CN110938537A

CN110938537A - Nondestructive sampling detection equipment during wine making

Info

Publication number: CN110938537A
Application number: CN201911380671.4A
Authority: CN
Inventors: 乐绪枝
Original assignee: 乐绪枝
Current assignee: Qian'an City Guantoushan Liquor Industry Co.,Ltd.
Priority date: 2019-12-27
Filing date: 2019-12-27
Publication date: 2020-03-31
Anticipated expiration: 2039-12-27
Also published as: CN110938537B

Abstract

The invention discloses a nondestructive sampling detection device during brewing, which comprises a fermentation box, wherein a fermentation cavity is arranged in the fermentation box, a stirring mechanism for mixing fermented products in the fermentation cavity is arranged in the fermentation cavity, a sampling mechanism capable of completing nondestructive sampling detection is arranged in the left end wall of the fermentation cavity, the sampling mechanism comprises a moving cavity, a sampling pipe with the right end extending into the fermentation cavity is arranged in the right end wall of the moving cavity, a filter screen is fixed at the lower end of the sampling pipe, a moving plate and a moving spring for connecting the moving plate with the left end wall of the moving cavity are connected in the moving cavity in a sliding manner, an outflow pipeline for outputting sampling liquid is arranged in the upper end wall of the moving cavity, the device has a simple structure and convenient operation, and can complete normal detection sampling of the fermented products under the condition of sealing without influencing the normal fermentation through mechanical transmission, thereby being beneficial to know the fermentation process all the time, thereby improving the quality of fermentation.

Description

Nondestructive sampling detection equipment during wine making

Technical Field

The invention relates to the field of biological detection, in particular to nondestructive sampling detection equipment during brewing.

Background

The wine brewing is a process for producing alcoholic beverages with a certain concentration by utilizing microbial fermentation, and the microbial fermentation is influenced by temperature, pressure and the like, so that the wine brewing can be better observed and detected at any time;

however, in the process of wine brewing, the cover is generally directly opened for observation at the present stage, so that the wine brewing environment is directly communicated with the external space, certain influence is caused on the subsequent fermentation, and the improvement of the quality of wine is not facilitated.

Disclosure of Invention

The invention aims to solve the technical problem of providing nondestructive sampling detection equipment during brewing, and solves the problems of inconvenience in observation and detection and the like, so that the detection is smoothly carried out.

The invention is realized by the following technical scheme.

The invention relates to nondestructive sampling detection equipment during brewing, which comprises a fermentation box, wherein a fermentation cavity is arranged in the fermentation box, a stirring mechanism for mixing fermented substances in the fermentation cavity is arranged in the fermentation cavity, a sampling mechanism capable of completing nondestructive sampling detection is arranged in the left end wall of the fermentation cavity, the sampling mechanism comprises a moving cavity, a sampling pipe with the right end extending into the fermentation cavity is arranged in the right end wall of the moving cavity, a filter screen is fixed at the lower end of the sampling pipe, a moving plate and a moving spring for connecting the moving plate with the left end wall of the moving cavity are connected in the moving cavity in a sliding manner, an outflow pipeline for outputting sampling liquid is arranged in the upper end wall of the moving cavity, an L-shaped cavity for cutting off the sampling pipe and the outflow pipeline is arranged in the right end wall of the moving cavity, two cutting blocks capable of respectively cutting off the outflow pipeline and the L-, the L-shaped cavity is also internally provided with a telescopic spring which can reset the cutting block, the cutting block is internally provided with a through hole which penetrates through the cutting block, the lower end wall of the moving cavity is internally provided with a transmission cavity, a transmission shaft is rotatably connected between the upper end wall and the lower end wall of the transmission cavity, the upper end of the transmission shaft is fixedly connected with a friction wheel and a rope winding wheel, the rope winding wheel is internally provided with a driven groove with an upward opening, the driven groove is internally and slidably connected with a trapezoidal block with the upper end positioned in the transmission cavity and a driven spring which can reset the trapezoidal block, the transmission cavity is also internally provided with a lifting ring plate with the inner wall in contact with the inclined surface of the trapezoidal block and two lifting springs which are connected with the lifting ring plate and the upper end wall of the transmission cavity, the right end wall of the transmission cavity is internally provided with a pushing groove with a leftward opening, and, a hemp rope with the right end penetrating through the right end wall of the pushing groove and the upper end wall of the transmission cavity and fixedly connected with the lifting annular plate is fixed at the right end of the pushing plate, a friction plate is arranged on the left side of the pushing plate, two sliding grooves communicated with the pushing groove are arranged in the friction plate, a sliding block is connected in the sliding groove in a sliding way, the sliding block at the rear side is fixedly connected with the rear end wall of the pushing groove through an extension spring, a chain with the front end penetrating through the front end wall of the pushing groove and the lower end wall of the L-shaped cavity and fixedly connected with the lower side cutting block is fixed at the front end of the sliding block at the front side, a rope with the left end penetrating through the left end wall of the moving cavity and the left end wall of the transmission cavity and wound on the rope winding wheel is fixed at the left end of the moving plate, be equipped with in the lower terminal wall in fermentation chamber and realize driven follower, be equipped with the collection mechanism that can collect sample liquid in the removal chamber left end wall.

Further, rabbling mechanism is including being located the drive chamber in the fermentation chamber upper end wall, drive chamber upper end wall rotates and is connected with agitator motor, agitator motor lower extreme power is connected with the lower extreme and is located the (mixing) shaft in the fermentation chamber, the first belt pulley of (mixing) shaft upper end fixedly connected with, twelve stirring rod of (mixing) shaft lower extreme fixedly connected with, all be equipped with in the fermentation chamber right side wall and in the fermentation chamber lower extreme wall communicate external space with the pipeline that link up in fermentation chamber, be equipped with electromagnetic switch in the pipeline that links up.

Furthermore, the driven mechanism comprises a driven cavity with a leftward opening, the lower end wall of the driven cavity is rotatably connected with a driven shaft, the upper end of the driven shaft penetrates through the upper end wall of the driven cavity and the lower end wall of the driving cavity and is positioned in the driving cavity, a second belt pulley is fixed at the upper end and the lower end of the driven shaft, the second belt pulley at the upper side and the first belt pulley are driven through a first belt, the lower end wall of the driven cavity is also rotatably connected with a rolling shaft with the upper end positioned in the fermentation cavity, the lower end of the rolling shaft is fixedly connected with two third belt pulleys, the third belt pulley at the upper side and the second belt pulley at the lower side realize transmission through a second belt, the rolling axle upper end is fixed with can get rid of the jam the rotary rod of sampling tube, transmission shaft lower extreme still fixedly connected with fourth belt pulley just fourth belt pulley and downside realize the transmission through the third belt between the third belt pulley.

Further, the collecting mechanism comprises a detector, the detector for detecting sampling liquid is arranged in the wall of the right end of the moving cavity, a pushing cavity with a forward opening is arranged in the wall of the left end of the moving cavity, the left end of the outflow pipeline extends into the pushing cavity, a display screen capable of displaying the detection value of the detector is fixed on the left end face of the fermentation box, a test tube rack is connected in the pushing cavity in a sliding manner, a compression spring with the front end contacting with the test tube rack is fixed on the wall of the rear end of the pushing cavity, a first electromagnet attracted by the test tube rack is fixed in the wall of the lower end of the pushing cavity, four test tubes are arranged in the test tube rack, two mutually communicated spring cavities are arranged in the wall of the upper end of the pushing cavity, the lower end wall of the spring cavities is communicated with the pushing cavity, the front end wall of the spring cavities is communicated with the rear end wall of the spring cavities, a second electromagnet is fixed on the wall of one side, magnet board with connect through reset spring between the second electro-magnet, the front side the spring intracavity is used for preventing to seal the stopper of test tube, the rear side still be equipped with the flexible chamber of opening backward in the spring chamber right side wall, flexible intracavity is equipped with the front end and is located the rear side trapezoidal pole of spring intracavity and can make the connecting spring that trapezoidal pole resets.

Furthermore, the elastic force of the lifting spring is greater than that of the pushing spring, the friction force between the friction wheel and the friction plate is greater than that of the extension spring, and the elastic force of the extension spring is greater than that of the extension spring.

The invention has the beneficial effects that: the device simple structure, the simple operation through mechanical transmission, under airtight and the normal condition that goes on that does not influence the fermentation, accomplishes the normal detection sample to the fermentation thing, is favorable to knowing the process of fermentation constantly to improve the quality of fermentation.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic diagram of the structure A-A of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of the structure B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of the structure C-C in FIG. 1 according to an embodiment of the present invention;

fig. 5 is an enlarged schematic view of the structure at D in fig. 1 according to the embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to the accompanying drawings 1-4, a nondestructive sampling test device during brewing comprises a fermentation box 10, a fermentation chamber 15 is arranged in the fermentation box 10, a stirring mechanism 77 for mixing fermentation products in the fermentation chamber 15 is arranged in the fermentation chamber 15, a sampling mechanism 78 capable of completing nondestructive sampling test is arranged in the left end wall of the fermentation chamber 15, the sampling mechanism 78 comprises a moving chamber 28, a sampling pipe 81 is arranged in the right end wall of the moving chamber 28, the right end of the sampling pipe 81 extends into the fermentation chamber 15, a filter screen 40 is fixed at the lower end of the sampling pipe 81, a moving plate 30 and a moving spring 29 for connecting the moving plate 30 and the left end wall of the moving chamber 28 are slidably connected in the moving chamber 28, an outflow pipeline 25 for outputting sampling liquid is arranged in the upper end wall of the moving chamber 28, an L-shaped cavity 23 for cutting off the sampling pipe 81 and the outflow pipeline 25 is arranged in the right end wall of the, the L-shaped cavity 23 is internally and slidably connected with two cutting blocks 24 which can respectively cut off the outflow pipeline 25 and the L-shaped cavity 23, the L-shaped cavity 23 is internally and further provided with a telescopic spring 27 which can reset the cutting block 24, the cutting block 24 is internally provided with a through hole 43 which penetrates through the cutting block 24, the lower end wall of the moving cavity 28 is internally provided with a transmission cavity 34, the upper end wall and the lower end wall of the transmission cavity 34 are rotatably connected with a transmission shaft 36, the upper end of the transmission shaft 36 is fixedly connected with a friction wheel 33 and a rope winding wheel 71, the rope winding wheel 71 is internally provided with a driven groove 70 with an upward opening, the driven groove 70 is internally and slidably connected with a trapezoidal block 69 with the upper end positioned in the transmission cavity 34 and a driven spring 72 which can reset the trapezoidal block 69, the transmission cavity 34 is internally and further provided with a lifting annular plate 73 with an inner wall in inclined contact with the trapezoidal block 69 and two lifting springs 74 which, a pushing groove 62 with a leftward opening is formed in the right end wall of the transmission cavity 34, a pushing plate 37 and a pushing spring 38 connected with the pushing plate 37 and the right end wall of the pushing groove 62 are slidably connected in the pushing groove 62, a hemp rope 75 is fixedly connected with the lifting annular plate 73 and penetrates through the right end wall of the pushing groove 62 and the upper end wall of the transmission cavity 34 at the right end of the pushing plate 37, a friction plate 60 is arranged at the left side of the pushing plate 37, two sliding grooves 61 communicated with the pushing groove 62 are formed in the friction plate 60, a sliding block 59 and a rear end of the sliding groove 61 are slidably connected in the sliding groove 59 and are fixedly connected with the rear end wall of the pushing groove 62 through an extension spring 58, a front end is fixedly connected to the front end of the sliding block 59, a chain 63 is fixedly connected with the lower end wall of the L-shaped cavity 23 and the cut-off block 24 at the lower side and penetrates, the left end of the moving plate 30 is fixedly provided with a rope 31, the left end of the rope 31 penetrates through the left end wall of the moving cavity 28 and the left end wall of the transmission cavity 34 and is wound on the rope winding wheel 71, a driven mechanism 79 for realizing transmission is arranged in the lower end wall of the fermentation cavity 15, and a collecting mechanism 80 capable of collecting sampling liquid is arranged in the left end wall of the moving cavity 28.

Beneficially, stirring mechanism 77 includes drive chamber 16 that is located in fermentation chamber 15 upper end wall, drive chamber 16 upper end wall rotates and is connected with agitator motor 18, agitator motor 18 lower extreme power connection has the (mixing) shaft 12 that the lower extreme is located in fermentation chamber 15, agitator shaft 12 upper end fixedly connected with first belt pulley 17, agitator shaft 12 lower extreme fixedly connected with twelve stirring rods 11, all be equipped with in the fermentation chamber 15 right side wall and in the fermentation chamber 15 lower end wall and communicate external space with through-tube 14 in fermentation chamber 15, be equipped with electromagnetic switch 13 in the through-tube 14.

Beneficially, follower 79 includes driven chamber 64 that the opening is left, driven chamber 64 lower end wall is connected with the upper end and runs through driven chamber 64 upper end wall with drive chamber 16 lower end wall just is located driven shaft 21 in drive chamber 16, driven shaft 21 is fixed with second belt pulley 20 and upside both ends from top to bottom second belt pulley 20 with first belt pulley 17 carries out the transmission through first belt 19, driven chamber 64 lower end wall is still connected with the roll axle 67 that the upper end is located in fermentation chamber 15 in the rotation, roll axle 67 lower extreme fixedly connected with two third belt pulleys 66, the upside third belt pulley 66 and downside realize the transmission through second belt 65 between the second belt pulley 20, roll axle 67 upper end is fixed with can get rid of the rotary rod 39 that blocks up sampling tube 81, transmission shaft 36 lower extreme still fixedly connected with fourth belt pulley 35 and downside between the third belt pulley 66 through second belt pulley 65 The third belt 68 effects the drive.

Beneficially, collection mechanism 80 includes detector 45, be equipped with in the removal chamber 28 right end wall detect sample liquid detector 45, be equipped with the forward promotion chamber 47 of opening in the removal chamber 28 left end wall and the outflow pipeline 25 left end extends to in promoting the chamber 47, fermentation box 10 left end face is fixed with and can show display screen 26 that detector 45 detected numerical value, it has test-tube rack 49 to promote intracavity 47 sliding connection, it is fixed with front end and the compression spring 48 of test-tube rack 49 contact to promote chamber 47 rear end wall, it has first electro-magnet 50 with test-tube rack 49 looks suction to promote intracavity 47 lower extreme wall internal fixation, be equipped with four test tubes 46 in the test-tube rack 49, it is equipped with two spring chamber 55 and the rear side of intercommunication to promote intracavity 47 upper end wall spring chamber 55 lower extreme wall intercommunication promote chamber 47, the front side spring chamber 55 rear end wall intercommunication rear side spring chamber 55, spring chamber 55 one side end wall is fixed with second electro-magnet 54 just sliding connection has magnet board 56 in the spring chamber 55, magnet board 56 with connect through reset spring 57 between the second electro-magnet 54, the front side be used for preventing to seal in the spring chamber 55 the stopper of test tube 46, the rear side still be equipped with the flexible chamber 52 that the opening is backward in the spring chamber 55 right side end wall, be equipped with the front end in the flexible chamber 52 and be located the rear side trapezoidal pole 51 in the spring chamber 55 and can make the connecting spring 53 that trapezoidal pole 51 resets.

Advantageously, the elastic force of the lifting spring 74 is greater than the elastic force of the pushing spring 38, the frictional force between the friction wheel 33 and the friction plate 60 is greater than the elastic force of the extension spring 58, and the elastic force of the extension spring 58 is greater than the elastic force of the extension spring 27.

In the initial state, the push spring 38, the compression spring 48, and the lower expansion spring 27 are in a compressed state, the upper expansion spring 27 is in a stretched state, the lower through hole 43 communicates with the sampling tube 81, and the upper through hole 43 does not communicate with the outflow conduit 25.

Opening the right electromagnetic switch 13, adding the fermentation product into the fermentation cavity 15, then closing the electromagnetic switch 13, and starting fermentation;

when the product state during fermentation needs to be detected, the stirring motor 18 works to drive the stirring shaft 12 to rotate, thereby driving the first belt pulley 17 and the stirring rod 11 to rotate, the rotation of the stirring rod 11 stirring the fermentation product in the fermentation cavity 15, the rotation of the first belt pulley 17 drives the upper second belt pulley 20 and the driven shaft 21 to rotate through the transmission of the first belt 19, thereby driving the lower second belt pulley 20 to rotate, driving the upper third belt pulley 66 to rotate through the transmission of the second belt 65, thereby driving the rolling shaft 67 to rotate, the rotation of the rolling shaft 67 drives the rotating rod 39 to rotate, thereby loosening the fermented product to block the filter screen 40, the rolling shaft 67 rotates to drive the lower third belt pulley 66 to rotate, the fourth belt pulley 35 is driven to rotate by the transmission of the third belt 68, thereby driving the transmission shaft 36 to rotate, and the rotation of the transmission shaft 36 drives the friction wheel 33 and the rope winding wheel 71 to rotate;

the rope 31 is wound by the rotation of the rope winding wheel 71, so that the moving plate 30 is driven to move leftwards and the moving spring 29 is compressed, so that the fermentation product in the fermentation cavity 15 is extracted through the sampling pipe 81, the detector 45 detects that the extracted fermentation product result is displayed in the display screen 26, the trapezoidal block 69 receives the action of centrifugal force to transport the force transmission shaft 36 when the rope winding wheel 71 rotates, so that the lifting annular plate 73 moves upwards and the driven spring 72 is compressed, the lifting annular plate 73 moves upwards to compress the lifting spring 74 and loosen the hemp rope 75, so that the pushing spring 38 is reset to drive the pushing plate 37 to move leftwards, so that the friction plate 60 is in contact with the friction wheel 33, at the moment, the rotation of the friction wheel 33 can drive the friction plate 60 to move backwards, and at the moment, the friction plate 60 does not;

after the detection is finished, the stirring motor 18 works to drive the stirring shaft 12 to rotate reversely, the transmission shaft 36 rotates reversely through the transmission of the driven mechanism 79, so that the friction wheel 33 and the rope winding wheel 71 rotate reversely, the friction plate 60 moves forwards through the reverse rotation of the friction wheel 33, the extension spring 58 is extended, the chain 63 is loosened, the extension spring 27 is reset, the extension spring 27 on the right side rises, the extension spring 27 on the left side moves leftwards, the through hole 43 on the right side is not communicated with the sampling tube 81, the through hole 43 on the upper side is communicated with the outflow pipeline 25, the rope 31 is loosened through the reverse rotation of the rope winding wheel 71, the movable spring 29 is reset, the movable plate 30 moves rightwards, and the sampling liquid on the right side of the movable plate 30 enters the test tube 46;

after collecting the sampling liquid, the first electromagnet 50 stops working, the compression spring 48 moves forward to drive the test tube rack 49 to move forward, so that the empty test tube 46 is positioned at the lower side of the outflow pipeline 25, then the first electromagnet 50 works again to attract the test tube rack 49, at this time, the test tube 46 filled with the sampling liquid is positioned at the lower side of the rear spring cavity 55, the second electromagnet 54 at the rear side works to repel the magnet plate 56 at the rear side, so that the magnet plate 56 at the rear side moves downwards, so that the plug moves downwards to seal the test tube 46, the ladder-shaped rod 51 moves rightwards under the action of the plug, when the plug is separated from the ladder-shaped rod 51, the plug is reset under the action of the connecting spring 53, then the second electromagnet 54 at the rear side works to attract the magnet plate 56, so that the magnet plate 56 at the rear side is reset, a new plug enters the spring cavity 55 under the cooperation of the magnet plate 56 at the front side and the second electromagnet 54 at the front side, thus completing the sampling;

then the stirring motor 18 stops working, so that the transmission shaft 36 stops rotating, so that the rope winding wheel 71 stops rotating, the rope winding wheel 71 is reset under the action of the driven spring 72, so that the lifting ring plate 73 is reset under the action of the lifting spring 74, so that the hemp rope 75 is stretched, so that the pushing plate 37 is reset and the pushing spring 38 is compressed, so that the friction plate 60 and the friction wheel 33 lose contact, so that the stretching spring 58 is reset to drive the friction plate 60 to move backwards, so that the chain 63 is tensioned, so that the right-side cutting block 24 descends, the left-side cutting block 24 moves to the right, so that the right-side expansion spring 27 is compressed, the left-side expansion spring 27 is stretched, so that the upper-side through hole 43 is not communicated with the outflow pipeline 25, and the right-side through hole 43 is communicated with the sampling pipe 81.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a nondestructive sampling test equipment during making wine, includes the fermenting case, its characterized in that: the fermentation chamber is internally provided with a fermentation chamber, the fermentation chamber is internally provided with a stirring mechanism for mixing fermented substances in the fermentation chamber, the left end wall of the fermentation chamber is internally provided with a sampling mechanism capable of completing nondestructive sampling detection, the sampling mechanism comprises a moving chamber, the right end wall of the moving chamber is internally provided with a sampling tube with the right end extending into the fermentation chamber, the lower end of the sampling tube is fixed with a filter screen, the moving chamber is internally and slidably connected with a moving plate and a moving spring for connecting the moving plate with the left end wall of the moving chamber, the upper end wall of the moving chamber is internally provided with an outflow pipeline for outputting sampling liquid, the right end wall of the moving chamber is internally provided with an L-shaped chamber for cutting the sampling tube and the outflow pipeline, the L-shaped chamber is slidably connected with two cutting blocks capable of respectively cutting the outflow pipeline and the L-shaped chamber, and the L, cut the piece and be equipped with in the piece and run through cut the perforating hole of piece, be equipped with the transmission chamber in the removal chamber lower extreme wall, it is connected with the transmission shaft to rotate between the end wall about the transmission chamber, transmission shaft upper end fixedly connected with friction pulley and serving wheel, be equipped with the ascending driven groove of opening in the serving wheel, sliding connection has the upper end to be located in the driven groove trapezoidal piece in the transmission chamber and can make the driven spring that trapezoidal piece resets, still be equipped with the inner wall in the transmission chamber with the lifting ring board and the connection of trapezoidal piece inclined plane contact the lifting ring board with two lift springs of transmission chamber upper end wall, be equipped with the pushing groove of opening left in the transmission chamber right-hand member wall, sliding connection has the slurcam and connects in the pushing groove the slurcam with the pushing spring of pushing groove right-hand member wall, the slurcam right-hand member is fixed with the right-hand member runs through the pushing groove right-hand member with Hemp rope, the slushing plate left side is equipped with the friction plate just be equipped with two intercommunications in the friction plate and be the sliding tray of pushing away the groove, sliding connection has sliding block and rear side in the sliding tray sliding block with pushing away the groove rear end wall and pass through extension spring fixed connection, the front side the sliding block front end is fixed with the front end and runs through pushing away the groove front end wall with L die cavity lower extreme wall and with the downside cut off piece fixed connection's chain, the removal board left end is fixed with the left end and runs through remove the chamber left end wall with transmission chamber left end wall and winding are in rope on the rope sheave, be equipped with in the fermentation chamber lower extreme wall and realize driven mechanism, be equipped with in the removal chamber left end wall and carry out the collection mechanism of collecting to the sample liquid.

2. The non-destructive sampling testing apparatus for wine brewing period as claimed in claim 1, wherein: the stirring mechanism comprises a driving cavity located in the upper end wall of the fermentation cavity, the upper end wall of the driving cavity is rotatably connected with a stirring motor, the lower end of the stirring motor is in power connection with a stirring shaft, the lower end of the stirring motor is located in the fermentation cavity, a first belt pulley is fixedly connected to the upper end of the stirring shaft, twelve stirring rods are fixedly connected to the lower end of the stirring shaft, a through pipeline for communicating the external space with the fermentation cavity is arranged in the right end wall of the fermentation cavity and the lower end wall of the fermentation cavity, and an electromagnetic switch is arranged in the through pipeline.

3. The non-destructive sampling testing apparatus for wine brewing period as claimed in claim 2, wherein: the driven mechanism comprises a driven cavity with a left opening, the lower end wall of the driven cavity is rotatably connected with a driven shaft, the upper end of the driven shaft penetrates through the upper end wall of the driven cavity and the lower end wall of the driving cavity and is positioned in the driving cavity, a second belt pulley is fixed at the upper end and the lower end of the driven shaft, the second belt pulley at the upper side and the first belt pulley are driven through a first belt, the lower end wall of the driven cavity is also rotatably connected with a rolling shaft with the upper end positioned in the fermentation cavity, the lower end of the rolling shaft is fixedly connected with two third belt pulleys, the third belt pulley at the upper side and the second belt pulley at the lower side realize transmission through a second belt, the rolling axle upper end is fixed with can get rid of the jam the rotary rod of sampling tube, transmission shaft lower extreme still fixedly connected with fourth belt pulley just fourth belt pulley and downside realize the transmission through the third belt between the third belt pulley.

4. The non-destructive sampling testing apparatus for wine brewing period as claimed in claim 1, wherein: the collecting mechanism comprises a detector, the detector for detecting sampling liquid is arranged in the right end wall of the moving cavity, a pushing cavity with a forward opening is arranged in the left end wall of the moving cavity, the left end of the outflow pipeline extends into the pushing cavity, a display screen capable of displaying the detection value of the detector is fixed on the left end surface of the fermentation box, a test tube rack is connected in the pushing cavity in a sliding manner, a compression spring with the front end in contact with the test tube rack is fixed on the rear end wall of the pushing cavity, a first electromagnet sucked with the test tube rack is fixed on the lower end wall of the pushing cavity, four test tubes are arranged in the test tube rack, two mutually communicated spring cavities are arranged in the upper end wall of the pushing cavity, the rear end wall of the spring cavities is communicated with the pushing cavity, the front end wall of the spring cavities is communicated with the rear side of the spring cavities, a second electromagnet is fixed on the end wall of one side of the spring cavities, and a, magnet board with connect through reset spring between the second electro-magnet, the front side the spring intracavity is used for preventing to seal the stopper of test tube, the rear side still be equipped with the flexible chamber of opening backward in the spring chamber right side wall, flexible intracavity is equipped with the front end and is located the rear side trapezoidal pole of spring intracavity and can make the connecting spring that trapezoidal pole resets.

5. The non-destructive sampling testing apparatus for wine brewing period as claimed in claim 1, wherein: the elasticity of the lifting spring is greater than that of the pushing spring, the friction force between the friction wheel and the friction plate is greater than that of the extension spring, and the elasticity of the extension spring is greater than that of the extension spring.