JPH0857394A - Slot die for imparting free flowing material - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enhance the uniformity of a material flow rate in a slotted die by forming a cross section of an outlet passage so that the cross section is increased between an end facing to a distributing passage and an outlet opening part. SOLUTION: An outlet passage 50 is open toward an outlet opening part 28 at a bottom part of a mouthpiece 26 made of this slotted die. A distributing passage 46 is bent downwardly in the drawing at +87.6 deg. and minus 87.6 deg. angles formed by its vertical axis and its symmetrical axis 58 in the position where the vertical axis and the symmetrical axis 58 intersect each other to form constituent parts 46a and 46b. The distributing passage 46 is connected to an intermediate passage 48 having a width equal to an about 1/4 width of the distributing passage 46, which is connected into a semicircular upper part 60 of an outlet passage 50 to open. By forming the upper part 60 of the outlet passage 50 as a semicircular shape like this constitution, the width of the outlet passage 50 is varied such that the width is rapidly increased and successively slowly increased as the distance from the intermediate passage 48 grows. And the upper part is connected to the outlet opening part 28 of the mouthpiece 26 through a rectangular part 62. The material flow rate can be uniformized by this constitution.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a material supply passage, a distribution passage connected to the supply passage, and several outlets connected at various points along the distribution passage at an upstream end to an outlet opening. It relates to a slot die for the application of free-flowing materials, in particular for applying or applying hot melt adhesives, provided with channels.

[0002]

BACKGROUND OF THE INVENTION In the industry, there is an increasing need to apply adhesives, such as hot melts, to surfaces in the form of parallel elongated strips. The uniformity of applying the hot melt adhesive to the surface is very important. In particular, the amount of adhesive forming parallel thin lines must be as uniform as possible for each thin line.

For this purpose, slot dies designed to connect to an applicator head are known from the prior art. In this die, hot melt adhesive is supplied to a distribution passage through a supply passage. From here, the hot melt flows through several outlet passages that branch off from the distribution passages. These outlet passages are rectangular in length and cross section. Finally, the adhesive reaches the outlet opening, which has a slot shape. It has been found that this type of slot die does not meet the new high requirements for material flow uniformity, especially the requirement that the flow rate of material leaving the exit openings be the same for all openings. In fact, differences in adhesive weight of up to 25% have been observed between parallel elongated lines. These weight differences are not reproducible and vary significantly from application to application.

[0004]

SUMMARY OF THE INVENTION An object of the present invention is to provide a material supply passage, a distribution passage connected to the supply passage,
And for applying a free-flowing material, especially for applying hot melt adhesives, with several outlet passages connected to various points along the distribution passage at the upstream end and leading to an outlet opening It is an object of the present invention to provide a slot die capable of satisfying a high demand for the uniformity of the flow rate of the material being dispensed through the outlet opening.

[0005]

This object is a slot die of the type described above, characterized in that the cross section of the outlet passage is increased between the end facing the distribution passage and the outlet opening. Achieved by die.

In the slot die of the present invention, the increase in cross-section of the outlet passages is preferably limited to the preferential portion of each outlet passage in the flow direction. Furthermore, slot dies are preferred in which the increase in the rectangular cross section of the outlet passage is limited to the enlarged portion of the width of the outlet passage. For many applications, it is advantageous for the cross-sectional shape and size of the exit passage to be the same for all passages.

In the preferred embodiment of the slot die, the increasing cross-section of each outlet passage is designed as a semicircle and is connected to the distribution passage at the center of the arc. Furthermore, in the preferred embodiment, each outlet passage extends substantially maintaining its width at its widest point.

In a preferred embodiment of the slot die, the longitudinal axis of the distribution passage curves towards the outlet opening.
In this case, the longitudinal axis of the passages that make up the distribution passage is approximately + 87.6 ^° and -87.6 ^{° with} respect to all passage symmetry axes.
It is particularly advantageous to have an angle of It is also advantageous for the cross section of the distribution passage to have an arcuate section and a straight section.

In a particularly preferred embodiment of the slot die,
Each outlet passage is connected to the distribution passage by an intermediate passage.
Advantageously, the cross section of the intermediate passage is smaller than the average cross section of the outlet passage. Further, the depth of the intermediate passage is preferably about 80% of the depth of the outlet passage. In the preferred embodiment of the slot die, the cross section of the intermediate passage also has an arcuate portion and a straight portion. Finally, in the preferred embodiment of the slot die, the cross sectional area of the intermediate passage is about 1/5 to 1/10 of the cross sectional area of the distribution passage. Other details, features of the invention,
And advantages will be described below by way of example with reference to the accompanying drawings.

[0010]

DESCRIPTION OF THE PREFERRED EMBODIMENT FIG. 1 is a front view of a conventional applicator head 10. The upper part of the applicator head 10 is formed by an electropneumatic control device 12, below which the base part 14 is connected, and at its lower end a slot die 16 is mounted. The base 14 has two holes 18 for receiving screws for attaching the applicator head 10 to a support (not shown).

FIG. 2 shows the applicator head 1 shown in FIG.
0 is shown in side view, in which the base 14 is shown in section. Attached to the base 14 is a connector 20, through which hot melt adhesive flows into the base 14. Within the base 14 itself is a nozzle needle 22 for adjusting the dispensing rate of the adhesive. When the valve containing the nozzle needle 22 is open, the liquid hot melt adhesive passes through the connector 20, through the nozzle needle 22, and into the mouthpiece holder 24 of the slot die 16 from which the adhesive is drawn. 26 and into the slot die 16 and exits there through a slot-shaped outlet opening 28.

The nozzle needle 22 is operated by compressed air. The compressed air enters the controller of the applicator head 10 through the compressed air connector 30 and the controller 12
Directly to the differential piston inside, as well as the magnetic valve 32.
Sent indirectly via. The magnetic valve 32 controls the position of the differential piston and thus the nozzle needle 22 connected to the piston. As a result, the hot melt adhesive is flowed or blocked by the electrical signal sent to the magnetic valve 32. A connector 34 for a known recirculation line for liquid hot melt adhesive is also provided on the base 14 of the applicator head 10 to prevent pressure peaks in the flow of hot melt adhesive during valve opening and closing. ing.

FIG. 3 shows the mouthpiece holder 2 shown in FIG.
4 shows a front view of FIG. It can be seen that the supply passage 36 consists of two holes 38, 40 that are at right angles to each other. One of these holes, the first feed hole 38, extends into the holder from the top of mouthpiece holder 24. Inside the mouthpiece holder 24, this hole is connected to the second supply hole 40. This hole leads to an opening in the flat, polished front surface of mouthpiece holder 24. The threaded hole 44 in the mouthpiece holder 24 allows the screw 15
It is designed to receive (FIG. 1), which attaches the mouthpiece 26 to the mouthpiece holder 24.

FIG. 4 is a rear view of the mouthpiece 26 shown in FIG. The distribution passage 46, the four intermediate passages 48 and the outlet passage 50 are cut as depressions in the rear surface of the mouthpiece 26. Further shown are four holes 54 for receiving the screws 15 for securely screwing the mouthpiece 26 to the mouthpiece holder 24. The rear surface 52 of the mouthpiece 26, except for the cut passages and holes, is flat and polished. The intermediate passage 48 diverges from the distribution passage 46, which leads directly to the outlet passage. The outlet passage 50 opens into the outlet opening 28 at the bottom of the mouthpiece 26. The hole 54, the passages 46, 48 and 50, and the outlet opening 28 are symmetrical with respect to the axis of symmetry 58. Where the vertical axis of the distribution passage 46 intersects the axis of symmetry 58, the vertical axis bends towards the outlet opening, ie downwards in FIG. The angle between the axis of symmetry 58 and the axis of symmetry 58 of the component parts 46a, 46b of the distribution passage 46 thus formed is +
87.6 ^° and -87.6 ^° . The intermediate passage 48, which is connected to the distribution passage 46, has a width of about 1/4 of the width of the distribution passage 46 and opens into the upper portion 60 of the outlet passage 50, which is shown as a semicircle in FIG. As shown clearly in FIG. 4, the passage is located in the center of the semicircle. As a result of being semi-circular, the width of the outlet passage 50 is
Thus, as the distance from the intermediate passage 48 increases, it first increases rapidly and then slowly. A semi-circular portion 60 of the outlet passage is followed by a rectangular portion 62 of constant width, which connects to the outlet opening 28 at the bottom of the mouthpiece 26. The width of the intermediate passage 48 is about 1/5 of the width of the rectangular portion 62 of the outlet passage 28. In a practical embodiment, the intermediate passage 48
Has a length of about 1/2 to 1/3 of the total length of the outlet passage 50, a maximum depth of 0.2 mm, and a uniform depth of the outlet passage of 0.25 mm.

FIG. 5 shows the mouthpiece 26 of FIGS. 2 and 4.
The cross section of is shown. One of the holes 54 between the front surface of the mouthpiece 26 and its flat, polished back surface 52 is visible.
It can be seen that the cutting portion forming the distribution passage 46 has a cross section of a portion 64 of an arc. The distribution passage 46 defined by the cutting portion is closed on the surface when the mouthpiece 26 is assembled by the mouthpiece holder 24. In the area of the distribution passage 46, the holder has a smooth front surface 42 interrupted only by the supply holes 40, which surface thus forms a flat border wall for the distribution passage 46. The area of the distribution passage 46 shown in FIG. 5 is followed by one of the intermediate passages 48 and one of the outlet passages 50, as shown in connection with FIG.

FIG. 6 is an enlarged view of detail Z of FIG. FIG. 6 is drawn so that a part of the intermediate passage 48 and the outlet passage 50 can be clearly seen in a vertical section. It can be seen from FIG. 6 that the maximum depth of the intermediate passage 48 and the depth of the outlet passage 50 shown in the figure are respectively constant over their entire length. The depth t of the intermediate passage 48 is in this case 80% of the depth of the outlet passage 50. From FIG. 6, the intermediate passage 4
It cannot be inferred that the cross section of No. 8 is a part of an arc just like the cross section of the distribution passage 46, or that the cross section of the outlet passage 50 is rectangular.

Finally, FIG. 7 shows a cross section of the entire slot die 16 consisting of the mouthpiece 26 and the mouthpiece holder 24 screwed together. Arrow 66 indicates the direction in which the hot melt adhesive flows. The hot melt adhesive enters the first supply hole 38 of the supply passage 36 from above and advances into the second supply hole 40 of the supply passage 36. Second supply hole 4
0 is connected to the first supply hole 38 at a right angle. The hot melt adhesive reaches the opening on the front surface 42 of the mouthpiece holder 24 after passing through the second supply hole 40. Opposite this opening is the center of the distribution passage 46 in the mouthpiece 26, and the hot melt adhesive is in the supply passage 36.
Flows into the distribution passage 46 from. Front surface 42 of mouthpiece holder 24 and rear surface 52 of mouthpiece 26
Are completely planar and are in direct contact with each other and the distribution passages 46
The straight portion 68 in the cross section of the mouthpiece holder 24
Formed by a portion of the front surface 42 of the. The same applies to the intermediate passage 48 and the outlet passage 50. That is, the cross-sections of the intermediate passage 48 and the outlet passage 50 are formed by the cut areas in the rear surface of the mouthpiece 26 and by the flat front surface 42 of the mouthpiece holder 24. Mouthpiece 26 and mouthpiece holder 2
After assembling 4, the distribution passage 4 in the mouthpiece 26
6, the intermediate passage 48, and the outlet passage are covered and sealed by the front surface of the mouthpiece holder 24. Thus
The hot melt adhesive flows from the distribution passage 46 into the intermediate passage 48, from there into the outlet passage 50, and finally out of the slot die at the slot-shaped outlet opening 28 located in a common plane on the bottom surface of the slot die 16. Go to.

[0018]

Experiments have shown that a slot die with the above design distributes the hot melt adhesive very uniformly in the form of parallel stripes of adhesive. The weight variation of the adhesive between the individual lines of the adhesive is much less than that observed when using prior art slot dies, ie 6% or less.

It should be emphasized that the expansion of each outlet passage according to the invention does not have to be restricted to the passage width.
Furthermore, this expansion can take the form of an increase in the depth of the outlet passage, for example the first region of the outlet passage can be hemispherical in shape, followed by a region of circular cross section. Alternatively, the increase in the cross section, especially in the width direction is V
It may be in the form of a glyph expansion. From the knowledge accumulated to date,
It has been found that the structure by which the passages 46, 48, 50 move from the mouthpiece 26 to the mouthpiece holder 24 is also similar to the structure described herein. In this case, the rear surface of the mouthpiece 26 has a flat, polished surface interrupted only by the holes required for attachment of the mouthpiece.

[Brief description of drawings]

FIG. 1 is a front view of an applicator head having a slot die.

FIG. 2 of an applicator head having a slot die,
It is a side view which shows some applicator heads in a cross section.

FIG. 3 is a front view of the mouthpiece holder of the slot die.

FIG. 4 is a rear view of the mouthpiece of the slot die.

5 is a cross-sectional view of the mouthpiece taken along line AA of FIG.

FIG. 6 shows a highly enlarged detail of a mouthpiece cross section.

FIG. 7 is a sectional view of the mouthpiece and the mouthpiece holder in an assembled state.

[Explanation of symbols]

 10 Applicator head 16 Slot die 28 Exit opening 36 Supply passage 46 Distribution passage 50 Exit passage

Claims (15)

[Claims] 1. A material supply passageway, a distribution passageway connected to the supply passageway, and a number of outlet passageways connected to various points along the distribution passageway at an upstream end and open to an outlet opening. A slot die for applying hot melt adhesives, especially for applying free flowing materials,
A slot die characterized in that the cross section of the outlet passage increases between the end facing the distribution passage and the outlet opening. 2. The slot die according to claim 1, wherein the increase in the cross section of the outlet passage is limited to a portion of each outlet passage that is preferential in the flow direction. 3. The slot die according to claim 1, wherein the increase in the rectangular cross section of the outlet passage is limited to the widened portion of the width of the outlet passage. 4. The shape and size of the cross-section increase of the outlet passage is equal in all passages.
~ Any one slot die. 5. The slot die according to claim 1, wherein each of the outlet passages has a cross-sectionally increasing portion designed in a semicircular shape, and the center of the arc is connected to the distribution passage. . 6. The slot die of claim 5, wherein each outlet passage extends substantially maintaining its width at its widest point. 7. The slot die according to claim 1, wherein the longitudinal axis of the distribution passage is curved toward the outlet opening. 8. A portion (46a, 46) forming a distribution passage.
The vertical axis of b) is about +87.
Slot die of claim 7, characterized in that an angle of 6 ^o and -87.6 ^o. 9. The section of the distribution passage has an arcuate portion and a straight portion.
Any one of 8 slot dies. 10. The slot die according to claim 1, wherein each outlet passage is connected to the distribution passage by an intermediate passage. 11. The slot die according to claim 10, wherein the cross section of the intermediate passage is smaller than the average cross section of the outlet passage. 12. The depth of the intermediate passage is about 80% of the depth of the outlet passage.
1 slot die. 13. The cross section of the intermediate passage has an arcuate portion and a straight portion.
Any one slot die from 0 to 12. 14. The slot die according to claim 10, wherein a cross-sectional area of the intermediate passage is about 1/5 to about 1/10 of a cross-sectional area of the distribution passage. 15. A flat, smooth surface in which passages (46, 48, 50) are formed in the mouthpiece holder (24), the rear surface of the mouthpiece being interrupted only by the holes used for attachment. 1. The method according to claim 1, wherein
1 to 14 slot dies.