CN116786461B - Puffed food detects packing plant - Google Patents

Abstract

The invention relates to the technical field of food packaging, and in particular discloses a puffed food detection packaging device, which comprises: the device comprises a machine body, wherein a detection station, an extrusion assembly and a collection assembly are arranged on the machine body, the extrusion assembly comprises a driving source, a moving plate, an extrusion plate and an adjusting gear, the moving plate and the extrusion plate are longitudinally assembled in a sliding mode, the extrusion plate and the machine frame are longitudinally assembled in a sliding mode, the moving plate is connected with a first extrusion block through a first extrusion spring, the extrusion plate is connected with a second extrusion block through a second extrusion spring, opposite end surfaces of the second extrusion block and the moving plate are toothed, the adjusting gear is meshed with the moving plate and the second extrusion block at the same time, and the collection assembly is used for being matched with the extrusion assembly to collect packaging articles with unqualified air tightness.

Description

Puffed food detects packing plant

Technical Field

The invention relates to the technical field of food packaging, in particular to a puffed food detection packaging device.

Background

During food processing, because the characteristic of some food, use the inflatable packaging on the packing generally, guarantee that its inside food does not receive the extrusion and damage, in the production process, because equipment problem, individual commodity can have the problem that the packing gas tightness is poor, and then lead to the food transportation in-process to receive extrusion deformation or breakage, influence selling, and then cause the loss of manufacturer and the waste of transportation resource, consequently need carry out the gas tightness inspection to the product of packing in the in-process of food processing.

The patent document with the application number of CN202011314878.4 discloses a puffed food detection packaging device, which comprises a base connecting component and an extrusion component, wherein fixed columns are fixedly arranged on the left side and the right side of the top end of the base, an air pump is fixedly arranged on the inner wall of the fixed column on the right side, the extrusion component is driven to move downwards by moving downwards through a moving plate, a to-be-detected object can provide a reaction force for the extrusion component in the downward moving process, a plurality of telescopic rods shrink, air is blocked by the connecting rods, if air leakage exists in the packaging, the plurality of telescopic rods cannot be subjected to extrusion force, the connecting rods and an air blocking plug cannot play a blocking role on the air, the air in the moving plate enters the fixed column, and pushes a sealing head and a moving block to move rightwards, the constant-pressure rod shrinks, and then the pushing block pushes out an air leakage object from the base, so that the detection requirement on the packaging tightness of the puffed food is realized;

the above-mentioned patent document provides a detection packing device, when detecting article packing leakproofness, detects through the mode of extrusion, but in extrusion testing process, extrusion subassembly if press the gas leakage department of packing, can cause gaseous can not follow the gas leakage department and discharge, leads to the testing result to have the deviation.

Disclosure of Invention

The invention provides a puffed food detection packaging device, and aims to solve the problem that when the air tightness of packaging is detected in a packaging bag of an extruded product in the related art, the air tightness detection result is deviated due to the fact that an extruded component is in contact with the air leakage part of the packaging to easily plug the air leakage part.

The invention relates to a puffed food detection packaging device, which comprises a machine body, wherein a detection station for placing packaged articles is arranged on the machine body, and the puffed food detection packaging device is characterized in that an extrusion assembly is arranged on the machine body, and comprises:

the driving source is arranged on the machine body;

the movable plate is connected with the extending end of the driving source, the driving source drives the movable plate to longitudinally move, a first extrusion block is arranged at the lower end of the movable plate, and the first extrusion block is connected with the movable plate through a first extrusion spring;

the extrusion plate is longitudinally assembled with the movable plate in a sliding way through an elastic guide piece, and is connected with a second extrusion block which is connected with the extrusion plate through a second extrusion spring;

the second extrusion block and the opposite end face of the moving plate are in a toothed structure, and the adjusting gear is arranged between the second extrusion block and the moving plate and is meshed with the second extrusion block and the moving plate at the same time;

and the detection station is also provided with a collection assembly for collecting unqualified air-tight packaged articles in cooperation with the extrusion assembly.

Preferably, the collection assembly comprises:

the blanking plate is horizontally arranged on the machine body, a blanking port is arranged on the blanking plate, and the blanking port corresponds to the extrusion assembly in the longitudinal direction;

the two material blocking blocks are assembled on the blanking plate in a relative sliding manner along the horizontal direction, the two material blocking blocks are connected with the blanking plate through springs, the opposite end faces of the two material blocking blocks are used as inner sides, inclined faces which incline from outside to inside from top to bottom are formed on the opposite end faces of the two material blocking blocks, and the two material blocking blocks are pushed to move oppositely to release blocking of the blanking port when the extrusion assembly continuously presses down to be in contact with the inclined face ends of the material blocking blocks.

Preferably, the block corresponds to the second extrusion block in the longitudinal direction;

the collecting assembly further comprises two material blocking plates and sliding structures, wherein the two material blocking plates are respectively assembled with the two material blocking blocks in a sliding mode along the horizontal direction, at least one group of sliding structures are arranged on any material blocking plate, mounting grooves are formed in the material blocking blocks, and the sliding structures are arranged in the mounting grooves;

the sliding structure comprises a push plate, a reed and a connecting rod, wherein the push plate is inclined from outside to inside from top to bottom, the upper end of the push plate is hinged to the material blocking block, the two ends of the length of the connecting rod are respectively hinged to the push plate and the material blocking plate, the reed is arranged between the push plate and the side wall of the mounting groove, and the push plate corresponds to the first extrusion block in the longitudinal direction.

Preferably, a plurality of grooves are formed in the upper end faces of the two material blocking plates.

Preferably, any one of the material blocking plates is provided with two sets of sliding structures, the first extrusion block is provided with a pressing part, and the pressing part corresponds to each push plate in the longitudinal direction.

Preferably, a first guide groove is longitudinally formed in the moving plate, and the position of the first guide groove corresponds to the position of the pressing portion, so that the first guide groove avoids the pressing portion when the first extrusion block slides relative to the moving plate.

Preferably, a second guide groove is longitudinally formed in the extrusion plate, and the second extrusion block is longitudinally assembled with the second guide groove in a sliding mode.

Preferably, two second extrusion blocks are arranged symmetrically with respect to the first extrusion block on two sides of the width of the first extrusion block.

Preferably, the elastic guide piece comprises a guide shaft and a spring sleeved on the guide shaft, the upper end of the guide shaft is fixed with the moving plate, the lower end of the guide shaft is longitudinally assembled with the extrusion plate in a sliding manner, and the spring is arranged between the moving plate and the extrusion plate.

Preferably, the machine body is further provided with a limiting plate, the limiting plate is provided with a connecting groove, the limiting plate is longitudinally assembled in a sliding mode through the connecting groove, and the upper end of the limiting plate is provided with a limiting part, so that the limiting part is abutted to the limiting plate, and the limiting plate stops moving downwards.

The beneficial effects of the invention are as follows:

(1) The accuracy to packing article gas tightness result detection has been improved, detect the extrusion subassembly interval in the packing plant and carry out automatic extrusion through first extrusion piece and second extrusion piece to the different positions of packing article, compare in prior art single to packing article same position and carry out extruded mode contrast, can effectively avoid the problem that the gas tightness testing result is inaccurate because of extrusion position and packing article gas leakage position coincidence leads to in the testing process, improved packing article gas tightness testing result's reliability.

(2) The whole work efficiency of detection packing plant has been improved, and collection subassembly cooperation extrusion subassembly is collected the unqualified packing article of gas tightness, has improved the automation that unqualified packing article was collected, avoids the artificial intervention in the testing process, has improved whole detection work's work efficiency.

Drawings

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

Fig. 2 is a schematic perspective view of the installation of the pressing assembly and the collecting assembly with respect to the machine body in the present invention.

Fig. 3 is a schematic perspective view of the extrusion assembly of the present invention.

Fig. 4 is a schematic view showing the internal structure of the pressing assembly of the present invention.

Fig. 5 is a schematic perspective view showing the assembly of the moving plate and the first pressing block.

Fig. 6 is a schematic perspective view of a collection assembly according to the present invention.

Fig. 7 is an enlarged view of a portion a in fig. 6.

Fig. 8 is a schematic perspective view of the packaged article of the present invention positioned relative to a collection assembly.

Reference numerals:

1. a body; 11. a limiting plate; 2. a driving source; 21. a moving plate; 211. a first extrusion block; 212. a first pressing spring; 213. a pressing part; 214. a first guide groove; 22. an extrusion plate; 221. a second extrusion block; 222. a second pressing spring; 23. an adjusting gear; 24. a guide shaft; 3. a blanking plate; 31. a blocking block; 311. a mounting groove; 32. a material blocking plate; 321. a push plate; 322. a reed; 323. a connecting rod; 33. a blanking port; 4. and (5) packaging the articles.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings. The embodiments described below by referring to the drawings are illustrative and intended to explain the present invention and should not be construed as limiting the invention.

As shown in fig. 1 to 8, the puffed food detection packaging device of the present invention comprises a machine body 1, wherein a detection station for placing a packaged article 4 is provided on the machine body 1, an extrusion assembly and a collection assembly are provided on the machine body 1, the extrusion assembly is used for extruding the packaged article 4 on the detection station to detect whether the packaged article 4 leaks air, and the collection assembly is used for collecting the leaked packaged article 4.

As shown in fig. 2-4, the extrusion assembly includes a driving source 2, a moving plate 21, an extrusion plate 22 and an adjusting gear 23, wherein the driving source 2 is an air cylinder, the driving source 2 is installed at the top of the machine body 1, the extending end of the driving source 2 is connected with the moving plate 21, the driving source 2 is used for driving the moving plate 21 to move in the longitudinal direction, the lower end of the moving plate 21 is provided with a first extrusion block 211, the lower end of the moving plate 21 is provided with a groove body along the height direction, the first extrusion block 211 is installed in the groove body at the lower end of the moving plate 21 through a first extrusion spring 212, so as to extrude the first extrusion spring 212 when the first extrusion block 211 is extruded and partially take in the groove body at the lower end of the moving plate 21, for further adapting the shape of the packaged article 4, the first extrusion block 211 can be in a plate-shaped structure, the length direction of the first extrusion block 211 is consistent with the length direction of the moving plate 21, the bottom end of the first extrusion block 211 forms an inverted V-shaped opening, the two ends of the first extrusion block 211 are also provided with inverted U-shaped pressing parts 213, the first extrusion block 211 is longitudinally provided with two first guide grooves 214, and the two first guide grooves 214 are opposite to the first guide grooves 213 when the first extrusion block 211 is pressed against the first guide grooves 213.

The extrusion plate 22 is movably covered outside the movable plate 21, the upper end of the extrusion plate 22 is connected with the movable plate 21 through two elastic guide pieces, the two elastic guide pieces are symmetrically arranged on two sides of the width of the movable plate 21 relative to the movable plate 21, each elastic guide piece comprises a guide shaft 24 and springs sleeved on the guide shafts 24, wherein the upper end of the movable plate 21 extends along the width direction of the movable plate, two plate-shaped connecting parts are arranged at the upper end of the guide shafts 24, the upper end of the guide shafts 24 are fixed with the connecting parts, the lower end of the guide shafts 24 are longitudinally and slidably connected with the extrusion plate 22, the springs are arranged between the connecting parts and the extrusion plate 22, when the driving source 2 pushes the movable plate 21 to move downwards, the guide shafts 24 are driven to downwards extrude the springs between the movable plate 21 and the extrusion plate 22, the extruding plate 22 is driven to move downwards, the machine body 1 is also provided with a limiting plate 11, the limiting plate 11 is provided with a connecting groove, the extruding plate 22 is longitudinally and slidably connected with the limiting plate 11 through the connecting groove, the upper end of the extruding plate 22 is provided with a plate-shaped limiting part, a certain distance exists between the limiting part on the extruding plate 22 and the limiting plate 11 in the longitudinal direction in an initial state, the extruding plate 22 is driven to move downwards in the process that the driving source 2 pushes the moving plate 21, when the limiting part on the extruding plate 22 is abutted with the limiting plate 11, the extruding plate 22 stops moving downwards, the driving source 2 continues to be compressed, namely, after the extruding plate 22 stops moving downwards, the moving plate 21 continues to move downwards for a certain distance under the action of the driving source 2;

the extrusion plate 22 forms a cavity at the lower end thereof, second extrusion blocks 221 are arranged in the cavity of the extrusion plate 22, two second extrusion blocks 221 are symmetrically arranged on two sides of the width of the moving plate 21 relative to the moving plate 21, the second extrusion blocks 221 can be L-shaped, vertical parts of the second extrusion blocks 221 are longitudinally and slidably assembled with the extrusion plate 22, opposite sides of the two second extrusion blocks 221 are taken as inner sides, the bottoms of the two second extrusion blocks 221 are matched with the shape of a packaged article 4 to incline from outside to inside, the second extrusion blocks 221 are connected with the extrusion plate 22 through second extrusion springs 222, second guide grooves are longitudinally arranged on the side walls of the cavity of the extrusion plate 22, and the second extrusion blocks 221 are slidably arranged in the second guide grooves.

The adjusting gear 23 is disposed in the cavity of the extrusion plate 22, and the adjusting gear 23 can rotate around the axial direction of the cavity, wherein the adjusting gear 23 is provided with two adjusting gears, the two adjusting gears 23 are respectively disposed on two sides of the width of the moving plate 21, the opposite ends of the second extrusion block 221 are in a tooth shape, the opposite ends of the moving plate 21 and the two second extrusion blocks 221 are in a tooth shape, and the adjusting gear 23 is respectively meshed with the second extrusion block 221 and the tooth-shaped surface of the moving plate 21.

In the air tightness detection of the packaged article 4, the operating state of the pressing assembly is as follows:

in the initial state, gaps exist between the first extrusion block 211 and the second extrusion block 221 and the packaged article 4 at the detection station, the first extrusion block 211 is positioned above the second extrusion block 221, the driving source 2 drives the movable plate 21 to move downwards, the movable plate 21 extrudes the elastic guide piece and pushes the extrusion plate 22 to move downwards when moving downwards, the extrusion plate 22 drives the two second extrusion blocks 221 to move downwards to be in contact with and extrude the packaged article 4 at the detection station when moving downwards, after the limiting part at the upper end of the extrusion plate 22 is in contact with the limiting plate 11 on the machine body 1, the extrusion plate 22 does not move downwards any more, at the moment, the driving source 2 pauses the stretching action, the second extrusion block 221 extrudes the packaged article 4 with a proper force and keeps for a period of time, meanwhile, in the period of time that the second extrusion block 221 stays, the pressure sensor detects whether the acting force exerted by the second extrusion block 221 changes, if a few small air holes exist on the packaging bag, if the pressure exerted by the second extrusion block 221 does not change in the set time after the packaging bag is extruded, the air tightness of the first packaged article 4 is good, if the air tightness detected by the second extrusion block 221 is not changed, and if the air tightness detected for the second extrusion block 4 is not qualified for the first time is detected;

if the air tightness detection of the packaged article 4 is qualified through the second extrusion block 221 for the first time, the driving source 2 is continuously started to work, the driving source 2 continuously moves downwards to push the movable plate 21 to move downwards, when the movable plate 21 moves downwards, the two second extrusion blocks 221 are driven to move upwards under the action of the adjusting gear 23, the extrusion action of the second extrusion block 221 on the packaged article 4 is relieved, the movable plate 21 moves downwards until the first extrusion block 211 contacts with the packaged article 4 and extrudes, and when the first extrusion block 211 extrudes the packaged article 4, the driving source 2 pauses the downwards movement, the first extrusion block 211 keeps being attached to the packaged article 4 for a certain time, whether the second air tightness detection of the packaged article 4 is qualified can be judged by detecting the stress change condition of the first extrusion block 211 in the time period through the pressure sensor.

As shown in fig. 6-8, the collecting assembly is used for collecting the articles which do not meet the air tightness packaging requirement in the twice detection process of the extrusion assembly, wherein the collecting assembly comprises a blanking plate 3 and a material blocking block 31, the blanking plate 3 is horizontally arranged on the machine body 1, a blanking opening 33 is arranged on the blanking plate 3, a collecting box for collecting the unqualified products can be further placed below the blanking opening 33, the blanking opening 33 is located under the detection station, the material blocking block 31 is provided with two material blocking plates 32, the two material blocking plates 32 are connected with the blanking plate 3 through springs, the opposite end surfaces of the two material blocking blocks 31 are taken as the inner sides, the opposite end surfaces of the two material blocking blocks 31 are inclined surfaces which incline from outside to inside, if the second extrusion block 221 detects the air tightness of the packaged articles 4 for the first time, namely that the air tightness detection of the packaged articles 4 is unqualified, the packaged articles 4 lose the supporting effect of the second extrusion block 221, the two second extrusion blocks 221 are abutted against the inclined surfaces of the two material blocking blocks 31 under the pressure effect of the second extrusion springs 222, the two material blocking blocks 31 are further pushed to be far away from the sliding relatively, the two material blocking blocks 31 are pushed by the inclined surfaces of the two material blocking blocks 31, and the two material blocking blocks are synchronously pushed by the two extrusion blocks 4 under the action of the pressure of the second extrusion blocks 211, and the two extrusion blocks are simultaneously pushed by the two material blocking blocks 211 and the two material blocking blocks are simultaneously pressed by the two material blocking blocks 31 under the two end 211 and the two material blocking ends, and the two material blocking ends are further pushed by the supporting the two material blocks under the air by the pressure of the air blocking block blocks, and the air bag 211.

In other embodiments, the collecting assembly further includes two material blocking plates 32 and a sliding structure, the two material blocking plates 32 are respectively assembled with the two material blocking blocks 31 in a sliding manner along a horizontal direction, at least one group of sliding structures are arranged on any material blocking plate 32, the sliding structures are used for matching with the downward movement of the pressing part 213 in the second air tightness detection, in this embodiment, two groups of sliding structures are arranged on any material blocking plate 32, the sliding structures correspond to the bottom of the pressing part 213, the material blocking block 31 is provided with a mounting groove 311, the sliding structures are mounted in the mounting groove 311, wherein the sliding structures include a push plate 321, a reed 322 and a connecting rod 323, the push plate 321 is inclined from outside to inside, the upper end of the push plate 321 is hinged with the material blocking block 31, the two ends of the length of the connecting rod 323 are respectively hinged with the push plate 321 and the material blocking plate 32, the reed 322 is arranged between the push plate 321 and the side wall of the mounting groove 311, the push plate 321 corresponds to the push plate 213 in the longitudinal direction, after the second air tightness detection of the packaged article 4 is failed, the packaged article 4 leaks air and loses the support to the first extrusion block 211 due to the failed air tightness, the first extrusion block 211 moves downwards under the action of the elastic force of the first extrusion spring 212, the first extrusion block 211 drives the push plate 213 to move downwards, the push plate 321 is abutted by the push plate 213 and presses the push plate 321, the push plate 321 rotates after being stressed and extrudes the reed 322, meanwhile, the connecting rod 323 is extruded to drive the two material blocking plates 32 to be relatively far away, the gap between the two material blocking plates 32 is enlarged in the process of being far away, if the volume of the packaged article 4 is smaller, the packaged article can be directly fallen between the two material blocking plates 32, and the two material blocking plates 32 can push the two material blocking plates 31 to be far away when being moved to be abutted by the material blocking plates 31, the gap between the two material blocking plates 32 is further increased, the packaged article 4 with different volume sizes can be conveniently fallen down, in order to avoid failure in air tightness detection caused by the lamination of the air leakage opening on the packaging article 4 and the material blocking plate 32 in the extrusion process due to the air leakage opening on the packaging article 4 and the material blocking plate 32, a plurality of grooves are formed in the upper end face of the material blocking plate 32.

In other embodiments, the two blocking blocks 31 of the collecting assembly may be further connected to the blanking plate 3 through a telescopic cylinder, the working state of the telescopic cylinder is controlled by the controller, and the controller is further configured to receive pressure changes of the two pressure sensors, so that when the pressure changes of the pressure sensors occur in the airtight detection process, the controller determines that the air tightness of the packaged article 4 is failed, and then controls the telescopic cylinder connected with the two blocking blocks 31 to work, so that the two blocking blocks 31 are driven to be far away from the blanking port 33, and the failed packaged article 4 is dropped and collected.

According to the puffed food detection packaging device provided by the invention, different positions of packaged articles are detected through the extrusion assembly, so that the reliability of an air tightness detection result is improved, meanwhile, unqualified packaged articles are automatically collected through the collection assembly, and the working efficiency of the detection packaging device is improved.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present invention, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

While embodiments of the present invention have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the invention, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the invention.

Claims (10)

1. The utility model provides a puffed food detects packing plant, includes organism (1), be equipped with the detection station that is used for packing article (4) to place on organism (1), its characterized in that, be equipped with extrusion subassembly on organism (1), extrusion subassembly includes:

a driving source (2), wherein the driving source (2) is arranged on the machine body (1);

the movable plate (21), the movable plate (21) is connected with the extending end of the driving source (2), the driving source (2) drives the movable plate (21) to longitudinally move, a first extrusion block (211) is arranged at the lower end of the movable plate (21), and the first extrusion block (211) is connected with the movable plate (21) through a first extrusion spring (212);

the extrusion plate (22), the extrusion plate (22) is longitudinally and slidably assembled with the movable plate (21) through an elastic guide piece, the extrusion plate (22) is connected with a second extrusion block (221), and the second extrusion block (221) is connected with the extrusion plate (22) through a second extrusion spring (222);

the second extrusion block (221) and the opposite end surface of the moving plate (21) are in a tooth-shaped structure, and the adjusting gear (23) is arranged between the second extrusion block (221) and the moving plate (21) and meshed with the second extrusion block (221) and the moving plate (21) at the same time;

and the detection station is also provided with a collection assembly for collecting the packaging articles (4) with unqualified air tightness in cooperation with the extrusion assembly.

2. The puffed food detection package of claim 1 wherein the collection assembly comprises:

the blanking plate (3), the blanking plate (3) is horizontally arranged on the machine body (1), a blanking port (33) is arranged on the blanking plate (3), and the blanking port (33) corresponds to the extrusion assembly in the longitudinal direction;

the two blocking blocks (31) are arranged, the two blocking blocks (31) are assembled on the blanking plate (3) in a sliding mode along the horizontal direction, the two blocking blocks (31) are connected with the blanking plate (3) through springs, the two opposite end faces of the blocking blocks (31) are used as inner sides, inclined faces which incline from outside to inside to outside are formed on the opposite end faces of the blocking blocks (31), and the two blocking blocks (31) are pushed to move backwards to release blocking of the blanking port (33) when the extrusion assembly continuously presses down to be in contact with the inclined face ends of the blocking blocks (31).

3. A puffed food detection packaging device according to claim 2, wherein the block (31) corresponds longitudinally to the second extrusion block (221);

the collecting assembly further comprises two material blocking plates (32) and sliding structures, wherein the two material blocking plates (32) are respectively and slidably assembled with the two material blocking blocks (31) along the horizontal direction, at least one group of sliding structures are arranged on any material blocking plate (32), mounting grooves (311) are formed in the material blocking blocks (31), and the sliding structures are arranged in the mounting grooves (311);

the sliding structure comprises a push plate (321), a reed (322) and a connecting rod (323), wherein the push plate (321) is inclined from outside to inside from top to bottom, the upper end of the push plate (321) is hinged to the material blocking block (31), the two ends of the length of the connecting rod (323) are respectively hinged to the push plate (321) and the material blocking plate (32), the reed (322) is arranged between the push plate (321) and the side wall of the mounting groove (311), and the push plate (321) corresponds to the first extrusion block (211) in the longitudinal direction.

4. A puffed food detection package according to claim 3, wherein the upper end surfaces of the two material blocking plates (32) are provided with a plurality of recesses.

5. A puffed food detection package according to claim 3, wherein two sets of sliding structures are provided on any one of the material blocking plates (32), and a pressing portion (213) is provided on the first pressing block (211), and the pressing portion (213) corresponds to each of the pushing plates (321) in the longitudinal direction.

6. The puffed food detection package device according to claim 5, wherein a first guiding groove (214) is longitudinally provided on the moving plate (21), and the position of the first guiding groove (214) corresponds to the position of the pressing portion (213), so that the pressing portion (213) is avoided by the first guiding groove (214) when the first pressing portion (211) slides relative to the moving plate (21).

7. The puffed food detection packaging device according to claim 1, wherein the extrusion plate (22) is longitudinally provided with a second guide groove, and the second extrusion block (221) is longitudinally slidably assembled with the second guide groove.

8. The puffed food detection package according to claim 7, wherein two of the second extrusion blocks (221) are symmetrically disposed about the first extrusion block (211) on both sides of the width of the first extrusion block (211).

9. The puffed food detection packaging device according to claim 1, wherein the elastic guide member comprises a guide shaft (24) and a spring sleeved on the guide shaft (24), the upper end of the guide shaft (24) is fixed with the movable plate (21), the lower end of the guide shaft (24) is longitudinally and slidably assembled with the extrusion plate (22), and the spring is arranged between the movable plate (21) and the extrusion plate (22).

10. The puffed food detects packing device according to claim 1, wherein limiting plates (11) are further arranged on the machine body (1), connecting grooves are formed in the limiting plates (11), the extrusion plates (22) are longitudinally assembled in a sliding mode through the connecting grooves and the limiting plates (11), limiting portions are arranged at the upper ends of the extrusion plates (22), and the extrusion plates (22) stop moving downwards when the limiting portions are abutted to the limiting plates (11).