CN218315425U - Former ecological camellia oil processing is with squeezing equipment - Google Patents

Abstract

The utility model discloses an original ecology camellia oil processing is with squeezing equipment aims at solving the camellia and squeezes the situation that the garrulous leaf of camellia blockked up the oil drain hole in-process, leads to the oil drain hole no longer to arrange the oil, can sound the normal problem of squeezing efficiency of device. The key points of the technical scheme are as follows: the utility model provides a processing of former ecology camellia oil is with squeezing equipment, squeezes the pipe including press box and two, is provided with the first drive assembly who is used for driving two and squeezes a pipe roll-off press box in the press box, and two feed inlets have been seted up to the upper end symmetry of press box, and two equal sliding connection of feed inlet department have a feed baffle that is used for sheltering from the feed inlet, are provided with the second drive assembly who is used for driving two feed baffle intermittent type and shelter from two feed inlets in the press box. The utility model discloses an original ecology camellia oil processing is with squeezing equipment can also squeeze the processing to the camellia sediment when squeezing the pipe mediation for the press box can dredge on one side and extract oil, and then guarantees the efficiency of squeezing the camellia oil.

Description

Former ecological camellia oil processing is with squeezing equipment

Technical Field

The utility model relates to a camellia oil processing technology field, more specifically say, it relates to an original ecology camellia oil processing is with squeezing equipment.

Background

The camellia oil is obtained from seeds of camellia oleifera of Theaceae of Camellia. The preparation process of the camellia oil comprises the following steps: removing shell, sun drying, pulverizing, steaming, squeezing oil, and filtering. The tea oil does not contain erucic acid and cholesterol. Through the test: the content of unsaturated fatty acid in the tea oil is up to more than 90 percent, the content of oleic acid is up to 80 to 83 percent, the content of linoleic acid is up to 7 to 13 percent, but the content of linolenic acid is extremely low. The traditional tea oil squeezing equipment has the problem of insufficient squeezing force, so that the oil content in the oil residue is high, and the resource is seriously wasted; the traditional tea oil squeezing equipment also has the defects of poor production continuity, poor oil product quality and the like.

In order to solve the problems, the Chinese patent with the publication number of CN206733656U discloses a camellia oil fine and deep processing efficient squeezing device, wherein a squeezing blade is arranged in a squeezing pipe and is welded on a main shaft, the squeezing blade is of a spiral structure, the thickness of the squeezing blade gradually increases from front to back, the diameter of the main shaft gradually increases from front to back, the front end of the squeezing pipe is connected with a front bearing box through a flange, the rear end of the squeezing pipe is connected with a support plate through a flange, a slag discharge port communicated with the flange and the support plate is arranged between the support plate and the main shaft, a water cooling jacket is arranged on the outer side of the squeezing pipe, a semi-cylindrical oil collecting tank is arranged on the outer side of the lower half part of the water cooling jacket, and the oil collecting tank is communicated with the inner cavity of the squeezing pipe through an oil discharge hole.

The squeezing device has the advantages of large extrusion force, good production continuity and good oil product quality. But the device that squeezes of above-mentioned scheme realizes squeezing back tea-seed oil through setting up a plurality of oil drain holes and discharges, and a plurality of oil drain holes are located and squeeze the socle portion simultaneously for the camellia squeezes the in-process, and the garrulous leaf of camellia will discharge oil the situation that the oil drain hole blockked up, and the oil drain hole of jam no longer realizes the oil extraction, can influence the efficiency that the device normally squeezed.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a processing of former ecology camellia oil is with squeezing equipment can also squeeze the processing to the camellia sediment when squeezing the pipe mediation for the press box can dredge and extract oil on one side, and then guarantees the efficiency of squeezing the camellia oil.

The above technical object of the present invention can be achieved by the following technical solutions: the utility model provides an original ecology camellia oil processing is with squeezing equipment, includes the press box and sets up two in the press box and squeezes the pipe, two equal array distribution has a plurality of oil drain holes, two on squeezing the pipe squeeze the equal sliding connection of pipe in the press box, be provided with the first drive assembly who is used for driving two and squeezes pipe roll-off press box in the press box, two feed inlets, two have been seted up to the upper end symmetry of press box feed inlet department equal sliding connection has the feeding baffle that is used for sheltering from the feed inlet, be provided with the second drive assembly who is used for driving two feeding baffle intermittent type and shelters from two feed inlets in the press box, one side of press box is provided with the mediation subassembly, the mediation subassembly includes that workstation, fixed connection electric putter, fixed connection on the workstation collect oil board and a plurality of dredging pipe of array distribution on collecting oil board, the width that the collecting oil board set up is greater than the width that squeezes the pipe, and is a plurality of dredging pipe set up the position corresponding with the position that a plurality of oil drain hole set up.

By adopting the technical scheme, when the squeezing device is in normal use, two feed inlets can not be opened at the same time, only one feed inlet can be opened, the other feed inlet can be closed, camellia residues can be fed through one feed inlet, the feed baffle can shield the feed inlet under the action of the second driving assembly, the feed baffle can slide in the squeezing box after the second driving assembly is driven, and then the feed inlet is blocked or opened, so that the squeezing treatment can be realized through camellia residues in the squeezing box, the squeezed camellia oil can be discharged through the oil discharge holes arrayed on the squeezing pipe, after the camellia oil is discharged, the feed baffle shielding the feed inlet is replaced through the second driving assembly, the feed inlet at the upper end of the squeezing pipe subjected to the squeezing treatment is in the closed state, then the squeezing pipe after the squeezing treatment can slide out of the squeezing box through the first driving assembly, the squeezing pipe can stretch out of the squeezing box, then the electric push rod is started to push the oil collecting plate to move towards one end close to the squeezing box, and the oil discharge pipe can be prevented from being plugged under the squeezing pipe under the effect of the squeezing pipe, and the effect that the squeezing pipe can be removed under the normal squeezing treatment can be prevented, and the normal squeezing pipe can be dredged by the squeezing pipe when the extending of the electric push rod is started, the electric push rod, the squeezing pipe can be inserted into the squeezing pipe, and the squeezing pipe, the squeezing pipe can be prevented from the squeezing pipe, meanwhile, the situation that the camellia residues are blocked in the oil discharge hole due to bacteria can be prevented, and the normal working efficiency of the squeezing pipe can be ensured.

The utility model discloses further set up to: first drive assembly includes with two drive levers that squeeze a tub fixed connection and be used for the mounting of fixed drive lever, the mounting is including setting up first magnet and the second magnet of setting in the press box outside on the drive lever, first magnet adsorbs each other with the second magnet, the press box is stretched out to the drive lever, set up on the press box and supply the gliding first slide rail of drive lever, be provided with the gliding second slide rail of confession squeeze tub.

Through adopting above-mentioned technical scheme, then need the actuating lever that slides when needs will squeeze the pipe from the press box roll-off, make the actuating lever that stretches out outside the press box can slide along the inner wall of first slide rail, and then drive and squeeze the pipe and slide along the inner wall of second slide rail, when squeezing the complete roll-off press box of pipe, then the actuating lever can not continue to slide again, first magnet on the actuating lever can be in the same place with the second magnet absorption in the press box outside simultaneously, realize the fixing of actuating lever and squeeze the pipe, and then can handle squeezing the pipe through the effect of mediation subassembly, wait to squeeze to drive the pole through removing the actuating lever again after the pipe mediation finishes and squeeze the pipe and remove back initial position, then rethread first magnet realizes the actuating lever and squeezes the fixed of pipe with the absorption of second magnet, guarantee to squeeze the pipe and can both be in stable state when carrying out mediation processing or squeezing the processing.

The utility model discloses further set up to: the driving rod is L-shaped and the width of the driving rod is smaller than the width of the squeezing pipe.

Through adopting above-mentioned technical scheme, when squeezing the pipe and being in initial position, the actuating lever inserts in the slide rail all the time, and squeezes the pipe and can shelter from the leakproofness of guaranteeing to squeeze the case to the slide rail, squeezes the outer wall cover of pipe simultaneously and establishes the sealing washer, guarantees that the actuating lever drives and squeezes the stability when pipe slides.

The utility model discloses further set up to: the equal first stopper of fixedly connected with in both ends of actuating lever, all set up on the both sides wall of slide rail and supply the gliding first spacing groove of first stopper.

Through adopting above-mentioned technical scheme, the second stopper at both ends can insert at first spacing inslot all the time when the actuating lever slides in the slide rail for the actuating lever is more stable when sliding and can not break away from in the slide rail, and then also can be more smooth and easy and stable when making the actuating lever drive to squeeze the pipe and remove.

The utility model discloses further set up to: the second driving assembly comprises a motor arranged in the squeezing box, a first gear fixedly connected with an output shaft of the motor, two second gears symmetrically meshed at two ends of the first gear, two sector gears fixedly connected to the two second gears and a pushing toothed bar meshed with the two sector gears, the pushing toothed bar is slidably connected in the squeezing box, and the two feeding baffles are fixedly connected at two ends of the pushing toothed bar respectively.

By adopting the technical scheme, the camellia dregs to be processed need to enter the squeezing box through the feed inlet, at the moment, the feeding baffle at one end shields the feeding hole at one end, the feeding hole at the other end is in an open state, the camellia residue raw material is not added after the camellia residue is completely fed, so that the camellia residue is squeezed in the squeezing box, and after the camellia residue is squeezed, the motor is started to drive the first gear to rotate in the squeezing box, so that the first gear can drive the second gears at two ends to rotate in the squeezing box when rotating, the sector gear on the second gear can rotate along with the rotation of the second gear when the second gear rotates along with the first gear, at the moment, the sector gear at one end rotates gradually to be separated from the pushing rack bar, the sector gear at the other end is gradually meshed with the pushing rack bar, then the sector gear at the other end can drive the pushing toothed bar to slide in the press box under the continuous rotation, thereby realizing that the gear rod is pushed to drive the two feeding baffle plates to slide, the feeding baffle plate at one end does not block the feeding hole at one end any more, the feeding baffle plate at the other end moves to shield the feeding hole at the other end along with the movement of the pushing rack bar, the feeding hole at the other end is sealed, and the feeding hole at one end is opened, so that the camellia residues can enter the squeezing box from the feeding hole at one end to be discharged, thereby realizing that after the camellia dregs are squeezed, the squeezing pipe which is not squeezed slides out of the squeezing box for processing through the first driving component, and simultaneously, the other squeezing pipe can also work, the normal efficiency of squeezing of camellia sediment can not be influenced, the efficiency of producing tea-seed oil is guaranteed, and the normal work efficiency of a squeezing pipe can not be influenced.

The utility model discloses further set up to: the one end fixedly connected with axis of rotation that first gear is close to the promotion ratch, the gliding spout of confession axis of rotation is seted up to the one end that the promotion ratch is close to first gear.

Through adopting above-mentioned technical scheme, first gear axis of rotation can insert throughout in the spout that the promotion ratch was seted up when the pivoted for promote the axis of rotation of ratch on gliding in-process first gear and can realize sliding along the spout inner wall, can prevent to promote breaking away from of ratch and first gear, restrict the slip orbit that promotes the ratch.

The utility model discloses further set up to: the push rack is fixedly connected with a second limiting block, and a second limiting groove for the second limiting block to slide is formed in the squeezing box.

Through adopting above-mentioned technical scheme, promote the ratch and can slide along the inner wall of second spacing groove all the time at gliding in-process second stopper, and the second stopper can not break away from the second spacing groove and the inner wall of second spacing groove is being laminated all the time, realizes further limiting promoting the ratch slide rail orbit, guarantees the linear motion who promotes the ratch, and then more stable when can guaranteeing to promote the ratch and drive two sector gear and rotate.

The utility model discloses further set up to: and the outer walls of the two feeding baffles are all sleeved with sealing sleeves.

Through adopting above-mentioned technical scheme, the leakproofness when setting up of seal cover can guarantee that feed baffle shelters from the feed inlet prevents that the camellia sediment from getting into in the press box in a large number.

To sum up, the utility model discloses following beneficial effect has: drive through second drive assembly slides feed baffle in proper order, make feed baffle stop the feed inlet intermittently, and the camellia sediment can enter into the press box through two feed inlets respectively, after squeezing of a period of time is handled again, realize that second drive assembly shelters from the feed inlet of one end, and the pipe that squeezes after squeezing can be through first drive assembly roll-off press box, the rethread mediation subassembly is dredged and is handled, make the press box can dredge simultaneously and squeeze the operation, and then can guarantee the efficiency that the camellia sediment was squeezed, and can prevent the jam of camellia sediment through the pipe that squeezes after the mediation processing, guarantee the efficiency of oil extraction.

Drawings

Fig. 1 is a schematic structural diagram of the press box of the present invention, which is mainly used for showing the structure and position of the press pipe and the first driving assembly and the dredging assembly;

fig. 2 is a schematic structural diagram of a second driving assembly according to the present invention.

In the figure: 1. a press box; 2. a feed inlet; 3. a feed baffle; 4. a drive rod; 5. a press tube; 6. a first stopper; 7. a slide rail; 8. a work table; 9. an electric push rod; 10. an oil collecting plate; 11. dredging the pipe; 12. pushing the rack bar; 13. a first gear; 14. a second gear; 15. a sector gear; 16. a rotating shaft; 17. a chute; 18. and a second limiting block.

Detailed Description

In order to make the technical solutions of the present invention better understood, the following detailed description of the present invention is provided with reference to the accompanying drawings and specific embodiments, and it should be noted that the embodiments and features of the embodiments of the present invention can be combined with each other without conflict.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "provided", "set/connected", "connected", and the like are to be interpreted broadly, such as "connected", which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood as a specific case by those skilled in the art.

The present invention will be described in detail with reference to the accompanying drawings.

The utility model provides an original ecology camellia oil processing is with squeezing equipment, refer to fig. 1-fig. 2, including expression case 1 and two expression pipes 5 of setting in expression case 1, equal array distribution has a plurality of oil drain holes on two expression pipes 5, two expression pipes 5 equal sliding connection are in expression case 1, be equipped with the first drive assembly who is used for driving two expression pipes 5 roll-off expression cases 1 in the expression case 1, two feed inlets 2 have been seted up to expression case 1's upper end symmetry, two feed inlets 2 equal sliding connection of department has the feed baffle 3 that is used for sheltering from feed inlet 2, be equipped with the second drive assembly who is used for driving two feed baffles 3 intermittent type and shelters from two feed inlets 2 in the expression case 1, one side of expression case 1 is equipped with the mediation subassembly, the mediation subassembly includes workstation 8, the electric putter 9 of welding on workstation 8, the oil collecting plate 10 of welding on electric putter 9 and a plurality of dredging pipes 11 of array distribution on oil collecting plate 10, a plurality of dredging pipes 11 welding on oil collecting plate 10, and the width that oil collecting plate 10 set up is greater than the width of expression pipe 5, conveniently to whole expression case 1's the blockking, the position that a plurality of dredging pipe 11 set up corresponds.

And first drive assembly including with two squeeze 5 welded actuating levers 4 and be used for the mounting of fixed drive lever 4, the mounting includes the first magnet of welding on actuating lever 4 and the second magnet of welding in the 1 outside of press box, first magnet adsorbs each other with the second magnet, actuating lever 4 stretches out press box 1, offers the gliding first slide rail 7 of confession actuating lever 4 on the press box 1, is equipped with the gliding second slide rail 7 of confession squeeze 5 in the press box 1.

The width that actuating lever 4 is the setting of L type and actuating lever 4 sets up is less than the width that sets up that squeezes pipe 5, and first stopper 6 has all been welded at the both ends of actuating lever 4, has all seted up on the both sides wall of slide rail 7 and has supplied the gliding first spacing groove of first stopper 6.

The second driving assembly comprises a motor fixed in the squeezing box 1 in a welding mode, a first gear 13 fixed with an output shaft of the motor in a welding mode, two second gears 14 symmetrically meshed with two ends of the first gear 13, two sector gears 15 welded on the two second gears 14 and a pushing toothed bar 12 meshed with the two sector gears 15, the pushing toothed bar 12 is connected in the squeezing box 1 in a sliding mode, and the two feeding baffle plates 3 are welded at two ends of the pushing toothed bar 12 respectively.

A rotating shaft 16 is welded at one end of the first gear 13 close to the pushing rack bar 12, and a sliding groove 17 for the rotating shaft 16 to slide is formed at one end of the pushing rack bar 12 close to the first gear 13.

The pushing rack 12 is welded with a second limiting block 18, and a second limiting groove for the second limiting block 18 to slide is formed in the squeezing box 1.

The outer walls of the two feeding baffle plates 3 are all sleeved with sealing sleeves.

The working principle is as follows: when the squeezing device is in a normal use process, the two feed inlets 2 can not be opened simultaneously, only one of the two feed inlets can be opened, and the other feed inlet is in a closed state, so that camellia dregs can be fed only through one feed inlet 2, and the feed baffle 3 can be shielded from the feed inlet 2 under the action of the second driving component, and meanwhile, the feed baffle 3 can slide in the squeezing box 1 after the second driving component is driven, and then the feed inlet 2 is blocked or opened, so that squeezing processing can be realized through the camellia dregs in the squeezing box 1, so that squeezed camellia oil can be discharged through oil discharge holes arrayed on the squeezing pipe 5, after the camellia oil is discharged, the feed baffle 3 which shields the feed inlet 2 is replaced through the second driving component, the upper end 2 of the squeezing pipe 5 which is subjected to squeezing processing is in a closed state, then the squeezing pipe 5 which is subjected to squeezing processing slides out from the squeezing box 1 through the squeezing pipe 5 after the squeezing processing by the first driving component, so that the squeezing pipe 5 can stretch out of the squeezing pipe 1, then, and the squeezing pipe 5 can be pushed by starting the electric push rod 9 to push the oil discharge plate 10 to move towards one end close to the other end of the oil discharge box 1, and the oil discharge pipe, and the squeezing pipe 5 can be prevented from the squeezing pipe, and the squeezing pipe 11, and the squeezing pipe can be cleaned, and the squeezing pipe 5, and the squeezing pipe can be prevented from the squeezing pipe 5, and the squeezing pipe 11, the squeezing pipe can be plugged into the squeezing pipe 11, and the squeezing pipe can be plugged into the squeezing pipe 11, and can prevent the jam of camellia sediment under the effect of mediation subassembly, can prevent simultaneously that the camellia sediment from blockking up the situation of self bacterium in the oil drain hole and appearing, and then can guarantee to squeeze 5 normal work efficiency of pipe.

When needing to squeeze pipe 5 and then need slip actuating lever 4 when following the roll-off in the press box 1, make and stretch out actuating lever 4 outside the press box 1 and can slide along the inner wall of first slide rail 7, and then drive and squeeze pipe 5 and slide along the inner wall of second slide rail 7, when squeezing pipe 5 complete roll-off press box 1, then actuating lever 4 can not continue to slide again, first magnet on the actuating lever 4 can be in the same place with the second magnet absorption in the press box 1 outside simultaneously, realize the fixed of actuating lever 4 and squeeze pipe 5, and then can handle squeeze pipe 5 through the effect of mediation subassembly, wait to squeeze pipe 5 and drive pole through removing actuating lever 4 again and squeeze pipe 5 and move back on the initial position after finishing, then the absorption of rethread first magnet and second magnet realizes the fixed of actuating lever 4 and squeeze pipe 5, guarantee to squeeze pipe 5 and can both be in stable state when carrying out the mediation processing or squeeze the processing.

Camellia dregs to be processed need to enter the squeezing box 1 through the feeding hole 2, the feeding baffle 3 at one end shields the feeding hole 2 at one end at the moment, the feeding hole 2 at the other end is in an open state, camellia dregs raw materials are not added after all the camellia dregs are fed, the camellia dregs are squeezed in the squeezing box 1, when the camellia dregs are squeezed, the motor is started to drive the first gear 13 to rotate in the squeezing box 1, the first gear 13 can drive the second gears 14 at two ends to rotate in the squeezing box 1 when rotating, the fan gear 15 on the second gear 14 can rotate along with the rotation of the second gear 14 when the second gear 14 rotates along with the first gear 13, and the fan gear 15 at one end rotates gradually to be separated from the pushing rack 12 at the moment, the sector gear 15 at the other end can be gradually meshed with the pushing toothed bar 12, then the sector gear 15 at the other end can drive the pushing toothed bar 12 to slide in the squeezing box 1 under continuous rotation, so that the pushing toothed bar 12 can drive the two feeding baffle plates 3 to slide, the feeding baffle plate 3 at one end can not shield the feeding port 2 at one end, the feeding baffle plate 3 at the other end can move to shield the feeding port 2 at the other end along with the movement of the pushing toothed bar 12, at the moment, the feeding port 2 at the other end is sealed, and the feeding port 2 at one end is opened, so that the camellia residues can enter the squeezing box 1 from the feeding port 2 at one end for discharging, after the camellia residues are squeezed, the squeezing pipe 5 which is not squeezed can slide out of the squeezing box 1 through the first driving component for processing, meanwhile, the other squeezing pipe 5 can also work, and the normal squeezing efficiency of the camellia residues can not be influenced, the efficiency of output tea-seed oil is guaranteed, and the normal work efficiency of the squeezing pipe 5 cannot be influenced.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that modifications and embellishments within the scope of the present disclosure may be made by those skilled in the art without departing from the principles of the present disclosure.

Claims (8)

1. The utility model provides an original ecology camellia oil processing is with squeezing equipment, includes squeeze case (1) and two of setting in squeeze case (1) squeeze pipe (5), two it has a plurality of oil drain holes, its characterized in that to squeeze even array distribution on pipe (5): two squeeze equal sliding connection in pipe (5) and squeeze in case (1), be provided with in case (1) and be used for driving two first drive assembly that squeeze pipe (5) roll-off case (1), two feed inlets (2), two have been seted up to the upper end symmetry of case (1) feed inlet (2) department equal sliding connection has feed baffle (3) that are used for sheltering from feed inlet (2), be provided with in case (1) and be used for driving two second drive assembly that feed baffle (3) intermittent type sheltered from two feed inlets (2), one side of case (1) is provided with the mediation subassembly, the mediation subassembly includes workstation (8), electric putter (9) of fixed connection on workstation (8), oil trap (10) and a plurality of dredging pipes (11) of array distribution on oil trap (10) of fixed connection on electric putter (9), the width that oil trap (10) set up is greater than the width that squeezes pipe (5), and is a plurality of the position that dredging pipe (11) set up is corresponding with the position that a plurality of arranging oil drain hole set up.

2. The pressing device for processing original ecological camellia oil as claimed in claim 1, wherein: first drive assembly includes with two actuating lever (4) that squeeze pipe (5) fixed connection and be used for the mounting of fixed drive lever (4), the mounting is including setting up first magnet on actuating lever (4) and setting up the second magnet in the press box (1) outside, first magnet adsorbs each other with second magnet, press box (1) is stretched out in actuating lever (4), offer on press box (1) and supply gliding first slide rail (7) of actuating lever (4), be provided with in press box (1) and supply to squeeze gliding second slide rail (7) of pipe (5).

3. The pressing apparatus for processing original camellia oil as claimed in claim 2, wherein: the driving rod (4) is arranged in an L shape, and the width of the driving rod (4) is smaller than the width of the squeezing pipe (5).

4. The pressing device for processing the original ecological camellia oil as claimed in claim 2, wherein: the equal first stopper (6) of fixedly connected with in both ends of actuating lever (4), the gliding first spacing groove of confession first stopper (6) has all been seted up on the both sides wall of slide rail (7).

5. The pressing device for processing original ecological camellia oil as claimed in claim 1, wherein: the second driving assembly comprises a motor arranged in the squeezing box (1), a first gear (13) fixedly connected with an output shaft of the motor, two second gears (14) symmetrically meshed at two ends of the first gear (13), two sector gears (15) fixedly connected to the two second gears (14) and pushing toothed bars (12) meshed with the two sector gears (15), wherein the pushing toothed bars (12) are slidably connected in the squeezing box (1) and two feeding baffle plates (3) are respectively and fixedly connected at two ends of the pushing toothed bars (12).

6. The pressing device for processing original camellia oil as claimed in claim 5, wherein: one end of the first gear (13) close to the pushing toothed bar (12) is fixedly connected with a rotating shaft (16), and one end of the pushing toothed bar (12) close to the first gear (13) is provided with a sliding groove (17) for the rotating shaft (16) to slide.

7. The pressing device for processing original camellia oil as claimed in claim 5, wherein: the push rack (12) is fixedly connected with a second limiting block (18), and a second limiting groove for the second limiting block (18) to slide is formed in the squeezing box (1).

8. The pressing device for processing original ecological camellia oil as claimed in claim 1, wherein: and the outer walls of the two feeding baffles (3) are all sleeved with sealing sleeves.

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