CN110203487B - Inner liner equipment of food box sleeve - Google Patents

Abstract

The invention discloses a food box sleeve lining pad device, which is used for lining a lining pad in a packaging box body and comprises: packing carton body conveyer, inside lining pad play material vibrations dish, inside lining pad conveyor, inside lining pad cover packing carton body device. The packaging box body conveying device is used for carrying out rotary conveying on the packaging box body; the inner liner discharging vibration disc is used for performing vibration type discharging on the inner liner; the lining pad conveying device is used for carrying out linear conveying on the lining pad at the discharge port of the lining pad discharge vibration disc; the inner liner sleeve packaging box body device is used for arranging the inner liner sleeve at the inner liner conveying device in the packaging box body at the packaging box body conveying device. The lining pad device for the food box sleeve is used for quickly and accurately sleeving the lining pad in the cavity of the packaging box body, so that the traditional manual labor is replaced, and the mechanical automatic production level of food enterprises is better improved.

Description

Inner liner equipment of food box sleeve

Technical Field

The invention relates to the technical field of mechanical automation, in particular to a device for lining a food box sleeve.

Background

Referring to fig. 1 and 2, which are a front view and a top view of a food box 10, respectively, and referring to fig. 3, the food box 10 includes a packing box body 11 and an inner liner 12 covering a cavity of the packing box body 11.

In a production workshop of a food enterprise, workers firstly sleeve the inner liner 12 in the cavity of the packaging box body 11 and then place food to be packaged on the inner liner 12 in the cavity of the packaging box body 11. For example, in a production workshop of a moon cake production enterprise, the packing box body 11 may be made of an iron sheet with a high strength metal material, and the inner liner 12 may be made of a plastic shell with a soft food-grade material.

In order to better improve the mechanical automatic production level of food enterprises, a food box sleeve inner liner device needs to be designed and developed, which is used for quickly and accurately sleeving the inner liner 12 in the cavity of the packaging box body 11, so that the traditional manual labor is replaced, and the technical problem needs to be solved by design and development personnel.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides the inner liner equipment of the food box, which is used for quickly and accurately sleeving the inner liner in the cavity of the packaging box body, so that the traditional manual labor is replaced, and the mechanical automatic production level of food enterprises is better improved.

The purpose of the invention is realized by the following technical scheme:

a food box sleeve inner liner device for lining the inner liner in a packing box body, comprising: the packaging box comprises a packaging box body conveying device, an inner liner discharging vibration disc, an inner liner conveying device and an inner liner sleeve packaging box body device;

the packaging box body conveying device is used for carrying out rotary conveying on the packaging box body;

the inner liner discharging vibration disc is used for performing vibration type discharging on the inner liner;

the lining pad conveying device is used for carrying out linear conveying on the lining pad at the discharge port of the lining pad discharging vibration disc;

the inner liner sleeve packaging box body device is used for sleeving the inner liner sleeve at the inner liner conveying device in the packaging box body at the packaging box body conveying device.

In one of the embodiments, the first and second electrodes are,

packing carton body conveyer includes: the device comprises a transport turntable, a turntable driving part and a loading jig; the turntable driving part is in driving connection with the transportation turntable, the turntable driving part drives the transportation turntable to rotate, and the loading jig is arranged on the transportation turntable; the packaging box body conveying device further comprises a positioning mechanism, the positioning mechanism comprises a positioning telescopic rod and a positioning driving part in driving connection with the positioning telescopic rod, a positioning through hole is formed in the conveying turntable, and the positioning driving part drives the positioning telescopic rod to enter or separate from the positioning through hole;

the inner liner conveying device comprises: the linear conveying guide rail, the lining pad positioner and the lining pad cut-in and separation mechanism; the lining pad positioner comprises a positioner body and a clamping mechanism arranged on the positioner body, wherein a positioning groove is formed in the positioner body, a lining pad blanking hole is formed in the bottom of the positioning groove, and the transportation rotary table is located below the lining pad blanking hole; the linear conveying guide rail is provided with a linear conveying guide groove, and two ends of the linear conveying guide groove are respectively connected with a discharge hole of the liner discharging vibration disc and the positioning groove; the inner liner cut-in and separation mechanism comprises a cut-in and separation block and a cut-in and separation driving part in driving connection with the cut-in and separation block, the cut-in and separation block is of a wedge-shaped block structure, the cut-in and separation block is arranged between the linear conveying guide groove and the positioning groove, and the cut-in and separation block is provided with a separation surface facing one side of the linear conveying guide groove and a cut-in surface facing one side of the positioning groove;

inside mat cover packing carton body device including cup joint the lifter and with cup joint the drive division that cup joints that the lifter drive is connected, cup joint the drive division drive cup joint the lifter lift, so that it gets into or breaks away from to cup joint the lifter the inside mat blanking hole.

In one embodiment, the packaging box body transporting device further comprises a supporting frame structure, the supporting frame structure comprises a plurality of supporting rollers, the supporting rollers are distributed in an annular array by taking the rotating shaft of the transporting turntable as the center, and the end face of the transporting turntable is pressed on the supporting rollers.

In one embodiment, the turntable driving portion is a motor driving structure, the positioning driving portion is a cylinder driving structure, the cutting-in and separating driving portion is a cylinder driving structure, and the sleeving driving portion is a cylinder driving structure.

In one embodiment, the number of the loading jigs is multiple, and the loading jigs are distributed in an annular array by taking the rotating shaft of the transportation turntable as a center.

In one embodiment, the number of the positioning through holes is multiple, and the positioning through holes are distributed in an annular array by taking the rotating shaft of the transportation turntable as a center.

In one embodiment, the clamping mechanism includes a left clamping structure and a right clamping structure, and the left clamping structure and the right clamping structure are respectively located at two sides of the positioning groove.

In one embodiment, the left clamping structure comprises a left clamping block and a left expansion spring connected with the left clamping block, and the right clamping structure comprises a right clamping block and a right expansion spring connected with the right clamping block.

In one embodiment, a conveying straight vibration device is installed on the straight conveying guide rail.

The lining pad device for the food box sleeve is used for quickly and accurately sleeving the lining pad in the cavity of the packaging box body, so that the traditional manual labor is replaced, and the mechanical automatic production level of food enterprises is better improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a front view of a food cartridge;

FIG. 2 is a top view of the food cartridge shown in FIG. 1;

FIG. 3 is an exploded view of the food cartridge shown in FIG. 1;

FIG. 4 is a block diagram of an apparatus for lining food casings according to one embodiment of the present invention;

FIG. 5 is a view showing the construction of the pack body transporting apparatus shown in FIG. 4;

FIG. 6 is a partial view of the inner liner apparatus of the food box of FIG. 4;

FIG. 7 is a partial view of the inner liner apparatus of the food box of FIG. 6;

FIG. 8 is a partial view of the inner liner transport apparatus shown in FIG. 6;

FIG. 9 is a block diagram of the lancing separator block shown in FIG. 7;

fig. 10 is a structural view of the telescoping lifter shown in fig. 7.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 4, a food casing liner apparatus 20 for enclosing an inner liner 12 in a pack body 11, comprises: the packaging box comprises a packaging box body conveying device 100, an inner liner discharging vibration disc 200, an inner liner conveying device 300 and an inner liner sleeve packaging box body device 400.

The packaging box body transporting device 100 is used for transporting the packaging box body 11 in a rotating manner; the liner discharging vibration disc 200 is used for discharging the liner 12 in a vibration mode; the inner liner conveying device 300 is used for linearly conveying the inner liner 12 at the discharge port of the inner liner discharging vibration disc 200; the inner liner sleeve packaging box body device 400 is used for sleeving the inner liner 12 at the inner liner conveying device 300 in the packaging box body 11 at the packaging box body conveying device 100.

Next, the structure of the pack body transporting apparatus 100 will be explained:

as shown in fig. 4 and 5, the pack body transporting apparatus 100 includes: a transport turntable 110, a turntable driving part (not shown), and a loading jig 120. The turntable driving part is in driving connection with the transportation turntable 110, the turntable driving part drives the transportation turntable 110 to rotate, and the loading jig 120 is installed on the transportation turntable 110. In the present embodiment, the number of the loading jigs 120 is plural, and the plurality of loading jigs 120 are distributed in a ring array around the rotation axis of the transportation turntable 110. The turntable driving portion drives the transportation turntable 110 to rotate, the rotation axis of the transportation turntable 110 is perpendicular to the horizontal plane, and the packing box body 11 is placed in the loading jig 120 on the transportation turntable 110, so that the transportation turntable 110 can drive the packing box body 11 to rotate and reach a designated position, and preparation is made for sleeving the inner lining 12. Specifically, the turntable driving part is of a motor driving structure.

Further, the packaging box body transporting device 100 further includes a positioning mechanism 130 (as shown in fig. 5), the positioning mechanism 130 includes a positioning telescopic rod 131 and a positioning driving portion 132 drivingly connected to the positioning telescopic rod 131, the transporting turntable 110 is provided with a positioning through hole 111, and the positioning driving portion 132 drives the positioning telescopic rod 131 to enter or separate from the positioning through hole 111. The positioning mechanism 130 is used for positioning the transportation turntable 110, so that the loading jig 120 on the transportation turntable 110 can accurately reach a designated position, and preparation is provided for the lining pad 12 to be accurately sleeved in the packing box body 11. Specifically, the positioning driving portion 132 is a cylinder driving structure. In this embodiment, the number of the positioning through holes 111 is plural, and the plural positioning through holes 111 are distributed in a ring-shaped array around the rotation axis of the transport turntable 110.

Further, the packaging box body transporting device 100 further includes a supporting frame structure, the supporting frame structure includes a plurality of supporting rollers 140 (as shown in fig. 5), the supporting rollers 140 are distributed in a ring array with the rotating shaft of the transporting turntable 110 as the center, and the end surface of the transporting turntable 110 is pressed on the supporting rollers 140. Through setting up the supporting frame structure, support transportation carousel 110, can be so that transportation carousel 110 more steady rotation.

Next, the structure of the liner conveying device 300 will be explained:

as shown in fig. 6, the inner mat transfer apparatus 300 includes: linear transport rail 310, liner positioner 320, liner cut-in separator mechanism 330.

As shown in fig. 7, the lining pad positioner 320 includes a positioner body 340 and a clamping mechanism 350 disposed on the positioner body 340, the positioner body 340 is provided with a positioning groove 341, a lining pad blanking hole 342 is formed at the bottom of the positioning groove 341, and the transport turntable 110 is located below the lining pad blanking hole 342. Specifically, as shown in fig. 7, the clamping mechanism 350 includes a left clamping structure 351 and a right clamping structure 352, and the left clamping structure 351 and the right clamping structure 352 are respectively located at two sides of the positioning groove 341. The left clamping structure 351 and the right clamping structure 352 have the same structure, the left clamping structure 351 includes a left clamping block and a left expansion spring connected to the left clamping block, and the right clamping structure 352 includes a right clamping block and a right expansion spring connected to the right clamping block. A clamping mechanism 350 is provided for clamping the inner liner 12 inserted into the positioning groove 341 to prevent the inner liner 12 from easily falling from the inner liner blanking hole 342.

As shown in fig. 8, the linear transportation guide rail 310 is provided with a linear transportation guide slot 311, and two ends of the linear transportation guide slot 311 are respectively connected with the discharge hole and the positioning slot 341 of the liner discharging vibration tray 200. Further, the linear conveying guide rail 310 is provided with a conveying linear vibration device 360. The inner pad 12 discharged from the discharge port of the inner pad discharging vibration plate 200 enters the linear transportation guide groove 311 of the linear transportation guide rail 310, and the inner pad 12 in the linear transportation guide groove 311 is transported to the positioning groove 341 of the positioner body 340 in cooperation with the transportation linear vibrator 360.

As shown in fig. 7, the liner cutting and separating mechanism 330 includes a cutting and separating block 331 and a cutting and separating driving unit 332 drivingly connected to the cutting and separating block 331, the cutting and separating block 331 has a wedge-shaped block structure, the cutting and separating block 331 is provided between the linear transport guide groove 311 and the positioning groove 341, and as shown in fig. 9, the cutting and separating block 331 has a separating surface 331a facing the linear transport guide groove 311 side and a cutting surface 331b facing the positioning groove 341 side. In the present embodiment, the cutting and separating drive unit 332 has a cylinder drive structure. Here, it is to be noted that the inner liner cutting-in and separating mechanism 330 is provided in particular, and functions as follows: on one hand, the separation surface 331a is used to separate two adjacent inner liners 12 between the linear transport guide groove 311 and the positioning groove 341, so that the inner liners 12 in the positioning groove 341 can be smoothly loaded; on the other hand, the cut-in surface 331b is used to apply a force to the inner liner 12 about to enter the positioning groove 341 due to the influence of the clamping mechanism 350, so that the inner liner 12 can smoothly enter the positioning groove 341 against the external force caused by the clamping mechanism 350.

The structure of the inner liner sleeve package body assembly 400 is described below:

as shown in fig. 7, the inner liner sleeve package box body 400 includes a sleeve connection lifting rod 410 and a sleeve connection driving portion 420 in driving connection with the sleeve connection lifting rod 410, wherein the sleeve connection driving portion 420 drives the sleeve connection lifting rod 410 to move up and down, so that the sleeve connection lifting rod 410 enters or separates from the inner liner blanking hole 342. In this embodiment, the socket driving part 420 is a cylinder driving structure.

The operation of the above described inner liner apparatus 20 for food packets is described below:

placing the packing box bodies 11 in the loading jigs 120 on the transport turntable 110, wherein each loading jig 120 loads one packing box body 11, and the transport turntable 110 rotates under the driving of the turntable driving part, so that a plurality of packing box bodies 11 can sequentially reach the designated positions;

when one of the packaging box bodies 11 reaches the designated position, the positioning driving part 132 drives the positioning telescopic rod 131 to extend out, so that the positioning telescopic rod 131 can penetrate through the positioning through hole 111, and the positioning through hole 111 is limited by the positioning telescopic rod 131, so that the loading jig 120 on the transport turntable 110 can accurately reach the designated position; when the inner liner 12 is sleeved in the packing box body 11, the positioning driving portion 132 drives the positioning telescopic rod 131 to contract, so that the positioning telescopic rod 131 is separated from the positioning through hole 111, the positioning through hole 111 is not limited by the positioning telescopic rod 131, and thus the transportation turntable 110 can continue to rotate under the driving of the turntable driving portion;

a plurality of lining pads 12 to be loaded are placed in the lining pad discharging vibration disc 200, under the action of the lining pad discharging vibration disc 200, the lining pads 12 sequentially reach the discharging port of the lining pad discharging vibration disc 200, and the lining pads 12 discharged from the discharging port continuously enter the linear conveying guide grooves 311 of the linear conveying guide rails 310;

under the vibration action of the conveying linear vibrator 360, the inner pad 12 in the linear conveying guide groove 311 is conveyed to the positioning groove 341 of the positioner body 340;

when one of the inner liners 12 is about to enter the positioning groove 341, the inner liner 12 cannot completely enter the positioning groove 341 due to the blocking of the clamping mechanism 350; at this time, the cut-in and separation driving portion 332 drives the cut-in and separation block 331 to extend, the separation surface 331a separates two adjacent inner liners 12 between the linear transport guide groove 311 and the positioning groove 341, so that the inner liner 12 in the positioning groove 341 can be smoothly loaded, and the cut-in surface 331b applies an acting force to the inner liner 12 about to enter the positioning groove 341, so that the inner liner 12 can smoothly enter the positioning groove 341 by overcoming an external force caused by the clamping mechanism 350;

in the process that the inner liner 12 enters the positioning groove 341, the left telescopic spring and the right telescopic spring are stressed to contract, so that the left clamping block and the right clamping block can avoid positions for the entering of the inner liner 12, and after the inner liner 12 completely enters the positioning groove 341, the elastic acting force of the left telescopic spring and the right telescopic spring is applied to the left clamping block and the right clamping block to clamp the inner liner 12, so that the inner liner 12 is prevented from easily falling from the inner liner blanking hole 342;

after the inner liner 12 completely enters the positioning groove 341, the sleeving driving part 420 drives the sleeving lifting rod 410 to descend, so that the sleeving lifting rod 410 can press and hold the inner liner 12 in the positioning groove 341, and further the inner liner 12 can pass through the inner liner blanking hole 342 and reach the current packing box body 11 of the loading jig 120; therefore, the engaging lifting rod 410 not only allows the inner liner 12 to pass through the inner liner blanking hole 342 and be separated from the positioning groove 341, but also applies a downward pressure to the inner liner 12, so that the inner liner 12 can be engaged with the packing box body 11.

As can be seen from the above, the transporting turntable 110 is located below the inner liner blanking hole 342, and the sleeved lifting rod 410 presses out the inner liner 12 in the positioning groove 341 to the packing box body 11 of the loading fixture 120 by a lifting motion. The height difference is formed between the packing box body 11 in the loading jig 120 and the inner liner 12 in the positioning groove 341, and the inner liner 12 sleeved on the end of the lifting rod 410 is easy to fall off under the action of the stress gravity in the process that the sleeve lifting rod 410 pushes the inner liner 12 to fall down and enter the packing box body 11, so that the sleeve stability of the inner liner 12 is affected. In order to solve the technical problem, the structure of the sleeved lifting rod 410 is particularly optimized.

For example, as shown in fig. 10, the sleeved lifting rod 410 includes a pressing rod body 411 and a plurality of pressing rods 412 disposed at one end of the pressing rod body 411, each pressing rod 412 is pivotally connected to the pressing rod body 411 through a torsion spring (not shown), and the plurality of pressing rods 412 are distributed in a ring array around a central axis of the pressing rod body 411.

Thus, under the action of the torsion spring, one end of the plurality of supporting rods 412 away from the rod body 411 forms a supporting end face 413, and in the original state, the supporting end face 413 is in an outward expansion state. In the process that the sleeve-joint lifting rod 410 is inserted into the cavity of the lining pad 12, the torsion spring is stressed to deform, so that the supporting end face 413 formed by the supporting rods 412 can contract inwards, and the supporting rods 412 can smoothly enter the cavity of the lining pad 12; at this time, the torsion spring continuously provides an elastic restoring force to the supporting rod 412, so that the supporting end face 413 formed by the plurality of supporting rods 412 can be abutted against the cavity wall of the cavity of the inner liner 12, and thus, a friction force exists between the supporting end face 413 and the cavity wall of the cavity of the inner liner 12, so that the inner liner 12 cannot fall off in the process of separating from the positioning groove 341 and descending; after inner liner 12 cup joints packing carton body 11, cup joint lifter 410 can rise and reset, at the in-process that rises and reset, because inner liner 12 has stable compaction on packing carton body 11, the frictional force of propping the chamber wall of pressing terminal surface 413 and the cavity of inner liner 12 is not enough to separate inner liner 12 from packing carton body 11, cup joints lifter 410 and can smoothly separate with inner liner 12, then, inner liner 12 alright cup joint on packing carton body 11 with stable.

The food box sleeve inner liner device 20 is used for quickly and accurately sleeving the inner liner in the cavity of the packaging box body, so that the traditional manual labor is replaced, and the mechanical automatic production level of food enterprises is better improved.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (6)

1. The utility model provides a food box cover inside lining pad equipment for with inside lining pad cover in the packing carton body, its characterized in that includes: the packaging box comprises a packaging box body conveying device, an inner liner discharging vibration disc, an inner liner conveying device and an inner liner sleeve packaging box body device;

the packaging box body conveying device is used for carrying out rotary conveying on the packaging box body;

the inner liner discharging vibration disc is used for performing vibration type discharging on the inner liner;

the lining pad conveying device is used for carrying out linear conveying on the lining pad at the discharge port of the lining pad discharging vibration disc;

the inner liner sleeve packaging box body device is used for sleeving the inner liner at the inner liner conveying device in the packaging box body at the packaging box body conveying device;

packing carton body conveyer includes: the device comprises a transport turntable, a turntable driving part and a loading jig; the turntable driving part is in driving connection with the transportation turntable, the turntable driving part drives the transportation turntable to rotate, and the loading jig is arranged on the transportation turntable; the packaging box body conveying device further comprises a positioning mechanism, the positioning mechanism comprises a positioning telescopic rod and a positioning driving part in driving connection with the positioning telescopic rod, a positioning through hole is formed in the conveying turntable, and the positioning driving part drives the positioning telescopic rod to enter or separate from the positioning through hole;

wherein the inner liner conveying device comprises: the linear conveying guide rail, the lining pad positioner and the lining pad cut-in and separation mechanism; the lining pad positioner comprises a positioner body and a clamping mechanism arranged on the positioner body, wherein a positioning groove is formed in the positioner body, a lining pad blanking hole is formed in the bottom of the positioning groove, and the transportation rotary table is located below the lining pad blanking hole; the linear conveying guide rail is provided with a linear conveying guide groove, and two ends of the linear conveying guide groove are respectively connected with a discharge hole of the liner discharging vibration disc and the positioning groove; the inner liner cut-in and separation mechanism comprises a cut-in and separation block and a cut-in and separation driving part in driving connection with the cut-in and separation block, the cut-in and separation block is of a wedge-shaped block structure, the cut-in and separation block is arranged between the linear conveying guide groove and the positioning groove, and the cut-in and separation block is provided with a separation surface facing one side of the linear conveying guide groove and a cut-in surface facing one side of the positioning groove;

the clamping mechanism comprises a left clamping structure and a right clamping structure, and the left clamping structure and the right clamping structure are respectively positioned on two sides of the positioning groove; the left clamping structure comprises a left clamping block and a left telescopic spring connected with the left clamping block, and the right clamping structure comprises a right clamping block and a right telescopic spring connected with the right clamping block;

the inner liner sleeve packaging box body device comprises a sleeve lifting rod and a sleeve driving part in driving connection with the sleeve lifting rod; cup joint the lifter and include the depression bar body and locate a plurality of bracing poles of depression bar body one end, each the bracing pole pass through the torsional spring pin joint in on the depression bar body, it is a plurality of the bracing pole uses the center pin of depression bar body is annular array distribution as the center.

2. The food casing liner apparatus of claim 1,

packing carton body conveyer still includes supporting frame structure, supporting frame structure includes a plurality of supporting rollers, and is a plurality of supporting rollers use the axis of rotation of transportation carousel is annular array and distributes as the center, the terminal surface pressure of transportation carousel is held in a plurality of on the supporting rollers.

3. The food casing liner apparatus of claim 2, wherein the turntable drive is a motor drive, the positioning drive is a cylinder drive, the cut-in and cut-out drive is a cylinder drive, and the casing drive is a cylinder drive.

4. The apparatus for lining in a food casing according to claim 2, wherein said loading jigs are plural in number, and are distributed in a circular array centered on a rotation axis of said transport carousel.

5. The food casing liner apparatus of claim 2 wherein said plurality of positioning through holes are distributed in an annular array centered on the axis of rotation of said transport carousel.

6. The food casing liner apparatus of claim 1 wherein a conveyor linear vibrator is mounted on the linear conveyor track.

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