CN216747425U - Microbial content safety inspection platform in soyfood - Google Patents

Abstract

The utility model discloses a safety detection table for microbial content in bean products, which relates to the technical field of microbial detection and comprises a bottom foot, a grinding structure and a lifting structure, wherein a bottom plate is arranged at the top end of the bottom foot, first cavities are formed in one side of the inner part of the bottom plate, sliding rods are transversely arranged in the first cavities, first sliding blocks are sleeved on the outer walls of the sliding rods, a microscope is arranged at the top end of each first sliding block, the lifting structure is positioned at the middle position of the top end of the bottom plate, an observation vessel is arranged at the top end of the bottom plate through the lifting structure, a fixed upright post is arranged on one side, far away from the microscope, of the top end of the bottom plate, the grinding structure is positioned at the top end of the fixed upright post, and the grinding structure comprises a rotating plate. According to the bean product grinding device, bean products in the observation vessel are ground by holding the pull rod by hand and performing circular motion in the horizontal direction by taking the central point in the observation vessel as the circle center, and the structure realizes the flat laying of the bean products and is convenient for observation.

Description

Microbial content safety inspection platform in soyfood

Technical Field

The utility model relates to the technical field of microbial detection, in particular to a safety detection table for microbial content in a bean product.

Background

While the food industry is rapidly developing, more technical means are required to be adopted to monitor the quality of the food production process and the final product, and in the safety event of the bean product, microbial contamination is the most main factor causing food-borne diseases, so that as an important means for health management and safety index evaluation, the establishment of a safety detection table for the content of microorganisms in the bean product plays a more important role in food safety monitoring.

In the using process of the traditional safety detection table for the content of microorganisms in the bean products, the bean products are placed in an observation vessel and observed through a microscope to judge the number of the microorganisms in the bean products.

When the traditional safety detection table for the content of microorganisms in the bean products is used for detection, a microscope may observe overlapped microorganisms, and judgment errors may be caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a safety detection table for the content of microorganisms in bean products, which solves the problem of overlapping observation in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a safety detection table for the content of microorganisms in bean products comprises bottom feet, a grinding structure and a lifting structure;

the microscope comprises a bottom foot, a bottom plate, a first cavity, a slide bar, a first slide block, a microscope and a lifting structure, wherein the bottom plate is arranged at the top end of the bottom foot, the first cavity is formed in one side of the inner part of the bottom plate, the slide bar is transversely arranged in the first cavity, the first slide block is sleeved on the outer wall of the slide bar, the microscope is arranged at the top end of the first slide block, and the lifting structure is located in the middle position of the top end of the bottom plate;

the top end of the bottom plate is provided with an observation vessel through a lifting structure, a fixed upright post is arranged on one side of the top end of the bottom plate, which is far away from the microscope, and the grinding structure is positioned at the top end of the fixed upright post;

the grinding structure comprises a rotating plate, the rotating plate is installed on the top end of the fixed stand column through a rotating shaft, a second cavity is formed in one side of the inside of the rotating plate, a second sliding block is arranged inside the second cavity, a grinding rod is arranged inside the second sliding block, a pull rod is installed on the top end of the grinding rod, and a fixed spring is sleeved on the outer wall of the pull rod above the second sliding block.

Preferably, the top end of the first sliding block extends to the upper part of the bottom plate, and the microscope and the sliding rod form a sliding structure through the first sliding block.

Preferably, the bottom end of the grinding rod sequentially passes through the second sliding block and the rotating plate, and extends to the bottom end of the inside of the observation vessel;

the top end of the pull rod penetrates through the rotating plate and extends to the upper side of the rotating plate, and the pull rod and the second cavity form a sliding structure through the second sliding block.

Preferably, elevation structure includes threaded rod, mounting groove, connecting rod, thread piece and miniature servo motor, the mounting groove is all installed in the top intermediate position department of bottom plate, and the mounting groove is kept away from one side of observing the household utensils and is all installed miniature servo motor, the threaded rod is all installed to miniature servo motor's output, and the inside threaded rod outer wall of mounting groove all has the thread piece through threaded connection, the top of thread piece all has the connecting rod through articulated key-type connection.

Preferably, one end of the threaded rod close to the observation vessel extends to one side of the inside of the installation groove, and the threaded rod is installed on one side of the inside of the installation groove through the rotating shaft.

Preferably, the top of connecting rod all extends to the bottom of observing the household utensils, and the connecting rod all connects in the bottom of observing the household utensils through articulated key.

Compared with the prior art, the utility model has the beneficial effects that: will change the board along with the pivot rotates the original place, and loosen the pull rod, under fixed spring's reaction force, drive the grinding rod, make the grinding rod get into the inside of observing the household utensils again, and with the inside bottom butt each other of observing the household utensils, afterwards, the pull rod is handed to the staff, and use the central point of observing the household utensils inside to be the circular motion on the horizontal direction as the centre of a circle, the beans goods that will observe the household utensils inside are ground, at this in-process, the pull rod can drive the inside removal of second slider at the second cavity, and can drive and change the board and deflect along with the pivot is continuous, the tiling that this structure has realized beans goods is convenient for observe.

Drawings

FIG. 1 is a schematic sectional front view of the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a schematic side view of the present invention;

fig. 5 is an enlarged schematic view of a portion a in fig. 1 according to the present invention.

In the figure: 1. footing; 2. a grinding rod; 3. a first cavity; 4. a first slider; 5. a slide bar; 6. a microscope; 7. observing the vessel; 8. fixing the spring; 9. a lifting structure; 901. a threaded rod; 902. mounting grooves; 903. a connecting rod; 904. a thread block; 905. a micro servo motor; 10. a pull rod; 11. a second slider; 12. a second cavity; 13. rotating the plate; 14. fixing the upright post; 15. a base plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1: referring to fig. 1-5, a safety testing table for detecting the microbial content in a bean product comprises a bottom foot 1, a grinding structure and a lifting structure 9;

a bottom plate 15 is arranged at the top end of the bottom foot 1, a first cavity 3 is formed in one side inside the bottom plate 15, a sliding rod 5 is transversely arranged inside the first cavity 3, a first sliding block 4 is sleeved on the outer wall of the sliding rod 5, a microscope 6 is arranged at the top end of the first sliding block 4, the top end of the first sliding block 4 extends to the upper side of the bottom plate 15, the microscope 6 and the sliding rod 5 form a sliding structure through the first sliding block 4, and the lifting structure 9 is located in the middle position of the top end of the bottom plate 15;

the top end of the bottom plate 15 is provided with an observation vessel 7 through a lifting structure 9, a fixed upright post 14 is arranged on one side of the top end of the bottom plate 15, which is far away from the microscope 6, and the grinding structure is positioned at the top end of the fixed upright post 14;

referring to fig. 1-5, the safety detection table for the content of microorganisms in a bean product further comprises a grinding structure, the grinding structure comprises a rotating plate 13, the rotating plate 13 is mounted at the top end of a fixed upright post 14 through a rotating shaft, a second cavity 12 is formed in one side inside the rotating plate 13, a second slider 11 is arranged inside the second cavity 12, a grinding rod 2 is arranged inside the second slider 11, a pull rod 10 is mounted at the top end of the grinding rod 2, and a fixed spring 8 is sleeved on the outer wall of the pull rod 10 above the second slider 11;

the bottom end of the grinding rod 2 sequentially passes through the second sliding block 11 and the rotating plate 13, and the bottom end of the grinding rod 2 extends to the bottom end of the interior of the observation vessel 7;

the top end of the pull rod 10 penetrates through the rotating plate 13 and extends to the upper part of the rotating plate 13, and the pull rod 10 and the second cavity 12 form a sliding structure through a second sliding block 11;

specifically, as shown in fig. 1, 2, 3 and 4, when the mechanism is used, the pull rod 10 is held by hand and performs a circular motion in the horizontal direction around the central point inside the observation vessel 7, so as to grind the bean product inside the observation vessel 7.

Example 2: the lifting structure 9 comprises a threaded rod 901, a mounting groove 902, a connecting rod 903, a threaded block 904 and a micro servo motor 905, wherein the mounting groove 902 is mounted at the middle position of the top end of the bottom plate 15, the micro servo motor 905 is mounted on one side of the mounting groove 902 far away from the observation vessel 7, the type of the micro servo motor 905 can be 42JSF330AS-1000, the threaded rod 901 is mounted at the output end of the micro servo motor 905, the threaded block 904 is connected to the outer wall of the threaded rod 901 in the mounting groove 902 through threads, and the connecting rod 903 is connected to the top end of the threaded block 904 through a hinged key;

one end of the threaded rod 901 close to the observation vessel 7 extends to one side inside the installation groove 902, and the threaded rod 901 is installed on one side inside the installation groove 902 through a rotating shaft;

the top ends of the connecting rods 903 all extend to the bottom end of the observation vessel 7, and the connecting rods 903 are all connected to the bottom end of the observation vessel 7 through hinged keys;

specifically, as shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, when the mechanism is used, the connecting rod 903 is pushed by the thread block 904, the connecting rod 903 is gradually changed from the inclined state to the vertical state, the observation vessel 7 is inclined, and then the micro servo motor 905 on the right side is started, so that the observation vessel 7 can be inclined reversely, and the fluorescent agent can fully react with the microorganisms.

The working principle is as follows: the staff lifts the pull rod 10 upwards, drives the grinding rod 2 through the pull rod 10, makes the grinding rod 2 move upwards, and makes the fixed spring 8 contract, draws the grinding rod 2 out of the inside of the observation vessel 7, then rotates the rotating plate 13, makes the rotating plate 13 rotate with the top end of the fixed upright post 14 as the center of circle, and places the bean product to be detected inside the observation vessel 7, then the staff rotates the rotating plate 13 back to the original position along with the rotating shaft, and loosens the pull rod 10, under the reaction force of the fixed spring 8, drives the grinding rod 2, makes the grinding rod 2 enter the inside of the observation vessel 7 again, and is abutted against the bottom end inside the observation vessel 7, then the staff holds the pull rod 10 by hand, and does a circular motion in the horizontal direction with the central point inside the observation vessel 7 as the center of circle, grinds the bean product inside the observation vessel 7, in the process, the pull rod 10 can drive the second slide block 11 to move in the second cavity 12, and can drive the rotating plate 13 to continuously deflect along with the rotating shaft;

then, a worker can add fluorescein into the observation vessel 7 to enable the fluorescein to react with microorganisms in the observation vessel 7, and start the micro servo motor 905 on the left side, the micro servo motor 905 drives the threaded rod 901 to enable the threaded rod 901 to rotate in the installation groove 902, because the threaded block 904 is in threaded connection with the threaded rod 901, in the rotating process of the threaded rod 901, the threaded block 904 moves along with the threads on the outer wall of the threaded rod 901, the connecting rod 903 is pushed by the threaded block 904, the connecting rod 903 is gradually changed from an inclined state to a vertical state, the observation vessel 7 is inclined, then the micro servo motor 905 on the right side is started, the observation vessel 7 can be reversely inclined to enable the fluorescent agent to fully react with the microorganisms, then, the worker can push the microscope 6 to enable the microscope 6 to drive the first slide block 4 to slide on the outer wall of the slide bar 5 in the first cavity 3, the microscope 6 is moved to the upper side of the observation vessel 7, and observation is performed.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The utility model provides a little biological content safety inspection platform in soyfood, includes footing (1), its characterized in that: also comprises a grinding structure and a lifting structure (9);

a bottom plate (15) is mounted at the top end of the bottom foot (1), a first cavity (3) is formed in one side of the interior of the bottom plate (15), a sliding rod (5) is transversely mounted in the first cavity (3), a first sliding block (4) is sleeved on the outer wall of the sliding rod (5), a microscope (6) is mounted at the top end of the first sliding block (4), and the lifting structure (9) is located in the middle position of the top end of the bottom plate (15);

the top end of the bottom plate (15) is provided with an observation vessel (7) through a lifting structure (9), a fixed upright post (14) is arranged on one side of the top end of the bottom plate (15) far away from the microscope (6), and the grinding structure is positioned at the top end of the fixed upright post (14);

the grinding structure comprises a rotating plate (13), the rotating plate (13) is installed on the top end of a fixed stand column (14) through a rotating shaft, a second cavity (12) is formed in one side of the inside of the rotating plate (13), a second sliding block (11) is arranged inside the second cavity (12), a grinding rod (2) is arranged inside the second sliding block (11), a pull rod (10) is installed on the top end of the grinding rod (2), and a fixed spring (8) is sleeved on the outer wall of the pull rod (10) above the second sliding block (11).

2. The safety detection table for detecting the content of microorganisms in a bean product according to claim 1, wherein: the top end of the first sliding block (4) extends to the upper part of the bottom plate (15), and the microscope (6) forms a sliding structure through the first sliding block (4) and the sliding rod (5).

3. The safety detection table for detecting the content of microorganisms in a bean product according to claim 1, wherein: the bottom of grinding rod (2) passes second slider (11) and commentaries on classics board (13) in proper order, and the bottom of grinding rod (2) extends to the bottom of observing household utensils (7) inside.

4. The safety detection table for detecting the content of microorganisms in a bean product according to claim 1, wherein: the top end of the pull rod (10) penetrates through the rotating plate (13) and extends to the upper part of the rotating plate (13), and the pull rod (10) and the second cavity (12) form a sliding structure through the second sliding block (11).

5. The safety detection table for detecting the content of microorganisms in a bean product according to claim 1, wherein: elevation structure (9) include threaded rod (901), mounting groove (902), connecting rod (903), screw block (904) and miniature servo motor (905), mounting groove (902) are all installed in the top intermediate position department of bottom plate (15), and mounting groove (902) keep away from one side of observing household utensils (7) and all install miniature servo motor (905), threaded rod (901) are all installed to the output of miniature servo motor (905), and inside threaded rod (901) outer wall of mounting groove (902) all have screw block (904) through threaded connection, the top of screw block (904) all has connecting rod (903) through articulated key-type connection.

6. The safety detection table for detecting the content of microorganisms in a bean product according to claim 5, wherein: one end of the threaded rod (901) close to the observation vessel (7) extends to one side of the inside of the installation groove (902), and the threaded rod (901) is installed on one side of the inside of the installation groove (902) through a rotating shaft.

7. The safety detection table for detecting the content of microorganisms in a bean product according to claim 5, wherein: the top of connecting rod (903) all extends to the bottom of observing household utensils (7), and connecting rod (903) all through hinge key connection in the bottom of observing household utensils (7).

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