A food emulsification tank with even heating

By setting up a stirring unit and a feeding unit in the food emulsification tank, the problems of uneven heating and inconsistent feeding are solved, achieving uniform heating and quantitative proportioning, and improving the mixing effect and cleanliness of the emulsification tank.

CN224345700UActive Publication Date: 2026-06-12JIANGSU BENYOU MASCH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGSU BENYOU MASCH CO LTD
Filing Date
2025-07-10
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

Existing food emulsification tanks do not heat evenly enough, resulting in large temperature differences in the mixture at different locations, and it is difficult to achieve quantitative proportions during feeding.

Method used

By setting up a mixing unit and a feeding unit, including a mixing component, a heat-conducting plate, a heating plate, a feeding column, and a limiting component, uniform heating and quantitative proportioning of materials can be achieved.

Benefits of technology

This improved the uniformity of heating and the quantitative proportion of feed, thereby enhancing the mixing effect and cleanliness of the emulsification tank.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of food emulsification tanks of uniform heating, it is related to food emulsification tank technical field, including tank body, still including the stirring unit of being set to the inside of tank body, and the feeding unit of being set to the top end of tank body;Stirring unit includes the top plate of being set to the top end of tank body, the stirring assembly of being set to the bottom end of top plate, and the auxiliary assembly of being set to the side of stirring assembly;Feeding unit includes the feeding column of being set to the top end of top plate one side, the feeding assembly of being set to the inside of feeding column, and the limiting component of being set to the inside of top plate.The utility model is a kind of food emulsification tanks of uniform heating, due to the angle difference between multiple heat conduction plates is 120 degrees, better make material mixing fully, the material of different position is heated simultaneously, further optimizes the uniformity of heating under the auxiliary action of electric heating layer, mixture can also be prevented wall sticking, and realize quantitative proportioning work by scale line.
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Description

Technical Field

[0001] This utility model relates to the field of food emulsification tank technology, and in particular to a food emulsification tank with uniform heating. Background Technology

[0002] The function of an emulsifying tank is to dissolve one or more materials (water-soluble solid phase, liquid phase, or gel, etc.) in another liquid phase and hydrate them to form a relatively stable emulsion. It is widely used for the emulsification and mixing of raw and auxiliary materials such as edible oils, powders, and sugars. Emulsifying tanks are also used for the emulsification and dispersion of certain coatings and paints. They are especially suitable for certain difficult-to-dissolve colloidal additives such as CMC and xanthan gum.

[0003] A search revealed a publicly available (announcement) number: CN212017429U, which discloses a food emulsifying tank with uniform heating, relating to the field of emulsifying tank technology. This uniformly heated food emulsifying tank includes a tank body, with a top cover covering the top of the tank body. A control box is fixed to one side of the top of the tank body via a support frame. A motor is installed at the center of the top of the top cover, and a feeding port is provided on one side of the top of the top cover. A heating layer is formed on the inner wall of the tank body, and electrically heated blocks are installed inside the heating layer at equal intervals. A stirring shaft connected to the motor is installed inside the tank body. This invention, through the setting of a waste discharge pipe, a filter box, and an activated carbon filter, allows the activated carbon filter to adsorb and filter the waste liquid after the emulsifying tank is cleaned, achieving wastewater treatment and facilitating wastewater recycling. This effectively improves resource utilization and significantly reduces the cleaning cost of the emulsifying tank.

[0004] While the above solution effectively improves resource utilization and significantly reduces the cleaning cost of emulsification tanks, it is not uniform enough during heating, resulting in large temperature differences in different parts of the mixture, and it is difficult to achieve quantitative proportioning during feeding. Utility Model Content

[0005] The main purpose of this utility model is to provide a food emulsifying tank with uniform heating. The stirring unit solves the problem of uneven heating and large temperature difference in different parts of the mixture. The feeding unit solves the problem of difficulty in achieving quantitative proportioning during feeding.

[0006] To achieve the above objectives, this utility model provides the following technical solution:

[0007] A food emulsifying tank for uniform heating includes a tank body, a stirring unit disposed inside the tank body, and a feeding unit disposed at the top of the tank body.

[0008] The stirring unit includes a top plate disposed at the top of the tank, a stirring assembly disposed at the bottom of the top plate, and an auxiliary assembly disposed on the side of the stirring assembly;

[0009] The feeding unit includes a feeding column disposed on one side of the top of the top plate, a feeding component disposed inside the feeding column, and a limiting component disposed inside the top plate.

[0010] Preferably, the stirring assembly in the stirring unit includes a rotating motor disposed at the center of the top of the top plate, a rotating shaft fixedly connected to the bottom of the rotating motor, two arc-shaped plates fixedly connected to the bottom of the rotating shaft, an elastic layer fixedly connected to the outside of the arc-shaped plates, a friction layer fixedly connected to the outside of the elastic layer, and a through hole opened between the two elastic layers and the rotating shaft.

[0011] Preferably, the auxiliary components in the stirring unit include multiple heat-conducting plates fixedly connected to the outside of the rotating shaft, a rectangular groove opened inside the heat-conducting plates, a heating plate fixedly connected to the inside of the heat-conducting plates, a groove opened on one side of the heat-conducting plates, an elastic column disposed inside the groove, a spring disposed on the surface of the elastic column, a scraper fixedly connected to one side of the elastic column, and a plug-in frame fixedly connected to one side of the scraper and extending into the inside of the heat-conducting plates.

[0012] The angle difference between the multiple heat-conducting plates is 120 degrees.

[0013] Preferably, the stirring unit further includes an electric heating layer inside the tank shell and multiple support columns fixedly connected to the bottom of the tank.

[0014] Preferably, the feeding component in the feeding unit includes a cover plate disposed at the top of the feeding column, an extension column fixedly connected to the bottom of the cover plate and extending into the interior of the feeding column housing, scale lines disposed on the front and rear sides of the feeding column, a partition plate fixedly connected to the interior of the feeding column, and a trapezoidal block fixedly connected to the bottom of the partition plate.

[0015] Preferably, the limiting component in the feeding unit includes a convex groove opened inside one side of the top plate, a connecting hole connecting the upper and lower sides of the convex groove, a limiting plate disposed inside the convex groove, a pull-out column fixedly connected to one side of the limiting plate, an extension block fixedly connected to the other side of the limiting plate, and a trapezoidal groove opened at the top of the limiting plate.

[0016] Preferably, the limiting plate and the extension block in the feeding unit are both located inside the convex groove, and the trapezoidal block is engaged with the trapezoidal groove.

[0017] Compared with the prior art, the present invention has the following beneficial effects:

[0018] I. In this utility model, through the setting of the stirring unit, the material is fed into the tank after being proportioned by the feeding column. At the same time, the rotating motor is started to drive the rotating shaft, multiple heat-conducting plates and two arc plates to rotate together. Since the multiple heat-conducting plates are equipped with heating plates inside, and the angle difference between the multiple heat-conducting plates is 120 degrees, the material is better mixed thoroughly. At the same time, the material at different positions is heated. With the assistance of the electric heating layer, the uniformity of heating is further optimized. Meanwhile, under the action of the elastic column and spring, the scraper is driven to contact the inner wall of the tank, and the friction layer also contacts the inner wall of the tank. This can effectively clean the inner wall of the tank and prevent the mixture from sticking to the wall.

[0019] II. In this utility model, by setting up a feeding unit, the cover is opened and two different raw materials are placed on both sides of the partition plate. The quantitative proportioning is achieved through the scale lines. After the proportioning is completed, the pull column is pulled to make the limiting plate and the extension block disengage from the convex groove. At the same time, the trapezoidal block disengages from the trapezoidal groove, and the two raw materials inside the tank enter the tank through the connecting hole, which improves the applicability of the emulsification tank. Attached Figure Description

[0020] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0021] Figure 2 This is a cross-sectional view of the internal structure of the tank in this utility model;

[0022] Figure 3 This is a cross-sectional view of the tank shell in this utility model;

[0023] Figure 4 This is a cross-sectional view of the feed column in this utility model;

[0024] Figure 5 This utility model Figure 2 Enlarged schematic diagram of the structure at point A in the middle.

[0025] In the picture:

[0026] 1. Tank body;

[0027] 2. Stirring unit; 201. Top plate; 202. Rotary motor; 203. Heat-conducting plate; 204. Rectangular groove; 205. Heating plate; 206. Plug-in frame; 207. Scraper; 208. Elastic column; 209. Spring; 210. Groove; 211. Arc plate; 212. Elastic layer; 213. Friction layer; 214. Through hole; 215. Electric heating layer;

[0028] 3. Feeding unit; 301. Feeding column; 302. Scale line; 303. Cover plate; 304. Pull-out column; 305. Extension column; 306. Divider plate; 307. Trapezoidal block; 308. Connecting hole; 309. Trapezoidal groove; 310. Limiting plate; 311. Extension block. Detailed Implementation

[0029] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.

[0030] Example 1

[0031] like Figure 1 , Figure 2 , Figure 3 , Figure 4 as well as Figure 5 As shown, a food emulsifying tank with uniform heating includes a tank body 1, a stirring unit 2 disposed inside the tank body 1, and a feeding unit 3 disposed at the top of the tank body 1.

[0032] The stirring unit 2 includes a top plate 201 disposed at the top of the tank 1, a stirring assembly disposed at the bottom of the top plate 201, and an auxiliary assembly disposed on the side of the stirring assembly;

[0033] The feeding unit 3 includes a feeding column 301 disposed on one side of the top of the top plate 201, a feeding component disposed inside the feeding column 301, and a limiting component disposed inside the top plate 201.

[0034] The stirring assembly in the stirring unit 2 includes a rotating motor 202 located at the top center of the top plate 201, a rotating shaft fixedly connected to the bottom of the rotating motor 202, two arc-shaped plates 211 fixedly connected to the bottom of the rotating shaft, an elastic layer 212 fixedly connected to the outside of the arc-shaped plates 211, a friction layer 213 fixedly connected to the outside of the elastic layer 212, and a through hole 214 opened between the two elastic layers 212 and the rotating shaft.

[0035] The auxiliary components in the stirring unit 2 include multiple heat-conducting plates 203 fixedly connected to the outside of the rotating shaft, a rectangular groove 204 opened inside the heat-conducting plate 203, a heating plate 205 fixedly connected to the inside of the heat-conducting plate 203, a groove 210 opened on one side of the heat-conducting plate 203, an elastic column 208 disposed inside the groove 210, a spring 209 disposed on the surface of the elastic column 208, a scraper 207 fixedly connected to one side of the elastic column 208, and a plug-in frame 206 fixedly connected to one side of the scraper 207 and extending into the inside of the heat-conducting plate 203.

[0036] The angle difference between the multiple heat-conducting plates 203 is 120 degrees.

[0037] The stirring unit 2 also includes an electric heating layer 215 opened inside the shell of the tank 1, and a plurality of support columns fixedly connected to the bottom of the tank 1.

[0038] The feeding components in the feeding unit 3 include a cover plate 303 disposed at the top of the feeding column 301, an extension column 305 fixedly connected to the bottom of the cover plate 303 and extending into the housing of the feeding column 301, scale lines 302 disposed on the front and rear sides of the feeding column 301, a partition plate 306 fixedly connected to the inside of the feeding column 301, and a trapezoidal block 307 fixedly connected to the bottom of the partition plate 306.

[0039] The limiting components in the feeding unit 3 include a convex groove inside one side of the top plate 201, a connecting hole 308 connecting the upper and lower sides of the convex groove, a limiting plate 310 inside the convex groove, a pull-out column 304 fixedly connected to one side of the limiting plate 310, an extension block 311 fixedly connected to the other side of the limiting plate 310, and a trapezoidal groove 309 opened at the top of the limiting plate 310.

[0040] In the feeding unit 3, the limiting plate 310 and the extension block 311 are both inside the convex groove, and the trapezoidal block 307 is engaged with the trapezoidal groove 309.

[0041] The material is fed into the tank 1 after being proportioned by the feed column 301. At the same time, the rotating motor 202 is started to drive the rotating shaft, multiple heat-conducting plates 203 and two arc-shaped plates 211 to rotate together. Since the multiple heat-conducting plates 203 are equipped with heating plates 205 inside, and the angle difference between the multiple heat-conducting plates 203 is 120 degrees, the material is better mixed thoroughly. At the same time, the material at different positions is heated. With the assistance of the electric heating layer 215, the uniformity of heating is further optimized. Meanwhile, under the action of the elastic column 208 and the spring 209, the scraper 207 is driven to contact the inner wall of the tank 1, and the friction layer 213 also contacts the inner wall of the tank 1. This can effectively clean the inner wall of the tank 1 and prevent the mixture from sticking to the wall.

[0042] Example 2

[0043] like Figure 1 , Figure 2 , Figure 3 , Figure 4 as well as Figure 5 As shown, a food emulsifying tank with uniform heating includes a tank body 1, a stirring unit 2 disposed inside the tank body 1, and a feeding unit 3 disposed at the top of the tank body 1.

[0044] The stirring unit 2 includes a top plate 201 disposed at the top of the tank 1, a stirring assembly disposed at the bottom of the top plate 201, and an auxiliary assembly disposed on the side of the stirring assembly;

[0045] The feeding unit 3 includes a feeding column 301 disposed on one side of the top of the top plate 201, a feeding component disposed inside the feeding column 301, and a limiting component disposed inside the top plate 201.

[0046] The stirring assembly in the stirring unit 2 includes a rotating motor 202 located at the top center of the top plate 201, a rotating shaft fixedly connected to the bottom of the rotating motor 202, two arc-shaped plates 211 fixedly connected to the bottom of the rotating shaft, an elastic layer 212 fixedly connected to the outside of the arc-shaped plates 211, a friction layer 213 fixedly connected to the outside of the elastic layer 212, and a through hole 214 opened between the two elastic layers 212 and the rotating shaft.

[0047] The auxiliary components in the stirring unit 2 include multiple heat-conducting plates 203 fixedly connected to the outside of the rotating shaft, a rectangular groove 204 opened inside the heat-conducting plate 203, a heating plate 205 fixedly connected to the inside of the heat-conducting plate 203, a groove 210 opened on one side of the heat-conducting plate 203, an elastic column 208 disposed inside the groove 210, a spring 209 disposed on the surface of the elastic column 208, a scraper 207 fixedly connected to one side of the elastic column 208, and a plug-in frame 206 fixedly connected to one side of the scraper 207 and extending into the inside of the heat-conducting plate 203.

[0048] The angle difference between the multiple heat-conducting plates 203 is 120 degrees.

[0049] The stirring unit 2 also includes an electric heating layer 215 opened inside the shell of the tank 1, and a plurality of support columns fixedly connected to the bottom of the tank 1.

[0050] The feeding components in the feeding unit 3 include a cover plate 303 disposed at the top of the feeding column 301, an extension column 305 fixedly connected to the bottom of the cover plate 303 and extending into the housing of the feeding column 301, scale lines 302 disposed on the front and rear sides of the feeding column 301, a partition plate 306 fixedly connected to the inside of the feeding column 301, and a trapezoidal block 307 fixedly connected to the bottom of the partition plate 306.

[0051] The limiting components in the feeding unit 3 include a convex groove inside one side of the top plate 201, a connecting hole 308 connecting the upper and lower sides of the convex groove, a limiting plate 310 inside the convex groove, a pull-out column 304 fixedly connected to one side of the limiting plate 310, an extension block 311 fixedly connected to the other side of the limiting plate 310, and a trapezoidal groove 309 opened at the top of the limiting plate 310.

[0052] In the feeding unit 3, the limiting plate 310 and the extension block 311 are both inside the convex groove, and the trapezoidal block 307 is engaged with the trapezoidal groove 309.

[0053] Open the cover plate 303 and place the two different raw materials on both sides of the partition plate 306. The quantitative proportioning is achieved through the scale line 302. After the proportioning is completed, pull the pull column 304 to make the limiting plate 310 and the extension block 311 disengage from the convex groove. At the same time, the trapezoidal block 307 disengages from the trapezoidal groove 309. The two raw materials inside the tank 1 enter the tank 1 through the connecting hole 308, which improves the applicability of the emulsification tank.

[0054] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A food emulsifying tank for uniform heating, comprising a tank body (1), characterized in that, It also includes a stirring unit (2) installed inside the tank (1) and a feeding unit (3) installed at the top of the tank (1); The stirring unit (2) includes a top plate (201) disposed at the top of the tank (1), a stirring assembly disposed at the bottom of the top plate (201), and an auxiliary assembly disposed on the side of the stirring assembly; The feeding unit (3) includes a feeding column (301) disposed on one side of the top of the top plate (201), a feeding component disposed inside the feeding column (301), and a limiting component disposed inside the top plate (201).

2. The food emulsifying tank with uniform heating according to claim 1, characterized in that: The stirring assembly in the stirring unit (2) includes a rotating motor (202) located at the top center of the top plate (201), a rotating shaft fixedly connected to the bottom of the rotating motor (202), two arc-shaped plates (211) fixedly connected to the bottom of the rotating shaft, an elastic layer (212) fixedly connected to the outside of the arc-shaped plates (211), a friction layer (213) fixedly connected to the outside of the elastic layer (212), and a through hole (214) opened between the two elastic layers (212) and the rotating shaft.

3. The food emulsifying tank with uniform heating according to claim 2, characterized in that: The auxiliary components in the stirring unit (2) include multiple heat-conducting plates (203) fixedly connected to the outside of the rotating shaft, a rectangular groove (204) opened inside the heat-conducting plate (203), a heating plate (205) fixedly connected to the inside of the heat-conducting plate (203), a groove (210) opened on one side of the heat-conducting plate (203), an elastic column (208) set inside the groove (210), a spring (209) set on the surface of the elastic column (208), a scraper (207) fixedly connected to one side of the elastic column (208), and a plug-in frame (206) fixedly connected to one side of the scraper (207) and extending into the inside of the heat-conducting plate (203). The angle difference between the plurality of heat-conducting plates (203) is 120 degrees.

4. A food emulsifying tank for uniform heating according to claim 3, characterized in that: The stirring unit (2) also includes an electric heating layer (215) opened inside the shell of the tank (1) and a plurality of support columns fixedly connected to the bottom of the tank (1).

5. A food emulsifying tank with uniform heating according to claim 4, characterized in that: The feeding unit (3) includes a cover plate (303) disposed at the top of the feeding column (301), an extension column (305) fixedly connected to the bottom of the cover plate (303) and extending into the housing of the feeding column (301), scale lines (302) disposed on the front and rear sides of the feeding column (301), a partition plate (306) fixedly connected to the inside of the feeding column (301), and a trapezoidal block (307) fixedly connected to the bottom of the partition plate (306).

6. A food emulsifying tank with uniform heating according to claim 5, characterized in that: The limiting component in the feeding unit (3) includes a convex groove opened inside one side of the top plate (201), a connecting hole (308) connecting the upper and lower sides of the convex groove, a limiting plate (310) set inside the convex groove, a pull-out column (304) fixedly connected to one side of the limiting plate (310), an extension block (311) fixedly connected to the other side of the limiting plate (310), and a trapezoidal groove (309) opened at the top of the limiting plate (310).

7. A food emulsifying tank with uniform heating according to claim 6, characterized in that: In the feeding unit (3), the limiting plate (310) and the extension block (311) are both located inside the convex groove, and the trapezoidal block (307) is engaged with the trapezoidal groove (309).