DE202009005822U1 - Heating-cooling combination for extrusion systems - Google Patents

Abstract

Heating-cooling combination for extrusion systems, comprising a housing in which at least one heating element is introduced and on which a fan is arranged, wherein in the housing on the opposite side of the fan ventilation openings for the outlet of the forced air flow are introduced, characterized in that means are arranged for air flow-controlled closing of the ventilation openings.

Description

The The invention relates to a heating-cooling combination for extrusion plants according to the preamble of claim 1. The invention relates to furthermore a flap housing for use on a heating-cooling combination according to the protection claim 9.

Heating-cooling combination especially used in extrusion plants. These heat the extrusion cylinder on the for the processing temperature required and equal heat losses due to radiation occurring. The resulting in the processing process Excess heat, the so-called friction heat, is discharged by means of a fan arranged air supplied. One continuous flow of melt is maintained in this way.

such Heating-cooling combination consist essentially of a housing in which to heat up of the extrusion cylinder heating bands are introduced. Furthermore, on the housing, a blower for generating arranged an air stream. The airflow introduced into the housing will over opposite the blower arranged louvers removed from the housing again. adversely on the aforementioned heating-cooling combinations is that through the for the exhaust air from the blower supplied Air outlets also provided with blower deactivated a heat loss through Convection takes place, which by supplying additional heating energy again is to compensate.

Here The invention aims to remedy this. The invention is the task At the bottom, a heating-cooling combination to create an excessive heat loss is avoided by convection. According to the invention, this Task by the features of the characterizing part of the claim 1 solved.

With The invention is a heating-cooling combination created, causing excessive heat loss is avoided. Through the airflow-controlled closure of the ventilation openings gets a heat loss through the vents with blower deactivated counteracted. Usually is the case formed substantially cylindrical. In this case that is fan Preferably arranged such that the fan air flow radially through the casing is directed.

In Development of the invention comprise the means for closing the Vents on on the case attached flap housing, are rotatably mounted in the closure flaps. This flap housing is such around the vents arranged that these completely enclosed are. By rotatably mounted flaps is on-demand Closing the vents allows. The flaps are designed such that they have a through the blower generated airflow independently open and automatically close again when the airflow decreases. Prefers Two flaps are rotatable in opposite directions on one axis arranged. This axis is advantageous in the middle of the range of vents arranged, each flap each one half of the vents closes.

In Embodiment of the invention is at least one stop for support arranged the flaps. This is a closure of vents achieved in rest position of the flaps. The stop is advantageous of the front side in the valve body arranged limiting bolt educated. Alternatively, the stop can also be through at the bottom the flap housing arranged Limiting pin or be formed by a stop frame.

In Embodiment of the invention is above the flaps at least arranged a ventilation grille. the ventilation grille serves the protection of the flaps against external influences without the exiting air flow is obstructed.

The Asked task is further by a valve body with the features of the protection claim 9 solved. Such a valve body can easy on existing heating-cooling combinations retrofitted become. In this case, the valve body is so on the housing of the heating-cooling combination attached, that it all provided for the escape of the air blower air vents encloses.

Prefers Two flaps are rotatable in opposite directions on one axis arranged. It is advantageous to the flaps on her the outer axis facing away from the axis of rotation formed at least partially a web. This will be the Focus of the flaps towards the water outer edges shifted, causing the automatic closing behavior the flaps supported becomes.

Other Further developments and refinements of the invention are specified in the remaining subclaims. An embodiment The invention is illustrated in the drawing and will be described below described in detail. Show it:

1 the spatial representation of a heating-cooling combination and

2 the representation of the valve body of the heating-cooling combination 1 on average.

The selected as embodiment heating-cooling combination consists essentially of a housing 1 , on the inside of heating cables 2 are arranged. On the outside of the case 1 is a - in figure out of the case 1 detached - blower 3 attached to the entry of an air flow. The blower 3 opposite is a flap housing 5 arranged. The housing 1 is about closure means 4 closable.

The housing 1 is essentially formed by a cylindrically shaped metal sheet, which can be opened or closed in the longitudinal direction. In this way, it can be applied to the extrusion cylinder of an extrusion plant. The closure of the case 1 via fastened by means of rivets fastener tabs 4 , which for example over clamping screws 41 can be connected to each other. Of course, a wide variety of closure means can be used at this point.

At the bottom is on the case 1 a fan 3 arranged. The fan 3 serves to generate a through - not shown - inlet openings of the housing 1 to be introduced airflow. To exit this air flow are opposite in the housing 1 - Not shown - vent openings introduced. By this arrangement can through the housing 1 a radial air flow for heat dissipation are generated. At his the blower 3 opposite outside is on the case 1 a flap housing 5 attached, which encloses the - not shown - vents.

The valve body 5 is executed in the embodiment as a sheet metal bent part. At his side plates 51 are for this tabs 511 for fastening the flap housing 5 on the housing 1 the heating-cooling combination formed. In this way, the retrofitting of existing heating-cooling combinations with such a valve body 5 allows. The side panels 51 are with the front plates 52 about rivets 54 connected to each other, so that a stable, essentially cuboid valve housing 5 is formed. At his the housing 1 the heating-cooling combination opposite top has the valve body 5 an air grid 53 on.

In the front plates 52 are opposite bushings 56 for receiving a rotation axis 57 introduced, by means of the two flaps 6 are rotatably mounted in opposite directions to each other. For this purpose, the flaps have at their axis 57 facing end arranged comb-like loops 61 on, which mesh in a known manner in the manner of a hinge in opposite directions and through the axis 57 is guided. At her the loops 61 opposite outer edge is on the flaps 6 one footbridge each 62 formed in the embodiment over the entire length of the flaps 6 runs. The bridges 62 cause a shift in the center of gravity of the flaps 6 to the outside, causing the flaps 6 at rest on a within the valve body 5 arranged inner frame 55 rest.

In the heating phase, in which placed in the heating-cooling combination electric heating tapes 2 to heat the - not shown - extruder cylinder to Solltem temperature, are the flaps 6 on the inner frame 55 on, whereby the - not shown - vents of the housing 1 are closed. This saves energy in the heated interior of the housing 1 achieved. When reaching an extruder cylinder temperature above the setpoint temperature, the heating bands switch 2 off and the air blower 3 is activated. In this cooling phase, the two rotatable shutter flaps 6 by the pressure of the blower 3 generated air volume flow pushed up; in the case 1 Hot air can flow through the grille 53 of the valve body 5 escape. If the extruder barrel temperature drops below the setpoint temperature, the blower will switch 3 off and the heating tapes 2 are activated. When the fan is switched off, the previously generated air pressure slowly breaks down, causing the closing flaps 6 dampened back to their original position on the inner frame 55 fall back and so close the - not shown - vents again. In 2 are the two end position opened / closed the flaps 6 indicated.

Claims (12)

Heating-cooling combination for extrusion systems, comprising a housing in which at least one heating element is introduced and on which a fan is arranged, wherein in the housing on the opposite side of the fan ventilation openings for the outlet of the forced air flow are introduced, characterized in that means are arranged for air flow-controlled closing of the ventilation openings. Heating-cooling combination according to claim 1, characterized in that the housing ( 1 ) is substantially cylindrical and that the blower ( 3 ) is arranged such that the blower air flow radially through the housing ( 1 ). Heating-cooling combination according to claim 1 or 2, characterized in that the means for closing the vents on the housing ( 3 ) mounted flap housing ( 5 ), in which at least one closure flap ( 6 ) is rotatably mounted. Heating-cooling combination according to claim 3, characterized in that two closing flaps ( 6 ) in opposite directions on one axis ( 57 ) are rotatably arranged. Heating-cooling combination according to claim 3 or 4, characterized in that at least one stop for supporting the flaps ( 6 ) are arranged. Heating-cooling combination according to claim 5, characterized in that the stop by the front side in the valve body arranged limiting bolt is formed. Heating-cooling combination according to claim 5, characterized in that the stop by arranged on the underside of the flap housing limiting bolt or a boundary frame ( 55 ) is formed. Heating-cooling combination according to one of claims 3 to 7, characterized in that above the closure flaps ( 6 ) at least one air grid ( 53 ) is arranged. Valve body, in which at least one closure flap is rotatably mounted, for Use on a heating-cooling combination according to one of the preceding claims. Flap housing according to claim 9, characterized in that two flaps ( 6 ) in opposite directions on one axis ( 57 ) are rotatably arranged. Flap housing according to claim 9 or 10, characterized in that above the least a closure flap ( 6 ) at least one air grid ( 53 ) is arranged. Flap housing according to claim 10 or 11, characterized in that on the closure flaps ( 6 ) at its axis ( 57 ) facing away from outer edge at least partially a web ( 62 ) is arranged.