Melter

Abstract

The invention relates to a melter, comprising a block (2) having a detachable shell (6), in which there is housed a melting chamber (3) provided with an upper opening that is closed with a hinged and detachable lid (11), the chamber (3) being arranged on lower supports (7), with the freedom to expand upwards, the opening of said chamber (3) incorporating a gasket (8) having an upwardly inclined flexible lip in the outer part on which the shell (6) rests, establishing sealed closure with respect to the chamber (3), whereas on the gasket (8) there is arranged a frame (9) having an upward vertical flange, with respect to which the lid (11) that closes on the gasket (8) is assembled, such that when the chamber (3) expands due to the temperature, the flexible lip allows the expansion maintaining leak-tightness.

Claims

1. A melter comprising: a melting chamber comprising an upper opening; an outlet system for the molten material for the application thereof; lower supports holding the melting chamber with the freedom to expand upwards, a cover shell to cover the melting chamber, the outlet system and the lower supports, the cover shell comprising a lid for closing the upper opening of the melting chamber, wherein the upper opening of said melting chamber comprises an edge, and a gasket is arranged on the edge, wherein the edge supports the lid in a closed position, wherein said gasket comprises an upwardly inclined flexible lip in an outer part on which the cover shell rests, establishing a sealed closure with respect to the melting chamber, and wherein an L-shaped frame having an upward vertical flange is arranged on the gasket configured to swing between the closed position and an open position.

2. The melter according to claim 1, wherein the lid is detachable and comprises pivots on sides of a rear end of said lid wherein posts upwardly emerge from the L-shaped frame, wherein the cover shell comprises grooves facing said posts such that the pivots enter and exit through the grooves for the assembly and detachment of the lid.

3. The melter according to claim 1, wherein the lid incorporates a structure on a lower face in the form of an inverted pan, which rests on the gasket in the closed position of the lid, establishing a sealed closure around the opening of the melting chamber.

4. The melter according to claim 1, wherein the cover shell defines an angular arcuate edge on which a corresponding edge of the lid acts as a scraper when said lid swings carrying away molten material deposited on the arcuate structure.

5. The melter according to claim 1, wherein the L-shaped frame comprises a notch in an area of a vertical flange acting as an overflow for the melting chamber.

Description

DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 shows a perspective view of a melter for hot-melt materials according to the invention, with the cover shell of the melting chamber being raised with respect to the assembly position and the upper lid of said shell being extracted towards the front.

(2) FIG. 2 is a cross-section view of the block containing the melting chamber in the melter in the preceding figure, with the cover shell placed in its assembly position.

(3) FIG. 3 is an enlarged partial detail of an area of the preceding figure in which the support of the shell and of the lid on the gasket of the opening of the melting chamber is seen.

(4) FIG. 4 is a partial perspective view in which the opening of the melting chamber of the melter with the lid in the open position is seen.

(5) FIG. 5 is an enlarged detail of one of the areas of the assembly coupling of the lid of the melting chamber in the melter of the invention.

(6) FIG. 6 is a perspective view of a detail of the relation of the scraping function of the lid of the melting chamber with respect to the edge of the cover shell in the melter of the invention.

(7) FIGS. 7 and 8 are respective sectional side views showing the swiveling of the lid of the melting chamber, in an intermediate swivel position and in the open complete swivel position, respectively.

DETAILED DESCRIPTION OF THE INVENTION

(8) The object of the invention relates to a melter intended for applying hot-melt materials, comprising a block (1) housing the control elements of an electrical system and of a pneumatic system, and a block (2) in which there is housed a melting chamber (3) for melting the hot-melt materials in order to turn them into fluid material, and the elements of an outlet system (4) for the molten fluid material for the application thereof, said blocks (1 and 2) incorporating respective cover shells (5 and 6) which can be removed independently for required internal repair or maintenance operations.

(9) The melting chamber (3) for melting the hot-melt materials is arranged in the corresponding block (2) in a floating assembly by means of being held on lower supports (7), with the freedom to expand upwards due to the effect of the temperatures required for melting the hot-melt materials, said chamber (3) having an opening in the upper part, on the edge of which there is arranged a gasket (8) and on it an L-shaped frame (9) having an upward vertical flange.

(10) The gasket (8) has an upwardly inclined flexible lip (10) in the outer part, on which the shell (6) of the block (2) rests when assembled, establishing a sealed closure with respect to the chamber (3), such that when said chamber (3) expands upwards due to the temperature, the flexible lip (10) allows such expansion without creating stresses that may deform the shell (6) and without losing the closure seal with respect to the chamber (3), since it increases the pressure of the support between the shell (6) and the flexible lip (10), enhancing the leak-tightness. Said closure between the shell (6) and the flexible lip (10) of the gasket (8) additionally acts as a heat barrier to prevent heat from sliding out of the chamber (3), which allows making maximum use therein of the heat used to melt the hot-melt materials.

(11) The shell (6) has a lid (11) in the upper part which incorporates a structure (12) in the lower face in the form of an inverted pan, whereby in the closed position it is supported on the gasket (8), establishing a sealed closure around the opening of the chamber (3). Therefore, a closure is established on the chamber (3) by means of the lid (11) which allows optimally making use of the heat inside said chamber (3) to melt the hot-melt materials, while at the same time preventing the material being melted from being able to splatter outside the melting compartment.

(12) The structure (12) in the form of an inverted pan furthermore collects the molten material that may splatter onto the lower face of the lid (11), such that the splattered molten material falls from said structure (12) directly into the chamber (3), without sliding out of same.

(13) The lid (11) is arranged in a supporting assembly by means of pivots (13) on the sides of its rear end, on posts (14) emerging upwards from the frame (9), which posts (14) have notches in the upper part where the pivots (13) engage, such that the lid (11) can swing between an open position and a closed position, rotating with respect to such supports of the pivots (13) on the posts (14).

(14) In that arrangement, when the lid (11) swings towards the open position, the structure (12) making the molten material that may be deposited thereon due to the splattering occurring during melting slide from said structure (12) to also fall directly into the chamber (3).

(15) Furthermore, in the assembly area of the lid (11), the shell (6) defines a vertically arcuate edge (15), with which the corresponding edge of the lid (11) is related, such that said corresponding edge of the lid (11) acts as a scraper on said arcuate edge (15) of the shell (6) when the lid (11) swings. Therefore, when the lid (11) swings to the open position, it carries away the molten material that may have been deposited on the mentioned arcuate edge (15) of the shell (6) into the chamber (3).

(16) In turn, the frame (9) of the opening of the chamber (3) has a notch (16) in an area of its vertical flange acting as an overflow so that if there is excessive filling of the chamber (3), the material that is melted therein will exit the melter without overflowing over the rest of the contour of the opening of the chamber (3).

(17) In the assembly area for the lid (11), the shell (6) has grooves (17) frontally facing the posts (14), such that the pivots (13) can enter and exit through said grooves (17) for the assembly and detachment of the lid (11), which can be extracted from its assembly quite easily by simply lifting it up slightly until the pivots (13) come out of the upper notches of the posts (14) and then moving it forward, the pivots (13) going through the grooves (15); whereas the assembly is performed in an equally easy manner, but inversely, i.e., introducing the pivots (13) into the grooves (15) until said pivots (13) engage in the upper notches of the posts (14).