CN113186027B - Sesame oil slurry mixing and oil discharging device - Google Patents

Abstract

The invention relates to a sesame oil paste mixing device. The invention comprises a bracket, wherein a main shaft and a container are arranged on the bracket, the container is concentrically fixed with the main shaft, a main driving mechanism, an oil distributing fork, a vibrating hammer, an oil distributing fork driving mechanism, a vibrating hammer driving mechanism, a first working mode driving mechanism and a second working mode driving mechanism are arranged on the bracket, a third combination sleeve is arranged on the main shaft, a first combination sleeve is arranged on a first transmission shaft, and a second combination sleeve is arranged on a second transmission shaft. The device can be switched to the first working mode or the second working mode by adjusting the upper and lower positions of the second combining sleeve and the third combining sleeve and matching with the working states of the vibrating hammer and the oil distributing fork. Therefore, the invention can conveniently and rapidly switch the stirring and oscillating process, has stable structure and small vibration amplitude, and is beneficial to keeping the grease in the container stable.

Description

Sesame oil slurry mixing and oil discharging device

Technical Field

The invention relates to a sesame oil slurry mixing and oil discharging device.

Background

Sesame oil is an indispensable condiment for people's daily diet, and the raw materials of sesame oil contain vitamin E, sesame lignans and other nutritional ingredients, so that the health condition of people can be improved to a great extent, and the sesame oil is recorded in Qianjin, food therapy, ben Cao gang mu and the like.

The current method for processing sesame oil comprises the following steps: the conventional water substitution method and physical squeezing method can cause loss of nutrient components, and the squeezed oil has light fragrance and may have residual chemical solvents. The water substitution method has no chemical pollution, green processing and no nutrition loss. The main steps of the traditional water substitution method comprise material selection, seed frying, stone grinding, slurry mixing and stirring and vibration oil separation, wherein the most main process is slurry mixing and stirring.

The problem that the current common thick liquid device that mingles exists has the operation too complicated, stir and shake the difficult problem that wastes time and energy of operation of switching process to common oscillating mechanism's connecting rod is installed on container support outer end, and such assembly can cause the vibration great when the pulling, and the grease also can be unstable in the container, and the long-time vibration can cause main shaft bearing to damage. When the oil distributing fork of the common device is used, manual operation is needed, and the replacement process is too complicated. And vibration oil separator mostly is belt drive, and long-time operation can lead to the belt to consume wearing and tearing, causes the transmission unstable. Aiming at the problems, a simple and stable sesame oil slurry mixing device needs to be developed.

Disclosure of Invention

The invention aims to provide a sesame oil slurry mixing device to solve the problems in the prior art.

In order to achieve the above purpose, the sesame oil slurry mixing and stirring device adopts the following technical scheme:

The utility model provides a sesame oil is mixed thick liquid stirring and goes out oily device, includes the support, be provided with main shaft and container on the support, the container with the main shaft is concentric fixed, installs main actuating mechanism, divide oily fork, shake hammer, divide oily fork actuating mechanism, shake hammer actuating mechanism, first mode actuating mechanism and second mode actuating mechanism on the support, main actuating mechanism includes drive division, the second transmission shaft that extends from top to bottom rather than the transmission connection and the first transmission shaft that extends horizontally rather than the transmission connection, divide oily fork actuating mechanism to include can drive divide oily fork to go up and down the straight line displacement output that goes up and down, shake hammer actuating mechanism and eccentric articulated the connecting rod of worm wheel dish below including worm drive shaft, worm drive shaft with first transmission shaft sets up and leaves the interval between the two, shake hammer installs the lower extreme of connecting rod, the first working mode driving mechanism comprises a first transmission wheel and a second transmission wheel which are connected through a transmission belt, the second working mode driving mechanism comprises a part gear, a main shaft gear, a third transmission wheel and a fourth transmission wheel which are connected through the transmission belt, the first transmission wheel and the third transmission wheel are rotatably sleeved on the second transmission shaft, the second transmission wheel and the main shaft gear are rotatably sleeved on the main shaft, the fourth transmission wheel and the part gear are rotatably arranged on the bracket, the part gear is provided with an elongated slot, the elongated slot is in sliding connection with a lug eccentrically arranged on the fourth transmission wheel, the first transmission shaft is provided with a first combination sleeve in a sliding manner, the second transmission shaft is provided with a second combination sleeve in a circumferential rotation stopping manner and an axial sliding manner between the first transmission wheel and the third transmission wheel, the novel worm transmission shaft is characterized in that a third combination sleeve is circumferentially and axially slidably arranged between the second transmission wheel and the main shaft gear on the main shaft, tenon-and-mortise connection structures for the corresponding transmission wheel or the main shaft gear to be in plug-in fit along the up-and-down direction are arranged on the upper end face and the lower end face of the second combination sleeve and the upper end face and the lower end face of the third combination sleeve, and tenon-and-mortise connection structures in plug-in fit along the left-and-right direction are arranged on the end faces, opposite to the worm transmission shaft, of the first combination sleeve.

The driving part is a first motor, the main driving mechanism further comprises a speed reducer and a conical gear set, the speed reducer is arranged between the first motor and a driving wheel of the conical gear set, one driven wheel of the conical gear set is connected with the second transmission shaft, and the other driven wheel of the conical gear set is connected with the first transmission shaft.

The oil separation fork driving mechanism comprises a second motor, a gear and a rack, wherein the rack is fixed at the upper end of the oil separation fork or integrally formed with the oil separation fork, the gear is rotatably arranged at the linear displacement output end of the second motor, and the rack forms the linear displacement output end to drive the oil separation fork to lift.

Install first jack and second jack on the support, first jack with be fixed with first shift fork between the second combination cover, the second jack with be fixed with the second shift fork between the third combination cover, first jack is provided with the first knob that is used for adjusting its height, the second jack is provided with the second knob that is used for adjusting its height.

The first combining sleeve is fixedly provided with a push rod for pushing the first combining sleeve to slide left and right.

And the bracket is provided with a bearing bush for supporting the second transmission shaft and the first transmission shaft.

The vibrating hammer driving mechanism further comprises an extension rod hinged between the connecting rod and the vibrating hammer.

The first transmission wheel is a first belt wheel, the second transmission wheel is a second belt wheel, the third transmission wheel is a third belt wheel, the fourth transmission wheel is a fourth belt wheel, and the partial gear is a 90-degree gear.

The first coupling sleeve and/or the second coupling sleeve and/or the third coupling sleeve are/is mounted on the respective shaft in a rotationally fixed manner.

The beneficial effects of the invention are as follows: when the device is used, the upper and lower positions of the second combining sleeve and the third combining sleeve are adjusted, the working state of the vibrating hammer is adjusted by matching with the first combining sleeve, and the high and low positions of the oil distributing fork are adjusted by the oil distributing fork driving mechanism, so that the device can be switched into the first working mode or the second working mode. In the first working mode, the container rotates at a constant speed, and the oil distributing fork extending into the material can rapidly stir the material to replace sesame oil to the upper layer. In the second working mode, the container shakes in a small amplitude, and the vibrating hammer blows materials reciprocally to separate out residual sesame oil in the materials. Therefore, the invention can conveniently and rapidly switch the stirring and oscillating process, and small-amplitude shaking of the container is driven by the main shaft during oscillation, thereby not only having the advantage of stable structure, but also having the advantage of small vibration amplitude and being beneficial to keeping the grease in the container stable.

Drawings

FIG. 1 is a schematic diagram of the whole structure of a sesame oil slurry mixing device;

FIG. 2 is a partial schematic view of FIG. 1 at A;

FIG. 3 is a partial schematic view of FIG. 1 at B;

FIG. 4 is a partial schematic view of FIG. 1 at C;

fig. 5 is a partial schematic view at D in fig. 1.

In the figure: 1-support, 2-first motor, 3-reduction gear, 4-conical gear set, 5-first bearing bush, 6-first transmission shaft, 7-first combination sleeve, 8-worm transmission shaft, 9-turbine disc, 10-second motor, 11-gear, 12-oil-separating fork, 13-push rod, 14-connecting rod, 15-extension rod, 16-vibration hammer, 17-container, 18-container support, 19-third bearing bush, 20-second bearing bush, 21-second transmission shaft, 22-third pulley, 23-fourth pulley, 24-90 DEG gear, 25-spindle gear, 26-first pulley, 27-second pulley, 28-second combination sleeve, 29-first fork, 30-first jack, 31-first knob, 32-spindle, 33-second knob, 34-second jack, 35-second fork, 36-third combination sleeve.

Detailed Description

The embodiment of the sesame oil slurry mixing device comprises:

the invention discloses a concrete structure of a sesame oil slurry mixing device, which is shown in fig. 1-5, and comprises a bracket 1, wherein a main shaft 32 is rotatably arranged on the bracket 1 through a bearing, a container 17 is arranged on the bracket 1 through a container bracket 18, the container 17 is fixed on the main shaft 32 and rotates by taking the container as a rotation center line, a main driving mechanism, an oil distributing fork 12, a vibrating hammer 16, an oil distributing fork driving mechanism, a vibrating hammer driving mechanism, a first working mode driving mechanism and a second working mode driving mechanism are arranged on the bracket 1, the first working mode driving mechanism is used for driving the container 17 to rotate in a first working mode, the oil distributing fork driving mechanism is used for driving the oil distributing fork 12 to move downwards and stretch into the container to stir materials, and the second working mode driving mechanism is used for driving the container 17 to shake in a second working mode, and the vibrating hammer driving mechanism is used for driving the vibrating hammer 16 to reciprocate in an up-down direction to hammer the materials. The material is mixed with water in the first mode of operation, the water displaces the sesame oil to the upper layer, and the oscillating weight 16 reciprocates to hammer the material in the second mode of operation, separating the residual sesame oil from the material.

The main driving mechanism comprises a first motor 2, a speed reducer 3, a conical gear set 4, a second transmission shaft 21 and a first transmission shaft 6, wherein the second transmission shaft 21 extends along the up-down direction, a third shaft tile 19 and a second shaft tile 20 are arranged at the middle part of the second transmission shaft 21, and the third shaft tile 19 and the second shaft tile 20 are fixed with the bracket 1. The first transmission shaft 6 extends in the up-down direction, the middle of the first transmission shaft is provided with a first bearing bush 5, and the first bearing bush 5 is fixed with the bracket 1.

The first operating mode driving mechanism comprises a first belt pulley 26 and a second belt pulley 27 which are in transmission connection by a transmission belt, the transmission belt is sleeved on the first belt pulley 26 and the second belt pulley 27, the first belt pulley 26 is coaxially rotatably mounted on the second transmission shaft 21, and the second belt pulley 27 is coaxially rotatably mounted on the main shaft 32.

The second working mode driving mechanism comprises a third belt pulley 22, a fourth belt pulley 23, a 90-degree gear 24 and a main shaft gear 25, wherein the third belt pulley 22 and the fourth belt pulley 23 are in transmission connection through a transmission belt, the third belt pulley 22 is coaxially and movably arranged on a second transmission shaft 21, the fourth belt pulley 23 is rotatably arranged on a bracket 1, the main shaft gear 25 is fixed on the main shaft 32, the 90-degree gear 24 is rotatably arranged on the bracket 1, the 90-degree gear 24 comprises a long hole, a bump is eccentrically fixed on the fourth belt pulley 23, and the long hole is sleeved on the bump in a clearance way. When the fourth pulley 23 rotates, the bump drives the 90 DEG gear 24 to rotate, and the spindle gear 25 engaged with the bump swings in a small range within a 90 DEG range. In other embodiments, the 90 gear 24 may be replaced with a partial gear at other angles.

The working mode switching mechanism comprises a first combining sleeve 7, a second combining sleeve 28 and a third combining sleeve 36, wherein the second combining sleeve 28 is circumferentially stopped and axially and vertically slidably arranged on the second transmission shaft 21 and positioned between the first belt pulley 26 and the third belt pulley 22, and the third combining sleeve 36 is circumferentially stopped and axially and vertically slidably arranged on the main shaft 32 and positioned between the second belt pulley 27 and the fourth belt pulley 23. The upper end face of the second combining sleeve 28 and the lower end face of the third belt pulley 22 are a first group of matching faces, the lower end face of the second combining sleeve 28 and the upper end face of the first belt pulley 26 are a second group of matching faces, the lower end face of the third combining sleeve 36 and the upper end face of the second belt pulley 27 are a third group of matching faces, the upper end face of the third combining sleeve 36 and the lower end face of the main shaft gear 25 are a fourth group of matching faces, and mortise-tenon joint structures which are in plug fit along the up-down direction are correspondingly arranged on the four groups of matching faces. The bracket 1 is also provided with a first jack 30 for driving the second combining sleeve 28 to move up and down and a second jack 34 for driving the third combining sleeve to move up and down. The first jack 30 is provided with a first knob 31, a first shifting fork 29 is fixed between the first jack 30 and the second combining sleeve 28, and the second combining sleeve 28 can be driven to move up and down by rotating the first knob 31 through the first shifting fork 29. The second knob 33 is arranged on the second jack 34, the second shifting fork 35 is fixed between the second jack 34 and the third combining sleeve 36, and the third combining sleeve 36 can be driven to move up and down by rotating the second knob 33 through the second shifting fork 35.

The distance between the first belt pulley 26 and the third belt pulley 22 is larger than the thickness of the second combining sleeve 28, the second combining sleeve 28 is in a vacant position when being in the middle position, and at the moment, the first belt pulley 26 and the third belt pulley 22 can only idle on the second transmission shaft 21 and cannot transmit power; when the second coupling sleeve 28 is pushed down to be engaged with the first pulley, the first pulley 26 can rotate along with the second transmission shaft 21 and transmit power to the second pulley 27, and the third pulley 22 can only idle on the second transmission shaft 21; when the second coupling sleeve 28 is pushed up to engage with the third pulley 22, the third pulley 22 can rotate with the second drive shaft 21 and transmit power to the fourth pulley 23, and the first pulley can only idle on the second drive shaft 21. The principle of the first combining sleeve 7 and the principle of the third combining sleeve 36 are the same as the principle of the second combining sleeve 28, the third combining sleeve 36 is correspondingly provided with an upper gear, a middle gear and a lower gear, and the first combining sleeve 7 is correspondingly provided with a left gear and a right gear. In other embodiments, the second coupling sleeve 28 and/or the third coupling sleeve 36 may also be circumferentially rotatably mounted on the respective shafts such that their circumferential rotation is limited after they are slid into engagement with the pulley or spindle gear; the first pulley 26 and the second pulley 27 connected by the conveyor belt may also be replaced by a first conveyor wheel and a second conveyor wheel connected by a chain; the third pulley 22 and the fourth pulley 23 connected by the belt may also be replaced by a third pulley and a fourth pulley connected by a chain.

The oil distributing fork driving mechanism comprises a second motor 10, the output end of the second motor 10 is connected with a gear 11, the upper end of an oil distributing fork 12 is provided with a rack meshed with the gear 11, and the oil distributing fork 12 can be driven to ascend or descend by switching the rotation direction of the second motor 10.

The vibration hammer driving mechanism comprises a worm transmission shaft 8, a worm wheel disc 9, a connecting rod 14 and an extension rod 15, wherein the vibration hammer 16 is fixed at the lower end of the extension rod 15, the upper end of the extension rod 15 is hinged at the lower end of the connecting rod 14, the upper end of the connecting rod 14 is eccentrically hinged on the worm wheel disc 9, and the worm wheel disc 9 is meshed with the worm transmission shaft 8. The first combining sleeve 7 is circumferentially rotation-stopping and axially slidably arranged on the first transmission shaft 6, the first transmission shaft 6 is aligned with the axis of the worm transmission shaft 8, a small gap is reserved between the first transmission shaft 6 and the axis of the worm transmission shaft 8, and a mortise-tenon joint structure capable of sliding left and right is correspondingly arranged on the right end face of the first combining sleeve 7 and the left end face of the worm transmission shaft 8. When the first combining sleeve 7 is pushed to the right to be meshed with the worm transmission shaft 8, the power on the first transmission shaft 6 can be transmitted to the worm transmission shaft 8, and when the first combining sleeve is pushed to the left to be vacant, the power on the first transmission shaft 6 cannot be transmitted to the worm transmission shaft 8. The push rod 13 is fixed on the first combining sleeve 7 to drive the first combining sleeve to move left and right. In other embodiments, the first coupling sleeve 7 may be circumferentially rotatably mounted on the first transmission shaft 6, and may be limited to circumferentially rotate due to engagement with the worm transmission shaft 8 after sliding backward; the push rod 13 can also be omitted and the first coupling sleeve 7 can be pushed directly.

The process for preparing sesame oil using the present invention is as follows: firstly, the device works in a first working mode, the first combining sleeve 7 is pushed to the left to a vacant position, the second motor 10 works, and the oil distributing fork 12 rotates along with the operation; the second combining sleeve 28 is pushed down to be clamped with the first belt pulley 26, the third combining sleeve 36 is pushed down to be clamped with the second belt pulley 27, the power output by the first motor 2 is transmitted to the main shaft 32 through the conical gear set 4, the second transmission shaft 21 and the first working mode driving mechanism, the container 17 rotates along with the main shaft 32, the oil distributing fork 12 stirs materials in the container 17, and moisture can quickly replace sesame oil and enable the sesame oil to float on the surface layer. After the collection of the sesame oil on the surface layer is completed, the device is switched to a second working mode, specifically, the second motor 10 is started to lift the oil distributing fork 12 from the container, the first combining sleeve 7 is pushed to the right to be clamped with the worm transmission shaft 8, the second combining sleeve 28 is pushed upwards to be clamped with the third belt pulley 22, and the third combining sleeve 36 is pushed upwards to be clamped with the main shaft gear 25. One path of power output by the first motor 2 is transmitted to the vibrating hammer driving mechanism through the conical gear set 4 and the first transmission shaft 6 to drive the vibrating hammer 16 to reciprocate up and down, the other path of power is transmitted to the main shaft 32 through the conical gear set 4, the second transmission shaft 21 and the second working mode driving mechanism, the container 17 shakes along with the main shaft 32 within a small range within a range of 90 degrees, the vibrating hammer 16 continuously hammers materials in the container 17, and residual sesame oil in the materials is rapidly separated and floats on the upper layer so as to be collected secondarily.

In other embodiments, the bevel gear set may be omitted, and a motor may be added to drive the first transmission shaft 6 and the second transmission shaft 21 by different motors respectively; the gear and the rack can be omitted, and a push rod motor with a linear displacement output end is directly used for replacing the second motor; the bearing bush can be omitted, but the diameters of the first transmission shaft and the second transmission shaft are required to be properly increased so as to keep the stability; the corresponding jack, shifting fork and knob can be omitted, and the positions of the second combining sleeve and the third combining sleeve are switched by manually prying the second combining sleeve and the third combining sleeve; .

Finally, it should be noted that: in the description of the present invention, it should be noted that the azimuth or positional relationship indicated by the terms "vertical", "upper", "lower", "horizontal", etc. are based on the azimuth or positional relationship shown in the drawings, and are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

The above embodiments are only for illustrating the technical solution of the present invention, but not for limiting, and other modifications and equivalents thereof by those skilled in the art should be included in the scope of the claims of the present invention without departing from the spirit and scope of the technical solution of the present invention.

Claims (6)

1. The utility model provides a sesame oil adds thick liquid stirring play oily device which characterized in that: the device comprises a bracket, wherein a main shaft and a container are arranged on the bracket, the container and the main shaft are concentrically fixed, a main driving mechanism, an oil distributing fork, a vibrating hammer, an oil distributing fork driving mechanism, a vibrating hammer driving mechanism, a first working mode driving mechanism and a second working mode driving mechanism are arranged on the bracket, the main driving mechanism comprises a driving part, a second transmission shaft which is in transmission connection with the main driving mechanism and extends up and down, and a first transmission shaft which is in transmission connection with the first transmission shaft and extends horizontally, the oil distributing fork driving mechanism comprises a linear displacement output end which can drive the oil distributing fork to lift, the vibrating hammer driving mechanism comprises a worm transmission shaft, a turbine disc and a connecting rod which is eccentrically hinged below the turbine disc, the worm transmission shaft and the first transmission shaft are coaxially arranged with a space between the worm transmission shaft and the first transmission shaft, the vibrating hammer is arranged at the lower end of the connecting rod, the first working mode driving mechanism comprises a first transmission wheel and a second transmission wheel which are connected through a transmission belt, the main shaft gear, a third transmission wheel and a fourth transmission wheel which are in transmission connection with the second transmission shaft through the transmission belt, a third transmission wheel and a fourth transmission wheel which can be connected with the transmission shaft are in transmission way, the first transmission wheel and the fourth transmission wheel can be rotatably sleeved on the main shaft and the second transmission shaft, the second transmission wheel and the second transmission wheel can be rotatably sleeved on the second transmission shaft, the second transmission wheel and the fourth transmission wheel can be rotatably sleeved on the first transmission wheel and the transmission wheel through the transmission shaft, the second transmission wheel and the second transmission shaft, the second transmission shaft and the transmission shaft which can be connected to the second transmission. The driving part is a first motor, the main driving mechanism further comprises a speed reducer and a conical gear set, the speed reducer is arranged between the first motor and a driving wheel of the conical gear set, one driven wheel in the conical gear set is connected with the second transmission shaft, the other driven wheel is connected with the first transmission shaft, the oil distributing fork driving mechanism comprises a second motor, a gear and a rack, the rack is fixed at the upper end of the oil distributing fork or integrally formed with the oil distributing fork, the gear is rotatably arranged at a linear displacement output end of the second motor, the rack forms a linear displacement output end to drive the oil distributing fork to lift, and the oil distributing fork is correspondingly connected with the first transmission shaft or the second circumferential combination sleeve or the third circumferential combination sleeve.

2. The sesame oil blending and stirring oil outlet device according to claim 1, wherein: install first jack and second jack on the support, first jack with be fixed with first shift fork between the second combination cover, the second jack with be fixed with the second shift fork between the third combination cover, first jack is provided with the first knob that is used for adjusting its height, the second jack is provided with the second knob that is used for adjusting its height.

3. The sesame oil blending and stirring oil outlet device according to claim 1, wherein: the first combining sleeve is fixedly provided with a push rod for pushing the first combining sleeve to slide left and right.

4. The sesame oil blending and stirring oil outlet device according to claim 1, wherein: and the bracket is provided with a bearing bush for supporting the second transmission shaft and the first transmission shaft.

5. The sesame oil blending and stirring oil outlet device according to claim 1, wherein: the vibrating hammer driving mechanism further comprises an extension rod hinged between the connecting rod and the vibrating hammer.

6. The sesame oil blending and stirring oil outlet device according to claim 1, wherein: the first transmission pulley is a first belt pulley, the second transmission pulley is a second belt pulley, the third transmission pulley is a third belt pulley, the fourth transmission pulley is a fourth belt pulley, and the partial gear is a 90-degree gear.