CN204196360U - For the hawk box embryo device for automatically molding of packing box processing - Google Patents

Abstract

The utility model relates to a kind of hawk box embryo device for automatically molding for packing box processing.This device comprises fold mechanism, and base plate is provided with the platform air cylinder moved at base plate upper vertical for promoting portable plate, and bearing assembly is fixed on above portable plate; Gap between little loading plate and middle loading plate is provided with little the roller that can move both vertically, and provides driving force below little roller by little cylinder; Gap between middle loading plate and large face loading plate is provided with large face roller, being provided with the large face cylinder simultaneously moved both vertically for promoting large face loading plate and large face roller below the loading plate of large face, below the loading plate of large face, being also provided with the horizontal air cylinder for promoting the roller horizontal movement of large face.The utility model comes a wherein side of folding hawk by little roller, end face and the another side of folding hawk is come by large face roller, forming action is without the need to artificial participation, thus it is shaping to the auto-folder of box embryo to achieve hawk, improves working (machining) efficiency and quality stability.

Description

For the hawk box embryo device for automatically molding of packing box processing

Technical field

The utility model relates to packing box process equipment, particularly relates to a kind of hawk box embryo device for automatically molding for packing box processing.

Background technology

Common packing box comprises hawk and facial tissue, and hawk is as package interior supporter, and facial tissue is as packing box appearance surfaces.When processing packaging box, generally first hawk can be made box embryo, and then sticky facial tissue, finally do de-bubble work, obtain final packing box product.When hawk being made box embryo, have two steps, first step is the box embryo hawk of box embryo sidewall being folded into square-section, and second step is by the hawk of box embryo bottom surface and box embryo altogether.This step hawk being folded into box embryo is all completed by manual work in general manufacturer, greatly reduces the efficiency of processing like this, and the stability of packing box quality can not get ensureing.

Utility model content

The purpose of this utility model is the defect for overcoming prior art, and provides a kind of hawk box embryo device for automatically molding for packing box processing, shaping to the auto-folder of box embryo to realize hawk, improves working (machining) efficiency and quality stability.

For achieving the above object, the utility model is by the following technical solutions:

Hawk box embryo device for automatically molding for packing box processing comprises for coordinating fold mechanism hawk being folded into box embryo with die cavity, fold mechanism comprises base plate, portable plate and bearing assembly, base plate is provided with the platform air cylinder moved at base plate upper vertical for promoting portable plate, and bearing assembly is fixed on above portable plate; Bearing assembly comprises little the loading plate be arranged in order, middle loading plate and large face loading plate, and the gap between little loading plate and middle loading plate is provided with little the roller that can move both vertically, and provides driving force below little roller by one little cylinder; Gap between middle loading plate and large face loading plate is provided with large face roller, being provided with the large face cylinder simultaneously moved both vertically for promoting large face loading plate and large face roller below the loading plate of large face, below the loading plate of large face, being also provided with the horizontal air cylinder for promoting the roller horizontal movement of large face; When folding hawk, hawk is placed on bearing assembly, middle loading plate is positioned at immediately below die cavity, hawk upper surface and die cavity exterior surface, little roller moves upward with the one side of folding hawk, and large face roller moves upward and then moves so that hawk is folded into rectangular box embryo towards little roller direction.

Further, portable plate is fixed with a fixed head, fixed head, between large face loading plate and portable plate, is fixed with the guide rod running through fixed head below the loading plate of large face, and fixed head limits the vertical motion track of large face loading plate by guide rod.

Further, large face cylinder is located at below fixed head, and the output shaft of large face cylinder runs through fixed head and output shaft is fixedly connected with large face loading plate by a U-shaped gusset, and horizontal air cylinder to be fixed on below the loading plate of large face and through U-shaped gusset.

Further, little loading plate and large face loading plate are equipped with the blend stop for limiting grey Board position.

Further, bearing assembly is provided with the photoelectric detection switch whether put in place for detecting hawk.

Further, device for automatically molding also comprises for the feed mechanism for fold mechanism conveying hawk, feed mechanism comprises substrate, for surrounding the baffle plate assembly of the hawk stacked and the scraping wings for being released below baffle plate assembly by hawk, baffle plate assembly is fixed on substrate, the power source of scraping wings is located at below substrate, and substrate is provided with the straight-line groove for scraping wings motion; During feeding, power source drives scraping wings to move in straight-line groove, and individual hawk is released baffle plate assembly and pushed on the bearing assembly of fold mechanism by hawk by scraping wings.

Further, baffle plate assembly comprises side shield, front apron and backboard, and front apron is relative to the height adjustable of substrate; When feeding, hawk is released from the gap between front apron and substrate by scraping wings.

Further, feed mechanism also comprises the pressure roller for pressing hawk, and pressure roller is located at the front of front apron on hawk feed direction.

Further, scraping wings is located on a cross bar, is provided with two line slide rails below substrate, and the power source of scraping wings drives cross bar linearly slide rail slip by Timing Belt.

Further, scraping wings and cross bar pinned connection and be provided with torsion spring between scraping wings and cross bar, scraping wings tilts upward and points to feed direction; During feeding, grey panel edges is supported and to its applied thrust in scraping wings front end; During scraping wings return, scraping wings is return below hawk, and scraping wings front end is rotated down by the Action of Gravity Field of hawk, and when scraping wings front end departs from hawk, scraping wings front end rotates up and homing by the active force of torsion spring.

The utility model beneficial effect is compared with prior art:

The utility model comes a wherein side of folding hawk by little roller, end face and the another side of folding hawk is come by large face roller, whole forming action is without the need to artificial participation, thus it is shaping to the auto-folder of box embryo to achieve hawk, reduce the impact of human factor on process, improve working (machining) efficiency and quality stability.

Accompanying drawing explanation

Fig. 1 is hawk box embryo device for automatically molding assembling stereogram;

Fig. 2 is the assembling stereogram of fold mechanism;

Fig. 3 is the assembling stereogram (economizing bigger loading plate) of fold mechanism;

Fig. 4 is the assembling stereogram (bottom view) of fold mechanism;

Fig. 5 is the operation principle sketch of fold mechanism;

Fig. 6 is the assembling stereogram of feed mechanism;

Fig. 7 is the assembling stereogram (rear view) of feed mechanism.

Detailed description of the invention

In order to more fully understand technology contents of the present utility model, below in conjunction with specific embodiment the technical solution of the utility model being described further and illustrating.

The concrete structure of the utility model embodiment as shown in Figures 1 to 7.

The hawk box embryo device for automatically molding for packing box processing of the present embodiment comprises for coordinating the fold mechanism that hawk is folded into box embryo with die cavity and being used for for fold mechanism carries the feed mechanism of hawk.

Fold mechanism comprises base plate 11, portable plate 12 and bearing assembly 20.Base plate 11 is fixed on ground, and be provided with the platform air cylinder 33 moved at base plate 11 upper vertical for promoting portable plate 12 below base plate 11, the output shaft of platform air cylinder 33 runs through base plate 11 and is fixedly connected with portable plate 12.Bearing assembly 20 is fixed on above portable plate 12.Bearing assembly 20 comprises little the loading plate 21, middle loading plate 22 and the large face loading plate 23 that are arranged in order.Little loading plate 21 and middle loading plate 22 are all motionless relative to portable plate 12 in hawk folding process, and therefore little loading plate 21, middle loading plate 22 are all fixedly connected with portable plate 12 by vertical rod 16.But large face loading plate 23 is can be vertically mobile relative to portable plate 12 in hawk folding process, and therefore large loading plate 23 needs to be arranged on portable plate by fixed head 13.Fixed head 13 is fixed on portable plate 12 by riser 14, fixed head 13 is between large face loading plate 23 and portable plate 12, be fixed with the guide rod 15 running through fixed head 13 below large face loading plate 23, fixed head 13 limits the vertical motion track of large face loading plate 23 by guide rod 15.

Gap between little loading plate 21 and middle loading plate 22 is provided with little the roller 41 that can move both vertically, and provides driving force below little roller 41 by little the cylinder 31 be fixed on portable plate 12.Therefore little roller 41 only does vertical up-or-down movement, is only responsible for one of them side of folding hawk box embryo.

Gap between middle loading plate 22 and large face loading plate 23 is provided with large face roller 42, being provided with the large face cylinder 32 simultaneously moved both vertically for promoting large face loading plate 23 and large face roller 42 below large face loading plate 23, below large face loading plate 23, being also provided with the horizontal air cylinder 34 for promoting roller 42 horizontal movement of large face.Therefore large roller 42 can first upwards vertically movement, then moves horizontally, can be responsible for another side of hawk box embryo and the folding of end face.Large face cylinder 32 is located at below fixed head 13, and simultaneously large face cylinder 32 to be fixed on portable plate 12 and to arrange reinforcement between the two.The output shaft of large face cylinder 32 runs through fixed head 13 and output shaft is fixedly connected with large face loading plate 23 by U-shaped gusset 17, and horizontal air cylinder 34 to be fixed on below large face loading plate 23 and through U-shaped gusset 17 (see Fig. 3).

Bearing assembly 20 is for placing hawk to be folded, and hawk must be located before folding, therefore little loading plate 21 large face loading plate 23 is all arranged the blend stop 24 for limiting grey Board position.Meanwhile, before jackknife action starts, must confirm that hawk has been placed on bearing assembly 20, therefore bearing assembly 20 is provided with the photoelectric detection switch 25 whether put in place for detecting hawk.If photoelectric detection switch 25 does not detect hawk, so folding process just can not start.Photoelectric detection switch 25 can be located on little loading plate 21, middle loading plate 22 and large face loading plate 23 respectively.

Feed mechanism comprises substrate 51, for surrounding the baffle plate assembly 60 of the hawk stacked and the scraping wings 55 for being released below baffle plate assembly 60 by hawk.Baffle plate assembly 60 is fixing on the substrate 51.Baffle plate assembly 60 comprises side shield 61, front apron 62 and backboard 63, and front apron 62 is relative to the height adjustable of substrate 51.When feeding, hawk is released from the gap between front apron 62 and substrate 51 by scraping wings 55.

See Fig. 1, Fig. 6 and Fig. 7, front apron 62 height adjustable is achieved in the following ways: substrate 51 is provided with square frame 58, front apron 62 has two, front apron 62 is connected with the horizontal stripe 59 of square frame 58 respectively by fixed block 65, front apron 62 can move up and down relative to fixed block 65, and moving up and down of front apron 62 is realized by threaded rod 66.

The power source 52 of scraping wings 55 is located at (see Fig. 7) below substrate 51, and power source 52 is servomotor.The cross bar 54 being also provided with two line slide rails 56 below substrate 51 and can sliding on line slide rail 56.Scraping wings 55 has two, is located at respectively on cross bar 54.Substrate 51 is provided with two straight-line grooves 57 moved for scraping wings 55.When feeding, the power source 52 of scraping wings 55 by Timing Belt 53 drive cross bar 54 linearly slide rail 56 slide, thus driving scraping wings 55 to move in straight-line groove 57, individual hawk is released from baffle plate assembly 60 and is pushed to by hawk the bearing assembly 20 of fold mechanism by scraping wings 55.

Particularly, scraping wings 55 and cross bar 54 pinned connection and be provided with torsion spring between scraping wings 55 and cross bar 54, torsion spring active force makes scraping wings 55 tilt upward and point to feed direction.During feeding, grey panel edges is supported and to its applied thrust in scraping wings 55 front end.And during scraping wings 55 return, scraping wings 55 return below hawk, scraping wings 55 front end is rotated down (torsion spring is reversed) by the Action of Gravity Field of hawk, until when scraping wings 55 front end departs from hawk, scraping wings 55 front end rotates up and homing by the active force of torsion spring.

In addition, feed mechanism also comprises the pressure roller 64 for pressing hawk, and pressure roller 64 to be located at above substrate 51 and to be located at the front of front apron 62 on hawk feed direction.During feeding, the gap of hawk between pressure roller 64 and substrate 51 is passed through.

Hawk box embryo feeding folding forming process:

During beginning, stacking in baffle plate assembly 60 have hawk, and scraping wings 55 is from the rear setting in motion of backboard 63.Scraping wings 55 promotes one, the bottom hawk of the hawk stacked, and by its gap successively between front apron 62 and substrate 51 and the gap between pressure roller 64 and substrate 51, then arrives on bearing assembly 20, completes feeding, scraping wings 55 return.

Whether photoelectric detection switch 25 moment on bearing assembly 20 is detected hawk and puts in place, if photoelectric detection switch 25 does not still detect hawk after scraping wings 55 covers a feeding process, so just show that the feeding process of scraping wings 55 is idle stroke, is not delivered to by hawk, scraping wings 55 needs to re-start a feeding process.

If photoelectric detection switch 25 detects that hawk puts in place, then folding process can be started.The basic process of folding process can reference diagram 5.When folding hawk, hawk is placed in (hawk can be paved with little loading plate 21, middle loading plate 22 and large face loading plate 23) on bearing assembly 20.Middle loading plate 22 is positioned at immediately below die cavity 90.Platform air cylinder 33 stretches out, and portable plate 12 and bearing assembly 20 are moved upward (in Fig. 5 direction A) simultaneously, until hawk upper surface and die cavity 90 exterior surface.Then little roller 41 moves upward (in Fig. 5 direction B) with a side of folding hawk, large face roller 42 moves upward (in Fig. 5 direction C) with the another side of folding hawk, large roller 42 moves towards little roller 41 direction subsequently, and (in Fig. 5 direction D), with the end face of folding hawk, hawk is folded into rectangular box embryo the most at last.The outer wall of die cavity 90 is provided with vacuum cup, and in folding process, the vacuum cup whole process on die cavity 90 is opened, and to fit completely die cavity 90 to enable hawk.Folding complete after, little roller 41 and large face roller 42 are respectively along former road return, and last platform air cylinder 33 is regained, but the vacuum cup of die cavity 90 need to continue to open with by hawk box germ band on next station.

More than state only with embodiment to further illustrate technology contents of the present utility model; so that reader is easier to understand; but do not represent embodiment of the present utility model and be only limitted to this, any technology done according to the utility model extends or recreation, all by protection of the present utility model.

Claims (10)

1. for the hawk box embryo device for automatically molding of packing box processing, it is characterized in that, comprise for coordinating fold mechanism hawk being folded into box embryo with die cavity, fold mechanism comprises base plate, portable plate and bearing assembly, base plate is provided with the platform air cylinder moved at base plate upper vertical for promoting portable plate, and bearing assembly is fixed on above portable plate;

Bearing assembly comprises little the loading plate be arranged in order, middle loading plate and large face loading plate, and the gap between little loading plate and middle loading plate is provided with little the roller that can move both vertically, and provides driving force below described little roller by one little cylinder; Gap between middle loading plate and large face loading plate is provided with large face roller, being provided with the large face cylinder simultaneously moved both vertically for promoting large face loading plate and large face roller below described large loading plate, below described large loading plate, being also provided with the horizontal air cylinder for promoting the roller horizontal movement of large face;

When folding hawk, hawk is placed on bearing assembly, middle loading plate is positioned at immediately below die cavity, hawk upper surface and die cavity exterior surface, little roller moves upward with the one side of folding hawk, and large face roller moves upward and then moves so that hawk is folded into rectangular box embryo towards little roller direction.

2. as claimed in claim 1 for the hawk box embryo device for automatically molding of packing box processing, it is characterized in that, described portable plate is fixed with a fixed head, fixed head is between large face loading plate and portable plate, be fixed with the guide rod running through fixed head below the loading plate of large face, fixed head limits the vertical motion track of large face loading plate by guide rod.

3. as claimed in claim 2 for the hawk box embryo device for automatically molding of packing box processing, it is characterized in that, described large cylinder is located at below fixed head, the output shaft of large face cylinder runs through fixed head and output shaft is fixedly connected with large face loading plate by a U-shaped gusset, and horizontal air cylinder to be fixed on below the loading plate of large face and through U-shaped gusset.

4. as claimed in claim 1 for the hawk box embryo device for automatically molding of packing box processing, it is characterized in that, described little loading plate and large face loading plate being equipped with the blend stop for limiting grey Board position.

5., as claimed in claim 1 for the hawk box embryo device for automatically molding of packing box processing, it is characterized in that, described bearing assembly is provided with the photoelectric detection switch whether put in place for detecting hawk.

6. the hawk box embryo device for automatically molding for packing box processing as described in any one of claim 1 to 5, it is characterized in that, also comprise for the feed mechanism for fold mechanism conveying hawk, feed mechanism comprises substrate, for surrounding the baffle plate assembly of the hawk stacked and the scraping wings for being released below baffle plate assembly by hawk, baffle plate assembly is fixed on substrate, the power source of scraping wings is located at below substrate, and substrate is provided with the straight-line groove for scraping wings motion; During feeding, power source drives scraping wings to move in straight-line groove, and individual hawk is released baffle plate assembly and pushed on the bearing assembly of fold mechanism by hawk by scraping wings.

7., as claimed in claim 6 for the hawk box embryo device for automatically molding of packing box processing, it is characterized in that, described baffle plate assembly comprises side shield, front apron and backboard, and described front apron is relative to the height adjustable of substrate; When feeding, hawk is released from the gap between front apron and substrate by scraping wings.

8., as claimed in claim 7 for the hawk box embryo device for automatically molding of packing box processing, it is characterized in that, described feed mechanism also comprises the pressure roller for pressing hawk, and described pressure roller is located at the front of front apron on hawk feed direction.

9. as claimed in claim 6 for the hawk box embryo device for automatically molding of packing box processing, it is characterized in that, described scraping wings is located on a cross bar, is provided with two line slide rails below described substrate, and the power source of described scraping wings drives cross bar linearly slide rail slip by Timing Belt.

10. as claimed in claim 9 for the hawk box embryo device for automatically molding of packing box processing, it is characterized in that, described scraping wings and cross bar pinned connection and be provided with torsion spring between scraping wings and cross bar, scraping wings tilts upward and points to feed direction; During feeding, grey panel edges is supported and to its applied thrust in scraping wings front end; During scraping wings return, scraping wings is return below hawk, and scraping wings front end is rotated down by the Action of Gravity Field of hawk, and when scraping wings front end departs from hawk, scraping wings front end rotates up and homing by the active force of torsion spring.