A stable material holding device for cargo transportation

By designing a stable material-holding device with sealing, positioning, and adjusting components, the problems of material contamination and spillage during cargo transportation were solved, achieving material isolation from the outside world and improving the stability and efficiency of the dumping process.

CN224448723UActive Publication Date: 2026-07-03NINGXIA XIANGANTAI DANGEROUS GOODS TRANSPORTATION CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NINGXIA XIANGANTAI DANGEROUS GOODS TRANSPORTATION CO LTD
Filing Date
2025-09-08
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing cargo transportation equipment is inadequate in preventing external dust or impurities from entering materials and in preventing liquid materials from spilling, and it is not stable or efficient enough during the dumping process.

Method used

A stable material-holding device was designed, comprising a sealing component, a positioning component, and an adjusting component. The sealing component achieves airtight sealing, the positioning component ensures precise alignment of the discharge channel, and the adjusting component controls the tilting rate and angle, thereby improving the sealing performance and tilting stability during transportation.

Benefits of technology

It achieves material isolation from the external environment, prevents pollution and spillage, ensures the sealing of the transportation process and the stability of the dumping process, and improves material discharge efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of cargo transportation technology, and in particular to a stable material holding device for cargo transportation, including a transport frame, a material holding tank disposed inside the transport frame, and a feed inlet integrally formed on the end face of the material holding tank; and a sealing component, including a first fixing ring disposed outside the feed inlet, an adjusting ring disposed on the end face of the first fixing ring, a toggle plate integrally formed on the end face of the adjusting ring, and sealing blocks arranged in a ring array outside the adjusting ring. This utility model uses the material holding tank to hold materials and uses the sealing component to achieve a tight seal on the feed inlet, ensuring that the materials are completely isolated from the external environment during the transfer process, preventing pollution and spillage. The positioning component maintains the precise alignment and structural stability of the discharge channel after the cover is opened, and combined with the adjusting component to control the tilt angle and tilting rate of the material holding tank, thereby simultaneously improving the sealing performance of material transportation, the stability of the tilting process, and the overall material discharge efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of cargo transportation technology, and in particular to a stable material holding device for cargo transportation. Background Technology

[0002] Cargo handling containers are common industrial containers primarily used for the temporary storage and transfer of granular, powdery, or liquid materials. Existing cargo handling containers typically include a tank body, an inlet, an outlet, and a basic sealing structure.

[0003] Chinese utility model patent, publication number CN217805968U, authorized on 2022-11-15, discloses a material holding device for architectural coating production. The device includes a base, an outer barrel on top of the base, and an inner barrel inside the outer barrel. The lower part of the outer barrel has a support ring for supporting the inner barrel, and the upper part has an annular groove. The outer circumference of the inner barrel has an insert ring matching the annular groove. The base has a cavity containing a motor, and the motor drive end is equipped with a rotating shaft. This utility model relates to the field of coating preparation technology. The device has a compact structure and can drive the rotating shaft to rotate via a motor. Through the cooperation of a cross plug and a cross slot, the inner barrel rotates accordingly, and under the action of the stirring blades, the coating is automatically stirred. This solves the sedimentation problem without manual intervention, facilitating subsequent coating use. Furthermore, the layered design of the inner and outer barrels allows for quick disassembly and assembly of the inner barrel, and only the inner barrel needs to be cleaned during cleaning, making it convenient to use.

[0004] The aforementioned device is mainly used to agitate and clean the material. However, during cargo transportation, it is necessary to prevent dust or impurities from the external environment from falling into the material and to manually pour out the liquid material. The aforementioned device is not designed with a structure in this direction, which makes the device have certain limitations. Utility Model Content

[0005] In view of the problems existing in the above or prior art, this utility model is proposed.

[0006] Therefore, the purpose of this utility model is to provide a stable material holding device for cargo transportation.

[0007] To solve the above-mentioned technical problems, this utility model provides the following technical solution: a stable material holding device for cargo transportation, comprising: a transport frame, a material holding tank disposed inside the transport frame, and a feed inlet integrally formed on the end face of the material holding tank; and a sealing assembly, comprising: a first fixing ring disposed outside the feed inlet, an adjusting ring disposed on the end face of the first fixing ring, a deflecting plate integrally formed on the end face of the adjusting ring, and sealing blocks arranged in a ring array outside the adjusting ring; and a positioning assembly, comprising: a first clamping plate disposed outside the first fixing ring, a second clamping plate disposed on the end face of the first clamping plate, and an insertion block disposed outside the deflecting plate; and an adjusting assembly, comprising: a worm disposed inside the transport frame and a worm wheel ring disposed on the end face of the material holding tank, wherein the worm and the worm wheel ring are meshed together.

[0008] As a preferred embodiment of the stable material holding device for cargo transportation of this utility model, the sealing assembly further includes a second fixing ring disposed on the end face of the adjusting ring, one end of the sealing block is disposed on the end face of the second fixing ring, and the end face of the second fixing ring is provided with fixing rods distributed in a ring array.

[0009] As a preferred embodiment of the stable material holding device for cargo transportation of this utility model, wherein: the end face of the adjusting ring is provided with a first outer plate, and the outer wall of the first outer plate is provided with a connecting arc plate.

[0010] As a preferred embodiment of the stable material holding device for cargo transportation of this utility model, wherein: the end face of the sealing block is integrally formed with a second outer receiving plate, and the end of the connecting arc plate is disposed on the outer wall of the second outer receiving plate.

[0011] As a preferred embodiment of the stable material holding device for cargo transportation of this utility model, the positioning component further includes a first fixing block disposed on the end face of the first fixing ring, and a connecting rod disposed on the outer wall of the first fixing block, the connecting rod passing through the first clamping plate and the second clamping plate.

[0012] As a preferred embodiment of the stable material holding device for cargo transportation of this utility model, the outer walls of the first clamping plate and the second clamping plate are provided with outer connecting plates, the end face of the outer connecting plate is provided with a spring, and the end of the spring is provided on the outer wall of the first fixing block.

[0013] As a preferred embodiment of the stable material holding device for cargo transportation of this utility model, wherein: the end face of the actuating plate is provided with a second fixing block, and the insertion block is provided on the outer wall of the second fixing block.

[0014] As a preferred embodiment of the stable material holding device for cargo transportation according to this utility model, the inner wall of the transport frame is provided with a motor, the output end of the motor is provided with a drive rod, the end of the drive rod is provided on the inner wall of the transport frame, and the worm gear is provided on the outer wall of the drive rod.

[0015] The beneficial effects of this utility model on a stable material holding device for cargo transportation are as follows: This utility model uses a material holding tank to hold materials and a sealing component to seal the inlet, ensuring that the materials are completely isolated from the external environment during the transfer process, preventing pollution and spillage. The positioning component maintains the precise alignment and structural stability of the discharge channel after the cover is opened. Combined with the adjustment component to control the tilt angle and tilting rate of the material holding tank, the sealing performance of material transportation, the stability of the tilting process, and the overall material discharge efficiency are improved simultaneously. Attached Figure Description

[0016] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0017] Figure 1 This is a schematic diagram of the overall structure of a stable material holding device for cargo transportation.

[0018] Figure 2 This is a schematic diagram of the internal structure of a transport frame for a stable material holding device used in cargo transportation.

[0019] Figure 3 This is a schematic diagram of the sealing component structure of a stable material holding device for cargo transportation.

[0020] Figure 4 This is a partially disassembled structural diagram and a partially enlarged view of a stable material holding device for cargo transportation.

[0021] Figure 5 This is a partial structural diagram of a stable material holding device for cargo transportation.

[0022] Figure 6 This is a schematic diagram of the adjustment component structure of a stable material holding device for cargo transportation.

[0023] Figure 7 This is a schematic diagram of the second fixed ring structure of a stable material holding device for cargo transportation.

[0024] The components are as follows: 1. Transport frame; 2. Material container; 3. Feed inlet; 4. Sealing assembly; 41. First fixing ring; 42. Adjusting ring; 43. Actuating plate; 44. First outer plate; 45. Connecting arc plate; 46. Second fixing ring; 47. Fixing rod; 48. Sealing block; 49. Second outer plate; 5. Positioning assembly; 51. First fixing block; 52. First clamping plate; 53. Second clamping plate; 54. Connecting rod; 55. Outer plate; 56. Spring; 57. Second fixing block; 58. Insertion block; 6. Adjusting assembly; 61. Motor; 62. Drive rod; 63. Worm gear; 64. Worm wheel ring. Detailed Implementation

[0025] To make the above-mentioned objectives, features and advantages of this utility model more apparent and understandable, the specific embodiments of this utility model will be described in detail below with reference to the accompanying drawings.

[0026] Many specific details are set forth in the following description in order to provide a full understanding of the present invention. However, the present invention may also be implemented in other ways different from those described herein. Those skilled in the art can make similar extensions without departing from the spirit of the present invention. Therefore, the present invention is not limited to the specific embodiments disclosed below.

[0027] Secondly, the term "an embodiment" or "embodiment" as used herein refers to a specific feature, structure, or characteristic that may be included in at least one implementation of the present invention. The phrase "in one embodiment" appearing in different places in this specification does not necessarily refer to the same embodiment, nor is it a single or selective embodiment that excludes other embodiments.

[0028] Reference Figures 1 to 7 A stable material holding device for cargo transportation includes a transport frame 1, a material holding tank 2 rotatably connected inside the transport frame 1, and a feed inlet 3 integrally formed on the end face of the material holding tank 2; wherein, the transport frame 1 moves the material holding tank 2 by transporting it, the material holding tank 2 is designed to be cylindrical, and the feed inlet 3 is designed on the upper end face of the material holding tank 2, thereby achieving the effect of a small opening and a large cavity, and initially ensuring the stability of the material during transportation.

[0029] And, the sealing assembly 4 includes a first fixing ring 41 fixedly connected to the outside of the feed inlet 3, an adjusting ring 42 rotatably connected to the end face of the first fixing ring 41, a toggle plate 43 integrally formed on the end face of the adjusting ring 42, and sealing blocks 48 arranged in a ring array outside the adjusting ring 42; wherein, the first fixing ring 41 is designed around the feed inlet 3, and its upper end face is provided with a protrusion for connecting with the first fixing block 51, and the first fixing ring 41 provides a rotating platform for the adjusting ring 42 to realize the rotation action of the adjusting ring 42.

[0030] The positioning component 5 includes a first clamping plate 52 disposed outside the first fixing ring 41, a second clamping plate 53 rotatably connected to the end face of the first clamping plate 52, and an insertion block 58 disposed outside the actuating plate 43. The first clamping plate 52 has a concave design on the side near the second clamping plate 53, while the second clamping plate 53 has a convex design on the side near the first clamping plate 52, thus fitting the concave and convex portions of the two clamping plates together. A certain gap is maintained between the first clamping plate 52 and the second clamping plate 53 to ensure that the insertion block 58 is engaged.

[0031] The adjusting assembly 6 includes a worm gear 63 disposed inside the transport frame 1 and a worm wheel ring 64 fixedly connected to the end face of the material tank 2. The worm gear 63 and the worm wheel ring 64 are meshed together. The worm wheel ring 64 is a partial ring connected to the lower end face of the material tank 2. The material tank 2 is rotated by the through-drive of the worm gear 63 and the worm wheel ring 64, thereby realizing the pouring of materials.

[0032] Specifically, the sealing assembly 4 also includes a second fixed ring 46 rotatably connected to the end face of the adjusting ring 42. One end of the sealing block 48 is rotatably connected to the end face of the second fixed ring 46, and the end face of the second fixed ring 46 is fixedly connected to fixed rods 47 arranged in a ring array. Both the first fixed ring 41 and the second fixed ring 46 are hollow, and their opening range is the same as the opening range of the sealing block 48, thereby ensuring the normal dumping of materials.

[0033] Furthermore, the adjusting ring 42 is fixedly connected to a first outer plate 44, and a connecting arc plate 45 is fixedly connected to the outer wall of the first outer plate 44. The first outer plate 44 and the connecting arc plate 45 move synchronously with the first fixed ring 41. The connecting arc plate 45 is curved, which can drive the sealing block 48 to rotate around the axis of rotation.

[0034] Preferably, the end face of the sealing block 48 is integrally formed with a second outer receiving plate 49, and the end of the connecting arc plate 45 is fixedly connected to the outer wall of the second outer receiving plate 49. The second outer receiving plate 49 is fixed to the connecting arc plate 45, so that the movement of the connecting arc plate 45 drives the sealing block 48 to move synchronously. Multiple sealing blocks 48 together form a disc shape, and the same number of connecting arc plates 45 as the sealing blocks 48 allow the multiple sealing blocks 48 to open or close synchronously, thereby realizing the opening or closing of the feeding channel.

[0035] Reference Figure 3 and Figure 4The positioning component 5 also includes a first fixing block 51 fixedly connected to the end face of the first fixing ring 41. A connecting rod 54 is fixedly connected to the outer wall of the first fixing block 51, and the connecting rod 54 passes through the first clamping plate 52 and the second clamping plate 53. The first fixing block 51 passes through the first clamping plate 52 and the second clamping plate 53 through the connecting rod 54, so that the first clamping plate 52 and the second clamping plate 53 can only rotate around the connecting rod 54.

[0036] Specifically, an outer plate 55 is fixedly connected to the outer wall of both the first clamping plate 52 and the second clamping plate 53. A spring 56 is fixedly installed on the end face of the outer plate 55, and the end of the spring 56 is fixedly installed on the outer wall of the first fixing block 51. The outer plate 55 is connected to the second fixing block 57 through the spring 56, and the spring force of the spring 56 realizes the reset of the first clamping plate 52 and the second clamping plate 53.

[0037] Reference Figure 2 and Figure 6 A second fixing block 57 is fixedly connected to the end face of the actuating plate 43, and an insertion block 58 is fixedly connected to the outer wall of the second fixing block 57. The second fixing block 57 provides an installation platform for the insertion block 58, which has a disc-shaped design. The connection between the actuating plate 43 and the first fixing ring 41 is achieved by inserting and engaging the insertion block 58 with the first clamping plate 52 and the second clamping plate 53.

[0038] Specifically, a motor 61 is fixedly installed on the inner wall of the transport frame 1. A drive rod 62 is fixedly connected to the output end of the motor 61, and the end of the drive rod 62 is fixedly connected to the inner wall of the transport frame 1. A worm gear 63 is fixedly connected to the outer wall of the drive rod 62. The motor 61 provides power input to the adjustment component 6, and the worm gear 63 is connected to the worm ring 64 through the drive rod 62, thereby controlling the angle of the material container 2.

[0039] Working principle: The material tank 2 rotates on the inner wall of the transport frame 1. When it is necessary to store materials in the material tank 2, the actuating plate 43 is manually controlled to rotate. During the rotation of the actuating plate 43, the adjusting ring 42 is driven to rotate on the upper end face of the first fixed ring 41. When the adjusting ring 42 rotates, it drives the first outer plate 44 and the connecting arc plate 45 to rotate synchronously. The end of the connecting arc plate 45 is connected to the second fixed ring 46 on the end face of the sealing block 48, thereby driving the sealing block 48 to rotate around the position of its rotation with the second fixed ring 46 as the axis. With the synchronous rotation of multiple sealing blocks 48, the channel is opened and the materials are poured in. After the materials are completely poured in, the actuating plate 43 is controlled to rotate in the opposite direction, so that the sealing block 48 is closed.

[0040] When the blocking block 48 is in the closed state, the actuating plate 43 contacts the end face of the first fixing ring 41, and the insertion block 58 is inserted into the gap between the first clamping plate 52 and the second clamping plate 53. At this time, the insertion block 58 controls the first clamping plate 52 and the second clamping plate 53 to move outward, and the outer plate 55 is compressed by the pressure to squeeze the spring 56, thereby opening the first clamping plate 52 and the second clamping plate 53. The insertion block 58 is embedded in the two clamping plates, the spring 56 is reset, and the first clamping plate 52 and the second clamping plate 53 limit the insertion block 58, thereby ensuring the stability of the open state after the blocking block 48 is opened.

[0041] Start the motor 61, which drives the drive rod 62 and the worm gear 63 to rotate synchronously. After the worm gear 63 rotates, it drives the worm wheel ring 64 to transmit power, thereby realizing the synchronous rotation of the material tank 2. By controlling the tilt of the material tank 2, the material is poured out from the inlet 3 and the channel opened by the sealing block 48, realizing rapid material discharge and improving the work efficiency of personnel.

[0042] It should be noted that the above embodiments are only used to illustrate the technical solution of this utility model and are not intended to limit it. Although this utility model has been described in detail with reference to preferred embodiments, those skilled in the art should understand that modifications or equivalent substitutions can be made to the technical solution of this utility model without departing from the spirit and scope of the technical solution of this utility model, and all such modifications or substitutions should be covered within the scope of the claims of this utility model.

Claims

1. A stabilizing container for use in the transport of goods, characterized in that: include, The transport frame (1), the material container (2) disposed inside the transport frame (1), and the feed inlet (3) integrally formed on the end face of the material container (2); and, The sealing assembly (4) includes a first fixing ring (41) disposed outside the feed inlet (3), an adjusting ring (42) disposed on the end face of the first fixing ring (41), a toggle plate (43) integrally formed on the end face of the adjusting ring (42), and sealing blocks (48) arranged in a ring array outside the adjusting ring (42); and, The positioning assembly (5) includes a first clamping plate (52) disposed outside the first fixing ring (41), a second clamping plate (53) disposed on the end face of the first clamping plate (52), and an insertion block (58) disposed outside the actuating plate (43); and, The adjusting assembly (6) includes a worm (63) disposed inside the transport frame (1) and a worm wheel ring (64) disposed on the end face of the material tank (2), wherein the worm (63) and the worm wheel ring (64) are meshed together.

2. A stabilizing container apparatus for use in the transport of goods as defined in claim 1, characterized in that: The sealing assembly (4) further includes a second fixing ring (46) disposed on the end face of the adjusting ring (42), one end of the sealing block (48) is disposed on the end face of the second fixing ring (46), and the end face of the second fixing ring (46) is provided with fixing rods (47) arranged in a ring array.

3. A stabilizing container apparatus for use in the transport of goods as defined in claim 2, characterized in that: The end face of the adjusting ring (42) is provided with a first outer plate (44), and the outer wall of the first outer plate (44) is provided with a connecting arc plate (45).

4. A stabilizing container apparatus for use in the transport of goods as defined in claim 3, characterized in that: The end face of the sealing block (48) is integrally formed with a second outer plate (49), and the end of the connecting arc plate (45) is disposed on the outer wall of the second outer plate (49).

5. A stabilizing container apparatus for use in the transport of goods as defined in claim 4, characterized in that: The positioning component (5) further includes a first fixing block (51) disposed on the end face of the first fixing ring (41), and a connecting rod (54) is disposed on the outer wall of the first fixing block (51), the connecting rod (54) passing through the first clamping plate (52) and the second clamping plate (53).

6. A stabilizing container apparatus for use in the transport of cargo as defined in claim 5, wherein: Both the first clamping plate (52) and the second clamping plate (53) are provided with an outer plate (55) on their outer walls. The end face of the outer plate (55) is provided with a spring (56), and the end of the spring (56) is provided on the outer wall of the first fixing block (51).

7. A stabilizing container apparatus for use in the transport of cargo as defined in claim 6, wherein: The end face of the actuating plate (43) is provided with a second fixing block (57), and the insertion block (58) is provided on the outer wall of the second fixing block (57).

8. A stabilizing container apparatus for use in the transport of goods as defined in claim 7, characterized in that: The inner wall of the transport frame (1) is provided with a motor (61), the output end of the motor (61) is provided with a drive rod (62), the end of the drive rod (62) is provided on the inner wall of the transport frame (1), and the worm gear (63) is provided on the outer wall of the drive rod (62).