An egg white dispensing device with adjustable flow

By designing an adjustable flow rate egg liquid mixing device, convenient cleaning of the filter cartridge and precise flow control are achieved, solving the problem of complex cleaning of existing devices and improving production efficiency and product quality.

CN224404555UActive Publication Date: 2026-06-26HUBEI QIMIAO FOOD CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HUBEI QIMIAO FOOD CO LTD
Filing Date
2025-07-29
Publication Date
2026-06-26

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    Figure CN224404555U_ABST
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Abstract

The utility model relates to egg liquid deployment technical field, specifically disclose a kind of egg liquid deployment device of adjustable flow, comprising: deployment mechanism, including deployment subassembly, the stirring subassembly of installation on deployment subassembly, the filter component of slidingly clamped on deployment subassembly;The utility model removes the impurity in egg liquid by filter cartridge, when needing to clean filter cartridge, pull pull ring, drive filter cartridge to remove from discharge pipe, spring is compressed state at this time.At this time, filter cartridge can be flushed, and the egg liquid residue and impurity attached to the surface of filter cartridge are completely cleaned, to ensure that the sustained stability of filtering effect.After flushing, loosen pull ring, spring restores deformation and pushes pull ring, so that filter cartridge is automatically reset, easy and fast to operate, without complex dismounting tool and tedious manual reset step, greatly improve the maintenance efficiency of equipment, reduce downtime, ensure the continuity of production.
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Description

Technical Field

[0001] This utility model belongs to the field of egg liquid preparation technology, specifically an egg liquid preparation device with adjustable flow rate. Background Technology

[0002] An egg liquid mixing device is a specialized piece of equipment used for mixing, processing, and blending egg liquid. It is widely used in the food processing industry, especially in the production of egg liquid products such as cakes, biscuits, liquid egg products, and egg beverages. During the egg liquid mixing process, if the egg liquid is not filtered, impurities can lead to uneven surfaces, spots, or uneven coloring in the food. For example, in the production of egg beverages or the bottling of liquid egg products, impurities can make the product appear cloudy and unclear, thus affecting its visual appeal. Filtered egg liquid, on the other hand, is clear and transparent, significantly improving the product's appearance.

[0003] Most existing egg liquid preparation devices use a fixed structure for filtration, meaning the filter screen or filter cylinder is directly welded or bolted to the inside of the discharge pipe. However, this design has significant drawbacks. After long-term use, egg liquid impurities remaining on the surface of the filter cylinder are difficult to clean thoroughly. Cleaning often requires specialized tools to disassemble the filter device, which not only complicates the operation but also consumes a significant amount of time and manpower. Utility Model Content

[0004] To solve the above-mentioned technical problems, this utility model provides an adjustable flow rate egg liquid preparation device to solve the problem that in the prior art, the filter screen or filter cylinder is directly welded or fixed inside the discharge pipe by bolts. When workers carry out cleaning work, they often need to use professional tools to disassemble the filter device, which not only makes the operation complicated, but also consumes a lot of time and manpower.

[0005] An adjustable flow rate egg liquid preparation device includes: a preparation mechanism, including a preparation component, a stirring component mounted on the preparation component, a filter component slidably embedded in the preparation component, and an opening and closing component mounted on the preparation component;

[0006] The material storage mechanism includes a set of material storage tanks and a material conveying component installed on the set of material storage tanks.

[0007] A sealing component is fitted into the top of the dispensing component, and the output end of the conveying component is connected to the sealing component.

[0008] Preferably, the mixing assembly includes a base, a mixing tank is fixedly connected to the top of the base via a support frame, a support platform is fixedly connected to one side of the mixing tank, a discharge pipe is fixedly connected to the side of the mixing tank near the bottom, and limit rods are fixedly connected to the outside of the mixing tank and on both sides of the discharge port.

[0009] Preferably, the stirring assembly includes an electric telescopic rod fixedly connected to a support platform, a support plate fixedly connected to the output end of the electric telescopic rod, an mounting plate fixedly connected to the bottom of the support plate, a motor fixedly connected to the bottom of the mounting plate, a stirring paddle fixedly connected to the output end of the motor, and the stirring paddle rotatably connected to the sealing assembly via a bearing.

[0010] Preferably, the filter assembly includes a filter cylinder slidably connected in the discharge pipe. The filter cylinder has a feed inlet at one end inside the mixing tank. A pull ring is fixedly connected to the outside of the other end of the filter cylinder. The pull ring is slidably connected to the outside of a set of limiting rods. A spring is also slidably connected to the outside of the set of limiting rods. The spring can drive the pull ring to extend the filter cylinder into the interior of the discharge pipe.

[0011] Preferably, the opening and closing assembly includes an electric telescopic rod II fixedly connected to the bottom of the mixing tank. The output end of the electric telescopic rod II extends into the interior of the mixing tank and is fixedly connected to a sealing plate. The sealing plate is tightly fitted against the inner wall of the mixing tank, and the electric telescopic rod II can drive the sealing plate to rise and fall vertically.

[0012] Preferably, a set of the storage tanks is fixedly connected to the top of the base and located on both sides of the mixing tank. The conveying assembly includes a pump fixedly connected to the storage tank. The input end of the pump extends into the interior of the storage tank through an inlet pipe. The output end of the pump is fixedly connected to a transmission pipe. A flow sensor is fixedly installed inside the transmission pipe.

[0013] Preferably, the sealing assembly includes a sealing cap that is snapped into the top of the mixing tank, the stirring paddle being rotatably connected to the sealing cap via a bearing, a set of connecting pipes being fixedly connected to the top of the sealing cap, a solenoid valve being fixedly installed on the set of connecting pipes, the transmission pipe being fixedly connected to the connecting pipes, and the solenoid valve being electrically connected to the infusion pump.

[0014] Compared with the prior art, the present invention has the following beneficial effects:

[0015] 1. This utility model removes impurities from egg liquid using a filter cylinder. When cleaning the filter cylinder is required, pulling the pull ring moves the filter cylinder out of the discharge pipe, at which point the spring is compressed. The filter cylinder can then be rinsed to thoroughly clean any egg liquid residue and impurities adhering to its surface, ensuring consistent and stable filtration. After rinsing, releasing the pull ring causes the spring to return to its original shape, automatically resetting the filter cylinder. The operation is simple and quick, requiring no complex disassembly tools or tedious manual resetting steps, greatly improving equipment maintenance efficiency, reducing downtime, and ensuring continuous production.

[0016] 2. This utility model uses two infusion pumps to inject raw materials from two storage tanks into a mixing tank via a transfer pipe. A flow sensor installed inside the transfer pipe monitors the flow rate of the raw materials in real time and converts the flow data into an electrical signal output. Based on these electrical signals, a solenoid valve is used to adjust the opening of the connecting pipe, thereby precisely controlling the liquid flow rate. This ensures that the two raw materials enter the mixing tank in a pre-set ratio for mixing. Compared with the traditional manual flow control method, this method of controlling the flow rate using a flow sensor and a solenoid valve is more accurate and efficient. It effectively avoids the problem of raw material ratio imbalance caused by human error, greatly improving the accuracy and consistency of egg liquid mixing and ensuring stable product quality. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0018] Figure 2 This is an exploded structural diagram of the present invention;

[0019] Figure 3 This is a schematic diagram of the dispensing mechanism of this utility model;

[0020] Figure 4 This is a schematic diagram of the material storage mechanism of this utility model.

[0021] In the diagram: 1. Mixing mechanism; 11. Mixing component; 111. Base; 112. Mixing tank; 113. Support platform; 114. Limiting rod; 12. Stirring component; 121. Electric telescopic rod one; 122. Support plate; 123. Mounting plate; 124. Motor; 125. Stirring paddle; 13. Filtering component; 131. Filter cylinder; 132. Pull ring; 133. Spring; 14. Opening and closing component; 141. Electric telescopic rod two; 142. Sealing plate; 2. Storage mechanism; 21. Storage tank; 22. Conveying component; 221. Infusion pump; 222. Transmission pipe; 3. Sealing component; 31. Sealing cover; 32. Connecting pipe; 33. Solenoid valve. Detailed Implementation

[0022] 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.

[0023] like Figures 1 to 4 As shown:

[0024] Example 1: This utility model provides an adjustable flow rate egg liquid preparation device, including: a preparation mechanism 1, including a preparation component 11, a stirring component 12 installed on the preparation component 11, a filter component 13 slidably embedded on the preparation component 11, and an opening and closing component 14 installed on the preparation component 11.

[0025] The storage mechanism 2 includes a set of storage tanks 21 and a corresponding conveying assembly 22 installed on the set of storage tanks 21;

[0026] The sealing component 3 is fitted into the top of the dispensing component 11, and the output end of the conveying component 22 is connected to the sealing component 3.

[0027] Specifically, the mixing component 11 includes a base 111, a mixing tank 112 is fixedly connected to the top of the base 111 via a support frame, a support platform 113 is fixedly connected to one side of the mixing tank 112, a discharge pipe is fixedly connected to the side of the mixing tank 112 near the bottom, and limit rods 114 are fixedly connected to the outside of the mixing tank 112 and on both sides of the discharge port.

[0028] Specifically, the stirring assembly 12 includes an electric telescopic rod 121 fixedly connected to the support platform 113. The output end of the electric telescopic rod 121 is fixedly connected to a support plate 122. The bottom of the support plate 122 is fixedly connected to a mounting plate 123. The bottom of the mounting plate 123 is fixedly connected to a motor 124. The output end of the motor 124 is fixedly connected to a stirring paddle 125. The stirring paddle 125 is rotatably connected to the sealing assembly 3 via a bearing.

[0029] Specifically, the filter assembly 13 includes a filter cylinder 131 slidably connected in the discharge pipe. One end of the filter cylinder 131 located inside the mixing tank 112 has a feed inlet. A pull ring 132 is fixedly connected to the outside of the other end of the filter cylinder 131. The pull ring 132 is slidably connected to the outside of a set of limiting rods 114. A spring 133 is also slidably connected to the outside of the set of limiting rods 114. The spring 133 can drive the pull ring 132 to extend the filter cylinder 131 into the interior of the discharge pipe.

[0030] Specifically, the opening and closing assembly 14 includes an electric telescopic rod 141 fixedly connected to the bottom of the mixing tank 112. The output end of the electric telescopic rod 141 extends into the interior of the mixing tank 112 and is fixedly connected to a sealing plate 142. The sealing plate 142 is tightly attached to the inner wall of the mixing tank 112. The electric telescopic rod 141 can drive the sealing plate 142 to rise and fall vertically.

[0031] As can be seen from the above, during use, different egg liquid ingredients are placed into two storage tanks 21 respectively. The electric telescopic rod 141 is controlled to move the sealing plate 142 upward, thereby sealing the discharge pipe on the mixing tank 112. This ensures that the egg liquid will not flow out of the discharge pipe during the injection and mixing process. The two conveying components 22 are controlled to inject the ingredients from the storage tanks 21 into the mixing tank 112. The motor 124 is started to drive the stirring paddle 125 to rotate, stirring the egg liquid in the mixing tank 112 to make it evenly mixed. The stirring paddle 125 is rotatably connected to the sealing component 3 through bearings. This structure is designed... The design ensures the stability and flexibility of the mixing process, while maintaining good sealing to prevent egg liquid from splashing out of the mixing tank during mixing. This ensures a clean and hygienic operating environment and improves the utilization rate of raw materials. After mixing, the electric telescopic rod 141 drives the sealing plate 142 downward to release the blockage on the discharge pipe. At this time, the prepared egg liquid enters from the feed port of the filter cylinder 131 and is filtered to remove impurities. The filtered egg liquid flows into an external container. When it is necessary to clean the filter cylinder 131, pull the pull ring 132 to move the filter cylinder 131 out of the discharge pipe. At this time, the spring 133 is in a compressed state. The filter cylinder 131 can then be rinsed to thoroughly clean the egg liquid residue and impurities adhering to the surface of the filter cylinder, ensuring the continuous and stable filtration effect. After rinsing, releasing the pull ring 132 causes the spring 133 to return to its original shape, pushing the pull ring 132 and automatically resetting the filter cartridge 131. This simple and quick operation eliminates the need for complex disassembly tools and tedious manual resetting steps, significantly improving equipment maintenance efficiency, reducing downtime, and ensuring continuous production. Controlling the electric telescopic rod 121 raises the support plate 122, causing the sealing cover 31 and the stirring paddle 125 to move upwards, facilitating cleaning of the mixing tank 112 and the stirring paddle 125. This design fully considers the overall cleanliness of the equipment, ensuring thorough cleaning of all parts, preventing egg residue from breeding bacteria or producing odors, maintaining the hygiene of the equipment, providing a clean environment for the next mixing operation, effectively preventing cross-contamination between different batches of egg liquid, and improving the safety and reliability of product quality.

[0032] Example 2: This example is basically the same as the previous example, except that a set of storage tanks 21 are fixedly connected to the top of the base 111 and located on both sides of the mixing tank 112. The conveying assembly 22 includes a pump 221 fixedly connected to the storage tank 21. The input end of the pump 221 extends into the interior of the storage tank 21 through the inlet pipe. The output end of the pump 221 is fixedly connected to a transmission pipe 222. A flow sensor is fixedly installed inside the transmission pipe 222.

[0033] Specifically, the sealing assembly 3 includes a sealing cover 31 that is embedded in the top of the mixing tank 112, a stirring paddle 125 that is rotatably connected to the sealing cover 31 via a bearing, a set of connecting pipes 32 that are fixedly connected to the top of the sealing cover 31, a solenoid valve 33 that is fixedly installed on the set of connecting pipes 32, a transmission pipe 222 that is fixedly connected to the connecting pipes 32, and the solenoid valve 33 and the infusion pump 221 that are electrically connected.

[0034] As can be seen from the above, starting the two infusion pumps 221 injects the raw materials from the two storage tanks 21 into the mixing tank 112 through the transmission pipe 222. The flow sensor installed inside the transmission pipe 222 can monitor the flow rate of the raw materials in real time and convert the flow data into an electrical signal output. Based on these electrical signals, the solenoid valve 33 is controlled to adjust the opening of the connecting pipe 32, thereby accurately controlling the liquid flow rate and ensuring that the two raw materials enter the mixing tank 112 for mixing in the preset ratio. Compared with the traditional manual flow control method, this method of controlling the flow rate by linking the flow sensor and the solenoid valve is more accurate and efficient. It can effectively avoid the problem of raw material ratio imbalance caused by human operation error, greatly improve the accuracy and consistency of egg liquid mixing, and ensure the stability of product quality.

[0035] The embodiments of this utility model are given for the purpose of illustration and description. Although the embodiments of this utility model have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the utility model. Any changes, modifications, substitutions and variations made by those skilled in the art to the above embodiments within the scope of this utility model should be included within the protection scope of this utility model.

Claims

1. An adjustable flow rate egg liquid mixing device, characterized in that, include: The mixing mechanism (1) includes a mixing component (11), a stirring component (12) installed on the mixing component (11), a filter component (13) slidably embedded on the mixing component (11), and an opening and closing component (14) installed on the mixing component (11). The storage mechanism (2) includes a set of storage tanks (21) and a conveying assembly (22) corresponding to the set of storage tanks (21); The sealing component (3) is fitted into the top of the dispensing component (11), and the output end of the conveying component (22) is connected to the sealing component (3).

2. The adjustable flow rate egg liquid preparation device as described in claim 1, characterized in that, The mixing assembly (11) includes a base (111), and a mixing tank (112) is fixedly connected to the top of the base (111) via a support frame. A support platform (113) is fixedly connected to one side of the mixing tank (112). A discharge pipe is fixedly connected to the side of the mixing tank (112) near the bottom. Limiting rods (114) are fixedly connected to the outside of the mixing tank (112) on both sides of the discharge port.

3. The adjustable flow rate egg liquid preparation device as described in claim 2, characterized in that, The stirring assembly (12) includes an electric telescopic rod (121) fixedly connected to a support platform (113). The output end of the electric telescopic rod (121) is fixedly connected to a support plate (122). The bottom of the support plate (122) is fixedly connected to a mounting plate (123). The bottom of the mounting plate (123) is fixedly connected to a motor (124). The output end of the motor (124) is fixedly connected to a stirring paddle (125). The stirring paddle (125) is rotatably connected to the sealing assembly (3) via a bearing.

4. The adjustable flow rate egg liquid preparation device as described in claim 2, characterized in that, The filter assembly (13) includes a filter cylinder (131) slidably connected in the discharge pipe. The filter cylinder (131) has a feed inlet at one end inside the mixing tank (112). A pull ring (132) is fixedly connected to the outside of the other end of the filter cylinder (131). The pull ring (132) is slidably connected to the outside of a set of limiting rods (114). A spring (133) is also slidably connected to the outside of the set of limiting rods (114). The spring (133) can drive the pull ring (132) to extend the filter cylinder (131) into the inside of the discharge pipe.

5. The adjustable flow rate egg liquid preparation device as described in claim 2, characterized in that, The opening and closing assembly (14) includes an electric telescopic rod two (141) fixedly connected to the bottom of the mixing tank (112). The output end of the electric telescopic rod two (141) extends into the interior of the mixing tank (112) and is fixedly connected to a sealing plate (142). The sealing plate (142) is tightly attached to the inner wall of the mixing tank (112). The electric telescopic rod two (141) can drive the sealing plate (142) to rise and fall vertically.

6. The adjustable flow rate egg liquid preparation device as described in claim 3, characterized in that, A set of storage tanks (21) are fixedly connected to the top of the base (111) and located on both sides of the mixing tank (112). The conveying assembly (22) includes a pump (221) fixedly connected to the storage tank (21). The input end of the pump (221) extends into the interior of the storage tank (21) through the inlet pipe. The output end of the pump (221) is fixedly connected to a transmission pipe (222). A flow sensor is fixedly installed inside the transmission pipe (222).

7. The adjustable flow rate egg liquid preparation device as described in claim 6, characterized in that, The sealing assembly (3) includes a sealing cap (31) that is snapped into the top of the mixing tank (112). The stirring paddle (125) is rotatably connected to the sealing cap (31) via a bearing. A set of connecting pipes (32) is fixedly connected to the top of the sealing cap (31). A solenoid valve (33) is fixedly installed on the set of connecting pipes (32). The transmission pipe (222) is fixedly connected to the connecting pipes (32). The solenoid valve (33) is electrically connected to the infusion pump (221).