A wetting agent dispensing device

By introducing an extraction mechanism and a one-way valve assembly into the wetting agent preparation device, the problem of liquid raw material ratio deviation was solved, and stable quantitative preparation and efficient mixing of the wetting agent were achieved.

CN224474944UActive Publication Date: 2026-07-10ZHAOQING SHUOBO TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHAOQING SHUOBO TECHNOLOGY CO LTD
Filing Date
2025-07-15
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

Existing wetting agent preparation devices have deviations in raw material ratios when processing liquid raw materials, which affects the quality of work.

Method used

The extraction mechanism utilizes a combination of a sealing gasket and a one-way valve assembly to achieve quantitative extraction and mixing of liquid raw materials. The sealing gasket is driven by a cylinder to slide and form a negative pressure extraction, while the opening and closing of the one-way valve assembly controls the entry of the raw materials into the mixing unit.

Benefits of technology

This technology enables stable and quantitative extraction and mixing of liquid raw materials, ensuring the accuracy and quality of wetting agent preparation.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of wetting agent configuration devices, belong to flame retardant processing technical field, solve the problem that current configuration device cannot quantitatively extract liquid raw materials, the device includes mixing piece, storage piece, mounting bracket and collecting piece, mounting bracket side is equipped with mixing piece, mounting bracket side and located the symmetry of mixing piece both sides is equipped with storage piece, storage piece top is provided with collecting piece, collecting piece is connected with mounting bracket, extracting mechanism is installed in collecting piece, extracting mechanism includes pull rod, sealing rubber mat and suction assembly, in the utility model, by setting extracting mechanism, the sliding of sealing rubber mat in collecting piece interior is utilized, the raw material in storage piece is extracted, and in extraction process, one-way valve assembly in suction assembly opens, one-way valve assembly in output pipe closes, ensure that raw material is stably entered into collecting piece, according to the different of sealing rubber mat's moving interval, the total amount of extracted raw material is different.
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Description

Technical Field

[0001] This utility model belongs to the field of wetting agent technology, specifically relating to a wetting agent preparation device. Background Technology

[0002] Wetting agents are a commonly used adjuvant in pesticides. Their main function is to reduce the surface tension of water, allowing solid surfaces to be wetted by water. This enables water-insoluble pesticides to be diluted with water to form a suspension for use, and allows the pesticide solution to be moistened and spread on the surface of crops, insects, and pathogens. Currently, when manufacturing wetting agents, the raw materials need to be fed into the container in a specific ratio to achieve rapid mixing of the wetting agent raw materials.

[0003] The patent document with publication number CN208727271U discloses a wetting agent preparation device, including a support leg, a mixing tank fixedly connected to the top of the support leg, a discharge port opened on the inner bottom side wall of the mixing tank, a valve fixedly installed at one end of the discharge port, a fixing plate fixedly connected to the middle of the support leg, and a stirring motor fixedly connected to the middle of the fixing plate.

[0004] The above-mentioned device quantitatively dispenses materials from the mixing tank by rotating the mixing disc. However, there are some problems in actual use. Specifically, the wetting agent raw materials are of various types, most of which are liquid. After these raw materials enter the mixing tank, they will flow out through the gap between the mixing disc and the mixing tank, which will cause the final raw material ratio to deviate and affect the overall work quality. Utility Model Content

[0005] The purpose of this section is to outline some aspects of embodiments of the present invention and to briefly describe some preferred embodiments. Simplifications or omissions may be made in this section, as well as in the abstract and title of this application, to avoid obscuring the purpose of these documents; however, such simplifications or omissions should not be construed as limiting the scope of the present invention.

[0006] To address the problems mentioned in the background section, the present invention adopts the following technical solution.

[0007] A wetting agent preparation device includes a mixing component, a storage component, a mounting bracket, and a collecting component. The mixing component is mounted on the side of the mounting bracket, and the storage component is symmetrically mounted on the side of the mounting bracket and on both sides of the mixing component. The collecting component is disposed above the storage component and is connected to the mounting bracket. An extraction mechanism is installed inside the collecting component. The extraction mechanism includes a pull rod, a sealing gasket, and a suction component. The pull rod is slidably mounted inside the collecting component, and a sealing gasket is installed at the end of the pull rod. The suction component is connected to the end of the collecting component and penetrates the side wall of the storage component to enter the storage component.

[0008] As a preferred technical solution of this utility model, the extraction mechanism further includes a cylinder, a support plate and an output pipe. The cylinder is installed on the mounting bracket, the support plate is installed at the output end of the cylinder, the support plate is connected to the end of the pull rod, and the output pipe is installed on the bottom end of the collecting component opposite to the suction component. The output pipe is connected to the mixing component.

[0009] As a preferred embodiment of this utility model, the suction assembly includes a suction tube, a suction end, and a one-way valve assembly. The suction tube is installed at the bottom of the collecting component, the suction end is installed at the end of the suction tube, and the one-way valve assembly is installed inside the suction end.

[0010] As a preferred embodiment of this utility model, the one-way valve assembly is provided in two sets, one set of one-way valve assembly is installed in the suction end, and the other set of suction end is installed in the output pipe, and the two sets of one-way valve assemblies are placed in opposite directions.

[0011] As a preferred embodiment of this utility model, the one-way valve assembly consists of a conical plate, a spring assembly, and a ball. The conical plate is installed inside the suction end, and a ball is provided at the opening at the end of the conical plate. A spring assembly is installed between the ball and the conical plate.

[0012] As a preferred technical solution of this utility model, it also includes a stirring mechanism, which includes a drive motor, a connecting rod, a stirring component and a discharge pipe. The drive motor is installed on the surface of the mixing component, and the connecting rod is installed at the output end of the drive motor. The connecting rod enters the mixing component, and the stirring component is installed outside the connecting rod. The discharge pipe is installed at the discharge port at the bottom of the mixing component.

[0013] As a preferred technical solution of this utility model, the stirring mechanism further includes a first mixing plate and a second mixing plate. The first mixing plate is installed at equal intervals inside the discharge pipe, and the second mixing plate is installed at the top of the first mixing plate. The second mixing plate is connected to the inner wall of the discharge pipe.

[0014] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0015] This invention employs an extraction mechanism that utilizes the sliding of a sealing gasket within the collecting component to extract raw materials from the storage component. During extraction, the one-way valve assembly in the suction unit opens, while the one-way valve assembly in the output pipe closes, ensuring a stable flow of raw materials into the collecting component. The total amount of raw materials extracted varies depending on the movement distance of the sealing gasket. Subsequently, as the sealing gasket resets, the states of the two sets of one-way valve assemblies change, allowing the raw materials to enter the mixing component, thus achieving quantitative extraction and mixing of liquid raw materials. Attached Figure Description

[0016] Figure 1 This is a perspective view of the overall structure of this utility model.

[0017] Figure 2 This is a plan view of the overall structure of the device of this utility model.

[0018] Figure 3 This is a perspective view of the extraction mechanism structure of this utility model.

[0019] Figure 4 This is a schematic diagram of the structure of the suction component of this utility model.

[0020] Figure 5 This is a schematic diagram of the one-way valve assembly of this utility model.

[0021] Figure 6 This is a schematic diagram of the stirring mechanism of this utility model.

[0022] The correspondence between the labels and component names in the attached figures is as follows:

[0023] 1. Mixing component; 2. Storage component; 3. Mounting bracket; 4. Collection component; 5. Extraction mechanism; 51. Cylinder; 52. Support plate; 53. Pull rod; 54. Sealing gasket; 55. Suction assembly; 551. Suction pipe; 552. Suction end; 553. One-way valve assembly; 56. Output pipe; 6. Stirring mechanism; 61. Drive motor; 62. Connecting rod; 63. Stirring component; 64. Discharge pipe; 65. First mixing plate; 66. Second mixing plate. Detailed Implementation

[0024] 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.

[0025] 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.

[0026] 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. The present invention provides the following embodiments.

[0027] like Figure 1 and Figure 2As shown, it is a structural schematic diagram of the wetting agent preparation device in this embodiment. The device includes a mixing component 1, a storage component 2, a mounting bracket 3, and a collecting component 4. The mixing component 1 is installed on the side of the mounting bracket 3. The mixing component 1 is a raw material mixing cylinder. The storage component 2 is installed symmetrically on the side of the mounting bracket 3 and on both sides of the mixing component 1. The storage component 2 is a raw material storage cylinder. The collecting component 4 is provided above the storage component 2. The collecting component 4 is a raw material conveying cylinder. The collecting component 4 is connected to the mounting bracket 3.

[0028] The raw materials for the subsequent wetting agent are input into the corresponding storage container 2. Then, through the use of the collection container 4 and other components, the raw materials in the storage container 2 are quantitatively removed and a certain amount of raw materials are input into the mixing container 1. This facilitates the subsequent mixing of multiple raw materials by the internal components of the mixing container 1, thereby achieving a stable and efficient configuration of the wetting agent.

[0029] In this embodiment, the collecting component 4 is equipped with an extraction mechanism 5, which extracts the raw materials in the storage component 2 stably. The mixing component 1 is equipped with a stirring mechanism 6, which stirs the raw materials extracted into the mixing component 1.

[0030] As attached Figure 3 As shown, this is a schematic diagram of the extraction mechanism 5 in this embodiment. The extraction mechanism 5 includes a cylinder 51 and a support plate 52. The cylinder 51 is mounted on the mounting bracket 3, and the support plate 52 is mounted on the output end of the cylinder 51. The cylinder 51 drives the support plate 52 to move up and down. A pull rod 53 is slidably installed inside the collecting component 4. The end of the pull rod 53 is connected to the support plate 52. When the support plate 52 moves, the pull rod 53 moves synchronously with the support plate 52. A sealing gasket 54 is installed at the end of the pull rod 53. As the sealing gasket 54 moves, a negative pressure space is formed inside the collecting component 4. The end of the collecting component 4 is connected to a suction component 55. The suction component 55 penetrates the side wall of the storage component 2 and enters the storage component 2. When the collecting component 4 is in a negative pressure state, the suction component 55 extracts and collects the raw materials in the storage component 2. An output pipe 56 is installed on the bottom end of the collecting component 4 opposite to the suction component 55. The output pipe 56 is connected to the mixing component 1 and inputs the raw materials into the mixing component 1.

[0031] When in use, the cylinder 51 is started, and the output end of the cylinder 51 drives the support plate 52 to move. Under the transmission of the pull rod 53, the sealing gasket 54 moves inside the collection part 4. Since the sealing gasket 54 is in close contact with the inner wall of the collection part 4, a negative pressure space is formed inside the collection part 4. The suction component 55 will extract the liquid inside the storage part 2.

[0032] As attached Figure 4 and Figure 5As shown, it is a structural schematic diagram of the extraction mechanism 5 in this embodiment. The suction component 55 includes a suction tube 551, a suction end 552 and a one-way valve assembly 553. The suction tube 551 is installed at the bottom of the collection component 4, the suction end 552 is installed at the end of the suction tube 551, and the one-way valve assembly 553 is installed inside the suction end 552.

[0033] When the suction component 55 extracts liquid from the storage container 2, the one-way valve component 553 installed in the suction end 552 is in the open state, and the liquid can enter the collection container 4 from the suction tube 551 to realize the extraction of raw materials.

[0034] As attached Figure 4 and Figure 5 As shown, the one-way valve assembly 553 consists of a conical plate, a spring assembly, and a ball. The conical plate is installed inside the suction end 552, and a ball is provided at the opening at the end of the conical plate. A spring assembly is installed between the ball and the conical plate. There are two sets of one-way valve assemblies 553. One set of one-way valve assemblies 553 is installed inside the suction end 552, and the other set of suction end 552 is installed inside the output pipe 56. The two sets of one-way valve assemblies 553 are placed in opposite directions. When one set of one-way valve assemblies 553 is open, the other set of one-way valve assemblies 553 is in a closed state.

[0035] When the sealing gasket 54 moves downward, the one-way valve assembly 553 installed in the suction end 552 is in a closed state, while the one-way valve assembly 553 installed in the output pipe 56 is in an open state, allowing the liquid to pass through the output pipe 56 and enter the mixing component 1, thereby achieving stable extraction of raw materials.

[0036] As attached Figure 6 As shown, this is a schematic diagram of the stirring mechanism 6 in this embodiment. The stirring mechanism 6 includes a drive motor 61 and a connecting rod 62. The drive motor 61 is mounted on the surface of the mixing component 1. The connecting rod 62 is mounted on the output end of the drive motor 61. The connecting rod 62 enters into the mixing component 1. A stirring component 63 is mounted on the outside of the connecting rod 62. A discharge pipe 64 is installed at the discharge port at the bottom of the mixing component 1. A first mixing plate 65 is installed at equal intervals inside the discharge pipe 64. A second mixing plate 66 is installed at the top of the first mixing plate 65. The second mixing plate 66 is connected to the inner wall of the discharge pipe 64.

[0037] When the raw materials in the two storage units 2 enter the mixing unit 1, the stirring unit 63 stirs inside the mixing unit 1 through the operation of the drive motor 61 to mix the raw materials. After the mixing is completed, the mixed liquid flows out through the discharge pipe 64 by opening the control valve installed outside the discharge pipe 64. During the flow of the mixed liquid, the first mixing plate 65 and the second mixing plate 66 further mix the mixed liquid to realize the preparation of the wetting agent.

[0038] The above description, in conjunction with specific embodiments, provides a further detailed explanation of the present utility model. It should not be construed that the specific implementation of the present utility model is limited to these descriptions. For those skilled in the art, several simple deductions or substitutions can be made without departing from the concept of the present utility model, and all such deductions or substitutions should be considered to fall within the scope of protection defined by the claims submitted by the present utility model.

Claims

1. A wetting agent preparation device, comprising a mixing component (1), a storage component (2), a mounting bracket (3), and a collecting component (4), wherein the mixing component (1) is mounted on the side of the mounting bracket (3), the storage component (2) is symmetrically mounted on the side of the mounting bracket (3) and on both sides of the mixing component (1), and the collecting component (4) is disposed above the storage component (2), and the collecting component (4) is connected to the mounting bracket (3), characterized in that: The collection component (4) is equipped with an extraction mechanism (5). The extraction mechanism (5) includes a pull rod (53), a sealing gasket (54), and an suction component (55). The pull rod (53) is slidably installed inside the collection component (4). The end of the pull rod (53) is equipped with a sealing gasket (54). The end of the collection component (4) is connected to the suction component (55). The suction component (55) penetrates the side wall of the storage component (2) and enters the storage component (2).

2. The wetting agent preparation device according to claim 1, characterized in that: The extraction mechanism (5) also includes a cylinder (51), a support plate (52) and an output pipe (56). The cylinder (51) is mounted on the mounting bracket (3). The support plate (52) is mounted on the output end of the cylinder (51). The support plate (52) is connected to the end of the pull rod (53). The output pipe (56) is mounted on the side of the bottom of the collecting component (4) opposite to the suction component (55). The output pipe (56) is connected to the mixing component (1).

3. The wetting agent preparation device according to claim 2, characterized in that: The suction assembly (55) includes a suction tube (551), a suction end (552) and a one-way valve assembly (553). The suction tube (551) is installed at the bottom of the collecting part (4), and the suction end (552) is installed at the end of the suction tube (551). The one-way valve assembly (553) is installed inside the suction end (552).

4. The wetting agent preparation device according to claim 3, characterized in that: The one-way valve assembly (553) is provided in two sets. One set of one-way valve assembly (553) is installed in the suction end (552), and the other set of suction end (552) is installed in the output pipe (56). The two sets of one-way valve assemblies (553) are placed in opposite directions.

5. The wetting agent preparation device according to claim 4, characterized in that: The one-way valve assembly (553) consists of a conical plate, a spring assembly and a ball. The conical plate is installed inside the suction end (552), and a ball is provided at the opening at the end of the conical plate. A spring assembly is installed between the ball and the conical plate.

6. The wetting agent preparation device according to claim 1, characterized in that: It also includes a stirring mechanism (6), which includes a drive motor (61), a connecting rod (62), a stirring component (63), and a discharge pipe (64). The surface of the mixing component (1) is equipped with a drive motor (61), the output end of the drive motor (61) is equipped with a connecting rod (62), the connecting rod (62) enters into the mixing component (1), the outside of the connecting rod (62) is equipped with a stirring component (63), and the discharge pipe (64) is installed at the discharge port at the bottom of the mixing component (1).

7. The wetting agent preparation apparatus according to claim 6, characterized in that: The stirring mechanism (6) further includes a first mixing plate (65) and a second mixing plate (66). The first mixing plate (65) is installed at equal intervals inside the discharge pipe (64), and the second mixing plate (66) is installed at the top of the first mixing plate (65). The second mixing plate (66) is connected to the inner wall of the discharge pipe (64).