An olive oil mixing and cleaning device
By combining vibration soaking and spraying in a hybrid cleaning method, the problems of high water consumption and easy adhesion of stains in olive oil cleaning are solved, achieving a highly efficient cleaning effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SICHUAN ZHONGYI OLIVE DEV CO LTD
- Filing Date
- 2025-06-26
- Publication Date
- 2026-06-30
Smart Images

Figure CN224423654U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the technical field of olive oil cleaning, and specifically relates to an olive oil mixing and cleaning device. Background Technology
[0002] To improve harvesting efficiency, olive trees are currently vibrated using harvesting machines to shake them, causing the ripe olives to fall to the ground for large-scale, efficient collection. During this process, the olives accumulate dirt, decaying leaves, and other contaminants on their surface.
[0003] Before pressing olives, the surface dirt needs to be cleaned. Current technology typically involves soaking the olives in a washing tank and then washing them by stirring. To wash a large number of olives at once, a large amount of water needs to be stored in the washing tank, resulting in significant water consumption. Furthermore, because the olives are soaked in the washing tank for an extended period, a large amount of dirt on the olive surface becomes suspended inside the tank, which can cause the suspended dirt to re-adhere to the olive surface, reducing the effectiveness of the cleaning process.
[0004] Therefore, in view of the shortcomings of existing technology in soaking and cleaning olives, such as large water consumption and easy re-adhesion of stains, this utility model discloses an olive mixing and cleaning device. Utility Model Content
[0005] This utility model discloses a mixed cleaning device for olives, which can clean olives by vibration, soaking, and spraying, reducing water consumption while improving the cleaning effect.
[0006] This utility model is achieved through the following technical solution:
[0007] An olive oil mixing and cleaning device includes a lifting mechanism. A cleaning cage is provided on the lifting end of the lifting mechanism. A vibrating screen is provided inside the cleaning cage. A feed inlet is provided at one end of the cleaning cage corresponding to the first end of the vibrating screen, and a discharge outlet is provided at the other end of the cleaning cage corresponding to the second end of the vibrating screen. A spraying device is provided on the outside of the cleaning cage corresponding to the top of the vibrating screen, and a soaking tank is provided on the outside of the cleaning cage corresponding to the bottom of the vibrating screen.
[0008] The olives to be cleaned are conveyed from the feed inlet into the cleaning cage and fall onto the vibrating screen. The lifting mechanism lowers the cleaning cage, immersing the olives in the water of the soaking tank. Combined with the vibration of the screen, this provides an initial soaking and cleaning of the olives. Then, the lifting mechanism raises the cleaning cage, removing the olives from the water. At this point, a spray device above the cleaning cage sprays pressurized cleaning water onto the vibrating screen, further cleaning the olives. This combined soaking and spraying cleaning effectively removes dirt from the surface of the olives.
[0009] To better realize this utility model, the cleaning mesh cage is further provided with a first vibrating screen and a second vibrating screen installed from top to bottom inside. The aperture of the first vibrating screen is larger than that of the second vibrating screen. A first discharge port is provided on the cleaning mesh cage corresponding to the outlet end of the first vibrating screen, and a second discharge port is provided on the cleaning mesh cage corresponding to the outlet end of the second vibrating screen.
[0010] To better realize this utility model, further, the cleaning mesh cage is provided with a plurality of first flexible roller brushes rotatably arranged on the top of the first vibrating screen, and the cleaning mesh cage is provided with a plurality of second flexible roller brushes rotatably arranged on the top of the second vibrating screen.
[0011] To better realize this utility model, the cleaning mesh cage is further provided with side auxiliary nozzles corresponding to the top side of the first vibrating screen and the top side of the second vibrating screen.
[0012] To better realize this utility model, it further includes a circulating water tank, the interior of which is provided with several layers of filter grids from top to bottom, a circulating water pump is provided at the bottom of the circulating water tank, the water inlet of the circulating water tank is connected to the water outlet of the soaking tank, and the water supply end of the circulating water pump is connected to the water inlet of the soaking tank.
[0013] To better realize this utility model, the spraying device further includes a spray head, a support frame, and a water supply pipe. The support frame is fixedly installed above the cleaning net cage. A bent water supply pipe is provided inside the support frame, and several spray heads are arranged and connected to the bottom of the water supply pipe.
[0014] To better realize this utility model, a booster pump is further provided on the water supply pipe.
[0015] To better realize this utility model, the lifting mechanism further includes a gantry frame, a connecting frame, and a lifting device. The gantry frame is straddling the top of the cleaning net cage. The bottom of the gantry frame is provided with connecting frames corresponding to the two ends of the cleaning net cage. The connecting frames are connected to the ends of the cleaning net cage. The top of the gantry frame is provided with a lifting device, and the lifting end of the lifting device is connected to the top of the connecting frame.
[0016] To better realize this utility model, the lifting device further includes any one of a lifting cylinder, a screw lifting mechanism, and a gear and rack lifting mechanism.
[0017] Compared with the prior art, this utility model has the following advantages and beneficial effects:
[0018] This invention introduces olives into a cleaning cage, placing them on a vibrating screen. The screen vibrates the olives, loosening the surface dirt and making them easier to clean. Simultaneously, a lifting mechanism lowers the cleaning cage, immersing the olives in a soaking tank. Combined with the vibration of the screen, this allows for a shorter soaking and cleaning time. Then, the lifting mechanism rises, removing the olives from the soaking tank. A spray system then cleans the olives by spraying them, preventing suspended dirt from re-adhering to the surface. Ultimately, this invention improves the cleaning effect of olives while reducing water consumption. Attached Figure Description
[0019] Figure 1 A front sectional view of an olive oil mixing and cleaning device;
[0020] Figure 2 Left sectional view of an olive oil mixing and cleaning device;
[0021] Figure 3 This is a schematic diagram of the lifting device.
[0022] Figure 4 for Figure 2 A magnified view of part A.
[0023] Wherein: 1-Lifting mechanism; 2-Cleaning net cage; 3-Vibrating screen; 4-Spraying device; 5-Soaking tank; 6-First flexible roller brush; 7-Second flexible roller brush; 8-Side auxiliary spray head; 9-Circulating water tank; 11-Gantry frame; 12-Connecting frame; 13-Lifting device; 31-First vibrating screen; 32-Second vibrating screen; 33-Cam drive mechanism; 34-Elastic telescopic mechanism; 41-Spray head; 42-Support frame; 43-Water supply pipe; 91-Filter grid; 131-Screw; 132-Screw lift. Detailed Implementation
[0024] Example 1:
[0025] This embodiment provides an olive oil mixing and cleaning device, such as... Figures 1-3 As shown, the device includes a lifting mechanism 1, a cleaning cage 2 is provided on the lifting end of the lifting mechanism 1, a vibrating screen 3 is provided inside the cleaning cage 2, a feed inlet is provided at one end of the cleaning cage 2 corresponding to the first end of the vibrating screen 3, and a discharge outlet is provided at the other end of the cleaning cage 2 corresponding to the second end of the vibrating screen 3; a spraying device 4 is provided on the outside of the cleaning cage 2 corresponding to the top of the vibrating screen 3, and a soaking tank 5 is provided on the outside of the cleaning cage 2 corresponding to the bottom of the vibrating screen 3.
[0026] The olives to be cleaned are conveyed into the cleaning cage 2 through the feed inlet, where they fall onto the vibrating screen 3. The lifting mechanism 1 descends to lower the cleaning cage 2 and the vibrating screen 3, immersing them in the water inside the soaking tank 5. The vibrating screen 3 causes the olives to vibrate in the soaking tank 5, thus achieving preliminary soaking and cleaning of the olives to remove large particles of dirt and other stains adhering to the surface of the olives.
[0027] Lifting device 1 rises, causing the cleaning cage 2 and vibrating screen 3 to rise from the soaking tank 5. At this time, the olives on the vibrating screen 3 are removed from the water in the soaking tank 5, preventing suspended impurities in the water of the soaking tank 5 from re-adhering to the surface of the olives. Then, the olives are sprayed and rinsed by the spraying device 4, which, in conjunction with the vibration of the vibrating screen 3, achieves spray cleaning of the olives.
[0028] By using a combination of vibration, soaking, and spray cleaning, the stains on the surface of olive trees can be effectively removed, and the problem of suspended stains in the water re-adhering to the surface of olive trees, which occurs in traditional soaking cleaning, can be avoided.
[0029] Example 2:
[0030] This embodiment discloses an olive oil mixing and cleaning device, which is an optimization based on Embodiment 1, such as... Figure 1 and Figure 2 As shown, the cleaning cage 2 has a first vibrating screen 31 and a second vibrating screen 32 installed inside from top to bottom. The aperture of the first vibrating screen 31 is larger than that of the second vibrating screen 32. A first discharge port is provided on the cleaning cage 2 corresponding to the outlet end of the first vibrating screen 31, and a second discharge port is provided on the cleaning cage 2 corresponding to the outlet end of the second vibrating screen 32.
[0031] The aperture of the first vibrating screen 31 is used to screen olives of the first grade, and the aperture of the second vibrating screen 32 is used to screen olives of the second grade. This achieves grading of the olives while cleaning them, and the graded olives are then used to extract different grades of olive oil. After being vibrated and screened by the first vibrating screen 31, olives with a diameter larger than the aperture of the first vibrating screen 31 remain on the first vibrating screen 31 and are discharged through the first outlet. Olives with a diameter less than or equal to the aperture of the first vibrating screen 31 but larger than the aperture of the second vibrating screen 32 fall onto the second vibrating screen 32 and are discharged through the second outlet. By setting up the first vibrating screen 31 and the second vibrating screen 32, not only can the olives be screened, but they can also be vibrated. Under the action of vibration, dirt and other materials attached to the surface of the olives are more easily peeled off, thus improving the cleaning effect.
[0032] Furthermore, inside the cleaning mesh cage 2, a plurality of first flexible roller brushes 6 are rotatably arranged on top of the first vibrating screen 31, and inside the cleaning mesh cage 2, a plurality of second flexible roller brushes 7 are rotatably arranged on top of the second vibrating screen 32.
[0033] The first flexible roller brush 6 includes brush segments and a smooth shaft segment arranged at intervals. The distance between the brush segments and the top of the first vibrating screen 31 is between two-thirds of the olive diameter and the olive itself. As the olives on the first vibrating screen 31 vibrate and roll down to the first discharge port, the brush segments brush the surface of the olives. At the same time, adjacent brush segments are connected by the smooth shaft segment, and the distance between the smooth shaft segment and the top of the first vibrating screen 31 is much larger than the diameter of the olive, allowing the olives to roll smoothly down to the first discharge port through the smooth shaft segment and preventing the olives from accumulating and clogging at the top of the first vibrating screen 31.
[0034] Similarly structured, the second flexible roller brush 7 includes brush segments and a smooth shaft segment arranged at intervals. The distance between the brush segments and the top of the second vibrating screen 32 is between two-thirds of the olive's diameter and the olive's diameter. As the olives vibrate and roll down the second vibrating screen 32 to the second discharge port, the brush segments brush the surface of the olives. Simultaneously, adjacent brush segments are connected by the smooth shaft segment, and the distance between the smooth shaft segment and the top of the second vibrating screen 32 is much larger than the olive's diameter, allowing the olives to smoothly roll down the smooth shaft segment to the second discharge port, preventing olives from accumulating and clogging the top of the second vibrating screen 32.
[0035] Furthermore, auxiliary side nozzles 8 are respectively provided inside the cleaning cage 2 on the top side of the first vibrating screen 31 and the top side of the second vibrating screen 32. The auxiliary nozzles 8 are used to assist the spraying device 4 in spraying cleaning water onto the olives located on the vibrating screen from the side, ensuring that the olives receive sufficient cleaning water spray, thereby ensuring the cleaning effect of the olives.
[0036] Furthermore, such as Figure 3 and Figure 4 As shown, side plates are installed on both sides of the first vibrating screen 31 and the second vibrating screen 32. A cam drive mechanism 33 is provided on the top of the side plate, and an elastic telescopic mechanism 34 is provided on the bottom of the side plate. The cam drive mechanism 33 includes a drive reducer and a drive cam. The rim of the drive cam abuts against the top of the side plate. The drive cam is driven to rotate by a drive motor. By changing the radius of the drive cam rim, the first vibrating screen 31 and the second vibrating screen 32 are driven to vibrate up and down. At the same time, the elastic telescopic mechanism 34 at the bottom of the side plate includes a telescopic guide rod and a spring. When the side plate vibrates up and down, the telescopic guide rod extends and retracts synchronously to ensure that the first vibrating screen 31 and the second vibrating screen 32 vibrate smoothly. At the same time, the spring is compressed or stretched synchronously to assist the side plate in resetting.
[0037] The rest of this embodiment is the same as that of Embodiment 1, so it will not be described again.
[0038] Example 3:
[0039] This embodiment discloses an olive oil mixing and cleaning device, which is an optimization based on Embodiment 1 or 2, such as... Figure 2 As shown, it also includes a circulating water tank 9, and several layers of filter grids 91 are arranged inside the circulating water tank 9 from top to bottom. A circulating water pump is installed at the bottom of the circulating water tank 9. The water inlet of the circulating water tank 9 is connected to the water outlet of the soaking tank 5, and the water supply end of the circulating water pump is connected to the water inlet of the soaking tank 5.
[0040] The cleaning water sprayed by the spray device 4 washes the olives on the vibrating screen 3 and then falls into the soaking tank 5 through the holes in the vibrating screen 3 and the cleaning mesh cage 2. After a period of cleaning, the suspended dirt in the water accumulated in the soaking tank 5 increases. At this time, the water in the soaking tank 5 is pumped to the top of the circulating water tank 9, so that the water passes through several layers of filter screens 91 inside the circulating water tank 9 from top to bottom to filter the dirt in the water and reduce the dirt content. The filtered water is then returned to the soaking tank 5 for recycling by the action of the circulating water pump, thereby reducing water consumption. It should be noted that in order to ensure the spray cleaning effect on the olives, the spray device 4 is connected to a clean tap water pipeline through a pipeline, and does not use circulating water from the circulating water tank 9.
[0041] The rest of this embodiment is the same as that of embodiment 1 or 2, so it will not be described again.
[0042] Example 4:
[0043] This embodiment discloses an olive oil mixing and cleaning device, which is an optimization based on any one of embodiments 1-3, such as... Figure 2 As shown, the spraying device 4 includes spray heads 41, a support frame 42, and a water supply pipe 43. The support frame 42 is fixedly installed above the cleaning net cage 2. A bent water supply pipe 43 is installed inside the support frame 42, and several spray heads 41 are connected to the bottom of the water supply pipe 43. The water supply pipe 43 is connected to a clean tap water pipeline to supply clean tap water to the spray heads 41. The clean tap water is sprayed onto the top of the vibrating screen 3 through the spray heads 41 to clean the olives. Simultaneously, the water supply pipe 43 is designed with a reciprocating bent structure to ensure that enough spray heads 41 can be installed at the bottom of the water supply pipe 43 to completely cover the area of the vibrating screen 3, thereby achieving full-coverage spray cleaning of the olives.
[0044] Furthermore, a booster pump is installed on the water supply pipe 43 to pressurize the tap water in the water supply pipe 43, ensuring that the cleaning water sprayed out through the spray head 41 has a certain initial velocity and initial pressure, thereby ensuring that the spray water can effectively clean and remove the stains attached to the surface of the olives.
[0045] The rest of the content of this embodiment is the same as any one of embodiments 1-3, so it will not be repeated here.
[0046] Example 5:
[0047] This embodiment discloses an olive oil mixing and cleaning device, which is optimized based on any one of embodiments 1-4, such as... Figure 1 As shown, the lifting mechanism 1 includes a gantry frame 11, a connecting frame 12, and a lifting device 13. The gantry frame 11 is mounted above the cleaning net cage 2. The bottom of the gantry frame 11 is provided with connecting frames 12 corresponding to both ends of the cleaning net cage 2. The connecting frames 12 are connected to the ends of the cleaning net cage 2. The top of the gantry frame 11 is provided with the lifting device 13.
[0048] The lifting end is connected to the top of the connecting frame 12.
[0049] Furthermore, the lifting device 13 includes any one of a lifting cylinder, a screw lifting mechanism, or a rack and pinion lifting mechanism. Connecting lugs are provided at the top of both ends of the cleaning net cage 2. Connecting pins are provided on the connecting frame 12 corresponding to the connecting holes on the connecting lugs. The connecting frame 12 is connected to the ends of the cleaning net cage 2 by connecting the connecting pins and connecting holes. The top of the connecting frame 12 is connected to the lifting end of the lifting device 13 via connecting pins, connecting bolts, connecting buckles, and other connecting components. The lifting device 13 can be flexibly selected from the lifting cylinder, screw lifting mechanism, and rack and pinion lifting mechanism; no limitation is imposed here. Furthermore, the lifting cylinder, screw lifting mechanism, and rack and pinion lifting mechanism all adopt existing structures and are not improvements of this utility model. Therefore, the specific structure, operating principle, and connection method of the lifting cylinder, screw lifting mechanism, and rack and pinion lifting mechanism will not be described in detail here.
[0050] Preferred, such as Figure 3 As shown, the lifting device 13 includes a screw 131 and a screw jack 132. A connecting seat is provided on the side wall of the cleaning cage 2, and a nut is installed on the connecting seat. The nut is threadedly connected to the screw 131. The screw jack 132 drives the screw 131 to rotate, which in turn drives the nut and the connecting seat to move up and down, ultimately realizing the vertical lifting of the cleaning cage 2. This allows the vibrating screen 3 to be immersed in the soaking tank 5 when it descends, and to leave the soaking tank 5 when it rises.
[0051] The rest of the content of this embodiment is the same as any one of embodiments 1-4, so it will not be repeated here.
[0052] The above are merely preferred embodiments of the present utility model and are not intended to limit the present utility model in any way. Any simple modifications or equivalent changes made to the above embodiments based on the technical essence of the present utility model shall fall within the protection scope of the present utility model.
Claims
1. An olive mixed washing device characterized by, The device includes a lifting mechanism (1), a cleaning net cage (2) is provided on the lifting end of the lifting mechanism (1), a vibrating screen (3) is provided inside the cleaning net cage (2), a feed inlet is provided at one end of the cleaning net cage (2) corresponding to the first end of the vibrating screen (3), and a discharge outlet is provided at the other end of the cleaning net cage (2) corresponding to the second end of the vibrating screen (3); a spraying device (4) is provided on the outside of the cleaning net cage (2) corresponding to the top of the vibrating screen (3), and a soaking tank (5) is provided on the outside of the cleaning net cage (2) corresponding to the bottom of the vibrating screen (3).
2. The olive mixing and cleaning device according to claim 1, characterized in that, The cleaning mesh cage (2) is fitted with a first vibrating screen (31) and a second vibrating screen (32) from top to bottom inside. The aperture of the first vibrating screen (31) is larger than that of the second vibrating screen (32). The cleaning mesh cage (2) is provided with a first discharge port corresponding to the outlet end of the first vibrating screen (31) and a second discharge port corresponding to the outlet end of the second vibrating screen (32).
3. An olive hybrid washing device according to claim 2, characterized in that, The cleaning mesh cage (2) is rotatably equipped with several first flexible roller brushes (6) located on top of the first vibrating screen (31), and the cleaning mesh cage (2) is rotatably equipped with several second flexible roller brushes (7) located on top of the second vibrating screen (32).
4. An olive hybrid washing device according to claim 3, characterized in that, The cleaning mesh cage (2) is provided with side auxiliary nozzles (8) on the top side of the first vibrating screen (31) and the top side of the second vibrating screen (32).
5. An olive mixing and washing device according to any one of claims 1 to 4, characterized in that, It also includes a circulating water tank (9), inside which several layers of filter grids (91) are arranged from top to bottom. A circulating water pump is provided at the bottom of the circulating water tank (9). The water inlet of the circulating water tank (9) is connected to the water outlet of the soaking tank (5), and the water supply end of the circulating water pump is connected to the water inlet of the soaking tank (5).
6. An olive mixing and washing device according to any one of claims 1 to 4, characterized in that, The spraying device (4) includes a spray head (41), a support frame (42), and a water supply pipe (43). The support frame (42) is fixedly installed above the cleaning net cage (2). The inside of the support frame (42) is provided with a bent water supply pipe (43). Several spray heads (41) are arranged and connected to the bottom of the water supply pipe (43).
7. The olive oil mixing and cleaning device according to claim 6, characterized in that, A booster pump is installed on the water supply pipe (43).
8. An olive mixing and washing device according to any one of claims 1-4, characterized in that, The lifting mechanism (1) includes a gantry frame (11), a connecting frame (12), and a lifting device (13). The gantry frame (11) is mounted above the cleaning net cage (2). The bottom of the gantry frame (11) is provided with connecting frames (12) at both ends of the cleaning net cage (2). The connecting frames (12) are connected to the ends of the cleaning net cage (2). The top of the gantry frame (11) is provided with a lifting device (13). The lifting end of the lifting device (13) is connected to the top of the connecting frame (12).
9. An olive hybrid washing device according to claim 8, characterized in that, The lifting device (13) includes any one of the following: lifting cylinder, screw lifting mechanism, and gear and rack lifting mechanism.