CN210287340U - Novel biological fermentation process detects uses sampling equipment - Google Patents

Abstract

The utility model discloses a novel biological fermentation process detects uses sampling device relates to biological fermentation technical field, and it includes the fermentation cylinder body, the upper surface and the equal joint of lower surface of fermentation cylinder body inner wall have the bearing, the pivot has been cup jointed in the bearing, and the opposite face of two pivots passes through same screw thread post fixed connection, and the top fixedly connected with who is located the top pivot changes the handle. This novel biological fermentation process detects uses sampling equipment, through changeing handle, pivot, screw thread post, screw cap, sample connection, backup pad, first connecting pipe, glass board, collapsible tape measure, first valve, second valve, draw handle, piston, sampler barrel, first connecting pipe, second connecting pipe and go out mutually supporting between the appearance pipe, make the utility model discloses can take a sample to the zymotic fluid of the different degree of depth as required for the staff can carry out the omnidirectional to this internal zymotic fluid of fermentation cylinder and detect, thereby has improved biological fermentation sampling device's practicality.

Description

Novel biological fermentation process detects uses sampling equipment

Technical Field

The utility model relates to a biological fermentation technical field specifically is a novel biological fermentation process detects uses sampling equipment.

Background

In-process that ferments is carried out to the biology, in order to master the fermentation condition of this internal zymotic fluid of fermentation cylinder in time, often need use sampling device to take a sample to this internal zymotic fluid of fermentation cylinder, detect by the staff after the sample is accomplished, but ordinary sampling device often is the snap-on at a certain position of fermentation cylinder body, so can only carry out the analysis of taking a sample to the zymotic fluid of a certain position, the zymotic fluid that can not draw other depths carries out the sample contrast, lead to the staff to carry out the omnidirectional detection to this internal zymotic fluid of fermentation cylinder, thereby biological fermentation sampling device's practicality has been reduced, therefore, need one kind urgently to solve above-mentioned problem to the sampling device that can carry out the sample to the zymotic fluid of the different degree of depth.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a not enough to prior art, the utility model provides a novel biological fermentation process detects uses sampling equipment has solved ordinary sampling device and has often the snap-on at a certain position of fermentation cylinder body, so can only carry out the sample analysis to the zymotic fluid of a certain position, and the zymotic fluid that can not draw other depths carries out the contrast of taking a sample, leads to the staff can not carry out the omnidirectional to this internal zymotic fluid of fermentation cylinder and detects to the problem of biological fermentation sampling device's practicality has been reduced.

(II) technical scheme

In order to achieve the above purpose, the utility model adopts the technical proposal that: the utility model provides a novel biological fermentation process detects uses sampling device, includes the fermentation cylinder body, the upper surface and the equal joint of lower surface of fermentation cylinder body inner wall have the bearing, the pivot has been cup jointed in the bearing, and the opposite face of two pivots passes through same screw thread post fixed connection, and is located the top fixedly connected with of top pivot and changes the handle, screw thread post thread connection has the screw cap, the right flank of screw cap and the left surface fixed connection of sliding sleeve, screw cap and sliding sleeve joint are in same backup pad.

The upper surface joint of backup pad has the sample connection, the top of sample connection is linked together with the one end of first connecting pipe, the other end of first connecting pipe passes the upper surface of fermentation cylinder body and is linked together with the upper surface of the inner wall of sampler barrel, sampler barrel fixed connection is at the back of fermentation cylinder body, the back of sampler barrel inner wall is linked together through the front of second connecting pipe with sealed section of thick bamboo inner wall.

The sampling device is characterized in that a piston is arranged in the sealing cylinder, the sealing cylinder is fixedly connected with the sampling cylinder through a support frame, the lower surface of the inner wall of the sampling cylinder is communicated with one end of the sampling tube, a first valve is arranged on the back surface of the first connecting tube, and a second valve is arranged on the back surface of the sampling tube.

Preferably, the outer surface of the rotating handle is provided with anti-slip lines, and the upper surface of the supporting plate is fixedly connected with one end of the retractable measuring tape.

Preferably, the other end of the retractable measuring tape penetrates through the fermentation tank body and is fixedly connected to the measuring tape shell, the glass plate is clamped on the upper surface of the measuring tape shell, and the measuring tape shell is fixedly connected to the upper surface of the fermentation tank body.

Preferably, the back of the piston is fixedly connected with a pull handle, and the outer surface of the pull handle is provided with anti-skid grains.

Preferably, the first connecting pipe is an elastic hose, a sliding rod is sleeved in the sliding sleeve, and the sliding rod is fixedly connected in the fermentation tank body.

(III) advantageous effects

The beneficial effects of the utility model reside in that:

1. the novel sampling device for detecting the biological fermentation process is characterized in that through mutual matching between a rotating handle, a rotating shaft, a threaded column, a threaded cap, a supporting plate, a sampling port, a first connecting pipe, a glass plate, a retractable measuring tape, a first valve, a second valve, a pulling handle, a piston, a sampling cylinder, the first connecting pipe, a second connecting pipe and a sample outlet pipe, when a deeper layer of fermentation liquor needs to be sampled, a worker can rotate the rotating shaft and the threaded column rightwards through the rotating handle, so that the threaded cap moves downwards under the threaded connection effect of the threaded column, the threaded cap moves downwards, the supporting plate can drive the sampling port to move downwards, the sampling port can drive one end of the first connecting pipe to move downwards, the worker can watch the retractable measuring tape through the glass plate, when the reading size is proper, the rotating handle stops rotating, at the moment, the first valve and the second valve are both in a closed state, the staff opens the first valve first, and then pulls the pull handle backwards, so that the pull handle can drive the piston to move backwards and pump redundant air in the sampling cylinder into the sealing cylinder through the second connecting pipe, the air in the sampling cylinder can be reduced and the fermentation liquid in the fermentation cylinder body can be pumped through the first connecting pipe and the sampling cylinder, so that the fermentation liquid can be pumped into the sampling cylinder under the action of gravity, when the amount of the fermentation liquid is proper, the first valve is closed and the second valve is opened, then the pull handle pushes the piston forwards, so that the air in the piston is re-squeezed into the sampling cylinder, the air in the sampling cylinder is increased, the fermentation liquid in the sampling cylinder can be squeezed into the sampling container through the sample outlet pipe, so that the staff can sample the fermentation liquid in a deeper layer, the utility model can sample the fermentation liquid in different depths as required, and the staff can carry out all-directional detection on the fermentation liquid in the fermentation cylinder body, thereby improving the practicability of the biological fermentation sampling device.

2. This novel biological fermentation process detects uses sampling device through setting up collapsible tape measure, tape measure casing and glass board for can drive the one end of collapsible tape measure through the backup pad and remove when the sample connection removes, make the staff can watch the reading on the collapsible tape measure through the glass board, thereby can come the height of confirming the sample connection in the fermentation cylinder body according to the reading on the collapsible tape measure.

3. This novel biological fermentation process detects uses sampling equipment, through setting up slide bar and sliding sleeve, has not only avoided the screw thread post to rotate and has driven the screw cap pivoted condition together, still makes the screw cap can drive the sliding sleeve and reciprocate outside the slide bar when reciprocating to make the screw cap drive backup pad and sample connection reciprocate more stable.

Drawings

Fig. 1 is a schematic front view of a cross-sectional structure of the present invention;

FIG. 2 is a schematic diagram of the right-side cross-sectional structure of the present invention;

fig. 3 is an enlarged schematic structural diagram of a position a of the present invention.

In the figure: 1 fermentation cylinder body, 2 bearings, 3 rotating shafts, 4 threaded columns, 5 rotating handles, 6 threaded caps, 7 sliding sleeves, 8 sliding rods, 9 supporting plates, 10 sampling ports, 11 first connecting pipes, 12 sampling cylinders, 13 retractable measuring tapes, 14 measuring tape shells, 15 glass plates, 16 second connecting pipes, 17 sealing cylinders, 18 pistons, 19 pull handles, 20 supporting frames, 21 sample outlet pipes, 22 first valves and 23 second valves.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-3, the utility model provides a technical solution: a novel sampling device for detecting the biological fermentation process comprises a fermentation tank body 1, wherein bearings 2 are clamped on the upper surface and the lower surface of the inner wall of the fermentation tank body 1, a rotating handle 5 can rotate in the bearings 2 when driving a threaded column 4 to rotate through a rotating shaft 3 by arranging the bearings 2, so that the threaded column 4 can rotate more stably, the rotating shaft 3 is sleeved in the bearings 2, the opposite surfaces of the two rotating shafts 3 are fixedly connected through the same threaded column 4, a rotating handle 5 is fixedly connected to the top end of the rotating shaft 3 above the rotating shaft 3, anti-skidding threads are arranged on the outer surface of the rotating handle 5, the friction force between a palm of a worker and the rotating handle 5 can be increased by arranging the anti-skidding threads on the outer surface of the rotating handle 5, the worker can rotate the rotating shaft 3 and the threaded column 4 through the rotating handle 5 more conveniently and save labor and is not easy to slide, the threaded column 4 is, the right side surface of the screw cap 6 is fixedly connected with the left side surface of the sliding sleeve 7, the sliding rod 8 is sleeved in the sliding sleeve 7, the sliding rod 8 is fixedly connected in the fermentation tank body 1, the sliding rod 8 and the sliding sleeve 7 are arranged, the situation that the screw post 4 rotates to drive the screw cap 6 to rotate together is avoided, the screw cap 6 can drive the sliding sleeve 7 to move up and down outside the sliding rod 8 while moving up and down, so that the screw cap 6 drives the supporting plate 9 and the sampling port 10 to move up and down more stably, the screw cap 6 and the sliding sleeve 7 are clamped in the same supporting plate 9, the upper surface of the supporting plate 9 is fixedly connected with one end of the retractable measuring tape 13, the other end of the retractable measuring tape 13 penetrates through the fermentation tank body 1 and is fixedly connected with the measuring tape shell 14, the glass plate 15 is clamped on the upper surface of the, by arranging the retractable tape 13, the tape housing 14 and the glass plate 15, one end of the retractable tape 13 can be driven by the support plate 9 to move while the sampling opening 10 moves, so that a worker can watch the reading on the retractable tape 13 through the glass plate 15, and the height of the sampling opening 10 in the fermentation tank body 1 can be determined according to the reading on the retractable tape 13.

The upper surface of the supporting plate 9 is connected with a sampling port 10 in a clamping manner, the top end of the sampling port 10 is communicated with one end of a first connecting pipe 11, the first connecting pipe 11 is an elastic hose, the first connecting pipe 11 is set as the elastic hose, so that the sampling port 10 can be driven to extend when moving downwards, when the sampling port 10 moves upwards, the first connecting pipe 11 can be shortened by using the pulling force of the first connecting pipe 11, thereby preventing the first connecting pipe 11 from being damaged due to the compression of other structures, thereby ensuring the normal work of the first connecting pipe 11, the other end of the first connecting pipe 11 penetrates through the upper surface of the fermentation tank body 1 and is communicated with the upper surface of the inner wall of a sampling cylinder 12, the sampling cylinder 12 is fixedly connected to the back surface of the fermentation tank body 1, the back surface of the inner wall of the sampling cylinder 12 is communicated with the front surface of the inner wall of a sealing cylinder 17 through a second connecting, when the worker pulls the pull handle 19 backwards, the pull handle 19 can drive the piston 18 to move backwards and pump redundant air in the sampling cylinder 12 into the sealing cylinder 17 through the second connecting pipe 16, and the air in the sampling cylinder 12 is reduced, so that the fermentation liquid in the fermentation tank body 1 can be pumped through the first connecting pipe 11 and the sampling cylinder 12, the fermentation liquid falls into the sampling cylinder 12 under the action of gravity, and the fermentation liquid is pumped.

The piston 18 is arranged in the sealing cylinder 17, the back of the piston 18 is fixedly connected with the pull handle 19, the outer surface of the pull handle 19 is provided with anti-skid grains, the pull handle 19 is arranged, and the anti-skid grains are arranged outside the pull handle 19, so that the friction force between the palm of a worker and the pull handle 19 can be increased, the worker can pull the piston 18 backwards or push the piston 18 forwards through the pull handle 19 with great labor and difficulty in sliding, the sealing cylinder 17 is fixedly connected with the sampling cylinder 12 through the support frame 20, the lower surface of the inner wall of the sampling cylinder 12 is communicated with one end of the sample outlet pipe 21, the back of the first connecting pipe 11 is provided with the first valve 22, the back of the sample outlet pipe 21 is provided with the second valve 23, the first valve 22 is arranged, the worker can take out the fermentation liquid in the sampling cylinder 12 through the sample outlet pipe 21 by moving the piston 18 forwards, when the second valve 23 is closed, the worker can suck out the fermentation liquid in the fermentation tank body 1 by moving the piston 18 backwards, thereby facilitating the use of the worker.

The utility model discloses an operating procedure does:

s1, when a deeper fermentation liquid needs to be sampled, a worker can rotate the rotating shaft 3 and the threaded column 4 rightwards through the rotating handle 5, so that the threaded cap 6 moves downwards under the threaded connection effect with the threaded column 4, the threaded cap 6 moves downwards and can drive the sampling port 10 to move downwards through the supporting plate 9, the sampling port 10 can drive one end of the first connecting pipe 11 to move downwards, the worker can watch the reading on the retractable measuring tape 13 through the glass plate 15, and when the reading is proper in size, the rotating handle 5 stops rotating;

s2, at the moment, the first valve 22 and the second valve 23 are both in a closed state, a worker opens the first valve 22 first, then pulls the pull handle 19 backwards, so that the pull handle 19 can drive the piston 18 to move backwards and pump redundant air in the sampling cylinder 12 into the sealing cylinder 17 through the second connecting pipe 16, air in the sampling cylinder 12 is reduced, fermentation liquid in the fermentation tank body 1 can be pumped through the first connecting pipe 11 and the sampling cylinder 12, the fermentation liquid falls into the sampling cylinder 12 under the action of gravity, when the amount of the fermentation liquid is proper, the first valve 22 is closed and the second valve 23 is opened, then the piston 18 is pushed forwards through the pull handle 19, so that the air in the piston 18 is squeezed into the sampling cylinder 12 again, the air in the sampling cylinder 12 is increased, the fermentation liquid in the sampling cylinder 12 can be squeezed into a sampling container through the sample outlet pipe 21, and the worker can sample a deeper layer of the fermentation liquid, so that the utility model can sample the fermentation liquor with different depths according to the requirement;

s3, when the fermentation liquor of a shallow layer needs to be sampled, a worker can rotate the rotating shaft 3 and the threaded column 4 to the left through the rotating handle 5, so that the threaded cap 6 moves upwards under the threaded connection effect with the threaded column 4, so that the threaded cap 6 moves upwards and can drive the sampling port 10 to move upwards through the supporting plate 9, so that the sampling port 10 can drive one end of the first connecting pipe 11 to move upwards, the retractable tape 13 and the first connecting pipe 11 contract automatically, the worker can watch the reading on the retractable tape 13 through the glass plate 15, when the reading is proper in size, the rotating handle 5 stops rotating, and the worker can sample the shallow fermentation liquor by using the same method.

The above-mentioned embodiments further describe the objects, technical solutions and advantages of the present invention in detail, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (5)

1. The utility model provides a novel biological fermentation process detects uses sampling device, includes fermentation cylinder body (1), its characterized in that: the fermentation tank comprises a fermentation tank body (1), wherein bearings (2) are clamped on the upper surface and the lower surface of the inner wall of the fermentation tank body (1), rotating shafts (3) are sleeved in the bearings (2), opposite surfaces of the two rotating shafts (3) are fixedly connected through a same threaded column (4), a rotating handle (5) is fixedly connected to the top end of the rotating shaft (3) above, a threaded cap (6) is connected to the threaded column (4) through external threads, the right side surface of the threaded cap (6) is fixedly connected with the left side surface of a sliding sleeve (7), and the threaded cap (6) and the sliding sleeve (7) are clamped in a same supporting plate (9);

the upper surface of the supporting plate (9) is connected with a sampling port (10) in a clamping manner, the top end of the sampling port (10) is communicated with one end of a first connecting pipe (11), the other end of the first connecting pipe (11) penetrates through the upper surface of the fermentation tank body (1) and is communicated with the upper surface of the inner wall of a sampling cylinder (12), the sampling cylinder (12) is fixedly connected to the back surface of the fermentation tank body (1), and the back surface of the inner wall of the sampling cylinder (12) is communicated with the front surface of the inner wall of a sealing cylinder (17) through a second connecting pipe (16);

be provided with piston (18) in sealed section of thick bamboo (17), sealed section of thick bamboo (17) are through support frame (20) and sampler barrel (12) fixed connection, the lower surface of sampler barrel (12) inner wall is linked together with the one end of going out appearance pipe (21), the back of first connecting pipe (11) is provided with first valve (22), the back of going out appearance pipe (21) is provided with second valve (23).

2. The novel sampling device for detecting the biological fermentation process as claimed in claim 1, wherein: the outer surface of the rotating handle (5) is provided with anti-slip lines, and the upper surface of the supporting plate (9) is fixedly connected with one end of the retractable measuring tape (13).

3. The novel sampling device for detecting the biological fermentation process as claimed in claim 2, wherein: the other end of the retractable measuring tape (13) penetrates through the fermentation tank body (1) and is fixedly connected to the measuring tape shell (14), the glass plate (15) is clamped on the upper surface of the measuring tape shell (14), and the measuring tape shell (14) is fixedly connected to the upper surface of the fermentation tank body (1).

4. The novel sampling device for detecting the biological fermentation process as claimed in claim 1, wherein: the back of the piston (18) is fixedly connected with a pull handle (19), and the outer surface of the pull handle (19) is provided with anti-skid grains.

5. The novel sampling device for detecting the biological fermentation process as claimed in claim 1, wherein: the fermentation tank is characterized in that the first connecting pipe (11) is an elastic hose, a sliding rod (8) is sleeved in the sliding sleeve (7), and the sliding rod (8) is fixedly connected in the fermentation tank body (1).

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