CN205416500U - Closing device and have this closing device's packing carton wainscot device - Google Patents

Abstract

The utility model discloses a closing device and have this closing device's packing carton wainscot device aims at shortcomings such as the closing device cost of manufacture of the current packing carton assembly line of solution is high, the control process is loaded down with trivial details, and its technical scheme main points are: a closing device, link mechanism and frame that includes the moulding -die, is connected with the moulding -die, be equipped with the cylinder by motor drive in the frame, stroke groove has been seted up on the cylinder, the link mechanism transmission is connected in stroke groove, when the cylinder drove the rotation round by the motor, link mechanism drove the moulding -die and makes an up -and -down motion. The utility model discloses a closing device cost of manufacture is low, control is simple and the operation is convenient.

Description

A kind of hold down gag and the packing box facing device with this hold down gag

Technical field

This utility model relates to packing technique field, more specifically, it relates to a kind of hold down gag and the packing box facing device with this hold down gag.

Background technology

In the process of manufacture of packing box, including the whole topcoating glue of facial tissue, the baseplate-laminating of tissue box packing box, to processes such as facial tissue layer and substrate layer pressings.Traditional packing box manufacturing machine falls behind, and needs to be carried out assembling making complete packing box by a dead lift again, and production efficiency is low, wastage of material rate high, product quality is poor.

For the problems referred to above, the Chinese patent of Publication No. CN203344366U discloses a kind of heterotype packing box Automatic Assembly Line made of paper, is characterized in that: include that conveyer belt apparatus, gluing machine, pressure steep press flask；Wherein, gluing machine is positioned at the front end of heterotype packing box Automatic Assembly Line made of paper, for giving, the facial tissue entering conveyer belt apparatus is coated glued membrane uniformly, after its head end of conveyer belt apparatus is connected on gluing machine, pressure bubble press flask is positioned at the side in conveyer belt apparatus stage casing, pressure bubble press flask, for uniformly pressing to the adhesive surface of gift box facial tissue layer with substrate layer, makes bonding more firm, smooth driving the bubble of adhesive surface out of；Pressure bubble press flask includes lower air cylinder, cell type mould, four side pressure cylinders, cylinder blocks, ejects cylinder, rotation platform, upper mounting plate；Wherein cell type mould is the rectangular structure of vertical direction hollow, and it is fixed on rotation platform, is set with fixed thereon from the top down for gift box to be processed；Being provided with four cylinder blocks parallel with its four surfaces in cell type mould surrounding, cylinder block is vertically fixed on rotation platform, is distributed in " ten " word；Be provided with a side pressure cylinder at the middle part of each cylinder block, it is perpendicular to the face facing cell type mould of this cylinder block, and thrust direction is that four side pressure cylinders are in order to the thrust to four orthogonal directions of gift box to be processed towards cell type mould；Lower air cylinder it is provided with, in order to apply pressure to the end face of gift box to be processed at upper mounting plate directly over cell type mould；Be provided with in the cavity of cell type mould one be perpendicular to rotation platform eject cylinder, its from inside to gift box thrust upwards, the depanning of gift box after molding.

Facial tissue is pressed on packing box substrate by this packing box Automatic Assembly Line by lower air cylinder, cell type mould, four side pressure cylinders, cylinder block, the combination that ejects cylinder, this high by the hold down gag cost of manufacture of multiple cylinder stitching by step by step, control process loaded down with trivial details.

It is thus desirable to propose a kind of new scheme to solve this problem.

Utility model content

First purpose of the present utility model is to provide a kind of hold down gag, by arranging cylinder, offers stroke groove on cylinder, and be in transmission connection in stroke groove linkage, it is achieved the pressing to facial tissue, and cost of manufacture is low and controls simple.

Above-mentioned technical purpose of the present utility model has the technical scheme that a kind of hold down gag, the linkage being connected with pressing mold including pressing mold and frame, described frame is provided with by the cylinder of motor-driven, stroke groove is offered on described cylinder, described linkage transmission is connected in stroke groove, when described cylinder is rotated a circle by driven by motor, linkage drives pressing mold once to pump.

By using technique scheme, compression platform it is provided with below pressing mold, compress platform and be provided with the object stage that can up and down reciprocatingly run, object stage is positioned at the underface of pressing mold, compress and offer pack port on platform, object stage is reciprocating in pack port, the facial tissue and the packing box substrate that bond together are placed on object stage, pack port matches with packing box substrate, when pressing mold declines, to press under packing box substrate and drive object stage to move downwardly together, owing to pack port matches with packing box substrate, during packaging and substrate decline, facial tissue pressing is bonded on the sidewall of packing box substrate by the sidewall of pack port, pressing mold moves upward subsequently, packing box substrate support is put pressing table surface along with pressing mold is the most dynamic by object stage, pressing mold continues to decline and the disengaging of packing box substrate, complete compaction process；Stroke groove is for controlling the operation up and down of pressing mold, linkage transmission is connected in stroke groove, so linkage just realizes corresponding kinestate along with the shape of stroke groove, cylinder rotates a circle, linkage just completes a power train process in stroke groove, pressing mold just once pumps, and completes a compaction process, and roller rotates just can realize lasting compaction process.This hold-down mechanism only includes pressing mold, linkage, motor and offers the cylinder of stroke groove, and cost of manufacture is low, control is simple and operation convenient.

This utility model is further arranged to: described linkage includes connecting rod and depression bar, described rod hinge connection is in frame, described connecting rod one end is rotationally connected with depression bar, conflict and be connected in stroke groove in one end, described frame is provided with sleeve, described depression bar is located in sleeve, and described depression bar is connected on pressing mold.

By using technique scheme, linkage is hinged in frame, and conflicting and be connected in stroke groove in one end, one end is rotationally connected with depression bar, slide along stroke groove in so one end of connecting rod, will the rotation of drivening rod, depression bar, due to the action of gravity by pressing mold, is in state straight down, depression bar is rotationally connected with one end of connecting rod, along with the rotation of connecting rod, depression bar realizes moving up and down, thus drives the operation up and down of pressing mold；Depression bar is set in sleeve, and on the one hand this be possible to prevent depression bar to rock, and on the other hand provides a track run to depression bar.

This utility model is further arranged to: described stroke groove includes the first horizontal part, riser portions, the second horizontal part and falling portion, and when described connecting rod slides in riser portions, pressing mold moves downward, and described connecting rod is when falling portion slides, and pressing mold moves upward.

By using technique scheme, when connecting rod slides at the first horizontal part, pressing mold is positioned at higher position and remains static；When connecting rod slides in riser portions, one end that conflict is connected in stroke groove moves upward along with the rotation of cylinder, and one end that connecting rod and depression bar are rotationally connected then moves downward, and pressing mold moves downward the most therewith, by packing box substrate and facial tissue pressing；When connecting rod slides at the second horizontal part, pressing mold is by complete to packing box substrate and facial tissue pressing and remains static；When connecting rod slides in falling portion, one end that conflict is connected in stroke groove moves downward along with the rotation of cylinder, and one end that connecting rod and depression bar are rotationally connected then moves upward, and pressing mold moves upward the most therewith, eventually disengages from packing box substrate.Connecting rod slides one week in stroke groove, and pressing mold just completes a compaction process.

This utility model is further arranged to: one end that described connecting rod is connected with the conflict of stroke groove is provided with roller, and described roller rolls and is connected in stroke groove.

By using technique scheme, roller is set and reduces the frictional force between connecting rod and stroke groove, facilitate connecting rod to move in stroke groove.

This utility model is further arranged to: described cylinder is provided with the second stroke groove, in described second stroke groove, conflict connection has second connecting rod, described second connecting rod one end is hinged in frame, one end is rotatably connected to the second depression bar, described second depression bar is located in sleeve and is fed through pressing mold, when described cylinder is rotated a circle by driven by motor, second connecting rod drives depression bar once to pump.

By using technique scheme, owing to facial tissue is pressed together on packing box substrate by needs, the inner chamber of the size packing box substrate of pressing mold is consistent, so after pressing mold press-through pack box substrate, packing box substrate will be fastened togather with pressing mold and be difficult to separate from press mold, second depression bar is set for packing box substrate being ejected pressing mold after facial tissue and packing box substrate pressing, makes packing box substrate depart from pressing mold；Second stroke groove is for controlling the operation up and down of the second depression bar, second connecting rod is in transmission connection in the second stroke groove, so second connecting rod just realizes corresponding kinestate along with the shape of the second stroke groove, cylinder rotates a circle, second connecting rod just completes a power train process in the second stroke groove, second depression bar just once pumps, and completes an ejection process, and roller rotates just can realize lasting ejection process.Second connecting rod mechanism is hinged in frame, conflict and be connected in the second stroke groove in one end, one end is rotationally connected with the second depression bar, sliding along stroke groove in so one end of second connecting rod, will drive the rotation of second connecting rod, and the second depression bar is under the effect of self gravitation, it is in state straight down, second depression bar is rotationally connected with one end of second connecting rod, and along with the rotation of second connecting rod, the second depression bar realizes moving up and down the most therewith.

This utility model is further arranged to: described second stroke groove includes the 3rd horizontal part, the second riser portions, the 4th horizontal part and the second falling portion, when described second connecting rod slides in the second riser portions, second depression bar moves downward, described second connecting rod is when the second falling portion slides, second depression bar moves upward, described second falling portion is Tong Bu with the first falling portion, and described second riser portions lags behind the first riser portions.

By using technique scheme, when connecting rod slides at the 3rd horizontal part, the second depression bar is positioned at higher position and is in illegal state；When second connecting rod slides in the second riser portions, one end that conflict is connected in the second stroke groove moves upward along with the rotation of cylinder, one end that second connecting rod and the second depression bar are rotationally connected then moves downward, second depression bar moves downwardly to the most therewith and fits with packing box substrate, and pressing mold moves downward packing box substrate and facial tissue pressing simultaneously；When connecting rod slides at the second horizontal part, packing box substrate is moved up to peak after the complete pressing of facial tissue by pressing mold, second depression bar remains resting state in this process, when so pressing mold rises to concordant with the second depression bar end face on the lower surface, second depression bar just fits with packing box substrate, when pressing mold continues up, the second depression bar will limit packing box substrate and continue up operation along with pressing mold, and last packing box substrate departs from pressing mold；When second connecting rod slides in the second falling portion, one end that conflict is connected in the second stroke groove moves downward along with the rotation of cylinder, one end that second connecting rod and the second depression bar are rotationally connected then moves upward, second depression bar moves up to peak the most therewith, second connecting rod slides one week in the second stroke groove, and the second depression bar just completes an ejection process；Second depression bar is set in sleeve, and on the one hand this be possible to prevent the second depression bar to rock, and provides a track run on the other hand to the second depression bar.

This utility model is further arranged to: one end that described second connecting rod and the conflict of the second stroke groove connect is provided with the second roller, and described second roller rolls and is connected in the second stroke groove.

By using technique scheme, roller is set and reduces the frictional force between second connecting rod and the second stroke groove, facilitate second connecting rod to move in the second stroke groove.

This utility model is further arranged to: described second depression bar connects many push rods, and many described push rods are distributed in the periphery of pressing mold.

By using technique scheme, second depression bar connects has many push rods and many push rods to be distributed in pressing mold periphery, so when ejecting packing box substrate, many push rods exert a force simultaneously, prevent packing box substrate from offseting, cause packing box substrate to be difficult to cause when ejecting or eject the damage of packing box substrate.

This utility model is further arranged to: described push rod end is provided with expands briquetting.

By using technique scheme, arrange in the end of push rod and expand briquetting, increase the contact area of push rod and packing box substrate, prevent push rod from being poked by packing box substrate when ejecting packing box substrate.

Second purpose of the present utility model is to provide a kind of packing box facing device, and it is simple with above-mentioned hold down gag, low cost and control.

Above-mentioned technical purpose of the present utility model has the technical scheme that a kind of packing box facing device, including the hold down gag described in technique scheme.

In sum, this utility model has the advantages that

One, offers stroke groove on cylinder, and stroke groove is connected with linkage, and linkage connects pressing mold, it is achieved the periodic reverse motion of pressing mold, carries out compaction process, and this hold-down mechanism structure fabrication low cost, control are simply and operation is convenient.

Its two, sleeve is set, prevents depression bar and the second depression bar from rocking, provide a track run to depression bar and the second depression bar simultaneously.

Its three, cylinder is offered the second stroke groove, the second stroke groove is connected with second connecting rod, and second connecting rod is rotatably connected to the second depression bar, it is achieved the periodic reverse motion of the second depression bar, carries out ejection process.

Its four, the second depression bar connects many push rods, prevents packing box substrate from offseting when being ejected.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present embodiment；

Fig. 2 is cylinder expanded view.

In figure: 1, motor；2, cylinder；21, stroke groove；211, the first horizontal part；212, riser portions；213, the second horizontal part；214, falling portion；221, the 3rd horizontal part；222, the second riser portions；223, the 4th horizontal part；224, falling portion；22, the second stroke groove；3, frame；4, connecting rod；41, roller；5, depression bar；51, pressing mold；6, sleeve；7, second connecting rod；71, the second roller；8, the second depression bar；81, push rod.

Detailed description of the invention

Below in conjunction with the accompanying drawings and embodiment, this utility model is described in detail.

Embodiment one: a kind of hold down gag

nullAs depicted in figs. 1 and 2，Motor 1 it is fixed with in frame 3，Motor 1 is connected with cylinder 2，Stroke groove 21 and the second stroke groove 22 is offered on cylinder 2，It is connected with linkage in stroke groove 21，Linkage includes connecting rod 4 and depression bar 5，Connecting rod 4 is in transmission connection in stroke groove 21，One end of connecting rod 4 is provided with roller 41，Roller 41 rolls and is connected in stroke groove 21，Connecting rod 4 is hinged in frame 3，Depression bar 5 is rotatably connected on the other end of connecting rod 4，Frame 3 is provided with sleeve 6，Depression bar 5 is located in sleeve 6，Depression bar 5 end connects pressing mold 51，Stroke groove 21 includes the first horizontal part 211、Riser portions 212、Second horizontal part 213 and falling portion 214，When connecting rod 4 slides in riser portions 212，Pressing mold 51 moves downward，Connecting rod 4 is when falling portion 214 slides，Pressing mold 51 moves upward；Being connected with second connecting rod 7 in second stroke groove 22, one end of second connecting rod 7 is provided with the second roller 71, and the second roller 71 rolls and is connected in the second stroke groove 22,

Second connecting rod 7 one end is hinged in frame 3, one end is rotatably connected to the second depression bar 8, second depression bar 8 is located in sleeve 6, second depression bar 8 connects four push rods 81, four push rods 81 are distributed in four corners of pressing mold 51 and are fed through pressing mold 51, each push rod 81 end is provided with expands briquetting, expanding the bottom surface of briquetting is plane, second stroke groove 22 includes the 3rd horizontal part 221, second riser portions 222, 4th horizontal part 223 and the second falling portion 214, second falling portion 214 is synchronize with the first falling portion 214, second riser portions 222 lags behind the first riser portions 212, when second connecting rod 7 slides in the second riser portions 222, second depression bar 8 moves downward, second connecting rod 7 is when the second falling portion 214 slides, second depression bar 8 moves upward.

Compression platform it is provided with below pressing mold 51, compress platform and be provided with the object stage that can up and down reciprocatingly run, object stage is positioned at the underface of pressing mold 51, compress and offer pack port on platform, object stage is reciprocating in pack port, the facial tissue and the packing box substrate that bond together are placed on object stage, pack port matches with packing box substrate, when pressing mold 51 declines, to press under packing box substrate and drive object stage to move downwardly together, owing to pack port matches with packing box substrate, during packaging and substrate decline, facial tissue pressing is bonded on the sidewall of packing box substrate by the sidewall of pack port, pressing mold 51 moves upward subsequently, packing box substrate support is put pressing table surface along with pressing mold 51 is the most dynamic by object stage, pressing mold 51 continues to decline and the disengaging of packing box substrate, complete compaction process；Stroke groove 21 is for controlling the operation up and down of pressing mold 51, linkage transmission is connected in stroke groove 21, so linkage just realizes corresponding kinestate along with the shape of stroke groove 21, cylinder 2 rotates a circle, linkage just completes a power train process in stroke groove 21, pressing mold 51 just once pumps, and completes a compaction process, and cylinder 2 persistently rotates just can realize lasting compaction process.This hold-down mechanism only includes pressing mold 51, linkage, motor 1 and offers the cylinder 2 of stroke groove 21, and cost of manufacture is low, control is simple and operation convenient；Linkage is hinged in frame 3, conflict and be connected in stroke groove 21 in one end, one end is rotationally connected with depression bar 5, slides along stroke groove 21 in one end of such connecting rod 4, will the rotation of drivening rod 4, depression bar 5 is due to the action of gravity by pressing mold 51, being in state straight down, depression bar 5 is rotationally connected with one end of connecting rod 4, along with the rotation of connecting rod 4, depression bar 5 realizes moving up and down, thus drives the operation up and down of pressing mold 51；Depression bar 5 is set in sleeve 6, and on the one hand this be possible to prevent depression bar 5 to rock, and provides a track run on the other hand to depression bar 5；When connecting rod 4 slides at the first horizontal part 211, pressing mold 51 is positioned at higher position and remains static；When connecting rod 4 slides in riser portions 212, one end that conflict is connected in stroke groove 21 moves upward along with the rotation of cylinder 2, and one end that connecting rod 4 is rotationally connected with depression bar 5 then moves downward, and pressing mold 51 moves downward the most therewith, by packing box substrate and facial tissue pressing；When connecting rod 4 slides at the second horizontal part 213, pressing mold 51 is by complete to packing box substrate and facial tissue pressing and remains static；When connecting rod 4 slides in falling portion 214, one end that conflict is connected in stroke groove 21 moves downward along with the rotation of cylinder 2, and one end that connecting rod 4 is rotationally connected with depression bar 5 then moves upward, and pressing mold 51 moves upward the most therewith, eventually disengages from packing box substrate.Connecting rod 4 slides one week in stroke groove 21, and pressing mold 51 just completes a compaction process；Roller 41 is set and reduces the frictional force between connecting rod 4 and stroke groove 21, facilitate connecting rod 4 to move in stroke groove 21.

Owing to facial tissue is pressed together on packing box substrate by needs, the inner chamber of the size packing box substrate of pressing mold 51 is consistent, so after pressing mold 51 press-through pack box substrate, packing box substrate will be fastened togather with pressing mold 51 and be difficult to separate from press mold, second depression bar 8 is set for packing box substrate being ejected pressing mold 51 after facial tissue and packing box substrate pressing, makes packing box substrate depart from pressing mold 51；Second stroke groove 22 is for controlling the operation up and down of the second depression bar 8, second connecting rod 7 is in transmission connection in the second stroke groove 22, so second connecting rod 7 just realizes corresponding kinestate along with the shape of the second stroke groove 22, cylinder 2 rotates a circle, second connecting rod 7 just completes a power train process in the second stroke groove 22, second depression bar 8 just once pumps, and completes an ejection process, and cylinder 2 persistently rotates just can realize lasting ejection process.Second connecting rod 7 mechanism is hinged in frame 3, conflict and be connected in the second stroke groove 22 in one end, one end is rotationally connected with the second depression bar 8, sliding along stroke groove 21 in so one end of second connecting rod 7, will drive the rotation of second connecting rod 7, and the second depression bar 8 is under the effect of self gravitation, it is in state straight down, second depression bar 8 is rotationally connected with one end of second connecting rod 7, and along with the rotation of second connecting rod 7, the second depression bar 8 realizes moving up and down the most therewith；When connecting rod 4 slides at the 3rd horizontal part 221, the second depression bar 8 is positioned at higher position and is in illegal state；When second connecting rod 7 slides in the second riser portions 222, one end that conflict is connected in the second stroke groove 22 moves upward along with the rotation of cylinder 2, one end that second connecting rod 7 is rotationally connected with the second depression bar 8 then moves downward, second depression bar 8 moves downwardly to the most therewith and fits with packing box substrate, and pressing mold 51 moves downward packing box substrate and facial tissue pressing simultaneously；When connecting rod 4 slides at the second horizontal part 213, packing box substrate is moved up to peak after the complete pressing of facial tissue by pressing mold 51, second depression bar 8 remains resting state in this process, when so pressing mold 51 rises to concordant with the second depression bar 8 end face on the lower surface, second depression bar 8 just fits with packing box substrate, when pressing mold 51 continues up, the second depression bar 8 will limit packing box substrate and continue up operation along with pressing mold 51, and last packing box substrate departs from pressing mold 51；When second connecting rod 7 slides in the second falling portion 214, one end that conflict is connected in the second stroke groove 22 moves downward along with the rotation of cylinder 2, one end that second connecting rod 7 is rotationally connected with the second depression bar 8 then moves upward, second depression bar 8 moves up to peak the most therewith, second connecting rod 7 slides one week in the second stroke groove 22, and the second depression bar 8 just completes an ejection process；Second depression bar 8 is set in sleeve 6, and on the one hand this be possible to prevent the second depression bar 8 to rock, and provides a track run on the other hand to the second depression bar 8；Roller 41 is set and reduces the frictional force between second connecting rod 7 and the second stroke groove 22, facilitate second connecting rod 7 to move in the second stroke groove 22；Second depression bar 8 connects has many push rods 81 and many push rods 81 to be distributed in pressing mold 51 periphery, so when ejecting packing box substrate, many push rods 81 exert a force simultaneously, prevent packing box substrate from offseting, and cause packing box substrate to be difficult to cause when ejecting or eject the damage of packing box substrate；Arrange in the end of push rod 81 and expand briquetting, increase the contact area of push rod 81 and packing box substrate, prevent push rod 81 from being poked by packing box substrate when ejecting packing box substrate.

Embodiment two: a kind of packing box facing device

It is applied to the compacting machine device described in embodiment one in existing packing box facing device replace existing hold down gag, the embodiment of this utility model packing box facing device can be obtained.

The above is only preferred implementation of the present utility model, and protection domain of the present utility model is not limited merely to above-described embodiment, and all technical schemes belonged under this utility model thinking belong to protection domain of the present utility model.It should be pointed out that, for those skilled in the art, without departing from the some improvements and modifications under this utility model principle premise, these improvements and modifications also should be regarded as protection domain of the present utility model.

Claims (10)

1. a hold down gag, it is characterized in that: include linkage and frame (3) that pressing mold (51) is connected with pressing mold (51), described frame (3) is provided with by the cylinder (2) of motor (1) transmission, stroke groove (21) is offered on described cylinder (2), described linkage transmission is connected in stroke groove (21), described cylinder (2) is driven by motor (1) when rotating a circle, and linkage drives pressing mold (51) once to pump.

A kind of hold down gag the most according to claim 1, it is characterized in that: described linkage includes connecting rod (4) and depression bar (5), described connecting rod (4) is hinged in frame (3), described connecting rod (4) one end is rotationally connected with depression bar (5), conflict and be connected in stroke groove (21) in one end, described frame (3) is provided with sleeve (6), described depression bar (5) is located in sleeve (6), and described depression bar (5) is connected on pressing mold (51).

A kind of hold down gag the most according to claim 2, it is characterized in that: described stroke groove (21) includes the first horizontal part (211), riser portions (212), the second horizontal part (213) and falling portion (214), when described connecting rod (4) slides in riser portions (212), pressing mold (51) moves downward, described connecting rod (4) is when falling portion (214) slides, and pressing mold (51) moves upward.

A kind of hold down gag the most according to claim 2, it is characterized in that: one end that described connecting rod (4) is connected with stroke groove (21) conflict is provided with roller (41), described roller (41) rolls and is connected in stroke groove (21).

A kind of hold down gag the most according to claim 2, it is characterized in that: described cylinder (2) is provided with the second stroke groove (22), described second stroke groove (22) interior conflict connection has second connecting rod (7), described second connecting rod (7) one end is hinged in frame (3), one end is rotatably connected to the second depression bar (8), described second depression bar (8) is located in sleeve (6) and is fed through pressing mold (51), described cylinder (2) is driven by motor (1) when rotating a circle, second connecting rod (7) drives depression bar (5) once to pump.

A kind of hold down gag the most according to claim 5, it is characterized in that: described second stroke groove (22) includes the 3rd horizontal part (221), second riser portions (222), 4th horizontal part (223) and the second falling portion (224) (214), when described second connecting rod (7) slides in the second riser portions (222), second depression bar (8) moves downward, described second connecting rod (7) is when the second falling portion (224) slides, second depression bar (8) moves upward, described second falling portion (224) is Tong Bu with the first falling portion (224), described second riser portions (222) lags behind the first riser portions (212).

A kind of hold down gag the most according to claim 6, it is characterized in that: one end that described second connecting rod (7) is connected with the second stroke groove (22) conflict is provided with the second roller (71), and described second roller (71) rolls and is connected in the second stroke groove (22).

A kind of hold down gag the most according to claim 5, it is characterised in that: described second depression bar (8) connects many push rods (81), and many described push rods (81) are distributed in the periphery of pressing mold (51).

A kind of hold down gag the most according to claim 8, it is characterised in that: described push rod (81) end is provided with expands briquetting.

10. a packing box facing device, it is characterised in that: include the hold down gag described in claim 1 to 9 any one.