CN115127892B - Soaking device for tea detection and using method thereof - Google Patents

Abstract

The invention belongs to the technical field of tea detection equipment, and particularly relates to a soaking device for tea detection and a using method thereof, wherein the soaking device comprises a workbench and a soaking device arranged on the surface of the workbench; the tea leaf soaking device comprises a driving assembly, a first soaking assembly, a tea leaf placing assembly, a detection pool assembly, a second soaking assembly and a PLC (programmable logic controller), wherein the driving assembly is installed on the surface of a workbench, the first soaking assembly is uniformly installed on the surface of the driving assembly, the tea leaf placing assembly is installed on the surface of the first soaking assembly, the detection pool assembly is uniformly installed on the surface of the workbench, the second soaking assembly is installed inside the workbench, and the PLC is installed on the surface of the workbench; compare with traditional manual operation, this device overall operation is simple, can detect multiple or batch tealeaves, improves work efficiency and improves detection quality, still is convenient for collect the processing to tealeaves simultaneously, and the manageability is strong is convenient for manage, and the practicality is strong and excellent in use effect.

Description

Soaking device for tea detection and using method thereof

Technical Field

The invention belongs to the technical field of tea detection equipment, and particularly relates to a soaking device for tea detection and a using method thereof.

Background

Tea needs to be sampled and detected when passing through customs, wherein the pesticide concentration on the surface of the tea is an important part in detection, the tea needs to be soaked in a detection solution in the process of detecting the pesticide concentration on the tea, and then the detection solution of the soaked tea is analyzed by a detection device to realize the detection of the pesticide concentration on the tea.

In order to solve the above problems, the present application provides a tea leaf soaking device for detection and a use method thereof.

Disclosure of Invention

The tea leaf soaking device is novel in design and reasonable in structure, compared with the traditional manual operation, the tea leaf soaking device is simple in overall operation, can be used for detecting multiple or multiple batches of tea leaves, improves the working efficiency and the detection quality, is convenient for collecting and processing the tea leaves, is strong in order and convenient to manage, and is strong in practicability and good in using effect.

In order to achieve the purpose, the invention provides the following technical scheme: a soaking device for tea detection comprises a workbench and a soaking device arranged on the surface of the workbench;

soak device places subassembly, detection pond subassembly, second and soak subassembly and PLC controller including drive assembly, first soaking subassembly, tealeaves, drive assembly installs on the workstation surface, first soaking subassembly evenly installs on the drive assembly surface, tealeaves is placed the subassembly and is installed on first soaking subassembly surface, detection pond subassembly evenly installs on the workstation surface and is located drive assembly one side, the second soaks the subassembly and installs inside the workstation, second soaks subassembly one end and is connected with drive assembly one end, and the other end is connected with detection pond subassembly one end, the PLC controller is installed on the workstation surface and with drive assembly electric connection.

The soaking device for detecting tea leaves and the using method thereof are preferred, the driving assembly comprises a threaded lead screw, a smooth section, a limiting ring table, an upper connecting tooth holder, an upper tooth-shaped synchronous belt, a lower connecting tooth holder, a lower tooth-shaped synchronous belt and a driving motor, the threaded lead screw is uniformly and rotatably connected to the surface of the workbench, the smooth section is integrally formed on the surface of the threaded lead screw, the limiting ring table is integrally formed on the surface of the threaded lead screw and positioned on one side of the smooth section, the limiting ring table is rotatably connected to the surface of the workbench, the upper connecting tooth holder is integrally formed on one end surface of the threaded lead screw and connected with the upper tooth-shaped synchronous belt, the other end of the threaded lead screw penetrates through the interior of the workbench, the lower connecting tooth holder is integrally formed on one end surface of the threaded lead screw penetrating through the interior of the workbench and connected with one end of the second soaking assembly through the lower tooth-shaped synchronous belt, the driving motor is fastened to the surface of the workbench and corresponds to one group of the lead screw in position, the output end of the driving motor is fixedly connected with a threaded central shaft, and the driving motor is electrically connected with a PLC controller.

The first soaking assembly comprises a sliding frame, a rotating seat, a steering gear, a Z-shaped connecting rod, a first tooth seat, a second tooth seat and a third tooth seat, the sliding frame is in threaded connection with the outer surface of a threaded screw rod and is in sliding connection with the surface of a workbench, the rotating seat is in rotating connection with the inner wall of the sliding frame, two ends of the rotating seat penetrate out of the outer portion of the sliding frame and are fixedly connected with the steering gear, the Z-shaped connecting rod is in threaded connection with the surface of the sliding frame, one end, far away from the surface of the sliding frame, of the Z-shaped connecting rod is in threaded connection with a tea leaf placing assembly, the first tooth seat, the second tooth seat and the third tooth seat are sequentially and symmetrically fastened on the surface of the workbench through bolts from top to bottom and are located on the outer side of the threaded screw rod, and the first tooth seat, the second tooth seat and the third tooth seat correspond to the positions of the steering gear and are in meshed connection with the steering gear respectively.

Preferably, the tea leaf placing assembly comprises a net frame, a fixed tooth seat, a pressing cover and a clamping mechanism, the net frame is in threaded connection with the surface of one end, far away from the surface of the sliding frame, of the Z-shaped connecting rod, the fixed tooth seat is clamped and fixed on the inner wall of the net frame, and the pressing cover is rotatably connected to the top of the net frame and is clamped and fixed with the top of the net frame through the clamping mechanism.

The soaking device for detecting tea leaves and the using method thereof are preferred, the clamping mechanism comprises a bottom frame, a sliding block, a clamping rod, a spring and a clamping part, the bottom frame is fastened at the top of the gland through bolts, the clamping part is integrally formed at the top of the net frame and corresponds to the bottom frame in position, the sliding block is connected to the inner wall of the bottom frame in a sliding mode, the clamping rod is connected to the inner wall of the sliding block in a threaded mode, one end of the clamping rod penetrates through the outer portion of the sliding block and is connected to the inner wall of the bottom frame in a sliding mode, the other end of the clamping rod penetrates out of the outer portion of the sliding block and is connected to the inner wall of the clamping part in a sliding mode, and the spring is sleeved on the outer side of the clamping rod and located between the surface of the sliding block and the inner wall of the bottom frame.

The soaking device for tea detection and the use method thereof are preferred, the detection pool assembly comprises a detection pool, an adjusting pool, a connecting cylinder and a piston block, the detection pool is uniformly embedded in the surface of the workbench, the adjusting pool is uniformly embedded in the surface of the workbench and positioned on one side of the detection pool, the detection pool is communicated with the adjusting pool through the connecting cylinder, the piston block is connected to the inner wall of the adjusting pool in a sliding manner and is attached to the inner wall of the adjusting pool, and one end of the piston block is connected with one end of the second soaking assembly.

The second soaking component comprises a driving cross rod, a square groove, a lifting rod frame, a guide base, a lifting guide groove, a shaft rod, a tooth part and a gear driving mechanism, wherein the driving cross rod is connected to the inner wall of a workbench in a sliding mode, the square groove is evenly formed in the surface of the driving cross rod, the lifting rod frame is evenly connected to the inner wall of the square groove in a sliding mode, the guide base is symmetrically fastened to the inner wall of the workbench and sleeved on the outer side of the lifting rod frame through bolts, one end of the lifting rod frame penetrates through the outer portion of the workbench and is fixedly connected to the top of a piston block, the lifting guide grooves are evenly formed in the inner wall of the square groove, the shaft rod is symmetrically in threaded connection to the surface of the lifting rod frame and is in sliding connection to the inner wall of the lifting guide groove, the tooth part is evenly and symmetrically formed in an integrated mode and arranged on the surface of the driving cross rod and located on one side of the square groove, the gear driving mechanism is evenly arranged on the inner wall of the workbench, one end of the gear driving mechanism is connected with the tooth part, and the other end of the gear driving mechanism is connected with a lower synchronous belt.

The soaking device for tea detection and the use method thereof are preferred, the gear driving mechanism comprises a driving gear, a connecting gear, a middle transmission gear, a first bevel gear, a lower transmission gear seat and a second bevel gear, the driving gear is symmetrically and rotatably connected to the inner wall of the workbench and positioned outside the gear part, the driving gear is meshed with the gear part, the connecting gear is fixedly connected to one end surface of a central shaft of the driving gear, the middle transmission gear is rotatably connected to the inner wall of the workbench and positioned on one side of the driving cross rod, the middle transmission gear is positioned between the two groups of connecting gears and respectively meshed with the two groups of connecting gears, the first bevel gear is fixedly connected to one end surface of the central shaft of the middle transmission gear, the lower transmission gear seat is rotatably connected to the inner wall of the workbench and positioned on one side of the first bevel gear, the lower transmission gear seat is connected with the lower connection gear seat through a lower tooth-shaped synchronous belt, the second bevel gear is fixedly connected to the bottom of the lower transmission gear seat and positioned on one side of the first bevel gear, and the second bevel gear is meshed with the first bevel gear.

Preferably, the soaking device for detecting tea leaves and the using method thereof are characterized in that the surfaces of the two groups of driving gears are respectively provided with connecting teeth, and the connecting teeth on the surfaces of the two groups of driving gears are sequentially meshed and connected with the teeth on the surfaces of the driving cross rods and synchronously drive the driving cross rods to reciprocate left and right along the inner wall of the workbench.

Preferably, the tea leaf detection steeping device and the using method thereof according to the present invention, the using method of the tea leaf detection steeping device includes the steps of:

s1: checking; checking whether the total amount of the external detection liquid collecting barrel and the cleaning liquid storage barrel meets the use requirement or not;

s2: placing the tea leaves; tea leaves are laid on the surface of a fixed tooth seat in a net frame, then a gland is covered and fixed through a clamping mechanism, racks are arranged on the top of the fixed tooth seat and the bottom of the gland, the tea leaves are fixed through meshing between the racks, the contact area of the tea leaves and detection liquid is increased while the tea leaves are prevented from being accumulated, the detection efficiency is improved, meanwhile, the subsequent tea leaves are convenient to collect and process, and the using effect is better;

s3: starting a device, setting parameters and running a program; starting the device, inputting set parameters according to the detection standard, and starting the program after the set parameters are input;

s4: adding a detection solution; the PLC runs a program to quantitatively add detection liquid into the detection pool and the regulating pool;

s5: soaking operation; after the detection liquid is added, the PLC controls the driving assembly to perform power-on operation, the driving assembly performs power-on operation to synchronously drive a plurality of groups of tea leaf placing assemblies to change the orientation and move into the detection pool, and the tea leaf placing assemblies are driven to swing back and forth in the detection pool after being contacted with the first soaking assembly, so that the tea leaf detection efficiency is improved, the orientation is changed again after the tea leaf placing assemblies swing back and forth for a plurality of times, and the positions are kept unchanged in the detection pool;

s6: collecting tea leaves; after soaking, taking out the tea leaves and uniformly placing the tea leaves into a garbage can for collection;

s7: uniformly collecting detection liquid of soaked tea leaves; uniformly collecting the detection liquid of the soaked tea leaves and sending the detection liquid to the next detection procedure;

s8: adding cleaning liquid for cleaning; the PLC runs a program to quantitatively add cleaning liquid into the detection pool and the adjusting pool to clean the interiors of the detection pool and the adjusting pool;

s9: and ending the program and closing the device.

Compared with the prior art, the invention has the beneficial effects that: the tea leaf detection device is novel in design and reasonable in structure, compared with the traditional manual operation, the device is simple in overall operation, can detect multiple or multiple batches of tea leaves, improves the working efficiency and the detection quality, is convenient for collecting and processing the tea leaves, is strong in orderliness, is convenient to manage, and is strong in practicability and good in using effect.

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 of the structure of the present invention;

FIG. 2 is a schematic view of the soaking device according to the present invention;

FIG. 3 is a schematic view of a driving assembly according to the present invention;

FIG. 4 is a schematic view of a first soaking assembly according to the present invention;

FIG. 5 is a schematic view of the tea leaf placement assembly of the present invention;

FIG. 6 is a schematic view of a fastening mechanism according to the present invention;

FIG. 7 is a schematic view of the structure of the detection cell assembly of the present invention;

FIG. 8 is a schematic structural view of a second soaking assembly in the present invention;

fig. 9 is a schematic view of a gear drive mechanism according to the present invention.

In the figure:

1. a work table; 2. a soaking device; 21. a drive assembly; 22. a first soaking component; 23. a tea leaf placement assembly; 24. a detection cell assembly; 25. a second soaking component; 26. a PLC controller;

211. a threaded lead screw; 212. a smooth section; 213. a limit ring table; 214. the upper connecting tooth holder; 215. an upper toothed synchronous belt; 216. a lower connecting tooth holder; 217. a lower tooth-shaped synchronous belt; 218. a drive motor;

221. a carriage; 222. rotating the base; 223. a steering gear; 224. a Z-shaped connecting rod; 225. a first tooth holder; 226. a second tooth holder; 227. a third tooth holder;

231. a screen frame; 232. fixing the tooth holder; 233. a gland; 234. a clamping mechanism;

2341. a bottom frame; 2342. a slider; 2343. a clamping rod; 2344. a spring; 2345. a clamping part;

241. a detection cell; 242. a regulating reservoir; 243. a connecting cylinder; 244. a piston block;

251. a drive rail; 252. a square groove; 253. a lifter frame; 254. a guide base; 255. a lifting guide groove; 256. a shaft lever; 257. a tooth portion; 258. a gear drive mechanism;

2581. a drive gear; 2582. a connecting gear; 2583. a middle transmission gear; 2584. a first bevel gear; 2585. a lower transmission toothholder; 2586. a second bevel gear;

25811. connecting teeth; 2261. a first tooth; 2271. a second tooth; 2321. a rack;

100. a barrel-type flip-type garbage can; 200. and (6) placing the groove.

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.

Example 1

Please refer to fig. 1-9;

a tea leaf detection soaking device comprises a workbench 1 and a soaking device 2 arranged on the surface of the workbench 1;

soak device 2 is including drive assembly 21, first soaking subassembly 22, subassembly 23 is placed to tealeaves, detection pond subassembly 24, subassembly 25 and PLC controller are soaked to the second, drive assembly 21 is installed on 1 surface of workstation, first soaking subassembly 22 is evenly installed on drive assembly 21 surface, tealeaves is placed subassembly 23 and is installed on first soaking subassembly 22 surface, detection pond subassembly 24 is evenly installed on 1 surface of workstation and is located drive assembly 21 one side, second soaking subassembly 25 is installed inside workstation 1, second soaking subassembly 25 one end is connected with drive assembly 21 one end, the other end is connected with detection pond subassembly 24 one end, PLC controller 26 is installed on 1 surface of workstation and with drive assembly 21 electric connection.

It should be noted that, in this embodiment: PLC controller 26 is connected with the external power supply electricity, and PLC controller 26 surface is provided with operation button and display screen, and PLC controller 26 embeds has treater, memory cell and timing unit, operation button, display screen, memory cell and timing unit all with treater electric connection.

In this embodiment, it should be noted that: the PLC controller 26 has a machining program built therein.

It should be noted that, in this embodiment: the surface of the workbench 1 is uniformly embedded with the cylinder-type flip-type garbage can 100, the cylinder-type flip-type garbage can 100 is positioned on one side of the adjusting tank 242, the surface of the workbench 1 is uniformly provided with the placing groove 200, and the placing groove 200 is positioned on one side of the detection tank 241.

In this embodiment: when the device is used, tea leaves to be detected are respectively placed in the net frame 231 and covered with the pressing cover 233, whether the total amount of detection liquid and cleaning liquid in the external detection liquid collecting cylinder is enough to be used is checked, then processing parameters are set through the PLC 26, the program is operated after the parameters are set, firstly, the PLC 26 controls the electromagnetic valve on the surface of the water inlet pipeline to be opened according to the program, the electromagnetic valve is opened to enable the detection liquid in the external detection liquid collecting cylinder to be measured by the flow sensor and then conveyed into the detection pool 241 and the adjusting pool 242, when the set liquid amount is reached, the PLC 26 closes the electromagnetic valve on the surface of the water inlet pipeline, then the PLC 26 controls the driving motor 218 to be electrified to operate, the driving motor 218 is electrified to rotate to synchronously drive one group of the threaded screw rods 211 to rotate, one group of the threaded screw rods 211 rotates to drive the other groups of the threaded screw rods 211 to synchronously rotate through the mutual matching of the upper connecting tooth base 214 and the upper tooth-shaped synchronous belt 215, in the initial state, the screen frame 231 is in the horizontal state, the first tooth holder 225 is in contact with and meshed with the steering gear 223, when the threaded screw 211 rotates, the sliding frame 221 is synchronously driven to synchronously move downwards along the inner wall of the limiting guide groove arranged on the surface of the workbench 1, the sliding frame 221 moves to synchronously drive the rotating holder 222 and the steering gear 223 to synchronously move downwards, the steering gear 223 is firstly in contact with and meshed with teeth on the surface of the first tooth holder 225 in the downwards moving process and synchronously rotates along with the teeth, the steering gear 223 rotates to synchronously drive the rotating holder 222 to rotate, the rotating holder 222 rotates to synchronously drive the tea leaf placing assembly 23 to rotate along with the teeth through the Z-shaped connecting rod 224, so that the tea leaf placing assembly is changed from the horizontal state to the vertical state, then the steering gear 223 continuously descends and moves to the inside of a tooth groove arranged on the surface of the second tooth holder 226, and contacting and meshing with the first teeth 2261 which are uniformly and alternately arranged on the inner wall of the tooth socket, and synchronously rotating back and forth in the tooth socket, when the steering gear 223 contacts and meshes with the first teeth 2261 in the tooth socket, the tea leaf placing assembly 23 enters the detection pool 241 and contacts with detection liquid, the steering gear 223 rotates back and forth and synchronously drives the rotating seat 222 to rotate back and forth, the rotating seat 222 rotates back and forth and synchronously drives the tea leaf placing assembly 23 to swing back and forth through the Z-shaped connecting rod 224, so that the tea leaves in the net frame 231 swing back and forth in the detection pool 241 and contact with the detection liquid, the detection efficiency is improved, the forward and reverse rotation direction of the threaded screw 211 can be changed through setting parameters by a program, the swinging time of the net frame 231 is increased by changing the position of the sliding frame 221 through adjusting the forward and reverse rotation direction of the threaded screw 211, and the steering gear 223 moves into the tooth socket, the net frame 231 is in a vertical state, after the steering gear 223 is moved out of the tooth socket, the net frame 231 is still in a vertical state, then the steering gear 223 continuously descends and is contacted and meshed with the second tooth 2271 on the surface of the third tooth holder 227, and synchronously and slowly rotates along with the contact, after the steering gear 223 is meshed with the second tooth 2271 on the surface of the third tooth holder 227, the tea leaf placing assembly 23 is slowly reset to a horizontal state from the vertical state and is positioned in the detection pool 241 and is contacted with the detection liquid, meanwhile, the sliding frame 221 also moves to the position of the smooth section 212 on the surface of the threaded screw 211, the bottom of the sliding frame is also contacted with the surface of the limit ring table 213 and stops moving downwards, meanwhile, the threaded screw 211 also synchronously drives the connecting tooth holder 216 to rotate, the lower connecting tooth holder 216 synchronously drives the lower transmission tooth holder 2585 to rotate through the lower tooth-shaped synchronous belt 217, the lower transmission tooth holder 2585 rotates to synchronously drive the second bevel gear 2586 to rotate, the second bevel gear 2586 rotates to synchronously drive the first bevel gear 2584 in meshed connection with the first bevel gear 2584, the first bevel gear 2584 rotates to synchronously drive the transmission gear 2583 in rotation, the middle transmission gear 2583 rotates to respectively and synchronously drive the two groups of connecting gears 2582 to rotate, the two groups of connecting gears 2582 rotate to synchronously drive the two groups of driving gears 2581 to rotate, the connecting teeth 25811 on the surfaces of the two groups of driving gears 2581 rotate to be sequentially meshed with the tooth parts 257 on the surfaces of the driving cross rods 251 and synchronously drive the driving cross rods 251 to reciprocate left and right along the inner wall of the workbench 1, in the process of reciprocating left and right of the driving cross rods 251, the driving cross rods 251 move to synchronously drive the lifting guide grooves 255 to move, the lifting guide grooves 255 move to synchronously drive the shaft rods 256 to reciprocate up and down on the inner wall of the lifting guide grooves 255, the shaft rod 256 synchronously drives the lifting rod frame 253 to do up-and-down reciprocating motion along the guide base 254 and the outer surface of the regulating tank 242, the lifting rod frame 253 synchronously drives the piston block 244 to do up-and-down reciprocating motion along the inner wall of the regulating tank 242, the piston block 244 synchronously extrudes detection liquid in the regulating tank 242 and absorbs detection liquid in the detection tank 241 in the process of up-and-down reciprocating motion of the inner wall of the regulating tank 242, so that the liquid level of the detection liquid in the detection tank 241 fluctuates up and down, the tea leaves in the net frame 231 are continuously impacted by the up-and-down fluctuation of the detection liquid in the detection tank 241, the detection efficiency of the tea leaves is further improved, after the set time is reached, the PLC 26 controls the driving motor 218 to link the sliding frame 221 to reset, the steering gear 223 is contacted with and meshed with the first tooth 2261 in the tooth groove again in the resetting process of the sliding frame 221, and drives the net frame 231 to swing back and forth again, the efficiency of detection is improved, PLC controller 26 control driving motor 218 stall after balladeur train 221 resets, then the staff will detect tealeaves from the inside collection processing of taking out of screen frame 231 and place inside the unified of cartridge type flip formula garbage bin 100, and the inside detection liquid of detection pond 241 is then discharged from outlet conduit and is used for special container storage, the back is unified to be sent to next detection process can, because detection pond 241 outer joint cleaning liquid storage bucket, can be to detecting pond 241 and adjusting pool 242 inside clearing up through putting into cleaning liquid to detection pond 241 and adjusting pool 242, improve the detection effect, the device integral operation is simple, can detect multiple or many batches of tealeaves, improve work efficiency and detection quality, still be convenient for collect the processing to tealeaves simultaneously, the manageability is strong, therefore, the clothes hanger is strong in practicability and excellent in use effect.

Further, the method comprises the following steps:

in an alternative embodiment: the driving assembly 21 comprises a threaded screw 211, a smooth section 212, a limit ring table 213, an upper connecting tooth holder 214, an upper tooth-shaped synchronous belt 215, a lower connecting tooth holder 216, a lower tooth-shaped synchronous belt 217 and a driving motor 218, wherein the threaded screw 211 is uniformly and rotatably connected to the surface of the workbench 1, the smooth section 212 is integrally formed on the surface of the threaded screw 211, the limit ring table 213 is integrally formed on the surface of the threaded screw 211 and located on one side of the smooth section 212, the limit ring table 213 is rotatably connected to the surface of the workbench 1, the upper connecting tooth holder 214 is integrally formed on one end surface of the threaded screw 211 and connected with the upper tooth-shaped synchronous belt 215, the other end of the threaded screw 211 penetrates through the workbench 1, the lower connecting tooth holder 216 is integrally formed on one end surface of the threaded screw 211 penetrating through the workbench 1 and connected with one end of the second soaking assembly 25 through the lower tooth-shaped synchronous belt 217, the driving motor 218 is fastened to the surface of the workbench 1 and corresponds to the position of one group of the threaded screw 211, the output end of the driving motor 218 is fixedly connected with the center shaft of the threaded screw 211, and the driving motor 218 is electrically connected with the PLC 26.

In this embodiment, it should be noted that: further explain the structure and the connection relation of the driving assembly 21, during use, the PLC controller 26 controls the driving motor 218 to be powered on and run, the driving motor 218 is powered on to rotate and synchronously drive one group of threaded lead screws 211 to rotate, one group of threaded lead screws 211 rotate and drive the other groups of threaded lead screws 211 to synchronously rotate through the mutual matching of the upper connecting tooth holder 214 and the upper tooth-shaped synchronous belt 215, the threaded lead screws 211 rotate and synchronously drive the first soaking assembly 22 to run, meanwhile, the threaded lead screws 211 rotate and synchronously drive the lower connecting tooth holder 216 to rotate, the lower connecting tooth holder 216 rotates and synchronously drives the second soaking assembly 25 to run through the lower tooth-shaped synchronous belt 217, the whole operation is simple, the practicability is strong, and the use effect is good.

Further, the method comprises the following steps:

in an alternative embodiment: the first soaking assembly 22 comprises a sliding frame 221, a rotating seat 222, a steering gear 223, a Z-shaped connecting rod 224, a first tooth seat 225, a second tooth seat 226 and a third tooth seat 227, wherein the sliding frame 221 is in threaded connection with the outer surface of the threaded screw rod 211 and is in sliding connection with the surface of the workbench 1, the rotating seat 222 is in rotating connection with the inner wall of the sliding frame 221, two ends of the rotating seat 222 penetrate through the outer part of the sliding frame 221 and is fixedly connected with the steering gear 223, the Z-shaped connecting rod 224 is in threaded connection with the surface of the sliding frame 221, one end, far away from the surface of the sliding frame 221, of the Z-shaped connecting rod 224 is in threaded connection with a tea leaf placing assembly 23, the first tooth seat 225, the second tooth seat 226 and the third tooth seat 227 are sequentially and symmetrically bolted and fastened on the surface of the workbench 1 from top to bottom and are located on the outer side of the threaded screw rod 211, and the first tooth seat 225, the second tooth seat 226 and the third tooth seat 227 correspond to the position of the steering gear 223 and are in meshing connection respectively.

In this embodiment, it should be noted that: the first tooth holder 225 is provided with teeth on the surface and is engaged with the steering gear 223, and the teeth on the surface of the first tooth holder 225 drive the steering gear 223 to rotate 90 °.

In this embodiment, it should be noted that: the surface of the second tooth socket 226 is provided with tooth sockets, and the inner wall of the tooth sockets is uniformly and alternately provided with first teeth 2261, the tooth sockets correspond to the steering gear 223, and the steering gear 223 synchronously drives the steering gear 223 to rotate back and forth when contacting and meshing with the first teeth 2261 in the tooth sockets.

It should be noted that, in this embodiment: when the steering gear 223 comes into contact with and engages the first tooth 2261 inside the tooth socket, the tea leaf placing assembly 23 has entered inside the detection cell 241 and comes into contact with the detection liquid.

It should be noted that, in this embodiment: in the initial state, the tea leaf placing component 23 is in the horizontal state, after being engaged with the teeth on the surface of the first tooth socket 225, the tea leaf placing component 23 is in the vertical state, the steering gear 223 is in the vertical state before moving into the tooth socket, the tea leaf placing component 23 is still in the vertical state after moving out of the tooth socket, after the steering gear 223 is engaged with the second teeth 2271 on the surface of the third tooth socket 227, the tea leaf placing component 23 is slowly changed into the horizontal state and is located in the detection cell 241 and is contacted with the detection liquid, at this time, the carriage 221 moves to the position of the smooth section 212 on the surface of the threaded screw rod 211, and the bottom of the carriage 221 is also engaged with the surface of the limit ring table 213 and stops moving downwards.

It should be noted that, in this embodiment: the third tooth holder 227 is provided with a second tooth 2271 on the surface and is engaged with the steering gear 223, and the second tooth 2271 on the surface of the third tooth holder 227 slowly rotates the steering gear 223 by 90 °.

It should be noted that, in this embodiment: the surfaces of the first tooth holder 225, the second tooth holder 226 and the third tooth holder 227 are each provided with a chamfered portion.

In this embodiment, it should be noted that: in the initial state, the first tooth socket 225 is in contact with and in meshed engagement with the steering gear 223.

In this embodiment, it should be noted that: the surface of the workbench 1 is provided with a limiting guide groove (not shown in the figure) corresponding to the position of the sliding frame 221, one end of the sliding frame 221 is connected to the inner wall of the limiting guide groove (not shown in the figure), the sliding frame 221 can effectively guide the stroke of the sliding frame by being provided with the limiting guide groove, the sliding frame is prevented from rotating, and the using effect is good.

In this embodiment, it should be noted that: when the sliding frame 221 moves to the position of the smooth section 212 of the surface of the threaded screw 211, the bottom of the sliding frame is attached to the surface of the limit ring table 213 and stops moving downwards.

In this embodiment, it should be noted that: further explaining the structure and connection relation of the first soaking component 22, when in use, in an initial state, the first tooth holder 225 is in contact with and meshed with the steering gear 223, the threaded screw rod 211 rotates to drive the sliding frame 221 to synchronously move downwards along the inner wall of the limiting guide groove arranged on the surface of the workbench 1, the sliding frame 221 moves to synchronously drive the rotating seat 222 and the steering gear 223 to synchronously move downwards, the steering gear 223 contacts with and is meshed with the teeth on the surface of the first tooth holder 225 in the downwards moving process and synchronously rotates along with the teeth, the steering gear 223 rotates to synchronously drive the rotating seat 222 to rotate, the rotating seat 222 rotates to synchronously drive the tea leaf placing component 23 to rotate along with the teeth through the Z-shaped connecting rod 224, the horizontal state of the tea leaf detection device is changed into a vertical state, then the steering gear 223 continuously descends and moves to the inside of a tooth socket arranged on the surface of the second tooth socket 226, and is in contact with and meshed with first teeth 2261 evenly and alternately arranged on the inner wall of the tooth socket and synchronously rotates back and forth in the tooth socket, the steering gear 223 rotates back and forth to synchronously drive the rotating seat 222 to rotate back and forth, the rotating seat 222 rotates back and forth to synchronously drive the tea leaf placing assembly 23 to swing back and forth through the Z-shaped connecting rod 224, so that tea leaves in the net frame 231 swing back and forth in the detection pool 241 and are in contact with detection liquid, the detection efficiency is improved, the whole operation is simple, the practicability is high, and the using effect is good.

Further, the method comprises the following steps:

in an alternative embodiment: the tea leaf placing assembly 23 comprises a net frame 231, a fixing tooth seat 232, a pressing cover 233 and a clamping mechanism 234, wherein the net frame 231 is in threaded connection with one end surface of the Z-shaped connecting rod 224 far away from the surface of the sliding frame 221, the fixing tooth seat 232 is clamped and fixed on the inner wall of the net frame 231, and the pressing cover 233 is rotatably connected to the top of the net frame 231 and is clamped and fixed with the top of the net frame 231 through the clamping mechanism 234.

In this embodiment, it should be noted that: the surfaces of the net frame 231, the fixed tooth holder 232 and the gland 233 are all provided with water through holes.

It should be noted that, in this embodiment: fixed toothholder 232 top all is provided with rack 2321 with gland 233 bottom, fixes tealeaves through the meshing between rack 2321, prevents that tealeaves from piling up the area of contact that still increases its and detection liquid when together, improves detection efficiency, and the follow-up processing of collecting to tealeaves of still being convenient for simultaneously, the result of use is better.

It should be noted that, in this embodiment: further explain the structure and the relation of connection of placing subassembly 23 to tealeaves, during the use, lay tealeaves on the inside fixed toothholder 232 surface of screen frame 231, then cover gland 233 and through the solid mechanism 234 of card fixed with gland 233 can, fixed toothholder 232 top all is provided with rack 2321 with gland 233 bottom, meshing through between the rack 2321 is fixed tealeaves, still increase its and the area of contact who detects liquid when preventing tealeaves to pile up together, and the efficiency of detection is improved, the follow-up processing of collecting tealeaves of still being convenient for simultaneously, the result of use is better.

Further, the method comprises the following steps:

in an alternative embodiment: the clamping mechanism 234 includes a bottom frame 2341, a sliding block 2342, a clamping rod 2343, a spring 2344 and a clamping portion 2345, the bottom frame 2341 is fastened at the top of the pressing cover 233 through bolts, the clamping portion 2345 is integrally formed on the top of the net frame 231 and corresponds to the bottom frame 2341 in position, the sliding block 2342 is connected to the inner wall of the bottom frame 2341 in a sliding mode, the clamping rod 2343 is connected to the inner wall of the sliding block 2342 in a threaded mode, one end of the clamping rod 2343 penetrates through the outer portion of the sliding block 2342 and is connected to the inner wall of the bottom frame 2341 in a sliding mode, the other end of the clamping rod 2343 penetrates through the outer portion of the sliding block 2342 and is connected to the inner wall of the clamping portion 2345 in a sliding mode, and the spring 2344 is sleeved on the outer side of the clamping rod 2343 and located between the surface of the sliding block 2342 and the inner wall of the bottom frame 2341.

In this embodiment, it should be noted that: slider 2342 top is higher than underframe 2341 top, and slider 2342 top is provided with the skid resistant course, and underframe 2341 surface has seted up spacing spout, and slider 2342 one end sliding connection is at spacing spout inner wall, and card portion 2345 surface and underframe 2341 surface all are provided with the through-hole that the kelly 2343 of being convenient for passed.

In this embodiment, it should be noted that: further explain structure and relation of connection to solid mechanism 234 of card, during the use, promote slider 2342 to spring 2344 one side, slider 2342 removes synchronous drive kelly 2343 and removes and compress spring 2344, kelly 2343 removes synchronous through-hole from the solid portion 2345 surface of card and shifts out, thereby can open gland 233, when closing, repeat above step, when waiting that kelly 2343 aligns with the through-hole on solid portion 2345 surface of card, loosen slider 2342, slider 2342 resets under spring 2344 elastic force effect, slider 2342 resets and drives kelly 2343 to reset in step, make its one end block again and move inside the through-hole on solid portion 2345 surface, thereby accomplish the fixed to the gland, overall operation is simple, therefore, the clothes hanger is strong and excellent in use effect.

Further, the method comprises the following steps:

in an alternative embodiment: the detection pool assembly 24 comprises a detection pool 241, an adjusting pool 242, a connecting cylinder 243 and a piston block 244, wherein the detection pool 241 is uniformly embedded in the surface of the workbench 1, the adjusting pool 242 is uniformly embedded in the surface of the workbench 1 and positioned on one side of the detection pool 241, the detection pool 241 is communicated with the adjusting pool 242 through the connecting cylinder 243, the piston block 244 is slidably connected to the inner wall of the adjusting pool 242 and is attached to the inner wall of the adjusting pool 242, and one end of the piston block 244 is connected with one end of the second soaking assembly 25.

In this embodiment, it should be noted that: detect pond 241 top one side and be provided with the inlet channel, the inlet channel surface is provided with the solenoid valve, the inlet channel is connected with the outside outlet end that detects the liquid collecting vessel through the hose, it is provided with outlet conduit to detect pond 241 bottom one side, outlet conduit one end runs through out 1 outsides of workstation, outlet conduit runs through out 1 outside one end surface of workstation and is provided with the solenoid valve, inlet channel and outlet conduit surface still are provided with flow sensor (not shown in the figure), it has still stored bucket (not shown in the figure) through the hose outer joint clearance liquid to detect pond 241, solenoid valve and flow sensor (not shown in the figure) have been set up on the hose surface equally, solenoid valve and flow sensor (not shown in the figure) all with PLC controller 26 electric connection.

In this embodiment, it should be noted that: the stroke range of the piston block 244 is located inside the adjusting tank 242, when the piston block 244 descends inside the adjusting tank 242, the piston block can synchronously extrude the detection liquid inside the adjusting tank 242 into the detection tank 241, so that the liquid level of the detection liquid inside the detection tank 241 rises, and when the piston block 244 ascends inside the adjusting tank 242, the piston block can synchronously suck the detection liquid inside the detection tank 241 into the adjusting tank 242, so that the liquid level of the detection liquid inside the detection tank 241 descends.

It should be noted that, in this embodiment: further explain the structure and the relation of connection that detect pond subassembly 24, in use, piston block 244 can extrude the inside detection liquid of equalizing basin 242 and absorb the inside detection liquid that detects of detecting pond 241 in step in the up-and-down reciprocating motion in-process at equalizing basin 242 inner wall, thereby lead to detecting the inside detection liquid level in detecting pond 241 to appear fluctuating from top to bottom, through detecting the inside tealeaves that strikes the inside net frame 231 of fluctuation from top to bottom of detecting the inside detection liquid of pond 241, further improve the detection efficiency of tealeaves, the bulk operation is simple, therefore, the clothes hanger is strong in practicability and excellent in use effect.

Further, the method comprises the following steps:

in an alternative embodiment: the second soaking assembly 25 comprises a driving cross rod 251, a square groove 252, a lifting rod frame 253, a guiding base 254, a lifting guiding groove 255, a shaft rod 256, a tooth part 257 and a gear driving mechanism 258, the driving cross rod 251 is slidably connected to the inner wall of the workbench 1, the square groove 252 is uniformly formed on the surface of the driving cross rod 251, the lifting rod frame 253 is slidably connected to the inner wall of the square groove 252, the guiding base 254 is symmetrically fastened on the inner wall of the workbench 1 through bolts and sleeved on the outer side of the lifting rod frame 253, one end of the lifting rod frame 253 penetrates through the outer part of the workbench 1 and is fixedly connected to the top of a piston block 244, the lifting guiding groove 255 is symmetrically formed on the inner wall of the square groove 252, the shaft rod 256 is symmetrically connected to the surface of the lifting rod frame 253 and is slidably connected to the inner wall of the lifting guiding groove 255, the tooth part 257 is symmetrically formed on the surface of the driving cross rod 251 and is located on one side of the square groove 252, the gear driving mechanism 258 is uniformly installed on the inner wall of the workbench 1, one end of the gear driving mechanism 258 is connected to the tooth part 257, and the other end of the lower tooth-shaped synchronous belt 217 is connected to the lower tooth-shaped synchronous belt.

In this embodiment, it should be noted that: in the initial state, the shaft 256 is located at the left end of the inner wall of the elevation guide groove 255.

In this embodiment, it should be noted that: the lifting rod bracket 253 is slidably connected to the inner wall of the guide base 254 and reciprocates up and down, and the surface of one end of the lifting rod bracket 253, which is connected with the piston block 244, is attached to the outer surface of the regulating reservoir 242.

It should be noted that, in this embodiment: further explaining the structure and connection relation of the second soaking component 25, when in use, the threaded screw 211 rotates to synchronously drive the lower connecting tooth holder 216 to rotate, the lower connecting tooth holder 216 rotates to synchronously drive the gear driving mechanism 258 to operate through the lower tooth-shaped synchronous belt 217, the gear driving mechanism 258 operates to synchronously drive the driving cross rod 251 to reciprocate left and right along the inner wall of the workbench 1, in the process of reciprocating left and right of the driving cross rod 251, the driving cross rod 251 moves to synchronously drive the lifting guide groove 255 to move, the lifting guide groove 255 moves to synchronously drive the shaft rod 256 to reciprocate up and down on the inner wall of the lifting guide groove 255, the shaft rod 256 synchronously drives the lifting rod frame 253 to reciprocate up and down along the outer surfaces of the guide base 254 and the adjusting tank 242, the lifting rod frame 253 synchronously drives the piston block 244 to reciprocate up and down along the inner wall of the adjusting tank 242, the device is simple in overall operation, strong in practicability and good using effect.

Further, the following steps:

in an alternative embodiment: the gear driving mechanism 258 comprises a driving gear 2581, a connecting gear 2582, a middle transmission gear 2583, a first bevel gear 2584, a lower transmission gear seat 2585 and a second bevel gear 2586, wherein the driving gear 2581 is symmetrically and rotatably connected to the inner wall of the workbench 1 and positioned outside the gear portion 257, the driving gear 2581 is in meshing connection with the gear portion 257, the connecting gear 2582 is fixedly connected to one end surface of a central shaft of the driving gear 2581, the middle transmission gear 2583 is rotatably connected to the inner wall of the workbench 1 and positioned on one side of the driving cross rod 251, the middle transmission gear 2583 is positioned between the two groups of connecting gears 2582 and respectively in meshing connection with the two groups of connecting gears 2582, the first bevel gear 2584 is fixedly connected to one end surface of the central shaft of the middle transmission gear 2583, the lower transmission gear seat 2585 is rotatably connected to the inner wall of the workbench 1 and positioned on one side of the first bevel gear 2584, the lower transmission gear seat 2585 is connected with the lower connection gear seat 216 through a lower tooth-shaped synchronous belt 217, the second bevel gear 2586 is fixedly connected to the bottom of the lower transmission gear seat 2585 and positioned on one side of the first bevel gear 2584.

In this embodiment, it should be noted that: the displacement dimension of the driving cross bar 251, which is driven by the driving gear 2581 engaged with the tooth portion 257, and the displacement dimension of the lifting rod support 253, which is driven by the driving cross bar 251, are set in proportion.

It should be noted that, in this embodiment: initially, the connecting teeth 25811 on the surface of the driving gear 2581 below the driving beam 251 first engage the teeth 257 on the lower surface of the driving beam 251 and simultaneously move the driving beam 251 to the left.

In this embodiment, it should be noted that: the structure and connection relation of the gear driving mechanism 258 are further explained, when the gear driving mechanism is used, the threaded screw 211 rotates to synchronously drive the lower connecting tooth holder 216 to rotate, the lower connecting tooth holder 216 rotates to synchronously drive the lower transmission tooth holder 2585 to rotate through the lower tooth-shaped synchronous belt 217, the lower transmission tooth holder 2585 rotates to synchronously drive the second bevel gear 2586 to rotate, the second bevel gear 2586 rotates to synchronously drive the first bevel gear 2584 in meshed connection with the second bevel gear 2586, the transmission gear 2583 rotates in the first bevel gear 2584 rotating synchronous belt, the middle transmission gear 2583 rotates to synchronously drive the two groups of connecting gears 2582 to rotate respectively, the two groups of connecting gears 2582 rotate to synchronously drive the two groups of driving gears 2581 to rotate, the connecting teeth 25811 on the surfaces of the two groups of driving gears 2581 rotate to be sequentially meshed with the teeth portions 257 on the surfaces of the driving cross rods 251 and synchronously drive the driving cross rods 251 to reciprocate left and right along the inner wall of the workbench 1, the whole operation is simple, the practicability is high, and the use effect is good.

Further, the following steps:

in an alternative embodiment: the surfaces of the two groups of driving gears 2581 are provided with connecting teeth 25811, and the connecting teeth 25811 on the surfaces of the two groups of driving gears 2581 are engaged and connected with the teeth 257 on the surface of the driving cross rod 251 in sequence and synchronously drive the driving cross rod 251 to reciprocate left and right along the inner wall of the workbench 1.

In this embodiment, it should be noted that: connecting teeth 25811 on the surface of drive gear 2581 above drive bar 251 engage teeth 257 on the upper surface of drive bar 251 to simultaneously drive bar 251 to move to the right, and connecting teeth 25811 on the surface of drive gear 2581 below drive bar 251 engage teeth 257 on the lower surface of drive bar 251 to simultaneously drive bar 251 to move to the left.

It should be noted that, in this embodiment: further explain drive gear 2581's structure and relation of connection, set up through two sets of drive gear 2581 surperficial different positions and connect tooth 25811 and be convenient for successively mesh with tooth portion 257 on drive horizontal pole 251 surface mutually to be convenient for drive horizontal pole 251 in step and be left and right reciprocating motion along the inner wall of workstation 1, whole easy operation, the practicality is strong and excellent in use effect.

Further, the method comprises the following steps:

in an alternative embodiment: the use method of the soaking device for detecting tea comprises the following steps:

s1: checking; checking whether the total amount of the external detection liquid collecting barrel and the cleaning liquid storage barrel meets the use requirement;

s2: placing the tea leaves; tea leaves are laid on the surface of a fixed tooth seat 232 in a net frame 231, then a gland 233 is covered, and the gland 233 is fixed through a clamping mechanism 234, racks 2321 are arranged at the top of the fixed tooth seat 232 and the bottom of the gland 233, and the tea leaves are fixed through meshing between the racks 2321, so that the contact area between the tea leaves and detection liquid is increased while the tea leaves are prevented from being accumulated, the detection efficiency is improved, meanwhile, the subsequent collection and treatment of the tea leaves are facilitated, and the using effect is better;

s3: starting a device, setting parameters and running a program; starting the device, inputting a set parameter according to the detection standard, and starting the program after the set parameter is input;

s4: adding a detection solution; the PLC 26 runs a program to quantitatively add detection liquid into the detection cell 241 and the regulating cell 242;

s5: soaking operation; after the detection liquid is added, the PLC 26 controls the driving assembly 21 to be electrified and operated, the driving assembly 21 is electrified and operated to synchronously drive the multiple groups of tea leaf placing assemblies 23 to change the orientation and move into the detection pool 241, and the tea leaf placing assemblies 23 are driven to swing back and forth in the detection pool 241 after being contacted with the first soaking assembly 22, so that the tea leaf detection efficiency is improved, the orientation is changed again after the tea leaf placing assemblies 23 swing back and forth for multiple times, and the positions are kept unchanged in the detection pool 241, meanwhile, the driving assembly 21 operates and is synchronously linked with the operation of the second soaking assembly 25, the operation of the second soaking assembly 25 changes the liquid level in the detection pool 241, so that the tea leaves in the tea leaf placing assemblies 23 with unchanged positions are continuously impacted, the tea leaf detection efficiency is further improved, after the set time, the driving assembly 21 is contacted with the first soaking assembly 22 again and drives the tea leaf placing assemblies 23 to swing back and forth again in the detection pool, the tea leaf detection efficiency is further improved, the orientation of the tea leaf placing assemblies 23 is reset and the change, so that the tea leaves are restored to the initial state, the device can detect multiple batches of tea leaves, the working efficiency and the detection quality is high, and the practicability is good;

s6: collecting tea leaves; after soaking, taking out the tea leaves and uniformly placing the tea leaves into a garbage can for collection;

s7: uniformly collecting the detection liquid of the soaked tea; uniformly collecting detection liquid soaked in tea leaves and sending the detection liquid to the next detection procedure;

s8: adding cleaning liquid for cleaning; the PLC 26 runs a program to quantitatively add cleaning liquid into the detection pool 241 and the regulating pool 242 and clean the detection pool 241 and the regulating pool 242;

s9: and ending the program and closing the device.

In this embodiment, it should be noted that: further explanation is provided for the method of use of the device.

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 modifications may be made to the embodiments described above, or equivalents may be substituted for elements thereof. 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.

Claims (8)

1. The utility model provides a tealeaves detects uses soak device, includes workstation (1), its characterized in that: the device also comprises a soaking device (2) arranged on the surface of the workbench (1);

the soaking device (2) comprises a driving component (21), a first soaking component (22), a tea placing component (23), a detection pool component (24), a second soaking component (25) and a PLC (programmable logic controller) (26), wherein the driving component (21) is installed on the surface of the workbench (1), the first soaking component (22) is uniformly installed on the surface of the driving component (21), the tea placing component (23) is installed on the surface of the first soaking component (22), the detection pool component (24) is uniformly installed on the surface of the workbench (1) and located on one side of the driving component (21), the second soaking component (25) is installed inside the workbench (1), one end of the second soaking component (25) is connected with one end of the driving component (21), the other end of the second soaking component is connected with one end of the detection pool component (24), and the PLC (26) is installed on the surface of the workbench (1) and electrically connected with the driving component (21);

the first soaking assembly (22) comprises a sliding frame (221), a rotating seat (222), a steering gear (223), a Z-shaped connecting rod (224), a first tooth seat (225), a second tooth seat (226) and a third tooth seat (227), the sliding frame (221) is in threaded connection with the outer surface of the threaded screw rod (211) and is in sliding connection with the surface of the workbench (1), the rotating seat (222) is in rotating connection with the inner wall of the sliding frame (221), two ends of the rotating seat (222) penetrate through the outer part of the sliding frame (221) and are fixedly connected with the steering gear (223), the Z-shaped connecting rod (224) is in threaded connection with the surface of the sliding frame (221), one end, far away from the surface of the sliding frame (221), of the Z-shaped connecting rod (224) is in threaded connection with a tea leaf placing assembly (23), the first tooth seat (225), the second tooth seat (226) and the third tooth seat (227) are sequentially and symmetrically bolted and fastened on the surface of the workbench (1) and are located on the outer side of the threaded screw rod (211) from top to bottom, and the first tooth seat (225), the first tooth seat (226), the second tooth seat (226) and the third tooth seat (223) are respectively in corresponding connection with the steering gear;

detect pond subassembly (24) including detecting pond (241), equalizing basin (242), connecting cylinder (243) and piston piece (244), detect pond (241) and evenly embed at workstation (1) surface, equalizing basin (242) are evenly embedded at workstation (1) surface and are located and detect pond (241) one side, be linked together through connecting cylinder (243) between detecting pond (241) and equalizing basin (242), piston piece (244) sliding connection is in equalizing basin (242) inner wall and laminate mutually with equalizing basin (242) inner wall, piston piece (244) one end is connected with second soaking component (25) one end.

2. The steeping device for detecting tea leaves as claimed in claim 1, wherein: the drive assembly (21) comprises a threaded screw rod (211), a smooth section (212), a limit ring table (213), an upper connecting tooth holder (214), an upper tooth-shaped synchronous belt (215), a lower connecting tooth holder (216), a lower tooth-shaped synchronous belt (217) and a drive motor (218), the threaded screw rod (211) is uniformly and rotatably connected to the surface of the workbench (1), the smooth section (212) is integrally formed on the surface of the threaded screw rod (211), the limit ring table (213) is integrally formed on the surface of the threaded screw rod (211) and positioned on one side of the smooth section (212), the limit ring table (213) is rotatably connected to the surface of the workbench (1), one end surface of the threaded screw rod (211) is integrally formed and provided with the upper connecting tooth holder (214) and is connected with the upper tooth-shaped synchronous belt (215), the other end of the threaded screw rod (211) penetrates into the workbench (1), one end surface of the threaded screw rod (211) penetrating into the interior of the workbench (1) is integrally formed and provided with the lower connecting tooth holder (216) and is fastened with one end of a second tooth-shaped synchronous belt (217) to be connected with the screw rod (218) and connected with the screw rod (211) and the screw rod (218) and the drive motor (218) and the screw rod (211) is connected with the screw rod (1) at a set of the screw rod (211) and the corresponding position, the driving motor (218) is electrically connected with the PLC (26).

3. The steeping device for detecting tea leaves as claimed in claim 1, wherein: subassembly (23) is placed to tealeaves including net frame (231), fixed toothholder (232), gland (233) and card solid mechanism (234), net frame (231) threaded connection keeps away from the one end surface on balladeur train (221) surface in Z shape connecting rod (224), fixed toothholder (232) joint is fixed in net frame (231) inner wall, gland (233) rotate to be connected at net frame (231) top and fixed with net frame (231) top joint through card solid mechanism (234).

4. The steeping device for detecting tea leaves as claimed in claim 3, wherein: the clamping mechanism (234) comprises a bottom frame (2341), a sliding block (2342), a clamping rod (2343), a spring (2344) and a clamping portion (2345), the bottom frame (2341) is fastened at the top of a gland (233) through bolts, the clamping portion (2345) is integrally formed and arranged at the top of the net frame (231) and corresponds to the bottom frame (2341) in position, the sliding block (2342) is connected to the inner wall of the bottom frame (2341) in a sliding mode, the clamping rod (2343) is connected to the inner wall of the sliding block (2342) in a threaded mode, one end of the clamping rod (2343) penetrates through the outer portion of the sliding block (2342) and is connected to the inner wall of the bottom frame (2341) in a sliding mode, the other end of the clamping rod (2342) penetrates through the outer portion of the sliding block (2342) and is located between the surface of the sliding block (2342) and the inner wall of the bottom frame (2341).

5. The steeping device for detecting tea leaves as claimed in claim 1, wherein: the second soaking component (25) comprises a driving cross rod (251), a square groove (252), a lifting rod frame (253), a guide base (254), a lifting guide groove (255), a shaft rod (256), a tooth part (257) and a gear driving mechanism (258), the driving cross rod (251) is connected to the inner wall of the workbench (1) in a sliding way, the square grooves (252) are uniformly arranged on the surface of the driving cross rod (251), the lifting rod frames (253) are all connected with the inner wall of the square groove (252) in a sliding way, the guide bases (254) are symmetrically fastened on the inner wall of the workbench (1) by bolts and sleeved on the outer side of the lifting rod frame (253), one end of the lifting rod frame (253) penetrates through the outer part of the workbench (1) and is fixedly connected with the top of the piston block (244), the lifting guide grooves (255) are symmetrically arranged on the inner wall of the square groove (252), the shaft levers (256) are symmetrically screwed on the surface of the lifting lever frame (253) and are connected on the inner wall of the lifting guide groove (255) in a sliding way, the tooth parts (257) are uniformly, symmetrically and integrally formed on the surface of the driving cross rod (251) and are positioned on one side of the square groove (252), the gear driving mechanisms (258) are uniformly arranged on the inner wall of the workbench (1), one end of the gear driving mechanism (258) is connected with the tooth part (257), and the other end is connected with the lower tooth-shaped synchronous belt (217).

6. The steeping device for detecting tea leaves as claimed in claim 5, wherein: the gear driving mechanism (258) comprises a driving gear (2581), a connecting gear (2582), a middle transmission gear (2583), a first bevel gear (2584), a lower transmission gear seat (2585) and a second bevel gear (2586), the driving gear (2581) is symmetrically and rotatably connected with the inner wall of the workbench (1) and positioned outside the tooth part (257), the driving gear (2581) is meshed with the tooth part (257), the connecting gear (2582) is fixedly connected to the surface of one end of the central shaft of the driving gear (2581), the middle transmission gear (2583) is rotationally connected with the inner wall of the workbench (1) and is positioned at one side of the driving cross rod (251), the middle transmission gear (2583) is positioned between the two groups of connecting gears (2582) and is respectively meshed with the two groups of connecting gears (2582), the first bevel gear (2584) is fixedly connected with one end surface of the central shaft of the middle transmission gear (2583), the lower transmission tooth holder (2585) is rotationally connected with the inner wall of the workbench (1) and is positioned at one side of the first bevel gear (2584), the lower transmission tooth holder (2585) is connected with the lower connecting tooth holder (216) through a lower tooth-shaped synchronous belt (217), the second bevel gear (2586) is fixedly connected with the bottom of the lower transmission gear seat (2585) and is positioned at one side of the first bevel gear (2584), the second bevel gear (2586) is in meshing connection with the first bevel gear (2584).

7. The steeping device for detecting tea leaves as claimed in claim 6, wherein: the surface of the two groups of driving gears (2581) is provided with connecting teeth (25811), and the connecting teeth (25811) on the surface of the two groups of driving gears (2581) are meshed with the teeth (257) on the surface of the driving cross rod (251) successively and synchronously drive the driving cross rod (251) to reciprocate leftwards and rightwards along the inner wall of the workbench (1).

8. The use method of the steeping device for tea leaves detection as claimed in any one of claims 1 to 7, wherein: the use method of the soaking device for tea detection comprises the following steps:

s1: checking; checking whether the total amount of the external detection liquid collecting barrel and the cleaning liquid storage barrel meets the use requirement;

s2: placing the tea leaves; tea leaves are laid on the surface of a fixed tooth seat (232) in a net frame (231), then a gland (233) is covered, and the gland (233) is fixed through a clamping mechanism (234), racks (2321) are arranged at the top of the fixed tooth seat (232) and the bottom of the gland (233), the tea leaves are fixed through meshing between the racks (2321), the contact area between the tea leaves and detection liquid is increased while the tea leaves are prevented from being stacked together, the detection efficiency is improved, meanwhile, the subsequent tea leaf collection and treatment are facilitated, and the using effect is better;

s3: starting the device, setting parameters and running a program; starting the device, inputting set parameters according to the detection standard, and starting the program after the set parameters are input;

s4: adding a detection solution; the PLC (26) runs a program to quantitatively add detection liquid into the detection pool (241) and the regulating pool (242);

s5: soaking operation; after the detection liquid is added, the PLC (26) controls the driving component (21) to be electrified, the driving component (21) is electrified to synchronously drive the tea placing components (23) to change the direction and move into the detection pool (241), and the tea placing components (23) are driven to swing back and forth in the detection pool (241) after being contacted with the first soaking component (22), so that the tea detection efficiency is improved, the direction is changed again after the tea placing components (23) swing back and forth for a plurality of times, and the position is kept unchanged in the detection pool (241), meanwhile, the driving component (21) also synchronously links the second soaking component (25) to run, the second soaking component (25) operates to change the liquid level inside the detection pool (241), so that the tea leaves inside the tea leaf placing component (23) which keeps the position unchanged are continuously impacted, the tea leaf detection efficiency is further improved, after the set time, the driving component (21) is contacted with the first soaking component (22) again and drives the tea leaf placing component (23) to swing back and forth inside the detection pool (241) again, the tea leaf detection efficiency is further improved, and finally, the orientation of the tea leaf placing component (23) is reset and changed to enable the tea leaf placing component to recover to the initial state;

s6: collecting tea leaves; after soaking, taking out the tea leaves and uniformly placing the tea leaves into a garbage can for collection;

s7: uniformly collecting the detection liquid of the soaked tea; uniformly collecting the detection liquid of the soaked tea leaves and sending the detection liquid to the next detection procedure;

s8: adding cleaning liquid for cleaning; the PLC (26) runs a program to quantitatively add cleaning liquid into the detection pool (241) and the adjusting pool (242) and clean the interiors of the detection pool (241) and the adjusting pool (242);

s9: and ending the program and closing the device.

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