A mixing tank for liquid fertilizer production
By introducing components such as a top cover plate, a feed hopper, and a circulation pipe into the mixing tank for liquid fertilizer production, the problem of difficult disassembly when the mixing blades are damaged or replaced is solved, enabling convenient replacement of the mixing blades and improving the versatility of the mixing tank.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHENGDU YINGHAO BIOTECHNOLOGY CO LTD
- Filing Date
- 2025-05-29
- Publication Date
- 2026-06-19
AI Technical Summary
In existing technologies, mixing tanks used for liquid fertilizer production are difficult to disassemble and replace when the mixing blades are damaged or need to be replaced, resulting in low versatility.
A mixing tank for liquid fertilizer production has been designed, including a tank body, a top cover plate, a feed hopper, a circulation pipe, fasteners, a drive component, an assembly frame, a circulation component, a stirring mechanism, and a circulation component. These components enable the disassembly and replacement of the stirring mechanism, facilitating the replacement of the stirring blades according to different needs.
It enables easy disassembly and replacement of the stirring blades, improving the versatility of the mixing tank.
Smart Images

Figure CN224371302U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of fertilizer mixing technology, and in particular to a mixing tank for liquid fertilizer production. Background Technology
[0002] Liquid fertilizer, or liquid fertilizer for short, refers to fertilizer that has no fixed shape and flows. The production process of liquid fertilizer requires the mixing of various raw materials in a mixing tank. Existing mixing devices basically use a stirring shaft for stirring, and the stirring shaft can only stir horizontally when it rotates inside the tank.
[0003] The prior art (CN217093099U) discloses a mixing tank for liquid fertilizer production, which is mainly composed of a base, a support, a mixing tank, a stirring mechanism, and a circulation mechanism. The mixing tank is supported on the base by the support, the stirring mechanism is located inside the mixing tank, and the circulation mechanism is located on the mixing tank. The material is discharged through a manual valve at the bottom. The internal stirring device fully stirs the fertilizer laterally, while the circulation mechanism continuously draws the fertilizer with a higher concentration from the bottom back to the top of the mixing tank. As needed, a double circulation mechanism can be set on both sides of the mixing tank to fully mix the fertilizer and ensure the effect of agricultural fertilization.
[0004] However, with the above method, since the mixing tank is a single unit, it is inconvenient to disassemble and replace it when the stirring shaft and stirring blades are damaged or when the type of stirring blades needs to be changed according to different mixing requirements, which results in low versatility. Utility Model Content
[0005] The purpose of this utility model is to provide a mixing tank for liquid fertilizer production, which aims to solve the problem that existing mixing tanks for liquid fertilizer production have a low versatility because of their integrated structure. When the stirring shaft and stirring blades are damaged or the type of stirring blades needs to be changed according to different mixing requirements, it is inconvenient to disassemble and replace them.
[0006] To achieve the above objectives, this utility model provides a mixing tank for liquid fertilizer production, comprising a tank body and a mixing assembly.
[0007] The mixing assembly includes an upper cover plate, a feed hopper, two circulation pipes, two fasteners, a drive component, an assembly frame, two fixing components, a plug-in pin, a mixing mechanism, and two circulation components;
[0008] The upper cover plate is located on one side of the tank body; the feed hopper is connected to the upper cover plate and is located on one side of the upper cover plate; the two circulation pipes are respectively connected to the upper cover plate and are respectively located on one side of the upper cover plate; the two fasteners are respectively located on both sides of the tank body; the driving component is disposed on one side of the upper cover plate; the assembly frame is fixedly connected to the driving component and is located on one side of the driving component; the two fixing components are respectively disposed on both sides of the assembly frame; the plug is located inside the assembly frame; the stirring mechanism is disposed on one side of the plug; the two circulation components are respectively disposed on both sides of the tank body.
[0009] The fastener includes a fastening frame and a locking screw. The fastening frame is fixedly connected to the tank body and is located on one side of the tank body. The locking screw is threadedly connected to the fastening frame and to the upper cover plate, and is located on one side of the fastening frame.
[0010] The driving component includes an electromechanical housing, a drive motor, a coupling, and a drive rod. The electromechanical housing is fixedly connected to the upper cover plate and located on one side of the upper cover plate. The drive motor is fixedly connected to the electromechanical housing and located inside the electromechanical housing. The coupling is fixedly connected to the output end of the drive motor and located on one side of the drive motor. The drive rod is fixedly connected to the coupling and to the assembly frame, and located on one side of the coupling.
[0011] The fixing component includes an operating frame, an operating screw, and a pin. The operating frame is fixedly connected to the assembly frame and is located on one side of the assembly frame. The operating screw is threadedly connected to the operating frame and is located on one side of the operating frame. The pin is fixedly connected to the operating screw and is located on one side of the operating screw.
[0012] The circulation component includes a circulation pump, a liquid extraction pipe, a liquid delivery hose, and a connector. The circulation pump is fixedly connected to the tank and located on one side of the tank. The liquid extraction pipe is connected to the circulation pump and located inside the tank. The liquid delivery hose is connected to the circulation pump and located on one side of the circulation pump. The connector is connected to the liquid delivery hose and located on one side of the liquid delivery hose.
[0013] This utility model discloses a mixing tank for liquid fertilizer production. During liquid fertilizer production and mixing, various raw materials are poured into the tank through the feed hopper. Two circulation components are respectively connected to two circulation pipes on the upper cover plate. Then, the drive unit is activated to drive the stirring mechanism mounted on the assembly frame to rotate. The stirring mechanism mixes the various raw materials in the tank. The circulation components are used to circulate and extract the raw materials from the tank, and then discharge them into the tank through the circulation pipes for repeated mixing. When the stirring mechanism is damaged or needs to be replaced according to different mixing requirements, the two components are connected to the mixing tank. The connection between the circulation component and the two circulation pipes is pulled out, and then the two fasteners are used to loosen the upper cover plate. The upper cover plate, along with the drive component and other structures, is then removed from the tank. The fixing component is then used to loosen the plug-in stake, and the stirring mechanism is then removed. The stirring mechanism that meets the requirements and is in good working order is then reassembled on the assembly frame. This solves the problem that existing mixing tanks for liquid fertilizer production have a one-piece structure, which makes it inconvenient to disassemble and replace the stirring shaft and stirring blades when they are damaged or when the type of stirring blades needs to be changed according to different mixing requirements, resulting in low versatility. Attached Figure Description
[0014] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the accompanying drawings used in the description of the embodiments or the prior art will be briefly introduced below.
[0015] Figure 1 This is a schematic diagram of the overall structure of this utility model.
[0016] Figure 2 This is a front view of the entire utility model.
[0017] Figure 3 This is a cross-sectional view of the entire utility model.
[0018] Figure 4 yes Figure 3 A magnified view of a portion at point A.
[0019] 101-Tank body, 102-Upper cover plate, 103-Feed hopper, 104-Circulation pipe, 105-Fasteners, 106-Drive components, 107-Assembly frame, 108-Fixing components, 109-Plug-in pins, 110-Agitating mechanism, 111-Circulation components, 112-Fastening frame, 113-Locking screw, 114-Electrical box, 115-Drive motor, 116-Coupling, 117-Drive rod, 118-Operating frame, 119-Operating screw, 120-Pin, 121-Circulation pump, 122-Liquid extraction pipe, 123-Liquid delivery hose, 124-Plug-in connector. Detailed Implementation
[0020] The embodiments of the present invention are described in detail below. Examples of the embodiments are shown in the accompanying drawings. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain the present invention, but should not be construed as limiting the present invention.
[0021] Please see Figures 1-4 ,in, Figure 1 This is a schematic diagram of the overall structure of this utility model. Figure 2 This is a front view of the entire utility model. Figure 3 This is a cross-sectional view of the entire utility model. Figure 4 yes Figure 3 A magnified view of a portion at point A.
[0022] This utility model discloses a mixing tank for liquid fertilizer production, comprising a tank body 101 and a mixing assembly. The mixing assembly includes an upper cover plate 102, a feed hopper 103, two circulation pipes 104, two fasteners 105, a drive component 106, an assembly frame 107, two fixing components 108, a plug-in pin 109, a stirring mechanism 110, and two circulation components 111. The fasteners 105 include a fastening frame 112 and a locking screw 113. The drive component 106 includes an electromechanical box 114, a drive motor 115, and a coupling 1. The fixed component 108 includes an operating frame 118, an operating screw 119, and a pin 120. The circulation component 111 includes a circulation pump 121, a liquid extraction pipe 122, a liquid delivery hose 123, and a connector 124. The aforementioned solution solves the problem that existing mixing tanks for liquid fertilizer production are not very versatile because they are integral structures. When the stirring shaft and stirring blades are damaged or the stirring blade type needs to be changed according to different mixing requirements, it is inconvenient to disassemble and replace them.
[0023] In this specific embodiment, the tank 101, in conjunction with the mixing component, is used to mix and produce liquid fertilizer.
[0024] The upper cover plate 102 is located on one side of the tank body 101; the feed hopper 103 is connected to the upper cover plate 102 and is located on one side of the upper cover plate 102; the two circulation pipes 104 are respectively connected to the upper cover plate 102 and are respectively located on one side of the upper cover plate 102; the two fasteners 105 are respectively located on both sides of the tank body 101; the driving component 106 is disposed on one side of the upper cover plate 102; the assembly frame 107 is fixedly connected to the driving component 106 and is located on one side of the driving component 106; the two fixing components 108 are respectively disposed on both sides of the assembly frame 107; The insertion pin 109 is located inside the assembly frame 107; the stirring mechanism 110 is disposed on one side of the insertion pin 109; two circulation components 111 are respectively disposed on both sides of the tank body 101. Various raw materials are poured into the tank body 101 through the feed hopper 103. The two circulation components 111 are respectively inserted into the two circulation pipes 104 on the upper cover plate 102. Then, the driving component 106 is activated to drive the stirring mechanism 110 mounted on the assembly frame 107 to rotate, and the stirring mechanism 110 mixes the various raw materials in the tank body 101. 0 refers to existing technologies with various models and shapes to suit different mixing requirements, such as the stirring shaft and multiple stirring blades in patent document CN217093099U. The circulation component 111 is used to circulate and extract the raw materials in the tank 101, and then discharge them into the tank 101 for repeated mixing through the circulation pipe 104. When the stirring mechanism 110 is damaged or needs to be replaced according to different mixing requirements, the connection between the two circulation components 111 and the two circulation pipes 104 is disconnected, and then the two fasteners 105 are operated to loosen the upper... The cover plate 102 is then removed from the tank body 101 along with the drive component 106 and other structures. Then, the fixing component 108 is used to loosen the plug pin 109, and the stirring mechanism 110 is removed. The stirring mechanism 110, which meets the requirements and is in good working order, is then reassembled onto the assembly frame 107. This solves the problem that existing mixing tanks for liquid fertilizer production are inconvenient to disassemble and replace when the stirring shaft and stirring blades are damaged or when the type of stirring blades needs to be changed according to different mixing requirements, resulting in low versatility.
[0025] Secondly, the fastening bracket 112 is fixedly connected to the tank body 101 and is located on one side of the tank body 101; the locking screw 113 is threadedly connected to the fastening bracket 112 and to the upper cover plate 102, and is located on one side of the fastening bracket 112. The fastening bracket 112 is used to support the assembly of the locking screw 113. Twisting the locking screw 113 to the upper cover plate 102 threaded connection is used to fix the upper cover plate 102.
[0026] Furthermore, the electromechanical housing 114 is fixedly connected to the upper cover plate 102 and located on one side of the upper cover plate 102; the drive motor 115 is fixedly connected to the electromechanical housing 114 and located inside the electromechanical housing 114; the coupling 116 is fixedly connected to the output end of the drive motor 115 and located on one side of the drive motor 115; the drive rod 117 is fixedly connected to the coupling 116 and to the assembly frame 107, and located on one side of the coupling 116. The electromechanical housing 114 is used to support the assembly of the drive motor 115. The drive motor 115 drives the coupling 116 to drive the drive rod 117 to drive the assembly frame 107 and the assembled stirring mechanism 110 to start rotating.
[0027] In addition, the operating frame 118 is fixedly connected to the assembly frame 107 and is located on one side of the assembly frame 107; the operating screw 119 is threadedly connected to the operating frame 118 and is located on one side of the operating frame 118; the pin 120 is fixedly connected to the operating screw 119 and is located on one side of the operating screw 119. Twisting the operating screw 119 rotates it on the operating frame 118, which drives the pin 120 to move and insert into or release the plug 109.
[0028] Furthermore, the circulation pump 121 is fixedly connected to the tank 101 and located on one side of the tank 101; the liquid extraction pipe 122 is connected to the circulation pump 121 and located inside the tank 101; the liquid delivery hose 123 is connected to the circulation pump 121 and located on one side of the circulation pump 121; the connector 124 is connected to the liquid delivery hose 123 and located on one side of the liquid delivery hose 123. The liquid delivery hose 123 is connected to the circulation pipe 104 through the connector 124. The circulation pump 121 is controlled to cooperate with the liquid extraction pipe 122 to circulate and transport the liquid in the tank 101 to the tank 101 through the liquid delivery hose 123 and the circulation pipe 104.
[0029] In using this utility model, various raw materials are poured into the tank 101 through the feed hopper 103. The two circulation components 111 are respectively connected to the two circulation pipes 104 on the upper cover plate 102. Then, the drive motor 115 in the electromechanical box 114 is started. The drive motor 115 drives the coupling 116 to drive the drive rod 117, which in turn drives the assembly frame 107 and the assembled stirring mechanism 110 to rotate. The stirring mechanism 110 mixes the various raw materials in the tank 101. The controlled circulation pump 121, in conjunction with the liquid extraction pipe 122, circulates the liquid in the tank 101 through the liquid delivery hose 123 and the circulation pipes 104 back into the tank 101 for repeated mixing. When the stirring mechanism 110 is damaged or needs to be adjusted according to different... When replacing the mixing mechanism 110 for mixing needs, disconnect the connectors 124 on the two liquid delivery hoses 123 from the two circulation pipes 104, then loosen the upper cover plate 102 using the two fasteners 105, and then remove the upper cover plate 102 along with the drive component 106 and other structures from the tank body 101. Then, loosen the connector 109 using the fixing component 108 and remove the mixing mechanism 110. Finally, reassemble the mixing mechanism 110 that meets the requirements and is fully functional onto the assembly frame 107. This solves the problem that existing mixing tanks for liquid fertilizer production, being of integral structure, are inconvenient to disassemble and replace when the mixing shaft and mixing blades are damaged or when the type of mixing blades needs to be changed according to different mixing needs, resulting in low versatility.
[0030] The above-disclosed embodiments are merely one or more preferred embodiments of this application and should not be construed as limiting the scope of this application. Those skilled in the art can understand that all or part of the processes for implementing the above embodiments and equivalent changes made in accordance with the claims of this application still fall within the scope of this application.
Claims
1. A mixing tank for liquid fertilizer production, comprising a tank body, characterized in that, It also includes hybrid components, The mixing assembly includes an upper cover plate, a feed hopper, two circulation pipes, two fasteners, a drive component, an assembly frame, two fixing components, a plug-in pin, a mixing mechanism, and two circulation components; The upper cover plate is located on one side of the tank body; the feed hopper is connected to the upper cover plate and located on one side of the upper cover plate; the two circulation pipes are respectively connected to the upper cover plate and are respectively located on one side of the upper cover plate; the two fasteners are respectively located on both sides of the tank body; the driving component is disposed on one side of the upper cover plate; the assembly frame is fixedly connected to the driving component and is located on one side of the driving component; the two fixing components are respectively disposed on both sides of the assembly frame; the plug is located inside the assembly frame; the stirring mechanism is disposed on one side of the plug; the two circulation components are respectively disposed on both sides of the tank body.
2. The mixing tank for liquid fertilizer production as described in claim 1, characterized in that, The fastener includes a fastening frame and a locking screw. The fastening frame is fixedly connected to the tank body and is located on one side of the tank body. The locking screw is threadedly connected to the fastening frame and to the upper cover plate, and is located on one side of the fastening frame.
3. A mixing tank for liquid fertilizer production as described in claim 2, characterized in that, The driving component includes an electromechanical housing, a drive motor, a coupling, and a drive rod. The electromechanical housing is fixedly connected to the upper cover plate and located on one side of the upper cover plate. The drive motor is fixedly connected to the electromechanical housing and located inside the electromechanical housing. The coupling is fixedly connected to the output end of the drive motor and located on one side of the drive motor. The drive rod is fixedly connected to the coupling and to the assembly frame, and located on one side of the coupling.
4. A mixing tank for liquid fertilizer production as described in claim 3, characterized in that, The fastener includes an operating frame, an operating screw, and a pin. The operating frame is fixedly connected to the assembly frame and is located on one side of the assembly frame. The operating screw is threadedly connected to the operating frame and is located on one side of the operating frame. The pin is fixedly connected to the operating screw and is located on one side of the operating screw.
5. A mixing tank for liquid fertilizer production as described in claim 4, characterized in that, The circulation component includes a circulation pump, a suction pipe, a delivery hose, and a connector. The circulation pump is fixedly connected to the tank and located on one side of the tank. The suction pipe is connected to the circulation pump and located inside the tank. The delivery hose is connected to the circulation pump and located on one side of the circulation pump. The connector is connected to the delivery hose and located on one side of the delivery hose.