CN221464944U - Be used for rice storage sampling device - Google Patents

Abstract

The utility model relates to the technical field of rice processing, and discloses a rice storage sampling device which comprises an outer barrel, a sampling tube rotatably arranged in the outer barrel and a rotating assembly arranged at the top of the sampling tube, wherein a feeding plate is arranged in the sampling tube, a conical groove is formed in the feeding plate, a rectangular first strip hole communicated with the inner top wall of the conical groove is formed in the feeding plate, and a limiting component used for being in rotating connection with the feeding plate is further arranged in the sampling tube. The utility model has the following advantages and effects: when sampling, the second rectangular strip hole on the baffle plate is overlapped with the first rectangular strip hole on the feeding plate up and down, when enough rice is taken in the sampling tube, the baffle plate is rotated by rotating the rotating rod, and the feeding end of the sampling tube can be completely closed after the second rectangular strip hole and the first rectangular strip hole are completely misplaced, so that the sampled rice is prevented from flowing out and needs to be resampled.

Description

Be used for rice storage sampling device

Technical Field

The utility model relates to the technical field of rice processing, in particular to a rice storage sampling device.

Background

The rice is a finished product prepared by the working procedures of cleaning, hulling, milling, finishing finished products and the like, contains approximately 64% of nutrient substances and more than 90% of nutrient elements required by human bodies, and is a main food for people in most areas of China.

In the process of rice production and processing, rice products are required to be sampled and inspected at regular time to judge whether the produced rice accords with related regulations, and according to retrieval, chinese patent CN217483947U discloses a rice detection sampling device.

Disclosure of utility model

The utility model aims to provide a rice storage sampling device which has the effects of being convenient to close and observing the sampling amount.

The technical aim of the utility model is realized by the following technical scheme: the utility model provides a be used for rice storage sampling device, is in including urceolus, rotation installation the inside sampling tube of urceolus and install the rotating assembly at sampling tube top, the inside of sampling tube is equipped with the feed plate, the taper groove has been seted up on the feed plate, set up on the feed plate with rectangle strip hole one of taper groove inner roof intercommunication, the inside of sampling tube still is equipped with and is used for the restriction part who rotates with the feed plate to be connected, the inside of sampling tube still is equipped with the feeding identification part who is connected with the feed plate.

Through adopting above-mentioned technical scheme, when getting rice, insert the urceolus in the rice, then drive the inside of sampling tube at the urceolus through rotating assembly and rotate downwards, the rice is from the bottom of sampling tube entering back then through the rectangle strip hole on the charge-in board one accomplish the sample, it continuously drives sampling tube rotation downwards, the rice will be continuous the inside of entering into the sampling tube, the feeding identification part can play the marking effect to the rice that sampling tube inside was sampled, avoid the volume of once sampling not enough to need the repeating operation, after the feeding identification part identification has been got to preset rice, restriction part rotates, carry out the shutoff with rectangle strip hole one, take out the sampling tube after avoiding the sample to accomplish, avoid the rice after the sample to flow out, need resampling.

The utility model is further provided with: the edge of the feeding end of the sampling tube is designed into an inclined plane.

Through adopting above-mentioned technical scheme, the feeding that can be better when making things convenient for the downward rotation of sampling tube.

The utility model is further provided with: the outside of the sampling tube is also provided with a cone positioned below the outer cylinder, and the outside of the cone is provided with a helical blade.

Through adopting above-mentioned technical scheme, when the sampling tube down-rotation sampling, the conical body rotates along with helical blade, can make the sampling tube can be better bore into in the rice, realizes the sample of rice.

The utility model is further provided with: the limiting component comprises a rotating rod, a baffle and a rectangular strip hole II, wherein the rotating rod is connected to the feeding plate in a rotating mode and extends to the top of the sampling tube, the baffle is installed outside the rotating rod and is attached to the top of the feeding plate, and the rectangular strip hole II is formed in the baffle.

The utility model is further provided with: the first rectangular strip hole and the second rectangular strip hole are identical in specification and are distributed in annular equidistance.

Through adopting above-mentioned technical scheme, during the sample, rectangle strip hole two on the baffle and rectangle strip hole one on the charge-in board are the coincidence form from top to bottom, and after the inside sufficient rice of getting of sampling tube, rotatory dwang makes the baffle rotate thereupon, rotates to rectangle strip hole two and rectangle strip hole one after dislocation completely, can seal the feed end of sampling tube completely, avoid the rice outflow after the sample, need resampling.

The utility model is further provided with: the rotating assembly comprises a rotating connecting rod connected with the top of the sampling tube and a rotating wheel arranged on the top of the rotating connecting rod.

Through adopting above-mentioned technical scheme, rotate the wheel and drive the sampling tube through rotating the connecting rod and rotate downwards and take a sample.

The utility model is further provided with: the feeding identification component comprises a supporting vertical rod arranged on the feeding plate, a top plate movably connected with the inner wall of the sampling tube and attached to the top of the supporting vertical rod, a top rod arranged on the top plate and a pointer arranged on the top rod, wherein the top rod is sleeved outside the rotating rod and extends to the top of the sampling tube.

The utility model is further provided with: the feeding identification component further comprises a scale table arranged on the outer wall of the sampling tube, and the pointer points to the scale table.

Through adopting above-mentioned technical scheme, when the sampling tube is rotated downwards just and is started to advance rice, there is certain gap between roof and the baffle, along with the continuous entering of rice, the rice extrusion roof upwards moves in the sampling tube, and the ejector pin drives the pointer along with this and moves on the scale, conveniently knows the sample volume of the inside rice of sampling tube in real time, avoids disposable sample not enough to need repeated sampling, and it is more convenient to use.

The utility model is further provided with: the ejector rod is a hollow cylindrical rod piece, and the inner wall of the ejector rod is of a smooth design.

By adopting the technical scheme, the ejector rod can move outside the rotating rod more smoothly.

The utility model is further provided with: the feeding plate is provided with a rotating groove matched with the rotating rod, and a roller attached to the rotating rod is arranged in the rotating groove.

Through adopting above-mentioned technical scheme, make dwang drive baffle pivoted more smooth and easy, reduce the loss because of friction produces when dwang rotates simultaneously.

The utility model has the beneficial effects that

1. This a sampling device for rice storage, through setting up rectangle strip hole two and rectangle strip hole one, during the sample, rectangle strip hole two on the baffle and rectangle strip hole one on the charge-in board are the coincidence form from top to bottom, and after enough rice was got to inside the sampling tube, rotatory dwang made the baffle rotate thereupon, rotated to rectangle strip hole two and rectangle strip hole one after dislocation completely, can be totally closed the feed end of sampling tube, avoid the rice outflow after the sample, need resampling.

2. This a sampling device for rice storage, through setting up the roof, when the sampling tube rotates downwards just to begin to advance rice, there is certain gap between roof and the baffle, along with the continuous entering of rice, the rice extrusion roof upwards moves in the sampling tube, the ejector pin drives the pointer and moves on the scale along with this, conveniently learn the sample volume of the inside rice of sampling tube in real time, avoid disposable sample not enough to need repeated sampling, it is more convenient to use.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the feed identification component of the present utility model;

fig. 3 is a schematic cross-sectional view of the present utility model.

In the figure, 1, an outer cylinder; 2. a sampling tube; 3. a cone; 4. a helical blade; 5. a feed plate; 6. a conical groove; 7. rectangular strip holes I; 8. a rotating lever; 9. a baffle; 10. rectangular strip holes II; 11. rotating the connecting rod; 12. a rotating wheel; 13. supporting the upright rod; 14. a top plate; 15. a push rod; 16. a pointer; 17. a scale.

Detailed Description

The technical scheme of the present utility model will be clearly and completely described in connection with specific embodiments. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to fall within the scope of the utility model.

Referring to fig. 1-3, the utility model provides a sampling device for rice storage, comprising an outer barrel 1, a sampling tube 2 rotatably installed in the outer barrel 1, and a rotating assembly installed at the top of the sampling tube 2, wherein a feeding plate 5 is arranged in the sampling tube 2, a conical groove 6 is formed in the feeding plate 5, a rectangular strip hole 7 communicated with the inner top wall of the conical groove 6 is formed in the feeding plate 5, a limiting component for rotating and connecting with the feeding plate 5 is further arranged in the sampling tube 2, and a feeding identification component connected with the feeding plate 5 is further arranged in the sampling tube 2.

When the rice is taken, the outer barrel 1 is inserted into the rice, the sampling barrel 2 is driven to rotate downwards in the outer barrel 1 through the rotating component, the rice enters from the bottom of the sampling barrel 2 and then is sampled through the rectangular strip hole I7 on the feeding plate 5, the sampling barrel 2 is continuously driven to rotate downwards, the rice continuously enters the inside of the sampling barrel 2, the feeding identification component can play a role in identifying the rice sampled in the sampling barrel 2, the repeated operation is not needed for the amount of primary sampling, the limiting component rotates after the preset rice is taken by the feeding identification component, the rectangular strip hole I7 is blocked, the sampling barrel 2 is taken out after the sampling is avoided, the sampled rice is prevented from flowing out, and the resampling is needed.

The feeding end edge of the sampling tube 2 is designed into an inclined plane, so that the sampling tube 2 can be conveniently fed when rotating downwards.

The outside of the sampling tube 2 is also provided with a conical body 3 positioned below the outer cylinder 1, the outside of the conical body 3 is provided with a helical blade 4, and when the sampling tube 2 rotates downwards for sampling, the conical body 3 and the helical blade 4 rotate together with the sampling tube, so that the sampling tube 2 can better drill into rice, and the sampling of the rice is realized.

The limiting component comprises a rotating rod 8 which is rotationally connected to the feeding plate 5 and extends to the top of the sampling tube 2, a baffle plate 9 which is installed outside the rotating rod 8 and is attached to the top of the feeding plate 5, and a rectangular strip hole II 10 which is formed in the baffle plate 9, wherein the rectangular strip hole I7 and the rectangular strip hole II 10 are identical in specification and are distributed in an annular equidistant mode, when sampling is carried out, the rectangular strip hole II 10 on the baffle plate 9 and the rectangular strip hole I7 on the feeding plate 5 are in an up-down overlapped mode, after enough rice is taken in the sampling tube 2, the rotating rod 8 rotates the baffle plate 9 along with the rotating rod, the feeding end of the sampling tube 2 can be completely closed after the rectangular strip hole II 10 and the rectangular strip hole I7 are completely misplaced, and the rice after sampling is prevented from flowing out, and re-sampling is needed.

The rotating assembly comprises a rotating connecting rod 11 connected with the top of the sampling tube 2 and a rotating wheel 12 arranged on the top of the rotating connecting rod 11, and the rotating wheel 12 drives the sampling tube 2 to rotate downwards through the rotating connecting rod 11 for sampling.

The feeding identification component comprises a supporting vertical rod 13 arranged on the feeding plate 5, a top plate 14 movably connected with the inner wall of the sampling tube 2 and attached to the top of the supporting vertical rod 13, a top rod 15 arranged on the top plate 14 and a pointer 16 arranged on the top rod 15, wherein the top rod 15 is sleeved outside the rotating rod 8 and extends to the top of the sampling tube 2, the feeding identification component further comprises a scale 17 arranged on the outer wall of the sampling tube 2, the pointer 16 points to the scale 17, when the sampling tube 2 rotates downwards and just starts to enter rice, a certain gap exists between the top plate 14 and the baffle 9, along with the continuous entering of rice, the rice extrudes the top plate 14 to move upwards in the sampling tube 2, the top rod 15 drives the pointer 16 to move on the scale 17, the sampling amount of rice inside the sampling tube 2 is conveniently known in real time, repeated sampling is avoided, and the use is more convenient.

The ejector rod 15 is a hollow cylindrical rod piece, and the inner wall of the ejector rod 15 is of a smooth design, so that the ejector rod 15 can move outside the rotating rod 8 more smoothly.

The feed plate 5 is provided with a rotating groove matched with the rotating rod 8, and a roller attached to the rotating rod 8 is arranged in the rotating groove, so that the rotating rod 8 drives the baffle 9 to rotate more smoothly, and meanwhile, the loss caused by friction during rotation of the rotating rod 8 is reduced.

Claims (10)

1. The utility model provides a be used for rice storage sampling device, is in including urceolus (1), rotation installation sample section of thick bamboo (2) of urceolus (1) inside and install the rotating assembly at sample section of thick bamboo (2) top, a serial communication port, the inside of sample section of thick bamboo (2) is equipped with feed plate (5), set up taper groove (6) on feed plate (5), set up on feed plate (5) with rectangle strip hole one (7) of roof intercommunication in taper groove (6), the inside of sample section of thick bamboo (2) still is equipped with the restriction part that is used for rotating with feed plate (5) to be connected, the inside of sample section of thick bamboo (2) still is equipped with the feeding identification part of being connected with feed plate (5).

2. A storage and sampling device for rice as in claim 1, wherein: the edge of the feeding end of the sampling tube (2) is designed into an inclined plane.

3. A storage and sampling device for rice as claimed in claim 2, wherein: the outside of the sampling tube (2) is also provided with a conical body (3) positioned below the outer tube (1), and the outside of the conical body (3) is provided with a helical blade (4).

4. A storage and sampling device for rice as claimed in claim 3, wherein: the limiting component comprises a rotating rod (8) which is rotatably connected to the feeding plate (5) and extends to the top of the sampling tube (2), a baffle plate (9) which is arranged outside the rotating rod (8) and attached to the top of the feeding plate (5), and a rectangular strip hole II (10) which is formed in the baffle plate (9).

5. The rice storage sampling device of claim 4, wherein: the first rectangular strip hole (7) and the second rectangular strip hole (10) are identical in specification and are distributed in annular equidistance.

6. A storage and sampling device for rice as in claim 5, wherein: the rotating assembly comprises a rotating connecting rod (11) connected with the top of the sampling tube (2) and a rotating wheel (12) arranged on the top of the rotating connecting rod (11).

7. The rice storage sampling device of claim 6, wherein: the feeding identification component comprises a supporting vertical rod (13) arranged on the feeding plate (5), a top plate (14) movably connected with the inner wall of the sampling tube (2) and attached to the top of the supporting vertical rod (13), a top rod (15) arranged on the top plate (14) and a pointer (16) arranged on the top rod (15), wherein the top rod (15) is sleeved outside the rotating rod (8) and extends to the top of the sampling tube (2).

8. A storage and sampling device for rice as in claim 7, wherein: the feeding identification part also comprises a scale (17) arranged on the outer wall of the sampling tube (2), and the pointer (16) points to the scale (17).

9. A storage and sampling device for rice as in claim 8, wherein: the ejector rod (15) is a hollow cylindrical rod piece, and the inner wall of the ejector rod (15) is of a smooth design.

10. A storage and sampling device for rice as in claim 9, wherein: the feeding plate (5) is provided with a rotating groove matched with the rotating rod (8), and a roller attached to the rotating rod (8) is arranged in the rotating groove.