阅读说明：本技术 一种美白精华液制备工艺 (Preparation process of whitening essence ) 是由 于勇 于 2021-09-25 设计创作，主要内容包括：本发明涉及精华液制备领域,更具体的说是一种美白精华液制备工艺,一种美白精华液制备工艺,该工艺包括以下步骤：步骤一：将制备美白精华液的不同原料分别放置在美白精华液制备装置的落料机构内；步骤二：将盛放机构放置在旋转机构上的指定位置上；步骤三：旋转机构带动盛放机构进行转动经过指定的落料机构,落料机构内的原料落在盛放机构内；步骤四：收纳完成的盛放机构在两个推动机构的推动下运动到挤压机构的下端,挤压机构对盛放机构内的原料进行挤压提取液体。可以根据不同的使用需求快速的对美白精华液原料内的液体进行提取。(The invention relates to the field of essence preparation, in particular to a whitening essence preparation process, which comprises the following steps: the method comprises the following steps: respectively placing different raw materials for preparing the whitening essence into a blanking mechanism of a whitening essence preparation device; step two: placing the containing mechanism at a specified position on the rotating mechanism; step three: the rotating mechanism drives the containing mechanism to rotate and pass through the appointed blanking mechanism, and raw materials in the blanking mechanism fall into the containing mechanism; step four: accomodate the lower extreme that the mechanism that holds that accomplishes moved extrusion mechanism under two pushing mechanism's promotion, extrusion mechanism extrudees the extraction liquid to the raw materials that hold in the mechanism. The liquid in the raw materials of the whitening essence can be quickly extracted according to different use requirements.)

1. A preparation process of whitening essence is characterized by comprising the following steps: the process comprises the following steps:

the method comprises the following steps: respectively placing different raw materials for preparing the whitening essence into different blanking mechanisms (40) of a whitening essence preparation device;

step two: placing the containing mechanism (30) at a designated position on the rotating mechanism (20);

step three: the rotating mechanism (20) drives the containing mechanism (30) to rotate and pass through the appointed blanking mechanism (40), and raw materials in the blanking mechanism (40) fall into the containing mechanism (30);

step four: the containing mechanism (30) which is completely contained moves to the lower end of the extruding mechanism (60) under the pushing of the two pushing mechanisms (50), and the extruding mechanism (60) extrudes the raw materials in the containing mechanism (30) to extract liquid.

2. The preparation process of the whitening essence according to claim 1, characterized by comprising the following steps: the whitening essence preparation device comprises a device support (10) and a rotating mechanism (20) connected to the device support (10) in a rotating mode, wherein the rotating mechanism (20) is provided with a containing mechanism (30), the device support (10) is fixedly connected with a plurality of blanking mechanisms (40), the device support (10) is rotatably connected with an extrusion mechanism (60), and the device support (10) is fixedly connected with two pushing mechanisms (50).

3. The preparation process of the whitening essence according to claim 2, characterized by comprising the following steps: the device bracket (10) comprises two side support plates (11) and a connecting bracket (12) fixedly connected between the upper ends of the two side support plates (11).

4. The preparation process of the whitening essence according to claim 3, characterized by comprising the following steps: the inner sides of the two side supporting plates (11) are fixedly connected with an arc push plate I (13), an arc push plate II (15) and an arc push plate III (16), and a plurality of notches (14) are formed in the two arc push plates I (13).

5. The preparation process of the whitening essence according to claim 2, characterized by comprising the following steps: the rotating mechanism (20) comprises a rotating support (21) and two sliding cylinders (22) fixedly connected to the rotating support (21), a placing support (23) is in clearance fit between the two corresponding sliding cylinders (22), and a plurality of mounting rings (28) are arranged on the placing support (23).

6. The preparation process of the whitening essence according to claim 5, characterized by comprising the following steps: the device is characterized in that a counterweight (27) is fixedly connected onto the placing support (23), a friction wheel (24) is fixedly connected onto the placing support (23), and a spring assembly (25) is rotatably connected between the placing support (23) and the two corresponding sliding cylinders (22).

7. The preparation process of the whitening essence according to claim 2, characterized by comprising the following steps: hold mechanism (30) including holding a section of thick bamboo (31) and two sliding support (32) of fixed connection on holding a section of thick bamboo (31), equal sliding connection has sensing push pedal (33) on two sliding support (32), has the location nail through threaded connection on sensing push pedal (33).

8. The preparation process of the whitening essence according to claim 2, characterized by comprising the following steps: blanking mechanism (40) are including blanking section of thick bamboo (41) and fixed connection telescopic machanism I (42) on blanking section of thick bamboo (41), sliding connection has sensor II (43) on blanking section of thick bamboo (41), fixedly connected with compression spring between sensor II (43) and blanking section of thick bamboo (41), and the flexible end fixedly connected with closed sieve (44) of telescopic machanism I (42), closed sieve (44) sliding connection is in the bottom of blanking section of thick bamboo (41).

9. The preparation process of the whitening essence according to claim 2, characterized by comprising the following steps: the pushing mechanism (50) comprises a telescopic mechanism II (51) and an arc push plate IV (52) fixedly connected to the telescopic end of the telescopic mechanism II (51).

10. The preparation process of the whitening essence according to claim 2, characterized by comprising the following steps: extrusion mechanism (60) are including extrusion support (61) and two telescopic machanism III (62) of fixed connection on extrusion support (61), and equal fixedly connected with extrusion bottom plate (63) are served in the flexible of two telescopic machanism III (62).

Technical Field

The invention relates to the field of essence preparation, and particularly relates to a preparation process of whitening essence.

Background

Modern substances are more and more abundant, the pursuit of whitening by Asian women never stops, blusher powder is almost a necessary product of each adult woman, and is a general powder decoration family of forests such as concealer, foundation make-up, loose powder, makeup powder, pressed powder and the like, so that the effect of surface whitening is achieved; the prior art discloses a whitening essence and a preparation method thereof, wherein the whitening essence comprises a mixed extract of Chinese angelica and astragalus, a rhodiola rosea extract, a tremella extract and a base material; preparing a mixed extract of angelica and astragalus; mixing the mixed extract of the angelica and the astragalus, the rhodiola root extract, the tremella extract and the base material; the prior art has the defect that the liquid in the raw materials of the whitening essence cannot be quickly extracted according to different use requirements.

Disclosure of Invention

The invention aims to provide a preparation process of whitening essence, which can be used for quickly extracting liquid in the raw materials of the whitening essence according to different use requirements.

The purpose of the invention is realized by the following technical scheme:

a preparation process of whitening essence comprises the following steps:

the method comprises the following steps: respectively placing different raw materials for preparing the whitening essence into different blanking mechanisms of a whitening essence preparation device;

step two: placing the containing mechanism at a specified position on the rotating mechanism;

step three: the rotating mechanism drives the containing mechanism to rotate and pass through the appointed blanking mechanism, and raw materials in the blanking mechanism fall into the containing mechanism;

step four: accomodate the lower extreme that the mechanism that holds that accomplishes moved extrusion mechanism under two pushing mechanism's promotion, extrusion mechanism extrudees the extraction liquid to the raw materials that hold in the mechanism.

A whitening essence preparation device comprises a device bracket, a rotating mechanism, a containing mechanism, a blanking mechanism, a pushing mechanism and an extruding mechanism; the device bracket is rotatably connected with a rotating mechanism, the rotating mechanism is provided with a containing mechanism, the device bracket is fixedly connected with a plurality of blanking mechanisms, the device bracket is rotatably connected with an extrusion mechanism, and the device bracket is fixedly connected with two pushing mechanisms;

the device support comprises side supporting plates, connecting supports, arc push plates I, notches, arc push plates II and arc push plates III, the number of the side supporting plates is two, the connecting supports are fixedly connected between the upper ends of the two side supporting plates, the inner sides of the two side supporting plates are fixedly connected with the arc push plates I, the two arc push plates I are respectively provided with a plurality of notches, the inner sides of the two side supporting plates are fixedly connected with the arc push plates II, and the inner sides of the two side supporting plates are fixedly connected with the arc push plates III;

the rotating mechanism comprises two rotating supports, sliding cylinders, a placing support, friction wheels, a spring assembly, a sensor I, a balance weight and mounting rings, the two rotating supports are respectively and rotatably connected to two side supporting plates, a power mechanism I for driving the rotating supports to rotate is arranged on each rotating support, the power mechanism I is preferably a servo motor, the two sliding cylinders are respectively and fixedly connected to the two rotating supports, the placing support is in clearance fit between the corresponding sliding cylinders on the two sides, the two friction wheels are fixedly connected to the placing support, the spring assembly is rotatably connected between the placing support and the two corresponding sliding cylinders, the two sensors I are respectively and fixedly connected to each rotating support, the balance weight is respectively and fixedly connected to the two placing supports, and the mounting rings are respectively arranged on the two placing supports;

the containing mechanism comprises a containing barrel, sliding supports and a sensing push plate, wherein the containing barrel is fixedly connected with two sliding supports, the two sliding supports are both connected with the sensing push plate in a sliding manner, the sensing push plate is provided with a positioning nail, and the bottom of the containing barrel is provided with a plurality of filtering holes;

the blanking mechanism comprises a blanking barrel, a telescopic mechanism I, a sensor II and a closed sieve, wherein the telescopic mechanism I is fixedly connected to the blanking barrel, the sensor II is connected to the blanking barrel in a sliding manner, a compression spring is fixedly connected between the sensor II and the blanking barrel, the telescopic end of the telescopic mechanism I is fixedly connected with the closed sieve, the closed sieve is connected to the bottom of the blanking barrel in a sliding manner, and the sensor II is connected with the telescopic mechanism I; a plurality of blanking mechanisms are arranged, and the plurality of blanking barrels are fixedly connected to the connecting bracket;

the two pushing mechanisms are arranged and comprise a telescopic mechanism II and an arc push plate IV, the telescopic end of the telescopic mechanism II is fixedly connected with the arc push plate IV, the two side supporting plates are fixedly connected with the arc push plate IV, the two telescopic mechanisms II are connected with the two sensors I on the right side, the two telescopic mechanisms III are connected with the two sensors I on the left side, the radian of the arc push plate III on the left side is smaller than that of the arc push plate III on the right side, and the two arc push plates III can extrude the passing sensors I;

extrusion mechanism includes extrusion support, telescopic machanism III and extrusion bottom plate, and the extrusion support rotates to be connected between two side extension boards, is provided with its power unit II that carries out the pivoted of drive on the extrusion support, and power unit II is preferred servo motor, is fixed with two telescopic machanism III on the extrusion support, and two telescopic machanism III's the equal fixedly connected with extrusion bottom plate is served in the flexible of holding.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a block diagram of a process for preparing the whitening essence of the invention;

fig. 2 is a schematic structural view of a whitening essence preparation device according to the present invention;

FIG. 3 is a schematic view of the device support structure of the present invention;

fig. 4 is a partial structure view of a whitening essence preparation apparatus according to the present invention;

FIG. 5 is a schematic view of a rotary mechanism of the present invention;

FIG. 6 is a first schematic structural view of a holding mechanism of the present invention;

FIG. 7 is a schematic structural view of a second containing mechanism of the present invention;

FIG. 8 is a schematic structural view of a blanking mechanism of the present invention;

FIG. 9 is a schematic structural view of a cross-sectional view of a blanking mechanism of the present invention;

FIG. 10 is a schematic view of the device bracket and pushing mechanism connection of the present invention;

fig. 11 is a schematic view of the pressing mechanism of the present invention.

In the figure:

a device holder 10; a side support plate 11; a connecting bracket 12; an arc push plate I13; a notch 14; an arc push plate II 15; a circular arc push plate III 16;

a rotating mechanism 20; a rotating bracket 21; a slide cylinder 22; placing the bracket 23; a friction wheel 24; a spring assembly 25; a sensor I26; a counterweight 27; a mounting ring 28;

a holding mechanism 30; a containing cylinder 31; a sliding bracket 32; a sensing push plate 33;

a blanking mechanism 40; a charging hopper 41; a telescoping mechanism I42; a sensor II 43; closing the screen 44;

a pushing mechanism 50; a telescoping mechanism II 51; an arc push plate IV 52;

an extrusion mechanism 60; the pressing bracket 61; a telescoping mechanism III 62; pressing the bottom plate 63.

Detailed Description

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

In order to solve the technical problem of how to rapidly extract the liquid in the raw materials of the whitening essence according to different use requirements, the following steps of a preparation process of the whitening essence are described in detail, as shown in fig. 1, the preparation process of the whitening essence comprises the following steps:

the method comprises the following steps: respectively placing different raw materials for preparing the whitening essence into a blanking mechanism 40 of a whitening essence preparation device;

step two: the containing mechanism 30 is placed at a designated position on the rotating mechanism 20, the placing support 23 is provided with a plurality of mounting rings 28, and the containing mechanism 30 can be placed in different mounting rings 28 according to the use requirement;

step three: the rotating mechanism 20 drives the containing mechanism 30 to rotate and pass through the appointed blanking mechanism 40, and raw materials in the blanking mechanism 40 fall into the containing mechanism 30; when the rotating mechanism 20 drives the containing mechanism 30 to move to the lower end of the blanking mechanism 40, the containing mechanism 30 extrudes the sensor II 43 on the blanking mechanism 40, and the sensor II 43 controls the blanking mechanism 40 to perform blanking;

step four: the containing mechanism 30 which is completely contained moves to the lower end of the extruding mechanism 60 under the pushing of the two pushing mechanisms 50, and the extruding mechanism 60 extrudes the raw materials in the containing mechanism 30 to extract liquid.

In order to solve the technical problem of how to rapidly extract the liquid in the raw material of the whitening essence according to different use requirements, the structure and the function of a whitening essence preparation device are explained in detail below, as shown in fig. 2 to 11, the whitening essence preparation device comprises a device support 10, a rotating mechanism 20, a containing mechanism 30, a blanking mechanism 40, a pushing mechanism 50 and an extrusion mechanism 60, wherein the rotating mechanism 20 is rotatably connected to the device support 10, the containing mechanism 30 is placed on the rotating mechanism 20, the blanking mechanisms 40 are fixedly connected to the device support 10, the extrusion mechanism 60 is rotatably connected to the device support 10, and the two pushing mechanisms 50 are fixedly connected to the device support 10;

when the blanking device is used, different raw materials are respectively placed in different blanking mechanisms 40, the containing mechanism 30 is placed on the rotating mechanism 20, the containing mechanism 30 is placed at different positions on the rotating mechanism 20 and can collect different types of raw materials, after the containing mechanism 30 is placed on the rotating mechanism 20, the rotating mechanism 20 drives the containing mechanism 30 to rotate, the containing mechanism 30 moves to the lower side of the blanking mechanism 40, the containing mechanism 30 extrudes the blanking mechanism 40, and the raw materials in the blanking mechanism 40 fall into the containing mechanism 30;

further, the rotating mechanism 20 continues to drive the containing mechanism 30 to move, so that the containing mechanism 30 moves to the lower side of the device, the two pushing mechanisms 50 move, the two pushing mechanisms 50 push the containing mechanism 30, the containing mechanism 30 moves to the lower end of the extruding mechanism 60, the extruding mechanism 60 extrudes the raw materials in the containing mechanism 30, and liquid extraction of the raw materials in the containing mechanism 30 is completed;

the structure and function of the device support 10, the rotating mechanism 20, the containing mechanism 30, the blanking mechanism 40, the pushing mechanism 50 and the extruding mechanism 60 are explained in detail below, the device support 10 comprises two side support plates 11, a connecting support 12, an arc push plate I13, notches 14, an arc push plate II 15 and an arc push plate III 16, the connecting support 12 is fixedly connected between the upper ends of the two side support plates 11, the arc push plates I13 are fixedly connected to the inner sides of the two side support plates 11, the notches 14 are respectively arranged on the two arc push plates I13, the arc push plates II 15 are respectively fixedly connected to the inner sides of the two side support plates 11, and the arc push plates III 16 are respectively fixedly connected to the inner sides of the two side support plates 11;

the rotating mechanism 20 comprises a rotating bracket 21, a sliding cylinder 22, a placing bracket 23 and a friction wheel 24, the device comprises spring assemblies 25, sensors I26, counterweights 27 and mounting rings 28, wherein two rotary supports 21 are arranged, the two rotary supports 21 are respectively connected to two side supporting plates 11 in a rotating mode, a power mechanism I for driving the rotary supports 21 to rotate is arranged on each rotary support 21, the power mechanism I is preferably a servo motor, two sliding cylinders 22 are fixedly connected to the two rotary supports 21, a placing support 23 is arranged between the corresponding sliding cylinders 22 on the two sides in a clearance fit mode, two friction wheels 24 are fixedly connected to the placing support 23, the spring assemblies 25 are rotatably connected between the placing support 23 and the two corresponding sliding cylinders 22, two sensors I26 are fixedly connected to each rotary support 21, the counterweights 27 are fixedly connected to the two placing supports 23, and a plurality of mounting rings 28 are arranged on the two placing supports 23;

the containing mechanism 30 comprises a containing barrel 31, sliding supports 32 and a sensing push plate 33, wherein the containing barrel 31 is fixedly connected with the two sliding supports 32, the two sliding supports 32 are both connected with the sensing push plate 33 in a sliding manner, the sensing push plate 33 is provided with positioning nails, and the bottom of the containing barrel 31 is provided with a plurality of filtering holes;

the blanking mechanism 40 comprises a blanking barrel 41, a telescopic mechanism I42, a sensor II 43 and a closed screen 44, wherein the blanking barrel 41 is fixedly connected with the telescopic mechanism I42, the blanking barrel 41 is slidably connected with the sensor II 43, a compression spring is fixedly connected between the sensor II 43 and the blanking barrel 41, the telescopic end of the telescopic mechanism I42 is fixedly connected with the closed screen 44, the closed screen 44 is slidably connected to the bottom of the blanking barrel 41, and the sensor II 43 is connected with the telescopic mechanism I42; a plurality of blanking mechanisms 40 are arranged, and a plurality of blanking barrels 41 are fixedly connected to the connecting bracket 12;

the two pushing mechanisms 50 are arranged, each pushing mechanism 50 comprises a telescopic mechanism II 51 and an arc push plate IV 52, the arc push plates IV 52 are fixedly connected to the telescopic ends of the telescopic mechanisms II 51, the arc push plates IV 52 are fixedly connected to the two side supporting plates 11, the two telescopic mechanisms II 51 are connected with the two sensors I26 on the right side, the two telescopic mechanisms III 62 are connected with the two sensors I26 on the left side, the radian of the arc push plate III 16 on the left side is smaller than that of the arc push plate III 16 on the right side, and the two arc push plates III 16 can extrude the sensors I26 passing through;

the extrusion mechanism 60 comprises an extrusion support 61, a telescopic mechanism III 62 and an extrusion bottom plate 63, the extrusion support 61 is rotatably connected between the two side support plates 11, a power mechanism II for driving the extrusion support 61 to rotate is arranged on the extrusion support 61, the power mechanism II is preferably a servo motor, the extrusion support 61 is fixedly provided with the two telescopic mechanisms III 62, and the telescopic ends of the two telescopic mechanisms III 62 are fixedly connected with the extrusion bottom plate 63;

as shown in fig. 2 to 11, when in use, different raw materials are placed in different blanking barrels 41, the closed screen 44 plugs the bottom of the blanking barrel 41, so that the raw materials in the blanking barrel 41 cannot fall out, the containing barrel 31 is placed in the mounting ring 28 according to practical requirements, further, a rubber ring is arranged in the mounting ring 28, and the rubber ring extrudes the containing barrel 31, so that the containing barrel 31 and the mounting ring 28 form an interference fit, and the containing barrel 31 cannot be easily separated from the mounting ring 28;

the containing cylinders 31 are placed at different positions on the mounting ring 28, so that the rotating mechanism 20 can push different blanking mechanisms 40 when driving the containing cylinders 31 to rotate, and further raw materials in different blanking mechanisms 40 can fall into the movable containing cylinders 31, and the collection of the raw materials according to different use requirements can be completed;

simultaneously starting a power mechanism I and a power mechanism II, wherein an output shaft of the power mechanism I drives a rotating support 21 to rotate, the rotating support 21 drives a placing support 23 to rotate, the placing support 23 drives a placing mechanism 30 to rotate, the placing support 23 rotates clockwise, the placing mechanism 30 is in contact with an arc push plate II 15 in the rotating process, the arc push plate II 15 pushes the friction wheel 24 to rotate, the friction wheel 24 drives the placing support 23 to rotate, the placing support 23 drives the placing mechanism 30 to rotate, and the placing mechanism 30 can be subjected to autorotation due to the fact that the placing mechanism 30 can be subjected to one-time processing, residual residues possibly existing in the previous processing can exist in the placing mechanism 30, so that the placing mechanism 30 is pushed to rotate for one circle in advance, and raw material residues possibly existing in the placing mechanism 30 can be poured out;

before the containing mechanism 30 moves to the lower end of the blanking mechanism 40, the friction wheel 24 is in contact with the arc push plate II 15, and the placing support 23 is reset under the action of the balance weight 27, so that the containing mechanism 30 is still vertically arranged;

after the containing mechanism 30 moves to the lower end of the blanking mechanism 40, the two sensing push plates 33 push the corresponding sensors II 43 to move, the sensors II 43 can be contact sensors or extrusion sensors, the sensors II 43 are connected with the corresponding telescopic mechanisms I42 through electric control means commonly used in the field, one of the two sensors II 43 on each blanking mechanism 40 can control the telescopic mechanisms I42 to move when being extruded, the telescopic ends of the telescopic mechanisms I42 move upwards, the telescopic mechanisms I42 drive the closed sieves 44 to move upwards, the closed sieves 44 do not close the lower end of the blanking cylinder 41 any more, and raw materials in the blanking cylinder 41 fall into the containing cylinder 31;

furthermore, the positions of the two sensing push plates 33 can be adjusted according to different use requirements, so that the lengths of the two sensing push plates 33 are different, the time for the two sensing push plates 33 to push the sensor II 43 is also different, the opening time of the lower end of the charging barrel 41 is controlled, and the charging amount is controlled;

further, after the rotating mechanism 20 drives the containing mechanism 30 to pass through the lower end of the blanking mechanism 40, the friction wheel 24 is in contact with the arc push plate I13, the arc push plate I13 pushes the friction wheel 24 to rotate, and meanwhile, due to the fact that the plurality of notches 14 are formed in the arc push plate I13, the arc push plate I13 is in intermittent contact with the friction wheel 24, the containing mechanism 30 is enabled to swing back and forth under the action of the balance weight 27 and the arc push plate I13, and further raw materials in the containing mechanism 30 are evenly distributed;

further, the rotating mechanism 20 continues to drive the containing mechanism 30 to rotate, the containing mechanism 30 moves to the lower end of the device, the two arc push plates III 16 are in contact with the sensor I26, the two telescopic mechanisms II 51 are connected with the two sensors I26 on the right side, the two telescopic mechanisms III 62 are connected with the two sensors I26 on the left side, the radian of the arc push plate III 16 on the left side is smaller than that of the arc push plate III 16 on the right side, the two arc push plates III 16 can extrude the passing sensor I26, the arc push plate III 16 on the right side is in contact with the sensor I26 first, the sensor I26 can be an extruding sensor or a contact sensor, the sensor I26 controls the telescopic ends of the two telescopic mechanisms II 51 to move, the telescopic ends of the two telescopic mechanisms II 51 drive the arc push plates IV 52 to move, and the two arc push plates IV 52 move close to each other, the two arc push plates IV 52 push the containing mechanism 30 to move to the middle part of the device, namely the lower end of the extrusion bottom plate 63;

the spring assembly 25 consists of a spring and two rotating side plates, so that the spring assembly 25 only generates certain reaction force when the placing bracket 23 moves transversely, and does not generate reaction force to the rotation of the placing bracket 23;

no matter where the containing mechanism 30 is placed on the rotating mechanism 20, the two pushing mechanisms 50 will push the containing mechanism 30 to move to the lower end of the squeezing mechanism 60;

the output shafts of the power mechanism I and the power mechanism II rotate in the same manner, namely the rotating speed of the rotating mechanism 20 is the same as that of the extruding mechanism 60, after the containing mechanism 30 moves to the lower end of the extruding mechanism 60, the arc push plate III 16 positioned on the left side extrudes the sensor I26 on the left side, the sensor I26 controls the telescopic mechanism III 62 to move, the telescopic end of the telescopic mechanism III 62 extends out, the telescopic end of the telescopic mechanism III 62 controls the extruding bottom plate 63 to move downwards, the extruding bottom plate 63 extrudes the raw material in the containing barrel 31, and liquid of the raw material in the containing barrel 31 flows out from the filtering hole in the bottom of the containing barrel 31;

the rotating mechanism 20 and the extruding mechanism 60 move synchronously, so that the device can extract the raw materials without stopping the rotation, and the working efficiency of the device is improved.