CN214894380U - Food detects uses reducing mechanism - Google Patents

Abstract

The utility model discloses a reducing mechanism for food detection, including driving the axis of rotation through the motor and rotating, cooperation pin key finally drives the crushing shaft and rotates, will wait to detect food and place through first filter plate, cooperation crushing shaft smashes, in the crushing process, half food drops to sample through the second filter plate in the sample vessel, half food drops to the inside of second crushing piece through second filter plate and third filter plate and smashes once more, smash once more and smash once more through fourth filter plate and fifth filter plate, simultaneously take a sample through the sample vessel to the food of secondary crushing, the food that finally smashes finishes drops to sample in the sample vessel through the sixth filter plate, can carry out the classification to food under the different crushing degree and carry out the sample detection, it is not comprehensive to improve the testing result, so that know under what kind of degree food is chewed, the nutrient components are absorbed most quickly and are not easy to lose.

Description

Food detects uses reducing mechanism

Technical Field

The utility model relates to a food detection technology field specifically is a reducing mechanism is used in food detection.

Background

Food detection, wherein the content is divided into two parts, the first part is a detection item and comprises food sensory detection, milk and dairy product quality detection, beverage product quality detection, wine product quality detection, vegetable oil quality detection and meat and egg product quality detection; the second part is knowledge and links, and it includes must have knowledge and extends knowledge, and the technical knowledge homoenergetic that each detected item related finds corresponding theoretical linking in relevant must have knowledge and extension knowledge, the utility model discloses a reducing mechanism is used in food detection to graininess food design.

Present reducing mechanism for food detection is not convenient for carry out the classified crushing and carry out the sample detection to food under the different crushing degree, problem that the testing result is incomplete.

To solve the above problems. Therefore, a crushing device for food detection is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a reducing mechanism is used in food detection to having solved among the prior art food detection and having used reducing mechanism and be not convenient for carry out the hierarchical crushing and carry out the sample detection to food under the different crushing degree, the incomplete problem of testing result.

In order to achieve the above object, the utility model provides a following technical scheme: a crushing device for food detection comprises a rotating mechanism and a crushing mechanism, wherein the crushing mechanism is arranged on the periphery of the rotating mechanism, the rotating mechanism comprises a motor, a sealing cover, a rotating shaft and a pin key, the motor is arranged in the sealing cover, the rotating shaft is arranged at one end of the motor, and the pin key is arranged on the periphery of the rotating shaft;

the crushing mechanism comprises a containing cylinder and a crushing assembly, and the crushing assembly is arranged inside the containing cylinder.

Preferably, the containing cylinder comprises a containing cavity, an embedded groove, a placing groove and a sampling vessel, the containing cavity is formed in the containing cylinder, the embedded groove is formed in the inner wall of the containing cylinder, and the placing groove is matched with the sampling vessel.

Preferably, one side of the sampling vessel is provided with an arc groove, and the arc groove is attached to the rotating shaft.

Preferably, crushing unit includes first crushing piece, second crushing piece, third crushing piece and embedding pole, first crushing piece, second crushing piece and third crushing piece are connected through the embedding pole, and embedding pole looks phase-match with the embedded groove, second crushing piece is located the below of first crushing piece, and third crushing piece is located the below of second crushing piece.

Preferably, first crushing piece, second crushing piece, third crushing piece all include crushing axle, and crushing axle includes keyway, dog and crushing blade, the keyway has been seted up to crushing axle's inside, and dog and crushing blade setting are in the periphery of crushing axle, and the dog is located the top of crushing blade.

Preferably, the crushing shaft and the rotating shaft form a spline connection, and the stop block is of an umbrella-shaped structure.

Preferably, the first crushing piece further comprises a first filter plate and a second filter plate, the first filter plate is located above the second filter plate, and the aperture of the filter hole of the first filter plate is larger than that of the filter hole of the second filter plate.

Preferably, the second crushing piece further comprises a third filter plate and a fourth filter plate, the third filter plate is located above the fourth filter plate, the aperture of the filter hole of the third filter plate is consistent with the aperture of the filter hole of the second filter plate, and the aperture of the filter hole of the fourth filter plate is smaller than the aperture of the filter hole of the third filter plate.

Preferably, the third crushing member further comprises a fifth filter plate and a sixth filter plate, the fifth filter plate is located above the sixth filter plate, the aperture of the filter eye of the fifth filter plate is consistent with the aperture of the filter eye of the fourth filter plate, the aperture of the filter eye of the sixth filter plate is smaller than the aperture of the filter eye of the fifth filter plate, and the filter eye is arranged on one side of the sixth filter plate.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model provides a reducing mechanism for food detection, drive the axis of rotation through the motor and rotate, cooperation pin key finally drives crushing shaft and rotates, will wait to detect food and place through first filter plate, cooperation crushing shaft smashes, in the crushing process, half food drops to sample through the second filter plate in the sample vessel, half food drops to the inside of second crushing piece through second filter plate and third filter plate and smashes once more, smash once more and smash once more through fourth filter plate and fifth filter plate, simultaneously take a sample through the sample vessel to the food of regrinding, the food that finally smashes finishes drops to sample in the sample vessel through the sixth filter plate, can carry out the classification to food under the different crushing degree and carry out the sample test, it is not comprehensive to improve the testing result, so that know food chew to under to which degree, the nutrient components are absorbed most quickly and are not easy to lose.

2. The utility model provides a pair of reducing mechanism is used in food detection, set up in the periphery of axis of rotation through the round pin key, the keyway has been seted up to the inside of crushing roller, constitute splined connection between crushing roller and the axis of rotation, when being convenient for the installation of pivot, through splined connection, guarantee crushing roller pivoted stability, the arc groove has been seted up through one side of sample ware, and arc groove and pivot axle laminating mutually, when being convenient for carry out the sample to food under the different crushing degree, avoid the sample ware to produce the influence to the rotation of pivot.

3. The utility model provides a reducing mechanism is used in food detection has seted up through the inside of holding a section of thick bamboo and has held the chamber, and holds the inner wall of a section of thick bamboo and seted up the embedded groove, and the embedded bar that passes through of first crushing piece, second crushing piece and third crushing piece is connected, and embedded bar looks and embedded groove phase-match, constitutes splined connection between cooperation crushing roller and the axis of rotation, is convenient for dismantle the clearance to crushing unit, and guarantee crushing unit is inside clean and tidy, avoids producing the influence to next food detection.

4. The utility model provides a food detects uses reducing mechanism, through dog and crushing blade setting in the periphery of crushing roller, and the dog is located the top of crushing blade, and the dog is an umbelliform structure, when each time drops crushing, through the dog of umbelliform structure, can make food drop to crushing regional while, adjust well again and carry on spacingly smashing food, avoid food to appear the phenomenon that splashes when smashing.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of a three-dimensional structure of the rotating mechanism of the present invention;

FIG. 3 is a schematic view of the three-dimensional structure of the crushing mechanism of the present invention;

FIG. 4 is a schematic view of a three-dimensional structure of the container of the present invention;

FIG. 5 is a schematic perspective view of the crushing assembly of the present invention;

fig. 6 is a schematic view of an enlarged three-dimensional structure at a position a of the present invention;

fig. 7 is a schematic view of the sectional structure of the crushing assembly of the present invention.

In the figure: 1. a rotating mechanism; 11. a motor; 12. sealing the cover; 13. a rotating shaft; 14. a pin key; 2. a crushing mechanism; 21. a container; 211. a cavity; 212. a groove is embedded; 213. a placement groove; 214. a sampling vessel; 2141. an arc groove; 22. a size reduction assembly; 221. a first pulverizing member; 2211. crushing the shaft; 22111. a keyway; 22112. a stopper; 22113. a crushing blade; 2212. a first filter plate; 2213. a second filter plate; 222. A second crushing member; 2221. a third filter plate; 2222. a fourth filter plate; 223. a third pulverization element; 2231. A fifth filter plate; 2232. a sixth filter plate; 224. the rod is embedded.

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.

Referring to fig. 1-7, a crushing apparatus for food detection includes a rotating mechanism 1 and a crushing mechanism 2, the crushing mechanism 2 is disposed at the periphery of the rotating mechanism 1, the rotating mechanism 1 includes a motor 11, a cover 12, a rotating shaft 13 and a pin key 14, the motor 11 is disposed inside the cover 12, one end of the motor 11 is provided with the rotating shaft 13, the pin key 14 is disposed at the periphery of the rotating shaft 13, the crushing mechanism 2 includes a container 21 and a crushing assembly 22, the crushing assembly 22 is disposed inside the container 21, the first crushing member 221, the second crushing member 222 and the third crushing member 223 include crushing shafts 2211, the crushing shafts 2211 include key slots 22111, stoppers 22112 and 22113, the inside of the crushing shafts 2211 is provided with key slots 22111, the stoppers 12 and 22113 are disposed at the periphery of the crushing shafts 2211, the stoppers 22112 are disposed above the crushing blades 22113, the first crushing member further includes a first filter plate 2212 and a second filter plate 2213, the first filter plate 2212 is positioned above the second filter plate 2213, the aperture of the filter hole of the first filter plate 2212 is larger than the aperture of the filter hole of the second filter plate 2213, the second crushing piece 222 further comprises a third filter plate 2221 and a fourth filter plate 2222, the third filter plate 2221 is positioned above the fourth filter plate 2222, the aperture of the filter hole of the third filter plate 2221 is consistent with the aperture of the filter hole of the second filter plate 2213, the aperture of the filter hole of the fourth filter plate 2222 is smaller than the aperture of the filter hole of the third filter plate 2221, the third crushing piece 223 further comprises a fifth filter plate 2231 and a sixth filter plate 2232, the fifth filter plate 2231 is positioned above the sixth filter plate 2232, the aperture of the filter hole of the fifth filter plate 2231 is consistent with the aperture of the filter hole of the fourth filter plate 2222, the aperture of the filter plate 2232 is smaller than the aperture of the fifth filter plate 2231, and a rotation shaft 22113 is driven by a motor 11 to rotate, and finally rotate the pin 2211, to wait to detect food and place through first filter plate 2212, cooperation crushing axle 2211 is smashed, at kibbling in-process, half food drops through second filter plate 2213 and takes a sample in sampling vessel 214, half food drops through second filter plate 2213 and third filter plate 2221 and smashes once more to the inside of second rubbing piece 222, smash once more and loop through fourth filter plate 2222 and fifth filter plate 2231 and smash once more, sample through sampling vessel 214 to the food of regrinding simultaneously, the food that finally smashes finished drops through sixth filter plate 2232 and takes a sample in sampling vessel 214, can carry out hierarchical crushing and carry out the sample detection to the food under the different crushing degree, it is not comprehensive to improve the testing result, so that know food under chewing to which kind of degree, nutrient composition absorbs the fastest, and be not convenient for losing.

Referring to fig. 2 and 7, a crushing apparatus for food detection, a container 21 includes a cavity 211, an insertion groove 212, a placement groove 213, and a sampling dish 214, the container 21 is provided with the cavity 211 therein, the inner wall of the container 21 is provided with the insertion groove 212, the placement groove 213 is matched with the sampling dish 214, one side of the sampling dish 214 is provided with an arc groove 2141, the arc groove 2141 is attached to a rotating shaft 13, a spline connection is formed between a crushing shaft 2211 and the rotating shaft 13, a stopper 22112 is in an umbrella-shaped structure, is disposed at the periphery of the rotating shaft 13 through a pin key 14, the crushing shaft 2211 is provided with a key groove 22111 therein, the crushing shaft 2211 and the rotating shaft 13 form a spline connection, the rotational shaft 13 is conveniently mounted, the rotational stability of the crushing shaft 2211 is ensured through the spline connection, one side of the sampling dish 214 is provided with the arc groove 2141 and the rotating shaft 13 is attached, so that food with different crushing degrees can be sampled, avoid sample vessel 214 to produce the influence to the rotation of rotating shaft 13, set up in the periphery of smashing axle 2211 through dog 22112 and crushing blade 22113, and dog 22112 is located crushing blade 22113's top, dog 22112 is an umbrella structure, when each time drops crushing, through the dog 22112 of umbrella structure, can make food drop to crushing regional while, it is spacing to smashing food well again, avoid food to appear the phenomenon of splashing when smashing.

Referring to fig. 7, a crushing device for food detection, wherein a crushing assembly 22 includes a first crushing member 221, a second crushing member 222, a third crushing member 223 and an embedding rod 224, the first crushing member 221, the second crushing member 222 and the third crushing member 223 are connected through the embedding rod 224, the embedding rod 224 is matched with the embedding groove 212, the second crushing member 222 is located below the first crushing member 221, and the third crushing member 223 is located below the second crushing member 222, and the crushing shaft 2211 and the rotating shaft 13 form a spline connection in cooperation to facilitate detachment and cleaning of the crushing assembly 22, ensure that the inside of the crushing assembly 22 is clean and tidy, and avoid influence on next food detection.

In summary, the following steps: the utility model provides a reducing mechanism for food detection, including slewing mechanism 1 and reducing mechanism 2, reducing mechanism 2 sets up in slewing mechanism 1's periphery, drive axis of rotation 13 through motor 11 and rotate, cooperation cotter 14 finally drives crushing shaft 2211 and rotates, will wait to detect food and place through first filter plate 2212, cooperation crushing shaft 2211 smashes, in kibbling process, half food drops to sample in sampling vessel 214 through second filter plate 2213, half food drops to the inside of second crushing piece 222 through second filter plate 2213 and third filter plate 2221 and smashes once more, smash once more and loop through fourth filter plate 2222 and fifth filter plate 2231 and smash once more again, the food that finishes through sampling vessel 214 samples the regrinding simultaneously, the food that finally smashes drops to sampling vessel 214 through sixth filter plate 2232 and takes a sample, can carry out the hierarchical crushing and carry out the sample detection to food under the different crushing degree, it is not comprehensive to improve the testing result, so that know food chew to under which kind of degree, nutrient composition absorbs the fastest, and be not convenient for lose, set up the periphery at axis of rotation 13 through pin 14, keyway 22111 has been seted up to crushing shaft 2211's inside, constitute splined connection between crushing shaft 2211 and the axis of rotation 13, when being convenient for axis of rotation 13 installation, through splined connection, guarantee crushing shaft 2211 pivoted stability, one side through sample utensil 214 has seted up arc groove 2141, and arc groove 2141 is laminated with axis of rotation 13, when being convenient for sample food under the different crushing degree, avoid sample utensil 214 to produce the influence to the rotation of axis of rotation 13, hold the chamber 211 has been seted up through the inside of holding a section of thick bamboo 21, and the inner wall of holding a section of thick bamboo 21 has seted up embedded groove 212, first crushing piece 221, a little, Second reducing member 222 and third reducing member 223 are connected through embedded rod 224, and embedded rod 224 looks phase is with embedded groove 212 phase-match, constitute spline connection between cooperation crushing axle 2211 and the axis of rotation 13, be convenient for dismantle the clearance to reducing assembly 22, ensure that the inside is clean and tidy of reducing assembly 22, avoid producing the influence to next food detection, set up in the periphery of reducing axle 2211 through dog 22112 and crushing blade 22113, and dog 22112 is located the top of crushing blade 22113, dog 22112 is an umbrella structure, when dropping crushing at every turn, through the dog 22112 of umbrella structure, can make food drop to crushing regional the time, it is spacing to being smashed food again to well, avoid the phenomenon that food splashes to appear when smashing.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a reducing mechanism for food detection, includes slewing mechanism (1) and rubbing crusher constructs (2), rubbing crusher constructs (2) and sets up the periphery at slewing mechanism (1), its characterized in that: the rotating mechanism (1) comprises a motor (11), a sealing cover (12), a rotating shaft (13) and a pin key (14), wherein the motor (11) is arranged inside the sealing cover (12), the rotating shaft (13) is installed at one end of the motor (11), and the pin key (14) is arranged on the periphery of the rotating shaft (13);

the crushing mechanism (2) comprises a containing cylinder (21) and a crushing assembly (22), and the crushing assembly (22) is arranged inside the containing cylinder (21).

2. The crushing device for food detection according to claim 1, wherein: the container (21) comprises a container (211), an embedded groove (212), a placing groove (213) and a sampling vessel (214), the container (211) is arranged in the container (21), the embedded groove (212) is arranged on the inner wall of the container (21), and the placing groove (213) is matched with the sampling vessel (214).

3. The crushing device for food detection according to claim 2, wherein: an arc groove (2141) is formed in one side of the sampling vessel (214), and the arc groove (2141) is attached to the rotating shaft (13).

4. The crushing device for food detection according to claim 1, wherein: the crushing assembly (22) comprises a first crushing piece (221), a second crushing piece (222), a third crushing piece (223) and an embedding rod (224), wherein the first crushing piece (221), the second crushing piece (222) and the third crushing piece (223) are connected through the embedding rod (224), the embedding rod (224) is matched with the embedding groove (212), the second crushing piece (222) is located below the first crushing piece (221), and the third crushing piece (223) is located below the second crushing piece (222).

5. The crushing device for food detection according to claim 4, wherein: the first crushing piece (221), the second crushing piece (222) and the third crushing piece (223) respectively comprise a crushing shaft (2211), the crushing shaft (2211) comprises a key slot (22111), a stop block (22112) and a crushing blade (22113), the key slot (22111) is formed in the crushing shaft (2211), the stop block (22112) and the crushing blade (22113) are arranged on the periphery of the crushing shaft (2211), and the stop block (22112) is located above the crushing blade (22113).

6. The crushing device for food detection according to claim 5, wherein: the crushing shaft (2211) and the rotating shaft (13) form spline connection, and the stop block (22112) is of an umbrella-shaped structure.

7. The crushing device for food detection according to claim 4, wherein: the first smashing piece (221) further comprises a first filter plate (2212) and a second filter plate (2213), the first filter plate (2212) is located above the second filter plate (2213), and the aperture of the filter hole of the first filter plate (2212) is larger than that of the filter hole of the second filter plate (2213).

8. The crushing device for food detection according to claim 4, wherein: the second crushing piece (222) further comprises a third filter plate (2221) and a fourth filter plate (2222), the third filter plate (2221) is positioned above the fourth filter plate (2222), the filter hole diameter of the third filter plate (2221) is consistent with that of the second filter plate (2213), and the filter hole diameter of the fourth filter plate (2222) is smaller than that of the third filter plate (2221).

9. The crushing device for food detection according to claim 4, wherein: the third crushing member (223) further comprises a fifth filter plate (2231) and a sixth filter plate (2232), the fifth filter plate (2231) is positioned above the sixth filter plate (2232), the filter hole diameter of the fifth filter plate (2231) is consistent with that of the fourth filter plate (2222), the filter hole diameter of the sixth filter plate (2232) is smaller than that of the fifth filter plate (2231), and one side of the sixth filter plate (2232) is provided with filter holes.

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