CN118373021A - Intelligent cooked food processing and packaging equipment - Google Patents

Abstract

The invention relates to the technical field of food packaging, in particular to intelligent cooked food processing and packaging equipment, which comprises a mounting frame, a rectangular material tray and templates arranged on the rectangular material tray, wherein a plurality of rows of holes are uniformly formed in the templates at equal intervals, and the intelligent cooked food processing and packaging equipment further comprises: a plurality of pre-storing grooves are correspondingly arranged on one side of the holes, and the material stirring brush is moved to enable food to fill the holes and the pre-storing grooves; the communicating piece is arranged on the template, and the hole is communicated with the pre-storing groove through the communicating piece; the plugging plate is arranged in the template and used for plugging the communicating piece; when the material stirring brush moves reciprocally, the hole is filled, and meanwhile, the pre-storing groove at one side of the hole is filled with food, so that when the template moves up and then falls down and resets, the driving assembly is utilized to drive the plugging plate to open, so that food in the pre-storing groove flows out from the hole and into the groove of the packaging bag, and the feeding operation is finished again, and the feeding efficiency of the device main body is improved.

Description

Intelligent cooked food processing and packaging equipment

Technical Field

The invention relates to the technical field of food packaging, in particular to intelligent cooked food processing and packaging equipment.

Background

A stretch film vacuum packaging machine is one of the food processing packaging devices, and is generally used for packaging food or other articles in a preservative film, and the vacuum technology is used for pumping air on the packaging film, so that the preservation period of the food is prolonged, when the stretch film vacuum packaging machine is used for packaging peanut nut products, the single volume of the stretch film vacuum packaging machine is small, a template is generally used for covering packaging bags, holes on the template are aligned with grooves of the packaging bags, then peanut nuts are poked back and forth on the template by using a poking brush to fill the holes, and then the template is lifted by a lifting assembly, so that the food in the holes falls into the grooves completely, as shown in fig. 1;

However, in practical operation, in order to uniformly fill the food into the multiple rows of holes, the material needs to be pushed back and forth for many times, and when the packaging bag moves along with the conveyor belt, the material pushing brush needs to be moved for many times to complete the feeding operation, which makes the operation efficiency lower.

Disclosure of Invention

The application aims to solve the technical problems that: how to design a food processing and packaging device capable of improving feeding efficiency.

In order to solve the technical problems, the embodiment of the application provides intelligent cooked food processing and packaging equipment, which comprises a mounting frame, a rectangular material tray and templates arranged on the rectangular material tray, wherein a plurality of rows of holes are uniformly formed in the templates at equal intervals, and the intelligent cooked food processing and packaging equipment further comprises:

A plurality of pre-storing grooves are correspondingly arranged on one side of the holes, and the material stirring brush is moved to enable food to fill the holes and the pre-storing grooves;

The communicating piece is arranged on the template, and the hole is communicated with the pre-storing groove through the communicating piece;

The plugging plate is arranged in the template and used for plugging the communicating piece;

The driving assembly is arranged on the rectangular material tray, the rectangular material tray moves downwards to reset, the plugging plate is driven by the driving assembly to move and open so as to conduct the pre-storing groove and the holes, and meanwhile, the conveying belt is matched to move and switch the packaging bag grooves, so that food falls into the grooves through the holes.

In some embodiments, the communicating member comprises a through hole formed in the template, a first inclined surface is arranged at the bottom end of the pre-storing groove, and the plugging plate slides through the template and shields the through hole.

In some embodiments, the driving assembly comprises a round rod fixedly connected with the plugging plate, a sliding rod is slidably connected in the template, a connecting rod is arranged between the round rod and the sliding rod, two ends of the connecting rod respectively rotate relative to the sliding rod and the round rod, a driving piece is arranged on the template, the sliding rod is pushed to move by the driving piece in the downward moving process of the template to drive the plugging plate to move upwards to open the through hole, the rear template stops moving, and the driving piece is used for driving the plugging plate to move downwards to reseal the through hole.

In some embodiments, the driving member comprises an electric push rod arranged on the template, one end of the sliding rod penetrates through the template and is fixed with the extending end of the electric push rod, and the electric push rod is started to drive the sliding rod to move.

In some embodiments, the driving piece comprises a first spring arranged on the sliding rod, one end of the first spring contacts and abuts against the inner wall of the template to push the sliding rod to drive the plugging plate to move, and meanwhile, the first spring is stressed to shrink to provide self-recovery capability for the plugging plate;

The sliding rod is located the outer one end fixedly connected with hollow cylinder of template, sliding connection has the sliding cylinder in the hollow cylinder, be provided with the guide rail spare on the mounting bracket, the sliding cylinder is connected with the guide rail spare, moves down the rectangle charging tray drives the sliding cylinder and follows the guide rail spare and slide to utilize the guide rail spare to push up the sliding cylinder earlier and remove relative template, then drive the sliding cylinder and reset.

In some embodiments, the guide rail member includes a rectangular plate fixedly connected to the mounting frame, a first vertical chute is formed on the rectangular plate, one end of the sliding cylinder is located in the first vertical chute, and the template is moved upwards, so that the sliding cylinder moves along the first vertical chute;

The rectangular plate is provided with a first inclined chute which is communicated with the first vertical chute and has a depth higher than that of the first vertical chute, a second spring is arranged in the hollow cylinder, one end of the second spring is fixed with the sliding cylinder, when the sliding cylinder is positioned in the first vertical chute, the second spring is in a compressed state, the template is moved upwards to enable the sliding cylinder to be meshed with the first inclined chute, and meanwhile the second spring is utilized to reset, so that the sliding cylinder is inserted into the first inclined chute, then the template is moved downwards, and the sliding cylinder is moved by pushing the first inclined chute;

the rectangular plate is provided with a second inclined chute, the second inclined chute is communicated with the first inclined chute, the depth of the second inclined chute is designed to be the same as that of the first inclined chute, the second inclined chute is communicated with the first vertical chute, an inclined plane II is arranged in the second inclined chute, the template is moved downwards, the second inclined chute is utilized to guide the sliding cylinder to the first vertical chute, and meanwhile the second inclined plane is utilized to move the sliding cylinder in a pushing mode, so that the second spring is compressed.

In some embodiments, a second vertical chute is formed on the rectangular plate, two ends of the second vertical chute are respectively communicated with the first inclined chute and the second inclined chute, and the template is moved downwards to drive the sliding cylinder to move along the second vertical chute so as to keep the plugging plate in an open state.

In some embodiments, the driving piece comprises a first spring arranged on the sliding rod, one end of the first spring contacts and abuts against the inner wall of the template to push the sliding rod to drive the plugging plate to move, and meanwhile, the first spring is stressed to shrink to provide self-recovery capability for the plugging plate;

The injection device comprises a rectangular charging tray, a first injection barrel, a piston, a push rod, an air extraction assembly, a template and a sliding rod, wherein the first injection barrel is fixedly connected to the rectangular charging tray, the piston is connected to the first injection barrel in a sliding mode, the push rod is fixedly connected to one end of the piston, one end of the push rod is fixed to the sliding rod, the air extraction assembly is arranged on the mounting frame and moves downwards, and air in the first injection barrel is extracted by the air extraction assembly to drive the sliding rod to move.

In some embodiments, the air extraction assembly comprises a second injection barrel fixedly connected with the rectangular material tray, the second injection barrel is in conductive connection with the first injection barrel through a conduit, a piston is also connected in the second injection barrel in a sliding manner, a push rod is also fixedly connected to one side of the piston, a connecting piece is arranged between one end of the push rod and the mounting frame, the template is moved downwards, and the connecting piece is used for pulling the push rod to move so as to extract air in the first injection barrel;

An air inlet groove is formed in the second injection barrel, the template is moved downwards, the push rod is pulled to move by the aid of the connecting piece until the piston exceeds the air inlet groove, and then the first injection barrel is reset by the aid of the first spring to drive the plugging plate to reset;

the second injection barrel is connected with an air outlet pipe in a conducting way, and a one-way valve is arranged in the air outlet pipe and only enables air to flow out of the second injection barrel for exhausting.

In some embodiments, the connecting piece includes the Z shaped plate with mounting bracket fixed connection, just push rod two one end fixedly connected with magnet, Z shaped plate adopts the iron with magnet contact surface, moves upwards the template drives Z shaped plate and magnet contact, promotes afterwards the push rod removes.

The invention has at least the following beneficial effects:

when the material stirring brush moves reciprocally, the hole is filled, and meanwhile, the pre-storing groove at one side of the hole is filled with food, so that when the template moves up and then falls down and resets, the driving assembly is utilized to drive the plugging plate to open, so that food in the pre-storing groove flows out from the hole and into the groove of the packaging bag, and the feeding operation is finished again, and the feeding efficiency of the device main body is improved.

Drawings

FIG. 1 is a schematic diagram of a prior art stretch film vacuum packaging machine;

FIG. 2 is a schematic overall structure of embodiment 1 of the present invention;

FIG. 3 is a schematic view of the partial cross-section of FIG. 2 in accordance with the present invention;

FIG. 4 is a schematic view of the partial cross-section of FIG. 3 in accordance with the present invention;

FIG. 5 is a schematic structural diagram of embodiment 2 of the present invention;

FIG. 6 is a schematic view of the partial cross-section of FIG. 5 in accordance with the present invention;

FIG. 7 is a schematic view of the structure of the area A in FIG. 6 according to the present invention;

FIG. 8 is a schematic view of the structure of a rectangular plate of the present invention;

FIG. 9 is a schematic diagram of the structure of embodiment 3 of the present invention;

FIG. 10 is a schematic view of the structure of the area B in FIG. 9 according to the present invention;

FIG. 11 is a schematic view of the partial cross-section of FIG. 9 in accordance with the present invention;

FIG. 12 is a schematic view of the structure of the region C in FIG. 11 according to the present invention.

In the figure: 1-mounting rack; 11-a rectangular tray; 12-template; 13-holes; 2-a pre-storing tank; 3-communicating members; 4-plugging plates; a 5-drive assembly; 31-through holes; 32-slope one; 33-round bar; 34-a sliding bar; 35-connecting rod; 36-a driving member; 37-an electric push rod; 38-spring one; 39-hollow cylinder; 41-sliding cylinder; 42-a rail member; 43-rectangular plate; 44-vertical chute I; 45-an inclined chute I; 46-spring II; 47-a second inclined chute; 48-second inclined plane; 49-a second vertical chute; 51-injection barrel one; 52-a piston; 53-push rod; 54-an air extraction assembly; 55-a second injection barrel; 56-a connector; 57-an air inlet groove; 58-an air outlet pipe; 59-a one-way valve; a 61-Z-shaped plate; 62-magnet.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1: referring to fig. 2-4, the present invention provides a technical solution: the utility model provides an intelligent cooked food processing equipment for packing, includes mounting bracket 1, rectangle charging tray 11 and installs template 12 on rectangle charging tray 11, and the equispace has evenly been seted up multirow hole 13 on the template 12, still includes:

a plurality of pre-storing grooves 2 correspondingly arranged on one side of the holes 13, and a movable material stirring brush is used for filling the holes 13 and the pre-storing grooves 2 with food;

The communicating piece 3 is arranged on the template 12, and the hole 13 is communicated with the pre-storing groove 2 through the communicating piece 3;

a blocking plate 4 disposed in the mold plate 12 for blocking the communication member 3;

The driving assembly 5 is arranged on the rectangular material tray 11, the rectangular material tray 11 moves downwards to reset, the driving assembly 5 is used for driving the plugging plate 4 to move and open so as to enable the pre-storing groove 2 to be communicated with the hole 13, meanwhile, the conveying belt is matched to move and switch the packaging bag groove, then food falls into the groove through the hole 13, when the device is used specifically, when the material stirring brush moves back and forth, the hole 13 is filled, meanwhile, the pre-storing groove 2 positioned on one side of the hole 13 is filled with the food, when the template 12 moves upwards and then falls down to reset, the driving assembly 5 is used for driving the plugging plate 4 to open so that the food in the pre-storing groove 2 flows out from the hole 13 to the groove of the packaging bag, and then the feeding operation is completed again, and the feeding efficiency of the device main body is improved.

The communicating piece 3 comprises a through hole 31 formed in the template 12, an inclined plane 32 is arranged at the bottom end of the pre-storing groove 2 and used for guiding food, and the plugging plate 4 slides through the template 12 and shields the through hole 31.

The driving assembly 5 comprises a round rod 33 fixedly connected with the plugging plate 4, the round rod 33 is in sliding connection with the inner wall of the template 12, a sliding rod 34 is in sliding connection with the inner wall of the template 12, a connecting rod 35 is arranged between the round rod 33 and the sliding rod 34, one end of the connecting rod 35 is in rotational connection with the round rod 33, the other end of the connecting rod 35 is in rotational connection with the sliding rod 34 through a rotating shaft, the two ends of the connecting rod 35 are respectively rotated relative to the sliding rod 34 and the round rod 33, a driving piece 36 is arranged on the template 12, the sliding rod 34 is pushed to move by the driving piece 36 in the downward moving process of the template 12 to drive the plugging plate 4 to move upwards to open the through hole 31, the rear template 12 stops moving, and the plugging plate 4 is driven to move downwards by the driving piece 36 to reseal the through hole 31.

The driving piece 36 comprises an electric push rod 37 fixedly connected with the template 12, one end of the sliding rod 34 penetrates through the template 12 and is fixedly connected with the extending end of the electric push rod 37, and the electric push rod 37 is started to drive the sliding rod 34 to move, so that the connecting rod 35 is driven to move, and the plugging plate 4 is driven to be opened or closed.

Example 2: referring to fig. 2-8, the present invention provides a technical solution: an intelligent cooked food processing and packaging apparatus, example 2 is another embodiment of the driving member 36 of example 1;

The driving piece 36 comprises a first spring 38 fixedly connected with the sliding rod 34, one end of the first spring 38 is contacted and propped against the inner wall of the template 12, the sliding rod 34 is pushed to drive the plugging plate 4 to move, and meanwhile, the first spring 38 is stressed to shrink to provide self-resetting capability for the plugging plate;

The sliding rod 34 is fixedly connected with a hollow cylinder 39 at one end outside the template 12, the hollow cylinder 39 is connected with a sliding cylinder 41 in a sliding way, a guide rail piece 42 is arranged on the mounting frame 1, the sliding cylinder 41 is connected with the guide rail piece 42, the rectangular tray 11 is moved downwards to drive the sliding cylinder 41 to slide along the guide rail piece 42, the sliding cylinder 41 is pushed to move relative to the template 12 by the guide rail piece 42, and then the sliding cylinder 41 is driven to reset.

The guide rail member 42 comprises a rectangular plate 43 fixedly connected with the mounting frame 1, a first vertical chute 44 is formed in the rectangular plate 43, one end of the sliding cylinder 41 is positioned in the first vertical chute 44, and the template 12 is moved upwards so that the sliding cylinder 41 moves along the first vertical chute 44;

The rectangular plate 43 is provided with a first inclined chute 45 which is communicated with the first vertical chute 44 and has a depth higher than that of the first vertical chute 44, a second spring 46 is fixedly connected in the hollow cylinder 39, one end of the second spring 46 is fixedly connected with the sliding cylinder 41, when the sliding cylinder 41 is positioned in the first vertical chute 44, the second spring 46 is in a compressed state, the template 12 is moved upwards to enable the sliding cylinder 41 to be meshed with the first inclined chute 45, meanwhile, the second spring 46 is utilized to reset, so that the sliding cylinder 41 is inserted into the first inclined chute 45, the template 12 is moved downwards after the sliding cylinder 41 is pushed by the first inclined chute 45, and the sliding rod 34 is driven to move;

The rectangular plate 43 is provided with a second inclined chute 47, the second inclined chute 47 is communicated with the first inclined chute 45, the depth of the second inclined chute 47 is designed to be the same as that of the first inclined chute 45, the second inclined chute 47 is communicated with the first vertical chute 44, an inclined plane 48 is arranged in the second inclined chute 47, the template 12 is moved downwards, the sliding cylinder 41 is guided into the first vertical chute 44 by the second inclined chute 47, the sliding cylinder 41 is pushed to move by the inclined plane 48, and the second spring 46 is compressed.

A second vertical chute 49 is formed in the rectangular plate 43, two ends of the second vertical chute 49 are respectively communicated with the first inclined chute 45 and the second inclined chute 47, and the template 12 is moved downwards to drive the sliding cylinder 41 to move along the second vertical chute 49 so as to keep the plugging plate 4 in an open state;

In specific operation, when the hole 13 and the pre-storing groove 2 are filled with food by the stirring brush, the lifting assembly is utilized to drive the rectangular tray 11 to move upwards, the sliding cylinder 41 slides along the first vertical chute 44 at this time, so that the sealing plate 4 is kept in a closed state all the time in the process of moving upwards the template 12, when the template 12 moves upwards in place, the second spring 46 resets to drive the sliding cylinder 41 to be embedded into the first inclined chute 45, so that when the template 12 moves downwards to reset, the sliding cylinder 41 is driven to slide along the first inclined chute 45, the sliding rod 34 is driven to move by the first inclined chute 45, so that the sealing plate 4 is driven to move to open, the template 12 is continuously moved downwards, the sliding cylinder 41 is driven to move along the second vertical chute 49 for a certain distance, so that the sealing plate 4 keeps in an open state for a certain time, then the template 12 is continuously moved downwards, the sliding cylinder 41 is driven to move along the first inclined chute, and the sealing plate is driven to move downwards to close the through hole 31.

Example 3: referring to fig. 2-12, the present invention provides a technical solution: an intelligent cooked food processing and packaging apparatus, example 3 is also another embodiment of the driving member 36 of example 1;

The driving piece 36 comprises a first spring 38 arranged on the sliding rod 34, one end of the first spring 38 is contacted and propped against the inner wall of the template 12, the sliding rod 34 is pushed to drive the plugging plate 4 to move, and meanwhile, the first spring 38 is stressed to shrink to provide self-restoring capability for the plugging plate;

The rectangular tray 11 is fixedly connected with an injection barrel I51, a piston 52 is slidably connected in the injection barrel I51, one end of the piston 52 is fixedly connected with a push rod 53, one end of the push rod 53 is fixedly connected with the sliding rod 34, the mounting frame 1 is provided with an air extraction assembly 54, the template 12 is moved down, air in the injection barrel I51 is extracted by the air extraction assembly 54, and accordingly the piston 52 is driven to move, and the push rod 53 is driven to move, and accordingly the sliding rod 34 is driven to move.

The air extraction assembly 54 comprises a second injection barrel 55 fixedly connected with the rectangular material tray 11, the second injection barrel 55 is in conductive connection with the first injection barrel 51 through a guide pipe, a piston 52 is also connected to the inner wall of the second injection barrel 55 in a sliding manner, a push rod 53 is also fixedly connected to one side of the piston 52, a connecting piece 56 is arranged between one end of the push rod 53 and the mounting frame 1, the template 12 is moved downwards, and the push rod 53 is pulled to move by the connecting piece 56 so as to extract air in the first injection barrel 51;

An air inlet groove 57 is formed in the injection barrel II 55, the template 12 is moved downwards, the push rod 53 is pulled to move by the connecting piece 56 until the piston 52 exceeds the air inlet groove 57, and then the piston 52 is reset by the spring I38 to drive the sliding rod 34 to move, so that the plugging plate 4 is driven to reset;

the second injection barrel 55 is connected with an air outlet pipe 58 in a conducting way, a one-way valve 59 is arranged in the air outlet pipe 58, and the one-way valve 59 only enables air to flow out of the second injection barrel 55 for exhausting.

The connecting piece 56 comprises a Z-shaped plate 61 fixedly connected with the mounting frame 1, two ends of the push rod 53 are fixedly connected with magnets 62, the contact surface of the Z-shaped plate 61 and the magnets 62 is made of iron, the template 12 is moved upwards, the Z-shaped plate 61 is driven to contact with the magnets 62, and then the push rod 53 is pushed to move;

In a specific operation, when the stirring brush fills the hole 13 and the pre-storing groove 2 with food, the lifting component is used for driving the rectangular material disc 11 to move upwards, the magnet 62 is driven to move and adsorb the Z-shaped plate 61, then the template 12 is continuously moved upwards, the Z-shaped plate 61 is used for pushing the push rod 53 of the injection barrel II 55 to move, thereby pushing the piston 52 connected with the push rod to move, further the gas in the injection barrel II 55 is discharged from the gas outlet pipe 58, then the template 12 moves downwards to restore the process, the magnet 62 adsorbs the Z-shaped plate 61, thereby driving the piston 52 to move relative to the injection barrel II 55, further the gas in the injection barrel I51 is extracted, thereby driving the sliding rod 34 to move, further driving the blocking plate 4 to move upwards to open, continuing to move the template 12 downwards, and the piston 52 exceeds the air inlet groove 57 to conduct and release the injection barrel II 55, thereby restoring the blocking plate 4 is driven to move downwards to be blocked by the spring I38.

It is noted that relational terms such as first and second, and the like are 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. Moreover, 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 understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an intelligent cooked food processing equipment for packing, includes mounting bracket (1), rectangle charging tray (11) and installs template (12) on rectangle charging tray (11), equidistant multirow hole (13) have evenly been seted up on template (12), its characterized in that: the method also comprises the following steps:

a plurality of pre-storing grooves (2) correspondingly arranged at one side of the holes (13), and a movable material stirring brush is used for filling the holes (13) and the pre-storing grooves (2) with food;

The communicating piece (3) is arranged on the template (12), and the hole (13) is communicated with the pre-storing groove (2) through the communicating piece (3);

The plugging plate (4) is arranged in the template (12) and is used for plugging the communicating piece (3);

The driving assembly (5) is arranged on the rectangular material tray (11), the rectangular material tray (11) moves downwards to reset, the blocking plate (4) is driven by the driving assembly (5) to move and open so as to enable the pre-storage groove (2) to be communicated with the hole (13), and meanwhile, the packaging bag groove is matched with the conveyor belt to move and switch, so that food falls into the groove through the hole (13).

2. The intelligent cooked food processing and packaging apparatus as set forth in claim 1, wherein: the communicating piece (3) comprises a through hole (31) formed in the template (12), an inclined plane I (32) is arranged at the bottom end of the pre-storing groove (2), and the plugging plate (4) penetrates through the template (12) in a sliding mode and shields the through hole (31).

3. The intelligent cooked food processing and packaging apparatus as set forth in claim 2, wherein: the driving assembly (5) comprises a round rod (33) fixedly connected with the plugging plate (4), a sliding rod (34) is connected in the template (12) in a sliding mode, a connecting rod (35) is arranged between the round rod (33) and the sliding rod (34), two ends of the connecting rod (35) rotate relative to the sliding rod (34) and the round rod (33) respectively, a driving piece (36) is arranged on the template (12), the sliding rod (34) is pushed to move by the driving piece (36) in the downward moving process of the template (12) to drive the plugging plate (4) to move upwards to open the through hole (31), the rear template (12) stops moving, and the driving piece (36) is used for driving the plugging plate (4) to move downwards to reseal the through hole (31).

4. An intelligent cooked food processing and packaging apparatus as set forth in claim 3, wherein: the driving piece (36) comprises an electric push rod (37) arranged on the template (12), one end of the sliding rod (34) penetrates through the template (12) and is fixed with the extending end of the electric push rod (37), and the electric push rod (37) is started to drive the sliding rod (34) to move.

5. An intelligent cooked food processing and packaging apparatus as set forth in claim 3, wherein: the driving piece (36) comprises a first spring (38) arranged on the sliding rod (34), one end of the first spring (38) is contacted and propped against the inner wall of the template (12), the sliding rod (34) is pushed, the plugging plate (4) is driven to move, and meanwhile, the first spring (38) is stressed and contracted to provide self-resetting capability for the plugging plate;

The utility model discloses a sliding column, including template (12) and slide bar (34), slide bar (34) are located template (12) outer one end fixedly connected with hollow cylinder (39), sliding connection has slide cylinder (41) in hollow cylinder (39), be provided with guide rail piece (42) on mounting bracket (1), slide cylinder (41) are connected with guide rail piece (42), move down rectangle charging tray (11), drive slide cylinder (41) and slide along guide rail piece (42) to utilize guide rail piece (42) to push up earlier and move slide cylinder (41) relative template (12) and remove, drive slide cylinder (41) and reset afterwards.

6. The intelligent cooked food processing and packaging apparatus as set forth in claim 5, wherein: the guide rail piece (42) comprises a rectangular plate (43) fixedly connected with the mounting frame (1), a first vertical chute (44) is formed in the rectangular plate (43), one end of the sliding cylinder (41) is positioned in the first vertical chute (44), and the template (12) is moved upwards so that the sliding cylinder (41) moves along the first vertical chute (44);

The rectangular plate (43) is provided with a first inclined chute (45) which is communicated with the first vertical chute (44) and has a depth higher than that of the first vertical chute (44), the hollow cylinder (39) is internally provided with a second spring (46), one end of the second spring (46) is fixed with the sliding cylinder (41), when the sliding cylinder (41) is positioned in the first vertical chute (44), the second spring (46) is in a compressed state, the template (12) is moved upwards so as to enable the sliding cylinder (41) to be meshed with the first inclined chute (45), and meanwhile, the second spring (46) is used for resetting so that the sliding cylinder (41) is inserted into the first inclined chute (45), and then the template (12) is moved downwards, and the sliding cylinder (41) is pushed to move by the first inclined chute (45);

The rectangular plate (43) is provided with a second inclined chute (47), the second inclined chute (47) is communicated with the first inclined chute (45), the depth of the second inclined chute (47) is the same as that of the first inclined chute (45), the second inclined chute (47) is communicated with the first vertical chute (44), an inclined plane second (48) is arranged in the second inclined chute (47), the template (12) is moved downwards, the second inclined chute (47) is used for guiding the sliding cylinder (41) into the first vertical chute (44), the second inclined plane (48) is used for pushing the sliding cylinder (41) to move, and the second spring (46) is compressed.

7. The intelligent cooked food processing and packaging apparatus as set forth in claim 6, wherein: a second vertical chute (49) is formed in the rectangular plate (43), two ends of the second vertical chute (49) are respectively communicated with the first inclined chute (45) and the second inclined chute (47), the template (12) is moved downwards, and the sliding cylinder (41) is driven to move along the second vertical chute (49), so that the plugging plate (4) is kept in an open state.

8. An intelligent cooked food processing and packaging apparatus as set forth in claim 3, wherein: the driving piece (36) comprises a first spring (38) arranged on the sliding rod (34), one end of the first spring (38) is contacted and propped against the inner wall of the template (12), the sliding rod (34) is pushed, the plugging plate (4) is driven to move, and meanwhile, the first spring (38) is stressed and contracted to provide self-resetting capability for the plugging plate;

The injection device is characterized in that an injection barrel I (51) is fixedly connected to the rectangular material tray (11), a piston (52) is connected to the injection barrel I (51) in a sliding mode, a push rod (53) is fixedly connected to one end of the piston (52), one end of the push rod (53) is fixed to the sliding rod (34), an air extraction component (54) is arranged on the mounting frame (1), the template (12) moves downwards, air in the injection barrel I (51) is extracted through the air extraction component (54), and the sliding rod (34) is driven to move.

9. The intelligent cooked food processing and packaging apparatus as set forth in claim 8, wherein: the air extraction assembly (54) comprises a second injection barrel (55) fixedly connected with the rectangular material tray (11), the second injection barrel (55) is connected with the first injection barrel (51) in a conducting way through a guide pipe, a piston (52) is connected in the second injection barrel (55) in a sliding way, a push rod (53) is fixedly connected to one side of the piston (52) in the same way, a connecting piece (56) is arranged between one end of the push rod (53) and the mounting frame (1), the template (12) is moved downwards, and the push rod (53) is pulled to move by the connecting piece (56) to extract air in the first injection barrel (51);

An air inlet groove (57) is formed in the injection barrel II (55), the template (12) is moved downwards, the push rod (53) is pulled to move by the aid of the connecting piece (56) until the piston (52) exceeds the air inlet groove (57), and then the piston is reset by the aid of the spring I (38) to drive the plugging plate (4) to reset;

The second injection barrel (55) is connected with an air outlet pipe (58) in a conducting mode, a one-way valve (59) is arranged in the air outlet pipe (58), and the one-way valve (59) only enables air to flow out of the second injection barrel (55) and is used for exhausting air.

10. The intelligent cooked food processing and packaging apparatus as set forth in claim 9, wherein: the connecting piece (56) comprises a Z-shaped plate (61) fixedly connected with the mounting frame (1), two ends of the push rod (53) are fixedly connected with magnets (62), the contact surface of the Z-shaped plate (61) and the magnets (62) is made of iron, the template (12) is moved upwards, the Z-shaped plate (61) is driven to contact with the magnets (62), and then the push rod (53) is pushed to move.