DE102011015302A1 - Driving apparatus, useful for threaded cores of injection molding tools, comprises threaded core nut and threaded core holder with threaded core, unit for cooling threaded core, and unit for controlling temperature of threaded core - Google Patents

Abstract

The driving apparatus comprises a threaded core nut (2) and a threaded core holder (3) with a threaded core, a unit for cooling the threaded core, and a unit for controlling the temperature of the threaded core. The temperature control unit consists of a tempering channel in the threaded core nut, where a sealed sleeve having an inlet and an outlet is disposed over the threaded core nut. The cooling unit consists of a loop circuit, which consists of a feed pipe (7) having an inlet for pumping a tempering medium. The feed pipe extends above a cover plate (4) of a gear plate (5). The driving apparatus comprises a threaded core nut (2) and a threaded core holder (3) with a threaded core, a unit for cooling the threaded core, and a unit for controlling the temperature of the threaded core. The temperature control unit consists of a tempering channel in the threaded core nut, where a sealed sleeve having an inlet and an outlet is disposed over the threaded core nut. The cooling unit consists of a loop circuit, which consists of a feed pipe (7) having an inlet for pumping a tempering medium. The feed pipe extends above a cover plate (4) of a gear plate (5), through which the threaded core holder extends into the threaded core and opens at the bottom of the core, where a channel is arranged around the feed pipe and ends in an outlet. The tempering channel is a spiral groove located on an outside of the threaded core nut or a tempering hole through the threaded core nut.

Description

The invention relates to a drive device for threaded cores of injection molds, die casting molds and the like

Out DE 10 2006 002 819 B4 For example, a drive device for thread cores of injection molds for producing injection-molded injection-molded parts is known. The overmolding of the thread core, which reproduces the negative mold in the tool, takes place with a material melt that is 100-350 ° C., which limits the cycle time (period from closing the tool to ejecting the molded part) during article production, since the injection molding cools before ejection have to be. The higher the temperature of the molding during ejection, the worse the surface of the injection molded parts.

The object of the invention is to provide a drive device for thread cores of injection molds, die casting molds and the like, in which the cycle time is shortened with improved surface of the injection-molded parts.

According to the invention the object is achieved by the features of the main claim. Embodiments of the invention are shown in the subclaims

The invention has the advantage that the cycle time is shortened by a temperature control of the thread core and the associated output quantity is increased with improved quality of the article to be produced.

The invention will be explained in more detail with reference to an embodiment. The accompanying drawing shows:

1 a sectional side view of a drive device according to the invention,

2 the side view of the drive device according to the invention,

3 a further embodiment of the drive device according to the invention.

1 shows a section through the inventive drive device for threaded cores. Between a base plate 1 and a cover plate 4 a gear plate 5 is a threaded nut 2 arranged. In the threaded core nut 2 is a threaded core holder 3 arranged with a spindle on which a threaded core 6 is attached. In the middle in the thread core holder 3 is a feed tube 7 arranged, above a cover plate 4 a gear plate 5 with an inlet 8th starts by the thread core holder 3 into the thread core 6 ranges, and is open at the bottom. Around the feed pipe 7 there is a channel 9 who is in an outlet 10 ends. The attachment of the inlet 8th to the feed tube 7 and the outlet 10 to the canal 9 via a connection piece 14 , The channel 9 So is the gap between the inner wall of the thread core holder 3 and the outer wall of the feed tube 7 , In the thread core holder 3 is at the rear end in the inlet and outlet a connector 15 arranged by warehouse 16 in conjunction with a first and a second shaft securing ring 17 and 18 is fixed. Camps 16 catch the occurring radial and axial forces, the shaft securing rings 17 and 18 fix the position. In the connector 15 will be the connector 14 screwed in such a way that there is axial movement of the threaded core holder 3 allows, but does not rotate radially. So that the temperature control in the temperature control circuit out of the channel 9 the radially and axially moving threaded core holder 3 in the rigid connector 14 can pass, at least one sealing element, such as a mechanical seal, is provided.

The thread core 6 creates a thread on an article to be manufactured and protrudes into the cavity of an injection mold or a casting mold. The thread core 6 is enclosed by the Matrialschmelze, after the cooling / solidification of the same it is gradient conforming from this article by means of the motor-driven threaded core holder 3 unscrewing. The thread core holder 3 is similar to a spindle pronounced and is in the threaded nut 2 arranged arranged. The threaded core nut 2 is by means of a motor 11 turned or screwed. By the length of the threaded nut 2 can the engine 11 next to the threaded nut 2 can be arranged, resulting in a reduction in the height.

By filling the feed tube 7 For example, with a coolant, the thread core holder 3 tempered and thus the thread core 6 thermally influenced, cooled in the embodiment.

2 shows the side view of the drive device according to the invention. Between the base plate 1 and the cover plate 4 the gear plate 5 is the threaded nut 2 arranged. Above the gear plate 5 are inlet 8th and outlet 10 for the temperature control agent.

3 shows another embodiment of the drive device according to the invention. Here are the means for temperature control of the thread core 6 from a tempering channel in the threaded nut 2 , being over the threaded nut 2 a sealed sleeve 13 with an inlet 8th and an outlet 10 is arranged. In this case, the tempering a spiral groove 12 outside on the threaded nut 2 be. But the tempering can also be a tempering through the threaded nut 2 be, even more tempering wells are possible. By tempering the threaded nut 2 becomes the thread core holder 3 tempered and thus the thread core 6 thermally influenced. Is in the tempering of the threaded nut 2 a temperature control, for example, a coolant pressed, thereby the thread core 6 tempered, for example, cooled.

LIST OF REFERENCE NUMBERS

1

baseplate

2

Thread core mother

3

Thread core holder

4

cover

5

Getriebeplatte

6

thread core

7

feed

8th

inlet

9

channel

10

outlet

11

engine

12

spiral

13

shell

14

connector

15

joint

16

camp

17

first shaft securing ring

18

second shaft securing ring

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102006002819 B4 [0002]

Claims (5)

Drive device for thread cores of injection molds, die casting dies and the like for producing threaded injection molded or diecast moldings, comprising a thread nut and a thread core holder with a thread core, characterized in that it contains means for cooling the thread core. Drive device according to claim 1, characterized in that the means for cooling the thread core consist of a temperature control circuit consisting of a feed tube ( 7 ) with an inlet ( 8th ) for pumping a tempering medium, wherein the feed tube ( 7 ) above a cover plate ( 4 ) of a transmission plate ( 5 ) begins, through the thread core holder ( 3 ) into the thread core ( 6 ) and is open at the bottom, and around the feed tube ( 7 ) a channel ( 9 ) arranged in an outlet ( 10 ) ends. Drive device according to claim 1, characterized in that the means for controlling the temperature of the thread core ( 3 ) from a tempering channel in the threaded nut ( 2 ), wherein over the threaded nut ( 2 ) a sealed sleeve ( 13 ) with an inlet ( 8th ) and an outlet ( 10 ) is arranged. Drive device according to claim 3, characterized in that the tempering a spiral groove ( 12 ) on the outside of the threaded nut ( 2 ). Drive device according to claim 3, characterized in that the tempering channel at least one tempering bore through the threaded nut ( 2 ).

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