CN112592819A - Biological fermentation condition detection device during biological fermentation - Google Patents

Abstract

The invention relates to a detection device, in particular to a biological fermentation condition detection device during biological fermentation. The invention aims to provide a biological fermentation condition detection device for detecting fermentation conditions at different depths, assisting in exploring the environment of a fermentation tank and facilitating observation. The technical scheme of the invention is as follows: a biological fermentation condition detection device in biological fermentation comprises: the support plate is internally connected with a pressing component in a sliding manner; the material taking component is connected to the bottom side of the pressing component; the clamping assembly is connected to the top side of the supporting plate. The invention achieves the purposes of taking out the fermented product conveniently and simplifying the operation process by matching the first connecting rod, the handle, the second connecting rod and the third connecting rod.

Description

Biological fermentation condition detection device during biological fermentation

Technical Field

The invention relates to a detection device, in particular to a biological fermentation condition detection device during biological fermentation.

Background

The microbial fermentation process is divided into aerobic fermentation and anaerobic fermentation according to the fermentation condition requirements, the aerobic fermentation method comprises liquid surface culture fermentation, fermentation on the surface of a porous or granular solid culture medium and oxygen-introduced submerged fermentation, the anaerobic fermentation adopts oxygen-not-introduced submerged fermentation, the biological fermentation is an important component in bioengineering, the microorganism can utilize carbohydrate fermentation to produce various industrial solvents and chemical raw materials, the fermentation process is often carried out in a closed fermentation tank, and the environment in the fermentation tank is regulated by technical means to ensure that the biological fermentation reaches the optimal state.

This use is novel to biological fermentation process, surveys and looks over the biological fermentation state, talks about one kind of law realization and surveys the different degree of depth fermentation condition, and the supplementary environment of exploring the fermentation cylinder, biological fermentation condition detection device during the biological fermentation of being convenient for observe.

Disclosure of Invention

In order to overcome the defects of complex operation and difficult exploration of fermentation conditions, the invention has the technical problems that: the utility model provides a biological fermentation condition detection device during the biological fermentation that the realization was surveyed the different degree of depth fermentation condition, the supplementary environment of exploring the fermentation cylinder, the observation of being convenient for.

A biological fermentation condition detection device in biological fermentation comprises:

the support plate is internally connected with a pressing component in a sliding manner;

the material taking component is connected to the bottom side of the pressing component;

the clamping assembly is connected to the top side of the supporting plate.

More preferably, the hold-down assembly comprises:

the supporting plate is internally connected with a first connecting rod in a sliding manner;

the top end of the first connecting rod is connected with the handle;

the first spring is wound on the first connecting rod;

the bottom side of the handle is connected with a second connecting rod;

the second connecting rod is connected with a second connecting rod in a sliding mode and penetrates through the supporting plate;

and the second spring is wound on the second connecting rod.

More preferably, the take-off assembly comprises:

the third connecting rod is internally and rotatably connected with a rotating shaft;

the rotating shaft is internally connected with an arc-shaped material taking plate which penetrates through the rotating shaft;

the torsion springs are wound on two sides of the rotating shaft;

the pressing block is connected to the tail end of the first connecting rod.

More preferably, the chucking assembly includes:

the handle is internally connected with an L-shaped clamping rod in a sliding manner;

a third spring is connected between one side of the L-shaped clamping rod and the inner wall of the handle;

the two sides of the L-shaped clamping rod are connected with the fourth connecting rod;

first gag lever post, backup pad top side is connected with first gag lever post.

More preferably, the device further comprises a fixing component, wherein the fixing component comprises:

the two sides of the supporting plate are both connected with first arc-shaped connecting rods;

the two sides of the supporting plate are both connected with second arc-shaped connecting rods;

the second arc-shaped connecting rod is connected with a second connecting rod in a sliding manner;

the ninth spring is wound on the two sides of the second arc-shaped connecting rod;

the tail ends of the fifth connecting rod and the first arc-shaped connecting rod are connected with the U-shaped block;

the inner walls of the two sides of the U-shaped block are both connected with the elastic pieces.

More preferably, the device further comprises a clamping component, wherein the clamping component comprises:

the supporting plate is internally connected with a plurality of wedge blocks in a sliding manner;

the supporting plate is internally connected with a plurality of sixth connecting rods in a sliding manner, and one side of each sixth connecting rod is in contact with one side of the wedge block;

the fourth springs are wound on the two sides of the sixth connecting rod;

the supporting plate is internally connected with a second limiting rod in a sliding manner, and the second limiting rod penetrates through the wedge-shaped block;

and the fifth spring is wound on two sides of the second limiting rod, and the third connecting rod is provided with a groove.

More preferably, the system further comprises an observation module, wherein the observation module comprises:

the two sides of one part of the supporting plate are both connected with special-shaped connecting rods;

a seventh connecting rod is connected between the top sides of the special-shaped connecting rods;

the special-shaped connecting rod is internally connected with a sliding rod in a sliding manner;

the two sides of one part of the sliding rod are connected with the L-shaped connecting rod;

the charging box is rotatably connected between the L-shaped connecting rods;

the sixth spring is wound on the two sides of the sliding rod;

and the observation device is connected between the inner sides of the special-shaped connecting rods.

More preferably, still including spacing subassembly, spacing subassembly includes:

the top sides of the special-shaped connecting rods are connected with special-shaped guide sleeves;

the special-shaped limiting rods are connected in the special-shaped guide sleeves in a sliding manner;

the Z-shaped limiting rods are connected with the two sides of the special-shaped connecting rod in a sliding manner;

the eighth connecting rod is connected between the tail ends of the Z-shaped limiting rods;

the seventh spring is wound on the two sides of the Z-shaped limiting rod;

the inner parts of two sides of the eighth connecting rod are both connected with wedge-shaped connecting rods in a sliding manner;

the wedge-shaped connecting rods are all wound with eighth springs;

and the two sides of the third connecting rod are both connected with limiting blocks.

The invention has the beneficial effects that: 1. the purposes of conveniently taking out the fermented product and simplifying the operation process are achieved through the matching of the first connecting rod, the handle, the second connecting rod and the third connecting rod.

2. Through the cooperation of pivot, arc material taking plate, torsion spring and briquetting to reach the automatic mesh of taking out the fermentation, the follow-up operation of being convenient for.

3. Through the cooperation of L shape kelly, third spring, fourth connecting rod and first gag lever post to reach automatic chucking device, reduce the purpose of human cost.

4. Through the cooperation of first arc connecting rod, second arc connecting rod, fifth connecting rod and U-shaped piece to reach the suitability that improves the device, carry out the purpose of elastic adjustment.

5. Through the cooperation of sixth connecting rod, fourth spring, second gag lever post and fifth spring to reach the purpose of digging the biological fermentation thing of the different degree of depth and get.

6. Through the cooperation of dysmorphism connecting rod, slide bar, charging box and observation device to reach and realize the careful observation to biological fermentation thing, carry out the purpose of automatic material of falling.

7. Through the cooperation of dysmorphism gag lever post, Z shape gag lever post, eighth connecting rod and wedge-shaped connecting rod to reach and realize automatic pouring, carry out semi-automatization and block and remove the purpose that blocks.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a partially cut-away perspective structure of the present invention.

Fig. 3 is an enlarged perspective view of the present invention a.

Fig. 4 is an enlarged perspective view of the present invention B.

FIG. 5 is a schematic view of a first partial body structure according to the present invention.

Fig. 6 is an enlarged perspective view of the present invention C.

FIG. 7 is a schematic view of a second partial body structure according to the present invention.

Fig. 8 is an enlarged perspective view of the present invention D.

Fig. 9 is a perspective view of a third embodiment of the present invention.

Fig. 10 is an enlarged perspective view of the present invention E.

Wherein: 1-a support plate, 2-a pressing component, 21-a first connecting rod, 22-a handle, 23-a first spring, 24-a second connecting rod, 25-a third connecting rod, 26-a second spring, 3-a material taking component, 31-a rotating shaft, 32-an arc material taking plate, 33-a torsion spring, 34-a pressing block, 4-a clamping component, 41-an L-shaped clamping rod, 42-a third spring, 43-a fourth connecting rod, 44-a first limiting rod, 5-a fixing component, 51-a first arc connecting rod, 52-a second arc connecting rod, 53-a fifth connecting rod, 54-a ninth spring, 55-a U-shaped block, 56-an elastic sheet, 6-a clamping component, 61-a wedge block, 62-a sixth connecting rod, 63-a fourth spring and 64-a second limiting rod, 65-a fifth spring, 66-a groove, 7-an observation component, 71-a special-shaped connecting rod, 72-a seventh connecting rod, 73-a sliding rod, 74-an L-shaped connecting rod, 75-a loading box, 76-a sixth spring, 77-an observation device, 8-a limiting component, 81-a special-shaped guide sleeve, 82-a special-shaped limiting rod, 83-a limiting block, 84-a Z-shaped limiting rod, 85-an eighth connecting rod, 86-a seventh spring, 87-a wedge-shaped connecting rod and 88-an eighth spring.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings.

Example 1

The utility model provides a biological fermentation condition detection device during biological fermentation, as shown in figure 1, including backup pad 1, push down subassembly 2, get material subassembly 3 and chucking subassembly 4, sliding type is connected with push down subassembly 2 in the backup pad 1, and 2 downside of push down subassembly is connected with gets material subassembly 3, and 1 upside of backup pad is connected with chucking subassembly 4.

When the device is required to be used, a user can place the device above a fermented product, push the downward pressing component 2 downwards, then continue to push the downward pressing component 2 downwards, at the same time, the downward pressing component 2 is compressed to achieve the purpose of conveniently taking out the fermented product and simplifying the operation process, the downward movement of the downward pressing component 2 drives the material taking component 3 to move downwards, then the material taking component 3 rotates forwards, the fermented product is taken out to achieve the purpose of automatically taking out the fermented product and facilitating the subsequent operation, the initial state of the clamping component 4 is a stretching state, the downward movement of the downward pressing component 2 drives the clamping component 4 to move downwards, when the clamping component 4 moves downwards to be not in contact with the inside, the clamping component 4 is driven to slide rightwards under the reset action of the clamping component 4, when the clamping component 4 moves downwards to be in contact with the downward pressing component 2, the clamping component 4 slides leftwards, the clamping assembly 4 is stretched, and when the clamping assembly 4 moves downwards to be not contacted with the pressing assembly 2, under the reset action of the clamping component 4, the clamping component 4 is driven to slide rightwards to clamp the pressing component 2, so as to achieve the purposes of automatically clamping the device and reducing the labor cost, the pressing component 2 is loosened, under the reset action of the lower pressing component 2, the lower pressing component 2 is driven to move upwards, the lower pressing component 2 moves upwards to drive the material taking component 3 to move upwards, then the material taking component 3 is reversed to the original position, the lower pressing component 2 moves upwards to drive the clamping component 4 to move upwards, when the chuck assemblies 4 move upward to the inside contact, the chuck assemblies 4 are slid leftward, and the chuck assemblies 4 are stretched, and under the reset action of the pressing component 2, the pressing component 2 is driven to move downwards, and when the pressing component is used again, the repeated operation is carried out.

Example 2

Based on embodiment 1, as shown in fig. 2 and 3, the pressing assembly 2 includes a first link 21, a handle 22, a first spring 23, a second link 24, a third link 25 and a second spring 26, the first link 21 is connected to the support plate 1 in a sliding manner, the handle 22 is connected to the top end of the first link 21, the first spring 23 is wound on the first link 21, the second link 24 is connected to the lower side of the handle 22, the third link 25 is connected to the second link 24 in a sliding manner, the third link 25 passes through the support plate 1, and the second spring 26 is wound on the second link 24.

When the equipment needs to be used, a user can place the device above a fermented object, push the handle 22 downwards, the handle 22 moves downwards to drive the first connecting rod 21 to slide downwards in the supporting plate 1, at the moment, the first spring 23 is compressed, the handle 22 moves downwards to drive the second connecting rod 24 to move downwards, the second connecting rod 24 moves downwards to drive the third connecting rod 25 and the second spring 26 to move downwards, the handle 22 continues to be pushed downwards, the handle 22 moves downwards to drive the first connecting rod 21 to slide downwards, the handle 22 moves downwards to drive the second connecting rod 24 to slide downwards in the third connecting rod 25, at the moment, the second spring 26 is compressed, so that the purpose of conveniently taking out the fermented object and simplifying the operation process is achieved, the handle 22 moves downwards to drive the material taking component 3 and the clamping component 4 to move downwards, the subsequent operation is continued, the handle 22 is loosened, under the reset action of the first spring 23, the handle 22 is driven to move upwards, the handle 22 moves upwards to drive the first connecting rod 21 to slide upwards, the handle 22 moves upwards to drive the second connecting rod 24 to move upwards, the second connecting rod 24 moves upwards to drive the third connecting rod 25 and the second spring 26 to move upwards, the handle 22 moves upwards to drive the material taking assembly 3 and the clamping assembly 4 to move upwards, when the clamping assembly 4 moves upwards to the inside to be contacted, the clamping assembly 4 slides leftwards, the clamping assembly 4 is stretched at the moment, the third connecting rod 25 is driven to slide downwards under the reset action of the second spring 26, subsequent operation is continued, and when the material taking device is used again, repeated operation can be performed.

As shown in fig. 4, the material taking assembly 3 includes a rotating shaft 31, an arc-shaped material taking plate 32, a torsion spring 33 and a pressing block 34, the rotating shaft 31 is rotatably connected to the third connecting rod 25, the arc-shaped material taking plate 32 is connected to the rotating shaft 31, the arc-shaped material taking plate 32 penetrates through the rotating shaft 31, the torsion springs 33 are wound around the front side and the rear side of the rotating shaft 31, and the pressing block 34 is connected to the end of the first connecting rod 21.

When the first connecting rod 21 slides downwards, the pressing block 34 is driven to move downwards, the pressing block 34 moves downwards to push the arc-shaped material taking plate 32 to rotate forwards, the arc-shaped material taking plate 32 rotates forwards to drive the rotating shaft 31 to rotate forwards in the third connecting rod 25, the torsion spring 33 rotates forwards at the moment to take out the fermented product, so that the purpose of automatically taking out the fermented product is achieved, and the subsequent operation is convenient.

As shown in fig. 3, the clamping assembly 4 includes an L-shaped clamping rod 41, a third spring 42, a fourth connecting rod 43 and a first limiting rod 44, the inside of the handle 22 is slidably connected with the L-shaped clamping rod 41, the third spring 42 is connected between the right side of the L-shaped clamping rod 41 and the inner wall of the handle 22, the front and rear sides of the L-shaped clamping rod 41 are both connected with the fourth connecting rod 43, and the upper side of the support plate 1 is connected with the first limiting rod 44.

When the second link 24 moves downwards, the L-shaped clamping rod 41 and the third spring 42 are driven to move downwards, the L-shaped clamping rod 41 moves downwards to drive the fourth link 43 to move downwards, the initial state of the third spring 42 is an extension state, when the fourth link 43 moves downwards to be not contacted with the first limit rod 44, the L-shaped clamping rod 41 is driven to slide rightwards in the handle 22 under the reset action of the third spring 42, the L-shaped clamping rod 41 slides rightwards to drive the fourth link 43 to move rightwards, when the fourth link 43 moves downwards to be contacted with the third link 25, the L-shaped clamping rod 41 slides leftwards, at the moment, the third spring 42 is extended, when the fourth link 43 moves downwards to be not contacted with the third link 25, the L-shaped clamping rod 41 is driven to slide rightwards under the reset action of the third spring 42 to clamp the third link 25, so as to achieve the purpose of automatic clamping device and reducing the labor cost, and continuing subsequent operation, when the second connecting rod 24 moves upwards, the second connecting rod 24 moves upwards to drive the L-shaped clamping rod 41 and the third spring 42 to move upwards, the L-shaped clamping rod 41 moves upwards to drive the fourth connecting rod 43 to move upwards, and when the fourth connecting rod 43 moves upwards to be in contact with the first limiting rod 44, the L-shaped clamping rod 41 slides leftwards, the third spring 42 is stretched at the moment, continuing subsequent operation, and when the second connecting rod is used again, repeating operation.

As shown in fig. 5 and 6, the fixing assembly 5 is further included, the fixing assembly 5 includes a first arc-shaped connecting rod 51, a second arc-shaped connecting rod 52, a fifth connecting rod 53, a ninth spring 54, a U-shaped block 55 and an elastic sheet 56, the first arc-shaped connecting rod 51 is connected to the left side and the right side of the supporting plate 1, the second arc-shaped connecting rod 52 is connected to the left side and the right side of the supporting plate 1, the fifth connecting rod 53 is connected to the second arc-shaped connecting rod 52 in a sliding manner, the ninth spring 54 is wound on the front side and the rear side of the second arc-shaped connecting rod 52, the U-shaped block 55 is connected to the tail ends of the fifth connecting rod 53 and the first arc-shaped connecting.

When the device is needed, the U-shaped block 55 can be placed on the biological fermentation tank, the elastic sheet 56 can be used for elastic regulation, when the fermenter is small, the user pulls the fifth link 53 backward, the fifth link 53 slides backward on the second arc link 52, the front ninth spring 54 is stretched, the rear ninth spring 54 is compressed, and when the U-shaped block 55 is removed, under the reset action of the ninth spring 54, the fifth connecting rod 53 is driven to slide forward, when the biological fermentation tank is large, the user can pull the fifth link 53 forward, with the front ninth spring 54 compressed and the rear ninth spring 54 extended, and when the U-shaped block 55 is removed, under the reset action of the ninth spring 54, the fifth link 53 is driven to slide backwards, so as to achieve the purposes of improving the applicability of the device and adjusting the elasticity, and when the device is used again, the operation is repeated.

As shown in fig. 7 and 8, the clamping device further includes a clamping assembly 6, the clamping assembly 6 includes a wedge 61, a sixth connecting rod 62, a fourth spring 63, a second limiting rod 64 and a fifth spring 65, the support plate 1 is connected with the plurality of wedges 61 in an inner sliding manner, the support plate 1 is connected with the plurality of sixth connecting rods 62 in an inner sliding manner, the right side of the sixth connecting rod 62 contacts with the left side of the wedge 61, the fourth spring 63 is wound on the front side and the rear side of the sixth connecting rod 62, the second limiting rod 64 is connected with the second limiting rod 64 in the support plate 1 in an inner sliding manner, the second limiting rod 64 penetrates through the wedge 61, the fifth spring 65 is wound on the front side and the rear side of the second limiting rod 64, and a groove 66 is formed in the third connecting rod 25.

When the third connecting rod 25 moves downwards, a user can pull the second limiting rod 64 upwards, the fifth spring 65 is compressed, the fourth spring 63 is in a stretched state in an initial state, the sixth connecting rod 62 at the bottom is driven to slide rightwards in the supporting plate 1 under the reset action of the fourth spring 63, the wedge block 61 is further pushed to slide rightwards in the supporting plate 1, the wedge block 61 can be clamped in the groove 66 at the moment, when biological fermentation products with different depths need to be dug, the user can continue to pull the second limiting rod 64 upwards to move repeatedly, subsequent operation is continued, after the operation is finished, the second limiting rod 64 is loosened, the second limiting rod 64 is driven to slide downwards in the supporting plate 1 under the reset action of the fifth spring 65, the wedge block 61 is further pushed to slide leftwards, the wedge block 61 slides leftwards to push the sixth connecting rod 62 to slide leftwards, and the fourth spring 63 is stretched, so as to achieve the purpose of digging and taking the biological fermentation materials with different depths, and when the biological fermentation material is used again, the operation is repeated.

As shown in fig. 9 and 10, the observing device 7 further comprises an observing assembly 7, wherein the observing assembly 7 comprises a special-shaped connecting rod 71, a seventh connecting rod 72, a sliding rod 73, an L-shaped connecting rod 74, a charging box 75, a sixth spring 76 and an observing device 77, the special-shaped connecting rods 71 are connected to the front and rear sides of the left portion of the supporting plate 1, the seventh connecting rod 72 is connected between the upper sides of the special-shaped connecting rods 71, the sliding rod 73 is connected to the inside of the special-shaped connecting rod 71 in a sliding manner, the L-shaped connecting rods 74 are connected to the front and rear sides of the right portion of the sliding rod 73, the charging box 75 is rotatably connected between the L-shaped connecting rods 74, the sixth springs 76.

When the arc-shaped material taking plate 32 rotates reversely, a user can push the sliding rod 73 rightwards, the sliding rod 73 slides rightwards in the special-shaped connecting rod 71 to drive the L-shaped connecting rod 74 and the material containing box 75 to move rightwards, the sixth spring 76 is stretched at the moment, the seventh connecting rod 72 plays a supporting role, biological fermentation materials on the arc-shaped material taking plate 32 can fall onto the material containing box 75, the user can observe the biological fermentation materials through the observation device 77 at the moment, then the sliding rod 73 is loosened, the sliding rod 73 is driven to slide leftwards under the resetting action of the sixth spring 76, the material containing box 75 rotates reversely in the L-shaped connecting rod 74 under the action of gravity and the seventh connecting rod 72 to pour the biological fermentation materials, the user can observe the biological fermentation materials through the observation device 77 to pour the materials automatically, and when the material taking plate is used again, the operation is repeated.

As shown in fig. 10, the device further comprises a limiting assembly 8, the limiting assembly 8 comprises a special-shaped guide sleeve 81, a special-shaped limiting rod 82, a limiting block 83, a Z-shaped limiting rod 84, an eighth connecting rod 85, a seventh spring 86, a wedge-shaped connecting rod 87 and an eighth spring 88, the special-shaped guide sleeve 81 is connected to the upper side of the special-shaped connecting rod 71, the special-shaped limiting rod 82 is connected to the inside of the special-shaped guide sleeve 81 in a sliding manner, the Z-shaped limiting rod 84 is connected to the inside of the front side and the outside of the special-shaped connecting rod 71 in a sliding manner, the eighth connecting rod 85 is connected to the tail end of the Z-shaped limiting rod 84 in a sliding manner, the seventh spring 86 is wound to the front side and the outside of the Z-shaped limiting rod 84, the wedge-shaped connecting rod 87 is connected.

When the clamping needs to be relieved, a user can push the special-shaped limiting rod 82 downwards, the special-shaped limiting rod 82 slides downwards to push the wedge-shaped connecting rod 87 to move downwards, the wedge-shaped connecting rod 87 moves downwards to drive the eighth spring 88 and the eighth connecting rod 85 to move downwards, the eighth connecting rod 85 moves downwards to drive the Z-shaped limiting rod 84 to slide downwards, the seventh spring 86 is stretched at the moment, the L-shaped connecting rod 74 and the loading box 75 are driven to move leftwards under the reset action of the sixth spring 76, the special-shaped limiting rod 82 continues to slide downwards to push the wedge-shaped connecting rod 87 to slide rightwards in the eighth connecting rod 85, the seventh spring 86 is compressed at the moment, when the special-shaped limiting rod 82 slides downwards to be not contacted with the wedge-shaped connecting rod 87, the wedge-shaped connecting rod 87 is driven to slide leftwards to the original position under the reset action of the seventh spring 86, when the third connecting rod 25 moves upwards, the limiting block 83 is driven to move upwards, when the limiting block 83 is, drives the special-shaped limiting rod 82 to slide upwards in the special-shaped guide sleeve 81, drives the L-shaped connecting rod 74 and the material box 75 to move rightwards when the special-shaped limiting rod 82 slides upwards to be contacted with the L-shaped connecting rod 74, when the L-shaped connecting rod 74 moves rightwards to be in contact with the Z-shaped limiting rod 84, the Z-shaped limiting rod 84 is pushed to slide downwards in the special-shaped connecting rod 71, the Z-shaped limiting rod 84 slides downwards to drive the eighth connecting rod 85 to move downwards, the seventh spring 86 is stretched at the moment, the wedge-shaped connecting rod 87 and the eighth spring 88 are driven to move downwards, when the L-shaped connecting rod 74 moves rightwards to be not in contact with the Z-shaped limiting rod 84, under the reset action of the seventh spring 86, the Z-shaped limit rod 84 is driven to slide downwards to clamp the L-shaped connecting rod 74, the automatic material pouring device achieves the purposes of achieving automatic material pouring, carrying out semi-automatic clamping and releasing, and can be repeatedly operated when being used again.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. A biological fermentation condition detection device during biological fermentation is characterized by comprising:

the support plate (1) is internally and slidably connected with a pressing component (2);

the material taking component (3) is connected to the bottom side of the pressing component (2);

the top side of the clamping component (4) and the supporting plate (1) is connected with the clamping component (4).

2. The apparatus for detecting biofermentation during biofermentation according to claim 1, wherein the pressing member (2) includes:

the first connecting rod (21) is connected with the support plate (1) in a sliding manner;

a handle (22), the top end of the first connecting rod (21) is connected with the handle (22);

the first spring (23) is wound on the first connecting rod (21);

the bottom side of the handle (22) is connected with the second connecting rod (24);

the second connecting rod (24) is connected with the third connecting rod (25) in a sliding mode, and the third connecting rod (25) penetrates through the supporting plate (1);

and the second spring (26) is wound on the second connecting rod (24).

3. The device for detecting the biological fermentation condition during the biological fermentation as claimed in claim 2, wherein the material taking assembly (3) comprises:

the rotating shaft (31) is connected in the third connecting rod (25) in a rotating manner;

the arc-shaped material taking plate (32) is connected in the rotating shaft (31), and the arc-shaped material taking plate (32) penetrates through the rotating shaft (31);

the torsion spring (33) is wound on both sides of the rotating shaft (31);

the tail end of the first connecting rod (21) is connected with a pressing block (34).

4. A device for detecting biofermentation conditions during biofermentation according to claim 3, wherein the clamping assembly (4) comprises:

the L-shaped clamping rod (41) is connected with the handle (22) in a sliding manner;

a third spring (42), wherein the third spring (42) is connected between one side of the L-shaped clamping rod (41) and the inner wall of the handle (22);

the two sides of the L-shaped clamping rod (41) are connected with the fourth connecting rod (43);

the top side of the supporting plate (1) is connected with a first limiting rod (44).

5. A device for detecting the biological fermentation condition during the biological fermentation according to claim 4, further comprising a fixing component (5), wherein the fixing component (5) comprises:

the two sides of the support plate (1) are both connected with first arc-shaped connecting rods (51);

the two sides of the support plate (1) are both connected with second arc-shaped connecting rods (52);

the fifth connecting rods (53) are connected to the second arc-shaped connecting rods (52) in a sliding manner;

the ninth spring (54) is wound on the two sides of the second arc-shaped connecting rod (52);

the tail ends of the fifth connecting rod (53) and the first arc-shaped connecting rod (51) are connected with the U-shaped block (55);

the inner walls of the two sides of the elastic sheet (56) and the U-shaped block (55) are both connected with the elastic sheet (56).

6. The device for detecting the biological fermentation condition during the biological fermentation according to claim 5, further comprising a clamping component (6), wherein the clamping component (6) comprises:

the supporting plate (1) is internally and slidably connected with a plurality of wedge blocks (61);

the supporting plate (1) is internally and slidably connected with a plurality of sixth connecting rods (62), and one side of each sixth connecting rod (62) is in contact with one side of each wedge-shaped block (61);

the fourth spring (63) is wound on the two sides of the sixth connecting rod (62);

the supporting plate (1) is internally and slidably connected with a second limiting rod (64), and the second limiting rod (64) penetrates through the wedge-shaped block (61);

fifth spring (65), fifth spring (65) have all been around on second gag lever post (64) both sides, open on third connecting rod (25) recess (66).

7. The apparatus for detecting the biological fermentation condition during the biological fermentation according to claim 6, further comprising an observation component (7), wherein the observation component (7) comprises:

the two sides of one part of the supporting plate (1) are both connected with special-shaped connecting rods (71);

a seventh connecting rod (72) is connected between the top sides of the special-shaped connecting rods (71);

the sliding rod (73) is connected with the special-shaped connecting rod (71) in a sliding manner;

the two sides of one part of the sliding rod (73) are connected with the L-shaped connecting rod (74);

the cartridge (75) is rotatably connected between the L-shaped connecting rods (74);

the sixth spring (76) is wound on the two sides of the sliding rod (73);

the observation device (77) is connected between the inner sides of the special-shaped connecting rods (71).

8. The device for detecting the biological fermentation condition during the biological fermentation according to claim 7, further comprising a limiting component (8), wherein the limiting component (8) comprises:

the top sides of the special-shaped guide sleeves (81) and the special-shaped connecting rods (71) are connected with the special-shaped guide sleeves (81);

the special-shaped limiting rod (82) is connected with the special-shaped limiting rod (82) in the special-shaped guide sleeve (81) in a sliding manner;

the Z-shaped limiting rod (84) is connected with the Z-shaped limiting rod (84) in a sliding manner in both sides of the special-shaped connecting rod (71);

an eighth connecting rod (85) is connected between the tail ends of the Z-shaped limiting rods (84);

the seventh spring (86) is wound on the two sides of the Z-shaped limiting rod (84);

the wedge-shaped connecting rods (87) are connected with the inner sides of the two sides of the eighth connecting rod (85) in a sliding manner;

the eighth springs (88) are wound on the wedge-shaped connecting rods (87);

the limiting blocks (83) are connected to the two sides of the third connecting rod (25).

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