CN201563550U - Tea Microwave Ultrasonic Combined Dynamic Countercurrent Extraction Equipment - Google Patents

Abstract

The utility model discloses an equipment for dynamically and countercurrent extracting tea by combined use of microwave and ultrasonic. A frame is fixed with a shell; the shell consists of a microwave extracting chamber, an ultrasonic extracting chamber and a solid-liquid separating chamber communicated with one another, and is arranged in a gradually reduced ladder shape; the side wall of the microwave extracting chamber is provided with a material inlet that is connected with a hopper; a first packing auger is rotatablely arranged in the microwave extracting chamber in the horizontal direction; and a second packing auger is rotatablely arranged in the ultrasonic extracting chamber in the horizontal direction. The equipment can realize industrialized large-scale extraction production, can be customized according to the practical situation, can meet the requirement of the laboratory tests and can also meet the requirement of industrial production.

Description

Tea Microwave Ultrasonic Combined Dynamic Countercurrent Extraction Equipment

technical field

The utility model relates to the extraction of active ingredients in dried tea leaves, fresh tea leaves, Chinese medicinal materials and other animals and plants, in particular to a microwave and ultrasonic combined dynamic countercurrent extraction equipment for tea.

Background technique

Tea is one of the three major beverages in the world. Because tea beverages are natural, healthy, and convenient to drink, people are more fond of tea beverage products. Tea is known as "National Drink" in China. Extraction is a basic and important process step in the deep processing of tea. The extraction efficiency directly affects the yield of tea quality components and product quality. At present, boiling water extraction and organic solvent extraction are mostly used to extract the active ingredients of tea leaves. The tea products obtained not only have quality problems such as weak fragrance, precipitation, and color change, but also take a long time to extract, resulting in low product yield and high cost. , and the active ingredients of tea are prone to chemical changes. Now tea extraction also has methods such as enzyme, microwave, and ultrasonic assisted extraction. Chinese patents CN200610104831. 6. Several microwave and ultrasonic extraction devices and methods disclosed in CN200810064620.6, CN200720086099.7, and CN03132385.5 have their own characteristics. However, these extraction methods and equipment are only in the laboratory stage, and they are still in the industrial production. There are some problems and deficiencies. For this reason, try to extract the active ingredients of tea by means of segmental, time-sharing and online control by coupling microwave ultrasonic technology, and make full use of the advantages of microwave ultrasonic technology coupling to extract effective ingredients in tea to achieve the content of effective substances in tea. The purpose of industrial production, such as short extraction time, less loss, continuous work, and controllable operation, aims to provide a production basis for the development of new techniques, new methods and new equipment for the extraction of active ingredients in tea.

Utility model content

The technical problem to be solved by the utility model is to provide a tea microwave and ultrasonic combined dynamic countercurrent extraction equipment to effectively extract the active ingredients in dried tea leaves, fresh tea leaves, Chinese medicinal materials and other animals and plants.

For solving the problems referred to above, the technical scheme of the utility model is:

A microwave and ultrasonic combined dynamic countercurrent extraction equipment for tea, including a frame, characterized in that: the frame is fixed with a shell, and the shell is composed of a microwave extraction chamber, an ultrasonic extraction chamber and a solid-liquid separation chamber Composition, in the shape of steps decreasing step by step, the side wall of the microwave extraction chamber is provided with a feed inlet, the feed inlet is connected to a hopper, the first auger is installed horizontally in the microwave extraction chamber, and the microwave extraction chamber The upper end is provided with a microwave generator facing the first auger; the second auger is installed horizontally in the ultrasonic extraction chamber, and the second auger passes through the ultrasonic extraction chamber and the solid-liquid separation chamber and extends out of the Outside the solid-liquid separation chamber, the upper end of the ultrasonic extraction chamber is provided with a plurality of crushing ultrasonic generators facing the second auger, and the bottom end of the ultrasonic extraction chamber is also provided with a plurality of functional ultrasonic generators facing the second auger. The upper end of the ultrasonic extraction chamber is also provided with a water inlet, the water inlet is connected to the water storage tank through a water delivery pipe, and the bottom of the front end of the ultrasonic extraction chamber is also provided with a liquid outlet, and the liquid outlet is connected to the liquid storage tank through a liquid outlet pipe , the connection between the liquid outlet pipe and the outlet of the ultrasonic extraction chamber is provided with a filter screen; in the solid-liquid separation chamber, a dehydration screen is provided below the second auger, and a squeeze screen is provided at the bottom of the solid-liquid separation chamber. Extruding the water outlet, the extruding water outlet is located under the dehydration screen, the extruding water outlet is connected with a water pump, and the water pump communicates with the water storage tank through the return pipe;

The solid-liquid separation chamber is located at the end of the second auger and is provided with a discharge port, and a pressure-resistance door is installed at the discharge port, and a bracket is provided outside the pressure-resistance door. The choke door is connected, and the choke door is pressed against the discharge port.

The microwave and ultrasonic combined dynamic countercurrent extraction equipment for tea is characterized in that: the first auger and the second auger are respectively driven by external speed-regulating motors.

The microwave and ultrasonic combined dynamic countercurrent extraction equipment for tea is characterized in that: the bottom of the ultrasonic extraction chamber is provided with a guide groove leading to the liquid outlet, and the bottom of the solid-liquid separation chamber is also provided with a guide groove leading to the extrusion outlet. The guide groove of the water outlet.

The microwave and ultrasonic combined dynamic countercurrent extraction equipment for tea leaves is characterized in that a temperature sensor is also arranged at the bottom of the ultrasonic extraction chamber.

The microwave-ultrasonic combined dynamic countercurrent extraction equipment for tea is characterized in that: the water delivery pipe, the liquid outlet pipe and the return water pipe are all equipped with valves.

The microwave-ultrasonic combined dynamic countercurrent extraction equipment for tea is characterized in that a control box is set outside the microwave ultrasonic combined dynamic countercurrent extraction equipment for tea, which controls the work of the microwave ultrasonic combined dynamic countercurrent extraction equipment for tea in real time.

A method for tea microwave and ultrasonic combined dynamic countercurrent extraction, characterized in that: the tea raw material enters the microwave extraction chamber from the feeding port, the solvent enters the ultrasonic extraction chamber through the water delivery pipe, and in the microwave extraction chamber, the tea leaves are extracted under the action of microwave energy. While being heated, the tea cells are destroyed, and the active ingredients in the tea cells dissolve into the solvent; driven by the first auger, the tea leaves are continuously transported to the next-level ultrasonic extraction room, where the tea leaves The outer wall membrane of the cells is further destroyed under the action of the crushing ultrasonic wave, and the active ingredients in the tea cells are released into the solvent in large quantities and dissolved in the solvent. At the same time, the functional ultrasonic wave under the second auger produces a "cavitation" effect, Accelerate the dissolution and diffusion of active ingredients in tea; under the action of the second auger, the tea leaves continue to push forward and enter the solid-liquid separation chamber, where they are dehydrated under the combined action of the auger screw extrusion and the dehydration screen. The dehydrated tea leaves As the second auger continues to push forward, and under the action of the thrust of the second auger, the pressure door at the rear end of the solid-liquid separation chamber is forcibly pushed open. After the pressure door squeezes the compression spring, the pressure door opens and dehydration The final tea dregs are continuously discharged out of the solid-liquid separation chamber; the dehydrated and filtered liquid is sent back to the upper water delivery pipeline by the water pump through the dehydration screen and the return pipe, and is recycled again; the ultrasonic extraction chamber contains the saturated solution of the active ingredients of the tea Through the guide groove set at the bottom of the ultrasonic extraction chamber and flow through the filter screen, and then flow into the liquid storage tank through the liquid outlet pipe, the leached solution can be filtered again, concentrated and dried to obtain the required tea extraction product .

During the whole tea extraction process, the movement direction of the tea leaves is opposite to the flow direction of the solvent, which is beneficial to the leaching of the active ingredients of the tea leaves, and the continuous tea extraction operation is easy to realize industrial production.

The method for tea microwave and ultrasonic combined dynamic countercurrent extraction is characterized in that its process parameters are:

Microwave power: 0.3～3Kw, frequency: 2450MHz, extraction time: 1～30min;

Ultrasonic power: 0.3~3Kw, frequency: 20~40KHz, extraction time: 1~50min;

Raw material requirements: solid-liquid ratio w/V is 1: (10-60), extraction temperature: ≤55°C;

Raw materials: dry tea leaves: crushed to 20-60 meshes; fresh tea leaves: crushed to a particle size of ≤2cm;

The speed of the first and second augers: 10~60r/min;

Solvent: water, ethanol, ethyl acetate and other organic or inorganic solvents.

The beneficial effects of the utility model:

1. There is a solid-liquid separation device at the back end of the extraction equipment, so that on the one hand, the extracted tea dregs can be dehydrated for comprehensive utilization of tea dregs; on the other hand, the filtered tea liquid can be recycled and reused , reducing the loss of active ingredients in the tea liquid;

2. The machine can realize automatic adjustment and online control. The temperature sensor can be used to measure the extraction temperature of the solution during the extraction process. The temperature can be changed by adjusting the power of microwave and ultrasonic waves. The first auger and the second auger The speed is achieved by changing the respective speed-regulating motors and the transmission ratio in the gearbox, which is also the main factor determining the entire extraction time;

3. It can realize industrialized and large-scale extraction and production, and can be customized according to the actual situation, which can not only meet the needs of laboratory tests, but also meet the requirements of industrial production.

Description of drawings

Fig. 1 is the structural representation of the utility model.

Detailed ways

Referring to Fig. 1 , a tea microwave and ultrasonic combined dynamic countercurrent extraction equipment includes a frame 25 on which a housing 8 is fixed, and the housing 8 includes a microwave extraction chamber 2, an ultrasonic extraction chamber 18 and a solid-liquid separation chamber Composed of 14, it is in the shape of steps that decrease step by step. The side wall of the microwave extraction chamber 2 is provided with a feed port, connected to the hopper 1, and a rotating shaft is arranged in the microwave extraction chamber 2, and the first auger 26 is set on the rotating shaft. The upper end of the microwave extraction chamber 2 is provided with a microwave generator 3 facing the first auger 26; a rotating shaft is also arranged in the ultrasonic extraction chamber 2, and the rotating shaft passes through the ultrasonic extraction chamber 2 and the solid-liquid separation chamber 14 and extends out of the solid-liquid separation chamber. Outside the separation chamber 14, the end of the rotating shaft is provided with a bracket 12, which is connected to the outside of the solid-liquid separation chamber 14, and the second auger 15 is set on the rotating shaft. A crushing ultrasonic generator 4, the bottom end of the ultrasonic extraction chamber 18 is also provided with a plurality of functional ultrasonic generators 19 facing the second auger 15, the upper end of the ultrasonic extraction chamber 18 is also provided with a water inlet, connected with The water storage tank 7 of water pipe 6, the bottom end of ultrasonic extraction chamber 18 is also provided with liquid outlet, connects with the liquid storage tank 23 of liquid outlet pipe 22, and the junction of liquid outlet pipe 22 and ultrasonic extraction chamber 18 liquid outlets is provided with There is a filter screen 21; in the solid-liquid separation chamber 1, a dehydration screen 10 is arranged below the second auger, in the solid-liquid separation chamber 14, a discharge port is provided at the end of the second auger 26, and a pressure resistance is installed at the discharge port Door 11, support 12 is arranged on the outside of choke door 11, is connected with compression spring 13 on the support, and compression spring 13 is connected with choke door 11, and choke door is supported on the discharge port. The bottom of the solid-liquid separation chamber 14 and the bottom of the dewatering screen 10 are provided with an extrusion outlet 16 connected to a water pump 17 , and a return pipe 9 is connected between the water delivery pipe 6 of the water storage tank 7 and the water pump 17 .

The first auger 26 and the second auger 15 are respectively connected with external speed-regulating motors 27 and 24 through rotating shafts.

The bottom of the ultrasonic extraction chamber 18 is provided with a guide groove leading to the liquid outlet, and the bottom of the solid-liquid separation chamber 14 is also provided with a guide groove leading to the extrusion water outlet 22 .

The bottom of the ultrasonic extraction chamber 18 is also provided with a temperature sensor 20 .

The water delivery pipe 6, the liquid outlet pipe 22, and the water return pipe 9 all have valves.

A control box 5 is arranged outside the casing 8 to control the work of the microwave-ultrasonic combined dynamic countercurrent extraction equipment for tea in real time.

The tea raw material enters the microwave extraction chamber 2 from the feeding port, and the solvent enters the ultrasonic extraction chamber 2 through the water delivery pipe 6. In the microwave extraction chamber 2, the tea cells are destroyed while being heated under the action of microwave energy, and the tea cells in the tea cells are destroyed. The active ingredients of the tea are dissolved into the solvent; driven by the first auger 26, the tea leaves are continuously transported forward to the next-level ultrasonic extraction chamber 18, where the outer wall membrane of the tea cells is broken under the action of ultrasonic waves Further destruction, a large amount of active ingredients in the tea cells are released into the solvent and dissolved in the solvent. At the same time, the functional ultrasonic wave under the second auger 15 produces a "cavitation" effect, which accelerates the dissolution and diffusion of the active ingredients of the tea Under the action of the second auger 15, the tealeaves continue to be pushed forward, enter the solid-liquid separation chamber 14, and dehydrate under the joint action of the second auger 15 screw extrusion and the dehydration screen 10, and the dehydrated tea leaves The second auger 15 continues to push forward, and under the action of the thrust of the second auger 15, the pressure-resistance door 11 at the rear end of the solid-liquid separation chamber 14 is forcibly pushed open. After the pressure-resistance door 11 squeezes the compression spring 13, the pressure resistance The door 11 is opened, and the dehydrated tea residue is continuously discharged out of the solid-liquid separation chamber 14; the dehydrated and filtered liquid is sent back to the upper water delivery pipe 6 by the water pump 17 through the dehydration screen 10 and the return pipe 9, and is recycled again; The saturated solution containing the active ingredients of tea in the ultrasonic extraction chamber 18 passes through the guide groove arranged at the bottom of the ultrasonic extraction chamber 18 and flows through the filter screen 21 , and then flows into the liquid storage tank 23 through the liquid outlet pipe 22 .

The process parameters of tea microwave ultrasonic combined with dynamic countercurrent extraction are:

Microwave power: 0.3～3Kw (adjustable), frequency: 2450MHz, extraction time: 1～30min (adjustable);

Ultrasonic power: 0.3~3Kw (adjustable), frequency: 20~40KHz, extraction time: 1~50min (adjustable);

Raw material requirements: material-to-liquid ratio w/V is 1: (10-60), extraction temperature: ≤55°C;

Raw materials: dry tea leaves (crushed to 20-60 meshes), fresh tea leaves (crushed particle size ≤ 2cm);

Shaft speed: 10~60r/min (adjustable);

Extraction solvent: water, ethanol, ethyl acetate and other organic or inorganic solvents.

Claims (5)

1. A tealeaves microwave-ultrasonic joint dynamic countercurrent extraction equipment, comprising a frame, is characterized in that: the frame is fixed with a housing, and the housing is composed of interconnected microwave extraction chambers, ultrasonic extraction chambers and solid-liquid extraction chambers. The separation chamber is composed of step-by-step steps, the side wall of the microwave extraction chamber is provided with a feed port, the feed port is connected to a hopper, and a first auger is installed horizontally in the microwave extraction chamber. The upper end of the chamber is provided with a microwave generator facing the first auger; the second auger is installed horizontally in the ultrasonic extraction chamber, and the second auger passes through the ultrasonic extraction chamber and the solid-liquid separation chamber and extends Outside the solid-liquid separation chamber, the upper end of the ultrasonic extraction chamber is provided with a plurality of crushing ultrasonic generators facing the second auger, and the bottom end of the ultrasonic extraction chamber is also provided with a plurality of function facing the second auger. An ultrasonic generator, the upper end of the ultrasonic extraction chamber is also provided with a water inlet, the water inlet is connected to the water storage tank through a water delivery pipe, and the bottom of the front end of the ultrasonic extraction chamber is also provided with a liquid outlet, and the liquid outlet is connected to the storage tank through a liquid outlet pipe. Liquid tank, the connection between the liquid outlet pipe and the outlet of the ultrasonic extraction chamber is provided with a filter; the solid-liquid separation chamber is provided with a dehydration screen below the second auger, and the bottom of the solid-liquid separation chamber is provided with There is an extrusion outlet, the extrusion outlet is located under the dehydration screen, the extrusion outlet is connected to a water pump, and the water pump communicates with the water storage tank through the return pipe; The solid-liquid separation chamber is located at the end of the second auger and is provided with a discharge port, and a pressure-resistance door is installed at the discharge port, and a bracket is provided outside the pressure-resistance door. The choke door is connected, and the choke door is pressed against the discharge port. 2. The microwave-ultrasonic combined dynamic countercurrent extraction equipment for tea according to claim 1, characterized in that: the first auger and the second auger are respectively driven by external speed-regulating motors. 3. The microwave-ultrasonic combined dynamic countercurrent extraction equipment for tea according to claim 1, characterized in that: the bottom of the ultrasonic extraction chamber is provided with a guide groove leading to the liquid outlet, and the bottom of the solid-liquid separation chamber is also provided with There is a guide channel leading to the extrusion outlet. 4. The microwave-ultrasonic combined dynamic countercurrent extraction equipment for tea leaves according to claim 1, characterized in that: a temperature sensor is also arranged at the bottom of the ultrasonic extraction chamber. 5. The equipment for tea microwave and ultrasonic combined dynamic countercurrent extraction according to claim 1, characterized in that: said water delivery pipe, liquid outlet pipe and return water pipe are all provided with control valves.

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