A foam removal mechanism for a braising machine
By designing an inner pot and an inclined sliding screen plate in the braising machine to create a foam removal mechanism, the problem of low foam removal efficiency in existing technologies has been solved, achieving highly efficient and automated foam removal and improving the taste and quality of the ingredients.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HENAN PANGDUDU FOOD CO LTD
- Filing Date
- 2025-07-09
- Publication Date
- 2026-07-03
AI Technical Summary
The current method of cleaning scum during braising is inefficient, which affects the taste and quality of the ingredients and may produce an unpleasant odor. Manual cleaning is also inefficient.
Design a scum removal mechanism for a braising machine, including an inner pot and an outer pot. The inner pot moves via a lifting mechanism and is equipped with an inclined sliding sieve plate. When the inner pot is raised by the lifting mechanism, the sieve plate removes the scum.
It improves the efficiency of foam removal, reduces manpower input, ensures the quality and taste of ingredients, and avoids the generation of odors.
Smart Images

Figure CN224442250U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of food processing technology, and in particular to a foam removal mechanism for a braising machine. Background Technology
[0002] During the braising process, foam easily forms on the surface of the liquid. If this foam is not removed promptly and effectively, it will not only affect the taste and quality of the braised food but may also produce an unpleasant odor. Currently, the most common method for cleaning this foam is manual removal, which is inefficient. Utility Model Content
[0003] The purpose of this invention is to provide a foam removal mechanism for a braising machine to solve the problem of low efficiency in the existing technology.
[0004] To solve the above problems, the foam removal mechanism of the braising machine involved in this utility model adopts the following technical solution:
[0005] The present invention provides a foam removal mechanism for a braising machine, comprising an inner pot with a screen structure and an outer pot sleeved on the outside of the inner pot. The outer pot is provided with a lifting mechanism that cooperates with the inner pot. The lifting mechanism works to drive the inner pot to move closer to or away from the outer pot. It also includes a screen plate that slides and is limited to the inner pot at an inclination. The screen plate can move with the inner pot and can slide along its inclination to detach.
[0006] Preferably, the inner pot has symmetrically arranged inclined slides on its two opposite outer side walls. The sieve plate includes a sieve plate body, slide bars arranged on opposite sides of the sieve plate body and matching the slide bars, and connecting arms connecting the slide bars and the sieve plate body. The sieve plate body can be inserted into the inner pot. The two slide bars are located on the outer side of the two side walls of the inner pot and are respectively matched and installed in the adjacent slide bars, so that the slide bars slide along the slide bars and drive the sieve plate body to move inclinedly in the inner pot.
[0007] Preferably, the slide is parallel to the sieve plate body.
[0008] Preferably, the upper extension of the slide is located above its sidewalls at a point where its sidewalls are coplanar, and the lower extension of the slide is located on its sidewalls at a point where its sidewalls are coplanar.
[0009] The beneficial effects of this utility model are as follows:
[0010] This utility model provides a foam removal mechanism for a braising machine, including an inner pot with a screen structure and an outer pot sleeved on the outside of the inner pot. The outer pot is equipped with a lifting mechanism that works in conjunction with the inner pot. The lifting mechanism operates to move the inner pot closer to or away from the outer pot. The difference from the prior art is that it also includes a sieve plate that slides and is limited in its movement with the inner pot. The sieve plate can move with the inner pot and can slide and detach along its tilt. By setting a sieve plate that slides and is limited in its movement with the inner pot, the lifting mechanism raises the inner pot during the braising process, causing the sieve plate to rise with the inner pot, sifting the foam above the sieve plate onto the sieve plate. Then, the operator pulls out the sieve plate to complete the foam removal. Compared with manual cleaning, this greatly improves cleaning efficiency and reduces labor input. Attached Figure Description
[0011] To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying drawings used in the embodiments will be briefly described below:
[0012] Figure 1 A cross-sectional view of a scum removal mechanism in a braising machine;
[0013] Figure 2 This is a schematic diagram of the sieve plate structure;
[0014] Figure 3 This is an isometric view of a foam removal mechanism in a braising machine.
[0015] In the diagram: 1. Inner pot; 2. Lifting mechanism; 3. Outer pot; 4. Sieve plate; 41. Sieve plate body; 42. Sliding bar; 43. Connecting arm; 5. Extension plate; 6. Slide rail. Detailed Implementation
[0016] To make the technical objectives, technical solutions, and beneficial effects of this utility model clearer, the technical solution of this utility model will be further described below in conjunction with the accompanying drawings and specific embodiments.
[0017] This utility model provides a foam removal mechanism for a braising machine, such as... Figure 1-3 As shown, the structure includes an inner pot 1 with a screen structure and an outer pot 3 sleeved on the outside of the inner pot 1. The outer pot 3 is equipped with a lifting mechanism 2 that cooperates with the inner pot 1. The lifting mechanism 2 works to drive the inner pot 1 to move closer to or further away from the outer pot 3. The above structure is prior art. For ease of understanding, it is specifically described as follows: both the inner pot 1 and the outer pot 3 are set as rectangular frame structures. The lifting mechanism 2 is set as two sets of cylinder assemblies set on opposite sides of the outer pot 3. The cylinder assembly includes a cylinder and a cylinder bracket fixedly installed on the outside of the outer pot 3. The cylinder is fixed on the cylinder bracket. The piston rod of the cylinder is fixedly connected to the top of the inner pot 1. When the cylinder works, the piston rod extends and retracts, driving the inner pot 1 to move up and down.
[0018] The improvement of this device is that it also includes a sieve plate, which slides and is limited to the inner pot 1 at an angle. The sieve plate can move with the inner pot 1 and can slide and detach along its angle. The top edge of the inner pot 1 extends horizontally towards the outer pot 3 to cover the top edge of the outer pot 3 and then extends downward to form an extension plate 5. The inner pot 1 is symmetrically provided with inclined slides 6 on opposite sides. The slides 6 are specifically installed on the outside of the extension plate (the outside of the extension plate is defined as the side away from the outer pot 3).
[0019] The sieve plate includes a sieve plate body 41, slide bars 42 disposed on opposite sides of the sieve plate body 41 and matched with slide rails 6, and connecting arms 43 connecting the slide bars 42 and the sieve plate body 41. The sieve plate body 41 includes a rectangular frame and a mesh structure disposed within the rectangular frame. The sieve plate body 41 can be inserted into the inner pot 1. The two slide bars 42 are respectively located on the outside of the inner pot 1 and are respectively matched and slidably installed in the adjacent slide rails 6, so that the slide bars 42 slide along the slide rails 6 and drive the sieve plate body 41 to tilt and move within the inner pot 1. The sieve plate body 41 can enter from the opposite side of the inner pot 1 and move with the slide bars 42 after the slide bars 42 are inserted into the slide rails 6, abutting against the opposite side of the inner pot 1. That is, the projection of the sieve plate body 41 covers the inner cavity of the inner pot 1.
[0020] Furthermore, the slide 6 is parallel to the sieve plate body 41.
[0021] Furthermore, the high-end extension of the slide 6, located on the side wall, is above the side wall, and the low-end extension of the slide 6, located on the side wall, is on the side wall.
[0022] In existing double-layer pots, after braising is completed, the lifting mechanism 2 lifts and lowers, causing the inner pot 1 to separate from the outer pot 3, thus removing the braising liquid from the inner pot 1. The method of using this device is as follows: based on the structure of this device, the sieve plate is vertically inserted into the liquid from the high end of the slide rail 6 corresponding to the end of the inner pot 1, and rotated until the slide bar 42 is collinear with the slide rail 6. Then, at this angle, the slide bar 42 is pushed into the slide rail 6, so that the slide bar 42 slides along the slide rail 6 and drives the sieve plate body 41 to abut against the bottom end of the slide rail 6 corresponding to the side of the inner pot 1, thereby completely covering the upper layer of the inner pot 1 within the area of the sieve plate body 41.
[0023] Finally, it should be noted that the above embodiments are only for illustration and not for limiting the technical solutions of this utility model. Any equivalent substitutions and modifications or partial substitutions that do not depart from the spirit and scope of this utility model should be covered within the scope of protection of the claims of this utility model.
Claims
1. A scum removal mechanism for a braising machine, comprising an inner pot with a screen structure, an outer pot sleeved on the outside of the inner pot, and a lifting mechanism on the outer pot that cooperates with the inner pot, the lifting mechanism operating to move the inner pot toward or away from the outer pot, characterized in that, It also includes a sieve plate that slides and is limited by the inner pot, and the sieve plate can move with the inner pot and can slide and detach along its tilt.
2. A scum skimming mechanism for a brine boiler as defined in claim 1, characterized in that The inner pot has symmetrically arranged inclined slides on opposite sides. The sieve plate includes a sieve plate body, slide bars arranged on opposite sides of the sieve plate body and matched with the slide bars, and connecting arms connecting the slide bars and the sieve plate body. The sieve plate body can be inserted into the inner pot. The two slide bars are located on the outer side of the two side walls of the inner pot and are matched and installed in the adjacent slide bars, so that the slide bars slide along the slide bars and drive the sieve plate body to move inclinedly in the inner pot.
3. A scum skimming mechanism for a brine boiler as defined in claim 2, wherein The slide is parallel to the screen plate body.
4. A scum skimming mechanism for a brine boiler as defined in claim 2, wherein The upper extension of the slide, located on the same plane as its sidewalls, is above its sidewalls, while the lower extension of the slide, located on the same plane as its sidewalls, is on its sidewalls.