KR100992371B1 - Room-temperature ultrasonic extracting device - Google Patents

Abstract

PURPOSE: A room temperature ultrasonic wave extraction apparatus is provided to prevent the concern of high temperature heat to occur in cooling water, thereby preventing the concern of the extracts such as chlorophyll to be extracted in the extracting material such as silkworm droppings accepted to the extraction tub by high temperature heat of the cooling water. CONSTITUTION: A room temperature ultrasonic wave extraction apparatus includes two extracting tanks(10,30) and an ultrasonic wave generating unit(50) which generates ultrasonic wave within the extracting tub by being installed between the extracting tubs. The ultrasonic generation unit has a space containing cooling water inside and includes a body(510) which inlet and vent flowing in and discharging the cooling water respectively are formed and a vibrator(530) which generates ultrasonic wave by being included within the space of the body. The ultrasonic generation unit has a conductor plate(70) between the two extracting tub and body of the ultra wave generating unit. The high temperature ultrasonic wave extraction apparatus has a circulation pump(90) which compulsorily circulates the cooling water through inlet and vent.

Description

Room temperature ultrasonic extraction device {ROOM-TEMPERATURE ULTRASONIC EXTRACTING DEVICE}

The present invention can more easily prevent the risk that the extracts such as chlorophyll to be extracted from the blood extracts such as silkworm dung accommodated in the extraction tank is more easily destroyed, and further extract more extracts of chlorophyll and the like through the two extraction tanks. In addition, ozone, which is a harmful substance to the human body, may not be mixed with blood extracts such as silkworm dung, and as a result, a separate purification process is required to remove harmful substances such as ozone from blood extracts such as silkworm dung. It relates to a room temperature ultrasonic extraction device that will disappear.

Extraction methods generally applied to extract only substances useful for the human body from vegetable or animal substances containing substances useful for the human body include boiling the above-mentioned substance and the extraction solvent together in a hot boiling water and then purifying them. It is used.

However, in the case of such an extraction method, when a substance useful for the human body is a protein-based component or a substance that is denatured or destroyed upon heating, ultrasonic waves are recently applied at room temperature because the substance cannot be properly extracted as the substance is destroyed at a high temperature. The extraction method has been proposed, and many studies have been conducted.

On the other hand, recently, the ultrasonic extraction device (hereinafter referred to as 'prior art 1') and the ultrasonic intensity generated by improving the uniformity of the ultrasonic irradiation in the form in which the vibrator for ultrasonic generation is in direct contact with the extraction object. An ultrasonic extraction device (hereinafter referred to as 'prior art 2') has been proposed to increase.

However, the prior arts 1 and 2 are in the form of direct contact between the vibrator and the extract object. When ultrasonic waves are generated from the vibrator, ozone, which is a substance harmful to the human body, which is generated together with bubbles, is incorporated into the extract object and thus the final extract. There is a problem that the harmful substances are present in the human body, there is a problem that a separate purification process to proceed in order to remove them.

In order to solve the above problems, an extraction process may be recently performed at room temperature, and the ultrasonic extraction device does not directly include the vibrator and the extraction object, so that impurities during ultrasonic generation are not included in the extract (hereinafter, 'prior art 3'). Has been proposed.

However, the prior art 3 is the ultrasonic transfer material such as water received between the transmission plate provided on the inner side of the water tank and the vibrator provided on one side of the water tank so as to be exposed to the outside of the water tank is heat from the vibrator When the temperature rises when the temperature is increased, the high temperature heat of the ultrasonic transfer material whose temperature is increased is transferred to the blood extract contained in the water tank, which not only destroys the extract to be extracted from the blood extract, but also reduces the extraction amount of the extract. There is a problem.

The present invention has been created to solve the above-described problems, it is possible to more easily prevent the risk of destruction of extracts such as chlorophyll to be extracted from blood extracts such as silkworm dung accommodated in the extraction tank, furthermore, the two extraction tanks Through this, not only the extract of chlorophyll and the like can be extracted, but also ozone, which is a harmful substance to the human body, may not be mixed with blood extracts such as silkworm dung. It is an object of the present invention to provide a room temperature ultrasonic extraction device that does not need to proceed with a separate purification process to remove the material.

The present invention for achieving the above object comprises an ultrasonic generator for generating ultrasonic waves into the two extraction tanks and the two extraction tanks in the two extraction tanks, the ultrasonic generator is housed in the cooling water A body having a space therein and formed with inlets and outlets through which cooling water is introduced and discharged; And a vibrator configured to generate ultrasonic waves in the space of the body, and provides a room temperature ultrasonic extraction device, characterized in that a transmission plate is provided between the two extraction tanks and the body of the ultrasonic generator.

Here, the circulation pump for forcibly circulating the cooling water accommodated in the space provided inside the body of the ultrasonic generator through the inlet and outlet is provided.

One side and the other through hole are formed at both sides of the body of the ultrasonic generator, and the other side through hole is formed at the other side of the extraction tank among the two extraction tanks, and one side of the extraction tank among the two extraction tanks. A through hole is formed, and the penetrating hole is formed between one through hole of the ultrasonic generator and the other through hole of the extraction tank among the two extraction tanks, and between the other through hole of the ultrasonic generator and one through hole of the extraction tank of the two extraction tanks, respectively. It is preferable that a plate is provided.

In addition, the ultrasonic generator is preferably provided in the center of the space provided in the interior of the body.

Further, it is preferable that a coolant communication port is formed in the vibrator of the ultrasonic generator.

In addition, a stirring unit for stirring the extracts and the solvent contained in the two extraction tanks are provided, respectively, the stirring unit and the rotary shaft is rotatably provided in each of the two extraction tanks; A driving motor provided on the two extraction tanks in the state coupled with the rotation shaft to rotate the rotation shaft; The stirring shaft is provided at equal intervals on the rotating shaft and rotates along the rotating shaft rotated by the driving motor.

In addition, the inlet of the ultrasonic generator is formed on the lower side of the body, the outlet of the ultrasonic generator is preferably formed on the other top of the body.

In the present invention, since the coolant receiving heat from the vibrator of the ultrasonic generator is circulated by the inlet and outlet of the body of the ultrasonic generator, high temperature heat can be prevented from being generated in the cooling water. Extraction such as chlorophyll to be extracted from blood extracts such as silkworm dung accommodated in the tank can be more easily prevented from being destroyed by the high temperature heat of the cooling water, and further through the two extraction tanks such as a greater amount of chlorophyll Not only can the extract be extracted, but the vibrator and blood extracts such as silkworm dung are not in direct contact, so when ozone is generated from the vibrator, ozone, which is a harmful substance to the human body, does not have to be incorporated into the blood extracts such as silkworm dung. Of course, this also removes harmful substances such as ozone from blood extracts such as silkworm dung. It is not necessary to proceed to a separate purification step for going to the effect that would be.

In addition, it is possible to easily circulate the cooling water accommodated in the space provided inside the body of the ultrasonic generator through the inlet and the outlet using a circulation pump, and therefore, the high temperature heat in the cooling water due to the vibrator. There is an effect that can be more easily prevented from occurring.

In addition, silkworms generated by the vibrator of the ultrasonic generator through a transmission plate provided between the one side through hole of the ultrasonic generator and the other through hole of the extraction tank and between the other through hole of the ultrasonic generator and one side through hole of the extraction tank. In addition, since the ozone, which is a substance harmful to the human body, does not pass through the permeable plate, it may be more easily delivered to an extract to be extracted, such as a silkworm dung. There is an effect that can be easily prevented.

Furthermore, since the vibrator of the ultrasonic generator is provided in the center of the space provided inside the body, it is possible not only to transmit uniform ultrasonic waves to the two extraction tanks but also to greatly improve the cooling efficiency of the vibrator through the cooling water. It is effective.

In addition, through the cooling water communication port formed in the vibrator of the ultrasonic generator, the cooling water accommodated in the inside of the space and the cooling water contained in the other side of the space can be exchanged more smoothly. There is an effect that can be greatly improved.

In addition, through the stirring unit provided in each of the two extraction tanks, it is possible to more easily stir the extracts such as silkworm dung and the solvents, such as ethanol, respectively accommodated in the two extraction tanks. There is an effect that the extraction efficiency of the extract, such as chlorophyll can be improved even more significantly.

In addition, since the inlet of the ultrasonic generator is formed on one side of the lower side of the body, the outlet of the ultrasonic generator is formed on the other side of the upper portion of the body, the cooling water accommodated inside one side of the space and the cooling water accommodated inside the other side of the space is even more. Not only can be heat exchanged smoothly, but this also has the effect that the cooling efficiency of the vibrator can be improved even more significantly.

1 is a schematic view showing an apparatus for extracting room temperature ultrasonic waves according to one embodiment of the present invention;
Figure 2 is a perspective view schematically showing the extraction tank and the ultrasonic generator of Figure 1,
3 is a cross-sectional view schematically showing an internal state of the extraction tank and the ultrasonic generator of FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Of course, the scope of the present invention is not limited to the following examples, and various modifications can be made by those skilled in the art without departing from the technical gist of the present invention.

1 is a schematic view showing an apparatus for extracting room temperature ultrasonic waves according to an embodiment of the present invention, and FIG. 2 is a perspective view schematically showing the extraction tanks 10 and 30 and the ultrasonic generator 50 of FIG. 1.

Room temperature ultrasonic extraction apparatus of one embodiment of the present invention is large, as shown in Figure 1 and 2, comprises two extraction tanks (10, 30) and the ultrasonic generator 50.

First, inside the two extraction tanks 10 and 30, a solvent such as ethanol is accommodated at a predetermined height together with a blood extract such as silkworm dung by an operator.

An input tube 12 communicating with the inside of the extraction tank 10 may be vertically formed at one upper side of the extraction tank 10 among the two extraction tanks 10 and 30.

A solvent such as ethanol may be accommodated at a predetermined height together with the blood extract such as silkworm dung into the extraction tank 10 through the inlet 12.

A discharge pipe 14 communicating with the inside of the extraction tank 10 may be vertically formed at a lower center portion of the extraction tank 10.

A solvent such as ethanol may be discharged to the outside together with the extracts such as silkworm dung accommodated in the extraction tank 10 through the discharge pipe 14.

The discharge pipe 14 may be provided with an opening and closing valve (not shown) for opening and closing the discharge pipe 14 by the control of a control unit (not shown).

The other side of the extraction tank 10 may be formed with the other horizontal tube 16 extending horizontally in one direction of the ultrasonic generator 50.

At the outer circumference of the other horizontal tube 16, the other flange portion 161 of the annular shape may be vertically provided.

An input pipe 32 communicating with the inside of the extraction tank 30 may be vertically formed at the other upper side of the extraction tank 30 among the two extraction tanks 10 and 30.

A solvent such as ethanol may be accommodated at a predetermined height together with the blood extract such as silkworm dung within the extraction tank 30 through the inlet tube 32.

A discharge pipe 34 communicating with the inside of the extraction tank 30 may be vertically formed at the lower center of the extraction tank 30.

A solvent, such as ethanol, may be discharged to the outside together with the extracts such as silkworm dung accommodated inside the extraction tank 30 through the discharge pipe 34.

The discharge pipe 34 may be provided with an opening and closing valve (not shown) for opening and closing the discharge pipe 34 by the control of a control unit (not shown).

One side of the extraction tank 30 may be formed with one horizontal pipe 36 extending horizontally in the direction of the other side of the ultrasonic generator 50.

An annular one side flange portion 361 may be vertically provided at an outer circumference of the one horizontal tube 36.

3 is a cross-sectional view schematically illustrating an internal state of the extraction tanks 10 and 30 and the ultrasonic wave generator 50 of FIG. 1.

Next, the ultrasonic generator 50 is provided between the two extraction tanks 10 and 30 to generate ultrasonic waves into the two extraction tanks 10 and 30.

The ultrasonic generator 50 includes a body 510 and a vibrator 530 as shown in FIG.

The body 510 is provided with a space 511 for receiving coolant such as water.

An inlet pipe 520 communicating with a lower side of the space 511 may be vertically formed under the body 510.

An inlet 513 may be formed inside the inlet pipe 520 to introduce cooling water such as water into the space 511.

A discharge pipe 540 communicating with an upper side of the space 511 may be vertically formed on the upper portion of the body 510.

An outlet 515 may be formed in the discharge pipe 540 to discharge cooling water such as water introduced into the space 511.

One side of the body 510 may be horizontally extended to one side of the horizontal tube 550 in communication with one side of the space 511 in the direction of the other side of the extraction tank (10).

An outer circumference of the one side horizontal pipe 550 may be vertically provided with an annular one flange portion 551 that is bolted to the other flange portion 161 of the extraction tank 10.

On the other side of the body 510, the other horizontal pipe 570 communicating with the other side of the space 511 may be horizontally extended in one side direction of the extraction tank 30.

At the outer circumference of the other horizontal pipe 570, an annular other flange portion 571 that is bolted to one flange portion 361 of the extraction tank 30 may be vertically provided.

The vibrator 530 is vertically provided in the space 511 of the body 510 to generate ultrasonic waves.

As shown in FIG. 1, the vibrator 530 may receive ultrasonic power from a known oscillator 3 and a voltage regulator 5 to generate ultrasonic waves.

Next, as shown in Figure 3 between the two extraction tanks (10, 30) and the body 510 of the ultrasonic generator 50, the ultrasonic wave generated by the vibrator 530 two extraction tanks The transmission plate 70 to be delivered to the solvent and extracts such as silkworm dung accommodated in the (10, 30) may be vertically provided.

The transmission plate 70 may be made of a film such as aluminum, but is not necessarily limited thereto and may be made of more various materials.

Next, as shown in FIG. 3, the cooling water such as water contained in the space 511 provided in the body 510 of the ultrasonic generator 50 is forced through the inlet 513 and the outlet 515. A circulation pump 90 for circulating may be provided.

More specifically, a circulation pipe 590 may be provided between the inlet pipe 520 and the discharge pipe 540 of the body 510.

The upper end of the circulation pipe 590 may be fixedly connected to the upper end of the discharge pipe 540, the lower end of the circulation pipe 590 may be fixed to the lower end of the inlet pipe 520. .

The circulation pump 90 is driven by the control of a controller (not shown) in a state provided in the center of the circulation pipe 590 to communicate with the circulation pipe 590 to the inlet 513 and the outlet 515. Cooling water, such as water accommodated in the space 511 through the circulation pipe 590 and the space 511 to be forced circulation.

The cooling water, such as water, contained in the space 511 provided in the body 510 of the ultrasonic generator 50 using the circulation pump 90, through the inlet 513 and the outlet 515. Not only can it be forced forced circulation, but also there is an advantage that it is possible to more easily prevent the possibility of the high temperature heat generated in the cooling water, such as water due to the vibrator 530.

Next, one side and the other through hole (512, 514) may be formed on both sides of the body 510 of the ultrasonic generator 50.

The one side through hole 512 may be formed in one horizontal tube 550 of the body 510.

The other through hole 514 may be formed in the other horizontal tube 570 of the body 510.

Next, the other side through hole 111 may be formed on the other side of the extraction tank 10 of the two extraction tanks (10, 30).

The other through hole 111 may be formed in the other horizontal tube 16 of the extraction tank 10.

Next, one side through hole 311 may be formed at one side of the extraction tank 30 among the two extraction tanks 10 and 30.

The one side through hole 311 may be formed in one horizontal tube 36 of the extraction tank (30).

Next, the transmission plate 70 is formed between one side through hole 512 of the ultrasonic generator 50 and the other side through hole 111 of the extraction tank 10 among the two extraction tanks 10 and 30. This can be vertically equipped.

The upper edge of the transmission plate 70 to prevent the cooling water contained in the space 511 of the body 510 to pass through the transmission plate 70 into the interior of the extraction tank 10 is the An inner circumference of the other flange portion 161 of the extraction tank 10 and an inner circumference of the flange portion 551 of the ultrasonic generator 50 may be hermetically sealed.

In addition, the transmission plate 70 is formed between the other through hole 514 of the ultrasonic generator 50 and one side through hole 311 of the extraction tank 30 among the two extraction tanks 10 and 30. It can be vertically equipped.

To prevent the coolant contained in the space 511 of the body 510 from passing through the transmission plate 70 into the extraction tank 30, the upper edge of the transmission plate 70 is extracted. The inner periphery of the flange portion 361 of the tub 30 and the inner periphery of the other flange portion 571 of the ultrasonic wave generator 50 may be hermetically sealed.

Between one through hole 512 of the ultrasonic generator 50 and the other through hole 111 of the extraction tank 10 and the other through hole 514 and the extraction tank 30 of the ultrasonic generator 50 Of course, it is possible to more easily transfer the ultrasonic waves generated by the vibrator of the ultrasonic generator 50 to the extracts, such as silkworms, through the transmission plates 70 provided between the through holes 311 of each side. Since ozone, which is a substance harmful to the human body, does not pass through the transmission plate 70, there is an advantage that it is possible to more easily prevent the possibility of harmful substances such as ozone being mixed into the blood extract such as silkworm dung. .

Next, as shown in FIG. 3, the vibrator 530 of the ultrasonic generator 50 may be vertically provided at the center of the space 511 provided in the body 510.

Since the vibrator of the ultrasonic generator 50 is vertically provided at the center of the space 511 provided inside the body 510, it is possible to transmit uniform ultrasonic waves to the two extraction tanks 10 and 30. Of course, the cooling efficiency of the vibrator 530 through the cooling water also has the advantage that can be greatly improved.

Next, as shown in Figure 3, the oscillator 530 of the ultrasonic generator 50 may be formed at a predetermined interval in the vertical direction in the cooling water communication port 531, both sides open.

Through the coolant communication port 531 formed in the vibrator 530 of the ultrasonic generator 50, the coolant accommodated inside one side of the space 511 and the coolant accommodated inside the other side of the space 511 more smoothly. Of course, the heat exchange may be performed, and thus, the cooling efficiency of the vibrator 530 may be further improved.

Next, as shown in FIG. 3, the stirring unit 100 for stirring the extracts such as silkworm dung contained in the two extraction tanks 10 and 30 and the solvent such as ethanol may be provided.

The stirring unit 100 may include a rotating shaft 120, a drive motor 140 and the stirring blade 160.

The rotation shaft 120 may be vertically provided in the two extraction tanks 10 and 30 so as to be capable of forward and reverse rotation.

Upper ends of the rotary shaft 120 may be fixed to the upper portion of the two extraction tanks (10, 30), respectively.

The drive motor 140 is bolted to the upper end of the extraction tank (10, 30) in the state coupled with the upper end of the rotary shaft 120 so as to be exposed to the outside of the upper portion of the two extraction tank (10, 30) Each can be vertically fixed in a fixed state.

The driving motor 140 may receive the power from the known oscillator 3 and the voltage regulator 5 under the control of a controller (not shown) to rotate the rotating shaft 120 forward and backward.

The stirring blade 160 may be horizontally provided at equal intervals in the vertical direction on the outer periphery of the rotary shaft 120 to be located in the two extraction tanks (10, 30).

The stirring blade 160 is rotated forward and backward along the rotating shaft 120 is rotated forward and backward by the drive motor 140, such as blood extract and silk ethanol and the like contained in the two extraction tank (10, 30) The solvent is stirred.

Through the agitator 100 provided in each of the two extraction tanks 10 and 30, the extracts such as silkworm dung and the solvents such as ethanol, which are accommodated in the two extraction tanks 10 and 30, respectively, are more easily. Not only can it be stirred, but this also has the advantage that the extraction efficiency of extracts such as chlorophyll in blood extracts such as silkworm dung can be further improved.

Next, as shown in FIG. 3, the inlet pipe 520 having the inlet 513 of the ultrasonic generator 50 formed therein is perpendicular to the lower side of the body 510, and the ultrasonic generator. The discharge pipe 540 in which the discharge port 515 of the 50 is formed may be vertically formed at the upper other side of the body 510.

The inlet pipe 520 in which the inlet 513 of the ultrasonic generator 50 is formed is perpendicular to the lower side of the body 510, and the outlet 515 of the ultrasonic generator 50 is Since the discharge pipe 540 formed therein is vertically formed at the other side of the upper portion of the body 510, the coolant contained in one side of the space 511 and the coolant contained in the other side of the space 511 exchange heat more smoothly. Of course, this has the advantage that the cooling efficiency of the vibrator 530 can also be improved even more significantly.

 According to the present invention configured as described above, the coolant receiving heat from the vibrator 530 of the ultrasonic generator 50 to the inlet 513 and the outlet 515 of the body 510 of the ultrasonic generator 50. Since the inflow and discharge is circulated, the high temperature heat may be prevented from being generated in the cooling water, and as a result, an extract such as chlorophyll to be extracted from blood extracts such as silkworm dung accommodated in the extraction tanks 10 and 30 may be extracted. It is possible to more easily prevent the risk of being destroyed by the high temperature heat of the cooling water,

Furthermore, not only the extract of chlorophyll and the like can be extracted through the two extraction tanks 10 and 30, but also the vibrator 530 and the extracts such as silkworm dung do not directly contact the vibrator ( When the ultrasonic wave is generated at 530, ozone, which is a harmful substance to the human body, is not likely to be mixed into blood extracts such as silkworm dung, and as a result, a separate purification process for removing harmful substances such as ozone from blood extracts such as silkworm dung. There is an advantage that there is no need to proceed.

3; Oscillator, 5; Voltage regulator,
10, 30; Extraction tank, 100; Stirring,
111, 514; The other through hole 120; Rotation axis,
12, 32; Input tube, 14, 34; discharge pipe,
140; Drive motors, 16, 570; Other horizontal pipe,
160; Stirring blade, 161, 571; Other flange,
36, 550; One horizontal tube, 311, 512; One side through hole,
361, 551; One side flange portion, 50; Ultrasonic Generator,
510; Body 511; space,
513; Inlet, 515; outlet,
520; Inlet tube, 530; Oscillator,
531; Coolant port, 540; discharge pipe,
590; Circulatory tube, 70; Transmission Plate,
90; Circulation pump.

Claims (7)

It is provided between the two extraction tanks (10, 30) and the two extraction tanks (10, 30) comprises an ultrasonic generator 50 for generating ultrasonic waves into the two extraction tanks (10, 30) ,
The ultrasonic generator 50 includes a body 510 having a space 511 therein for receiving coolant therein and having an inlet 513 and an outlet 515 for inflow and outflow of the coolant; And a vibrator 530 provided in the space 511 of the body 510 to generate ultrasonic waves.
Room temperature ultrasonic extraction device, characterized in that the transmission plate 70 is provided between the two extraction tanks (10, 30) and the body (510) of the ultrasonic generator 50.
The method of claim 1,
The circulation pump 90 for forcibly circulating the cooling water contained in the space 511 provided in the body 510 of the ultrasonic generator 50 through the inlet 513 and the outlet 515 is provided. Room temperature ultrasonic extraction apparatus characterized in.
The method of claim 1,
One side and the other side through hole (512, 514) are formed on both sides of the body 510 of the ultrasonic generator 50,
The other through hole 111 is formed on the other side of the extraction tank 10 among the two extraction tanks 10 and 30,
One side through hole 311 is formed on one side of the extraction tank 30 of the two extraction tanks (10, 30),
Between one side through hole 512 of the ultrasonic generator 50 and the other through hole 111 of the extraction tank 10 of the two extraction tanks 10 and 30 and the other side of the ultrasonic generator 50 Room temperature ultrasonic extraction device, characterized in that the transmission plate 70 is provided between the through hole 514 and one of the through holes 311 of the extraction tank 30 of the two extraction tanks (10, 30), respectively. .
The method of claim 1,
Room temperature ultrasonic extraction device, characterized in that the vibrator 530 of the ultrasonic generator 50 is provided in the center of the space 511 provided inside the body (510).
The method of claim 1,
Room temperature ultrasonic extraction apparatus, characterized in that the coolant communication port 531 is formed on the vibrator 530 of the ultrasonic generator 50.
The method of claim 1,
Stirring unit 100 for stirring the extracts and the solvent contained in the two extraction tanks 10 and 30 are respectively provided,
The stirring unit 100 has a rotary shaft 120 which is rotatably vertically rotatably inside the two extraction tanks (10, 30);
A driving motor 140 provided on each of the two extraction tanks 10 and 30 in an axially coupled state with the rotary shaft 120 to rotate the rotary shaft 120;
Room temperature ultrasonic extraction device is characterized in that it comprises a; is provided at equal intervals on the rotating shaft 120, the stirring blade 160 to rotate along the rotating shaft 120 rotated by the drive motor 140; .
The method of claim 1,
The inlet 513 of the ultrasonic generator 50 is formed on the lower side of the body 510, the outlet 515 of the ultrasonic generator 50 is formed on the other side of the upper portion of the body 510 Room temperature ultrasonic extraction apparatus characterized in.

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