The present application claims the priority benefit of German Patent Application No. 10 2008 047 266.2, filed Sep. 12, 2008, the disclosure of which is hereby incorporated by reference herein.
The present invention concerns an apparatus for applying fluids such as adhesive, in particular hot melt adhesive, to a substrate movable relative to the apparatus.
Apparatus for applying thermoplastic fluids are frequently also referred to as application heads and are used, for example, when substrates in film form or layer form are to be coated with fluid adhesive, for example, hot melt adhesive, over a surface area thereof or in beads in order to produce given application patterns, for example, shapes of the applied fluid. The fluid adhesive is usually stored in a fluid source such as a melting device. That fluid source is communicated with a main body of the apparatus by way of a hose connection. The fluid adhesive is conveyed by means of a conveyor means such as for example a pump into the apparatus and further conveyed through a distributor passage and in so doing passes a valve body of an application valve. The distributor passage communicates with a nozzle opening from which the adhesive is delivered and applied to a substrate. As the substrate is movable relative to the apparatus the fluid is applied to the substrate over the surface thereof. In known apparatus of that kind the nozzle opening is typically in the form of an elongate slot. The length of the operative portion of the slot can be adjusted by a piston arranged movably in the longitudinal direction in the distributor passage. Such an apparatus is known, for example, from DE 299 08 150. Apparatus are also known with which adhesive beads or strips can be applied.
Some problems arise in operation of the known applicator apparatus. Adjustment of the width of the area of the fluid to be applied is effected by a pushing or pulling movement of a piston in the distributor passage. While a pushing movement involves fluid being urged out of the nozzle arrangement in addition to the desired application thereof, air is sucked into the nozzle arrangement when the piston is performing a pulling movement. It is to be noted that when there is air in the nozzle the nozzle has to be vented before it can be brought into operation again. It is essentially a change in volume in the interior of the distributor passage that is responsible for that adverse effect. A further disadvantage is that applicators of the above-described kind occupy a comparatively large amount of space as, in addition to the space required by the apparatus itself, there must also be sufficient space at one side of the apparatus in order to be able to accommodate the piston in the condition of maximum extension thereof. That makes it difficult, inter alia, to arrange a plurality of applicators apparatus in a row with each other at a small spacing in mutually juxtaposed relationship. In the industrial production of substrates to which a fluid is applied, that has the effect of increased manufacturing costs.
Consequently, an object of the invention is to provide an apparatus which, as substantially as possible, alleviates the disadvantages found in the state of the art and with which various application patterns can be produced in a simple fashion.
In one illustrative embodiment, a body is movable in a distributor passage and has through passages which can be selectively associated with the nozzle opening by means of movement of the body in such a way that fluid is passed out of the distributor passage into the nozzle opening through at least one through passage. It is thus easily possible to produce different application patterns, depending on the respective position of the movable body. The movement of the body in the distributor passage is such that a movement of the body does not result in a change in volume in the distributor passage. The kind of movement of the body in this respect may be translatory or rotational, for example, in which case the body is only moved in each case to such an extent that the through passages are just no longer aligned to the nozzle opening in such a way that a flow of fluid would be possible. The deflection of the body to go from an enablement or open position into a closed position is consequently only minimally greater than the diameter of the through passages. The result of this is that markedly less space is required to be able to accommodate and move the movable body. A body adapted for rotary movement in the distributor passage would accordingly only have to be rotated to such an extent that the opening cross-sections of the through passages just no longer coincide with the corresponding nozzle opening in such a way that a flow of fluid would be possible.
The application pattern which is produced by the apparatus and delivered to the substrate is afforded by a change in the association of through passages with the at least one nozzle opening. In that case, the volume of the distributor passage in which fluid to be delivered is disposed remains substantially constant.
That kind of movement of the body—translatory or rotational—means that no fluid is urged out of the nozzle arrangement or no air is sucked into the nozzle arrangement as the volume of the body in the distributor passage remains constant. Only the position of the openings is changed by the movement of the body.
In an advantageous embodiment the body is a hollow body which is rotatable in the distributor passage and has radially arranged through passages which can be associated with the nozzle opening by means of rotation of the hollow body. The advantage of a rotatable hollow body in the distributor passage is in particular that it is possible to arrange on the periphery of the hollow body, a large number of different combinations of through passages which by rotation of the hollow body respectively cause a different width of application of fluid to the substrate and/or produce different application patterns. It is, however, immaterial how many different settings are provided in the hollow body for the necessary space that the applicator apparatus in accordance with this embodiment occupies.
In accordance with a further advantageous embodiment of the present invention a plurality of through passages are arranged in a row parallel to a longitudinal axis of the hollow body and extend through a peripheral surface of the hollow body. In that way, it is possible to apply, for example, beads or strips. In this case the row is advantageously arranged on the periphery of the hollow body in such a way that, by rotation of the hollow body, all through passages of that row can be simultaneously aligned with the at least one nozzle opening so that fluid can be transferred from the distributor passage to the nozzle opening.
In accordance with a further advantageous embodiment of the apparatus according to the invention a multiplicity of the rows formed by the through passages are respectively mutually spaced along the periphery of the hollow body. With such a selection for the arrangement of the through passages on the periphery of the hollow body, a respective given row of through passages can be aligned with the at least one nozzle opening by rotation of the hollow body into a respective given position.
In a further advantageous embodiment of the apparatus according to the invention the rows formed by the through passages are arranged in mutually differing relationship in the hollow body in relation to the longitudinal axis thereof. The fact that the rows are arranged in mutually differing relationship on the periphery of the hollow body in the above-described manner means that, upon rotation of the hollow body, the position can be altered in relation to the longitudinal axis of the hollow body. In relation to the substrate which is movable relative to the apparatus, that means that the application position of the fluid to the substrate is variable by simply rotating the hollow body into another position.
In accordance with a further advantageous embodiment of the apparatus according to the invention the rows of the through passages respectively have a different number of through passages and/or respectively involve a different spacing between the through passages. Such a configuration for the through passages on the hollow body makes it possible to provide a different configuration of through passages for each row of through passages and accordingly for each angular position of the hollow body. The consequence of this is that, in each angular position of the hollow body, in which a row of through passages is aligned with the at least one nozzle opening, it is possible to apply a specific application pattern linked thereto to the substrate. In that case, it is possible to switch over between different application patterns by simply rotating the hollow body.
In accordance with a further advantageous embodiment of the present invention the through passages have an opening cross-section which is circular, elliptical, oval or polygonal, in particular rectangular. The choice of different geometries for the through passages makes it possible to take optimum account of different geometries of the at least one nozzle arrangement. Furthermore it is possible to specifically and targetedly influence the flow of material and the application image or pattern by the variation in the geometries. Furthermore in accordance with the above-described embodiment it is possible for the through passages to be in the form of slots so that, with a nozzle opening of a suitable configuration, it is possible for fluid to be applied to the substrate in an uninterrupted fashion over an area thereof.
In accordance with a further embodiment of the present invention the hollow body is mounted in the distributor passage rotatably in such a way that in a respective angular position of the hollow body a through passage or a row of through passages which are arranged parallel to the longitudinal axis of the hollow body can be aligned with the at least one nozzle opening.
In accordance with a further advantageous embodiment of the apparatus according to the invention the at least one nozzle opening is provided at the outlet end of an outlet passage in the form of a recess, in particular a milled-out recess, in the nozzle arrangement, and in particular is of a slot-shaped or round cross-section, wherein the outlet passage is adapted to connect the nozzle opening in fluid-conducting relationship with the distributor passage. Milling the outlet passage out of the body of the nozzle arrangement makes it possible to produce the outlet passages with a high degree of precision and repetition accuracy. That is advantageous in particular for a uniform precise discharge of fluid.
In a further advantageous embodiment of the apparatus according to the invention the at least one outlet passage has an inlet of a width corresponding to the width of the through passage which can be associated therewith of the hollow body. Adapting the width of the outlet passage to the width of the feed passage which can be associated therewith provides that impairment of the flow of fluid at the transition between the through passage and the outlet passage is influenced or disturbed to a lesser degree than would be the case if the two passages were not matched to each other in their width.
In a further advantageous embodiment of the apparatus according to the invention the at least one outlet passage is of a polygonal, in particular rectangular or trapezoidal longitudinal cross-section. A configuration for the outlet passage, in which there is an increasing and/or decreasing passage width in the longitudinal direction of the outlet passage, can be advantageous for influencing the discharge performance of the fluid, in particular the discharge speed and the form of flow thereof. The precise configuration of the outlet passage depends on the respective individual case, in particular the fluid to be used and operating parameters such as for example viscosity, temperature and pressure.
In accordance with a further advantageous embodiment of the present invention the body can be arrested in a predetermined angular position in force-locking or positively locking relationship, in particular by means of a clamping screw or a latching means. Advantageously, such arrestability is to be provided for precisely the angular positions in which a respective row of through passages is oriented in aligned relationship with the at least one nozzle opening. Such an arresting capability prevents unintentional displacement of the hollow body, which could lead to unwanted changes in the application pattern. Clamping devices such as, for example, clamping screws are to be considered as an arresting means having a force-locking action. Various latching means appear appropriate to provide a positively locking arresting effect. They can include, for example, spring-assisted mechanisms such as resilient pressure portions.
In accordance with a further embodiment of the present invention a rotary grip is provided which is non-rotatably connected to an end portion of the body and which extends outside the nozzle arrangement. Actuation of the rotary grip makes it possible to manually adjust the desired application pattern by means of rotation of the hollow body. In addition, as an alternative to displacement of the hollow body by manual rotation of the rotary grip, it is possible to fit a motor drive for the hollow body, which either externally co-operates with the rotary grip or can be disposed within the housing of the apparatus according to the invention. The transmission of force from such a motor drive to the hollow body can be effected for example by way of a gear transmission and/or a belt drive.
In a further advantageous embodiment of the apparatus according to the invention a peripheral surface or a peripheral surface composite of the rotary grip is roughened. Roughening at least a part of the surface of the rotary grip contributes to the operator having a better hold on the rotary grip. Operability of the apparatus is decisively improved in that case. In that respect the rotary grip can be of a substantially cylindrical configuration or as a departure therefrom may be of a non-circular cross-sectional area, being for example of a polygonal or stellate cross-sectional shape.
In accordance with a further embodiment of the present invention the nozzle arrangement has a mouthpiece which is connectable to the nozzle arrangement and can be associated with a portion of the nozzle arrangement, in which the at least one outlet passage and the at least one nozzle opening are arranged. The mouthpiece is preferably connected to the nozzle arrangement by way of fastening means and is of an area which is so arranged at the nozzle arrangement that it delimits the outlet cross-section of the at least one nozzle opening. Advantageously, the mouthpiece can be connected to the nozzle arrangement in such a way that it is releasable therefrom with a few manipulation operations in order to be able to clean the at least one nozzle opening and the at least one outlet passage and/or the nozzle arrangement overall. The fact that cleaning of the nozzle arrangement can be effected without the entire apparatus having to be dismantled, but only the mouthpiece, means that the outage and maintenance times in operation of the apparatus according to the invention can be reduced.
In accordance with a further advantageous embodiment of the apparatus according to the invention the fluid is fed to the hollow body by means of a peripherally extending recess, in particular an annular groove, which is provided in the peripheral surface of the hollow body, wherein at least one conduit extends from the recess into the interior of the hollow body. A feed of fluid into the interior of the hollow body is possible in any angular position of the hollow body by means of the annular groove.
In accordance with a further advantageous embodiment of the apparatus according to the invention an outside wall of the hollow body at least in portions in which through passages extend can be brought into substantially sealing contact with a wall of the distributor passage. That ensures that fluid which has been fed to the interior of the hollow body can pass into the at least one outlet passage exclusively through the through passages. Unwanted issue of fluid from leaks or leaking locations is avoided in that way so that the risk of the apparatus being clogged and contaminated with adhesive is reduced.
The invention is described in greater detail hereinafter by means of illustrative embodiments by way of example of the apparatus according to the invention for applying fluids such as adhesive, in particular hot melt adhesive, to a substrate movable relative to the apparatus, and with reference to the accompanying drawings in which:
The apparatus 10 shown in
A nozzle arrangement 18 is releasably fastened by means of screw connections 20 to a side 16 of the main body 12, that is opposite to the end face 13, and centered by means of pins 21 (see
The electrically actuable application valve 14 has an electrical connection 30 and a compressed air connection 32 shown in
As can be seen from
The nozzle arrangement 18 is shown in
The cross-sectional view in
As can further be seen from
It will be seen from
The hollow body 50 is arranged within the distributor passage 41 in such a way that the hollow body 50 is in sealing contact with a wall 62 of the distributor portion 41 at least partially in portions in which through passages extend. That prevents fluid from issuing. In addition a sealing element 60 is arranged in a groove at the periphery of the hollow body 50, which prevents fluid from escaping from the housing from the side 35. The hollow body 50 can be arrested in a predetermined angular position in force-locking or positively locking relationship, in particular by a clamping screw or a latching device 39. Such an arresting capability prevents unintentional displacement of the hollow body 50, which could lead to unwanted changes in the application pattern 58.
As shown in
The view in
While the present invention has been illustrated by a description of various preferred embodiments and while these embodiments have been described in some detail, it is not the intention of the Applicants to restrict or in any way limit the scope of the appended claims to such detail. Additional advantages and modifications will readily appear to those skilled in the art. The various features discussed herein may be used alone or in any combination depending on the needs and preferences of the user. This has been a description of illustrative aspects and embodiments the present invention, along with the preferred methods of practicing the present invention as currently known.
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Number | Date | Country | |
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20100064967 A1 | Mar 2010 | US |