DE3534937A1 - Injection mould for plastics injection moulding machines with locking device - Google Patents

Abstract

A coupling bolt (19) is mounted so as to be axially displaceable to a limited extent in at least one of the centring bodies (20) of the injection mould. The coupling bolt (19) projects out of the locked injection mould at the back under the pressure of a pretensioned spring (24). It has an annular shoulder (19f') in a section projecting beyond the end of the centring body (20). By virtue of the annular shoulder (19f'), a steel spring washer (25), under spring pretension, is pressed radially into an annular groove (29) of the sliding guide bush (18). This steel spring washer (25) can be released for unlocking spring-back into its starting position by means of a relative movement between the coupling bolt (19) and centring body (20). It is thus achieved that, with a removal of the injection mould half receiving the centring body (20) from the associated mould carrier (26) a mutual locking and, during mounting of this injection mould half on the mould carrier (26), an unlocking take place, in each case automatically. <IMAGE>

Description

Injection mold for plastic injection molding machine with locking

good notice.

The invention relates to an injection mold according to Preamble of claim 1.

In the known injection molds of this type (see, for example DE-PS 1 265 390 and DE-GM 1 965 313; 1 821 023) is the locking device (if present at all) by tab-like, opposite one another Sides of the injection mold arranged coupling elements formed by which each a locking pin of one mold half with a locking pin of the other mold half is releasably connected (cf. for example EP 0 092 686. Al, Figure 1).

A coupling connection of this type must be made and released manually and also increases the dimensions of the injection mold.

The invention has for its object to provide an injection mold of to further develop the type mentioned in such a way that when the centering body is removed receiving Gießformhäifte from the associated mold carrier a mutual locking both Gießformnälften and when clamping this Gießfonmhhalf on the mold carrier an unlocking takes place automatically, and the locking device for Reduction of the technical effort is integrated into the centering elements.

This task is achieved by the characterizing part of claim 1 mentioned features solved.

With such a training can be without loss of time on the for one Injection mold change required transportation of the injection mold passed over be without the operating staff the problem of an exact mutual Locking of the mold halves has to be observed. The locking of the mold halves is a general requirement for an automatic injection mold change.

In addition, it is ensured that the injection mold is transported further remains locked to the storage shelves or during transport back to the injection molding machine, because an undesired unlocking outside of the form slack unit without conscious Manipulation and without the use of specific technical aids (which only a repair department provided for this purpose) is not possible is.

The invention is not affected by the fact that it is known per se the centering body and the plain bearing bushes in the respective mold halves thereby axially define that a split, prestressed steel spring washer the centering body or the sliding guide bush engages behind and half in one The annular groove of the adjacent plate of the mold half is immersed. Although this is also the case the steel spring washer by an inclined surface of a screw bolt when it is tightened pressed into the ring groove under increasing pretension, but otherwise missing any relation to the idea of interlocking the mold halves (DE-PS 1 265 390).

In a training according to claim 2 results an extremely small relative movement for mutual locking and unlocking of the mold halves. This is special Significance in special Method of an injection mold change, in which the injection mold at a minimum mutual spacing of the clamping plates moved out of the clamping space or is retracted (see, for example, DE 32 42 169 C2).

In a training according to claim 3 results a simplified production by subdividing the centering body. Furthermore is a backlash-free locking due to the specific design of the locking elements guaranteed. This is of particular importance, e.g. when connecting supply lines a coupling head of the locked injection mold in the course of a transport movement must meet in the correct position on a stationary coupling head in which the supply lines end (see, for example, DE 3 222 828 C2).

An extremely simple locking element results when this is designed as a split steel spring ring according to claim 3.

The invention is illustrated below with reference to the drawings using an exemplary embodiment explained.

The figures show: FIG. 1 The injection mold from direction A in FIG. 2, FIG. 2 shows a section along line II-II from FIG. 1, FIG. 3 shows a detail from FIG. 2 in an enlarged view, Fig. 4 shows the detail according to Fig. 3 at a distance from one another located Gießfonrnälften and Fig. 5-6 a variant of the injection mold in a Representation according to FIGS. 3, 4.

The injection mold is provided with a device for automatic mutual Locking and unlocking of the mold halves provided. Such a lock is required when storing, changing and transporting the injection mold outside the mold clamping unit of the plastic injection molding machine, i.e. after acceptance of the mold carriers. The casting mold half that can be clamped onto the stationary mold carrier 26 comprises a thermally insulating insulating plate 10 forming the contact surface, one with this congruent mounting plate 11 and one adjacent to the parting plane a-a Fscon plate 12. The other mold half that can be clamped onto the movable mold carrier comprises an insulating plate 17, a mounting plate 16, a Konturenabstützulatte 14, which from the mounting plate 16 with the help of spacers 15 at a distance is held, and a contour plate 13, which is adjacent to the parting plane a-a. In the free space 23 formed between the spacers 15 are the ejector plate 22 and the ejector cover plate 21 as components of a device for ejecting of the injection molded parts from the injection mold (the other components of the ejector device are omitted for the sake of simplicity). The plates of both casting mold halves are clamped together with the aid of clamping screws 28. In holes 33 of the stationary mold carrier 26 clampable casting mold halves are rotationally symmetrical, centering body 20 extending in the closing direction of the injection mold is anchored. In the bores of the other half of the mold there are coaxial, rotationally symmetrical sliding guide bushes 18 anchored. Centering sections dip into this when the injection mold is closed 20b of a smaller diameter of the centering body 20. As can be seen from Fig. 1, are the centering bodies 20 and thus also the coaxial sliding guide bushes 18 arranged as centering units in the corners of the injection mold.

Since all centering units are constructed identically, their construction and the device for mutual locking of the mold halves by means of a Centering unit are described: In at least one of the centering bodies 20, a coupling pin 19 is mounted so as to be axially displaceable to a limited extent. This coupling bolt 19 protrudes under the pressure of a pretensioned spring 24 from the back of the locked Injection mold out. On the front side it protrudes over the centering body 20 with a section, which has an annular shoulder 19f 'inclined to the closing direction of the injection mold.

With the help of this ring shoulder 19f ', a steel spring ring 25 is through the spring 24 is pressed radially into an annular groove 29 of the sliding guide bushing 18. Of the Steel spring ring 25 can by a relative movement between the coupling pin 19 and Slide guide bush 18 are released for a spring back into its starting position. The lock is released by such a shock suspension. The unlocking is thus through the Rückfühnuy the end face 31 of the coupling pin 19 in the Level bb brought about the contact surface of the injection mold. The coupling bolt 19 consists of an actuating head 19a with a neck 19b and a coupling head l9f rear shaft 19d additional arrays set. The ring shoulder is in the coupling head 19f 19f 'incorporated. The shaft 19d of the coupling bolt that is axially guided in the centering body 20 19 goes over a short, cylindrical section 19f "of larger diameter in FIG the ring shoulder 19f 'over. The shaft with the internal thread is on the mold carrier side 19c of the guided in the bore 33 actuating head 19a in engagement, which with its neck 19b is immersed in the centering body 20. The guided in the annular space 27 cylindrical section 19f ″ is from an axial collar 20c of the centering body 20 enclosed, the front edge of which is an axial abutment for the steel spring ring 25 forms. A spring designed as a helical spring surrounding the shaft 19d 24 is arranged in an annular space 32 of the centering body 20. This spring 24 is one end on an annular shoulder of the centering body 20 and the other end at the front edge of the neck 19b of the actuating head 19a is supported. The centering body 20 and the sliding guide bush 18 are each with the help of a radial collar 20a, 18a anchored in the associated mold halves with slight axial play.

The collar 20a dips into a corresponding recess of the Facon plate 12 radially and is supported axially on the fastening plate 11. The collar 18a dips into a corresponding recess in the contour plate 13 and is axially supported on the contour support plate 14. The ring shoulder 19f ' is inclined at an angle of 450 to the closing direction. The depth of the ring groove 29 is about 1 mm. The relative movement between the coupling pin 19 and the centering body 20 is limited to about 2 mm. It takes place automatically when the GieW is clamped molded onto the stationary mold carrier 26 or when removing the mold half from this mold carrier.

When the mold half is clamped, the unlocking mechanism is therefore used Required drive force of drive units, in particular hydraulic piston-cylinder units used, which is part of a clamping device attached to the mold carrier 26 for Clamping the mold half on the mold carrier 26 are. When removing the injection mold the driving force for the relative movement is supplied by the spring 24. The steel spring ring 25 is only slightly pretensioned by this in the starting position and the spring 24 causing the locking relative movement can be pressed into the annular groove 29.

When the injection mold is clamped, the end face 31 of the coupling bolt 19 returned to the plane b-b of the contact surface of the injection mold. It will the ring shoulder supporting the steel spring ring 25 on the rear side in the locking position 19f 'led out of the axial area of this steel spring ring 25. This can this while reducing its bias in its initial position accordingly Fig. 4 spring back, in which it is on the outer surface of the cylindrical section l9f " of the shaft 19d 'rests. With this springback is the Spring steel ring 25 secured axially by resting on the front edge of the axial flange 20c. The unlocking takes place with an increase in the bias of the spring 24, which at Removal of the casting mold half from the stationary form support 26 the centering pin 19 from the position according to FIG. 4 into a position according to FIG. 3. With this axial movement of the coupling bolt 19, the inclined annular shoulder l9f 'again reaches the area of the steel spring ring 25 and presses it into the annular groove with increasing bias 29 of the sliding guide sleeve 18, with the steel spring ring 25 on the front edge of the axial flange 20c is abutted. Then the locking process is on the prerequisite that the spring 24 is capable of despite decreasing Preload the radially split steel spring ring 25 from a lower state Pre-tension (position according to Fig. 4) in a state of greater pre-tension (position according to Fig. 3) to be transferred.

As can be seen from Fig. 1, the clamping means for clamping the Plates of the casting mold halfway through separate, eccentric to the centering bodies 20 and sliding guide bushes 18 arranged clamping bolts 28 is formed.

It is necessary to take the injection mold outside for repair purposes the mold clamping device of a plastic injection molding machine, for example in to open the repair department, this is expediently done with help a device which has a plate simalating the mold carrier with an associated Has clamping device, so that the injection mold is unlocked when it is clamped.

The embodiment according to Figures 5-7 differs from embodiment described essentially in that as a locking element a spring plate 55 is used and this between a radial front edge 50c of the centering body 50 and a radial annular shoulder 49f 'is arranged. When the injection mold is closed, the spring plate 55 moves out of its position 6 in a locking position according to FIG. 5, in which he is through the Axial movement of the radial annular shoulder 49f 'is reversible to form a radial annular disk is deformed, which dips into the groove 29 of the sliding guide bush 18 for locking.

When the injection mold is unlocked, the spring plate 55 springs back back to a position according to FIG. As can be seen from Figure 7, the spring plate 55 be provided with radial incisions 55a. This allows him to be essential with one less effort from its starting position according to FIG. 6 into the locking position be transferred according to FIG. 5.

In an embodiment not shown in the drawing (claim 10) is a stationary ring shoulder inclined to the closing direction of the injection mold assigned to the centering body (50 in Fig. 5,6) and the coupling head with a radial Ring shoulder (49f 'in Figs. 5 and 6) provided. In this case the steel spring washer slides 25 on the inclined ring shoulder of the centering body (50 in Fig.

5.6) in coupling position.

In FIGS. 5, 6, the reference numerals 49, 49a, 49b, 49c, 49d, 49f, 49f '; 50, 50a and 54 pointed to components that correspond to components 19, 19a, 19b, 19c, 19d, 19f, 19f '; 20, 20a and 24 in Figures 1-4.

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Claims (10)

Patent claims injection mold for plastic injection molding machine with a device for the mutual locking of the casting mold halves made up of plates for changing, storing and transporting the injection mold outside of a mold closing unit, with rotationally symmetrical centering body anchored in the bores of one casting mold half , and with coaxial, rotationally symmetrical ones anchored in bores in the other half of the casting mold Guide bushes in which centering sections when the injection mold is closed with a smaller diameter of the centering body, as well as with clamping devices for Arranging the plates of the casting mold halves together, characterized in that in at least one of the centering bodies (20) is axially limited by a coupling bolt (19) is slidably mounted, the rear under the pressure of a pretensioned spring (24) protrudes from the locked injection mold, and in one the centering body (20) has a coupling head (19f) protruding on the end face, through which a spring-loaded locking element (steel spring ring 25) with the injection mold closed in a recess (annular groove 29) of the associated Gleitfunrungsbüchse (18) pressed in radially with locking of the mold halves is, and that this locking element (steel spring ring 25) by a relative movement between coupling bolt (19) and centering body (20) for unlocking spring back is releasable in its initial position. 2. Injection mold according to claim 1, characterized in that unlocking by returning the face (31) of the coupling bolt (19) can be brought about in the plane (b-b) of the contact surface of the injection mold. 3. Injection mold according to claim 1 or 2, characterized in that that the coupling bolt (19) consists of an actuating head (19a) with neck (19b) and a coupling head (19f) with a rear shaft (19d) is set together that the coupling head (19f) is provided with an annular shoulder (19f ') inclined to the closing direction is, and that the locking element is a radially split, from the annular shoulder (19f ') with increasing prestress in an annular groove (29) of the sliding guide bush (18) for locking pressable steel spring washer (25) is provided. 4. Injection mold according to claim 3, characterized in that the shaft (19d) of the coupling bolt (19) guided in the centering body (20) a short cylindrical section (19f ") of larger diameter into the ring shoulder (19f ') passes over and on the front carrier side with an internal thread (19c) of the into a bore (33) of the mold half guided actuating head (19a) is in engagement, the immersed with the neck (19b) in the centering body (20), the cylindrical Section (19f ") enclosed by an axial collar (20c) of the centering body (20) is, the front edge of which forms an axial abutment for the steel spring ring (25). 5. Injection mold according to claim 4, characterized in that the one surrounding the shaft (19d) of the coupling bolt (19) as a helical spring formed spring (24) arranged in an annular space (32) of the centering body (20) and at one end on an annular shoulder of this centering body (20) and at the other end is supported on the front edge of the neck (19). 6. Injection mold according to one of the preceding claims, characterized characterized in that the centering body (20) and the Gleitfuhrungsbüchse (18) each with the help of a radial collar (20a, 18a) in the associated mold halves slight axial play are axially anchored and that opposing shoulders the collar (20a, 18a) under the action of the spring (24) each on a plate of the injection mold are axially supported. 7. Injection mold according to one of the preceding claims, characterized characterized in that the locking element (steel spring ring 25) exclusively through the already slightly pre-tensioned in the starting position and the locking relative movement effecting spring (24) in the recess (annular groove 29) of the Gleitfuhrtngsbüchse (18) can be pressed in, the relative movement between the coupling bolt (19) and the sliding guide bushing (18) for unlocking the spring back of the locking element (steel spring ring 25) by means of hydraulic piston-cylinder units is controllable, which is part of an am Mold carrier (26-) attached clamping device for the injection mold. 8. Injection mold according to claim 1 or 2, characterized in that that the coupling head (49f) is provided with a radial annular shoulder (49f) ( Fig. 6-7). 9. Injection mold according to claim 8, characterized in that as a locking element between a radial end edge (50c) of the centering body (50) and the radial annular shoulder (49f) arranged spring plate (55). 10. Injection mold according to one of the preceding claims 1, 2 or 8, characterized in that a steel spring ring (25) is used as the locking element finds, between the radial ring shoulder (49f) and an end face, for Closing direction of the injection mold, inclined ring shoulder of the centering body (20) is arranged (embodiment not shown in the drawing).