EP0148758A2 - Abgabegerät für thermoplastisches Material mit handbetriebener Zufuhr - Google Patents

Abgabegerät für thermoplastisches Material mit handbetriebener Zufuhr Download PDF

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Publication number
EP0148758A2
EP0148758A2 EP85300008A EP85300008A EP0148758A2 EP 0148758 A2 EP0148758 A2 EP 0148758A2 EP 85300008 A EP85300008 A EP 85300008A EP 85300008 A EP85300008 A EP 85300008A EP 0148758 A2 EP0148758 A2 EP 0148758A2
Authority
EP
European Patent Office
Prior art keywords
block
sleeve
chamber
thermoplastic material
magazine
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP85300008A
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English (en)
French (fr)
Other versions
EP0148758A3 (en
EP0148758B1 (de
Inventor
Michael M. C/O Minnesota Mining And Dziki
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
3M Co
Original Assignee
Minnesota Mining and Manufacturing Co
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Minnesota Mining and Manufacturing Co filed Critical Minnesota Mining and Manufacturing Co
Publication of EP0148758A2 publication Critical patent/EP0148758A2/de
Publication of EP0148758A3 publication Critical patent/EP0148758A3/en
Application granted granted Critical
Publication of EP0148758B1 publication Critical patent/EP0148758B1/de
Expired legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05CAPPARATUS FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05C17/00Hand tools or apparatus using hand held tools, for applying liquids or other fluent materials to, for spreading applied liquids or other fluent materials on, or for partially removing applied liquids or other fluent materials from, surfaces
    • B05C17/005Hand tools or apparatus using hand held tools, for applying liquids or other fluent materials to, for spreading applied liquids or other fluent materials on, or for partially removing applied liquids or other fluent materials from, surfaces for discharging material from a reservoir or container located in or on the hand tool through an outlet orifice by pressure without using surface contacting members like pads or brushes
    • B05C17/00523Hand tools or apparatus using hand held tools, for applying liquids or other fluent materials to, for spreading applied liquids or other fluent materials on, or for partially removing applied liquids or other fluent materials from, surfaces for discharging material from a reservoir or container located in or on the hand tool through an outlet orifice by pressure without using surface contacting members like pads or brushes provided with means to heat the material
    • B05C17/00526Hand tools or apparatus using hand held tools, for applying liquids or other fluent materials to, for spreading applied liquids or other fluent materials on, or for partially removing applied liquids or other fluent materials from, surfaces for discharging material from a reservoir or container located in or on the hand tool through an outlet orifice by pressure without using surface contacting members like pads or brushes provided with means to heat the material the material being supplied to the apparatus in a solid state, e.g. rod, and melted before application
    • B05C17/0053Hand tools or apparatus using hand held tools, for applying liquids or other fluent materials to, for spreading applied liquids or other fluent materials on, or for partially removing applied liquids or other fluent materials from, surfaces for discharging material from a reservoir or container located in or on the hand tool through an outlet orifice by pressure without using surface contacting members like pads or brushes provided with means to heat the material the material being supplied to the apparatus in a solid state, e.g. rod, and melted before application the driving means for the material being manual, mechanical or electrical
    • B05C17/00533Hand tools or apparatus using hand held tools, for applying liquids or other fluent materials to, for spreading applied liquids or other fluent materials on, or for partially removing applied liquids or other fluent materials from, surfaces for discharging material from a reservoir or container located in or on the hand tool through an outlet orifice by pressure without using surface contacting members like pads or brushes provided with means to heat the material the material being supplied to the apparatus in a solid state, e.g. rod, and melted before application the driving means for the material being manual, mechanical or electrical comprising a piston

Definitions

  • This invention relates to devices for dispensing molten thermoplastic materials.
  • such devices comprise a barrel member having an internal melting chamber which communicates with an outlet opening through a nozzle, and a sleeve with a through opening having one end secured to the barrel member with its through opening communicating with the end of the melting chamber opposite the nozzle.
  • the sleeve is adapted to receive an elongate cylindrical block of solid thermoplastic material which fits closely fit within the through opening in the sleeve, with one end portion of the block in the melting chamber and the other end portion projecting through the sleeve.
  • Means are provided for heating the barrel member to melt the end portion of the block therein, and the device includes a handle positioned so that an operator can grip the handle with the fingers of one hand while pressing the block through the sleeve and into the melting chamber with the thumb of that hand to force molten thermoplastic material out of the melting chamber through the nozzle.
  • the second block can fall or fly away from the block already in the sleeve, which is inconvenient, distracting, and wasteful of the operator's time.
  • a device for dispensing molten thermoplastic material described in my U.S. Patent Application No. 456,346 filed January 7, 1983 provides, among other things, means for holding and properly positioning a second block of solid thermoplastic material at the end of a block of that material already in a sleeve and a melting barrel of a device of the type described above, even before the second block enters the outer end of the sleeve, thereby freeing the use of the operators second hand for other activities.
  • That device will hold a maximum of less than three blocks of thermoplastic material, and thus frequent loading of the device is required if the device is used continuously.
  • the magazine assembly provides means for holding and properly positioning a lowermost block of thermoplastic material in the magazine assembly in aligned end-to-end relationship with a block of thermoplastic material within the sleeve while affording use of the operator's thumb to press the lowermost block through the sleeve and into the melting chamber, while holding a stack of blocks of thermoplastic material normally above the lowermost block, which stack can be caused to drop down to position the next lowermost block in alignment with the remainder of a block of thermoplastic material that has been pressed through the sleeve by reciprocal movement of a thumb operated slide which provides both a pusher for the lowermost block and a support for the stack of blocks above the lowermost blocks.
  • At least one inner sidewall of the magazine is formed with a plurality of recesses parallel to the axis of the melting chamber and adapted to partially receive the sides of the blocks, which recesses partially receive the sides of blocks in the stack and restrict them from moving out the open top end of the magazine assembly when the device is tipped on its side.
  • the dispensing device 10 comprises a two part frame 12, a barrel member 14 mounted between the parts of the frame 12 and having an internal melting chamber 16 communicating via a discharge passageway 17 through a valve assembly 18 with an outlet opening 19 through a nozzle 21, and a sleeve 20 with a cylindrical through opening 22 having one end secured to the barrel member 14 with its through opening 22 communicating with the end of the melting chamber 16 opposite the discharge passageway 18.
  • the sleeve 20 is adapted to receive a cylindrical block 24 of solid thermoplastic material within the cylindrical through opening 22 with a slight clearance fit even when the diameter of the block 24 is at the large end of its tolerance range, with one end portion of the block 24 in the melting chamber 16 and the block 24 projecting through the opening 22 in the sleeve 20.
  • Means are provided in the device l0 for heating the barrel member 14 to melt the end portion of the block 24 therein.
  • the frame 12 includes a handle 26 positioned so that an operator can grip the handle 26 with the fingers of one hand while applying pressure with the thumb of that hand to press the block 24 through the sleeve 20 and into the melting chamber 16 and force molten thermoplastic material out of the melting chamber 16 through the valve assembly 18 and nozzle 21.
  • the device 10 further includes a bracket assembly 28 at the end of the sleeve 20 opposite the barrel member 14, which bracket assembly 28 includes means adapted for receiving and for holding a second block 24 of solid thermoplastic material in aligned end-to-end relationship with the block 24 of thermoplastic material in the sleeve 20 while affording the application of force by the thumb of an operator on the end of the block 24 opposite the sleeve 20 to press the second block 24 through the sleeve 20 and into the melting chamber 16.
  • the bracket assembly 28 comprises spaced opposed gripping parts 30 of the frame 12 ( Figure 5) that project toward the handle 26 in a position spaced from the outer end of the sleeve 20 and on opposite sides of an extension of the axis for the sleeve 20.
  • the gripping parts 30 are biased toward each other by spring means comprising a channel-like member 29 of spring steel engaged around the top surfaces of the two parts of the frame 12 to help hold the two parts of the frame 12 together, and having opposed arcuate projecting portions 27 that are biased against the outer surfaces on the gripping parts 30 of the frame 12.
  • the gripping parts 30 have distal ends spaced at a distance that is less than the diameter of the cylindrical block 24 of thermoplastic material, but which distance is sufficient so that the block 24 can be transversely pressed therebetween to resiliently move the gripping parts 30 away from each other in opposition to the biasing of the projecting portions 27 and afford movement of the block 24 therebetween.
  • the gripping parts 30 have concave opposed inner surfaces adapted to conform to and engage the cylindrical side surfaces of a block 24 of thermoplastic material therebetween to hold the block 24 in alignment with a block 24 in the sleeve 20, while affording axial sliding movement of the block 24 and movement of the thumb of the operator between the gripping parts 30 to move the second block 24 into the sleeve 20.
  • the device also comprises a pressure plate 32 adapted to abut the end of the outermost block 24 of thermoplastic material opposite the melting chamber 16 and to be positioned between the block 24 and the user's thumb to transfer force therebetween.
  • the plate 32 includes an elongate slide portion 33 ( Figure 2) at one edge slideably mounted in a track 34 defined between the parts of the frame 12 to afford movement of the plate 32 with the block 24 and is shaped to pass between the gripping parts 30 so that the plate 32 can be used to push the block 24 fully into the sleeve 20 while directing forces applied to the plate 32 in the longitudinal direction of the block 24, and protects an operator's thumb from contact with the thermoplastic block 24 and from contact with any molten thermoplastic material that (under unusual conditions) might extrude to the outer end of the sleeve 20.
  • the pressure plate 32 includes two wing portions 35, one projecting from each side, which wing portions 35 are positioned to pass under the gripping parts 30 as the pressure plate 32 is used to press the block 24 into the sleeve 20, and either of which wing portions 35 can be manually engaged to move the pressure plate 32 away from the sleeve 20 to facilitate placing a new block 24 of thermoplastic material between the gripping parts 30 after a previous block 24 has been pushed into the sleeve 20.
  • the two parts of the frame 12 are molded of a suitable high-temperature resistant polymeric material (e.g., the material commercially designated Dupon, Zytel FR50-NC10 available from E. I. duPont deNemours, Wilmington, Delaware). Both parts of the frame 12 are formed with spaced posts 36 projecting generally radially outwardly of the barrel member 14, which posts 36 can provide means for spacing the major side surface of the frame 12 and the nozzle 21 of the device 10 from a horizontal surface on which the device 10 is laid, and which posts 36 have sockets 37 adapted to receive end portions of a generally U -shaped wire 31 ( Figure 5) to further space the device 10 away from such a surface should that be desired.
  • a suitable high-temperature resistant polymeric material e.g., the material commercially designated Dupon, Zytel FR50-NC10 available from E. I. duPont deNemours, Wilmington, Delaware.
  • the sleeve 20 is made of a stiff heat-resistive polymeric material (e.g., Teflon®) made by an extrusion process to provide a polished inner surface with microscopic longitudinally extending scratches that facilitates movement of the thermoplastic material through the sleeve 20, particularly after molten thermoplastic has cooled in the sleeve 20 and is again heated by the device 10.
  • a stiff heat-resistive polymeric material e.g., Teflon®
  • the sleeve 20 is coupled to the barrel member 14 by a metal barrier ring 38 ( Figures 2 and 3) that is heated by the means for heating the barrel member 14, which barrier ring 38 provides means for restricting the extrusion of molten thermoplastic material between the block 24 and the inner surface of the sleeve 20.
  • the inlet barrier ring 38 is a generally cylindrical member having axially spaced radically outwardly projecting ribs 39 at one end positioned in a cylindrical socket in the end of the barrel member 14, between which ribs 39 is a sealing strip 40 pressed between the barrier ring 38 and barrel member 14 to provide a seal therebetween.
  • An end portion 41 of the barrier ring 38 opposite the barrel member 14 is press fit into an internally relieved area of the sleeve 20.
  • the barrier ring 38 has a cylindrical inside surface that is smaller in diameter than the inside diameter of the sleeve 20 (which sleeve 20 is adapted to always receive a block 24 with a slight clearance fit even when the diameter of the block 24 is at the upper end of its tolerance limits) so that the barrier ring 38 will receive a block 24 having a diameter at the upper end of its tolerance limits with a slight interference fit (e.g., an interference of up to 0.025 cm) or will receive a block 24 having a diameter at the lower end of its tolerance range with a clearance fit of about 0.050 cm.
  • a slight interference fit e.g., an interference of up to 0.025 cm
  • the device 10 also includes three metal (preferably brass) cooling flanges around the outer periphery of the sleeve 20 that provide means for developing predetermined temperature zones in the sleeve 20, including two closely spaced regulating flanges 45 at the end of the sleeve 20 adjacent the barrier ring 38 which cool and regulate the temperature of the molten thermoplastic material in the area between the barrier ring 38 and the sleeve 20, and a cooling flange 48 about centered along the length of the sleeve 20 that cools the sleeve to restrict the thermoplastic material from becoming molten past that area along the sleeve 20, even if the heating means is activated for a long period of time during which molten thermoplastic material is not being dispensed from the device 10.
  • three metal preferably brass
  • the barrel member 14 is of a suitable metal (e.g., aluminum).
  • the melting chamber 16 in the barrel 14 is defined by a generally frustoconical inner surface tapered toward the valve assembly 18 to direct the molten polymeric material to the dicharge passageway 17 through the valve assembly 18, and four equally spaced radially inwardly projecting ribs 42 which provide heated contact surfaces in addition to the frustoconical inner surface for engaging and melting the blocks 24 of thermoplastic material as they are pressed into the chamber 16.
  • An electric heating element 43 which heats both the barrel member 14 and the barrier ring 38 is positioned in a socket 44 in the barrel member 14 beneath the chamber 16, and a thermostat 46 is fixed in a channel below the heating element 43 to disconnect electrical power normally supplied the heating element 43 via a power cord 47 and the thermostat 46 when the temperature of the barrel member 14 at the thermostat 46 exceeds a predetermined maximum (e.g., 200°C).
  • a predetermined maximum e.g. 200°C
  • the valve assembly 18 between the barrel member 14 and the nozzle 21 provides valve means for restricting molten thermoplastic material from running out of the nozzle 21 until a predetermined amount of force (e.g., about 0.9 to 1.8 kilograms) is manually applied to the block 24 of thermostatic material 24 to cause pressure in the molten thermoplastic material in the melting chamber 16.
  • the valve assembly 18 is of the poppet valve type and includes a valve body 49 secured between the barrel member 14 and nozzle 21, which valve body 49 defines the discharge passageway 17 communicating between the melting chamber 16 and the opening 19 through the nozzle 21.
  • the discharge passageway 17 through the valve body 49 is normally closed by a head 50 on a valve normally biased against a valve seat on the end of the valve body 49 adjacent the nozzle 21 by a spring 52 compressed between a flange on the valve body 49 and a perforated retaining disk 54 fixed on a stem 53 of the valve, which disk 54 is axially slidably mounted in the valve body 49.
  • Pressure from molten thermoplastic material in the melting chamber 16 and discharge passageway 17 caused by pressure manually applied to the block 24 of thermoplastic material can move the valve head 50 away from its seat against the bias of the spring 52 and allow molten thermoplastic material to pass the valve head 50 and be discharged through the nozzle 21.
  • the valve head 50 will again move to its seat under the influence of the spring 52 to prevent any more molten thermoplastic material within the melting chamber 16 and discharge passageway 17 from escaping through the nozzle 21.
  • an operator first connects the power cord 47 to a source of electrical power so that the barrel member 14 and barrier ring 28 are heated by the heating element 43.
  • the operator then places the block 24 of thermoplastic material in the opening 22 through the sleeve 20, grabs the handle 26 with one hand, and uses the thumb of that hand to press against the pressure plate 32 to slide it along the track 34 into engagement with the block 24 and thereby press the block 24 through the sleeve 20 and barrier ring 38 and into the melting chamber 16 in the barrel member 14 where the end portion of the block 24 will be made molten by contact with the inner surface of the barrel member 14, including the inwardly projecting ribs 42.
  • the barrier ring 38 has a cylindrical inner surface with a slightly smaller inner diameter than the inner diameter of the sleeve 20 and will provide a slight interference fit or a very close clearance fit with the block 24, depending on whether the diameter of the block 24 is at the upper or lower limit of its tolerance range.
  • the barrier ring 38 will melt the periphery of the thermoplastic block 24 sufficiently to allow it to easily pass; and in either event the barrier ring 38 will greatly restrict extrusion of thermoplastic material from the melting chamber 16 back between the block 24 and the barrier ring 38 and thus between the block 24 and the inner surface of the sleeve 20.
  • Sufficient pressure in the molten thermoplastic within the melting chamber 16 caused by manual pressure on the pressure plate 32 and block 24 will cause the head 50 of the value to move away from its valve seat against the bias of the spring 52 so that the molten thermoplastic can flow around the head 50 and out the outlet opening 19 of the nozzle 21.
  • the head 50 When manual pressure is released on the pressure plate 32, the head 50 will again move to its seat under the influence of the spring 52 which stops the flow of molten material through the nozzle 21 and restricts air from reaching the molten thermoplastic material in the melting chamber 16, thereby restricting oxidation of the molten thermoplastic in the valve assembly 18. If the heating element 43 remains activated for a long time while no molten thermoplastic material is dispensed through the nozzle 21, heat buildup can cause the block 24 to melt (at least around its periphery), to about the midpoint of the sleeve 20 where such melting will be restricted by the cooling effect of the cooling flange 48.
  • thermoplastic material in the valve assembly 18 will be some of the first thermoplastic material melted and the valve assembly 18 can act as a relief valve for pressure developed in the barrel member 14 as the rest of the thermoplastic material in the barrel member 14 melts.
  • the smooth longitudinally micro- grooved inner surface of the sleeve 20 will facilitate breaking loose of the block 24 from the sleeve 20 to press it through the barrier ring 38 and into the melting chamber 16 to again cause the molten thermoplastic material to flow out of the nozzle 21.
  • the operator can manually retract the pressure plate 32 along its track 34 via one of the wing portions 35 and press a new block 24 of thermoplastic material transversely between the gripping parts 30 of the holding bracket 28, whereupon the new block 24 will be held in proper alignment with the sleeve 20, and the operator can again use the pressure plate 32 to press the new block 24 into the melting chamber 16.
  • a dispensing device 60 for molten thermoplastic material which device 60 has the same structure as the device 10 except that the bracket assembly 28 and slide portion 33 of the device 10 have been replaced by a manually operated magazine assembly 62.
  • Parts of the device 60 that have the same structures as parts of the device 10 have been given the same reference numerals to which have been added the suffix "a".
  • the device 60 comprises a two part frame.64, a barrel member 14a mounted between the parts of the frame 64 and having an internal melting chamber communicating via a discharge passageway through a valve assembly 18a with an outlet opening through a nozzle 21a, and a sleeve 20a with a cylindrical through opening 22a having one end secured to the barrel member 14a with its through opening 22a communicating with the end of the melting chamber opposite the discharge passageway.
  • the sleeve 20a is adapted to receive a cylindrical block 24 of solid thermoplastic material within the cylindrical through opening 22a with a slight clearance fit even when the diameter of the block 24 is at the large end of its tolerance range, with one end portion of the block 24 in the melting chamber and the block 24 projecting through the opening 22a in the sleeve 20a.
  • Means are provided in the device 60 for heating the barrel member to melt the end portion of the block 24 therein.
  • the frame 64 includes a handle 26a positioned so that an operator can grip the handle 26a with the fingers of one hand while applying pressure with the thumb of that hand to press the block 24 through the sleeve 20a and into the melting chamber to force molten thermoplastic material out of the melting chamber through the valve assembly 18a and nozzle 21a.
  • the device 60 includes the magazine assembly 62 at the end of the sleeve 20a opposite the barrel member 14a, which magazine assembly 62 includes means adapted for receiving and for holding a stack of the blocks 24 of solid thermoplastic material with the lowermost block 24 of the stack in aligned end-to-end relationship with a block 24 of thermoplastic material in the sleeve 20a, while affording the application of force by the thumb of an operator on the end of the lowermost block 24 opposite the sleeve 20a to press it into the sleeve 20a toward the melting chamber.
  • the magazine assembly 62 comprises (1) wall means or walls included in the frame 64 that define an open topped magazine chamber 66 adapted to hold a stack of the solid thermoplastic material blocks 24 with the lowermost block 24 of the stack in aligned end-to-end relationship with a block 24 of thermoplastic material in the sleeve 20a; and (2) an elongate slide 68 having an end surface 69 adapted to engage the end of the lowermost block 24 opposite the sleeve 20a, a shape adapted to replace the lowermost block 24 in the stack, and an upper surface 70 adapted to support the other blocks 24 in the stack.
  • the slide 68 has portions projecting away from its side opposite its surface 70 that are longitudinally spaced to provide a notch 72 therebetween opening through its side.
  • the notch 72 is adapted to receive the end portion of an operator's thumb.
  • the slide 68 is mounted on the frame 64 for movement along a path generally aligned with the melting chamber (1) from a retracted position ( Figures 6 and 8) with the slide 68 out of the magazine chamber 66 and its first end surface 69 adjacent the end of the lowermost block in the magazine chamber 66 opposite the melting chamber (2) to an advanced position (dotted outline in Figure 6) with the slide 68 extending across the bottom of the magazine chamber 66 to press the lowermost block 24 in the magazine chamber 66 toward the melting chamber by engagement between its first end surface 69 and the block 24, in which advanced position the slide 68 supports the other blocks 24 in the magazine chamber 66 on its upper surface 70; and (3) back to its retracted position to allow the block 24 in the stack adjacent its upper surface 70 to move into alignment with the melting chamber so that the cycle can be repeated.
  • the notch 72 is accessible by the thumb of an operator gripping the handle 26a to afford manual reciprocation of the slide 68 between its retracted and
  • the walls of the frame 64 which define the magazine chamber 66 include spaced opposed ledges 74 which define a bottom wall for the magazine chamber 66, and the slide 68 has opposite longitudinally grooves extending receive the ledges 74 to afford reciprocation of the slide 68 along the ledges 74 between its retracted and advanced positions.
  • the walls of the frame 64 defining the magazine chamber 66 include spaced vertically extending side walls 76. At least one of the side walls 76 has a plurality of recesses 78 parallel to each other and to the axis of the melting chamber along its inner surface.
  • the recesses 78 are spaced and adapted to partially receive the sides of blocks 24 in the stack of blocks 24 in the magazine chamber 66 to restrict the blocks 24 from moving out the open top of the magazine chamber 66 when the device 60 is tipped on its side adjacent the recesses 78.
  • Two resilient spring fingers 77 with enlarged inwardly projecting heads on their distal ends and positioned adjacent the open end of the magazine chamber 66 also help to retain the stack of blocks 24 in the magazine chamber 66, while being resiliently bendable so that their heads will be cammed out of the magazine chamber as blocks 24 are added to the stack in the magazine assembly 62.
  • an operator first connects its power cord 47 to a source of electrical power so that the barrel member and barrier ring are heated by its heating element. After insuring the slide 68 is then it its retracted position ( Figures 6 and 8), the operator then places a series of blocks 24 of thermoplastic material in the open end of the magazine chamber 66, grabs the handle 26a with one hand, engages the thumb of that hand in the notch 72 in the slide 68 and uses his thumb to move the slide 68 along the ledges 74 into engagement with the lowermost block 24 in the stack to thereby press that block 24 toward the sleeve 20a and into the melting chamber in the barrel member 14a where the end portion of the block 24 will be made molten by contact with the inner surface of the barrel member 14a. As the slide 68 is thus moved from its retracted position toward its advanced position (dotted outline in Figure 6) it will replace the lowermost block 24 in the magazine chamber and support the other blocks in the magazine chamber 66 on its upper surface 70.
  • the operator can manually retract the slide 68 along the ledges 74 by engagement of his thumb in the notch 72 or on one of a pair of projecting wing portions 79, so that the lowermost block 24 of thermoplastic material remaining in the magazine chamber will move to the bottom of the magazine chamber 66 in proper alignment with the sleeve 20a, and the operator can again manipulate the slide 68 with his thumb to press the new lowermost block 24 in the magazine chamber 66 into the sleeve 20a and the melting chamber.
  • the present invention has now been described with reference to one embodiment thereof. It will be apparent to those skilled in the art that many changes can be made in the embodiment described without departing from the scope of the present invention.
  • the device 60 could incorporate the features described with reference to drawing Figures 6 and 7 of my U.S. Patent Application No. 456,346.
  • recesses 78 of the type illustrated could be used on the other sidewall defining the magazine chamber 66 instead of the spring fingers 77.
  • the scope of the present invention should not be limited to the structures described in this application, but only by structures described by the language of the claim and their equivalents.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Lining Or Joining Of Plastics Or The Like (AREA)
  • Casting Or Compression Moulding Of Plastics Or The Like (AREA)
EP19850300008 1984-01-12 1985-01-02 Abgabegerät für thermoplastisches Material mit handbetriebener Zufuhr Expired EP0148758B1 (de)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US57024584A 1984-01-12 1984-01-12
US570245 1984-01-12

Publications (3)

Publication Number Publication Date
EP0148758A2 true EP0148758A2 (de) 1985-07-17
EP0148758A3 EP0148758A3 (en) 1986-12-30
EP0148758B1 EP0148758B1 (de) 1989-03-15

Family

ID=24278847

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Application Number Title Priority Date Filing Date
EP19850300008 Expired EP0148758B1 (de) 1984-01-12 1985-01-02 Abgabegerät für thermoplastisches Material mit handbetriebener Zufuhr

Country Status (3)

Country Link
EP (1) EP0148758B1 (de)
JP (1) JPS60161135A (de)
DE (1) DE3568716D1 (de)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0196767A2 (de) * 1985-03-29 1986-10-08 N.V. Raychem S.A. Unter Druck stehendes Spleissgehäuse

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3612357A (en) * 1969-10-06 1971-10-12 Swingline Inc Molten material dispensers with controlled forcible manual feeder for ratchet-toothed heat-liquefiable rod, having heater and thermostat
GB2054746A (en) * 1979-06-25 1981-02-18 Hilti Ag Apparatus for dispensing two- component adhesive
EP0055350A2 (de) * 1980-12-29 1982-07-07 Steinel GmbH & Co. KG Vorrichtung zur Verflüssigung eines schmelzbaren Klebers
EP0077884A1 (de) * 1981-10-26 1983-05-04 Steinel GmbH & Co. KG Vorrichtung zur Führung eines stabförmigen, durch Wärmeeinwirkung erweichbaren Klebematerials
EP0116400A1 (de) * 1983-01-07 1984-08-22 Minnesota Mining And Manufacturing Company Abgabevorrichtung für thermoplastische Materialien

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE2854230C2 (de) * 1978-12-15 1980-12-04 Hubert Ing.(Grad.) 5100 Aachen Brab Vorrichtung zum Schmelzen und Auftragen von thermoplastischem Klebstoff

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3612357A (en) * 1969-10-06 1971-10-12 Swingline Inc Molten material dispensers with controlled forcible manual feeder for ratchet-toothed heat-liquefiable rod, having heater and thermostat
GB2054746A (en) * 1979-06-25 1981-02-18 Hilti Ag Apparatus for dispensing two- component adhesive
EP0055350A2 (de) * 1980-12-29 1982-07-07 Steinel GmbH & Co. KG Vorrichtung zur Verflüssigung eines schmelzbaren Klebers
EP0077884A1 (de) * 1981-10-26 1983-05-04 Steinel GmbH & Co. KG Vorrichtung zur Führung eines stabförmigen, durch Wärmeeinwirkung erweichbaren Klebematerials
EP0116400A1 (de) * 1983-01-07 1984-08-22 Minnesota Mining And Manufacturing Company Abgabevorrichtung für thermoplastische Materialien

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0196767A2 (de) * 1985-03-29 1986-10-08 N.V. Raychem S.A. Unter Druck stehendes Spleissgehäuse
EP0196767B1 (de) * 1985-03-29 1992-04-22 N.V. Raychem S.A. Unter Druck stehendes Spleissgehäuse

Also Published As

Publication number Publication date
DE3568716D1 (en) 1989-04-20
JPH0436059B2 (de) 1992-06-15
JPS60161135A (ja) 1985-08-22
EP0148758A3 (en) 1986-12-30
EP0148758B1 (de) 1989-03-15

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