DE10211113B4 - Method and device for melting and conveying thermoplastic material contained in a drum - Google Patents

Abstract

method for melting and conveying of contained in a cylindrical barrel hardened thermoplastic material, in particular hot melt adhesives, by means of a front-side heatable barrel punch, the one in the opening of the barrel will, the opposite the inner surface the barrel is sealed and melted through the barrel Material is derived from the interior of the barrel, characterized in that the barrel stamp held in a position with heated front side pointing upwards and the barrel to promote the Material with down-facing opening on the barrel stamp is lowered, wherein this enters the barrel.

Description

The The present invention relates to a method and an apparatus for melting and conveying of contained in a cylindrical barrel hardened thermoplastic material, in particular hot melt adhesives, by means of a front-side heatable barrel punch, the one in the opening of the barrel will, the opposite the inner surface the barrel is sealed and melted through the barrel Material is derived from the inside of the barrel.

A method and a device of the type mentioned are known from DE 44 22 606 C1 known. Thermoplastic material of the type mentioned is filled in production in molten liquid form in barrels, which are then closed, wherein the material cools to ambient temperature and hardens. In this way, the material is filled into negotiable shipping containers that are easy to transport.

At the Consumer is the material filled in the aforementioned manner in the barrels to melt and for further use. in this connection is in a upright open-topped barrel a barrel stamp with a front-side hot plate introduced, which can melt the thermoplastic material. Through the heating plate through the molten material by means of a feed pump derived. The barrel stamp This is done by means of a lifting and lowering device accordingly the flow rate the feed pump tracked. The delivery rate is by regulating the feed pump adapted to the needs of the consumer.

To Beginning of the melting of the contents of a barrel becomes a vent valve opened in the barrel stamp, so this retracted without pressure of the sealant in the barrel until he can with the hot plate on the surface of the solidified material rests. Thereafter, the vent valve closed and it begins the melting and conveying process, wherein molten material removed by a pump and the barrel stamp is lowered by handling means in the barrel. If the Faßstempel rests on the bottom of the barrel, the vent valve is opened and connected to a compressed air connection. This will be the barrel stamp under the effect of overpressure in the barrel removed from the barrel. To the surface To increase the heating plate in the required manner, this has in known Devices on the front ribs. This has the disadvantage that a considerable Remaining volume between the ribs remains in the barrel, which is not pumped out can be. When moving out of the barrel stamp adheres this highly viscous Material at the barrel stamp and, as soon as the empty barrel is removed, drip while pulling of long threads on the device, which thereby remains contaminated and soiled which hinders the problem-free setting of drums in the long term.

A Use of a flat heating plate to avoid the residual volume is excluded because the hereby available surface for Representing a sufficient heat output is too low. A increase the heating temperature is not possible because above a permissible Temperature damaged the material becomes.

From the DE 37 33 029 C1 discloses a device for liquefying high polymer, thermoplastic materials, in particular hot melt adhesives contained in barrels, which have a flat heating plate with a central flow opening on which the barrels are placed after removal of a lid with downwardly facing opening. After draining off a small portion of molten material a controlled heat input and a controlled flow is no longer possible.

From the DE 88 05 907 U1 is a device for liquefying of enamels, in particular hot melt adhesives known in the above with Heizrippen be tipped upwardly open main melting and Vorschmelzbehälter above a barrel-shaped reservoir is screwed without cover and bottom, in which the solid material must be abandoned lumpy or granular. For melting of material solidified in a barrel this device is not suitable.

On this basis, the present invention seeks to provide a method and an apparatus of the type mentioned, which guarantees an improved emptying of the barrels with unrestricted performance. The solution to this lies in a method of the type mentioned, which is characterized in that the barrel ram is held in a position with upwardly facing heated end face and the barrel for conveying the material is lowered with downward opening on the barrel ram, said this enters the barrel. The entsprecnende device according to the preamble of claim 2, is characterized accordingly characterized in that the Faßstempel is fixed with upwardly facing heated face and that gripper means are provided for the barrel for lowering the barrel on the Faßstempel on entering the Faßstempels in the barrel along a ver Tikale axis are movable. In this way, it is possible that when striking the provided with surface structures heating plate at the bottom of the barrel, ie when the barrel is lowered entirely on the barrel punches, the residual volume between the surface structures can proceed by gravity through the hot plate into an underlying tank. The barrel is emptied in this way in a lying below the heating plate tank, which in turn can be heated. Between the heating plate and the tank, the barrel punch preferably has a closed cylinder section consisting of an inner cylinder and a protective cylinder, wherein the inner cylinder can be heated by external heating elements and the protective cylinder consists of insulating material or is internally thermally insulated. This largely precludes cooling and stringing between the underside of the heating plate and the tank. The tank preferably has a sloping bottom that lies in a cross-sectional narrowed swamp. From the deepest point of the sump, the molten material is guided by means of a gear pump via a heatable filter and via hose lines to the corresponding consumers. If necessary, the hose lines can also be heated.

to Handling of the barrel can be arranged parallel to the barrel punch column be, at the a gripper pair for arranged the barrel is. Here, the gripper pair may preferably be a horizontal Axle be rotatable at least 180 °, so that one first with opening facing upwards raised barrel raised, rotated by 180 ° and lowered after the pivoting in the axis of the barrel stamp on this can be. The gripper means must in this case around the said column in the axis of the barrel stamp be swiveled.

The Structure of the footprint the heating plate is preferably made of a plurality of grid-like arranged pyramid bodies same shape and height. Here you can from each vertex of each pyramid body, the passages go out in the heating plate, which are executed axially parallel to the stamp. A first ring seal can be outside be inserted in the heating plate. Preferably go from Web section above this ring seal, enters the material, oblique holes to the bottom of the heating plate, so that when emptying under gravity the residual volume in the web area above the ring seal is negligible is small. To a complete To obtain secure sealing, preferably has a sealing portion below the hot plate on at least two O-ring seals on a past by molten material reliable can prevent.

One preferred embodiment The invention is illustrated in the drawings. Herein shows

1 a device according to the invention in vertical section with an empty barrel;

2 the device according to the invention 1 in 90 ° rotated side view without a barrel;

3 the heating plate of the device after the 1 and 2 in frontal supervision;

4 a part of the heating plate after 3 in enlarged vertical section as a detail.

In 1 a device according to the invention is shown, which consists essentially of a barrel punches 11 , a subframe 12 a tank 13 , a pump 14 , a pump drive motor 15 and a filter 16 consists. The barrel stamp 11 has a frontal heating plate 21 on whose surface of a large number of equal pyramidal bodies 22 is formed. In the hot plate 21 are axially parallel openings 23 as well as outgoing from the circumference inclined channels 24 intended. Next are in the hotplate electric heating elements 25 used. At the periphery, the heating plate takes a first seal 26 on. Below the heating plate is an annular sealing portion 31 ring cylindrical and two ring seals 32 . 33 in the form of O-rings. Subsequent to the sealing portion of the barrel stamp coaxial with each other comprises a protective cylinder 35 with an internal thermal insulation 36 as well as an inner cylinder 37 with externally mounted heating elements 38 , The cylinders 35 . 37 stand on the base 12 on, being in the protective cylinder 35 Cable bushings 39 for the power supply of the heating elements 25 and the heating elements 38 are provided. Below the cylinder is in the base of the tank 13 installed, the side cover and 41 and a narrowed swamp 42 has, in the one inclined bottom plate 43 is used. In the bottom plate are heating elements 44 intended. With the lowest point of the tank 41 is the feed pump 14 connected, is promoted with the molten material to the points of consumption. The delivery pump 14 is via a shaft coupling 47 with the pump drive motor 15 connected. On the stamp is a barrel 17 placed with bottom opening, whose above the hot plate 21 lying content is not marked in more detail. Molten material flows out of the area above the heating plate 21 through the channels 23 in the interior of the sealing portion 31 as well as the cylinder 35 . 37 and gets into the tank from here 13 , The gear pump 14 promotes the molten material over the heated filter block 16 to a glue outlet 46 with a connection fitting from which liquid material can be directed to consumers.

In 2 is the device after 1 in 90 ° around the stamp axis rotated view of the adhesive outlet 46 shown with the barrel removed here. The same details are given the same reference numerals as in FIG 1 busy. On the previous description we refer in this regard. On the heating plate 21 are the same height pyramidal bodies 22 Recognizable in 90 ° rotated view.

In 3 It can be seen that the surface of the heating plate 21 consists essentially of pyramidal elements 22 composed, wherein the unseen passage openings 23 starting from the lower corners of the pyramids.

In 4 is a part of the heating plate 21 shown enlarged. They are the pyramidal elements 22 , the paraxial passages 23 and bores for receiving heating rods 25 recognizable. A circumferential groove serves to receive the aforementioned O-ring seal 26 , From the outer surface of the plate are inclined holes 24 out, which also open to the underside of the plate. With dashed lines is the bottom of the barrel 17 indicated, which can be lowered down to the tips of the pyramids, so that an extremely small residual volume remains, beyond the outgoing from the lowest points of the pyramidal structure passages 23 can be derived while the volume in the land area radially outside the heating plate 21 over the inclined channels 24 is emptied.

11

Faßstempel

12

undercarriage

13

tank

14

feed pump

15

drive motor

16

filter

17

Barrel

21

heating plate

22

pyramid

23

Passageway

24

oblique channel

25

heater

26

O-ring seal

27

28

29

30

31

seal carrier

32

O-ring seal

33

O-ring seal

34

35

protective cylinder

36

insulation

37

inner cylinder

38

heating element

39

management

40

41

cover

42

swamp

43

baseplate

44

heating element

46

adhesive outlet

47

shaft coupling

Claims (10)

A method for melting and conveying hardened thermoplastic material contained in a cylindrical drum, in particular hot glue, by means of a front-end heatable drum punch which is inserted into the opening of the drum which is sealed off from the inside surface of the drum and through which molten material is blown out of the drum Inside the barrel is derived, characterized in that the barrel ram is held in a position with upwardly facing heated end face and the barrel for conveying the material is lowered with downward opening on the barrel punch, which enters the barrel. Device for melting and conveying in a cylindrical drum ( 17 ) contained hardened thermoplastic material, in particular of hot melt adhesive, with a in the barrel ( 17 ) insertable frontally heatable barrel punches ( 11 ) facing the inner surface of the barrel ( 17 ) effective sealants ( 26 . 32 . 33 ) and the passageways ( 23 . 24 ) for discharging molten material from inside the barrel ( 17 ) has, characterized in that the barrel stamp ( 11 ) is arranged stationarily with upwardly facing heated face and that gripper means for the barrel ( 17 ) for lowering the barrel ( 17 ) over the barrel stamp ( 11 ) while entering the barrel stamp ( 11 ) in the barrel ( 17 ) are provided, which are movable along a vertical axis. Apparatus according to claim 2, characterized in that the barrel punches ( 11 ) frontally a heating plate ( 21 ) having. Apparatus according to claim 3, characterized in that the interior of the barrel ( 13 ) facing surface of the heating plate ( 21 ) a multitude of equal-height pyramids ( 22 ) or prisms. Apparatus according to claim 4, characterized in that from the base surface of the pyramids ( 22 ) or prisms outgoing axis-parallel passageways ( 23 ) in the heating plate ( 21 ) are. Apparatus according to claim 5, characterized in that the passageways ( 23 ) in an inner cylinder ( 37 ) within the barrel stamp ( 11 ). Apparatus according to claim 6, characterized in that the inner cylinder ( 37 ) outside with heating elements ( 38 ) is occupied and that the heating elements of a thermally insulating protective cylinder ( 35 ) are surrounded. Device according to one of claims 1 to 7, characterized in that the barrel punches ( 11 ) to an open-top collection tank ( 13 ) which has a heatable inclined bottom ( 43 ) having. Device according to one of claims 2 to 8, characterized in that the gripping means for the barrel ( 17 ) are pivotable about a vertical axis. Device according to one of claims 2 to 9, characterized in that the gripping means for the barrel ( 17 ) are rotatable about a horizontal axis by at least 180 °.