CN-224220878-U - Organic phoenix tree peony extract solid-liquid separation device

Abstract

The solid-liquid separation device comprises a filter bucket and a plurality of filter screens, wherein a plurality of rings of flanges for supporting the filter screens are arranged in the filter bucket, the filter screens are composed of steel wire filter screens and filter frames wrapped around the steel wire filter screens, the steel wire filter screens have magnetic attraction, the filter frames are composed of two rubber magnetic strip frames, and the steel wire filter screens are clamped between the two rubber magnetic strip frames by means of magnetic attraction. Because the rubber magnetic stripe frame has magnetism and good flexibility, can very conveniently take out the filter screen from the filter bowl when wasing the filter screen, need not make the metal sheet metal filter frame when changing the filter screen, only need with cut steel wire filter screen magnetism inhale between two rubber magnetic stripe frames can, labour saving and time saving. More importantly, the rubber magnetic stripe frame can be reused, so that the production cost is saved. In addition, the rubber magnetic stripe frame can be completely attached to the flange to form a sealing structure, so that slurry is prevented from leaking, and the filter effect is improved.

Inventors

• MA JINGSHUAI
• MA WANYONG
• Gao Guohang
• MA JIANMIN
• JIANG LUYAN
• GUO YALI

Assignees

• 万景祥农业科技发展(洛阳)有限公司

Dates

Publication Date

20260512

Application Date

20250514

Claims (6)

1. 1. The solid-liquid separation device for the organic paeonia ostii extract comprises a filter bucket and a plurality of filter screens, wherein a plurality of rings of flanges for supporting the filter screens are arranged in the filter bucket, the filter screens are composed of steel wire filter screens and filter frames wrapped around the steel wire filter screens, and the solid-liquid separation device is characterized in that the steel wire filter screens have magnetic attraction and consist of two rubber magnetic strip frames, and the steel wire filter screens are clamped between the two rubber magnetic strip frames by means of magnetic attraction.
2. 2. The solid-liquid separation device for organic paeonia ostii extract of claim 1, wherein the flange has magnetic attraction, and the filter frame is magnetically attracted on the flange.
3. 3. An organic paeonia ostii extract solid-liquid separation device according to claim 1 or 2, wherein the filter bucket is magnetic, and the flange is welded in the filter bucket.
4. 4. The solid-liquid separation device for organic paeonia ostii extract of claim 1, wherein the rubber magnetic stripe frame is provided with a step structure for clamping a steel wire filter screen.
5. 5. The solid-liquid separation device for organic paeonia ostii extract of claim 1, wherein the filter bucket is a rectangular filter bucket, and the rubber magnetic strip frame is a rectangular rubber magnetic strip frame.
6. 6. The solid-liquid separation device for organic paeonia ostii extract of claim 1, wherein the filter bucket is a round filter bucket, and the rubber magnetic stripe frame is an annular rubber magnetic stripe frame.

Description

Organic phoenix tree peony extract solid-liquid separation device Technical Field The utility model relates to the technical field of peony deep processing, in particular to a solid-liquid separation device for an organic paeonia ostii extract. Background Currently, peony is grown on a large scale as an economic crop in the places of luoyang, lotus and the like. Researches show that the root bark, petals and seeds of the organic paeonia ostii are rich in various active substances such as paeonol, paeonol glycoside, medicinal glycoside and the like, and the active substances not only have natural fragrance, but also have good antioxidant and anti-aging effects. The current active material extraction process comprises pulping, solid-liquid separation (filtration) and extraction, wherein the solid-liquid separation device is used for separating particles in slurry. Referring to fig. 1, the conventional solid-liquid separation device comprises a filter funnel 1, wherein three layers of filter screens 3 are arranged in the filter funnel 1, the mesh number of the lower layer of filter screens is small, the mesh number of the lower layer of filter screens is moderate, and the mesh number of the lower layer of filter screens is large. Referring to fig. 2, a flange 2 for supporting a filter screen 3 is provided in a filter basket 1 in a plurality of turns, and the filter screen 3 is composed of a wire screen 32 and a sheet metal filter frame 31 wrapped around the wire screen 32. The problems of the filter screen 3 are mainly two, namely that the filter screen 3 needs to be cleaned regularly, the lower filter screen 3 needs to be bent to be taken and placed due to the blocking of the flange 2, so that the filter screen 3 is uneven, the filtering effect is affected, the filter screen 3 also needs to be replaced regularly, the steel wire filter screen 32 is easy to buy, but the metal sheet metal filter frame 31 is a nonstandard part and needs to be self-made, and the production cost is indirectly increased. Disclosure of utility model In order to overcome the defects in the background technology, the utility model discloses a solid-liquid separation device for organic paeonia ostii extracts, which adopts the following technical scheme: The solid-liquid separation device for the organic paeonia ostii extract comprises a filter bucket and a plurality of filter screens, wherein a plurality of rings of flanges for supporting the filter screens are arranged in the filter bucket, each filter screen is composed of a steel wire filter screen and a filter frame wrapped around the steel wire filter screen, each steel wire filter screen has magnetic attraction, each filter frame is composed of two rubber magnetic strip frames, and each steel wire filter screen is clamped between the two rubber magnetic strip frames by means of magnetic attraction. Further, the technical scheme is improved, the flange is magnetic, and the filter frame is magnetically attracted to the flange. Further improves the technical scheme, the filter funnel has magnetic attraction, and the flange is welded in the filter funnel. Further improving the technical scheme, be equipped with the step structure that is used for centre gripping steel wire filter screen on rubber magnetic stripe frame. According to the technical scheme, the filter bucket is a rectangular filter bucket, and the rubber magnetic stripe frame is a rectangular rubber magnetic stripe frame. Further improved technical scheme, the filter vat is circular filter vat, rubber magnetic stripe frame is ring rubber magnetic stripe frame. After the technical scheme is implemented, the beneficial effects of the utility model are as follows: Compared with the metal sheet metal filter frame in the background art, the rubber magnetic stripe frame has magnetism and good flexibility, and can be conveniently taken out of the filter bucket when the filter screen is cleaned. Especially, when changing the filter screen, the metal sheet metal filter frame does not need to be manufactured, and only the sheared steel wire filter screen is magnetically attracted between the two rubber magnetic strip frames, so that time and labor are saved. More importantly, the rubber magnetic stripe frame can be reused, so that the production cost is saved. In addition, the rubber magnetic stripe frame can be completely attached to the flange to form a sealing structure, so that slurry is prevented from leaking, and the filter effect is improved. Drawings Fig. 1 shows a schematic structure of a solid-liquid separation device for organic paeonia ostii extract. Fig. 2 is a partially enlarged schematic view of the structure at P in fig. 1. Fig. 3 shows a schematic structural diagram of the filter screen. Fig. 4 is a schematic structural view of a rubber magnetic stripe frame. Fig. 5 is a schematic diagram showing a partial structure of the solid-liquid separation device. Fig. 6 shows another schematic structure of the filter screen