阅读说明：本技术 一种具有so2检测功能的有机枸杞验收加工装置及方法 (Organic Chinese wolfberry acceptance processing device and method with SO2 detection function ) 是由 安为君 张学玲 于 2021-07-06 设计创作，主要内容包括：本发明公开了一种具有SO2检测功能的有机枸杞验收加工装置及方法,包括外箱,其特征在于：所述外箱的外部左侧设置有控制箱,所述外箱的内部设置有清洁机构,所述清洁机构的下方设置有传送机构,所述传送机构的右侧设置有烘干机构,所述控制箱的内部设置有数据处理器,所述控制箱的外表面上设置有控制面板,所述控制面板的右侧设置有若干旋转按钮,若干所述按钮与数据处理器电连接,所述控制面板上设置有计时器,所述外箱位于控制箱后方的表面上连接有进流管道,所述进流管道的下管口固定连接有水泵,所述水泵与进流管道的连接处设置有比例调节块,本发明,具有实用性强和可实现SO2简单检测功能的特点。(The invention discloses an organic medlar acceptance processing device with SO2 detection function and a method thereof, wherein the device comprises an outer box and is characterized in that: the automatic detection device comprises an outer box, a control box, a cleaning mechanism, a conveying mechanism, a drying mechanism, a data processor, a control panel, a plurality of rotary buttons, a timer, a water inlet pipeline, a water pump and a proportion adjusting block, wherein the control box is arranged on the left side of the outer box, the cleaning mechanism is arranged in the outer box, the conveying mechanism is arranged below the cleaning mechanism, the drying mechanism is arranged on the right side of the conveying mechanism, the data processor is arranged in the control box, the control panel is arranged on the outer surface of the control box, the control panel is electrically connected with the data processor, the timer is arranged on the control panel, the surface of the outer box, which is positioned behind the control box, is connected with the water inlet pipeline, the lower pipe opening of the water inlet pipeline is fixedly connected with the water pump, and the proportion adjusting block is arranged at the joint of the water pump and the water inlet pipeline.)

1. The utility model provides an organic matrimony vine acceptance processing device and method with SO2 detects function, includes outer container (1), its characterized in that: a control box (2) is arranged on the left side of the outer part of the outer box (1), a cleaning mechanism is arranged in the outer box (1), a conveying mechanism is arranged below the cleaning mechanism, a drying mechanism is arranged on the right side of the conveying mechanism, a data processor is arranged in the control box (2), a control panel is arranged on the outer surface of the control box (2), a plurality of rotary buttons are arranged on the right side of the control panel, the plurality of buttons are electrically connected with the data processor, a timer is arranged on the control panel, the surface of the outer box (1) which is positioned at the rear part of the control box (2) is connected with an inflow pipeline, the lower pipe opening of the inflow pipeline is fixedly connected with a water pump (3), a proportion adjusting block (4) is arranged at the joint of the water pump (3) and the inflow pipeline, and a second air pump (23) is arranged on the outer side of the water pump (3).

2. The device and the method for processing organic medlar acceptance inspection with SO2 detection function according to claim 1, wherein: the device is characterized in that a material throwing port (8) is installed above the outer box (1), the cleaning mechanism comprises a cylindrical barrel (10), the cylindrical barrel (10) is located below the material throwing port (8), the upper portion inside the cylindrical barrel (10) is communicated with a flow inlet pipeline, a sliding plate (41) is connected to the inside of the proportion adjusting block (4) in a sliding mode, a second liquid cavity (43) is formed in the left side of the upper portion of the sliding plate (41), a first liquid cavity (42) is formed in the left side of the lower portion of the sliding plate (41), a telescopic partition plate is arranged in the middle of the inside of the proportion adjusting block (4), the middle of the telescopic partition plate is fixedly connected with the middle of the sliding plate (41), an air cylinder (45) is installed inside the telescopic partition plate, an air rod (44) is connected to the inside of the air cylinder (45) in a sliding mode, the top of the air rod (44) is fixedly connected with the middle of the sliding plate (41), and the air cylinder (45) is electrically connected with a second air pump (23), the water pump (3) is connected with the data processor electricity with air pump two (23), the outside of proportion regulating block (4) is provided with liquid bag (7), the last downside of liquid bag (7) respectively with the internal piping connection of sap cavity one (42) and sap cavity two (43), the upper end pipe connection of proportion regulating block (4) has alcohol to advance pipe (6), the lower extreme pipe connection of proportion regulating block (4) has inlet tube (5).

3. The device and the method for processing organic medlar acceptance inspection with SO2 detection function according to claim 2, wherein: the inner part of the cylindrical barrel (10) is provided with a rotating drum (11), the cylindrical barrel is fixed on the inner wall of an outer box, the bottom of the cylindrical barrel (10) is provided with a disc (13), the inner part of the disc (13) is provided with a plurality of push cylinders, piston rods (12) are connected inside the push cylinders in a sliding mode, the tops of the piston rods (12) are fixedly connected with the bottom of the rotating drum (11), a clamping block (14) is arranged in the center of the disc (13), the clamping block (14) is cylindrical, the diameter of the clamping block (14) is consistent with the inner diameter of the rotating drum (11), the conveying mechanism comprises a cover plate (16), the disc (13) is located above the left side of the cover plate (16), a motor I (15) is arranged below the cover plate (16), an air pump I (21) is arranged on one side of the motor I (15), and a rotating shaft is installed inside the motor I (15), the axis of rotation top is connected with the centre rotation of disc (13), the outside of axis of rotation is provided with the safety cover, the safety cover is the telescopic link material, the safety cover is connected with the data processor electricity, air pump (21) and a plurality of inside pipe connections that push away the jar, air pump (21) and motor (15) all are connected with the data processor electricity.

4. The device and the method for processing organic medlar acceptance inspection with SO2 detection function according to claim 3, wherein: the internally connected of cylinder bucket (10) has the pipeline of effluenting, the inlet height of the pipeline of effluenting is less than the liquid outlet of the pipeline of effluenting, another mouth of pipe of the pipeline of effluenting is connected with collecting box (22), the both sides of cover plate (16) are half curved form, the right side of cover plate (16) is provided with retaining chamber (17), the top in retaining chamber (17) is provided with the pivot, the external fixed surface of pivot has a set of sieve (18), and is a set of sieve (18) are the straight angle and distribute in the both sides of pivot, the one end of pivot is provided with motor three (24), motor three (24) are connected with the data processor electricity.

5. The device and the method for processing organic medlar acceptance inspection with SO2 detection function according to claim 4, wherein: the drying mechanism comprises a drying box (20), a conveyor belt (9) is arranged on the right side of the sieve plate (18), a part of the conveyor belt (9) penetrates through the inside of the drying box (20), the front plate of the drying box (20) is made of transparent glass, a humidity display meter (19) is arranged on the surface of the transparent glass, a second motor (201) is arranged at the top of the drying box (20), the second motor (201) is electrically connected with the data processor, the middle of the second motor (201) is rotatably connected with a rotating rod, the bottom end of the rotating rod is fixedly connected with a group of impellers (202), a fixed rod (203) is arranged below the impellers (202), the lower end of the fixing rod (203) is fixedly connected with a lower plate (204), a plurality of elastic rods (205) are fixed below the lower plate (204), and cotton balls (206) are mounted at the lower ends of the elastic rods (205).

6. The device and method for processing organic Lycium Chinense with SO2 detection function as claimed in claim 5, wherein: the inside of conveyer belt (9) is provided with a set of gyro wheel, and a set of the gyro wheel is located the inside both ends of conveyer belt (9) respectively, one side of conveyer belt (9) is provided with the rotation motor, a plurality of sieve meshes (111) have been seted up on the surface of rotary drum (11), be provided with brush hair (112) on the inner wall of rotary drum (11).

7. The device and method for processing organic Lycium Chinense with SO2 detection function as claimed in claim 6, wherein: the method comprises the following steps:

s1: selecting medlar, screening sand grains, glass and other foreign matters, and putting the selected medlar into the rotary drum (11);

s2: the branches and leaves and defective products of the medlar are screened by changing the concentration ratio of the solution in the cleaning mechanism;

s3: after screening the high-quality medlar, conveying the medlar, and drying the medlar in a drying box (20);

s4: when the medlar enters the drying box (20), the internal temperature is controlled at 60-70 ℃ for about 9h, during the drying period, the workers in turn watch the color of the medlar in the drying box every 15min, and simultaneously, a humidity display meter (19) displays the humidity in the box in real time;

s5: after the drying procedure is finished, cooling the medlar, and transmitting the medlar to the outside of the box through the operation of a conveyor belt;

s6: weighing a certain amount of medlar and grinding to obtain powder;

s7: taking sufficient fuchsin saturated solution, enabling the fuchsin saturated solution to react with SO2 in the medlar, and judging whether the batch of medlar is qualified according to the fading condition of the fuchsin solution;

s8: if the batch of medlar is qualified, the remaining medlar can be dried and sterilized by ozone, so that the microorganisms in the medlar are degraded, and the internal moisture is controlled;

s9: performing hair separation, performing ultraviolet sterilization, performing full-automatic subpackage, inspecting and warehousing, and completing a series of processes.

8. The device and the method for processing organic medlar acceptance inspection with SO2 detection function according to claim 7, wherein: the specific steps in S2 are as follows:

s21: when the medlar is put in the putting port (8), firstly, the mixing ratio of alcohol and water solution is carried out, on one hand, the medlar is sterilized in multiple levels, and on the other hand, branches and leaves of the medlar and defective medlar can be sequentially screened out through the adjustment of the density of the solution;

s22: because the air flow Q of the air pump II (23) is set and the sectional area of the air cylinder (45) is known as S, the distance of the air rod (44) driving the sliding plate (41) to move can be known only by controlling the working time S of the air pump II (23), and the liquid outlet ratio of alcohol to water is adjusted;

s23: the working time S of the air rod (44) is divided into 10 working units, and a timer is utilized to firstly carry out 8 working units, so that the concentration of the mixed liquid is 20 percent, branches and leaves in the medlar can float on the liquid surface in the cleaning process, the medlar is positioned below the mixed liquid, the liquid is continuously injected after a period of time, and then the branches and leaves flow out of the liquid outlet pipeline and enter the inside of the collection box (22);

s24: then the concentration of the mixed liquor is adjusted to be retracted to 6 working units, the concentration of the mixed liquor reaches 80 percent, the density of defective medlar is smaller than that of high-quality medlar and then floats on the surface of the liquid, the medlar with the small volume also floats on the surface of the liquid and enters the collecting box (22) along with the continuous entering of the liquid and the guiding of rotating water flow, and the high-quality medlar is positioned in the middle of the rotating drum (11);

s25: respectively soaking and cleaning for 20min at the same concentration, discharging the mixed solution after collecting defective products, then sliding a sliding plate (41) to adjust the interior to be 100% aqueous solution, starting a water pump (3), flushing the medlar in the barrel with clear water, and injecting water for 3 times in stages, wherein each time is as long as 15 min;

s26: and then discharged from below the tub.

9. The device and the method for processing organic medlar acceptance inspection with SO2 detection function according to claim 8, wherein: the specific steps of S7 are as follows:

s71: preparing sufficient fuchsin saturated solution, preparing a beaker and a stirring rod, an alcohol lamp bracket and the like;

s72: according to the known grinding of medlar powder with mass M, if the content of SO2 in medlar reaches 30mg/kg, the medlar of the batch does not meet the detection standard, extracting the fuchsin solution liquid amount M corresponding to the mass M, and enabling the fuchsin solution liquid amount M to react with SO2 with the assumed content of 30mg/kg in the mass M, SO as to judge whether the medlar of the batch is qualified according to the fading result of the fuchsin solution;

s73: when SO2 reacts with fuchsin, a stirring rod can be used for slight stirring, and simultaneously an alcohol lamp can be used for heating the SO2, SO that the reaction rate can be accelerated;

s74: in order to improve the precision of the detection result, the above operations can be repeated for 3-5 times.

10. The device and the method for processing organic lycium barbarum with the SO2 detection function according to claim 9, wherein: the diameter of the sieve holes (111) is set to be 15 mm.

Technical Field

The invention relates to the technical field of medlar, in particular to an organic medlar acceptance processing device and method with an SO2 detection function.

Background

Fructus Lycii is plant of genus Lycium of family Solanaceae. The medlar is a general name of lycium species such as commercial medlar, plant Ningxia medlar, Chinese medlar and the like, the medlar which is eaten and used by people in daily life is mostly the fruit 'medlar' of the Ningxia medlar, but at present, enterprises in the society have more situations of secretly shooting sewage or pollutants, if the growth environment of the medlar is polluted by sulfide, sulfide is attached to the medlar, no good method is provided for detecting the sulfide content in the medlar at present, and if a quality inspector detects that the SO2 content is unqualified, the productivity of the product produced by a company is greatly influenced. Therefore, it is necessary to design a processing device and a processing method for checking and accepting organic lycium barbarum with the SO2 detection function, which have strong practicability and can realize the simple detection function of SO 2.

Disclosure of Invention

The invention aims to provide an organic medlar acceptance processing device with an SO2 detection function and a method thereof, SO as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an organic matrimony vine is tested and is accepted processingequipment and method with SO2 detects function, includes the outer container, the outside left side of outer container is provided with the control box, the inside of outer container is provided with clean mechanism, the below of clean mechanism is provided with transport mechanism, transport mechanism's right side is provided with stoving mechanism, the inside of control box is provided with data processor, be provided with control panel on the surface of control box, control panel's right side is provided with a plurality of swivel button, and is a plurality of the button is connected with the data processor electricity, the last time-recorder that is provided with of control panel, the outer container is located the control box rear is connected with the influent stream pipeline on the surface, the lower mouth fixedly connected with water pump of influent stream pipeline, the junction of water pump and influent stream pipeline is provided with the proportion regulation piece, the outside of water pump is provided with air pump two.

According to the technical scheme, a material feeding port is arranged above the outer box, the cleaning mechanism comprises a cylindrical barrel, the cylindrical barrel is positioned below the material feeding port, the upper part inside the cylindrical barrel is communicated with a flow inlet pipeline, a sliding plate is connected inside the proportion adjusting block in a sliding manner, a liquid cavity II is arranged on the left side above the sliding plate, a liquid cavity I is arranged on the left side below the sliding plate, a telescopic partition plate is arranged in the middle inside the proportion adjusting block, the middle of the telescopic partition plate is fixedly connected with the middle of the sliding plate, an air cylinder is arranged inside the telescopic partition plate, an air rod is connected inside the air cylinder in a sliding manner, the top of the air rod is fixedly connected with the middle of the sliding plate, the air cylinder is electrically connected with an air pump II, the water pump and the air pump II are electrically connected with a data processor, a liquid bag is arranged outside the proportion adjusting block, and the upper side and the lower side of the liquid bag are respectively connected with inner pipelines of the liquid cavity I and the liquid cavity II, the upper end pipeline of the proportion adjusting block is connected with an alcohol inlet pipe, and the lower end pipeline of the proportion adjusting block is connected with a water inlet pipe.

According to the technical scheme, a rotary drum is arranged inside the cylindrical barrel, the cylindrical barrel is fixed on the inner wall of an outer box, a disc is arranged at the bottom of the cylindrical barrel, a plurality of push cylinders are arranged inside the disc, piston rods are connected inside the push cylinders in a sliding manner, the top of each piston rod is fixedly connected with the bottom of the rotary drum, a clamping block is arranged in the center of the disc and is cylindrical, the diameter of each clamping block is consistent with the inner diameter of the rotary drum, the conveying mechanism comprises a cover plate, the disc is positioned above the left side of the cover plate, a first motor is arranged below the cover plate, a first air pump is arranged on one side beside the first motor, a rotary shaft is arranged inside the first motor, the top end of the rotary shaft is rotatably connected with the middle of the disc, a protective cover is arranged outside the rotary shaft, and the protective cover is made of a telescopic rod, the protective cover is electrically connected with the data processor, the first air pump is connected with the inner pipelines of the plurality of push cylinders, and the first air pump and the first motor are both electrically connected with the data processor.

According to the technical scheme, the internally connected with of cylinder bucket has the pipeline of effluenting, the inlet height that the pipeline of effluenting is less than the liquid outlet of the pipeline of effluenting, another mouth of pipe that the pipeline of effluenting is connected with the collecting box, the both sides of cover plate are half curved, the right side of cover plate is provided with the retaining chamber, the top in retaining chamber is provided with the pivot, the fixed surface of pivot has a set of sieve, and is a set of the sieve is the straight angle and distributes in the both sides of pivot, the one end of pivot is provided with motor three, motor three is connected with the data processor electricity.

According to the technical scheme, the drying mechanism comprises a drying box, a conveyor belt is arranged on the right side of the sieve plate, a part of the conveyor belt penetrates through the inside of the drying box, a front plate of the drying box is made of transparent glass, a humidity display meter is installed on the surface of the transparent glass, a second motor is installed at the top of the drying box and is electrically connected with a data processor, a rotating rod is connected in the middle of the second motor in a rotating mode, a group of impellers are fixedly connected to the bottom end of the rotating rod, a fixing rod is arranged below the impellers, a lower plate is fixedly connected to the lower end of the fixing rod, a plurality of elastic rods are fixed to the lower portion of the lower plate, and cotton balls are installed at the lower ends of the elastic rods.

According to the technical scheme, a group of idler wheels are arranged inside the conveyor belt, the idler wheels are respectively located at two ends of the inside of the conveyor belt, a rotating motor is arranged on one side of the conveyor belt, a plurality of sieve meshes are formed in the surface of the rotary drum, and bristles are arranged on the inner wall of the rotary drum.

According to the technical scheme, the method comprises the following steps:

s1: selecting medlar, screening sand grains, glass and other foreign matters, and putting the selected medlar into the rotary drum;

s2: the branches and leaves and defective products of the medlar are screened by changing the concentration ratio of the solution in the cleaning mechanism;

s3: after screening high-quality medlar, conveying the medlar, and drying the medlar in a drying box;

s4: when the medlar enters the drying box, the internal temperature is controlled at 60-70 ℃ for about 9h, during the drying period, the workers in turn watch the color of the medlar in the drying box every 15min, and simultaneously, a humidity display meter displays the humidity in the drying box in real time;

s5: after the drying procedure is finished, cooling the medlar, and transmitting the medlar to the outside of the box through the operation of a conveyor belt;

s6: weighing a certain amount of medlar and grinding to obtain powder;

s7: taking sufficient fuchsin saturated solution, enabling the fuchsin saturated solution to react with SO2 in the medlar, and judging whether the batch of medlar is qualified according to the fading condition of the fuchsin solution;

s8: if the batch of medlar is qualified, the remaining medlar can be dried and sterilized by ozone, so that the microorganisms in the medlar are degraded, and the internal moisture is controlled;

s9: performing hair separation, performing ultraviolet sterilization, performing full-automatic subpackage, inspecting and warehousing, and completing a series of processes.

According to the technical scheme, the specific steps in the step S2 are as follows:

s21: when the medlar is put in the putting port, the mixing ratio of alcohol and water solution is firstly carried out, on one hand, the medlar is sterilized in multiple layers, and on the other hand, branches and leaves of the medlar and defective medlar can be sequentially screened out through the density adjustment of the solution;

s22: because the air flow Q of the air pump II is set and the sectional area of the air cylinder is known as S, the moving distance of the sliding plate driven by the air rod can be known only by controlling the working time S of the air pump II, and the liquid outlet ratio of the alcohol to the water is adjusted;

s23: dividing the working time S of the air rod into 10 working units, and performing 8 working units by using a timer, wherein the concentration of the mixed liquid is 20%, so that branches and leaves in the medlar can float on the liquid surface in cleaning, the medlar is positioned below the mixed liquid, and the liquid is continuously injected after a period of time, and then the branches and leaves flow out of the liquid outlet pipeline and enter the collecting box;

s24: then the concentration of the mixed liquor is adjusted to be retracted to 6 working units, the concentration of the mixed liquor reaches 80 percent, the density of defective medlar is smaller than that of high-quality medlar, the defective medlar floats on the surface of the liquid, the medlar with the small volume also floats on the surface of the liquid, the medlar enters the collecting box along with the continuous entering of the liquid and the guiding of rotating water flow, and the high-quality medlar is positioned in the middle of the rotating drum;

s25: respectively soaking and cleaning for 20min at the same concentration, discharging the mixed solution after collecting defective products, then sliding a sliding plate to adjust the interior to be 100% aqueous solution, starting a water pump, washing the medlar in the barrel with clear water, and injecting water for 3 times in stages, wherein each time is as long as 15 min;

s26: and then discharged from below the tub.

According to the technical scheme, the specific steps of S7 are as follows:

s71: preparing sufficient fuchsin saturated solution, preparing a beaker and a stirring rod, an alcohol lamp bracket and the like;

s72: according to the known grinding of medlar powder with mass M, if the content of SO2 in medlar reaches 30mg/kg, the medlar of the batch does not meet the detection standard, extracting the fuchsin solution liquid amount M corresponding to the mass M, and enabling the fuchsin solution liquid amount M to react with SO2 with the assumed content of 30mg/kg in the mass M, SO as to judge whether the medlar of the batch is qualified according to the fading result of the fuchsin solution;

s73: when SO2 reacts with fuchsin, a stirring rod can be used for slight stirring, and simultaneously an alcohol lamp can be used for heating the SO2, SO that the reaction rate can be accelerated;

s74: in order to improve the precision of the detection result, the above operations can be repeated for 3-5 times.

According to the technical scheme, the diameter of the sieve holes is set to be 15 mm.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, by arranging the cleaning mechanism and the drying mechanism, after preliminary screening is finished, the cleaning mechanism is put into the cleaning mechanism, SO that branches and leaves of the Chinese wolfberry and defective Chinese wolfberry are sequentially discharged from the cleaning mechanism by virtue of the density change of the mixed solution, thus not only can the disinfection of the Chinese wolfberry with different concentrations be realized for many times, but also impurities can be screened out, after the disinfection and the impurity removal of the Chinese wolfberry are finished, the Chinese wolfberry is conveyed by the conveying mechanism and enters the drying mechanism, the drying of the Chinese wolfberry is realized, meanwhile, the subsequent sampling detection of the Chinese wolfberry is facilitated, SO that internal personnel can carry out effective SO2 detection on the Chinese wolfberry firstly when conveying the product to a detection center, and the production rate of the product is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view in section of the overall front view of the present invention;

FIG. 2 is an enlarged top view of area A of the present invention;

FIG. 3 is a schematic top view of the internal structure of the drum of the present invention;

FIG. 4 is a schematic view of the internal structure of the drying box of the present invention;

in the figure: 1. an outer box; 2. a control box; 3. a water pump; 4. a proportion adjusting block; 41. a slide plate; 42. a first liquid cavity; 43. a second liquid cavity; 44. a gas lever; 45. a cylinder; 5. a water inlet pipe; 6. alcohol enters the pipe; 7. a liquid sac; 8. a feeding port; 9. a conveyor belt; 10. a cylindrical barrel; 11. a rotating drum; 111. screening holes; 112. brushing; 12. a piston rod; 13. a disc; 14. a clamping block; 15. a first motor; 16. a cover plate; 17. a water storage cavity; 18. a sieve plate; 19. a humidity display meter; 20. a drying box; 201. a second motor; 202. an impeller; 203. fixing the rod; 204. a lower plate; 205. an elastic rod; 206. a cotton ball; 21. a first air pump; 22. a collection box; 23. a second air pump; 24. and a third motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides the following technical solutions: an organic medlar acceptance processing device with SO2 detection function and a method thereof, comprising an outer box 1, wherein the left side outside the outer box 1 is provided with a control box 2, the inside of the outer box 1 is provided with a cleaning mechanism, the lower part of the cleaning mechanism is provided with a conveying mechanism, the right side of the conveying mechanism is provided with a drying mechanism, the inside of the control box 2 is provided with a data processor, the outer surface of the control box 2 is provided with a control panel, the right side of the control panel is provided with a plurality of rotary buttons which are electrically connected with the data processor, the control panel is provided with a timer, the surface of the outer box 1 which is positioned at the rear part of the control box 2 is connected with a water inlet pipeline, the lower pipe opening of the water inlet pipeline is fixedly connected with a water pump 3, the joint of the water pump 3 and the water inlet pipeline is provided with a proportional control block 4, the outer side of the water pump 3 is provided with a second air pump 23, when medlar acceptance is carried out, the medlar acceptance processing, the medlar is firstly carried out sand grain and metal screening, after the preliminary screening is finished, the Chinese wolfberry branches and leaves and defective Chinese wolfberry are discharged in sequence by means of density change of mixed solution, SO that the Chinese wolfberry can be disinfected for multiple times at different concentrations, impurities can be screened out at the same time, after disinfection and impurity removal of the Chinese wolfberry are finished, the Chinese wolfberry is transmitted by the conveying mechanism and enters the drying mechanism by the conveying mechanism, the Chinese wolfberry is dried, meanwhile, subsequent sampling detection of the Chinese wolfberry is facilitated, SO that internal personnel can carry out effective SO2 detection on the Chinese wolfberry when sending products to a detection center, the productivity of the products is improved, the data processor is mainly used as a data middle end, and workers can directly twist through buttons on the control panel, SO that the operation of the internal cleaning mechanism, the conveying mechanism and the drying mechanism is controlled, and a proportion adjusting block is arranged, can effectively regulate and control the mixing of the internal water solution and the alcohol through the timer and the button control, thus realizing the mixing of the solutions with different densities very simply and conveniently, further realizing impurity removal without excessive human input.

The cleaning mechanism comprises a cylindrical barrel 10, the cylindrical barrel 10 is positioned below the object feeding port 8, the upper part inside the cylindrical barrel 10 is communicated with an inflow pipeline, a sliding plate 41 is connected inside a proportion adjusting block 4 in a sliding manner, a second liquid cavity 43 is arranged on the left side above the sliding plate 41, a first liquid cavity 42 is arranged on the left side below the sliding plate 41, a telescopic partition plate is arranged in the middle inside the proportion adjusting block 4, the middle of the telescopic partition plate is fixedly connected with the middle of the sliding plate 41, an air cylinder 45 is arranged inside the telescopic partition plate, an air rod 44 is connected inside the air cylinder 45 in a sliding manner, the top of the air rod 44 is fixedly connected with the middle of the sliding plate 41, the air cylinder 45 is electrically connected with an air pump II 23, a water pump 3 is electrically connected with a data processor through a second air pump 23, a liquid bag 7 is arranged outside the proportion adjusting block 4, the upper side and the lower side of the liquid bag 7 are respectively connected with the inner pipelines of the first liquid cavity 42 and the second liquid cavity 43, the upper end pipeline of the proportion adjusting block 4 is connected with an alcohol inlet pipe 6, the lower end pipeline of the proportion adjusting block 4 is connected with a water inlet pipe 5, mixed liquid can be introduced firstly before medlar is put in, the medlar can be effectively prevented from colliding with the device in the cylindrical barrel, and therefore the medlar can be prevented from being broken, before the water pump is started, the button is pressed firstly, the air pump II works firstly, air enters the air cylinder and pushes the air rod to slide, the air rod drives the sliding plate to slide, the liquid in the liquid bag and the liquid in the liquid cavity I and the liquid cavity II are always kept in a balanced state, when the sliding plate slides upwards, the liquid in the liquid cavity II is extruded by the sliding plate and flows into the liquid bag from the upper end pipeline, due to the surface non-elastic substance of the liquid bag, when the upper end of the liquid bag enters the liquid, the corresponding amount of the liquid in the liquid bag is discharged to the inner part of the liquid cavity I from the lower end pipeline of the liquid bag, and therefore the conservation of the converted liquid is guaranteed, simultaneously the supporting force in the opposite direction is applyed respectively to the liquid of sap cavity one and sap cavity two to the slide, effectively guarantees to advance when managing inside feed liquor at inlet tube and alcohol, and the slide can not receive the liquid impact force and keep the position motionless, when the slide moves to flexible baffle intermediate position, starts the water pump, and inlet tube and alcohol advance to manage and introduce aqueous solution and alcohol respectively under the effect of water pump to aqueous solution and alcohol are when going out the proportion regulating block, and the two is with 1: 1 mixes and enters into the inside of inflow pipeline, then enters into the inside of cylinder bucket, it disinfects the washing to have just so realized generating heat the alcohol solution with 50% concentration to inside matrimony vine, when adjusting the gas pole extension length, the length that the gas pole stretches out is longer, alcohol accounts for than big because the density of alcohol is greater than aqueous solution density, consequently, the ratio of alcohol is big more, the density of its mixed liquid is big more, when mixed liquid alcohol concentration is 20%, branches and leaves etc. can go up the float, when concentration reaches 80%, incomplete matrimony vine and little volume matrimony vine come-up, just so can carry out the edulcoration to the matrimony vine in proper order, handle branch and leaves and incomplete matrimony vine successively simultaneously, in order to prevent that the pipeline of efflueing when handling together can appear blocking phenomenon.

The inner part of the cylindrical barrel 10 is provided with a rotary drum 11, the cylindrical barrel 10 is fixed on the inner wall of the outer box 1, the bottom of the cylindrical barrel 10 is provided with a disc 13, the inner part of the disc 13 is provided with a plurality of push cylinders, the inner parts of the push cylinders are all connected with piston rods 12 in a sliding manner, the top parts of the piston rods 12 are fixedly connected with the bottom part of the rotary drum 11, the center of the disc 13 is provided with a fixture block 14, the fixture block 14 is cylindrical, the diameter size of the fixture block 14 is consistent with the inner diameter size of the rotary drum 11, the conveying mechanism comprises a cover plate 16, the disc 13 is positioned above the left side of the cover plate 16, a motor one 15 is arranged below the cover plate 16, one side beside the motor one 15 is provided with an air pump one 21, the inner part of the motor one 15 is provided with a rotary shaft, the top end of the rotary shaft is rotatably connected with the middle part of the disc 13, the outer part of the rotary shaft is provided with a protective cover which is made of a telescopic rod material, and the protective cover is electrically connected with a data processor, the air pump I21 is connected with internal pipelines of the plurality of pushing cylinders, the air pump I21 and the motor I15 are electrically connected with the data processor, when liquid is fed into the cylindrical barrel, the motor I is started, the rotating shaft drives the disc to rotate, so that the piston rods in the pushing cylinders drive the rotating drum to rotate, the internal water flow gradually forms vortex rotation under the rotation of the rotating drum, compared with the situation that the medlar is directly placed in still water, the medlar in the vortex rotates along with the vortex, and simultaneously large-area friction is carried out on the medlar and the water flow, so that effective area disinfection is realized, the subsequent detection experiment result is prevented from being influenced, meanwhile, under the driving of the vortex, sundries are more easily discharged along with the water flow when liquid is fed into the cylindrical barrel continuously, after clean water is cleaned, the motor I is closed, the air pump I is started, air is fed into the pushing cylinders, the piston rods extend out and enable the rotating drum to move upwards, and the fixture block is far away from the inside of the rotating drum, after receiving the information that air pump started, the safety cover carries out the downward flexible with the time, and the bottom of cylinder bucket is kept away from to the disc to make high-quality matrimony vine follow the inside of clear water flow to the cover plate, just realized the cleanness to the matrimony vine in the cylinder bucket through such setting, and all kinds of discharges of matrimony vine, effectively alleviateed staff's work load.

The inside of the cylindrical barrel 10 is connected with an outflow pipeline, the liquid inlet of the outflow pipeline is lower than the liquid outlet of the inflow pipeline, the other pipe orifice of the outflow pipeline is connected with a collecting box 22, two sides of a cover plate 16 are in a half-bent shape, a water storage cavity 17 is arranged on the right side of the cover plate 16, a rotating shaft is arranged above the water storage cavity 17, a group of sieve plates 18 are fixed on the outer surface of the rotating shaft, the group of sieve plates 18 are distributed on two sides of the rotating shaft in a flat angle mode, one end of the rotating shaft is provided with a motor III 24, the motor III 24 is electrically connected with a data processor, the half-bent cover plate can prevent water flow from driving medlar to splash, the water flow enters the water storage cavity under the driving of the water flow, high-quality medlar enters the upper part of the sieve plates, after the accumulation of the medlar is observed, the motor III is started, the rotating shaft drives the sieve plates to rotate in a small amplitude, so that the medlar enters the right-side conveyer belt through the sieve plate on the other side, and the separation of the medlar and the water flow is realized, and meanwhile, the medlar is transported, so that the medlar is convenient to be dried subsequently.

The drying mechanism comprises a drying box 20, a conveyor belt 9 is arranged on the right side of the sieve plate 18, a part of the conveyor belt 9 penetrates through the drying box 20, a front plate of the drying box 20 is made of transparent glass, a humidity display meter 19 is arranged on the surface of the transparent glass, a second motor 201 is arranged at the top of the drying box 20, the second motor 201 is electrically connected with a data processor, the middle of the second motor 201 is rotatably connected with a rotating rod, a group of impellers 202 are fixedly connected to the bottom end of the rotating rod, a fixing rod 203 is arranged below the impellers 202, a lower plate 204 is fixedly connected to the lower end of the fixing rod 203, a plurality of elastic rods 205 are fixed below the lower plate 204, cotton balls 206 are arranged at the lower ends of the elastic rods 205, the conveyor belt is started, the medlar accumulated on the conveyor belt enters the drying box, when the medlar enters the drying box, the conveyor belt stops operating, the drying box is internally heated to dry the medlar, simultaneously the inside humidity situation of humidity display meter real-time display, clear glass can make things convenient for the staff to carry out the colour to inside matrimony vine and observe, when drying in inside, starter motor two, the bull stick drives the impeller and rotates, the inside air current circulation that forms of stoving case, and with outside ventilation, the drying rate of matrimony vine can be accelerated like this, the dead lever is followed the bull stick and is rotated simultaneously, thereby drive the elastic rod of hypoplastron below and rotate, because the interval of elastic rod and conveyer belt is about 20mm, so when inside matrimony vine piles up, the elastic rod pushes away the tie to accumulational matrimony vine, when cotton ball and matrimony vine contact simultaneously, can reduce the collision dynamics between elastic rod and matrimony vine, keep the intact of matrimony vine, and the surface that the cotton ball can contact the matrimony vine absorbs, such setting has effectively improved the dry homogeneity and the efficiency of matrimony vine.

Conveyer belt 9's inside is provided with a set of gyro wheel, a set of gyro wheel is located conveyer belt 9's inside both ends respectively, one side of conveyer belt 9 is provided with the rotation motor, a plurality of sieve meshes 111 have been seted up on the surface of rotary drum 11, be provided with brush hair 112 on rotary drum 11's the inner wall, the rotation motor during operation, the gyro wheel rotates and drives the conveyer belt operation, after inside drying process finishes, the restart rotates the motor, the conveyer belt takes the outside of stoving case with dry matrimony vine and cools down the heat dissipation, the convenient follow-up sampling to the matrimony vine simultaneously detects, when the rotary drum rotates, the brush hair carries out abundant contact and friction with the matrimony vine, not only strengthen the cleaning force, simultaneously still can carry out the preliminary hair removal to the matrimony vine surface.

Comprises the following steps:

s1: selecting medlar, screening sand grains, glass and other foreign matters, and putting the selected medlar into the rotary drum 11;

s2: the branches and leaves and defective products of the medlar are screened by changing the concentration ratio of the solution in the cleaning mechanism;

s3: after the high-quality medlar is screened, the medlar is conveyed and enters the drying box 20 for drying;

s4: when the medlar enters the drying box 20, the internal temperature is controlled at 60-70 ℃ for about 9h, during the drying period, the workers in turn watch the color of the medlar in the drying box every 15min, and simultaneously, a humidity display meter 19 displays the humidity in the box in real time;

s5: after the drying procedure is finished, cooling the medlar, and transmitting the medlar to the outside of the box through the operation of a conveyor belt;

s6: weighing a certain amount of medlar and grinding to obtain powder;

s7: taking sufficient fuchsin saturated solution, enabling the fuchsin saturated solution to react with SO2 in the medlar, and judging whether the batch of medlar is qualified according to the fading condition of the fuchsin solution;

s8: if the batch of medlar is qualified, the remaining medlar can be dried and sterilized by ozone, so that the microorganisms in the medlar are degraded, and the internal moisture is controlled;

s9: performing hair separation, performing ultraviolet sterilization, performing full-automatic subpackage, inspecting and warehousing, and completing a series of processes.

The specific steps in S2 are as follows:

s21: when the medlar is put in the putting port 8, the mixing ratio of alcohol and water solution is firstly carried out, on one hand, the medlar is sterilized in multiple layers, and on the other hand, branches and leaves of the medlar and defective medlar can be sequentially screened out through the density adjustment of the solution;

s22: because the air flow Q of the second air pump 23 is set and the sectional area of the air cylinder 45 is known as S, the moving distance of the sliding plate 41 driven by the air rod 44 can be known only by controlling the working time S of the second air pump 23, so that the liquid outlet ratio of the alcohol to the water is adjusted;

s23: the working time S of the air rod 44 is divided into 10 working units, and a timer is utilized to firstly carry out 8 working units, so that the concentration of the mixed liquid is 20 percent, the branches and leaves in the medlar can float on the liquid surface in the cleaning process, the medlar is positioned below the mixed liquid, the liquid is continuously injected after a period of time, and then the branches and leaves flow out of the liquid outlet pipeline and enter the interior of the collecting box 22;

s24: then the concentration of the mixed liquor is adjusted to be retracted to 6 working units, the concentration of the mixed liquor reaches 80 percent, the density of defective medlar is smaller than that of high-quality medlar and then floats on the surface of the liquid, the medlar with the small volume also floats on the surface of the liquid and enters the collecting box 22 along with the continuous entering of the liquid and the guiding of rotating water flow, and the high-quality medlar is positioned in the middle of the rotating drum 11;

s25: respectively soaking and cleaning for 20min at the same concentration, discharging the mixed solution after collecting defective products, sliding the sliding plate 41 to adjust the interior to be 100% aqueous solution, starting the water pump 3, washing the medlar in the barrel with clear water, and injecting water for 3 times in stages, wherein each time is as long as 15 min;

s26: and then discharged from below the tub.

The specific steps of S7 are as follows:

s71: preparing sufficient fuchsin saturated solution, preparing a beaker and a stirring rod, an alcohol lamp bracket and the like;

s72: according to the known grinding of medlar powder with mass M, if the content of SO2 in medlar reaches 30mg/kg, the medlar of the batch does not meet the detection standard, extracting the fuchsin solution liquid amount M corresponding to the mass M, and enabling the fuchsin solution liquid amount M to react with SO2 with the assumed content of 30mg/kg in the mass M, SO as to judge whether the medlar of the batch is qualified according to the fading result of the fuchsin solution;

s73: when SO2 reacts with fuchsin, a stirring rod can be used for slight stirring, and simultaneously an alcohol lamp can be used for heating the SO2, SO that the reaction rate can be accelerated;

s74: in order to improve the precision of the detection result, the above operations can be repeated for 3-5 times.

The 111 diameters of sieve mesh set up to 15mm, and when the rotary drum rotated, inside vortex rotated, and the footpath length was less than 15 mm's small size matrimony vine can be followed the sieve mesh and discharged simultaneously, because the velocity of flow is the biggest around the rotary drum wall, consequently under the drive of rivers, when the wall was kept away from more to the matrimony vine, its velocity of flow was lower more to the matrimony vine that small is in the mixed liquid of bulk density, the easier come-up, thereby the discharge of convenient small size matrimony vine, the high-quality rate of product improves from this.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.