NO154160B - EXTRUSION TOOL FOR THE PREPARATION OF A PLASTIC COATING FLUID. - Google Patents

Description

The present invention relates to an extrusion tool for the production of a plastic closure device of the type stated in the introduction to claim 1.

Plastic bags incorporating plastic closures

are well known and popular in use. A plastic closure device generally includes two closure strips that lock together. Each closing strip includes a profile

part and a base part.

The two complementary profile parts of two closing strips are connected to each other when the closing device is closed. The overall shape of the profile parts must be maintained during the production of the closing strips, so that a good closure is achieved. In addition, the joining of the profile and the base parts must be done in a way that prevents deformations that could affect the preferred shape of the closing strip.

The closing device, which is described in the Norwegian application

No. 791071, shows a typical closing device suitable to be produced by the present invention.

From DE-AS 1479151, a device is known for producing an open and snake-shaped plastic web with plastic closing ribs arranged on one side. The device has a profile channel and a base channel, which are arranged close to each other at the profile channel opening and at the base channel

the opening and which are separated from each other by a nozzle body part. The nozzle body part ends in front of the extrusion opening so that the channels within the control part are connected to a single channel which includes the profile channel and the base channel. Here, a certain connection of the base part with the profile part takes place before the outlet of the extrusion opening, but only at the outlet of the extrusion opening, which forms the part to be produced.

From US-PS 3579730 an extrusion

device for the production of plastic closing strips with profile and base parts. The profile channel and the base channel are

here arranged close together and separated from each other by a nozzle body part. From fig. 3 and 6 in particular shows that this device separates the profile strings and the base strings from the respective profile channel openings and are connected to each other only afterwards, i.e. after they leave the opening.

Previously known methods and apparatus for producing a closing strip include separate extrusion and shaping of the profiles and base parts and subsequent joining of these parts.

As a result, deformation can occur during manufacture and especially during the connection of the parts. With these facilities, work can only be done very slowly, especially because there is only one profile - or base channel. According to this, the present devices are not suitable for commercial mass production. A disadvantage consists in the relatively slow, necessary cooling, e.g. air cooling, which leads to low production rates.

The invention has the task of improving the known devices by providing a good control of the extrusion process of the profile and base parts and further enabling a good maintenance of the shape, i.e. largely no deformation, of the closing strips.

This task is provided by extrusion tools of the type mentioned at the outset, the characteristic features of which appear in claim 1.

Further features of the present invention appear from the subclaims.

The invention will now be described in more detail with reference to the accompanying drawings by means of embodiments, where:

Figure 1 shows a cross section of two closing strips

which forms a closure device and which is suitable to be produced using the method according to the present invention,

figure 2 shows a plastic bag with a closing device

as shown in Figure 1,

figure 3 diagrammatically shows an extrusion system which includes an apparatus according to the present invention,

figure 4 shows a diagrammatic cross-section of a device according to the present invention,

figure 5 shows a diagrammatic partial view of another embodiment of the device according to the present invention,

figure 6 shows a perspective view of a control rod used in the device in figure 4,

figure 7 is a perspective view of another control rod used in the device of figure 4,

figures 8A, 8B and 8C are views of different control rods,

figure 9 shows a diagrammatic section which shows

another embodiment of a flow distributor for the device shown in Figure 4, and

figures 10A and 10B each show a cross-section of a combined closure strip produced by means of an apparatus according to the present invention. Figure 1 shows a closing device according to the previously mentioned Norwegian application no. 791071. The profile part 20 is connected to a base part 21 and the profile part 22 is connected to a base part 23. The profile parts 20 and 22 are compatible and the profile part 20 cooperates with the profile part 22. The two the closing strips 25A and 25B form a closing device. Figure 2 shows a typical plastic bag 24 which includes a closure device 26. It has been found economical to manufacture the two closure strips of the closure device 26 separately and connect them to a film web during the manufacture of the bag 24.

It is thus desirable to have an economical and reliable extrusion die device for producing the closing strips that make up the closing device 26.

The closing strip of the closing device 26 can be produced by an extrusion system which includes an extrusion nozzle device according to the present invention as shown in Figure 3. The extruder 27 is connected by a line 28 to an extrusion nozzle device 29. Extruded closing strips 31 and 32 are produced at the extrusion nozzle and goes into a cooling bath 33> which e.g. may be a container of water and is then redirected by rollers 34 and 36 to pinch rollers 37 where the closure strips 31 and 32 are closed to form a continuous closure device 38. The speed at which the continuous closure device 38 is produced depends on the size and screw speed of the extruder 27, the melt flow of the material, the speed of the pinch roll 37 and the cooling rate and the adjustment of the die components that produce the closing strips 31 and 32 as well as other factors.

Equipment for extruding plastic material is generally well known and there are previously known relevant extrusion devices for closure devices. Figure 4 shows a partial section of an extrusion nozzle according to the present invention where details such as mounting screws, nozzle heaters, sensing control elements, etc. have been omitted for the sake of clarity. The flow distributor 4o provides the distribution pattern for the added plastic material. Plastic material under pressure is communicated with the channels 4l and 42 and then through the flow distributor 40. The channel 4l is connected to a control opening 43 and an adjustable valve guide kk before it goes to a control part 46 and the nozzle opening 45. The nozzle opening 45 is an outlet and a shape controller for a base part.

The channel 42 is connected to the channels 42a, 42b and 42c. The channel 42a passes through a control opening 48 and an adjustable valve guide 49 before it reaches the control part 51 and the nozzle opening 52. The nozzle opening 52 is an outlet and a shape guide for a closing profile. The nozzle body part 47 between the channels 4l and 42a ends shortly before the surface of the nozzle body so that the profile part and the base part touch each other and are connected before the outlet from the nozzle body to form a closing strip 54.

The device shown in Figure 4 includes a part

to produce another closing strip 68 which is complementary to the closing strip 5^.

The channels 42b and 42c pass through the control openings 56 and 57 and adjustable valve guides 58 and 59 and possibly reach the control parts 6l and 62. The nozzle opening 63 is an outlet and form guide for a. profile part 64 and the nozzle opening 66 are an outlet and shape guide for a base part 67.

The profile part 64 and the base part 67 touch each other

and are joined together before exiting the nozzle body to form the closing strip 68. The closing strips 54 and 68 go down into a water bath 69 for cooling the plastic material.

Figure 5 shows part of another embodiment

for extrusion of closure strips. For the embodiment in Figure 5, the closing strips are opposite when compared with the embodiment shown in Figure 4. That is, the profiles 70 and 71 face each other while the base part 72 and 73 are on the outside of the closing strips 7k and 76. The difference in the device shown between Figure 4 and 5 can be achieved by choosing the arrangement of the steering parts 46, 51, 6l and 62.

Figure 6 shows a typical control part 81 for producing a base part for a closing strip. An introduction cone 82, a guide edge 83 and a recess 84 are factors that determine the size and shape of the extruded material. The guide edge 83 and the recesses 84 are shown as linear, but this is not necessarily the preferred embodiment. The guide edge 83 can either have a slight contour or have steps

of different depth. The guide edge 83 can be straight in the direction that determines the width and have a variable height so that the thickness variation can be controlled.

The width of the guide edge 83 depends on which base part width is desired. The mounting holes 86 allow the control part 81 to be mounted or removed easily. Figure 7 shows a drawing of a control part 87 for producing a profile part for a closing strip. A recess 88 communicates with a plastic material which is supplied under pressure and also communicates with the channel 89 which defines the shape of the profile part. The channel 89 can be formed with good precision using an electrodeposition method according to known technology. The mounting hole 91 allows mounting and removal of the steering part 87. Figures 8A, 8B and 8C show cross-sections of three guide rods having profile channels located at different locations. The profile part 92A shows the profile channel 93A with the nozzle opening S>kA located at a distance from the place where the nozzle opening for the base part would be such that the base and profile parts are connected together on the outside of the nozzle body. The guide part 92B shows the profile channel 93B which has a nozzle opening 9^B which will produce the base and profile parts which will join just before the exit of the nozzle body due to the nozzle body part 96B being just before the nozzle face.

The guide part 92c includes a profile channel 93C and a nozzle opening 9^C and constitutes the nozzle body part 96C which is recessed about 0.25mm to about 6.35mm away from the surface 97C, preferably from about 0.38mm to about 2.29mm. The Ad separation between the profile and base channel at the nozzle openings is less than 1.02mm and preferably about 0.51mm and with preferred limits from about 0.051mm to about 0.2mm.

The manufactured profile and base parts will be joined together

before the exit of the nozzle body. The steering part 92C can advantageously be used with a low draft ratio of around 1:4,

and a high operating speed of about 91>^m/min, and rapid cooling means such as a water bath. The cooling can also be carried out by liquid mirroring or other known methods.

Figure 9 shows a section of another embodiment

of a flow divider. The channel 100 supplies the plastic material to a base part extruding opening, while the channel 101 communicates with the channels 101a, 101b and 101c to form two profile parts as well as a base part. This device allows selection of one of the parts with a different color or different composition than the other part.

Figures 10A and 10B show two strips that can be extruded from an extrusion die according to the present invention by placing two profile die openings near a wide base die opening. The cutting base part 106 between the profile part 107 and 108 will produce two closing strips. Similar operations on the base part 109 will produce four closure strips.

It is clear that the present invention is not limited to the embodiments described above, but that modifications can be made by the expert in the field.

Claims (3)

1. Extrusion tool for the production of a plastic closure strip with a profile part and a base part with a nozzle body, which has separate supply channels for the profile and base parts, which pass close to each other into corresponding form channels of a guide part and through a nozzle body part separated from each other, characterized in that the nozzle body part (47) opens shortly in front of the nozzle openings (45, 63) and that the mold channels (93b, 93c; 82, 83, 84) for the profile parts (20, 22) and the base parts (21, 23) are designed to the already final cross-section formation of the profile part and the base parts which are to be connected already in the steering part. 2. Extrusion tool according to claim 1, characterized in that the nozzle body part (47) ends in an area of 0.025 cm to 0.635 cm in front of the nozzle opening (45, 63). 3. Extrusion tool according to claim 2, characterized in that the nozzle body part (47) ends in an area 0.038 cm to 0.299 cm in front of the nozzle opening (45, 46).