CN211108213U - Die bin with guide structure and packaging equipment thereof - Google Patents

Abstract

The utility model provides a mould storehouse with guide structure and packaging equipment thereof, relating to the technical field of packaging equipment, wherein the mould storehouse comprises an external fixed plate, a mould storehouse body, a first stroke component and an external guide component, the external fixed plate is arranged above the mould storehouse body, the first stroke component is arranged between the external fixed plate and the mould storehouse body, the first stroke component is in driving connection with the mould storehouse body, and the first stroke component drives the mould storehouse body to move up and down; on outside direction subassembly one end was fixed in the outside fixed plate, the other end of outside direction subassembly extended along the vertical direction of mould storehouse body, and outside direction subassembly is installed in mould storehouse body side simultaneously, and with mould storehouse body sliding connection, and the axial up-and-down motion of mould storehouse body along outside direction subassembly. The packaging apparatus includes a mold magazine having a guide structure. The utility model discloses an outside direction subassembly realizes the guide effect to the membrane storehouse body, has overcome the location inaccurate, sealed not in place and tailor the defect that the tectorial membrane is not beautiful.

Description

Die bin with guide structure and packaging equipment thereof

Technical Field

The utility model belongs to the technical field of the equipment for packing technique and specifically relates to a mould storehouse and equipment for packing with guide structure is related to.

Background

The packaging comprises skin packaging, modified atmosphere packaging and sealing packaging, a skin modified atmosphere sealing integrated packaging device is developed in the prior art, the packaging device comprises an upper die bin and a lower die bin, the specific structure refers to the patent application number of CN201910108911.9, the name of the invention is 'a skin modified atmosphere sealing integrated packaging machine', and the skin modified atmosphere sealing integrated packaging machine introduces the specific structures of the upper die bin and the lower die bin and the mutual matching relationship of the structures in detail.

In order to realize packaging, a packaging machine in the prior art adopts a mode of closing an upper die bin and a lower die bin.

Therefore, how to overcome the technical problem that the technical personnel in the field need to solve is the inaccurate positioning caused by the deviation of the film combination of the upper die bin and the lower die bin during the packaging in the prior art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a mould storehouse with guide structure to go up mould storehouse and lower mould storehouse and close the membrane when packing among the solution prior art and the deviation appears, the inaccurate technical problem in location that leads to.

The second objective of the present invention is to provide a packaging device with the above mold compartment having a guiding structure.

In order to realize one of the above purposes, the utility model provides the following technical scheme:

the utility model provides a pair of mould storehouse with guide structure, including outside fixed plate, mould storehouse body, first stroke subassembly and outside direction subassembly, wherein:

the external fixing plate is arranged above the die cabin body, the first stroke assembly is arranged between the external fixing plate and the die cabin body, the first stroke assembly is in driving connection with the die cabin body, and the first stroke assembly drives the die cabin body to move up and down;

one end of the external guide assembly is fixed on the external fixing plate, the other end of the external guide assembly extends along the vertical direction of the die bin body, the external guide assembly is simultaneously installed on the side face of the die bin body and is in sliding connection with the die bin body, and the die bin body moves up and down along the axial direction of the external guide assembly.

Preferably, the mould storehouse body includes mould storehouse top and mould storehouse wall, mould storehouse wall surrounds around the side of mould storehouse top, and with mould storehouse top fixed connection.

Preferably, the mould warehouse further comprises a second stroke component, the first moving component is arranged in the mould warehouse body, the second stroke component is installed on the outer surface of the top of the mould warehouse, and the displacement output end of the second stroke component is connected with the first moving component.

Preferably, the first moving assembly comprises a supporting plate, a first connecting column and a tool rest, the supporting plate is horizontally arranged above the tool rest, the first connecting column is arranged between the supporting plate and the tool rest, and the first connecting column is fixedly connected with the supporting plate and the tool rest at the same time;

the displacement output end of the second stroke assembly is connected with the support plate.

Preferably, the mould warehouse comprises an inner first guide assembly, one end of the inner first guide assembly is fixed on the top of the mould warehouse, the other end of the inner first guide assembly movably penetrates through the supporting plate, and the supporting plate slides up and down along the axial direction of the inner first guide assembly.

Preferably, a second moving assembly is further arranged inside the die cabin body, and the second moving assembly is located below the supporting plate and on the cutter frame.

Preferably, the second moving assembly comprises a heating plate, a die head and a second connecting column, the die head is mounted below the heating plate and is fixedly connected with the heating plate, the heating plate heats the die head, one end of the second connecting column is fixed on the upper surface of the heating plate, and the other end of the second connecting column movably penetrates through the supporting plate;

and a first cross rod is arranged at the other end of the second connecting column and penetrates through the second connecting column along the radial direction of the second connecting column.

Preferably, the hot plate mould further comprises an inner second guide assembly, one end of the inner second guide assembly is fixedly installed on the hot plate, and the other end of the inner second guide assembly movably penetrates through the supporting plate and is fixedly connected with the top of the mould bin.

Preferably, a third moving assembly is further arranged inside the die cabin body, and the first moving assembly and the second moving assembly are wrapped inside the third moving assembly;

the third removes the subassembly and includes mould board, spring and third spliced pole, the one end of third spliced pole with the mould board links to each other, the other end movably of third spliced pole passes the backup pad, set up the second horizontal pole on the other end of third spliced pole, the second horizontal pole along radially running through of second spliced pole the second spliced pole, the spring surround in on the third spliced pole, the spring be located the mould board with between the backup pad, the third spliced pole encircles the part movably of spring passes the tool rest.

In order to achieve the second purpose, the utility model provides the following technical scheme:

the utility model provides a pair of equipment for packing, including the aforesaid mould storehouse with guide structure.

The utility model provides a mould storehouse with guide structure has following technological effect:

this kind of mould storehouse with guide structure, mainly by outside fixed plate, mould storehouse body, first stroke subassembly and outside direction subassembly constitute, compare with traditional mould storehouse, the utility model discloses a mould storehouse has increased outside direction subassembly, outside direction subassembly one end is fixed in on the outside fixed plate, the other end of outside direction subassembly extends along the vertical direction of mould storehouse body, outside direction subassembly is installed in mould storehouse body side simultaneously to with mould storehouse body sliding connection, the axial up-and-down motion of mould storehouse body along outside direction subassembly, thereby realize the guide effect to the mould storehouse body through outside direction subassembly, when preventing that the mould storehouse from closing the membrane downwards, the deviation appears, has overcome the inaccurate defect in location.

The utility model provides a packaging equipment has following technological effect:

this kind of equipment for packing has increased outside direction subassembly on traditional equipment for packing's basis, realizes the guide effect when mould storehouse closes the membrane through outside direction subassembly, has overcome the inaccurate defect in location of traditional equipment for packing.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic perspective view of a mold container with a guide structure according to an embodiment of the present invention;

FIG. 2 is an external front view of the mold cartridge of FIG. 1 with a guide structure;

FIG. 3 is an interior elevation view of the mold cartridge of FIG. 1 with a guide structure;

FIG. 4 is a side view of the mold cartridge of FIG. 1 with a guide structure;

FIG. 5 is a schematic view of a first moving assembly of the mold cartridge of FIG. 1 having a guide structure;

FIG. 6 is a schematic view of a second moving assembly of the mold cartridge of FIG. 1 having a guide structure;

fig. 7 is a schematic view of a third moving assembly of the mold cartridge of fig. 1 having a guide structure.

Wherein, fig. 1-7:

100. a mould cabin body; 101. the top of the mould bin; 102. a mold cavity wall; 103. a first moving assembly; 1031. a support plate; 1032. a first connecting column; 1033. a tool holder; 104. an inner first guide assembly; 105. a second moving assembly; 1051. heating plates; 1052. a die head; 1053. a second connecting column; 1054. a first cross bar; 106. an inner second guide assembly; 107. a third moving assembly; 1071. a mold plate; 1072. a spring; 1073. a third connecting column; 1074. a second cross bar;

200. an outer guide assembly; 201. a guide post; 202. a guide block;

300. a first stroke assembly; 400. an outer fixing plate; 500. a second stroke assembly.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "length", "width", "height", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "side", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in fig. 1, and are only for convenience of description and to simplify the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

Fig. 1 is a schematic perspective view illustrating a mold housing having a guide structure according to an embodiment of the present invention, fig. 2 is a front view illustrating an exterior of the mold housing having a guide structure in fig. 1, fig. 3 is a front view illustrating an interior of the mold housing having a guide structure in fig. 1, fig. 4 is a side view illustrating the mold housing having a guide structure in fig. 1, fig. 5 is a schematic structural view illustrating a first moving assembly of the mold housing having a guide structure in fig. 1, fig. 6 is a schematic structural view illustrating a second moving assembly of the mold housing having a guide structure in fig. 1, and fig. 7 is a schematic structural view illustrating a third moving assembly of the mold housing having a guide structure in fig. 1.

The utility model provides a mould storehouse with guide structure, the name is "a skin gas conditioning seals integrative packagine machine", the last mould storehouse that records in the invention patent with patent application number "CN 201910108911.9".

The cartridge body having the guide structure includes an outer fixing plate 400, a cartridge body 100, a first stroke assembly 300, and an outer guide assembly 200, as shown in fig. 1 to 7.

The die cabin body 100 is internally provided with a cutter and a die head 1052, and is used for cutting a to-be-packaged film after film combination.

And the external guide assembly 200 is used for realizing the guiding function of the up-and-down movement of the die cartridge body 100, so that the die cartridge body 100 moves up and down along a fixed direction.

And an outer fixing plate 400 for fixing the outer guide assembly 200.

The first stroke assembly 300 is used for providing power for the up-and-down movement of the die cartridge body 100.

The specific installation modes of the external fixing plate 400, the die cartridge body 100, the first stroke assembly 300 and the external guide assembly 200 are as follows: as shown in fig. 1, the external fixing plate 400 is installed above the mold container body 100, the external fixing plate 400 is in a horizontal plate shape, the first stroke assembly 300 is installed between the external fixing plate 400 and the mold container body 100, the first stroke assembly 300 is in driving connection with the mold container body 100, and the first stroke assembly 300 drives the mold container body 100 to move up and down to realize film combination with the lower mold container.

As shown in fig. 1, the external guide assemblies 200 are installed on two sides of the mold cartridge body 100, the external guide assemblies 200 are arranged along the vertical direction of the mold cartridge body 100, one end of each external guide assembly 200 is fixed on the external fixing plate 400, the other end of each external guide assembly 200 extends along the vertical direction of the mold cartridge body 100, the external guide assemblies 200 are slidably connected with the mold cartridge body 100, the mold cartridge body 100 moves up and down along the axial direction of the external guide assemblies 200, that is, the external guide assemblies 200 provide a guiding function for the mold cartridge body 100, so that the mold cartridge body 100 moves up and down along the inherent vertical direction, and deviation is prevented.

Specifically, outside direction subassembly 200 includes guide post 201 and guide block 202, the one end of guide post 201 is fixed in on the outside fixed plate 400, the other end of guide post 201 extends along the vertical direction of mould storehouse body 100, and extend to the below of mould storehouse top 101, guide block 202 is fixed in on the mould storehouse top 101 of mould storehouse body 100, guide post 201 passes guide block 202, guide block 202 reciprocates along guide post 201 under the drive of mould storehouse body 100, realize the guide effect to mould storehouse body 100 through guide post 201.

Specifically, first stroke subassembly 300 can adopt the cylinder, also can adopt linear electric motor, can also adopt electric putter etc. to realize the drive arrangement of extension effect, all be in the utility model discloses a within the protection scope.

And the number of the first stroke assemblies 300 is not less than one.

Compare with traditional mould storehouse, the utility model discloses a mould storehouse has increased outside direction subassembly 200, outside direction subassembly 200 one end is fixed in on the outside fixed plate 400, the other end of outside direction subassembly 200 extends along the vertical direction of mould storehouse body 100, outside direction subassembly 200 is installed in mould storehouse body 100 side simultaneously, and with mould storehouse body 100 sliding connection, mould storehouse body 100 is along outside direction subassembly 200's axial up-and-down motion, thereby realize the guide effect to mould storehouse body 100 through outside direction subassembly 200, effectively improve positioning accuracy, when preventing that the mould storehouse from closing the membrane downwards, the deviation appears, the inaccurate defect in location has been overcome.

In a further scheme, the mold cabin body 100 includes a mold cabin top 101 and a mold cabin wall 102, as shown in fig. 1, the mold cabin wall 102 surrounds the periphery of the side edge of the mold cabin top 101, and the mold cabin wall 102 is fixedly connected with the mold cabin top 101.

Specifically, as shown in fig. 1 to 4, the die cartridge body 100 further includes a second stroke assembly 500, the second stroke assembly 500 is located at two sides of the first stroke assembly 300, the first moving assembly 103 is disposed inside the die cartridge body 100, the first moving assembly 103 is used for fixing the tool holder 1033 and the supporting frame, the second stroke assembly 500 is mounted on the outer surface of the die cartridge top 101, and a displacement output end of the second stroke assembly 500 is connected to the first moving assembly 103, that is, the first moving assembly 103 is driven by the second stroke assembly 500 to move up and down.

Specifically, second stroke subassembly 500 can adopt the cylinder, also can adopt linear electric motor, can also adopt electric putter etc. to realize the drive arrangement of extension effect, all be in the utility model discloses a within the protection scope.

And the number of the second stroke assemblies 500 is not less than two.

The first moving assembly 103 specifically includes a supporting plate 1031, a first connecting column 1032 and a tool rack 1033, as shown in fig. 5, the supporting plate 1031 is horizontally mounted above the tool rack 1033, the first connecting column 1032 is mounted between the supporting plate 1031 and the tool rack 1033, the first connecting column 1032 is distributed at the edge of the supporting plate 1031 and the tool rack 1033, and the supporting plate 1031 and the tool rack 1033 form a receiving gap through the first connecting column 1032.

The first connecting column 1032 is fixedly connected with the supporting plate 1031 and the tool rack 1033, the displacement output end of the second stroke assembly 500 is connected with the supporting plate 1031, namely, the second stroke assembly 500 passes through the die chamber top 101, the displacement output end of the second stroke assembly is connected with the supporting plate 1031, and the second stroke assembly 500 drives the supporting plate 1031 to realize the up-and-down movement of the tool rack 1033.

The lower portion of tool holder 1033 mounts tools.

The tool holder 1033 may be shaped in various ways to fit in various shaped packages.

The simple upper and lower membrane that closes can not solve three problem well, to sealed accurate with tailor the accuracy and need inside first direction and inside second direction to realize more accurate location.

Specifically, as shown in fig. 3, the mold structure further includes an inner first guide assembly 104, one end of the inner first guide assembly 104 is fixed to the top 101 of the mold housing, the other end of the inner first guide assembly 104 movably penetrates through a support plate 1031, and the support plate 1031 slides up and down along the axial direction of the inner first guide assembly 104.

Realize the direction to tool holder 1033 through inside first direction subassembly 104, make the cutter of installing tool holder 1033 along inherent vertical direction up-and-down motion, prevent the deviation, tool holder 1033 goes down the location accuracy, reaches the purpose of accurate cutting tectorial membrane.

The utility model discloses a first direction subassembly 104 in inside can be linear bearing, and linear bearing installs on backup pad 1031, specifically realizes the direction function to tool holder 1033.

Specifically, as shown in fig. 3, a second moving assembly 105 is further disposed inside the cartridge body 100, and the second moving assembly 105 is located below the supporting plate 1031 and on the tool rack 1033.

The second movable assembly 105 specifically includes a heating plate 1051, a die head 1052 and a second connecting column 1053, as shown in fig. 6, the die head 1052 is installed below the heating plate 1051, the shape of the heating plate 1051 is consistent with that of the die head 1052, the die head 1052 is fixedly connected with the heating plate 1051, the heating plate 1051 heats the die head 1052, one end of the second connecting column 1053 is fixed on the upper surface of the heating plate 1051, the other end of the second connecting column 1053 can movably pass through the supporting plate 1031, the end of the other end of the second connecting column 1053 is provided with a first cross bar 1054, and the first cross bar 1054 radially penetrates through the second connecting column 1053 along the second connecting column 1053.

Die head 1052 and hot plate 1051 pass through second spliced pole 1053 and backup pad 1031 swing joint, and when backup pad 1031 moved up and down under the drive of second stroke subassembly 500, can drive die head 1052 and hot plate 1051 up-and-down motion together, the horizontal joint of first horizontal pole 1054 was in backup pad 1031's top, prevented that die head 1052 and hot plate 1051 from droing from backup pad 1031 when backup pad 1031's drive up-and-down motion.

The heating plate 1051 heats the die head 1052, and the die head 1052 is used to heat-mold the film to the package for sealing.

Specifically, as shown in fig. 3, in order to realize the guiding function for the die head 1052 and the heating plate 1051, the deviation during the thermoplastic sealing is prevented, the package structure further includes an inner second guiding component 106, one end of the inner second guiding component 106 is fixedly mounted on the heating plate 1051, the other end of the inner second guiding component 106 movably passes through the supporting plate 1031, and the tail end is fixedly connected with the die chamber top 101, so that the guiding function for the die head 1052 and the heating plate 1051 is realized, the purpose of precisely sealing the package structure by the thermoplastic form that the die head 1052 covers the film at the edge of the package box is achieved.

Specifically, as shown in fig. 3, a third moving assembly 107 is further disposed inside the mold warehouse body 100, the first moving assembly 103 is located at the lowest position of the mold warehouse body 100, and the third moving assembly 107 wraps the first moving assembly 103 and the second moving assembly 105 inside.

The third removes subassembly 107 specifically includes mould board 1071, spring 1072 and third spliced pole 1073, as shown in fig. 7, the one end of third spliced pole 1073 links to each other with mould board 1071, and the other end movably of third spliced pole 1073 passes backup pad 1031, and when backup pad 1031 moved up and down under the drive of second stroke subassembly 500, can drive mould board 1071 up-and-down motion through third spliced pole 1073.

Set up second horizontal pole 1074 on the other end of third spliced pole 1073, second horizontal pole 1074 is located the top of third spliced pole 1073 promptly, and second horizontal pole 1074 radially runs through second spliced pole 1053 along second spliced pole 1053, when preventing the up-and-down motion of mould board 1071, drops from backup pad 1031.

The spring 1072 surrounds the third connecting column 1073, the spring 1072 is located between the mold plate 1071 and the support plate 1031, and the third connecting column 1073 movably passes through the tool holder 1033 around a portion of the spring 1072.

The spring 1072 can push, buffer and further apply force to make the die plate tightly and tightly attached to the lower die chamber.

The knife, when not moving down, is at a height slightly higher than the height of the die plate 1071, which is first heat sealed and then cut off the coating.

The specific working process is as follows:

(1) the first stroke component 300 starts to work first to drive the die cabin body 100 to move downwards, and the die cabin body 100 moves along the external guide component 200, so that the descending positioning precision of the die cabin body 100 is effectively improved;

(2) after the first stroke assembly 300 arrives, the second stroke assembly 500 starts to work to drive the inner first moving assembly 103 (the tool holder 1033) to descend, the first moving assembly 103 (the tool holder 1033) descends along the inner first guide assembly 104, the inner third moving assembly 107 (the mold plate 1071) also descends along with the inner first moving assembly, and the third moving assembly 107 (the mold plate 1071) first touches the bottom under the action of the spring 1072;

(3) then the first moving assembly 103 (the tool rest 1033) continues to move downwards, the second moving assembly 105 (the die head 1052 and the heating plate 1051) also moves downwards along the inner second guiding assembly 106, so that the downward positioning of the die head 1052 is ensured to be accurate, and the die head 1052 heated by the heating plate 1051 touches the bottom first to perform film covering and sealing;

(4) and finally, the first moving assembly 103 (the tool rest 1033) continuously moves downwards along the inner first guide assembly 104, so that the tool rest 1033 is ensured to be positioned accurately downwards, and finally, the tool on the first moving assembly 103 (the tool rest 1033) touches the bottom to cut off the film around the packaging box, so that the sealing and film laminating process of the packaging box is completed.

The utility model also provides a equipment for packing, the mould storehouse that has guide structure including the above-mentioned record.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A die cartridge with guide structure, comprising an external fixing plate (400), a die cartridge body (100), a first stroke assembly (300) and an external guide assembly (200), wherein:

the external fixing plate (400) is arranged above the die cabin body (100), the first stroke assembly (300) is arranged between the external fixing plate (400) and the die cabin body (100), the first stroke assembly (300) is in driving connection with the die cabin body (100), and the first stroke assembly (300) drives the die cabin body (100) to move up and down;

one end of the external guide assembly (200) is fixed on the external fixing plate (400), the other end of the external guide assembly (200) extends along the vertical direction of the die cabin body (100), the external guide assembly (200) is simultaneously installed on the side face of the die cabin body (100) and is in sliding connection with the die cabin body (100), and the die cabin body (100) moves up and down along the axial direction of the external guide assembly (200).

2. The mold cartridge with the guiding structure according to claim 1, wherein the mold cartridge body (100) comprises a mold cartridge top (101) and a mold cartridge wall (102), and the mold cartridge wall (102) surrounds the side of the mold cartridge top (101) and is fixedly connected with the mold cartridge top (101).

3. The die cartridge with the guide structure according to claim 2, further comprising a second stroke assembly (500), wherein the first moving assembly (103) is arranged inside the die cartridge body (100), the second stroke assembly (500) is mounted on the outer surface of the die cartridge top (101), and the displacement output end of the second stroke assembly (500) is connected with the first moving assembly (103).

4. A die cartridge with guide structure according to claim 3, characterized in that the first moving assembly (103) comprises a supporting plate (1031), a first connecting post (1032) and a tool holder (1033), the supporting plate (1031) is mounted above the tool holder (1033) in a horizontal state, the first connecting post (1032) is mounted between the supporting plate (1031) and the tool holder (1033), the first connecting post (1032) is fixedly connected with both the supporting plate (1031) and the tool holder (1033);

the displacement output end of the second stroke assembly (500) is connected with the support plate (1031).

5. The mold cartridge with guide structure of claim 4, further comprising an inner first guide assembly (104), wherein one end of the inner first guide assembly (104) is fixed to the mold cartridge top (101), the other end of the inner first guide assembly (104) is movably passed through the support plate (1031), and the support plate (1031) slides up and down along the axial direction of the inner first guide assembly (104).

6. Mould cartridge with guide structure according to claim 4, characterized in that inside the mould cartridge body (100) there is also provided a second moving assembly (105), the second moving assembly (105) being located below the support plate (1031) on the tool holder (1033).

7. The die cartridge with guide structure of claim 6, wherein the second moving assembly (105) comprises a heating plate (1051), a die head (1052) and a second connecting column (1053), the die head (1052) is installed below the heating plate (1051) and is fixedly connected with the heating plate (1051), the heating plate (1051) heats the die head (1052), one end of the second connecting column (1053) is fixed on the upper surface of the heating plate (1051), and the other end of the second connecting column (1053) movably passes through the supporting plate (1031);

a first cross rod (1054) is arranged at the other end of the second connecting column (1053), and the first cross rod (1054) penetrates through the second connecting column (1053) along the radial direction of the second connecting column (1053).

8. The mold cartridge with guide structure of claim 7, further comprising an inner second guide member (106), one end of said inner second guide member (106) is fixedly mounted on said heating plate (1051), and the other end of said inner second guide member (106) movably passes through said supporting plate (1031) and is fixedly connected with said mold cartridge top (101).

9. The mold cartridge with the guide structure according to claim 7, wherein a third moving assembly (107) is further disposed inside the mold cartridge body (100), and the third moving assembly (107) encloses the first moving assembly (103) and the second moving assembly (105) inside;

the third removes subassembly (107) includes mould board (1071), spring (1072) and third connecting column (1073), the one end of third connecting column (1073) with mould board (1071) links to each other, the other end movably of third connecting column (1073) passes backup pad (1031), set up second horizontal pole (1074) on the other end of third connecting column (1073), second horizontal pole (1074) are along run through radially of second connecting column (1053), spring (1072) encircle in on third connecting column (1073), spring (1072) are located mould board (1071) with between backup pad (1031), third connecting column (1073) encircle the part movably of spring (1072) passes cutter carrier (1033).

10. A packaging apparatus comprising a die cartridge having a guide structure according to any one of claims 1 to 9.

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