JP6566111B1 - Ancucine dye extraction device - Google Patents

Abstract

The present invention discloses an apparatus for extracting an ancosine dye. A fixed housing includes a fixed base plate, a fixed housing is fixed to an upper end surface of the fixed base plate, a first cavity is installed on the left side of the fixed housing, and the upper end of the left end wall of the first cavity is disposed on the upper end surface. Has an intake pipe, a second cavity is installed below the right end wall of the first cavity, a fourth cavity is installed inside the right end wall of the third cavity, and an upper end of the fourth cavity A fifth cavity is installed inside the wall, a sixth cavity is installed inside the left end wall of the transmission space, a seventh cavity is installed inside the right end wall of the fourth cavity, and the second cavity An eighth cavity is installed inside the front end wall, and a step-down space is installed inside the right end wall of the seventh cavity. To achieve the use, to conserve resources, the operation is simple. [Selection] Figure 1

Description

The present invention takes up the field of dye extraction, and more specifically, is an apparatus for extracting an ancosine dye.

Ancucine pigment is an extract of shikon and is one of the five commonly used plant red pigments. It has the advantage of having a bright and pure color as well as strong coloring power, penetrating power and heat resistance. And light resistance, and also has a variety of pharmacological functions such as bactericidal, antiviral, and granulation growth promotion, ancosine dye is the best choice among the five plant red pigments, cosmetics, printing and Widely used in colorants, food additives, drugs, etc. in the dyeing industry, however, the methods of extracting ancosine dyes from sicons disclosed so far have drawbacks such as a low extraction rate and a large amount of residue, With the advancement of technology and the continuous development of superfluid extraction methods, people are investigating the method of extracting ancosine dyes with high-pressure gas. In is required a large amount of power, after the extraction is completed, the high pressure is released naturally, wasteful of resources, not yet widespread.

Chinese Patent Application No. 105949816 Specification

The object of the present invention is to provide an extraction apparatus for ancosine dye, which can solve the problems in the above-mentioned current technology, and in order to explain it conveniently, the following directions are defined as follows: The front-rear direction and the front-rear direction, the front-rear direction, and the front-rear direction in FIG.

In order to solve the above problems, the present invention adopts the following technical plan: An ancosine dye extraction device includes a fixed base plate, and a fixed housing is fixed to an upper end surface of the fixed base plate. A first cavity is installed on the left side of the interior, an intake pipe is installed at the upper end of the left end wall of the first cavity, an intake valve is installed in a pipe body located in the external space of the intake pipe, A second cavity is installed under the right end wall of the first cavity, a first pore is installed in the left end wall of the second cavity, and the first pore is formed between the first cavity and the second cavity. The first check valve is installed inside the first pore, the third cavity is installed inside the right end wall of the second cavity, and the left end wall of the third cavity A second pore is installed, the second pore communicates the second cavity and the third cavity, a second check valve is installed inside the second pore, and a right end wall of the third cavity A fourth cavity is installed inside, a third pore is installed in the left end wall of the fourth cavity, the third pore communicates the fourth cavity and the third cavity, A pressure valve is installed inside, a fifth cavity is installed inside the upper end wall of the fourth cavity, a closing door is installed on the upper end wall of the fifth cavity, and is located between the lower end walls of the fifth cavity. Is provided with an inlet, the inlet communicates with the fourth cavity and the fifth cavity, a sealing valve is provided inside the inlet, and the left end wall of the fifth cavity Driving space is installed, front A through hole is provided in the right end wall of the drive space, the through hole communicates the fifth cavity and the drive space, and a drive motor is fixed inside the drive space, and is attached to the right end of the drive motor. Is connected to a drive shaft that can be driven to rotate, and the right end of the drive shaft passes through the through hole and is connected to the right inner wall of the fifth cavity so that it can be rotated into the fifth cavity of the drive shaft. The first crushing rods are evenly distributed on the shaft body, the second crushing rods are installed on the front and rear end walls of the fifth cavity, and the second crushing rods are cross-distributed with the first crushing rods. A drive pulley is fixedly attached to the shaft body located in the through hole of the drive shaft, and a transmission space extending downward is installed in the middle of the inner wall of the through hole. There is a sixth key inside the left end wall of the transmission space. A transmission shaft is installed on the lower side of the transmission space, a transmission pulley is fixedly attached to the shaft body of the transmission shaft, and between the transmission pulley and the driving pulley. A transmission belt is wound and installed, the left end of the transmission shaft is located in the sixth cavity, and a first rotating disk is fixedly connected to the left end of the transmission shaft, and the left end of the first rotating disk the rear surface is connected to allow rotation of the first rocker arm, said the front end of the first rocker arm is connected for rotation the second push rod, the front end of the second push rod is first A first seal plate is fixedly connected to the front end of the second push rod, and a seventh cavity is installed inside the right end wall of the fourth cavity. An intake hole is installed above the left end wall of the The intake hole communicates the fourth cavity and the seventh cavity, a meshing space is installed inside the front end wall of the seventh cavity, a rotating shaft is installed inside the seventh cavity, Turbine blades are evenly distributed on the shaft body of the rotating shaft, the front end of the rotating shaft is located in the meshing space, and a conical rotating tooth is fixedly connected to the front end of the rotating shaft. A conical transmission gear is installed on the left side of the interior, the rear end of the conical transmission gear meshes with the left end of the conical rotation tooth, and is connected by transmission, and an eighth cavity is formed inside the front end wall of the second cavity. The rotary shaft extending to the left is fixed in the middle of the left end surface of the conical transmission gear, the left end of the rotary shaft is located in the eighth cavity, and the left end of the rotary shaft is The second turntable is fixedly connected and the front The front left end surface of the second rotating disk coupled for rotation the second rocker arm de, the rear end of the second rocker arm De is connected so that it can rotate fourth push rod, wherein The rear end of the fourth push rod is located in the second cavity, a second seal plate is fixedly connected to the rear end of the fourth push rod, and the right end wall of the seventh cavity is located inside the right end wall. A step-down space is provided, an exhaust hole is provided below the right end wall of the seventh cavity, the exhaust hole communicates the seventh cavity and the step-down space, and a lower side of the right end wall of the step-down space. Is installed with a collection tube extending to the external space.

As a preferential technology plan, the fifth cavity has a columnar shape extending left and right, and the first crushing rods are evenly distributed on a shaft body located in the fifth cavity of the drive shaft, both the front and rear ends walls five cavities is installed the second crushing bar, the second crushing bar both are cross distribution and the first crushing bar length and the second crushing bars of the first crushing bars Are equal to the radius of the cross section of the fifth cavity.

As a preferential technology plan, the transmission belt is wound around the transmission pulley and the drive pulley so that the front end of the first swing rod can rotate with the rear end of the second push rod. And the length of the sixth cavity is larger than the sum of the lengths of the first rotating disk and the first rocking rod, and the diameter of the first rotating disk is half of the length of the second cavity. be equivalent to.

As a preferential technology plan, the turbine blade equally divides the seventh cavity, the rear end of the conical transmission gear meshes with the left end of the conical rotation tooth, and is connected in transmission, and the length of the eighth cavity It is greater than the sum of the lengths of said second rocker arm de and the second rotating disk, the diameter of the second rotating disk is equal to half the length of the second cavity is.

Compared with the existing technology, the beneficial effects of the present invention are as follows: During the operation of the present invention, after putting the silicon into the fifth cavity, the drive motor is operated and the drive shaft drives the first crushing rod. is driven to rotate, thereby grinding the axicon by interlacing distribution of the first crushing rod and a second crushing bar, a convenient subsequent extraction, the drive shaft is rotated to drive the shearing of the root, the lithospermum In the process of shearing, the first rotating disk is driven and rotated by the transmission belt, and under the action of the first rocking rod , the first seal plate is driven by the second push rod to cause the compression movement in the front-rear direction, As a result, the engagement of the first check valve and the second check valve controls the gas in the first cavity to enter the third cavity after being compressed, thereby completing the formation of the initial pressure value. Guarantees the normal operation of the equipment, after being sheared The crack enters the fourth cavity through the inlet, the red pigment in the silicon is extracted by the high-pressure gas flowing through the fourth cavity, and the pressure of the high-pressure gas extracted by the turbine blade is converted into the power of the conical transmission gear and, thereby to control the rotation of the second rotating disk, under the action of the second rocker arm de, is the compression movement in the longitudinal direction by fourth pushrod drives the second seal plate, thereby the Engagement of the one check valve and the second check valve controls the gas in the first cavity to enter the third cavity after being compressed, and the energy value can be reused by converting the pressure value. Realize, conserve resources, gas after depressurization separates red pigment in the depressurized space, easy operation, high extraction efficiency, can effectively conserve resources.

FIG. 1 is a schematic front view of the entire cross-section of the apparatus for extracting an ancusin dye of the present invention; 2 is a schematic top view of the entire cross section of FIG. 1A; 3 is a schematic top view of the entire cross section of FIG. 1B; FIG. 4 is a left side view of the entire cross section of the apparatus for extracting an ancusin dye of the present invention.

The accompanying drawings in the embodiments of the present invention are described below, the technical solutions of the embodiments of the present invention are clearly explained, and the described embodiments are only a part of the embodiments of the present invention and not all the embodiments. It is. Based on the embodiments of the present invention, all other embodiments obtained on the premise that ordinary engineers in this area do not pay creative labor belong to the protection scope of the present invention, for convenience of explanation. The following directions are defined as follows: the up / down / left / right front / rear directions described below coincide with the up / down / left / right front / rear directions of the projection relationship of FIG.

As shown in FIGS. 1 to 4, the apparatus for extracting an ancosine dye according to the embodiment of the present invention includes a fixed base plate 1, and a fixed housing 2 is fixed to an upper end surface of the fixed base plate 1, A first cavity 3 is installed on the left side of the interior, an intake pipe 4 is installed at the upper end of the left end wall of the first cavity 3, and an intake valve 5 is provided in a pipe body located in the external space of the intake pipe 4. The second cavity 6 is installed on the lower side of the right end wall of the first cavity 3, the first pore 7 is installed on the left end wall of the second cavity 6, and the first pore 7 is The first cavity 3 and the second cavity 6 communicate with each other, a first check valve 8 is installed inside the first hole 7, and a third cavity is formed inside the right end wall of the second cavity 6. 9 is installed, the second cavity 1 on the left end wall of the third cavity 9 0 is installed, the second pore 10 communicates the second cavity 6 and the third cavity 9, and a second check valve 11 is installed inside the second pore 10, and the third cavity A fourth cavity 12 is installed in the right end wall of the sixth cavity, a third pore 13 is installed in the left end wall of the fourth cavity 12, and the third pore 13 is formed by the fourth cavity 12 and the third cavity 9. A pressure valve 14 is installed inside the third pore 13, a fifth cavity 15 is installed inside the upper end wall of the fourth cavity 12, and an upper end wall of the fifth cavity 15 is installed. A closing door 16 is installed, and an inlet 17 is installed in the middle of the lower end wall of the fifth cavity 15. The inlet 17 communicates the fourth cavity 12 and the fifth cavity 15, and the inlet A sealing valve 18 is installed inside 17, and the inside of the left end wall of the fifth cavity 15 is A drive space 19 is installed, and a through hole 20 is installed in the right end wall of the drive space 19, and the through hole 20 communicates the fifth cavity 15 and the drive space 19, and the inside of the drive space 19 The drive motor 21 is fixed, and a drive shaft 22 that can be driven to rotate is connected to the right end of the drive motor 21. The right end of the drive shaft 22 passes through the through hole 20 and the right inner wall of the fifth cavity 15 The first crushing rods 23 are evenly distributed on the shaft body located in the fifth cavity 15 of the drive shaft 22 and are connected to the front and rear end walls of the fifth cavity 15. The second crushing rod 24 is also installed, and all of the second crushing rods 24 are cross-distributed with the first crushing rod 23, and a drive pulley is provided in the shaft body located in the through hole 20 of the drive shaft 22. 25 is fixedly attached and extends in the middle of the inner wall of the through hole 20 to the lower rear. A transmission space 26 is installed, a sixth cavity 27 is installed inside the left end wall of the transmission space 26, a transmission shaft 28 is installed below the inside of the transmission space 26, and a shaft body of the transmission shaft 28 A transmission pulley 29 is fixedly attached to the transmission pulley 29, and a transmission bell 30 is wound around the transmission pulley 29 and the drive pulley 25. The left end of the transmission shaft 28 is located in the sixth cavity 27. The first rotating disk 31 is fixedly connected to the left end of the transmission shaft 28, and the first rocking bar 32 is connected to the rear side of the left end surface of the first rotating disk 31 so that it can rotate. A second push rod 33 is rotatably connected to the front end of the first swing rod 32, and the front end of the second push rod 33 is located in the second cavity 6; A first seal plate 34 is fixedly connected to the front end of 33, and the right end wall of the fourth cavity 12 is A seventh cavity 35 is installed in the section, an intake hole 36 is installed above the left end wall of the seventh cavity 35, and the intake hole 36 communicates the fourth cavity 12 and the seventh cavity 35. A meshing space 37 is installed inside the front end wall of the seventh cavity 35, a rotating shaft 38 is installed inside the seventh cavity 35, and turbine blades 50 are evenly distributed in the shaft body of the rotating shaft 38. A front end of the rotary shaft 38 is positioned in the meshing space 37, a conical rotary tooth 39 is fixedly connected to the front end of the rotary shaft 38, and a conical shape is formed on the left side of the meshing space 37. A transmission gear 40 is installed, the rear end of the conical transmission gear 40 meshes with the left end of the conical rotation tooth 39, and the eighth cavity 41 is formed inside the front end wall of the second cavity 6. A rotating shaft that is installed and extends to the left in the middle of the left end surface of the conical transmission gear 40 42 is fixed, the left end of the rotation shaft 42 is located in the eighth cavity 41, the second rotation plate 43 is fixedly connected to the left end of the rotation shaft 42, the second rotation plate 43 of the front side of the left end surface is connected to allow rotation of the second rocker arm de 44, the rear end of the second rocker arm de 44 is connected so that it can rotate fourth push rod 45, the first A rear end of the four push rods 45 is located in the second cavity 6, and a second seal plate 46 is fixedly connected to the rear end of the fourth push rod 45, and a right end wall of the seventh cavity 35 A pressure-lowering space 47 is installed in the interior, an exhaust hole 48 is provided below the right end wall of the seventh cavity 35, and the exhaust hole 48 communicates the seventh cavity 35 and the pressure-lowering space 47. A collecting tube 49 extending to the external space is installed below the right end wall of the pressure-decreasing space 47.

Beneficially, the fifth cavity 15 has a cylindrical shape extending left and right, and the first crushing rods 23 are evenly distributed on a shaft body located in the fifth cavity 15 of the drive shaft 22. , wherein the front and rear end wall of the fifth cavity 15 either is installed the second crushing rod 24, both the second crushing rod 24 is cross distribution and the first crushing rod 23, the first crushing bars 23 And the length of the second crushing rod 24 are both equal to the radius of the cross section of the fifth cavity 15. The role is that after putting the silicon into the fifth cavity 15, the drive motor 21 is operated, and the first crushing rod 23 is driven and rotated by the drive shaft 22, whereby the first crushing rod 23 and This is to crush the silicon by the cross distribution with the second crushing rod 24, which is convenient for the subsequent extraction.

Beneficially, the transmission bell 30 is wound around the transmission pulley 29 and the drive pulley 25, and the front end of the first swing rod 32 is the rear end of the second push rod 33. The length of the sixth cavity 27 is larger than the sum of the lengths of the first rotary plate 31 and the first swing bar 32, and the diameter of the first rotary plate 31 is Equal to half the length of the second cavity 6. Its role is to rotate the drive shaft 22 to drive the shear of the silicon, and in the process of shearing the silicon, the first belt 31 is driven and rotated by the transmission belt 30 to rotate the first rocking bar 32. Under the action of the above, the first seal plate 34 is driven by the second push rod 33 to cause a compression movement in the front-rear direction, whereby the first check valve 8 and the second check valve 11 By engaging, the gas in the first cavity 3 is controlled to enter the third cavity 9 after being compressed, thereby completing the formation of the initial pressure value and ensuring the normal operation of the device. is there.

Beneficially, the turbine blade 50 equally divides the seventh cavity 35, and the rear end of the conical transmission gear 40 and the left end of the conical rotation tooth 39 are meshed and transmission-connected, and the eighth length of the cavity 41 is greater than the sum of the lengths of said second rocker arm de 44 and the second rotating disk 43, half the diameter of the second rotating disk 43 is of the length of the second cavity 6 equal. Its role is to convert the pressure of the high-pressure gas after being extracted by the turbine blade 50 into the power of the conical transmission gear 40, thereby controlling the rotation of the second rotating disk 43 and the second oscillation. under the action of the rod de 44, the fourth push rod 45 is a compression movement in the longitudinal direction by driving the second sealing plate 46 by which the said first check valve 8 the second check valve 11 is controlled to enter the third cavity 9 after the gas in the first cavity 3 is compressed, and energy reuse is realized by converting the pressure value. To save.

Specific use method: During the operation of the present invention, after putting the silicon into the fifth cavity 15, the drive motor 21 is operated, and the first crushing rod 23 is driven and rotated by the drive shaft 22, whereby the first It is convenient for subsequent extraction by crushing the silicon by the cross distribution of the crushing rod 23 and the second crushing rod 24. The drive belt 22 rotates, drives the shear of the silicon, and in the process of shearing the silicon, the transmission belt The first rotary disk 31 is driven and rotated by 30, and the first seal plate 34 is driven by the second push rod 33 under the action of the first rocking rod 32 to perform the compressing motion in the front-rear direction. By the engagement of the first check valve 8 and the second check valve 11, the gas in the first cavity 3 is controlled to enter the third cavity 9 after being compressed, and the initial pressure value is formed. Completed to ensure normal operation of the device, and after the shearing, the crushed cocoon is The red pigment in the silicon is extracted by the high-pressure gas entering the fourth cavity 12 and flowing through the fourth cavity 12, and the pressure of the high-pressure gas extracted by the turbine blade 50 is converted to the power of the conical transmission gear 40. , thereby controlling rotation of the second rotating disk 43, under the action of the second rocker arm de 44, is a compression movement in the longitudinal direction by a fourth push rod 45 to drive the second seal plate 46, As a result, the engagement of the first check valve 8 and the second check valve 11 controls the gas in the first cavity 3 to enter the third cavity 9 after being compressed, thereby converting the pressure value. Realizes the reuse of energy, saves resources, and the gas after depressurization separates red pigment in the depressurized space 47, is easy to operate, has high extraction efficiency, and effectively saves resources it can.

For those skilled in the art, the present invention is not limited to the details of the exemplary embodiments described above, but can be realized in other specific forms without departing from the significance and basic features of the present invention. Therefore, considering that this embodiment is exemplary and not restrictive from any perspective, the scope of the present invention is limited to the attached rights requirements, and all changes falling within the meaning and scope of equivalent important documents of rights requirements. It is included in the present invention. Do not consider all attached marks in the claim as limiting the claim.

Claims (1)

A fixed base plate, a fixed housing is fixed to the upper end surface of the fixed base plate, a first cavity is installed on the left side of the fixed housing, and an intake pipe is installed on the upper end of the left end wall of the first cavity. An intake valve is installed in a pipe body located in an external space of the intake pipe, a second cavity is installed below the right end wall of the first cavity, and a left end wall of the second cavity Is provided with a first pore, the first pore communicates with the first cavity and the second cavity, a first check valve is provided in the first pore, A third cavity is installed in the right end wall, a second pore is installed in the left end wall of the third cavity, the second pore communicates the second cavity and the third cavity, and the first cavity A second check valve is installed in the pore, a fourth cavity is installed in the right end wall of the third cavity, a third pore is installed in the left end wall of the fourth cavity, and the third cavity is installed. A pore communicates the fourth cavity and the third cavity, a pressure valve is installed inside the third pore, a fifth cavity is installed inside the upper end wall of the fourth cavity, and the fifth cavity A closing door is installed at the upper end wall of the cavity, an inlet is installed in the middle of the lower wall of the fifth cavity, the inlet communicates with the fourth cavity and the fifth cavity, and the inlet Is provided with a sealing valve, a drive space is provided in the left end wall of the fifth cavity, a through hole is provided in the right end wall of the drive space, and the through hole is connected to the fifth cavity. Communicating with the drive space A drive motor is fixed inside the drive space, and a drive shaft capable of rotational drive is connected to the right end of the drive motor. The right end of the drive shaft passes through the through hole and is on the right side of the fifth cavity. A first crushing rod is evenly distributed on a shaft body that is rotatably connected to an inner wall and is located in the fifth cavity among the drive shafts, and the second front and rear end walls of the fifth cavity are both second A crushing rod is installed, both of the second crushing rods are cross-distributed with the first crushing rod , a drive pulley is fixedly attached to a shaft body located in the through hole of the drive shaft, A transmission space extending downward and rearward is installed in the middle of the inner wall of the through hole, a sixth cavity is installed inside the left end wall of the transmission space, and a transmission shaft is provided below the transmission space. The transmission shaft is installed on the shaft body of the transmission shaft. A transmission belt is wound around and installed between the transmission pulley and the drive pulley, the left end of the transmission shaft is located in the sixth cavity, and the transmission shaft the left first rotating disk is connected fixedly, wherein the rear side of the left end surface of the first rotating disk connected so as to be rotated first rocker arm, the front end of the first rocker arm is A second push rod is connected for rotation; a front end of the second push rod is located in a second cavity; a first seal plate is fixedly connected to the front end of the second push rod; A seventh cavity is installed inside the right end wall of the fourth cavity, an intake hole is installed above the left end wall of the seventh cavity, and the intake hole communicates the fourth cavity and the seventh cavity. And the front end wall of the seventh cavity A meshing space is installed in the part, a rotating shaft is installed in the seventh cavity, a turbine blade is uniformly distributed in the shaft body of the rotating shaft, and a front end of the rotating shaft is located in the meshing space. A conical rotating tooth is fixedly connected to the front end of the rotation shaft, a conical transmission gear is installed on the left side of the meshing space, and a rear end of the conical transmission gear is the conical rotation. Meshed with the left end of the tooth and transmission connected, an eighth cavity is installed inside the front end wall of the second cavity, and a rotating shaft extending to the left is fixed in the middle of the left end face of the conical transmission gear The left end of the rotary shaft is located in the eighth cavity, the second rotary plate is fixedly connected to the left end of the rotary shaft, and the second rocker is on the front side of the left end surface of the second rotary plate. Dobo de is connected for rotation, the rear end of the second rocker arm de Is connected so that the fourth push rod can rotate, the rear end of the fourth push rod is located in the second cavity, and the second seal plate is fixedly attached to the rear end of the fourth push rod. A pressure-decreasing space is installed in the right end wall of the seventh cavity, an exhaust hole is installed below the right end wall of the seventh cavity, and the exhaust hole is connected to the seventh cavity and the step-down space. A collecting pipe extending to the external space is installed below the right end wall of the step-down space, the fifth cavity has a cylindrical shape extending left and right, and the fifth cavity of the drive shaft The first crushing rods are evenly distributed on the shaft body located inside, the second crushing rods are installed on the front and rear end walls of the fifth cavity, and the second crushing rods are both the first crushing rods . Crossed with one crushing rod , said first The length of one crushing rod and the length of the second crushing rod are both equal to the radius of the cross section of the fifth cavity,
The transmission belt is wound and installed between the transmission pulley and the driving pulley, and the front end of the first swing rod is connected to be rotatable with the rear end of the second push rod, The length of the six cavities is larger than the sum of the lengths of the first rotating disk and the first rocking rod , the diameter of the first rotating disk is equal to half the length of the second cavity, and the turbine blade Divides the seventh cavity equally, the rear end of the conical transmission gear and the left end of the conical rotation tooth mesh and are connected to each other, and the length of the eighth cavity is the second rotating disk and the second rocker arm greater than the sum of the length of the de-extraction device Ankushin dye, wherein the diameter of the second rotating disk is equal to half the length of the second cavity.

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