CN106369968A - Wolfberry drying production line - Google Patents

Abstract

The invention relates to the technical field of traditional Chinese medicinal material processing and discloses a wolfberry drying production line. The wolfberry drying production line comprises a laser perforating machine and a vacuum microwave drying device. Wolfberries are transferred between the laser perforating machine and the vacuum microwave drying device through a material basket. According to the wolfberry drying production line, as for characteristics of the wolfberries, the laser perforating machine is used for perforating the wolfberries, and fruit wax on the surface of the fresh wolfberries is removed; then the vacuum microwave drying device is used for vacuum drying of the perforated wolfberries, the drying efficiency is high, the drying time is short, influences on the appearance of the fresh wolfberries are small, drying is uniform, the dried wolfberries are bright in color and lustre and not prone to absorbing moisture and hardening, and the drying quality of the wolfberries is improved.

Description

A kind of Fructus Lycii drying production line

Technical field

The present invention relates to Chinese crude drug processing technique field, more particularly, to a kind of Fructus Lycii drying production line.

Background technology

The fresh fruit water content such as Fructus Lycii is higher, and thin skin, easy damaged, goes mouldy, and not shelf-stable is typically all made dry product and carried out Sell.But medlar fresh fruit epidermis has wax coat to protect, and internal sugar content is high, directly dries or dry all after therefore plucking Certain problem can be brought: the protection of wax coat makes Fructus Lycii internal moisture be difficult to steam, and is easily caused brown stain, goes mouldy；Temperature is slightly higher The internal sugar diffusion of Fructus Lycii can be made again, lead to bonding, hardened and nutrient component damages.So needing to break the fresh fruit fruit wax such as Fructus Lycii Remove, drying of then taking away again.In prior art medlar fresh fruit adopt sodium hydroxide break fruit wax, then sodium sulfite color fixative, but Fruit wax is broken using sodium hydroxide there is problems in that one is impact mouthfeel；Two is not green, and edible safety has some problems； Three be easily caused after most of fruit wax removes be dried after Fructus Lycii moisture absorption bonding in bulk, and existing dry technology general using air-drying Or dry, drying efficiency is low, uneven drying weighs, the easy brown stain of Fructus Lycii in dry run, the quality of impact Fructus Lycii.

Content of the invention

The present invention is intended to provide a kind of Fructus Lycii drying production line, solve the problems referred to above well, drying efficiency is high, dry Time is short, fresh fruit outward appearance is injured little, equilibrium is dried, and dried Fructus Lycii bright, to be difficult the moisture absorption hardened, improves Chinese holly Qi drying quality.

The technical scheme is that a kind of Fructus Lycii drying production line, including laser-beam drilling machine and vacuum microwave drying dress Put, between described laser-beam drilling machine and vacuum microwave drying device, Fructus Lycii is transported by material basket, described laser-beam drilling machine includes Frame, loading assemblies, conveying assembly, laser boring assembly, described conveying assembly is arranged in frame, described conveying assembly one end For feed end, the described conveying assembly other end is discharge end, and described loading assemblies are arranged on conveying assembly feed end, described conveying The nearly discharge end of assembly is provided with punch throat, and described laser boring assembly is arranged at punch throat, and described loading assemblies shake for feeding Dynamic device, the motor that described conveying assembly includes mesh conveyer belt and drives mesh conveyer belt to rotate, described laser boring assembly bag Include generating laser and lower generating laser, described upper generating laser and lower generating laser are separately mounted in punch throat Lower two ends, described vacuum microwave drying device includes vacuum cavity, vacuum pump, controlling organization, and described vacuum cavity is provided with vacuum Closing door, is provided with microwave generator in described vacuum cavity, and described vacuum pump is connected with described vacuum cavity by exhaustor, institute State vacuum microwave drying device and also include rotating charging tray frame, charging tray and charging tray frame actuating unit, described rotation charging tray sets up and is placed in In described vacuum cavity, described rotation charging tray frame includes a rotary shaft, and institute is fixed on by bearing in the two ends of described rotary shaft State on the inwall of vacuum cavity, described rotary shaft is fixed with charging tray supporting mechanism, described charging tray is arranged on described charging tray and supports In mechanism, described charging tray frame actuating unit is connected with described transmission of rotary axis, and described vacuum microwave drying device also includes arranging Water pump outside in vacuum cavity and cooling tower, described vacuum cavity bottom is provided with cellular water collecting chamber, and described cellular water is received Collection chamber is connected with water pump by pipeline, and the cellular water that cellular water collects intracavity discharges vacuum cavity, described vacuum chamber by water pump Body top is additionally provided with cold wind mouth spray, and described cold wind mouth spray is connected with described cooling tower, and described controlling organization is true with described All control between empty pump, microwave generator, charging tray frame actuating unit, cooling tower, water pump and connect.

Further, described upper generating laser and lower generating laser are arranged on frame by position control respectively On.

Further, described punch throat side is provided with smoking cylinder, and described smoking cylinder opposite side is provided with smoke ejector, described Smoke ejector is arranged in frame.

Further, described feeding vibrator includes feeding port, and described feeding port is provided with baffle plate, described feeding port setting On conveying assembly feed end top.

Further, described conveying assembly discharge end is provided with discharging opening, swells, described punching in the middle part of described conveying assembly Mouth is arranged on descending section of conveying assembly, and described mesh conveyer belt is made for rustless steel.

Further, described loading assemblies are controlled by vibration feeding control system, and described conveying assembly is by conveyer belt rotating speed Controller controls, and described laser boring assembly is controlled by laser boring computerized control system.

Further, described rotation axis horizontal setting, described microwave generator is arranged at the top of vacuum cavity, described material Disk supporting mechanism is two support wheels, and described rotary shaft passes through the center of two support wheels, and fixes with described two support wheels Connect, the distance between described two support wheels are less than the distance between inwall about described vacuum cavity, described support wheel Outer rim is provided with charging tray installing hole, and the position of the charging tray installing hole on described two support wheels corresponds to each other, and described charging tray passes through institute State corresponding charging tray installing hole hanging on two support wheels to be installed between described two support wheels, described charging tray and support wheel it Between for be flexibly connected.

Further, described controlling organization includes plc controller, infrared temperature control instrument and vacuum sensor, described infrared Temperature control instrument and vacuum sensor are arranged in described vacuum cavity, and described plc controller is passed with infrared temperature control instrument and vacuum Sensor is control and connects, described plc controller and described vacuum pump, microwave generator, charging tray frame actuating unit, water pump, cold But tower all controls connection.

Further, described charging tray frame actuating unit is driving motor, and described vacuum sealing door is provided with observation window.

The invention has the beneficial effects as follows:

1. the Fructus Lycii drying production line of the present invention is directed to the characteristic of Fructus Lycii, using laser-beam drilling machine, Fructus Lycii is punched, Abolish the fruit wax on medlar fresh fruit surface；Then using vacuum microwave drying device, the Fructus Lycii after punching is vacuum dried, does Dry efficiency high, drying time are short, fresh fruit outward appearance are injured little, equilibrium are dried, and dried Fructus Lycii bright, are difficult the moisture absorption Hardened, improve Fructus Lycii drying quality；

2. the laser-beam drilling machine of the present invention adopts feeding vibrator feeding, makes fresh fruit be evenly distributed in mesh conveyer belt On, be conducive to the laser boring in later stage to process；Compared with breaking fruit wax with existing sodium hydroxide, using laser boring assembly to fresh fruit Punched, after punching, medlar fresh fruit surface is salubrious, no sugar or moisture effusion substantially, not easy to stick in next step dry run Knot；Upper generating laser and lower generating laser are oppositely arranged on punch throat two ends, multi-faceted fresh fruit is punched of energy, enter The efficiency improving punching of one step；Swell in the middle part of conveying assembly, punch throat is arranged on descending section of conveying assembly, is conducive to having punched The discharging of the fresh fruit becoming；Punch throat side is provided with smoking cylinder, and smoking cylinder opposite side is provided with smoke ejector, and laser scanning is punched When it may appear that a small amount of smog, the smog of generation is blown to smoking cylinder through smoke ejector, smog is discharged through smoking cylinder, it is to avoid smog Pollution.

3. the vacuum microwave drying device of the present invention, realizes taking microwave radiation to heat in the case of negative pressure of vacuum to do Fructus Lycii after dry punching, and in heat drying process, rotation charging tray erects 360 degree of rotations of body, solves microwave heating and does The equilibrium sex chromosome mosaicism of dry Fructus Lycii, can make Fructus Lycii be heated evenly, be avoided that again Fructus Lycii heat up too high, thus reach quick, low temperature, Uniformly dry the purpose of Fructus Lycii；Discharged by water pump simultaneously and be collected in the cellular water that cellular water collects intracavity, improve Fructus Lycii Drying efficiency, after the completion of being dried, by cooling tower to spraying cold wind in vacuum cavity, the quickly Fructus Lycii after cooling heat drying, Simultaneously to being pressurized in vacuum cavity so as to quickly return to normal temperature and pressure (N.T.P.), it is easy to rapid transport dried Fructus Lycii, further increases efficiency.

Brief description

Fig. 1 is the structural representation of the laser-beam drilling machine in the present invention；

Fig. 2 is the structural front view of vacuum microwave drying device in the present invention；

Fig. 3 is the structural side view of vacuum microwave drying device in the present invention；

In figure: 11. frames, 12. loading assemblies, 121. feeding ports, 13. conveying assemblies, 131. feed ends, 132. dischargings End, 1321. discharging openings, 133. punch throat, 134. mesh conveyer belts, 14. laser boring assemblies, generating laser on 141., 142. times generating lasers, 143. position controls, 15. smoking cylinders, 16. smoke ejectors, 21. vacuum cavities, 22 microwave generators, 23. infrared temperature control instruments, 24 vacuum sensors, 25. vacuum sealing doors, 26. observation windows, 27. charging trays, 28. rotation charging tray framves, 29. support wheels, 210. rotary shafts, 211. charging tray frame actuating units, the guidance panel of 212.plc controller, 213. vacuum pumps, 214. cooling towers, 215. water pumps.

Specific embodiment

In order that the objects, technical solutions and advantages of the present invention become more apparent, below in conjunction with accompanying drawing, the present invention is entered Row further describes.

As Figure 1-3, the invention provides a kind of Fructus Lycii drying production line, do including laser-beam drilling machine and vacuum microwave Dry device, transports Fructus Lycii, described laser-beam drilling machine by material basket between described laser-beam drilling machine and vacuum microwave drying device Including frame 11, loading assemblies 12, conveying assembly 13, laser boring assembly 14, described conveying assembly 13 is arranged in frame 11, Described conveying assembly 13 one end is feed end 131, and described conveying assembly 13 other end is discharge end 132, described loading assemblies 12 It is arranged on conveying assembly feed end 131, the nearly discharge end 132 of described conveying assembly 13 is provided with punch throat 133, described laser boring Assembly 14 is arranged at punch throat 133, and described loading assemblies 12 are feeding vibrator, and described conveying assembly 13 includes mesh conveying Band and the motor driving the rotation of mesh conveyer belt, described laser boring assembly 14 includes generating laser 141 and lower laser is sent out Emitter 142, described upper generating laser 141 and lower generating laser 142 are separately mounted to punch throat 133 upper and lower ends, described Vacuum microwave drying device includes vacuum cavity 21, vacuum pump 213, controlling organization, and described vacuum cavity 21 is provided with vacuum sealing Door 25, is provided with microwave generator 22 in described vacuum cavity 21, described vacuum pump 213 passes through exhaustor and described vacuum cavity 21 It is connected, described vacuum microwave drying device also includes rotating charging tray frame 28, charging tray 27 and charging tray frame actuating unit 211, described rotation Turn charging tray frame 28 to be arranged in described vacuum cavity 21, described rotation charging tray frame 28 includes a rotary shaft 210, described rotary shaft 210 two ends are fixed on the inwall of described vacuum cavity 21 by bearing, described rotary shaft 210 is fixed with charging tray and supports machine Structure, described charging tray 27 is arranged on described charging tray supporting mechanism, and described charging tray frame actuating unit 211 and described rotary shaft 210 pass It is dynamically connected, described vacuum microwave drying device also includes being arranged on the water pump 215 outside vacuum cavity 21 and cooling tower 214, institute State vacuum cavity 21 bottom and be provided with cellular water collecting chamber, described cellular water collecting chamber is connected with water pump 215 by pipeline, cell The cellular water that water collects intracavity discharges vacuum cavity 21 by water pump 215, and described vacuum cavity 21 top is additionally provided with cold wind spray Drench mouth, described cold wind mouth spray is connected with described cooling tower 214, described controlling organization and described vacuum pump 213, microwave generator 22nd, charging tray frame actuating unit 211, water pump 215, all control between cooling tower 214 and connect,.

In laser-beam drilling machine, upper generating laser 141 and lower generating laser 142 are installed by position control 143 respectively In frame 11.Punch throat 133 side is provided with smoking cylinder 15, and described smoking cylinder 15 opposite side is provided with smoke ejector 16, described Smoke ejector 16 is arranged in frame 11.Feeding vibrator includes feeding port 121, and described feeding port 121 is provided with baffle plate, described on Material mouth 121 is arranged on conveying assembly 13 feed end 131 top.Conveying assembly 13 discharge end 132 is provided with discharging opening 1321, described Conveying assembly 13 middle part protuberance, described punch throat 133 is arranged on descending section of conveying assembly 13, and described mesh conveyer belt is rustless steel It is made.Loading assemblies 12 are controlled by vibration feeding control system, and described conveying assembly 13 is by conveyer belt rotational speed governor control System, described laser boring assembly 14 is controlled by laser boring computerized control system.

In vacuum microwave drying device, rotary shaft 210 is horizontally disposed with, and described microwave generator 22 is arranged at vacuum cavity 21 Top, described charging tray supporting mechanism be two support wheels 29, described rotary shaft 210 pass through two support wheels 29 center, and It is fixedly connected with described two support wheels 29, it is interior that the distance between described two support wheels 29 are less than described vacuum cavity 21 about The distance between wall, the outer rim of described support wheel 29 is provided with charging tray installing hole, the charging tray installing hole on described two support wheels 29 Position correspond to each other, described charging tray 27 pass through corresponding charging tray installing hole hanging on described two support wheels 29 be installed on described Between two support wheels 29, it is to be flexibly connected between described charging tray 27 and support wheel 29.Controlling organization includes plc controller, red Outer temperature control instrument 23 and vacuum sensor 24, described infrared temperature control instrument 23 and vacuum sensor 24 are arranged at described vacuum cavity In 21, described plc controller and infrared temperature control instrument 23 and vacuum sensor 24 are control and are connected, described plc controller and Described vacuum pump 213, microwave generator 22, charging tray frame actuating unit 211, water pump 215, cooling tower 214 all control connection.Charging tray Frame actuating unit 211 is driving motor, and described vacuum sealing door 25 is provided with observation window 26, the guidance panel 212 of plc controller It is arranged on outside vacuum cavity 21.

The present invention is punched to Fructus Lycii using laser-beam drilling machine, removes the fruit wax on medlar fresh fruit surface；Micro- by vacuum Ripple drying device, realizes taking microwave radiation to heat come the Fructus Lycii after punching is dried, drying efficiency in the case of negative pressure of vacuum High, drying time is short, fresh fruit outward appearance is injured little, equilibrium is dried, and dried Fructus Lycii bright, to be difficult the moisture absorption hardened, Improve Fructus Lycii drying quality.

Certainly, the present invention also can have other various embodiments, in the case of without departing substantially from present invention spirit and its essence, ripe Know those skilled in the art to make various corresponding changes according to the present invention and deform, but these corresponding changes and deformation The protection domain of appended claims of the invention all should be belonged to.

Claims (9)

1. a kind of Fructus Lycii drying production line it is characterised in that: include laser-beam drilling machine and vacuum microwave drying device, described laser Between puncher and vacuum microwave drying device, Fructus Lycii is transported by material basket, described laser-beam drilling machine includes frame, feeding group Part, conveying assembly, laser boring assembly, described conveying assembly is arranged in frame, and described conveying assembly one end is feed end, institute Stating the conveying assembly other end is discharge end, and described loading assemblies are arranged on conveying assembly feed end, the nearly discharging of described conveying assembly End is provided with punch throat, and described laser boring assembly is arranged at punch throat, and described loading assemblies are feeding vibrator, described defeated The motor that sending component includes mesh conveyer belt and drives mesh conveyer belt to rotate, described laser boring assembly includes Laser emission Device and lower generating laser, described upper generating laser and lower generating laser are separately mounted to punch throat upper and lower ends, described Vacuum microwave drying device includes vacuum cavity, vacuum pump, controlling organization, and described vacuum cavity is provided with vacuum sealing door, described It is provided with microwave generator, described vacuum pump is connected with described vacuum cavity by exhaustor, described vacuum microwave in vacuum cavity Drying device also includes rotating charging tray frame, charging tray and charging tray frame actuating unit, and described rotation charging tray sets up and is placed in described vacuum chamber In vivo, described rotation charging tray frame includes a rotary shaft, and described vacuum cavity is fixed on by bearing in the two ends of described rotary shaft Inwall on, described rotary shaft is fixed with charging tray supporting mechanism, described charging tray is arranged on described charging tray supporting mechanism, described Charging tray frame actuating unit is connected with described transmission of rotary axis, and described vacuum microwave drying device also includes being arranged on outside vacuum cavity The water pump in portion and cooling tower, described vacuum cavity bottom is provided with cellular water collecting chamber, and described cellular water collecting chamber passes through pipeline It is connected with water pump, the cellular water that cellular water collects intracavity discharges vacuum cavity by water pump, and described vacuum cavity top also sets up There is cold wind mouth spray, described cold wind mouth spray is connected with described cooling tower, described controlling organization is occurred with described vacuum pump, microwave All control between device, charging tray frame actuating unit, cooling tower, water pump and connect.

2. Fructus Lycii drying production line according to claim 1 it is characterised in that: described upper generating laser and lower laser are sent out Emitter is arranged in frame by position control respectively.

3. Fructus Lycii drying production line according to claim 1 it is characterised in that: described punch throat side is provided with smoking Cylinder, described smoking cylinder opposite side is provided with smoke ejector, and described smoke ejector is arranged in frame.

4. Fructus Lycii drying production line according to claim 1 it is characterised in that: described feeding vibrator includes feeding port, Described feeding port is provided with baffle plate, and described feeding port is arranged on conveying assembly feed end top.

5. Fructus Lycii drying production line according to claim 1 it is characterised in that: described conveying assembly discharge end is provided with out Material mouth, swells in the middle part of described conveying assembly, and described punch throat is arranged on descending section of conveying assembly, and described mesh conveyer belt is stainless Steel is made.

6. Fructus Lycii drying production line according to claim 1 it is characterised in that: described loading assemblies are by vibration feeding control System controls, and described conveying assembly is controlled by conveyer belt rotational speed governor, and described laser boring assembly is by laser boring computer control System processed controls.

7. Fructus Lycii drying production line according to claim 1 it is characterised in that: the setting of described rotation axis horizontal, described micro- Wave producer is arranged at the top of vacuum cavity, and described charging tray supporting mechanism is two support wheels, and described rotary shaft passes through two The center of support wheel, and be fixedly connected with described two support wheels, the distance between described two support wheels are less than described vacuum The distance between inwall about cavity, the outer rim of described support wheel is provided with charging tray installing hole, the charging tray on described two support wheels The position of installing hole corresponds to each other, and described charging tray passes through corresponding charging tray installing hole hanging on described two support wheels and is installed on institute State between two support wheels, be to be flexibly connected between described charging tray and support wheel.

8. Fructus Lycii drying production line according to claim 1 it is characterised in that: described controlling organization include plc controller, Infrared temperature control instrument and vacuum sensor, described infrared temperature control instrument and vacuum sensor are arranged in described vacuum cavity, institute State plc controller and infrared temperature control instrument and vacuum sensor and be control and is connected, described plc controller and described vacuum pump, Microwave generator, charging tray frame actuating unit, water pump, cooling tower all control connection.

9. Fructus Lycii drying production line according to claim 1 it is characterised in that: described charging tray frame actuating unit be transmission electricity Machine, described vacuum sealing door is provided with observation window.