CN111940057A

CN111940057A - Fresh ginger powder and processing method thereof

Info

Publication number: CN111940057A
Application number: CN202010978046.6A
Authority: CN
Inventors: 杨朝文; 贾平
Original assignee: Yunnan Qidan Pharmaceutical Co ltd
Current assignee: Yunnan Qidan Pharmaceutical Co ltd
Priority date: 2019-09-19
Filing date: 2020-09-17
Publication date: 2020-11-17
Also published as: CN111974507A; CN111905880A; CN111974508A; CN111921631A; CN111957392A; CN112058404A; CN111940056A; CN111957391A; CN112275394A; CN112076843A; CN112191329A; CN111905879A; CN112206877A; CN112058405A; CN112108235A

Abstract

The invention relates to a method for rapidly drying and pulverizing fresh ginger, which is characterized in that a kidney-cleaning mill which is further optimized on the basis of the kidney-cleaning mill disclosed in patent 201910884019X is utilized for processing, or the fresh ginger is prepared into dry powder within 3 minutes.

Description

Fresh ginger powder and processing method thereof

Technical Field

The invention relates to a method for rapidly drying and pulverizing fresh ginger and a processed product thereof, belonging to the technical field of drying and pulverizing and the technical field of circulating fluidized beds.

Background

The ginger is a perennial herb of the genus zingiberaceae, the history of eating and medicinal use of the ginger is very long in China, the development and utilization of the ginger are relatively early, main products comprise ginger slices, sweet ginger, ginger sauce, ginger juice and the like, the product grade is low, and the sales volume is limited. In order to fully and reasonably utilize precious fresh ginger resources, the fresh ginger is prepared into dry powder, so that the problem of long-term storage can be solved, and multiple possibilities are provided for subsequent deep processing. The invention patent 201910884019X discloses a kidney cleaning mill, which can make most of dry and fresh agricultural products into super fine powder with more than 800 meshes within 3 minutes, and is obviously advantageous when used for processing fresh ginger powder.

Disclosure of Invention

The invention aims to provide a method for rapidly drying fresh ginger to prepare powder and fresh ginger powder on the basis of patent 201910884019X of the invention, so as to solve the problem of long-term storage of the fresh ginger.

The technical measures adopted for realizing the aim of the invention are that the method for rapidly drying and pulverizing the fresh ginger adopts a kidney cleaning mill which is further optimized on the basis of patent 201910884019X, the kidney cleaning mill consists of a kidney cleaning mill main machine and an auxiliary device, the kidney cleaning mill main machine consists of a main fan, a main fan feeding pipe, a main fan kinetic energy recovery device, an inner circulating pipe A, an auxiliary fan feeding pipe, an auxiliary fan kinetic energy recovery device and an inner circulating pipe B, the main fan and the auxiliary fan are both centrifugal fans, the main fan feeding pipe is provided with an inner circulating pipe interface, the outlet of the main fan feeding pipe is connected with the inlet of the main fan, the main fan kinetic energy recovery device is arranged in the main fan feeding pipe and is connected with a main fan impeller, the auxiliary fan feeding pipe is provided with an inner circulating pipe interface, the outlet of the auxiliary fan feeding pipe is connected with the inlet of the auxiliary fan, the auxiliary fan motor energy recovery device is arranged in an auxiliary fan feeding pipe and connected with an auxiliary fan impeller, the outlet of a main fan is connected with an inner circulating pipe interface on the auxiliary fan feeding pipe through an inner circulating pipe A, the auxiliary fan impeller completely depends on the air flow of the inner circulating pipe A to impact the kinetic energy recovery device of the auxiliary fan and the pressure difference between the auxiliary fan feeding pipe and the main fan feeding pipe to push the auxiliary fan impeller to rotate, the outlet of the auxiliary fan is connected with the inner circulating pipe interface of the main fan through an inner circulating pipe B, the air flow from the inner circulating pipe B can assist in pushing the main fan impeller to rotate through impacting the main fan kinetic energy recovery device, the inlet of the main fan feeding pipe is the inlet of the kidney-cleaning main machine, and the inlet of the auxiliary fan feeding pipe is the outlet of the kidney-cleaning main machine.

The kinetic energy recovery device consists of kinetic energy recovery blades and an upper ring, wherein one end of each kinetic energy recovery blade is fixed on the shaft sleeve, the other end of each kinetic energy recovery blade is fixed on the upper ring, and the upper ring is fixed on an impeller shaft extending along the feeding pipe;

the accessory device consists of a cyclone dust collector, a bag type dust collector and an outer circulating pipe, wherein the outer circulating pipe is provided with a dust discharging interface of the cyclone dust collector, an air inlet of the cyclone dust collector is connected with an outlet of the main machine of the kidney cleaning mill through a pipeline, an air outlet of the cyclone dust collector is connected with an air inlet of the bag type dust collector, an outlet of the outer circulating pipe is connected with an inlet of the main machine of the kidney cleaning mill, and the outer circulating pipe is also provided with a feeding device.

The tail gas of the kidney cleaning mill is directly discharged, when the kidney cleaning mill is used for processing fresh ginger, volatile components in the fresh ginger gasified together with water are discharged along with the tail gas, the quality of a product is damaged to a certain extent, in order to solve the problem of quality reduction of the fresh ginger product caused by loss of the volatile components, the accessory device also comprises an operation medium processing branch which consists of a first heat exchanger, a second heat exchanger, a condenser and a heater, wherein the inlet of a heat medium channel of the first heat exchanger is an air inlet of an operation medium supply branch, the outlet of the heater is an air outlet of the operation medium supply branch, an air flow channel of the operation medium supply branch is formed by sequentially connecting the heat medium channel of the first heat exchanger, the heat medium channel of the second heat exchanger, a heat medium channel of the condenser, an air pipe, a refrigerant channel of the second heat exchanger and a refrigerant channel of the heater, and a refrigerant channel of the condenser, the heat medium channel of the heater is a condenser of the heat pump, the air inlet of the working medium supply branch is connected with the air outlet of the bag type dust collector, and the air outlet of the working medium processing branch is connected with the inlet of the external circulation pipe.

In order to reduce the water content of liquefied materials in the main machine and improve wall hanging, the accessory device also comprises a material returning device, the material returning device consists of a 1# conveyor and a 2# conveyor, the 1# conveyor is provided with 1 feed inlet and two discharge outlets, one discharge outlet is a main discharge outlet of the kidney-cleaning mill, the 2# conveyor is provided with two feed inlets and two discharge outlets, the feed inlet of the 1# conveyor is connected with an ash discharge outlet of the bag-type dust collector, the other discharge outlet of the 1# conveyor is connected with one feed inlet of the 2# conveyor, the other feed inlet of the 2# conveyor is connected with an ash discharge outlet of the cyclone dust collector, one discharge outlet of the 2# conveyor is provided with a valve, an outlet of the valve is connected with an ash discharge interface of the cyclone dust collector on an outer circulating pipe, the other discharge outlet of the 2# conveyor is an auxiliary discharge outlet of the kidney-cleaning mill, and the main discharge outlet and the auxiliary discharge outlet of the kidney-cleaning mill are provided with a valve, The storage pipe and the valve are connected in sequence to form the air-closing device.

A method for preparing powder by quickly drying fresh ginger comprises the following steps:

s1, preprocessing fresh ginger: removing impurities from fresh ginger, and cleaning for later use, wherein the fresh ginger can be fresh ginger which is just harvested or fresh ginger which is dried in place;

s2, starting the equipment: sequentially starting the kidney cleaning mill main machine, the operation medium supply branch and the ultraviolet sterilization device, adjusting the exhaust temperature of the operation medium supply branch, and controlling the exhaust temperature of the bag type dust collector below 70 ℃;

s3, drying fresh ginger to prepare powder: adding the fresh ginger prepared in the S1 into a kidney cleaning mill to prepare powder.

Fresh ginger powder, fresh ginger powder processed by the method, a material taking volatile components in fresh ginger as main components, is a material collected by a condenser when the fresh ginger powder is processed by the method.

The invention relates to a method for rapidly drying and pulverizing fresh ginger, which is characterized in that a kidney-cleaning mill which is further optimized on the basis of the kidney-cleaning mill disclosed in patent 201910884019X is utilized for processing, and drying and pulverizing are simultaneously finished.

Drawings

FIG. 1 is a kidney mill;

FIG. 2 is a diagram of the host architecture of FIG. 1;

FIG. 3 is a block diagram of the process media bypass of FIG. 1;

fig. 4 is a structural view of the material returning device in fig. 1.

Detailed Description

Example 1, a kidney-cleaning mill, see fig. 1, fig. 2, fig. 3 and fig. 4, comprising a main unit and an auxiliary unit, the main unit, see fig. 2, comprising a main fan 4, a main fan feed pipe 3, a main fan kinetic energy recovery device 11, an internal circulation pipe a5, an auxiliary fan 9, an auxiliary fan feed pipe 8, an auxiliary fan kinetic energy recovery device 7 and an internal circulation pipe B10, the main fan 4 and the auxiliary fan 9 are both centrifugal fans, the main fan 4 has an air volume greater than that of the auxiliary fan 9, the main fan feed pipe 3 has an internal circulation pipe interface, the outlet of the main fan feed pipe 3 is connected to the inlet of the main fan, the main fan kinetic energy recovery device 11 is disposed in the main fan feed pipe 3 and connected to a main fan impeller, the auxiliary fan feed pipe has an internal circulation pipe interface, the outlet of the auxiliary fan feed pipe is connected to the inlet of the auxiliary fan, the auxiliary fan kinetic energy recovery device 7 is disposed in the auxiliary fan feed pipe 8 and connected to an auxiliary fan impeller, the outlet of the main fan is connected with the interface of the inner circulating pipe on the feeding pipe 8 of the auxiliary fan through the inner circulating pipe A5, the impeller of the auxiliary fan completely depends on the air flow of the inner circulating pipe A5 to impact the mechanical energy recovery device 7 of the auxiliary fan and the pressure difference between the feeding pipe 8 of the auxiliary fan and the feeding pipe 3 of the main fan to push the auxiliary fan to rotate, the outlet of the auxiliary fan is connected with the interface of the inner circulating pipe of the main fan through the inner circulating pipe B10, the air flow from the inner circulating pipe B10 can assist in pushing the impeller of the main fan to rotate through impacting the kinetic energy recovery device of the main fan, the inlet of the feeding pipe of the main fan is the inlet 12 of the main fan, and the inlet of the feeding.

The kinetic energy recovery device is shown in the right drawing in the attached figure 2 and consists of kinetic energy recovery blades 13 and an upper ring 14, wherein one end of each kinetic energy recovery blade 13 is fixed on a shaft sleeve, the other end of each kinetic energy recovery blade is fixed on the upper ring 14, and the upper ring is fixed on an impeller shaft 15 extending along a feeding pipe;

the accessory device comprises a cyclone dust collector 25, a bag type dust collector 17, an external circulating pipe 23, an operation medium processing branch 20 and a material returning device 26, wherein the external circulating pipe is provided with a dust discharging interface 22 of the cyclone dust collector, an air inlet of the cyclone dust collector is connected with an outlet of the main machine of the kidney cleaning mill through a pipeline 16, an air outlet of the cyclone dust collector is connected with an air inlet of the bag type dust collector through a pipeline 19, an outlet of the external circulating pipe is connected with an inlet of the main machine of the kidney cleaning mill, and the external circulating pipe is also provided with a feeding device 24; the inlet 18 of the working medium processing branch is connected with the air outlet of the bag type dust collector, and the air outlet 21 of the working medium processing branch is connected with the inlet of the external circulation pipe.

The working medium processing branch is composed of a first heat exchanger 109, a second heat exchanger 108, a condenser 106 and a heater 102, the inlet of a heat medium channel of the first heat exchanger 109 is an air inlet 110 of a working medium supply branch, the outlet of the heater is an air outlet 102 of the working medium supply branch, an air flow channel of the working medium supply branch is formed by sequentially connecting a heat medium channel of the first heat exchanger 109, a heat medium channel of the second heat exchanger 108, a heat medium channel of the condenser 106, an air pipe 105, a cooling medium channel of the second heat exchanger 108 and a cooling medium channel of the heater 102, the cooling medium channel of the condenser 106 is an evaporator of a heat pump, and the heating medium channel of the heater 102 is a condenser of the heat pump.

The material returning device is shown in the attached drawing and consists of a No. 1 conveyor and a No. 2 conveyor, wherein the No. 1 conveyor is provided with a feed inlet 128 and two discharge outlets, one discharge outlet is a main discharge outlet 127 of the kidney-cleaning mill, the No. 2 conveyor is provided with two feed inlets and two discharge outlets, the feed inlet of the No. 1 conveyor is connected with an ash discharge outlet of the bag-type dust collector, the other discharge outlet 126 of the No. 1 conveyor is connected with the feed inlet of the No. 2 conveyor, the other feed inlet 129 of the No. 2 conveyor is connected with an ash discharge outlet of the cyclone dust collector, a valve is arranged on one discharge outlet 130 of the No. 2 conveyor, the outlet of the valve is connected with an ash discharge interface of the cyclone dust collector on the outer circulating pipe, and the other discharge outlet of the No. 2 conveyor is an auxiliary discharge outlet 125 of the kidney-cleaning mill; the main discharge port and the auxiliary discharge port of the kidney-cleaning mill can be also provided with a gas-closing device which is formed by sequentially connecting a valve, a material storage pipe and a valve so as to prevent a large amount of working medium from leaking from the discharge port during discharging.

Example 2: a method for preparing powder by quickly drying fresh ginger adopts the Rujie mill of embodiment 1 to process, and comprises the following steps:

s1, customizing the job medium: replacing the working medium in the kidney-cleaning mill with air with the oxygen content of less than 10%;

s2, preprocessing fresh ginger: removing impurities from fresh ginger, and cleaning for later use, wherein the fresh ginger can be fresh ginger which is just harvested or fresh ginger which is dried in place;

s3, starting the equipment: sequentially starting the kidney cleaning mill main machine, the operation medium supply branch and the ultraviolet sterilization device, adjusting the exhaust temperature of the operation medium supply branch, and controlling the exhaust temperature of the bag type dust collector below 70 ℃;

s4, ultrafine grinding: adding the fresh ginger prepared in the S2 into a kidney cleaning mill to prepare powder.

Example 3. a fresh ginger powder, the fresh ginger powder processed by the method for rapidly drying and pulverizing fresh ginger described in example 2,

example 4. a material containing volatile components of fresh ginger as main ingredients is collected by a condenser when fresh ginger powder is processed by the method for rapidly drying and pulverizing fresh ginger described in example 2.

One difficulty faced when fresh ginger is processed by the kidney-cleaning mill is that materials are adhered to machine parts, namely, the machine parts are hung on the wall, the effective solution is to reduce the moisture content of the materials, and the moisture content of the materials in the machine is reduced by a method that a material returning device of the kidney-cleaning mill preferentially returns powder collected by a bag type dust collector to a main machine of the kidney-cleaning mill through a 2# conveyor.

Claims

1. A method for preparing powder by quickly drying fresh ginger is characterized in that a kidney cleaning mill is adopted for processing, the kidney cleaning mill comprises a kidney cleaning mill main machine and an auxiliary device, the kidney cleaning mill main machine comprises a main fan, a main fan feeding pipe, a main fan kinetic energy recovery device, an inner circulation pipe A, an auxiliary fan feeding pipe, an auxiliary fan kinetic energy recovery device and an inner circulation pipe B, the main fan and the auxiliary fan are centrifugal fans, the air volume of the main fan is larger than that of the auxiliary fan, the main fan feeding pipe is provided with an inner circulation pipe joint, the outlet of the main fan feeding pipe is connected with the inlet of the main fan, the main fan kinetic energy recovery device is arranged in the main fan feeding pipe and connected with a main fan impeller, the auxiliary fan feeding pipe is provided with an inner circulation pipe joint, the outlet of the auxiliary fan feeding pipe is connected with the inlet of the auxiliary fan, the auxiliary fan kinetic energy recovery device is arranged in the auxiliary fan feeding pipe and connected with an auxiliary fan impeller, the outlet of the main fan is connected with an interface of an inner circulating pipe on a feeding pipe of the auxiliary fan through the inner circulating pipe A, an impeller of the auxiliary fan completely depends on the air flow of the inner circulating pipe A to impact an energy recovery device of the auxiliary fan and the pressure difference between the feeding pipe of the auxiliary fan and the feeding pipe of the main fan to push the auxiliary fan to rotate, the outlet of the auxiliary fan is connected with the interface of the inner circulating pipe of the main fan through the inner circulating pipe B, the air flow from the inner circulating pipe B can assist in pushing the impeller of the main fan to rotate through impacting the kinetic energy recovery device of the main fan, the inlet of the feeding pipe of the main fan is the inlet of the main fan, and the inlet of the feeding pipe; the kinetic energy recovery device of the main fan and the kinetic energy recovery device of the auxiliary fan have the same structure and consist of kinetic energy recovery blades and an upper ring, wherein one end of each kinetic energy recovery blade is fixed on the shaft sleeve, the other end of each kinetic energy recovery blade is fixed on the upper ring, and the upper ring is fixed on an impeller shaft extending along the feeding pipe;

the auxiliary device consists of a cyclone dust collector, a bag type dust collector, an external circulating pipe, an operation medium processing branch and a material returning device, wherein the external circulating pipe is provided with a dust discharging interface of the cyclone dust collector;

the working medium processing branch consists of a first heat exchanger, a second heat exchanger, a condenser and a heater, wherein the inlet of a heat medium channel of the first heat exchanger is the air inlet of a working medium supply branch, the outlet of the heater is the air outlet of the working medium supply branch, and an air flow channel of the working medium supply branch consists of a heat medium channel of the first heat exchanger, a heat medium channel of the second heat exchanger, a condenser heat medium channel, an air pipe, a second heat exchanger refrigerant channel and a heater refrigerant channel which are sequentially connected;

the material returning device comprises a 1# conveyor and a 2# conveyor, wherein the 1# conveyor is provided with 1 feeding hole and two discharging holes, one discharging hole is a main discharging hole of the kidney-cleaning mill, the 2# conveyor is provided with two feeding holes and two discharging holes, the feeding hole of the 1# conveyor is connected with an ash discharging hole of the bag type dust collector, the other discharging hole of the 1# conveyor is connected with one feeding hole of the 2# conveyor, the other feeding hole of the 2# conveyor is connected with an ash discharging hole of the cyclone dust collector, a valve is arranged on one discharging hole of the 2# conveyor, an outlet of the valve is connected with an ash discharging hole of the cyclone dust collector on the outer circulating pipe, the other discharging hole of the 2# conveyor is an auxiliary discharging hole of the kidney-cleaning mill, and the main discharging hole and the auxiliary discharging hole of the kidney-cleaning mill are provided with an air-closing device which is formed by sequentially connecting the valve, a material storage pipe and the valve;

the method comprises the following steps:

2. A fresh ginger powder processed by the method for rapidly drying and pulverizing fresh ginger according to claim 1.

3. A material containing volatile components in fresh ginger as main ingredient is collected by a condenser when fresh ginger powder is processed by the method for rapidly drying and pulverizing fresh ginger according to claim 1.