The present invention, as expressed in the wording of this specification, relates to a machine and method for assembling boxes, such that, by means of the machine of the invention, boxes which comprise a base and four lateral walls: two head walls and two side walls are assembled, with the particularity that all the parts are independent elements made of a rigid material.
The assembly of the box is carried out by first engaging two opposite lateral walls, moving the same in perpendicular planes with respect to the base, which is held in a static position during the coupling of these first two lateral walls, to then proceeding with the engagement of the other pair of opposite lateral walls, which shall also move in perpendicular planes with respect to the plane of the base, still held in a static position.
A type of box to be assembled corresponds to the utility model with application number U 201030859, such that the couplings of the lateral walls (side walls and head walls) are carried out as described in the preceding paragraph.
Thus, the objective of the invention is a machine that is simple to operate but is highly precise in the coupling of the different independent parts that make up the box, also comprising a simple assembly method. The foregoing translates into a high performance in the assembly of the boxes.
The main problem in the automation of the assembly of the type of boxes of the invention is the high degree of precision with which the parts must be moved in order to engage with each other correctly.
Nowadays machines for assembling boxes which have a structure that separately supports, in principle, the different parts to then bring them to an assembly station where the assembly of the box is carried out by means of different mechanisms and devices, are known.
In some cases, these machines exhibit a significant degree of complexity, while the lack of precision brings about a bad operation and a defective assembly of the boxes, which requires stopping the machine until the abnormality that is produced is corrected.
The utility model with application number U 201030859 consists of a box comprising a base and four lateral walls: two head walls and two side walls, all of these parts being independent elements, such that the base is provided with peripheral flanges that engage with grooves provided in the lower portion of the side walls and head walls, the head walls also being provided with end tongues that are inserted into notches provided close to the ends of the side walls.
With the purpose of achieving the objectives and avoiding the inconveniences referred to in previous sections, the invention proposes a machine for assembling boxes, these boxes being of the type that comprise four independent parts, namely: two side walls, two head walls and a base provided with peripheral flanges that engage with grooves provided in the lower portion of the side walls and head walls, the head walls being provided with end tongues that are inserted into notches provided close to the ends of the side walls.
The machine includes a characteristic central assembly station of the boxes, which comprises:
Each horizontal push device of the side walls and head walls comprises a pair of opposed linear actuators by means of gripping elements that secure each end and side by their two opposite faces, generating a resulting push movement towards the base.
The lifting device comprises a linear actuator and seating platform supporting the base of the box, the seating platform integrating lugs inserted into first holes of the base and also into second holes of the stationary forming die to ensure a better securing and a precise positioning of the base during the assembly.
The movable head connected to the cylinder arranged above the stationary forming die integrates upper stops and other lower stops that allow compensation for the small deformations in the head walls and side walls.
The cylinder arranged above the stationary forming die is affixed to an upper base affixed to the upper ends of the vertical columns.
The lower edges of the side walls and head walls enter into contact with the base ring when moved downwards by the push skids in correspondence with the lower windows.
The machine also has a base supplying device where the bases are stacked in overlapping horizontal planes, and where the supplying device is arranged in a front area of the machine, before the central assembly station of the boxes.
The machine also integrates a terminal station comprising a box stacker, where the assembled boxes are stacked from below.
The machine also integrates a lower transporter that drags simultaneously, by means of a “pilgrim” movement, a base collected from the managing device and a box formed in the central assembly station having been deposited by means of the descent of the lifting device.
The machine also comprises a rear station located between the central assembly station and the box stacker (terminal station).
The lower transporter integrates pairs of lateral stops between which the different elements supported by said lower transporter are arranged: base and box.
The method for assembling boxes carried out by the machine described above comprises the following steps:
It also comprises the following preliminary steps with respect to the steps of the horizontal dragging of the side walls and head walls:
Next, in order to facilitate a better comprehension of this specification and being an integral part thereof, figures are attached, in which the object of the invention has been represented in an illustrative rather than limiting manner.
The machine comprises a central assembly station 1 of the boxes 2, which integrate four independent parts: two large lateral walls or side walls 3, two small lateral walls, or head walls 4, and a base 5.
The base 5 is provided with peripheral flanges 6 that engage, during the assembly process, with supplementary grooves 7 provided in the lower portion of the side walls 3 and head walls 4. In addition, the head walls 4 are provided with end tongues 8 that are inserted into notches 9 provided close to the ends of the side walls 3.
As is evident, it is possible for the end tongues to be arranged at the side walls 3 and for the notches 9 to be arranged at the head walls 4 as a second option. However, in the example of embodiment, we shall consider the first option described in the preceding paragraph.
Thus, in order to carry out the assembly, the base 5 is located in a static position in a horizontal plane to then move in a horizontal direction, the head walls 4 being arranged in vertical planes until the respective peripheral flanges 6 of the base 5 are engaged with the grooves 7 of the head walls 4.
In a subsequent step, the side walls 3, arranged in vertical planes, are moved in a horizontal direction to also engage the respective peripheral flanges 6 of the base 5 with the grooves 7 of the side walls 3. In this step, it is evident that the end tongues 8 of the head walls 4 are inserted into the notches 9 of the side walls 3.
Thus, the box 2 formed by rigid parts, as referred to in previous sections, is assembled.
The central assembly station 1 comprises a base ring 10, inside which a stationary forming die 11 is arranged, the base 5 of the box 2 to be formed being positioned on its lower face. The placement of the base 5 on the lower face of the stationary forming die 11 is carried out by means of a lifting device 12, which moves the base 5 vertically upwards from a lower transporter 13 located under the central assembly station 1. This lifting device 12 comprises a linear actuator 14 and a seating platform 15 of the base 5, such that the linear actuator 14 drags the seating platform 15 upwards together with the base 5 until the same makes contact with the lower face of the stationary forming die 11, the peripheral flanges 6 protruding with respect to the contour of said stationary forming die 11.
The seating platform 15 has lugs 16, which are inserted into first holes 17 of the base 5 and also into second holes 18 of the stationary forming die 11 to ensure a better securing and a precise positioning of the base 5 during the assembly.
The peripheral flanges 6 protrude outward with respect to the contour of the stationary forming die 11.
It should be noted that, once the box 2 is formed, the lifting device 12 goes downwards to place the assembled box 2 on the lower transporter 13 to drag it forward, as shall be described below.
The central assembly station 1 has also four vertical columns 19 corresponding to the four vertical corners of the box 2, four inclined feeders composed by pairs of inclined guiding profiles 20 converging towards the base ring 10 in turn being affixed to said vertical columns 19, such that the pairs of inclined guiding profiles 20 support the stacks of parts arranged in vertical planes corresponding to the head walls 4 and side walls 3.
The inclined guiding profiles 20 are attached by their converging lower ends to the vertical columns 19 themselves.
On the other hand, the spaces delimited between pairs of vertical columns 19 are covered by vertical plates 21, with the exception of lower windows 22 that allow the passage of the lateral walls of the box 2 during their movement in the assembly step with the base 5.
Outside of said vertical plates 21, the vertical columns 19 have guiding channels 23 of push skids 24 that drag the first flat parts (head walls and side walls) of the stacks downwards until they are located facing the lower windows 22, through which said flat parts are moved to be coupled to each other and with respect to the base. In order to enable the descent operation of the first flat parts of the stacks, the inclined guiding profiles 20 integrate grooved cuts 25 that allow the passage of the end sections of the first flat parts comprising the head walls 4 and side walls 3.
The descent of the first flat parts by means of the push skids 24 ends when the flat parts going down enter into contact, through their lower edge, with the base ring 10, which is when the horizontal push towards the base 5 begins, such that during said movement, the flat parts (side walls and head walls) are guided through their end edges amongst the pairs of vertical columns 19.
The movement of the push skids 24 is carried out by means of a cylinder 26 superiorly housed inside the space delimited by the four vertical columns 19, said cylinder 26 being affixed to an upper base 27 affixed to the upper ends of the vertical columns 19. In turn, the piston rod of the cylinder 26 is connected to a head 28, to which the push skids 24, arranged outside the vertical plates 21, are joined.
The head 28 also integrates upper stops 29 and lower stops 30 (
The perpendicular drag of the first flat parts (head walls and side walls) towards the base 5, once they face the lower windows 22 and when the head 28 has recovered its upper position, is carried out by means of push devices 31 that act in parallel two by two: first the ones that drag the head walls 4, and then the ones that drag the side walls 3.
These push devices 31 comprise two opposed linear actuators 32, 33 by means of gripping elements that hold each flat part by its two faces, generating a resulting perpendicular push movement towards the base 5 to engage the side walls 3 and head walls 4 with the peripheral flanges 6 of the base 5.
The machine also comprises a base supplying device 34 where the overlapping bases 5 are stacked in horizontal planes, such that under this supplying device 34 there is an initial section of the lower transporter 13 that will drag the last base 5 until it faces the base ring 10 under the same, the lifting device 12 being located in a lower position.
The lower transporter 13 is in charge of carrying out all the movements in a synchronized manner, that is to say, when it performs a movement, it moves all the elements that it supports: the base 5, which is dragged from the supplying device 34 to the central assembly station, a box 2 assembled in the central assembly station 1, which is dragged to a rear station 35 arranged after the central assembly station 1, and another box 2 dragged to a terminal station 36 determined by a box stacker.
Each element supported by the lower transporter 13 is separated from contiguous elements by means of pairs of lateral stops 37 integrated in said lower transporter 13.
Taking into account the numbering adopted in the figures, the machine for assembling boxes contemplates the following nomenclature used in the description:
Number | Date | Country | Kind |
---|---|---|---|
201231141 | Jul 2012 | ES | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/ES2013/070321 | 5/21/2013 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2014/013107 | 1/23/2014 | WO | A |
Number | Name | Date | Kind |
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3410441 | Rhyne | Nov 1968 | A |
3640189 | Bowman | Feb 1972 | A |
3913300 | Benzing | Oct 1975 | A |
4028999 | Lee | Jun 1977 | A |
4283188 | Wingerter et al. | Aug 1981 | A |
4720020 | Su | Jan 1988 | A |
5161709 | Oestreich, Jr. | Nov 1992 | A |
5597084 | Parasin | Jan 1997 | A |
5807223 | Holton | Sep 1998 | A |
6309335 | Holton | Oct 2001 | B1 |
6312369 | Plemons | Nov 2001 | B1 |
8109402 | Hartwall | Feb 2012 | B2 |
8696535 | Vizanova Alzamora | Apr 2014 | B2 |
9027897 | Hill | May 2015 | B2 |
20070095825 | Tsao | May 2007 | A1 |
20130146606 | Blay Orenga et al. | Jun 2013 | A1 |
Number | Date | Country |
---|---|---|
1 073 141 | Oct 2010 | ES |
2 189 184 | Oct 1987 | GB |
Entry |
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International Search Report dated Nov. 27, 2013 in International (PCT) Application No. PCT/ES2013/070321. |
Number | Date | Country | |
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20150183177 A1 | Jul 2015 | US |