A device for decolorizing capsicum oleoresin

By employing an alternating lifting decolorization chamber design and hot air stirring technology in the chili oil resin decolorization device, the problem of slow decolorization efficiency has been solved, achieving highly efficient chili oil resin decolorization, which is suitable for the food, pharmaceutical and cosmetic industries.

CN224337522UActive Publication Date: 2026-06-09QINGDAO SCITECH BIOTECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
QINGDAO SCITECH BIOTECH CO LTD
Filing Date
2025-07-11
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing chili oil resin decolorization devices are slow in decolorization efficiency and cannot create a suitable temperature environment, resulting in poor decolorization effect.

Method used

The design employs alternating lifting of the first and second decolorizing chambers, combined with a hot air generation structure and a connecting structure. The material is efficiently circulated between the two chambers by traction steel cables and solenoid valves, and dynamic decolorization is achieved by using hot air agitation.

Benefits of technology

This technology enables efficient and continuous decolorization of chili oleoresin, improving decolorization efficiency and effectiveness, and meeting the needs of the food, pharmaceutical, and cosmetic industries.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model provides a chili oil resin decolorization device, including a first guide column, a second guide column, a first decolorization chamber, a second decolorization chamber, a cover, a feed inlet cover, and a connecting structure. The first and second guide columns are fixedly installed at both ends between the ground and the top of a building, and the first and second decolorization chambers are slidably installed on the first and second guide columns, respectively. A cover is fixedly installed above both the first and second decolorization chambers. The feed inlet cover is rotatably installed on the cover. The two ends of the connecting structure are fixedly installed at the bottom of the first and second decolorization chambers, respectively. The design of the first decolorization chamber and the connecting structure in this utility model results in high decolorization efficiency and creates a suitable temperature environment for the chili oil resin.
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Description

Technical Field

[0001] This utility model relates to the field of capsicum extract technology, and in particular to a capsicum oil resin decolorization device. Background Technology

[0002] Capsicum oleoresin is a dark red to brownish-red viscous oily substance extracted from chili peppers. It contains the main flavor, pigments, and bioactive components of chili peppers and is a concentrated extract. Decolorization of capsicum oleoresin is a common process requirement, especially in the food, pharmaceutical, and cosmetic industries, where it is necessary to reduce its dark pigments to improve appearance or meet specific product requirements. However, existing capsicum oleoresin decolorization equipment still suffers from slow decolorization efficiency and the inability to create a suitable temperature environment for capsicum oleoresin.

[0003] Therefore, it is essential to invent a device for decolorizing chili oil resin. Utility Model Content

[0004] To address the aforementioned technical problems, this utility model provides a chili oil resin decolorizing device, which solves the issues of slow decolorization efficiency and the inability to create a suitable temperature environment for chili oil resin in existing decolorizing devices. The chili oil resin decolorizing device includes a first guide column, a second guide column, a first decolorizing chamber, a second decolorizing chamber, a cover, a feed inlet cover, and a connecting structure. The first and second guide columns are fixedly installed at both ends between the ground and the top of a building, and the first and second decolorizing chambers are slidably mounted on the first and second guide columns, respectively. A cover is fixedly installed above both the first and second decolorizing chambers. The feed inlet cover is rotatably mounted on the cover. The two ends of the connecting structure are fixedly installed at the bottom of the first and second decolorizing chambers, respectively.

[0005] A hot gas generating structure is fixedly installed in the middle of the upper part of the sealing table, and air inlets are fixedly installed at both the upper and lower ends of the hot gas generating structure. One end of the air inlet is connected to an air pump; the other end of the air inlet extends to the bottom of the first decolorizing chamber; the air inlet can input air into the interior of the first and second decolorizing chambers, and agitate the materials inside the first and second decolorizing chambers by air; the air input through the air inlet can be heated by the hot gas generating structure.

[0006] The first decolorizing chamber includes a decolorizing space, a guide bottom, a sliding block, an extension block, and a traction steel cable. The guide bottom is fixedly installed below the decolorizing space, and its bottom is connected and fixed to a connecting structure. The sliding block is fixedly installed on both sides of the outer wall of the decolorizing space and is slidably installed on the first guide post. The extension block is fixedly installed on the outside of the sliding block. The traction steel cable is fixedly installed above the extension block, and its upper end is wound around a traction motor on the top of the building.

[0007] The connecting structure includes a dispersion tube, a connecting tube, a solenoid valve, and a mixing connecting tube. The dispersion tube is fixedly installed at the bottom of the first decolorizing chamber and the second decolorizing chamber, respectively. The connecting tube is fixedly installed at one end of the dispersion tube. The solenoid valve is fixedly installed inside the connecting tube. The two ends of the mixing connecting tube are fixedly installed between two sets of connecting tubes at the bottom of the first decolorizing chamber and the second decolorizing chamber.

[0008] The internal structure of the first decolorizing chamber is completely identical to that of the second decolorizing chamber, and the decolorizing space and the guide bottom form a stainless steel metal space. The first decolorizing chamber as a whole can reciprocate vertically on the first guide column by being pulled by a traction steel cable. The first and second decolorizing chambers move in opposite directions, and one of the first and second decolorizing chambers is always above the other, with its bottom height exceeding the top of the other. The first decolorizing chamber contains chili oil resin that needs to be decolorized and activated carbon adsorbent for the decolorization process.

[0009] The overall connecting structure is a dual-channel connecting pipe that connects the first decolorizing chamber and the second decolorizing chamber. When the first decolorizing chamber is on top, the material inside the first decolorizing chamber is divided into two streams by the dispersion pipe and input into the second decolorizing chamber through the mixing connecting pipe. Just before entering the second decolorizing chamber, the two streams of material are combined into one through the dispersion pipe, and vice versa. The mixing connecting pipe consists of two parallel flexible pipes, and its posture is adjusted when the height of the first and second decolorizing chambers changes.

[0010] Compared with the prior art, the present invention has the following beneficial effects:

[0011] 1. The first decolorizing chamber of this utility model is configured such that its decolorizing space and the guide bottom form a sealed decolorizing cavity. A sliding block moves up and down along the first guide column, and the traction of a traction steel cable enables alternating movement with the second decolorizing chamber. A hot air generation structure on the cover injects hot air into the decolorizing space through an air inlet, promoting material decolorization. The dispersing pipe, connecting pipe, and mixing connecting pipe of the connecting structure ensure efficient material circulation between the two chambers, while a solenoid valve precisely controls the flow direction. An extension block enhances structural stability, enabling the first and second decolorizing chambers to form a dynamically balanced, highly efficient decolorizing system.

[0012] 2. The interconnecting structure of this utility model connects the material guide bottoms of the first and second decolorizing chambers via a dispersing pipe, and achieves material exchange between the two chambers in conjunction with a mixing connecting pipe controlled by a solenoid valve. Its flexible pipe design adapts to dynamic lifting, the conical structure of the dispersing pipe optimizes fluid transmission, and the connecting pipe ensures sealing, enabling the material to circulate efficiently at the operating temperature of the hot gas generation structure, completing the continuous decolorization process. Attached Figure Description

[0013] Figure 1 This is a schematic diagram of the structure of this utility model.

[0014] Figure 2 This is an enlarged view of point A of this utility model.

[0015] Figure 3 This is an enlarged view of section B of this utility model.

[0016] In the picture:

[0017] First guide post 1, second guide post 2, first decolorizing chamber 3, second decolorizing chamber 4, cover 5, feed inlet cover 6, hot gas generating structure 7, air inlet 8, connecting structure 9, decolorizing space 31, guide bottom 32, sliding block 33, extension block 34, traction steel cable 35, dispersing pipe 91, connecting pipe 92, solenoid valve 93 and mixing connecting pipe 94. Detailed Implementation

[0018] To enable those skilled in the art to better understand the present invention, the technical solutions in the embodiments of the present invention will be clearly and completely described below. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort should fall within the protection scope of the present invention.

[0019] As attached Figure 1 To be continued Figure 3 As shown.

[0020] This utility model provides a chili oil resin decolorizing device, comprising a first guide column 1, a second guide column 2, a first decolorizing chamber 3, a second decolorizing chamber 4, a cover 5, a feed inlet cover 6, and a connecting structure 9, wherein: the two ends of the first guide column 1 and the second guide column 2 are fixedly installed between the ground and the top of the building, and the first decolorizing chamber 3 and the second decolorizing chamber 4 are slidably installed on the first guide column 1 and the second guide column 2 respectively; a cover 5 is fixedly installed above the first decolorizing chamber 3 and the second decolorizing chamber 4; the feed inlet cover 6 is rotatably installed on the cover 5; and the two ends of the connecting structure 9 are fixedly installed at the bottom of the first decolorizing chamber 3 and the second decolorizing chamber 4 respectively.

[0021] A hot gas generating structure 7 is fixedly installed in the middle of the upper part of the cover 5, and air inlets 8 are fixedly installed at both the upper and lower ends of the hot gas generating structure 7. One end of the air inlet 8 is connected to an air pump; the other end of the air inlet 8 extends to the bottom of the first decolorizing chamber 3; the air inlet 8 can input air into the interior of the first decolorizing chamber 3 and the second decolorizing chamber 4, and stir the materials inside the first decolorizing chamber 3 and the second decolorizing chamber 4 by air stirring; the air input by the air inlet 8 can be heated by the hot gas generating structure 7.

[0022] The first decolorizing chamber 3 includes a decolorizing space 31, a guide bottom 32, a sliding block 33, an extension block 34, and a traction steel cable 35. The guide bottom 32 is fixedly installed below the decolorizing space 31, and its bottom is connected and fixed to the connecting structure 9. The sliding block 33 is fixedly installed on both sides of the outer wall of the decolorizing space 31, and the sliding block 33 is slidably installed on the first guide post 1. The extension block 34 is fixedly installed on the outside of the sliding block 33. The traction steel cable 35 is fixedly installed above the extension block 34, and the upper end of the traction steel cable 35 is wound around the traction motor on the top of the building.

[0023] The connecting structure 9 includes a dispersing pipe 91, a connecting pipe 92, a solenoid valve 93, and a mixing connecting pipe 94. The dispersing pipe 91 is fixedly installed at the bottom of the first decolorizing chamber 3 and the second decolorizing chamber 4, respectively. The connecting pipe 92 is fixedly installed at one end of the dispersing pipe 91. The solenoid valve 93 is fixedly installed inside the connecting pipe 92. The two ends of the mixing connecting pipe 94 are fixedly installed between the two sets of connecting pipes 92 at the bottom of the first decolorizing chamber 3 and the second decolorizing chamber 4.

[0024] The internal structure of the first decolorizing chamber 3 is completely identical to that of the second decolorizing chamber 4, and the decolorizing space 31 and the guide bottom 32 form a stainless steel metal space. The first decolorizing chamber 3 as a whole can reciprocate vertically on the first guide post 1 by being pulled by the traction steel cable 35. The first decolorizing chamber 3 and the second decolorizing chamber 4 move in opposite directions, and one of the first decolorizing chamber 3 and the second decolorizing chamber 4 is always above the other, with the bottom height exceeding the top of the other.

[0025] The connecting structure 9 is a dual-channel connecting pipe that connects the first decolorizing chamber 3 and the second decolorizing chamber 4. When the first decolorizing chamber 3 is in the upper position, the material inside the first decolorizing chamber 3 is divided into two streams by the dispersion pipe 91 and input into the second decolorizing chamber 4 through the mixing connecting pipe 94. Just before entering the second decolorizing chamber 4, the two streams of material are combined into one through the dispersion pipe 91, and vice versa. The mixing connecting pipe 94 adopts two parallel flexible pipes and adjusts its posture when the height of the first decolorizing chamber 3 and the second decolorizing chamber 4 changes.

[0026] This chili oil resin decolorizing device achieves continuous operation through the alternating lifting of the first decolorizing chamber 3 and the second decolorizing chamber 4. The two chambers move in opposite directions along the first guide column 1 and the second guide column 2 via traction steel cables 35, and the material automatically flows through the connecting structure 9 by utilizing the height difference. The hot air generating structure 7 injects hot air into the decolorizing space 31 through the air inlet 8, forming bubbles and agitating to enhance the decolorizing effect.

[0027] The dispersing pipe 91 and the mixing connecting pipe 94 in the connecting structure 9 constitute a dual-channel material circulation system, and the solenoid valve 93 precisely controls the flow rate. The inclined design of the guide bottom 32 and the guiding function of the sliding block 33 ensure smooth material transmission. The cap 5 maintains the system's airtightness, while the extension block 34 ensures the stability of the lifting process.

[0028] This device integrates a triple decolorization mechanism of mechanical power, thermocatalysis, and fluid control, solving the uniformity problem of traditional processes through dynamic circulation. The flexible pipeline design accommodates lifting and lowering movements, and the stainless steel material meets food hygiene requirements, enabling efficient, energy-saving, and continuous production, thus improving decolorization efficiency.

[0029] Any technical solution that achieves the above-mentioned technical effects by utilizing the technical solution described in this utility model, or by designing a similar technical solution inspired by the technical solution described in this utility model, falls within the protection scope of this utility model.

Claims

1. A chili oil resin decolorizing device, characterized in that: It includes a first guide post (1), a second guide post (2), a first decolorizing chamber (3), a second decolorizing chamber (4), a cover (5), a feed inlet cover (6), and a connecting structure (9), wherein: the two ends of the first guide post (1) and the second guide post (2) are fixedly installed between the ground and the top of the building, and the first decolorizing chamber (3) and the second decolorizing chamber (4) are slidably installed on the first guide post (1) and the second guide post (2), respectively; a cover (5) is fixedly installed above the first decolorizing chamber (3) and the second decolorizing chamber (4); the feed inlet cover (6) is rotatably installed on the cover (5); the two ends of the connecting structure (9) are fixedly installed at the bottom of the first decolorizing chamber (3) and the second decolorizing chamber (4), respectively.

2. The chili oil resin decolorizing device as described in claim 1, characterized in that: A hot gas generating structure (7) is fixedly installed in the middle of the upper part of the cover (5), and an air inlet (8) is fixedly installed at both the upper and lower ends of the hot gas generating structure (7). One end of the air inlet (8) is connected to an air pump; the other end of the air inlet (8) extends to the bottom of the first decolorizing chamber (3); the air inlet (8) can input air into the interior of the first decolorizing chamber (3) and the second decolorizing chamber (4) and stir the materials inside the first decolorizing chamber (3) and the second decolorizing chamber (4) by air stirring; the air input by the air inlet (8) can be heated by the hot gas generating structure (7).

3. The chili oil resin decolorizing device as described in claim 1, characterized in that: The first decolorizing chamber (3) includes a decolorizing space (31), a guide bottom (32), a sliding block (33), an extension block (34), and a traction steel cable (35). The guide bottom (32) is fixedly installed below the decolorizing space (31), and the bottom of the guide bottom (32) is connected and fixed to the connecting structure (9). The sliding block (33) is fixedly installed on both sides of the outer wall of the decolorizing space (31), and the sliding block (33) is slidably installed on the first guide post (1). The extension block (34) is fixedly installed on the outside of the sliding block (33). The traction steel cable (35) is fixedly installed above the extension block (34), and the upper end of the traction steel cable (35) is wound around the traction motor on the top of the building.

4. The chili oil resin decolorizing device as described in claim 1, characterized in that: The connecting structure (9) includes a dispersing pipe (91), a connecting pipe (92), a solenoid valve (93), and a mixing connecting pipe (94). The dispersing pipe (91) is fixedly installed at the bottom of the first decolorizing chamber (3) and the second decolorizing chamber (4), respectively. The connecting pipe (92) is fixedly installed at one end of the dispersing pipe (91). The solenoid valve (93) is fixedly installed inside the connecting pipe (92). The two ends of the mixing connecting pipe (94) are fixedly installed between the two sets of connecting pipes (92) at the bottom of the first decolorizing chamber (3) and the second decolorizing chamber (4).

5. The chili oil resin decolorizing device as described in claim 3, characterized in that: The internal structure of the first decolorizing chamber (3) is completely consistent with that of the second decolorizing chamber (4), and the decolorizing space (31) and the guide bottom (32) form a stainless steel metal space. The first decolorizing chamber (3) as a whole can be moved back and forth vertically on the first guide column (1) by the pull of the traction steel cable (35). The first decolorizing chamber (3) and the second decolorizing chamber (4) move in opposite directions, and one of the first decolorizing chamber (3) and the second decolorizing chamber (4) is always above the other, with the bottom height exceeding the top of the other. The first decolorizing chamber (3) contains chili oil resin that needs to be decolorized and activated carbon adsorbent for decolorization.

6. The chili oil resin decolorizing device as described in claim 4, characterized in that: The connecting structure (9) is a dual-channel connecting pipe that connects the first decolorizing chamber (3) and the second decolorizing chamber (4). When the first decolorizing chamber (3) is on top, the material inside the first decolorizing chamber (3) is divided into two streams by the dispersing pipe (91) and input into the second decolorizing chamber (4) through the mixing connecting pipe (94). Before entering the second decolorizing chamber (4), the two streams of material are combined into one through the dispersing pipe (91), and vice versa. The mixing connecting pipe (94) uses two parallel flexible pipes and adjusts its posture when the height of the first decolorizing chamber (3) and the second decolorizing chamber (4) changes.