Ion exchange type magnesium citrate reaction kettle

By introducing a stirring assembly with spiral blades and rectangular blades, as well as a feeding assembly with an annular groove, into the ion-exchange magnesium citrate reactor, the problems of low stirring efficiency and poor sealing were solved, achieving higher product purity and zero leakage.

CN224332157UActive Publication Date: 2026-06-09PENGLAI MARINE SHANDONG

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
PENGLAI MARINE SHANDONG
Filing Date
2025-07-09
Publication Date
2026-06-09

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Abstract

The utility model relates to the technical field of chemical equipment, and disclose a kind of ion exchange type magnesium citrate reaction kettle, including reaction kettle assembly, and the middle part of reaction kettle assembly is fastened and connected with stirring assembly, and stirring assembly includes motor and motor output shaft end fastening connection has rotating roller, rotating roller circumferential surface is fixedly connected with helical blade, and rectangular blade is fixedly connected between helical blade gap, and kettle cover assembly is placed on the upper surface of reaction kettle assembly, and the upper surface of kettle cover assembly is evenly fixedly connected with feeding assembly. The ion exchange type magnesium citrate reaction kettle, by the stirring assembly and feeding assembly being set, solve the ion exchange type magnesium citrate reaction kettle of existing, the single of stirring structure is relatively, to lead to the problem of low reaction efficiency, ion exchange is not sufficient;Or the connecting portion between feeding structure and feeding pipe is generally sealed by sealing washer, but sealing washer is difficult to quickly and accurately position, to lead to the risk of leakage still exists in connecting portion.
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Description

Technical Field

[0001] This utility model relates to the field of chemical equipment technology, specifically to an ion-exchange magnesium citrate reactor. Background Technology

[0002] Magnesium citrate is an important chemical product with wide applications in the food, pharmaceutical, and chemical industries. The reaction vessel is one of the key pieces of equipment in the production process of magnesium citrate. However, existing magnesium citrate reaction vessels typically suffer from the following problems when performing ion exchange reactions:

[0003] Currently, existing ion-exchange magnesium citrate reactors have relatively simple stirring structures, resulting in low reaction efficiency, insufficient ion exchange, and low product purity, thus limiting their application. Alternatively, existing ion-exchange magnesium citrate reactors typically use gaskets to seal the connection between the feeding structure and the feeding pipe during material feeding. However, these gaskets are difficult to position quickly and accurately, leading to a risk of material leakage at the connection point, further limiting their use. Therefore, it is necessary to develop an improved ion-exchange magnesium citrate reactor to solve these problems. Utility Model Content

[0004] The purpose of this invention is to provide an ion-exchange magnesium citrate reactor to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, the present invention provides the following technical solution: an ion-exchange magnesium citrate reactor, comprising a reactor assembly, wherein a stirring assembly is fastened to the upper middle part of the reactor assembly, and the stirring assembly includes a motor and a rotating roller fastened to the end of the motor output shaft, wherein a spiral blade is fixedly connected to the circumferential surface of the rotating roller, and rectangular blades are fixedly connected between the gaps of the spiral blades, and a reactor lid assembly is placed on the upper surface of the reactor assembly, wherein a feeding assembly is uniformly fixedly connected to the upper surface of the reactor lid assembly.

[0006] Furthermore, the feeding assembly includes a feeding element and an annular groove, and the annular groove is disposed on the upper surface of the feeding element, and fixing holes are uniformly provided through the edge of the upper surface of the feeding element.

[0007] Furthermore, the reactor assembly includes a reactor body and support legs, with the support legs evenly and fixedly connected to the bottom edge of the reactor body, and anti-slip pads fixedly connected to the bottom surface of the support legs.

[0008] Furthermore, a feed pipe is fixedly connected to the center of the bottom surface of the reactor body, and a solenoid valve is fixedly connected to the center of one side of the peripheral surface of the feed pipe. A transparent glass is fixedly connected to one side of the peripheral surface of the reactor body.

[0009] Furthermore, the vessel lid assembly includes a vessel lid body and a handle, with the handle fixedly connected to both sides of the vessel lid body. A through hole is provided through the center of the upper surface of the vessel lid body, and screw holes are provided around the outside of the through hole.

[0010] Furthermore, a mounting base is fixedly connected to one end of the motor's peripheral surface, and the mounting base is fastened to the vessel lid body by external bolts.

[0011] Compared with the prior art, this utility model provides an ion-exchange magnesium citrate reactor, which has the following beneficial effects:

[0012] 1. This ion-exchange magnesium citrate reactor, through its set stirring components, can improve reaction efficiency, solving the problems of existing ion-exchange magnesium citrate reactors with relatively simple stirring structures, resulting in low reaction efficiency, insufficient ion exchange, low product purity, and certain limitations in use.

[0013] 2. This ion-exchange magnesium citrate reactor, through its feeding assembly, has the advantage of quickly and accurately positioning the sealing structure. This solves the problem that in existing ion-exchange magnesium citrate reactors, the connection between the feeding structure and the feeding pipe is generally sealed with a gasket, but the gasket is difficult to position quickly and accurately, resulting in the risk of leakage at the connection and certain limitations in its use. Attached Figure Description

[0014] To more clearly illustrate the technical solutions in 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.

[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 reactor assembly structure of this utility model;

[0017] Figure 3 This is a schematic diagram of the feeding assembly structure of this utility model;

[0018] Figure 4 This is a schematic diagram of the stirring assembly structure of this utility model.

[0019] In the diagram: 1. Reactor assembly; 11. Reactor body; 12. Transparent glass; 13. Feed pipe; 14. Solenoid valve; 15. Support leg; 16. Anti-slip pad; 2. Lid assembly; 21. Lid body; 211. Through hole; 212. Screw hole; 22. Handle; 3. Feeding assembly; 31. Feeding component; 311. Annular groove; 312. Fixing hole; 4. Stirring assembly; 41. Motor; 42. Mounting base; 43. Rotary roller; 44. Spiral blade; 45. Rectangular blade. Detailed Implementation

[0020] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0021] In this utility model, unless otherwise explicitly specified and limited, the terms "installation," "connection," "joining," and "fixing," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.

[0022] Example:

[0023] Please see Figure 1-4 This utility model provides a technical solution: an ion exchange magnesium citrate reactor, including a reactor assembly 1. A stirring assembly 4 is fastened to the upper middle part of the reactor assembly 1. The stirring assembly 4 includes a motor 41 and a rotating roller 43 fastened to the end of the output shaft of the motor 41. Spiral blades 44 are fixedly connected to the circumferential surface of the rotating roller 43, and rectangular blades 45 are fixedly connected between the gaps of the spiral blades 44. A reactor cover assembly 2 is placed on the upper surface of the reactor assembly 1, and a feeding assembly 3 is uniformly fixedly connected to the upper surface of the reactor cover assembly 2. The feeding assembly 3 includes a feeding element 31 and an annular groove 311. The annular groove 311 is disposed on the upper surface of the feeding element 31, and fixing holes 312 are uniformly provided through the edge of the upper surface of the feeding element 31.

[0024] Working Principle: When this ion-exchange magnesium citrate reactor is in use, the feeding assembly 3 is first connected to the external raw material conveying pipe structure using bolts. During connection, the sealing gasket can be directly placed into the annular groove 311 on the feeding assembly 31, thereby achieving rapid positioning of the sealing gasket and ensuring that it is stably positioned in the middle of the connection gap between the feeding assembly 31 and the conveying pipe structure. This effectively prevents the sealing gasket from shifting during the connection of the conveying pipe structure, thus avoiding leakage at the connection gap. Furthermore, when it is necessary to stir the magnesium citrate inside the reactor body 11, the motor 41 is controlled to rotate via an external control terminal, thereby driving the rotating roller 43, spiral blade 44, and rectangular blade 45 to rotate. The combined stirring of the spiral blade 44 and rectangular blade 45 results in higher stirring efficiency compared to a single stirring blade, thus ensuring sufficient ion exchange and improving product purity. This method is convenient, practical, and worthy of widespread promotion.

[0025] Among them, such as Figure 2 As shown, the reactor assembly 1 includes a reactor body 11 and support legs 15. The support legs 15 are evenly and fixedly connected to the bottom edge of the reactor body 11, and anti-slip pads 16 are fixedly connected to the bottom surface of the support legs 15. A feed pipe 13 is fixedly connected to the middle of the bottom surface of the reactor body 11, and a solenoid valve 14 is fixedly connected to the middle of one side of the peripheral surface of the feed pipe 13. A transparent glass 12 is fixedly connected to one side of the peripheral surface of the reactor body 11. Specifically, when feeding is required, the solenoid valve 14 is opened by controlling the external control terminal, so that the prepared magnesium citrate can be discharged from the feed pipe 13.

[0026] Among them, such as Figure 3 As shown, the lid assembly 2 includes a lid body 21 and a handle 22, and the handle 22 is fixedly connected to both sides of the lid body 21. A through hole 211 is provided through the middle of the upper surface of the lid body 21, and screw holes 212 are provided around the outside of the through hole 211. Specifically, when it is necessary to lift the lid assembly 2, it is only necessary to apply a vertical upward force to the handle 22.

[0027] Among them, such as Figure 1 , 4 As shown, a mounting base 42 is fixedly connected to one end of the peripheral surface of the motor 41, and the mounting base 42 is fastened to the vessel lid body 21 by external bolts. Specifically, when it is necessary to connect the motor 41 and the vessel lid body 21 structurally, it is only necessary to insert the external bolts into the mounting holes on the mounting base 42, and then turn the bolts clockwise to tighten them into the screw holes 212.

[0028] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes said element.

Claims

1. An ion-exchange magnesium citrate reactor, characterized in that, The reactor assembly includes a reactor vessel assembly (1), a stirring assembly (4) is fastened to the upper middle part of the reactor vessel assembly (1), and the stirring assembly (4) includes a motor (41) and a rotating roller (43) is fastened to the end of the output shaft of the motor (41). A spiral blade (44) is fixedly connected to the circumferential surface of the rotating roller (43), and a rectangular blade (45) is fixedly connected between the gaps of the spiral blade (44). A lid assembly (2) is placed on the upper surface of the reactor vessel assembly (1), and a feeding assembly (3) is uniformly fixedly connected to the upper surface of the lid assembly (2).

2. The ion-exchange magnesium citrate reactor according to claim 1, characterized in that, The feeding assembly (3) includes a feeding element (31) and an annular groove (311), and the annular groove (311) is disposed on the upper surface of the feeding element (31). Fixing holes (312) are uniformly provided through the edge of the upper surface of the feeding element (31).

3. The ion-exchange magnesium citrate reactor according to claim 1, characterized in that, The reactor assembly (1) includes a reactor body (11) and a support leg (15), and the support leg (15) is uniformly and fixedly connected to the bottom edge of the reactor body (11), and the bottom surface of the support leg (15) is fixedly connected with an anti-slip pad (16).

4. The ion-exchange magnesium citrate reactor according to claim 3, characterized in that, The reactor body (11) is fixedly connected to the middle of the bottom surface of the reactor body (13), and a solenoid valve (14) is fixedly connected to the middle of one side of the peripheral surface of the reactor body (13). A transparent glass (12) is fixedly connected to one side of the peripheral surface of the reactor body (11).

5. The ion-exchange magnesium citrate reactor according to claim 1, characterized in that, The lid assembly (2) includes a lid body (21) and a handle (22), and the handle (22) is fixedly connected to both sides of the lid body (21). A through hole (211) is provided in the middle of the upper surface of the lid body (21), and screw holes (212) are provided around the outside of the through hole (211).

6. The ion-exchange magnesium citrate reactor according to claim 1, characterized in that, The motor (41) has a mounting base (42) fixedly connected to one end of its peripheral surface, and the mounting base (42) is fastened to the lid body (21) by external bolts.