, wherein: The lower end of the slide rod (201) is fixedly connected to a U-shaped frame (202), and a spring (2010) sleeved on the slide rod (201) is fixedly connected between the U-shaped frame (202) and the fixing ring (103). The open frame (203) is fixedly installed on the barrel body (101). The U-shaped frame (202) is fixedly connected to the inner side of the connecting rod (205), and the two ends of the open frame (203) are provided with fixing grooves (204) for sliding with the connecting rod (205). The connecting rod (205) is rotatably mounted with an anti-tipping plate (207). A torsion spring (208) is fixedly connected to the anti-tipping plate (207) and sleeved on the connecting rod (205). One end of the torsion spring (208) is fixedly connected to the connecting rod (205). A triangular block (206) is fixedly connected to the bottom of the lifting rod (303) on the lower side of the anti-tipping plate (207).

3. The anti-toppling chemical drum according to claim 2, characterized in that: The lifting rod (303) is threaded with a fixing bolt (209), and the anti-tipping plate (207) is provided with a threaded hole for limiting the position by cooperating with the fixing bolt (209).

4. The anti-toppling chemical drum according to claim 1, wherein: The upper side of the connecting plate (2012) is provided with a top plate (2011) fixedly installed on the top of the slide rod (201), and a spring (2013) sleeved on the slide rod (201) is fixedly connected between the top plate (2011) and the connecting plate (2012).

5. The anti-toppling chemical drum according to claim 1, wherein: The pressing assembly (3) includes a column (301) fixedly connected to a fixing ring (103). A groove (302) is provided at one end of the column (301) near the connecting plate (2012). A lifting rod (303) is slidably connected inside the groove (302). The lower end of the lifting rod (303) is fixedly connected to the connecting plate (2012). The upper end of the lifting rod (303) passes through the column (301) and is fixedly connected to a rotating seat (304). A rotating plate (305) is rotatably mounted on the rotating seat (304).

6. The anti-toppling chemical drum according to claim 1, wherein: The locking component (4) includes a locking box (401) fixedly connected to the fixing ring (103), a pull rod (402) slidably connected inside the locking box (401), a pull ring (403) fixedly connected to one end of the pull rod (402) away from the slide rod (201), and a limit plate (404) fixedly connected to the other end of the pull rod (402). A rod (405) for limiting the slide bar (201) is fixedly connected to the limiting plate (404). The fixing ring (103) and the slide bar (201) are respectively provided with a fixing hole (105) and a snap-fit ​​hole (2014) for cooperating with the rod (405). A spring (406) sleeved on the pull rod (402) is fixedly connected between the limiting plate (404) and the locking box (401).