Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
  • B05C—APPARATUS FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
  • B05C5/00—Apparatus in which liquid or other fluent material is projected, poured or allowed to flow on to the surface of the work
  • B05C5/02—Apparatus in which liquid or other fluent material is projected, poured or allowed to flow on to the surface of the work the liquid or other fluent material being discharged through an outlet orifice by pressure, e.g. from an outlet device in contact or almost in contact, with the work
  • B05C5/0254—Coating heads with slot-shaped outlet
  • B05C5/0266—Coating heads with slot-shaped outlet adjustable in length, e.g. for coating webs of different width
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
  • B05C—APPARATUS FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
  • B05C5/00—Apparatus in which liquid or other fluent material is projected, poured or allowed to flow on to the surface of the work
  • B05C5/001—Apparatus in which liquid or other fluent material is projected, poured or allowed to flow on to the surface of the work incorporating means for heating or cooling the liquid or other fluent material

Definitions

• the invention relates to a device for applying hot melt adhesive to materials such as foils, paper, laminates, veneers or the like, with a housing with adhesive feed and adjustable nozzle slot for the adhesive outlet, whereby the application device results in a so-called slot nozzle.
• the housing has a practically continuous nozzle slot, the application width of which can be changed by using different masks which consist of sheet metal. Depending on the width of the desired or required nozzle slot, this respective mask must then be exchanged, which requires disassembly of the application device and is therefore laborious and time-consuming.
• the object of the invention is to avoid the aforementioned shortcomings, the nozzle slot of the adhesive application device in to be carried out in an individually adjustable manner in the respective application width without assembly work on the application device and to close the nozzle slot in a manner protected from external influences during the production downtime.
• the adhesive should be guided against hardening on a favorable adhesive path from the feed to the outlet from the nozzle slot.
• the width of the nozzle slot should be manually or safely automatically adjustable in accordance with the workpiece width or the workpiece run.
• the nozzle slot can be adjusted in its position by two nozzle slides which are continuously adjustable from one another from a zero position to a maximum position
• Order width can be set individually, this setting can be carried out without dismantling work on the application device. There is only a manual displacement of these sliders via threaded spindles.
• This shifting of the slides can be selected synchronously from the zero position to both sides or else by moving the slider separately in terms of size, whereby the job width for the respective workpiece can be set individually, i.e. the order can be centered, one-sided or offset.
• the nozzle slides are formed by cross-sections prism-shaped strips with tongues or tongue-shaped swords arranged at the length end facing the zero position, and these prism-shaped slide strips with the tongues lie in corresponding slide guides and the slide slot and, due to the adhesive to be applied by means of pressure, the slide strips become with the Tongues (swords) pressed firmly against the counter surfaces of the slide guides and the nozzle slot, so that a safe setting is always ensured in every setting of the slot nozzle width and also in the closed state of the slot nozzle, in which the ends with the tongues (swords) are close together in the zero position Sealing to the outside is done.
• the adhesive guide in the device is carried out on a favorable path of movement, on which the hot-melt adhesive is always in motion from introduction to discharge and thus there are no dead corners for curing the adhesive.
• the entire device is made up of a few components simply and inexpensively, easy to assemble, does not require constant maintenance due to the nozzle slot setting and the adhesive guide and can be used for both horizontal and vertical adhesive application to the various running materials.
• the setting of the nozzle slot width to the workpiece width can easily be made manually by means of threaded spindles and linear guides.
• the setting of the nozzle slot width is still dependent on the width of the workpiece or the run (straight, oblique or roll run) electronically and safely carried out automatically by sensors;
• a displacement transducer which detects the absolute respective width of the workpiece passing through controls an adhesive metering device for exact adhesive application.
• Fig. 1 is an adhesive application device with adjustable
• Fig. 3 is a plan view in partial section of the device area of Fig. 2;
• FIG. 4 is a plan view of a longitudinal part of the device with a nozzle slot and sliders adjustable by means of threaded spindles,
• FIG. 5 shows schematic end views of a horizontally (FIG. 5) and 6 and a vertically (FIG. 6) adhesive device for applying workpieces
• Fig. 7 is a schematic representation of a nozzle slide adjustment and adjustment with edge sensors and displacement sensors.
• the device (AV) for applying hot-melt adhesive (HK) to workpieces (W) made of wood or wood-based material in the form of roll material, strips, boards or the like has a housing (1) with adhesive feed (2) and adjustable nozzle slot (3) to the adhesive outlet.
• the nozzle slot (3) can be adjusted in the adhesive application width (B) by means of two linearly adjustable nozzle slides (4) - also called “slides”.
• the two slides (4) are continuously adjustable from 0 to a maximum value to the application width (B).
• the zero position is the middle of the width of the nozzle slot (3) on which the two nozzle slides (4) meet with their ends and thereby close the nozzle slot (3). From this center of the slot width, the two slide valves (4) are moved in opposite directions up to the max. Moved apart, so that the nozzle slot (3) is then fully opened and the largest slot and thus application width (B) is reached.
• the two nozzle slides (4) can be adjusted synchronously and in sync to the respective application width (B).
• the two nozzle slides (4) are preferably adjusted independently of one another.
• the two nozzle slides (4) can be adjusted from the center (zero position) of the application width (B) of the nozzle slot (3) to the same size and different sizes.
• the two nozzle slides (4) are of identical design and each have a slide bar (5) with at the two adjacent bar ends transverse to the longitudinal direction of the bar protruding flat tongues (6) formed; the tongues (6) form tongue-shaped nozzle slide swords (6).
• the two slide strips (5) each have a prism cross-section and the tongue-shaped sword (6) protrudes from a triangular edge in the plane of the cross-section bisector; the swords (6) have a rectangular or square thin plate shape.
• the housing (1) consists of a block-shaped nozzle body (7) and two slide guides (8) attached to it by screws (9) and leaving the nozzle slot (3) free in the form of profile strips.
• the slide strips (5) lie with the flat triangular surface (5a) opposite the tongue-shaped sword (6) on a flat surface (7a) of the nozzle body (7) with an adhesive outlet channel (10) and with its two other flat triangular surfaces ( 5b) on mating surfaces (8a) of the two slide guides (8) in a form-fitting manner; the slide bars (5) engage with their tongues (6) in the nozzle slot (3) which is left free by the two slide guides (8).
• the two slide guides (8) have slightly protruding sealing strips (8b) on both sides of the nozzle slot (3) via the slide guides (8), which are integrally formed on the strip-shaped slide guides (8) and have an angular, such as square or rectangular cross-section.
• the tongue-shaped swords (6) are flush with the outer sides of the sealing strips (8b) running transversely to the tongue plane.
• one each the counter surfaces (8a) of the slide guides (8) for the slide bars (5) distance-stabilizing pressure bar (11) extending in the longitudinal direction of the slide is fastened by means of screws (12).
• the nozzle body (7) has on its surfaces (7b) opposite the slides (4) two spaced channels from each other from the center of the nozzle slot width on a common line to approximately the maximum nozzle slot width, of which in the in the At the maximum slot width at the end, a branch duct (14) leads to the outlet duct (10) which runs continuously over the entire length of the two distributor ducts (13).
• An adhesive feed housing (2) with an exchangeable filter (2a), an adhesive feed line (15) and feed channels (16, 16a) guided to the distributor channels (13) in the nozzle body (7) are connected to the nozzle body (7).
• the feed channels (16a) opening into the distribution channels (13) lie in a length range of the distribution channels (13) adjacent to the center of the slot width and thus at a distance from the two branch channels (14) at the end;
• This arrangement and design of the channels (16a, 13, 14 and 10) creates an adhesive guide in which the adhesive (HK) is constantly in motion over a relatively large circulation path up to the nozzle slot (3) and therefore no hardening of the adhesive ( HK) can be done in dead corners.
• the two nozzle slides (4) are independently and continuously adjusted independently of one another by a manually rotatable threaded spindle (18) mounted in a holder (17) of the housing (1); Each slide (4) is coupled to a drive nut (21) seated on the threaded spindle (18) via a transmission block (20) which is fastened at the end and fixed and displaceable on a linear guide (19).
• the transmission block (20) consists of a lever (20a) attached to the end of the slide rail, a guide block (20b) running in the linear guide (19) and fixing the lever (20a) in position, and a guide block (20b) connecting the guide block (20b) to the nut (21) Connection piece (20c) formed.
• the two threaded spindles (18) are turned by a hand crank (not shown) which is attached to the spindle (18) to be adjusted in each case.
• the spindles (18) each have a polygonal socket (18a) on one of their spindle ends. These spindle ends with the push-on polygon (18a) are guided out of the device in parallel on one side as the operator.
• the two spindles (18) are of different lengths and one spindle (18) goes from the operating end (spindle end) to the first slide (4) and the other, longer threaded spindle (18) to the second slide (4).
• the device (AV) preferably works with the adhesive application in the horizontal direction with the workpiece (W) -Fig running vertically. 5-, but can also according to FIG. 6 with vertical Apply adhesive to the horizontal and / or running workpiece (W).
• a device for electrical nozzle slide positioning and working width detection of the device (AV) is shown, which is controlled by the continuous workpiece (W).
• the two nozzle slides (4) with the edges (K) of the continuous workpiece (W) interacting edge sensors (30) can be controlled independently of one another on the width (B) of the nozzle slot (3) and its position relative to the workpiece (W) and / or by means of displacement transducers (31) the respective nozzle slot width (B) is detected and the determined nozzle slot width (B) is transmitted as an electrical signal (S) to an adhesive quantity metering device.
• the two edge sensors (30) each have a sensor (32) which interacts with the workpiece edge (K) and is mechanically connected to an actuator (33) which moves the nozzle slide (4) linearly.
• the degree of occupancy of the sensor (32) of the edge sensor (30) by the workpiece edge (K) causes an electrical signal (S) which is output to the associated actuator (33) for its direction and driving variable for the nozzle slide setting.
• the nozzle slide control takes place. If both sensors (32) are 50% covered by the assigned workpiece edge (K), the workpiece (W) runs normally, ie the width and direction of travel (L) and the workpiece run are the same and no electrical signal is received the actuators (33) are released and the nozzle slides (4) remain in their set position and the nozzle slot
• the holder (34) is moved via an adjusting spindle (threaded spindle) (33a) of the actuator (33) and consequently the nozzle slide (4) fixed to the holder (34) with its tongue-shaped sword (6) is moved linearly.
• the displacement sensor (31) is mechanically coupled to the two edge sensors (30) and is adjustable in length in accordance with the nozzle slot width (B) set by the edge sensors (30). With this length adjustment by means of intermeshing, telescoping and retractable components (31a, 31b), the distance between the nozzle slide swords (6) and the electrical signal (S) to the superordinate adhesive metering control is determined in the displacement transducer (31) by means of electrical sliding contacts (31c) (not shown).
• the edge sensors (30) are each attached to a holder (34), each holder (34) is motionally rigid with the actuator (33) and a nozzle slide (4) connected and the length-changeable or movable displacement transducer (31) is arranged between the two brackets (34) and is fixed to the brackets (34) with its two length ends in connection points (35).
• the displacement sensor (31) is carried along by the brackets (34) in accordance with the adjusted nozzle slides (4), i.e. moved together or apart and the absolute distance between the tongue-shaped swords (6) and the nozzle slides (4) was determined, which limit the set slot width (B).
• the absolute width of the application slot (3) is always determined by the displacement transducers (31) and the corresponding amount of adhesive applied, which is controlled by the adhesive metering, is accordingly applied to the exact width of the workpiece (W); the adhesive application is therefore always optimal in terms of application width, length and quantity.
• the motorized actuators (33) in the device according to FIG. 7 are arranged coaxially to one another and also coaxially with their adjusting spindles (33a).
• the actuators (33) can, however, be arranged next to the displacement sensor (31) and the drive is carried out by a belt drive, such as a toothed belt, chain or the like; from the drive pinion of the actuator (33) to a gear (not shown) seated on the adjusting spindle (33a).
• the edge sensors (30) and the displacement sensor (31) can be assigned together to the direction of adhesive application, or this application device (AV) can be optionally assigned to the displacement sensor (31) when manually adjusted.

Landscapes

• Coating Apparatus (AREA)
• Adhesives Or Adhesive Processes (AREA)
• Soil Working Implements (AREA)
• Management, Administration, Business Operations System, And Electronic Commerce (AREA)
• Disintegrating Or Milling (AREA)
• Financial Or Insurance-Related Operations Such As Payment And Settlement (AREA)

Applications Claiming Priority (3)

Publications (2)

Family

ID=7873484

Family Applications (1)

Country Status (11)

Families Citing this family (22)

Family Cites Families (18)

• 1998
  • 1998-07-09 DE DE19830728A patent/DE19830728C2/de not_active Expired - Fee Related
• 1999
  • 1999-06-24 AU AU49008/99A patent/AU4900899A/en not_active Abandoned
  • 1999-06-24 US US09/508,270 patent/US6565660B1/en not_active Expired - Lifetime
  • 1999-06-24 AT AT99932725T patent/ATE314892T1/de active
  • 1999-06-24 DK DK99932725T patent/DK1027167T3/da active
  • 1999-06-24 ES ES99932725T patent/ES2257061T3/es not_active Expired - Lifetime
  • 1999-06-24 KR KR10-2000-7002534A patent/KR100530474B1/ko not_active IP Right Cessation
  • 1999-06-24 EP EP99932725A patent/EP1027167B1/fr not_active Expired - Lifetime
  • 1999-06-24 CA CA002305662A patent/CA2305662C/fr not_active Expired - Lifetime
  • 1999-06-24 DE DE59913023T patent/DE59913023D1/de not_active Expired - Lifetime
  • 1999-06-24 WO PCT/EP1999/004395 patent/WO2000002667A1/fr active IP Right Grant
  • 1999-06-24 JP JP2000558918A patent/JP3887770B2/ja not_active Expired - Lifetime

Non-Patent Citations (1)

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