CN211165451U - Squeezing device for improving tea oil squeezing rate - Google Patents

Abstract

The utility model discloses an improve device that squeezes of tea-seed oil rate, including the press box, squeeze annular disc, float awl, floating disc, oil extraction device, drive arrangement and elasticity telescopic link, it is fixed to be set up in the press box that the annular disc that squeezes is horizontal distribution. The utility model discloses in, through squeezing annular disk and unsteady awl in the setting of squeezing the case, the upper cone portion of unsteady awl passes from the bottom of squeezing the annular disk, and squeeze the inner circle of annular disk and seted up and squeeze the ring channel, the upper cone position is provided with the direction annular disk of milling in squeezing the ring channel internal fixation, the direction annular disk of milling and up end and the last wall of squeezing the ring channel carry out the rotation to the tea-seed oil and mill, be located simultaneously and squeeze the ring channel and set up the unsteady dish, the fixed ram that runs through the direction annular disk of milling that is provided with on the unsteady dish, unsteady awl pivoted in-process, unsteady dish is floated from top to bottom, carry out the dispersion to the tea-seed oil that squeezes and tend to stir.

Description

Squeezing device for improving tea oil squeezing rate

Technical Field

The invention relates to the technical field of tea oil squeezing, in particular to a squeezing device for improving the tea oil squeezing rate.

Background

The camellia seed oil is commonly called tea oil, namely camellia oil and camellia seed oil, is pure natural high-grade edible plant oil extracted from common mature camellia seeds (camellia fruits) of camellia plants in the camellia family, and has golden or light yellow color, pure quality, clarity, transparency, fragrant smell and pure taste.

At present, the squeezing device in the common squeezer, its structure is the extrusion mill structure, acquires the tea-seed oil through the extrusion tea-seed oil, squeezes the oil and gets rid of the tea-seed oil of certain purity through the oil filter device, but this kind squeezes the structure, squeezes the in-process, and tea-seed oil sediment and tea-seed oil mixed density are big, and the tea-seed oil separation is not thorough, and the tea-seed oil sediment appears piling easily moreover and leads to the squeezing rate low.

Therefore, the invention provides a squeezing device for improving the tea oil squeezing rate.

Disclosure of Invention

The invention aims to: the device for squeezing the tea-seed oil is provided for solving the problem that the squeezing rate of the existing device for squeezing the tea-seed oil is low.

In order to achieve the purpose, the invention adopts the following technical scheme:

The utility model provides an improve device that squeezes of tea-seed oil rate, includes the press box, squeezes annular disc, float awl, floating disc, oil extraction device, drive arrangement and elasticity telescopic link, squeeze annular disc and be the fixed setting in the press box of horizontal distribution, the float awl is located the lower part of squeezing annular disc, and goes up the pyramis on it and pass and squeeze annular disc middle part and connect through elasticity telescopic link and drive arrangement, the table wall of squeezing annular disc inner circle has seted up and has squeezed the ring channel, the outside of going up the pyramis and be located and squeeze the ring channel fixedly connected with direction annular disc of milling, the floating disc is located and squeezes the ring channel and is located the direction lower part of milling annular disc, the bottom of floating disc with squeeze ring channel swing joint, and the fixed ram that is provided with the direction annular disc of milling in top.

As a further description of the above technical solution:

The fixed pyramis that is provided with down in bottom of floating awl, the oil extraction device rolls complex extrusion wheelset in annular scute and the annular scute of the outer table wall of pyramis under establishing including fixed cover, the one end and the press box fixed connection of extrusion wheelset, the nested filter screen subassembly that has in the annular scute.

As a further description of the above technical solution:

The bottom of the floating disc is fixedly provided with support rods which are uniformly distributed, and the lower surface wall in the squeezing ring groove is in a wave-breaking shape which is uniformly distributed in the circumferential direction.

As a further description of the above technical solution:

The upper end face of the guide milling annular disc is provided with a spiral oil duct which is distributed in the radial direction, and the cantilever rods are uniformly distributed in the radial direction in a spiral line mode, and the tops of the cantilever rods correspond to the spiral oil duct.

As a further description of the above technical solution:

The distance between the surface wall and the upper conical part of the inner ring of the squeezing annular disc at the upper part of the squeezing annular groove is larger than the distance between the surface wall and the upper conical part of the inner ring of the squeezing annular disc at the lower part of the squeezing annular groove.

As a further description of the above technical solution:

The number of the extrusion wheel sets is at least three, and the extrusion wheel sets are uniformly distributed in the circumferential direction.

As a further description of the above technical solution:

The top of the squeezing annular disc is in an inner cone shape, and the included angle between the upper end surface of the squeezing annular groove and the guide milling annular disc is an acute angle.

As a further description of the above technical solution:

And a coaming is fixedly arranged at the inner bottom of the squeezing box and positioned at the lower part of the lower cone part.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. According to the tea oil seed milling device, the squeezing box is internally provided with the squeezing annular disc and the floating cone, the upper cone part of the floating cone penetrates through the bottom of the squeezing annular disc, the inner ring of the squeezing annular disc is provided with the squeezing annular groove, the upper cone part is fixedly provided with the guiding milling annular disc in the squeezing annular groove, the guiding milling annular disc, the upper end face and the upper wall of the squeezing annular groove are used for rotationally milling tea oil seeds, meanwhile, the floating disc is arranged in the squeezing annular groove, the picking plate penetrating through the guiding milling annular disc is fixedly arranged on the floating disc, and the floating disc floats up and down in the rotating process of the floating cone to discretely stir the tea oil seeds which tend to be squeezed, so that the milling is more comprehensive, and the squeezing rate is.

2. According to the invention, the upper end surface of the guide milling annular disc is provided with the spiral oil ducts which are distributed in the radial direction, the cantilever levers are uniformly distributed in the radial direction in a spiral line manner, the tops of the cantilever levers correspond to the spiral oil ducts, and the produced tea oil is drained through the spiral oil ducts in the process of squeezing tea oil seeds, so that the tea oil can be separated in time, and the oil mixing amount of tea oil residues is greatly reduced.

3. According to the invention, the bottom of the floating cone is fixedly provided with the lower cone part, the oil discharging device comprises an annular angle plate fixedly sleeved on the outer surface wall of the lower cone part and an extrusion wheel set in the annular angle plate in rolling fit, tea oil generated by the upper cone part enters the annular angle plate through drainage of the surface wall of the floating cone, a filter screen assembly is nested in annular stirring, rollers on the extrusion wheel set contact the filter screen assembly, tea oil containing impurities is extruded and discharged in the rolling process, further clean tea oil falls into the enclosing plate through the tip part of the lower cone part and is collected independently, and the cleaning degree of the tea oil is improved.

Drawings

FIG. 1 is a schematic sectional view of a pressing device for increasing the pressing rate of tea oil according to the present invention;

FIG. 2 is a schematic structural diagram of the cooperation of a floating cone, a pressing annular disc and a floating disc of the pressing device for improving the tea oil pressing rate provided by the invention;

FIG. 3 is a schematic structural view of a view "a" in FIG. 2 of a pressing apparatus for increasing the pressing rate of tea oil according to the present invention;

FIG. 4 is a schematic structural diagram of a top view of a guide milling annular disc of a pressing device for improving the pressing rate of tea oil according to the present invention;

Fig. 5 is a schematic structural diagram of the cooperation of the squeezing wheel set, the squeezing box and the floating cone of the squeezing device for improving the tea oil squeezing rate.

Illustration of the drawings:

1. A press box; 11. enclosing plates; 2. a pressing ring disc; 21. pressing the ring groove; 3. a floating cone; 31. an upper cone part; 311. a guiding milling annular disc; 3111. a spiral oil passage; 32. a lower cone portion; 311. a guiding milling annular disc; 4. a floating disk; 41. a ram; 42. a support bar; 5. an oil discharge device; 51. an annular gusset; 52. an extrusion wheel set; 6. a drive device; 7. an elastic telescopic rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1-5, a squeezing device for increasing the tea oil squeezing rate comprises a squeezing box 1, a squeezing annular disc 2, a floating cone 3, a floating disc 4, an oil discharge device 5, a driving device 6 and an elastic expansion link 7, wherein the squeezing annular disc 2 is horizontally distributed and fixedly arranged in the squeezing box 1, the outer periphery of the squeezing annular disc 2 is welded with the inner surface wall of the squeezing box 1 through a connecting plate, a feed inlet is arranged at the top of the squeezing box 1, the floating cone 3 is positioned at the lower part of the squeezing annular disc 2, an upper cone 31 on the floating cone passes through the middle part of the squeezing annular disc 2 and is connected with the driving device 6 through the elastic expansion link 7, a squeezing annular groove 21 is arranged on the surface wall of the inner ring of the squeezing annular disc 2, a guiding milling annular disc 311 is fixedly connected with the outer part of the upper cone 31 and positioned in the squeezing annular groove 21, the floating disc 4 is positioned in the squeezing annular groove, the bottom of the floating disc 4 is movably connected with the squeezing ring groove 21, the bottom of the floating disc 4 is fixedly provided with supporting rods 42 which are uniformly distributed, the lower surface wall in the squeezing ring groove 21 is in a wave-breaking shape which is uniformly distributed in the circumferential direction, the bottom of each supporting rod 42 can be provided with a guide wheel, the guide wheels are in contact with the surface wall in the wave-breaking shape, so that the floating disc 4 floats up and down, the top of the floating disc 4 is fixedly provided with a ram 41 which penetrates through the guide milling ring disc 311, the top of the ram 41 extends out of the guide milling ring disc 311, therefore, tea oil seed residues are dispersed, after the ram 41 is reset, the guide milling ring disc 311 and the upper surface of the squeezing ring groove 21 continue to mill, so that the milling.

Example 2

Referring to fig. 2-4, the top of the pressing ring disc 2 is an inner cone shape, so as to facilitate the introduction of tea oil seed raw material, the distance between the surface wall of the inner ring of the pressing ring disc 2 at the upper part of the pressing ring groove 21 and the upper cone 31 is greater than the distance between the surface wall of the inner ring of the pressing ring disc 2 at the lower part of the pressing ring groove 21 and the upper cone 31, at the initial stage of pressing, a large amount of tea oil seeds are filled in the pressing ring groove 21 and at the upper part of the guiding grinding ring disc 311, the floating cone 3 descends under the guidance of the elastic telescopic rod 7, the distance between the pressing ring disc 2 and the upper cone 31 is increased, the separation of tea oil is accelerated, the included angle between the upper end surface of the pressing ring groove 21 and the guiding grinding ring disc 311 is an acute angle, so as to push the tea oil seeds 3113111 to move radially outward, the upper end surface of the guiding grinding ring disc 311 is provided with a radially distributed spiral, spiral oil duct 3111 is used for piling up tea-seed oil sediment, and ram 41 picks up the tea-seed oil sediment of piling up, utilizes the spiral dislocation of rotatory in-process to get rid of tea-seed oil sediment, further improves a lot of tea-seed oil sediment and squeezes, and spiral oil duct 3111 is convenient for drainage tea-seed oil to border position simultaneously to fall into the lower part through squeezing ring channel 21.

Example 3

Referring to fig. 5, the bottom of the floating cone 3 is fixedly provided with a lower cone 32, the oil discharging device 5 comprises an annular angle plate 51 fixedly sleeved on the outer surface wall of the lower cone 32 and a pressing wheel set 52 in rolling fit with the annular angle plate 51, the pressing wheel set 52 adopts a guide wheel structure, one end of the pressing wheel set 52 is fixedly connected with the pressing box 1, a filter screen assembly is nested in the annular angle plate 51, the guide wheel is in contact with the filter screen assembly, wherein the wheel carrier that the leading wheel corresponds can be made common elastic expansion's structure, makes things convenient for the leading wheel to continue to extrude the filter screen subassembly, and the extrusion of being convenient for contains the tea-seed oil of impurity, and the interior bottom of squeezing box 1 just is located the fixed bounding wall 11 that is provided with in pyramis 32 lower part down, and pure tea-seed oil passes the filter screen subassembly and falls into in the bounding wall 11, collects alone, and the quantity that improves tea-seed oil's clean degree extrusion wheelset 52 is three at least, and becomes circumference evenly distributed.

The working principle is as follows: when in use, the driving device 6 in the present application document can adopt a rotating motor installed on the squeezing box 1 through a bolt, the elastic telescopic rod 7 is a common telescopic rod structure, a traction spring is arranged in the telescopic rod, the bottom of the telescopic rod is fixedly connected with the top of the lower cone part 32, therefore, the lower cone part 32 is in floating contact with the squeezing annular disc 2, the driving motor rotates to drive the floating cone 3 to rotate and the squeezing annular disc 2 to rotate in a staggered way, tea oil seeds are put into the upper end surface of the guiding milling annular disc 311 through the tip part of the upper cone part 31 through the feed inlet at the top of the squeezing box 1, the guiding milling annular disc 311 and the upper wall in the squeezing annular groove 21 roll the tea oil seeds, and the tea oil seeds move radially and outwards under the guide of the spiral oil duct 3111, when in squeezing, the tea oil enters the squeezing annular groove 21 under the guide of the spiral oil duct 3111, the tea oil enters the annular angle plate 51 through the, the guide wheel on the extrusion wheel group 52 extrudes the filter screen assembly, so that the tea oil containing impurities can be conveniently extruded, and the pure tea oil passes through the filter screen assembly and falls into the coaming 11 to be separately collected.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. The squeezing device for improving the tea oil squeezing rate is characterized by comprising a squeezing box (1), a squeezing annular disc (2), a floating cone (3), a floating disc (4), an oil discharging device (5), a driving device (6) and an elastic telescopic rod (7), wherein the squeezing annular disc (2) is horizontally distributed and fixedly arranged in the squeezing box (1), the floating cone (3) is positioned at the lower part of the squeezing annular disc (2), an upper cone part (31) on the floating cone penetrates through the middle part of the squeezing annular disc (2) and is connected with the driving device (6) through the elastic telescopic rod (7), a squeezing annular groove (21) is formed in the surface wall of the inner ring of the squeezing annular disc (2), the outer part of the upper cone part (31) is fixedly connected with a milling guide annular disc (311) in the squeezing annular groove (21), the floating disc (4) is positioned in the squeezing annular groove (21) and is positioned at the lower part of the milling guide annular disc (311), the bottom of the floating disc (4) is movably connected with the squeezing annular groove (21), and the top of the floating disc is fixedly provided with a ram (41) penetrating through the guide milling annular disc (311).

2. The squeezing device for improving the tea oil squeezing rate according to claim 1, wherein the bottom of the floating cone (3) is fixedly provided with a lower cone part (32), the oil discharging device (5) comprises an annular angle plate (51) fixedly sleeved on the outer surface wall of the lower cone part (32) and a squeezing wheel set (52) in rolling fit with the annular angle plate (51), one end of the squeezing wheel set (52) is fixedly connected with the squeezing box (1), and a filter screen assembly is nested in the annular angle plate (51).

3. The pressing device for improving the pressing rate of the tea oil as claimed in claim 1, wherein the bottom of the floating disc (4) is fixedly provided with uniformly distributed support rods (42), and the lower surface wall in the pressing annular groove (21) is in a wave shape uniformly distributed in the circumferential direction.

4. The squeezing device for improving the squeezing rate of tea oil according to claim 1, wherein the upper end surface of the guiding milling annular disc (311) is provided with a spiral oil passage (3111) which is radially distributed, the take-up levers (41) are uniformly distributed in a radial spiral way, and the top of the take-up levers corresponds to the spiral oil passage (3111).

5. A pressing apparatus for increasing a pressing rate of tea oil according to claim 1, wherein a distance between a surface wall of the inner circumference of the pressing ring disc (2) at an upper portion of the pressing ring groove (21) and the upper tapered portion (31) is larger than a distance between a surface wall of the inner circumference of the pressing ring disc (2) at a lower portion of the pressing ring groove (21) and the upper tapered portion (31).

6. A pressing device for increasing the pressing rate of tea oil according to claim 2, wherein the number of the pressing wheel sets (52) is at least three, and the pressing wheel sets are uniformly distributed in the circumferential direction.

7. The squeezing device for improving the tea oil squeezing rate according to claim 1, wherein the top of the squeezing annular disc (2) is of an inner cone shape, and the included angle between the upper end surface of the squeezing annular groove (21) and the guiding grinding annular disc (311) is an acute angle.

8. A press device for increasing the pressing rate of tea oil according to claim 1, wherein a coaming (11) is fixedly arranged at the inner bottom of the press box (1) and below the lower cone part (32).

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