This invention relates to a plastic product with stiffening provisions. The invention relates in particular to plastic products having walls, with stiffening provisions provided in the walls.
Plastic products, in particular manufactured by injection molding, should have a desired stiffness, for instance to allow the products to be stacked or to be filled and carried. To that end, wall thicknesses may be chosen to be relatively large, but this is undesirable in view of, for instance, material use, cycle times for the manufacture, and cost price.
It has previously been proposed to provide stiffening ribs on suitable parts of a product, so that the wall thickness can be chosen to be smaller and yet a suitable stiffness can be obtained. The thickness of the stiffening ribs, measured along the product part that is to be stiffened, is then chosen to be approximately equal to the wall thickness of the product part to be stiffened. In this way, problems of unequal shrinkage are largely avoided. Stiffening ribs are not always favorable.
The object of the invention is to provide plastic products where stiffening provisions are obtained in an alternative manner. In addition, or alternatively, the object of the invention is to provide products with a pleasant appearance.
According to the invention, a product is provided with at least one wall which on at least one side has a wavy course, such that the thickness of the wall in at least one direction is alternately thinner and thicker with a flowing course.
According to the invention, further, a product is provided which has at least one wall which on one side is substantially flat and on the opposite side has a wavy pattern in one direction, such that the thickness of the wall in said direction alternately increases and decreases.
According to the invention, alternatively, a product is provided which has at least one wall which has a wall thickness of a sinusoidal course in one direction.
According to the invention, further, a product is provided with at least one wall having a height direction and a width direction, which wall on at least one side has a wavy course over at least a portion in the height direction and a portion in the longitudinal direction, such that the thickness of the wall in at least one direction, preferably the longitudinal direction, is alternately greater and smaller with a flowing course.
In an advantageous embodiment, a product is provided which is somewhat holder-shaped, with a bottom and at least one wall extending from that bottom, while said at least one wall in a direction approximately parallel to the bottom, over at least a portion of the wall, has a cross section which is such that the wall thickness in that direction has a flowing course between alternately a first, smaller thickness and a second, greater thickness.
Preferably, such a holder-shaped product has at least two sidewalls and two end walls which extend along the side of substantially the rectangular bottom, approximately at right angles to the bottom, while at least two of the walls have at least a middle portion having a cross section of said flowing course.
In a further advantageous embodiment, the product has at least one cross wall which extends from a wave crest or wave trough of said at least one wall. Wave crest should herein be understood to mean the apex of a wall part having a flowing course that extends over a maximum thickness, while wave trough should be understood to mean at least a wall part extending over a minimum thickness.
The invention furthermore provides a product having at least one wall which on one side has a substantially flat portion and on the opposite side, at least opposite said substantially flat portion, has a wavy pattern in one direction, such that the thickness of the respective wall part in said direction alternately increases and decreases, while on said substantially flat portion at least one label is provided. This label can have been provided through in-mold labeling, but can also have been provided in a different manner.
The invention furthermore relates to a method for manufacturing plastic products, wherein at least one wall of the product is formed in a mold cavity by injection molding, wherein a portion of the mold cavity which forms said at least one wall has at least one movable mold wall part which is movable between a retracted position and a forwardly moved position, wherein, with the movable mold wall part in the retracted position, plastic is introduced into the respective part of the mold cavity and then said movable mold wall part is brought to the forwardly moved position, such that the plastic in said part of the mold cavity is spread, said movable mold wall part and/or an opposite mold wall part being formed such that on at least one side of the wall to be formed a wavy surface is obtained, such that the wall thickness of the respective wall in one direction has a flowing course between alternately thick and thin parts.
Waving of said at least one wall provides the advantage that sink marks can be wholly or largely prevented and that a high stiffness is obtained, in particular against buckling of the wall. Additionally, the advantage is achieved that a better force transmission can be obtained, especially upon stacking a series of such products. Especially middle areas of (side) walls of such products can contribute better to the (stacking) strength of the products, so that with relatively little material, great strength can be obtained.
The invention will be further elucidated with reference to the drawing.
In the drawing:
In this description, the same or corresponding parts have the same or corresponding reference numerals. The exemplary embodiments shown are shown only by way of example and should not be construed to be limiting in any way. Many variations thereon are possible within the invention, including combinations of parts of the exemplary embodiments shown.
In this description, products are shown which have been manufactured by injection molding from plastic. Then, preferably use is made of a method and apparatus according to, for instance, WO2004/024416, WO2004/041506, NL1027912, NL1027896 or 1027910, which applications are all understood to be incorporated herein by reference, in particular with regard to the use of movable wall parts of the mold for obtaining adiabatic heat development in the plastic after it has been introduced into the mold cavity, and the mold structure described therein, whereby in a simple manner products having relatively small and varying wall thicknesses can be obtained, with relatively short cycle times and little to no material stresses in the product. ‘Relatively’ should herein be understood to mean relative to a comparable product manufactured with conventional injection molding technique in a mold cavity of fixed shape and dimensions of the mold cavity, conforming to the product to be manufactured. However, also with conventional injection molding technique or injection compression molding and like techniques, a product according to the invention can be manufactured.
In this description, a wavy surface is understood to mean a surface having a substantially flowing course with crests and troughs, whereby if over at least two crests a straight line is drawn, the troughs are situated at a greater distance from said line than the crests. The waving of said surface preferably extends in one first direction. The crests and troughs then preferably extend over a length in a second direction which includes an angle with said first direction, over a length which is at least greater than the distance between two successive troughs in the first direction. The profile formed by the waved surface can be purely sinusoidal or cosinusoidal, with a uniform amplitude and wavelength. However, wavelength and/or amplitude in said first direction may vary.
Of a respective wall, preferably one side is substantially flat and the opposite side is wavy, but it is also possible to make both sides of wavy design, while the profile on opposite sides may be mirrored with respect to a central plane or may have different wave patterns. The waves then will not extend such that a wavy wall of a constant cross section is obtained. In products according to the invention, the or each wall having a wavy surface according to the invention may be provided with such a wave profile over the entire surface but also over just a portion. For instance, the first direction, and hence the wave pattern, can extend across the width of a wall, or a portion thereof, while the waves extend only over a portion of the height of the wall, in the second direction. In the second direction, for instance, above and under said waves, edges may then extend.
Where in this application reference is made to a wall, this is expressly understood to encompass a portion of a wall. A substantially flat side of a wall should herein be understood to mean a side of a wall or wall part that is formed by a flat surface or by a curved surface having a bending radius greater than the greatest wavelength of a wave profile on an opposite side of said surface.
In the drawings, different walls are represented with enlarged wall thicknesses, for clarity. The minimum and maximum thicknesses will have to be determined per product and can for instance be chosen between a few micrometers or less and whole millimeters or more, even up to tens of millimeters locally.
In this description, where holders 1 are discussed and shown, the bottom 2 will be referred to as the lower side or bottom, while the opposite side, proximal to the longitudinal edge, will be referred to as upper side or top. The space 8 enclosed by the bottom 2 and circumferential wall 5 is designated as inner space; the side of the bottom 2, end walls 4 and sidewalls 3 that faces the space 8 is designated as inner side 72; the opposite side as outer side 73. Sidewalls 3 will also be referred to as longitudinal walls 3.
As appears from
As is clearly apparent from
As indicated, in the embodiment shown, both the end walls 4 and the sidewalls 3 have a wavy inner side. The wall thickness d can vary in the second direction U over the wave crests 75, wave troughs 76 and flanks 77, for instance by choosing the thickness D near the bottom 2 to be slightly greater than near the flange 60, with each cross section approximately parallel to the bottom 2 having approximately a profile as shown in
Use of the wavy pattern as shown and/or described provides the advantage that the bearing capacity of the respective wall 3, 4 in the second direction, that is, from top to bottom or the other way around is greater than in the case of a wall having a thickness for instance corresponding to the average between the minimum thickness d1 and the maximum thickness d2, so that with less material a holder can be manufactured that has a greater loadability than a comparable holder with walls having a wall thickness that is substantially constant in the first direction K. Especially the buckling strength of a wall according to the invention is high.
In a wall according to the invention, preferably the ratio between the minimum thickness d1 and the maximum thickness d2 is between 10:10.1 and 10:80, in particular between 10:10.5 and 10:60, more particularly between 10:11 and 10:50. Tests and calculations appear to indicate that with smaller products the ratio can be smaller than with larger products, at least with products that are to withstand higher loading.
Without wishing to be bound to any theory, it seems the enhanced strength of the holder 1 is the result of the formation of “columns” by the waves 75, 76, while the gradual course of the wall thickness d in the first direction, especially in the flanks 77, prevents so-called sink marks. Such sink marks on the outer side can in known products be the result of, for instance, stiffening ribs or cross walls on the inner side of the product.
In the holder 1 shown, preferably on the outer side of the circumferential wall, at least longitudinal wall 3 and/or end wall 4 and/or the bottom 2, a label L is provided, in particular by in-mold labeling. In this way, for instance product information can be provided, the appearance can be embellished and barrier properties can be improved or adjusted. The outer side being flat and having no sink marks or the like allows particularly good and simple labeling, with relatively thin labels L.
In
If a product according to the invention is designed with double walls, of course both wall parts of the double wall may be designed with a wavy inner surface 72 and/or outer surface 73, but possibly such a surface at one of the wall parts can suffice.
In the following part of the description, by way of example, a crate, in particular a crate for bottles, will be described. However, the invention should not in any way be construed as being limited thereto. Many other holders, which may or may not be compartmented, having bottom surfaces of a variety of different shapes, such as circular, rectangular, square, or any other shape, are possible within the framework of the invention. Also, holders can be formed with and without cavities in the sidewalls and/or bottom. Further, in the same or a comparable manner, also other products may be manufactured, for instance partly hollow, plate-shaped, rod-shaped, tubular or differently shaped products. The products can have a longitudinal wall or longitudinal walls extending at right angles to a bottom surface, but the or a longitudinal wall thereof can also be inclined relative to the bottom surface.
In a mold and method according to the invention, different plastics can be used, in particular thermoplastic plastics and blends. Also crystalline plastics and mixtures thereof can be used particularly well within the invention.
A holder 1 according to the invention can for instance be manufactured in a mold 20 according to
The second part 25 comprises a central core part 26, for forming the internal space 8 of the holder 1. This central core part 26 is surrounded on all sides by a second core part 27 provided on the first part 24 of the mold 20. The second core part 27 corresponds in shape to the shape of the cavity 6 in the circumferential wall of the holder 1. Optionally, pins 28 can be provided in the upper side of the second core part 27, that fit into recesses in the second part 25 of the mold 20 to support it. As a result, openings are formed in the edge 12. Between a leading end 29 of the central core part 26 and the first part 24, a space 30 is left open for forming the bottom surface 2. In this space 30 terminates a supply opening 31 through which plastic can be introduced into the mold cavity 32. However, that opening 31 can also be provided at a different position or in multiple positions.
On the side of the second core part 27 facing away from the central core part 26, in the embodiment shown, on four sides, a movable wall part 33 is provided in the form of a slide 34 which is movable in a second direction of movement C. The surface facing the second core part 27 has the form of the outside of the respective part of the wall 3 or 4. Optionally, on the slide 34, a projection 35 can be provided for forming the handle 15, which projection, to that end, can reach through an opening 36 in the second core part 27. For the sake of simplicity, projection 35 and opening 36 are only drawn on the right-hand side.
In the position shown in
On the rear side of the slide 34, inclining surfaces 38 are provided, in the embodiment shown two surfaces 38 inclining in opposite directions. Further, a flat running surface 39 is provided behind the slide, i.e. on the side thereof facing away from the second core part 27. Provided between the inclining surfaces 38 and the running surface 39 are wedges 40 with corresponding inclining surfaces 38A and running surfaces 39A. The wedges 40 are connected with drive means 41, in
A mold 20 with press 21 can be used as follows.
The mold 20 is brought into the closed position shown in
The slides 34 are brought into the retracted, first position, after which, via the supply opening 31, with the aid of means 31A suitable therefor, plastic is introduced into the space 30, preferably in molten, at least substantially liquid form. From the space 30, the plastic flows via the spaces 30A between the central core part 26 and the second core part 27 over the second core part 27 into the spaces 37. Since the plastic experiences virtually no resistance in the spaces 37, it can easily flow into them without unwanted pressure build-up and/or solidification of the plastic. Then, when substantially all needed plastic has been introduced into the mold cavity 32, the drive means 41 are energized, so that the wedges 40 are moved to the second position and the slides 34 are forced in the direction of the second core part 27. The plastic is thereby forced further into the mold cavity 32, in particular as far as the end of the space 37, so as to fill it completely.
As the direction of movement C includes an angle with the direction of movement S, a favorable load of the different parts is obtained. As the plastic can flow into and through the mold cavity 32 without much resistance, relatively low pressures can suffice. As a result, for instance, bending of the second core parts 27 is prevented and excessive wear is controlled. Moreover, as a result of this too, the required closing force can be kept low.
After the slides have been moved forwards maximally, the plastic can solidify and after optional retraction of the slides and after opening of the mold 20, the holder 1 can be taken out. As a result of the relatively low injection pressure, the product will be virtually stressless.
In
The slides 34 of a mold 20 can be moved so rapidly that adiabatic heat development occurs in the plastic. As a result, the flow properties of the plastic can be improved still further and any plastic which has possibly solidified can be made liquid again. Alternatively, the slides 34 can also move slowly, so that the plastic is not heated, or heated only to a very limited extent, and already solidifies slightly during introduction. Also, it may be elected to move the slides in the direction of the second position already during introduction of the plastic (
In
The mutually facing sides of the walls 5A, 5B each have a wavy surface with crests 75 and troughs 76 with flanks 77 therebetween, as described earlier. The crests 75 are placed opposite each other, and so are the troughs 76, while the amplitudes Q and wavelengths G have been chosen to be substantially equal. However, the waves can also be positioned differently with respect to each other and/or the wavelengths G and/or amplitudes Q can also be chosen differently or be varied in the first direction K. In the embodiment shown, the cross walls 7 are placed between two troughs 76 of opposite surfaces. In this way, stiffness is imparted to the troughs 76 there where the wall thickness is smallest, while between the cross walls 7 and/or a cross wall 7 and a rib 78 the wall thickness increases over the flanks 77 to the maximum thickness and hence higher stiffness of the respective wall part. In this way, with still less material, a desired stiffness can be obtained. However, the cross walls 7 can of course be placed differently, for instance between two opposite crests 75 or between a crest 76 and an opposite trough 76. Variations thereon will readily occur to those skilled in the art and are expressly included herein.
Visible in
In the embodiment shown, the cross walls 10 are not connected with the (inner) wall 6A. In this way, for instance unwanted stresses may be avoided. However, they may of course be connected with the wall 5A, over the entire height thereof or a portion thereof.
By the use of a mold 20 and method as described above or according to any one of the earlier-mentioned patent applications, the advantage is achieved that relatively few stresses, if any, occur in the material of the crate. As a result, a product according to the invention can be made of still lighter and stronger design. Moreover, in this way, non-clearing products, such as a crate according to
In the crate 1 as shown in
Without wishing to be bound to any theory, in a crate according to the invention, advantages appear to be associated with the wavy surfaces in that a part of the bearing capacity of the crates, compared with traditional crates, has been moved to a middle portion of the walls. As a result, the ribs 78 can be made of slightly lighter design, while the middle portions do not require more material than in said traditional crates where the ribs have a much greater share in the bearing capacity. In particular when stacking the crates, this is particularly advantageous. Indeed, the crates can sustain a higher load while the crates themselves are lighter and hence will constitute a lesser load upon maximum stacking. Traditional crate is herein understood to mean at least a crate of equal dimensions with equal inner space, comprising a frame with relatively thick ribs with middle portions therein having a relatively constant thickness, smaller than the thickness of the ribs.
In
If cross walls 7, 10 are provided, these can extend at right angles to the wall 3, 4 but may also include an angle with it, preferably between 20° and 160°. The thickness of the cross wall is preferably smaller than or equal to the average thickness of the wall with which it is connected but may also be greater.
It will be clear that the invention is not limited in any way to the exemplary embodiments given in the drawing and the description. Many variations thereon are possible within the scope of the invention outlined by the claims.
For instance, in a mold according to the invention, different numbers and/or shapes of slides, at least moving wall parts, can be provided, which can for instance also be made of tilting design. Different types of drive means may be provided. The mold parts 22, 23 can be moved and be held closed in a different manner, while also multiple molds and/or stack molds can be built up in a comparable manner. It will further be clear that the first and second directions of movement can also include other angles than the angle of approximately 90° shown, and further the directions of movement may be different for different slides. The movements of the wedges and slides can have any desired orientation, as long as the first and a second direction of movement mutually include an angle. Also, products of a different kind may be manufactured with a mold, at least assembly, according to the invention, for instance relatively small and/or low products, tubular products and the like. Different types of holders can be manufactured according to the invention. Wave patterns can also be provided on the outer sides of the walls. If use is made of slides, the wave patterns can be formed wholly or partly with the aid of those slides.
These and many comparable embodiments are understood to fall within the framework of the invention as outlined by the claims.
Number | Date | Country | Kind |
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1028510 | Mar 2005 | NL | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/NL06/00126 | 3/10/2006 | WO | 00 | 2/15/2008 |