CN215232663U - Slag taking device for oil shaking machine - Google Patents

Abstract

The utility model relates to a shake oily machine with getting sediment device belongs to the field of shaking oily machine, and it is including the transfer mechanism that is used for shifting the mixture in the right oil pan, transfer mechanism one end is provided with the storage water tank, reciprocal rotation is connected with first filter mechanism in the storage water tank, first filter mechanism includes that reciprocal rotation connects the filter hopper in the storage water tank, lay the first filter cloth layer that is arranged in filtering the water of mixture in the filter hopper, filter hopper lateral wall fixedly connected with dwang, the rotation rod axis level sets up, dwang reciprocal rotation is connected in the storage water tank inner wall, dwang reciprocal turned angle is 30, set up actuating mechanism on the storage water tank, actuating mechanism includes fixed connection in the storage water tank driving motor, driving motor drive dwang reciprocal rotation.

Description

Slag taking device for oil shaking machine

Technical Field

The application relates to the field of oil shaking machines, in particular to a slag extracting device for an oil shaking machine.

Background

In the production process of sesame oil, sesame is ground into a soy sauce blank through a grinding process, the soy sauce blank is poured into an oil shaking machine, then drinking water with a certain proportion is poured, after repeated physical stirring by the oil shaking machine, oil floats on the upper layer, and non-oil components and drinking water are precipitated on the lower layer, so that the separation of the oil and the non-oil components is realized.

Among the correlation technique, chinese utility model patent that the publication number of granting is CN203403074U discloses an electronic stainless steel mound oil machine, including the casing, rotate on the casing and be connected with left oil pan and right oil pan, be provided with the left oil pan of drive and right oil pan pivoted buncher on the casing, be provided with in the right oil pan and stir oil fork. And adding the soy sauce germ and drinking water into the right oil pan, driving the right oil pan to rotate by the speed reducing motor, and promoting the non-oil ingredients to be mixed with the water tank and enter the water phase under the stirring action of the oil stirring fork, so that the non-oil ingredients are separated from the oil. After the oil shaking is finished, the oil is scooped out firstly, then the mixture of non-oil components and water is scooped out, and finally the right oil pan is cleaned.

In view of the above-mentioned related art, the inventor has considered that the mixture of non-oil components and water needs to be scooped out manually before cleaning the right oil pan, which is very inconvenient.

SUMMERY OF THE UTILITY MODEL

In order to make things convenient for the mixture with non-oil component and water to transfer out from right oil pan, reduce workman intensity of labour, this application provides a shake oily for machine sediment device of getting.

The application provides a shake oily machine with getting sediment device adopts following technical scheme:

the utility model provides a shake oily machine with getting sediment device, is including the transfer mechanism who is used for shifting the mixture in the right oil pan, transfer mechanism one end is provided with the storage water tank, reciprocating rotation is connected with first filter mechanism in the storage water tank, first filter mechanism includes that reciprocating rotation connects the filter hopper in the storage water tank, lay the first filter cloth layer that is arranged in filtering the water of mixture in the filter hopper, filter hopper lateral wall fixedly connected with dwang, the dwang axis level sets up, the reciprocal rotation of dwang is connected in the storage water tank inner wall, the reciprocal turned angle of dwang is 30, set up actuating mechanism on the storage water tank, actuating mechanism includes fixed connection the driving motor on the storage water tank, driving motor drive dwang reciprocal rotation.

Through adopting above-mentioned technical scheme, the mixture in the right oil pan is shifted to the filter hopper in the transfer mechanism, and the mixture filters through first filter cloth layer heart, and non-oil composition stays on first filter cloth layer, and water gets into the storage water tank in, thereby makes the mixture flow in the filter hopper through the reciprocating rotation of driving motor drive dwang for filter speed, improvement filtration efficiency effectively reduces workman intensity of labour.

Optionally, transfer the mechanism including stretching into the thick liquid pipe of taking out in the right oil pan, right oil pan one end fixedly connected with sediment stuff pump is kept away from to the thick liquid pipe, it advances thick liquid end with the sediment stuff pump and is connected to take out the thick liquid pipe, sediment stuff pump play thick liquid end fixedly connected with goes out the thick liquid pipe.

By adopting the technical scheme, the slurry pump is started to discharge the mixture through the slurry outlet pipe through the slurry pumping pipe, and the operation is simple and convenient.

Optionally, set up the ascending filter chamber of opening in the filter hopper, first filter cloth layer is laid and is filtered intracavity wall and filter hopper upper surface, a plurality of holes of permeating water have been seted up on the filter hopper, be provided with clamping component in the filter hopper, clamping component includes the first connecting ring of joint in filter hopper upper surface, first connecting ring will be located the filter hopper upper surface first filter cloth layer with filter hopper and press from both sides tightly.

Through adopting above-mentioned technical scheme, first connecting ring improves the stability of first filter cloth layer in filtering the fill, reduces because of first filter cloth layer removes the not good condition of filter effect that leads to.

Optionally, the lower surface of the first connecting ring is fixedly connected with a second connecting ring through a connecting rod, the lower surface and the side wall of the second connecting ring are both abutted against the first filter cloth layer, and the second connecting ring and the inner wall of the filter cavity abut against the first filter cloth layer.

Through adopting above-mentioned technical scheme, the second go-between supports tightly first filter cloth layer and filter chamber inner wall to improve the stability of first filter cloth layer in the filter chamber.

Optionally, the filter hopper is connected with the first filter cloth layer and the clamping assembly through a fixing assembly, the fixing assembly comprises a plurality of fixing rods vertically and fixedly connected to the upper surface of the filter hopper, and the fixing rods penetrate through the first filter cloth layer and the first connecting ring.

Through adopting above-mentioned technical scheme, when installing first filter cloth layer and clamping component, the fixed rod plays the positioning action to first filter cloth layer and first connecting ring to the convenience is installed first filter layer and clamping component.

Optionally, the coaxial fixedly connected with drive gear of storage water tank lateral wall is passed to one of them dwang one end, storage water tank lateral wall horizontal sliding connection has the drive rack, drive rack and drive gear meshing, driving motor drive rack slides to and fro.

Through adopting above-mentioned technical scheme, thereby drive rack reciprocating slide drive gear reciprocating rotation, and then drive through the dwang and filter the reciprocal rotation of fighting, improve filter speed and work efficiency.

Optionally, a second filtering mechanism is connected to the water storage tank in a horizontal sliding manner, the second filtering mechanism is located below the first filtering mechanism, and the second filtering mechanism is used for further filtering non-oil components in the water.

Through adopting above-mentioned technical scheme, second filter mechanism carries out the second to water and filters recycle to the non-oil composition of aquatic further.

Optionally, the second filtering mechanism includes a supporting frame horizontally slidably connected in the water storage tank, a filtering net layer is fixedly connected to the inner wall of the supporting frame, a second filtering cloth layer is laid on the upper surface of the filtering net layer, and the aperture of the second filtering cloth layer is smaller than that of the first filtering cloth layer.

Through adopting above-mentioned technical scheme, the second filter cloth layer further filters the back to the non-oily composition of aquatic, with the carriage follow the storage water tank in the roll-off can retrieve the non-oily composition on the second filter cloth layer.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the mixture is pumped out of the right oil pan through the slurry pump and is subjected to two-stage filtration through the first filtering mechanism and the second filtering mechanism, so that non-oil components are conveniently recycled;

2. in the reciprocating rotation process of the first filtering mechanism, the mixture flows in the filtering hopper, so that the filtering speed is increased, and the working efficiency is improved;

3. and (4) sliding the clamping component out of the filter hopper, and taking the first filter cloth layer out of the filter hopper to recover non-oil components.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic cross-sectional view of a portion of the structure of an embodiment of the present application, which is mainly used for illustrating a driving mechanism;

FIG. 3 is a partial schematic structural view of an embodiment of the present application, which is mainly used for illustrating a first filtering mechanism and a second filtering mechanism;

FIG. 4 is an exploded view of a portion of the structure of the embodiment of the present application, which is mainly used to show the first filtering mechanism and the second filtering mechanism;

FIG. 5 is another view of FIG. 4, primarily illustrating the pockets;

fig. 6 is a partially enlarged view of a portion a in fig. 2.

Description of reference numerals: 1. a transfer mechanism; 11. a slurry pump; 12. a slurry pumping pipe; 13. a pulp outlet pipe; 2. a water storage tank; 21. a water storage cavity; 22. a sliding groove; 23. a chute; 3. a first filter mechanism; 31. a filter hopper; 311. a filter chamber; 312. water permeable holes; 32. a first filter cloth layer; 33. a clamping assembly; 331. a first connecting ring; 332. a ring groove; 333. a connecting rod; 334. a second connection ring; 335. passing through the aperture; 34. rotating the rod; 35. a fixing assembly; 351. fixing the rod; 352. corn buttons; 4. a drive mechanism; 41. a drive gear; 42. a drive rack; 43. a crank link assembly; 431. a first link; 432. a second link; 433. a slide bar; 434. a sliding strip; 44. a drive motor; 5. a second filter mechanism; 51. a support frame; 52. a filter screen layer; 53. a second filter cloth layer.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses oil shaking machine is with getting sediment device. Referring to fig. 1 and 2, a shake oily machine with getting sediment device includes transfer mechanism 1, transfer mechanism 1 one end stretches into in the right oil pan, the other end is provided with storage water tank 2, water storage chamber 21 has been seted up in storage water tank 2, water storage chamber 21 opening is upwards, reciprocal rotation is connected with the first filter mechanism 3 that is used for filtering the mixture in storage water tank 2, the reciprocal turned angle of first filter mechanism 3 is 30, storage water tank 2 lateral wall is provided with the drive mechanism 4 that drives the reciprocal rotation of first filter mechanism 3, the water level smooth motion is connected with second filter mechanism 5 in storage water tank 2, second filter mechanism 5 is located first filter mechanism 3 below in vertical direction.

The mixture in the right oil pan is transferred to the first filtering mechanism 3 through the transferring mechanism 1, and the first filtering mechanism 3 and the second filtering mechanism 5 separate water from non-oil components, so that the water in the non-oil components is reduced, and the non-oil components are conveniently recycled.

Referring to fig. 1, the transfer mechanism 1 comprises a slurry pump 11, a slurry inlet end of the slurry pump 11 is fixedly connected with a slurry pumping pipe 12, a slurry outlet end of the slurry pump 11 is fixedly connected with a slurry outlet pipe 13, and the slurry pumping pipe 12 extends into the right oil pan.

Referring to fig. 3 and 4, the first filtering mechanism 3 includes a rectangular parallelepiped filtering funnel 31 horizontally disposed in a length direction, a filtering cavity 311 is formed in the filtering funnel 31, an opening of the filtering cavity 311 is disposed upward, and a plurality of water permeable holes 312 are formed in a side wall of the filtering cavity 311. A first filter cloth layer 32 is laid on the filter hopper 31, and the first filter cloth layer 32 abuts against the inner wall of the filter cavity 311 and the upper surface of the filter hopper 31. The first filter bowl 31 is provided with a clamping assembly 33, the clamping assembly 33 abuts against the side of the first filter cloth layer 32, which is away from the filter bowl 31, and the clamping assembly 33 and the filter bowl 31 clamp the first filter cloth layer 32. The fixing component 35 is fixedly connected to the upper surface of the filter hopper 31, and the fixing component 35 connects the filter hopper 31, the first filter cloth layer 32 and the clamping component 33.

The first filter cloth layer 32 is clamped on the filter hopper 31 through the clamping component 33, the filter hopper 31, the first filter cloth layer 32 and the clamping component 33 are fixedly connected through the fixing component 35, the mixture is filtered through the first filter cloth layer 32, water passes through the first filter cloth layer 32, and non-oil components are remained on the first filter cloth layer 32, so that the non-oil components are conveniently recycled.

Referring to fig. 1 and 2, the equal horizontal fixedly connected with dwang 34 of both sides wall of filter hopper 31, the lateral wall of filter hopper 31 and filter hopper 31 length direction at dwang 34 place are parallel, dwang 34 axial is perpendicular with filter hopper 31 length direction, dwang 34 rotates to be connected on the lateral wall of water storage chamber 21, dwang 34 axis is filter hopper 31 axis of rotation promptly, dwang 34 reciprocating angle is 30.

Referring to fig. 4 and 5, the clamping assembly 33 includes a first connecting ring 331 having a square shape, a ring groove 332 is formed on a lower surface of the first connecting ring 331, and the upper surface of the filter funnel 31 and the first filter cloth layer 32 are clamped in the ring groove 332. Four connecting rods 333 are vertically and fixedly connected to the lower surface of the first connecting ring 331, each corner of the first connecting ring 331 is correspondingly provided with one connecting rod 333, and the connecting rods 333 are abutted to the first filter cloth layer 32. A square second connection ring 334 is fixedly connected to the lower end surface of the connection rod 333, and the lower surface and the outer side wall of the second connection ring 334 are abutted against the first filter cloth layer 32. The first connection ring 331 drives the second connection ring 334 to descend through the connection rod 333, the second connection ring 334 slides into the filter bowl 31 to tightly press the first filter cloth layer 32, and the first connection ring 331 tightly clamps the first filter cloth layer 32 and the upper surface portion of the filter bowl 31.

Referring to fig. 4 and 5, the fixing assembly 35 includes a fixing rod 351 vertically and fixedly connected to the upper surface of the filter hopper 31, a fixing rod 351 is correspondingly arranged at a corner of the upper surface of the filter hopper 31, an eyelet button 352 is fixedly connected to the first filter cloth layer 32, each fixing rod 351 has one eyelet button 352 correspondingly arranged thereon, the fixing rod 351 passes through the eyelet button 352, and the bottom wall of the ring groove 332 corresponds to the fixing rod 351 and is provided with a through hole 335 for the fixing rod 351 to pass through. The first filter cloth layer 32 is installed, the fixing rod 351 passes through the eyelet 352, the clamping assembly 33 is installed, and the fixing rod 351 passes through the first connecting ring 331, thereby completing the installation.

Referring to fig. 2 and 3, the second filtering mechanism 5 includes a supporting frame 51 horizontally slidably connected in the water storage tank 2, a stainless steel filtering net layer 52 is horizontally and fixedly connected to the inner wall of the supporting frame 51, a second filtering cloth layer 53 is laid on the stainless steel filtering net layer 52, and the aperture of the second filtering cloth layer 53 is smaller than that of the first filtering cloth layer 32. The side wall of the water storage tank 2 is horizontally provided with a sliding chute 23, and the supporting frame 51 is connected in the sliding chute 23 in a sliding way.

Referring to fig. 2 and 6, the driving mechanism 4 includes a driving gear 41, one end of one of the rotating rods 34, which is away from the filter hopper 31, penetrates through the side wall of the water storage cavity 21 and is coaxially and fixedly connected with the driving gear 41, the outer side wall of the water storage tank 2 is horizontally and reciprocally slidably connected with a driving rack 42, the driving rack 42 is engaged with the driving gear 41, the side wall of the water storage tank 2 is provided with a crank connecting rod assembly 43 for driving the driving rack 42 to reciprocally slide, the water storage tank 2 is fixedly connected with a driving motor 44, and the driving motor 44 drives the driving rack 42 to reciprocally slide through the crank connecting rod assembly 43.

Referring to fig. 2 and 6, a first connecting rod 431 is fixedly connected to a main shaft of the driving motor 44, one end of the first connecting rod 431 is fixedly connected to the main shaft of the driving motor 44, the other end of the first connecting rod 431 is rotatably connected to a second connecting rod 432, one end of the second connecting rod 432, which is far away from the first connecting rod 431, is rotatably connected to a sliding rod 433, the sliding rod 433 is horizontally slidably connected to a side wall of the water storage tank 2, and the driving rack 42 is fixedly connected to the upper surface of the sliding rod 433. Slide pole 433 towards storage water tank 2 lateral wall one side fixed connection T type strip 434 that slides, storage water tank 2 has seted up T type groove 22 that slides towards slide pole 433 one side level, slides strip 434 sliding connection in sliding groove 22. Drive first connecting rod 431 and rotate after driving motor 44 starts, first connecting rod 431 drives second connecting rod 432 and rotates, and second connecting rod 432 drives the pole 433 that slides reciprocating to through drive rack 42 drive gear 41 reciprocating rotation, and then drive filtration fill 31 reciprocating rotation through dwang 34, thereby filtration fill 31 reciprocating rotation drives the mixture and flows and improve filtration efficiency.

The implementation principle of the oil sloshing machine slag extractor is as follows: the slurry pump 11 transfers the mixture in the right oil pan to the first filter cloth layer 32. Drive motor 44 starts to drive first connecting rod 431 and rotates, and first connecting rod 431 drives second connecting rod 432 and rotates to the reciprocal slip of drive slide bar 433, slide bar 433 drive gear 41 and reciprocate and slide, and then realize drive gear 41's reciprocal rotation, drive gear 41 drives filter hopper 31 through dwang 34 and reciprocates. The mixture flows in the filter hopper 31, thereby promoting the water to be filtered out and fall onto the second filter cloth layer 53. The second filter cloth layer 53 further filters the water.

When the non-oil components are recovered, the clamping unit 33 is slid out of the filter hopper 31, and the first filter cloth layer 32 is taken out. The support frame 51 slides out of the water tank 2, and the non-oil component can be recovered by removing the second filter cloth layer 53.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a shake oil machine with getting sediment device which characterized in that: including transfer mechanism (1) that is arranged in shifting the mixture in the right oil pan, transfer mechanism (1) one end is provided with storage water tank (2), reciprocating rotation is connected with first filtering mechanism (3) in storage water tank (2), first filtering mechanism (3) are including reciprocating rotation filter hopper (31) of connecting in storage water tank (2), lay first filter cloth layer (32) that are arranged in filtering the water in the mixture in filter hopper (31), filter hopper (31) lateral wall fixedly connected with dwang (34), dwang (34) axis level sets up, dwang (34) reciprocating rotation is connected in storage water tank (2) inner wall, dwang (34) reciprocating rotation angle is 30, set up actuating mechanism (4) on storage water tank (2), actuating mechanism (4) include driving motor (44) of fixed connection on storage water tank (2), the driving motor (44) drives the rotating rod (34) to rotate in a reciprocating mode.

2. The slag extractor for the oil sloshing machine as claimed in claim 1, wherein: transfer mechanism (1) including stretching into slurry pumping pipe (12) in the right oil pan, slurry pumping pipe (12) are kept away from right oil pan one end fixedly connected with sediment stuff pump (11), slurry pumping pipe (12) advance thick liquid end with sediment stuff pump (11) and are connected, sediment stuff pump (11) play thick liquid end fixedly connected with goes out thick liquid pipe (13).

3. The slag extractor for the oil sloshing machine as claimed in claim 1, wherein: filter chamber (311) that the opening is ascending have been seted up in filter hopper (31), first filter cloth layer (32) are laid in filter chamber (311) inner wall and filter hopper (31) upper surface, a plurality of holes (312) of permeating water have been seted up on filter hopper (31), be provided with clamping component (33) in filter hopper (31), clamping component (33) are including first connecting ring (331) of joint in filter hopper (31) upper surface, first connecting ring (331) will be located filter hopper (31) upper surface first filter cloth layer (32) and press from both sides tightly with filter hopper (31).

4. The slag extractor for the oil sloshing machine as claimed in claim 3, wherein: the lower surface of the first connecting ring (331) is fixedly connected with a second connecting ring (334) through a connecting rod (333), the lower surface and the side wall of the second connecting ring (334) are respectively abutted against the first filtering cloth layer (32), and the second connecting ring (334) and the inner wall of the filtering cavity (311) tightly abut against the first filtering cloth layer (32).

5. The slag extractor for the oil sloshing machine as claimed in claim 3, wherein: the filter hopper (31) is connected with the first filter cloth layer (32) and the clamping component (33) through a fixing component (35), the fixing component (35) comprises a plurality of fixing rods (351) which are vertically and fixedly connected to the upper surface of the filter hopper (31), and the fixing rods (351) penetrate through the first filter cloth layer (32) and the first connecting ring (331).

6. The slag extractor for the oil sloshing machine as claimed in claim 1, wherein: one end of one rotating rod (34) penetrates through a driving gear (41) which is coaxially and fixedly connected with the side wall of the water storage tank (2), a driving rack (42) is horizontally and slidably connected to the outer side wall of the water storage tank (2), the driving rack (42) is meshed with the driving gear (41), and the driving gear (42) is driven by a driving motor (44) to slide in a reciprocating mode.

7. The slag extractor for the oil sloshing machine as claimed in claim 1, wherein: the water level in the water storage tank (2) is in smooth movable connection with a second filtering mechanism (5), the second filtering mechanism (5) is located below the first filtering mechanism (3), and the second filtering mechanism (5) is used for further filtering non-oil components in the water.

8. The slag extractor for the oil sloshing machine as claimed in claim 7, wherein: the second filtering mechanism (5) comprises a supporting frame (51) which is horizontally connected in the water storage tank (2) in a sliding mode, a filtering net layer (52) is fixedly connected to the inner wall of the supporting frame (51), a second filtering cloth layer (53) is laid on the upper surface of the filtering net layer (52), and the aperture of the second filtering cloth layer (53) is smaller than that of the first filtering cloth layer (32).

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