Pomegranate fruit seed removal device
By designing a pomegranate fruit seed separation device, a combination of a sieve plate and a vibrating motor was used to achieve rapid grading and screening of fruit seeds and cleaning of fruit peels. This solved the problem of long screening time after fruit seed separation in existing technologies and improved separation efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENGSHI LIUFANG (SHANDONG) HEALTH TECHNOLOGY CO LTD
- Filing Date
- 2025-06-06
- Publication Date
- 2026-06-09
Smart Images

Figure CN224332345U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of pomegranate seed removal machines, specifically a pomegranate fruit seed removal and separation device. Background Technology
[0002] The pomegranate fruit is spherical, with an outer skin that is usually red or yellow. It has a persistent calyx at the top and looks like a small lantern. When you peel off the pomegranate skin, you can see that it is filled with crystal clear pomegranate seeds, which are closely packed together and arranged neatly like rubies.
[0003] The pomegranate seed removal and separation device uses mechanical extrusion and centrifugal separation technologies to quickly and accurately separate the pulp from the seeds, effectively improving processing efficiency. Its compact structure and easy operation make it suitable for home use, small processing plants, and large-scale production scenarios, meeting the pomegranate seed removal needs of different scales.
[0004] After the pomegranate fruit is separated, it falls into the collection box through the discharge port. However, all the fruit seeds are together after separation, which makes it difficult to separate them quickly during the subsequent screening of the fruit seeds, thus increasing the separation time.
[0005] Therefore, a pomegranate seed removal and separation device is proposed to address the above problems. Utility Model Content
[0006] In order to overcome the shortcomings of the prior art, at least one technical problem raised in the background art is solved.
[0007] The technical solution adopted by this utility model to solve its technical problem is as follows: The pomegranate fruit seed removal and separation device of this utility model includes a pomegranate fruit seed removal and separation machine body, with an inlet at the top of the machine body; an outlet on the side wall of the machine body; a collection box at the end of the machine body; multiple springs fixedly connected to the bottom of the collection box; a base plate fixedly connected to the bottom of each spring; a first sieve plate fixedly connected to the top of the collection box; a second sieve plate fixedly connected to the middle of the collection box; both the second sieve plate and the first sieve plate are inclined and staggered; multiple sieve holes are opened in the middle of both the first sieve plate and the second sieve plate; the diameter of the sieve holes on the first sieve plate is greater than... The diameter of the sieve holes on the second sieve plate; the side wall of the pomegranate fruit seed separator is sequentially provided with a large particle outlet and a medium particle outlet; the large particle outlet and the medium particle outlet are respectively located at the ends of the first sieve plate and the second sieve plate; a pair of storage boxes are provided on the side wall of the collection box; the storage box and the large particle outlet and the medium particle outlet are correspondingly arranged; a vibration motor is installed on the surface of the collection box; by adding a collection box to collect the filtered fruit seeds, and then quickly screening them through the first sieve plate and the second sieve plate, the screening of fruit seeds is accelerated, so that when passing through, the large particles are screened first, then the medium particles are screened, and finally the small particles fall to the bottom of the collection box, thereby performing graded screening, increasing the screening speed and thus quickly screening.
[0008] Preferably, the top of the storage box is connected to a water inlet pipe; the bottom of the storage box is connected to a water outlet pipe; and a scooping net is provided on the surface of the storage box. By adding a water inlet pipe, water can be injected into the body of the pomegranate fruit deseeding and separation machine to make the fruit peel inside float up, and then the scooping net can be used to quickly scoop it up to reduce the presence of fruit peel inside the seeds, thereby achieving rapid cleaning.
[0009] Preferably, a pair of brackets are fixed to the side wall of the storage box; the brackets and the net are in sliding fit; by adding brackets, the net can be stored after use, thereby increasing the storage space for the net after use.
[0010] Preferably, an absorbent cloth is fixedly connected to the middle of the net; multiple absorbent cloths are provided on the net; by adding absorbent cloths, the water source that comes into contact with the net can be absorbed, thereby reducing the impact of the water source on the net operation.
[0011] Preferably, a baffle is fixed to the top of the collection box; the baffle and the discharge port are correspondingly set; by adding the baffle, the jumping fruit seeds can be blocked and enter the collection box through the baffle, thereby reducing the splashing of fruit seeds.
[0012] Preferably, a buffer pad is fixed to the top of the storage box; the buffer pad and the storage box are correspondingly arranged; by adding a buffer pad, the impact generated during the collision can be reduced by the flexibility of the buffer pad when the net makes rapid contact, thereby reducing the damage to the net during the collision and increasing protection.
[0013] The advantages of this utility model are:
[0014] 1. The pomegranate seed separation device of this utility model collects the filtered fruit seeds by adding a collection box, and then quickly screens them through a first sieve plate and a second sieve plate, thereby speeding up the screening of fruit seeds. When passing through the sieve plate, large particles are screened first, then medium particles are screened, and finally small particles fall to the bottom of the collection box, thus performing graded screening and increasing the screening speed for rapid screening.
[0015] 2. The pomegranate fruit seed removal and separation device of this utility model can inject water into the body of the pomegranate fruit seed removal and separation machine by adding a water inlet pipe, so that the peel inside floats up, and then the peel is quickly picked up by a net to reduce the presence of peel inside the seeds, thereby achieving rapid cleaning. Attached Figure Description
[0016] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0017] Figure 1 This is a schematic diagram of the main body of this utility model;
[0018] Figure 2 This is a schematic diagram of the structure of the baffle in this utility model;
[0019] Figure 3 This is a schematic diagram of the spring structure in this utility model;
[0020] Figure 4 This is a schematic diagram of the support structure in this utility model;
[0021] Figure 5 This is a schematic diagram of the structure of the fishing net in this utility model.
[0022] In the diagram: 1. Pomegranate fruit seed separator body; 11. Feed inlet; 12. Discharge outlet; 13. Collection box; 14. Spring; 15. Base plate; 16. First sieve plate; 17. Second sieve plate; 18. Sieve holes; 19. Large particle outlet; 101. Medium particle outlet; 102. Vibrating motor; 103. Storage box; 2. Water inlet pipe; 21. Water outlet pipe; 22. Scouring net; 3. Support frame; 4. Absorbent cloth; 5. Baffle; 6. Buffer pad. Detailed Implementation
[0023] 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 scope of protection of the present utility model.
[0024] Specific implementation examples are given below.
[0025] like Figures 1 to 5As shown in the figure, the pomegranate fruit deseeding and separation device of this utility model includes a pomegranate fruit deseeding and separation machine body 1. The pomegranate fruit deseeding and separation machine body 1 has a feed inlet 11 at the top; a discharge outlet 12 is provided on the side wall of the pomegranate fruit deseeding and separation machine body 1; a collection box 13 is provided at the end of the pomegranate fruit deseeding and separation machine body 1; a plurality of springs 14 are fixedly connected to the bottom of the collection box 13; a bottom plate 15 is fixedly connected to the bottom of the springs 14; a first sieve plate 16 is fixedly connected to the top of the collection box 13; a second sieve plate 17 is fixedly connected to the middle of the collection box 13; the second sieve plate 17 and the first sieve plate 16 are both inclined and staggered; the first sieve plate 16 and The second sieve plate 17 has multiple sieve holes 18 in the middle; the diameter of the sieve holes 18 on the first sieve plate 16 is larger than the diameter of the sieve holes 18 on the second sieve plate 17; the side wall of the pomegranate fruit deseeding and separating machine body 1 has a large particle outlet 19 and a medium particle outlet 101 in sequence; the large particle outlet 19 and the medium particle outlet 101 are located at the ends of the first sieve plate 16 and the second sieve plate 17 respectively; the side wall of the collection box 13 is provided with a pair of storage boxes 103; the storage boxes 103 and the large particle outlet 19 and the medium particle outlet 101 are correspondingly arranged; a vibration motor 102 is installed on the surface of the collection box 13; during operation, the pomegranate fruits are first poured into the feed inlet 11, and then... The seeds enter the pomegranate seed separator body 1 through the feed inlet 11 for processing. After processing, the seeds exit the pomegranate seed separator body 1 through the discharge outlet 12 and then enter the collection box 13. At this time, the vibration motor 102 is started. When the vibration motor 102 is started, it generates vibration, which is transmitted to the first screen plate 16 and the second screen plate 17. When the seeds are transmitted to the first screen plate 16 and the second screen plate 17, the seeds falling on the surface of the first screen plate 16 will continuously bounce. The intercepted seeds will move along the surface of the screen holes 18 and fall into the storage box 103 through the large particle outlet 19. Then, the second screen plate 17 will perform a second screening of the seeds to remove the remaining seeds. Larger fruit seeds are intercepted and move through the surface of the second sieve plate 17, passing through the medium particle outlet 101 to the storage box 103. Finally, small particles fall into the collection box 13. The collection box 13 can be opened after final processing for further processing, thereby enabling rapid screening through the first sieve plate 16 and the second sieve plate 17. By adding the collection box 13 to collect the filtered fruit seeds, and then rapidly screening them through the first sieve plate 16 and the second sieve plate 17, the screening of fruit seeds is accelerated. As the seeds pass through, large particles are screened first, then medium particles, and finally small particles fall to the bottom of the collection box 13, thus performing graded screening and increasing the screening rate for rapid separation.
[0026] like Figures 1 to 5As shown, the top of the storage box 103 is connected to a water inlet pipe 2; the bottom of the storage box 103 is connected to a water outlet pipe 21; and a scooping net 22 is provided on the surface of the storage box 103. During operation, since the fruit seeds carry some small pieces of peel when they leave the pomegranate fruit seed separator body 1, the water inlet pipe 2 can be connected to a water pump to inject water into the storage box 103, causing the lighter peels to float and the heavier seeds to sink. The scooping net 22 can then be used to scoop up the peels. After scooping, the valve inside the water outlet pipe 21 can be opened to drain the water. This water valve is existing technology and is not described or shown in the figure. By adding the water inlet pipe 2, water can be injected into the pomegranate fruit seed separator body 1 to make the peels inside float up, and then the scooping net 22 can be used to quickly scoop them up, reducing the presence of peels inside the seeds, thus achieving rapid cleaning.
[0027] like Figure 5 As shown, a pair of brackets 3 are fixed to the side wall of the storage box 103; the brackets 3 and the net 22 are in sliding fit; during operation, after the net 22 is used, it can be placed inside the bracket 3, at which time the bracket 3 will hold the net 22 in place, so that its lower part stays inside the bracket 3 for storage; by adding the bracket 3, the net 22 can be stored after use, thereby increasing the storage space for the net 22 after use.
[0028] like Figure 5 As shown, an absorbent cloth 4 is fixedly attached to the middle of the net 22; multiple absorbent cloths 4 are provided on the net 22; during operation, the net 22 will come into contact with water due to the environment, so water splashed onto the net 22 will be absorbed by the absorbent cloth 4, and sweat will also be absorbed when the net 22 is held for a long time; by adding absorbent cloths 4, the water in contact can be absorbed, thereby reducing the impact of water on the operation of the net 22.
[0029] like Figures 1 to 2 As shown, a baffle 5 is fixedly connected to the top of the collection box 13; the baffle 5 and the discharge port 12 are correspondingly arranged; during operation, when the fruit seeds leave the pomegranate fruit seed separator body 1 through the discharge port 12, some fruit seeds will jump and splash. At this time, the baffle 5 will intercept these fruit seeds and they will fall into the collection box 13 through the obstruction of the baffle 5; by adding the baffle 5, the jumping fruit seeds can be blocked and enter the collection box 13 through the interception of the baffle 5, thereby reducing the splashing of fruit seeds.
[0030] like Figure 4As shown, a buffer pad 6 is fixed to the top of the storage box 103; the buffer pad 6 and the storage box 103 are correspondingly arranged; during operation, after the net 22 is used to scoop up the fruit peel and debris inside the storage box 103, some of the debris will adhere to the mesh inside the net 22. At this time, the middle part of the net 22 can quickly come into contact with the buffer pad 6 to generate an impact, thereby shaking off the debris on the net 22; by adding the buffer pad 6, the flexibility of the buffer pad 6 can reduce the impact generated during the rapid contact with the net 22, thereby reducing the damage to the net 22 during the impact and increasing protection.
[0031] Working principle: Pomegranate fruits are first poured into the feed inlet 11, then enter the pomegranate fruit seed separator body 1 for processing. After processing, the fruit seeds exit the pomegranate fruit seed separator body 1 through the discharge outlet 12 and then enter the collection box 13. At this time, the vibration motor 102 is started. When the vibration motor 102 starts, it generates vibration, which is transmitted to the first screen plate 16 and the second screen plate 17. When transmitted to the first screen plate 16 and the second screen plate 17, the fruit seeds falling on the surface of the first screen plate 16 will continuously bounce. When the intercepted fruit seeds are... The seeds move along the surface of the sieve holes 18 and fall into the storage box 103 through the large particle outlet 19. Then, the second sieve plate 17 performs a secondary screening, intercepting the remaining larger seeds. These seeds then move through the surface of the second sieve plate 17 and through the medium particle outlet 101 into the storage box 103. Finally, the small particles fall into the collection box 13. The collection box 13 can be opened after final processing for further processing, allowing for rapid screening through the first sieve plate 16 and the second sieve plate 17. Since the seeds carry some small pieces of peel when leaving the pomegranate seed separator body 1, the water inlet pipe 2 can be connected... A water pump injects water into the storage box 103, causing the lighter fruit peels to float and the heavier seeds to sink. The peels can then be retrieved using a net 22. After retrieval, the valve inside the water outlet pipe 21 can be opened to drain the water. This valve is existing technology and is not described or shown in the diagram. After using the net 22, it can be placed inside the support 3. The support 3 will hold the net 22 in place, keeping its lower part inside for storage. During operation of the net 22, water may come into contact with it; therefore, water splashing onto the net 22 should be avoided. After being placed on the net, the water will be absorbed by the absorbent cloth 4. At the same time, when the net is held for a long time, it will also absorb sweat. When the fruit seeds leave the pomegranate fruit seed separator body 1 through the discharge port 12, some fruit seeds will jump and splash. At this time, the baffle 5 will intercept these fruit seeds and they will fall into the collection box 13 through the obstruction of the baffle 5. After the fruit peel fragments are scooped out of the storage box 103 by the net 22, some fragments will adhere to the mesh of the net 22. At this time, the middle part of the net 22 can be quickly brought into contact with the buffer pad 6 to generate an impact, thereby shaking off the fragments on the net 22.
[0032] 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 claimed utility model.
Claims
1. A pomegranate fruit de-seeding apparatus, characterized by: The machine includes a pomegranate fruit deseeding and separating machine body (1), with an inlet (11) at the top; an outlet (12) on the side wall; a collection box (13) at the end; multiple springs (14) fixed to the bottom of the collection box (13); a base plate (15) fixed to the bottom of each spring (14); a first sieve plate (16) fixed to the top of the collection box (13); and a second sieve plate (17) fixed to the middle of the collection box (13). The second sieve plate (17) and the first sieve plate (16) are both inclined and staggered. Multiple sieve holes (18) are provided in the middle of each sieve plate (17); the diameter of the sieve holes (18) on the first sieve plate (16) is larger than the diameter of the sieve holes (18) on the second sieve plate (17); the side wall of the pomegranate fruit seed separator body (1) is provided with a large particle outlet (19) and a medium particle outlet (101); the large particle outlet (19) and the medium particle outlet (101) are located at the ends of the first sieve plate (16) and the second sieve plate (17); a pair of storage boxes (103) are provided on the side wall of the collection box (13); the storage box (103) and the large particle outlet (19) and the medium particle outlet (101) are provided in correspondence; a vibration motor (102) is installed on the surface of the collection box (13).
2. The pomegranate fruit de-seeding apparatus as claimed in claim 1, wherein: The storage box (103) has a water inlet pipe (2) connected to the top; a water outlet pipe (21) connected to the bottom; and a scooping net (22) is provided on the surface of the storage box (103).
3. The pomegranate fruit de-seeding and separating apparatus as claimed in claim 2, wherein: The storage box (103) has a pair of brackets (3) fixed to its side wall; the brackets (3) and the scooping net (22) are in sliding fit.
4. The pomegranate fruit de-seeding and separating apparatus as claimed in claim 3, wherein: A water-absorbing cloth (4) is fixedly attached to the middle of the net (22); multiple water-absorbing cloths (4) are provided on the net (22).
5. The pomegranate fruit de-seeding and separating apparatus as claimed in claim 4, wherein: The top of the collection box (13) is fixedly connected to a baffle (5); the baffle (5) and the discharge port (12) are set accordingly.
6. The pomegranate fruit de-seeding and separating apparatus as claimed in claim 5, wherein: A buffer pad (6) is fixed to the top of the storage box (103); the buffer pad (6) and the storage box (103) are configured accordingly.