BEARING SYSTEM FOR MOLDS AND METHOD FOR REGULATING THE POSITION OF A MOVING PART OF A MOLD USING SAID BEARING SYSTEM

Abstract

The invention relates to a bearing system for molds, wherein the mold includes a fixed part and a moving part (2), the bearing system comprising a sliding mold carrier (3) provided with vertically movable support elements (5) for bearing the moving part (2) of the mold, wherein said support elements (5) are hydraulic support elements.

Description

The present invention relates to a bearing system for molds that bears the weight of the moving part of an injection mold, and a method for regulating the position of a moving part of a mold using said bearing system.

BACKGROUND OF THE INVENTION

Conventional injection molds comprise a fixed part and a moving part. The fixed part is perfectly centered and immobile with respect to the injection machine.

In turn, the moving part moves horizontally over sliding elements to close the mold. This moving part has a very large weight, over 7,000 kg, and is off-centered with respect to the sliding elements of the machine; this means that the sliding elements are subjected to significant wear. Likewise, the moving part of the mold tends to pull away vertically, and when the machine is closed there are problems for vertically centering the moving part with respect to the fixed part.

To prevent the entire weight of the moving part of the mold from being borne by fixing flanges and to thereby reduce the wear of the sliding elements, a sliding mold carrier is usually arranged. This sliding mold carrier is normally a beam integral with the moving plate of the injection machine, where the moving part of the mold is supported.

Furthermore, the height of the support points between the moving part of the mold and the sliding mold carrier requires being regulated. Said height regulation is done today by means of threaded tension devices, which are tightened or loosened in order to move these support points.

However, this regulation by means of threaded tension devices is expensive and uncomfortable, and there is no certainty that the regulation will be done efficiently.

Therefore, the objective of the present invention is to provide a bearing system and a method which allows for a comfortable and efficient regulation of the support points of the sliding mold carrier with the moving part of an injection mold.

DESCRIPTION OF THE INVENTION

The mentioned drawbacks are solved by the bearing system and the method of the invention, having other advantages that will be described below.

According to a first aspect, the bearing system for molds according to the present invention comprises a sliding mold carrier provided with vertically movable support elements for bearing the moving part of the mold and is characterized in that said support elements are hydraulic support elements.

Advantageously, said hydraulic support elements comprise two or more hydraulic cylinders and are arranged such that each hydraulic support element goes through the sliding mold carrier vertically, projecting in the upper and lower portions.

Preferably, each hydraulic cylinder comprises a guard at the upper end thereof, and each hydraulic support element further comprises a blocking flange, which is advantageously arranged in the lower part of each hydraulic support element.

Under normal conditions, this flange is mechanically blocked, and in order to be unblocked (an operation that must be done in order to vertically move the support elements) it must be hydraulically operated. This allows being able to completely dispense with the hydraulics for maintaining the position of the support elements once the height thereof is adjusted.

Furthermore, the bearing system comprises a regulating plate on each side for regulating the horizontal positioning of the sliding mold carrier with respect to the moving plate of the injection machine.

According to a second aspect, the present invention relates to a method for regulating the position of the support elements with respect to a moving part of a mold using the bearing system mentioned above, comprising the following steps:

• • assembling the moving part of the mold;
  • vertically and sequentially moving the hydraulic support elements until they detect a pre-determined pressure; this pressure is programmable and must be adjusted taking into account the dimensions of the hydraulic cylinders that are assembled, and the weight of the part of the mold with which work is to be done. On a conceptual level, as this pressure builds up, it assures that the support elements touch the surface of the mold, and the force they must apply must be in the order of about 10% of the weight of the mold in order to assure that the mold is neither vertically moved nor forced.
  • stopping the vertical movement of each hydraulic support element and blocking the vertical movement of each hydraulic support element by means of the flange when said pre-determined pressure is detected.

At least the following advantages are achieved with the bearing system and method according to the present invention:

• • The position of the moving part of the mold is adjusted in a much quicker, much simpler and more effective manner for the operator;
  • Wear of components is reduced so costs due to stoppage, replacement, repairs of the mold, etc., are saved.
  • Mold failures due to closing the machine while the two parts of the mold are slightly misaligned are reduced.
  • Dimensional issues of the injected parts are reduced as the two parts of the mold are assured to be vertically aligned.

BRIEF DESCRIPTION OF THE DRAWINGS

To better understand the foregoing, a set of drawings is attached in which a practical embodiment has been depicted schematically and in a non-limiting manner.

FIG. 1 is a perspective view of the bearing system for molds according to the present invention, assembled in a mold, in which the moving part of said mold is shown; and

FIG. 2 is a front view of the bearing system for molds according to the present invention, assembled in the mold of FIG. 1.

DESCRIPTION OF A PREFERRED EMBODIMENT

As shown in the drawings, the bearing system according to the present invention is used in a mold, for example, an injection mold, the moving part of which weighs about 10,000 kg, comprising a fixed part (not depicted in the drawings) and a moving part 2, which moves horizontally to close the mold.

According to the depicted embodiment, said moving part 2 is assembled on the moving plate 1 of the injection machine.

According to the present invention, the moving part 2 of the mold is borne by means of a bearing system comprising a sliding mold carrier 3, which slides on sliding elements 4.

In order to allow vertically adjusting the position of said moving part 2 of the mold, the sliding mold carrier 3 comprises hydraulic support elements 5, such as two or more hydraulic cylinders, that go through said sliding mold carrier 3 and project in the upper and lower portions, the upper end thereof being in contact with the lower part of the moving part 2 of the mold, according to the depicted embodiment.

Said hydraulic cylinders 5 comprise a flange 6 in their lower part, according to the depicted embodiment. The guard 7, which is formed by a housing made of sheet metal, for example, prevents accidental impacts against the hydraulic cylinders 5, which could break due to the weight of the mold.

In turn, the flange 6 allows blocking the movement of each hydraulic cylinder 5 when placed in the desired position, which will be described below.

The bearing system is integrally attached to the moving plate of the injection machine by means of two side plates 8. To regulate the relative horizontal position between the sliding mold carrier 3 and the moving plate 1 of the injection machine, the bearing system according to the present invention comprises regulating plates 8, provided with a plurality of holes for placing a fixing element between the sliding mold carrier 3 and the moving plate 1 of the machine, depending on the desired relative horizontal position to be achieved.

The present invention also relates to the method for regulating the position of the moving part 2 of a mold using the bearing system mentioned above.

In this method, the moving part 2 of the mold is first assembled on the machine, the machine is completely closed, and the part is fixed to the plate of the injection machine.

Once the moving part 2 is in place, one of the hydraulic support elements 5 moves until coming into contact directly with the moving part 2 or the moving plate 2. The hydraulic support element 5 will move until a pre-determined pressure is detected, which pre-determined pressure will indicate that the hydraulic support element 5 is in the correct position, bearing the weight of the moving part 2.

Once this pre-determined pressure is detected, the vertical movement of each hydraulic support element 5 is stopped, blocking the vertical movement of each hydraulic support element by means of said flange 6, preventing the hydraulic support element 5 from moving.

Merely by way of example, the maximum stroke of the support elements 5 is envisaged to be 50 mm and its minimum stroke is envisaged to be 25 mm, with a precision of 0.1 mm.

Next the same is done with a second hydraulic support element 5, and if there are more hydraulic support elements, it will be done sequentially, i.e., one after the other, until all the hydraulic support elements 5 have been placed in the correct position determined by said pre-determined pressure.

In order to disassemble the mold, the method is performed in reverse by vertically moving each hydraulic support element 5 downwards. When all the hydraulic support elements 5 are in their suitable position, the moving part 2 will be removed from the mold.

Despite having made reference to a specific embodiment of the invention, it is obvious for a person skilled in the art that the described bearing system and method are susceptible to a number of variations and modifications, and that all the mentioned details can be replaced with other technically equivalent ones without departing from the scope of protection defined by the attached claims.

Claims

1. Bearing system for molds, wherein the mold includes a fixed part and a moving part (2), the bearing system comprising a sliding mold carrier (3) provided with vertically movable support elements (5) for bearing the moving part (2) of the mold, characterized in that said support elements (5) are hydraulic support elements.

2. Bearing system for molds according to claim 1, wherein said hydraulic support elements (5) comprise two or more hydraulic cylinders.

3. Bearing system for molds according to claim 1, wherein each hydraulic support element (5) goes through the sliding mold carrier (3) vertically, projecting in the upper and lower portions.

4. Bearing system for molds according to claim 1, wherein each hydraulic support element (5) comprises a guard at the upper end thereof.

5. Bearing system for molds according to claim 1, wherein each hydraulic support element (5) comprises a blocking flange (6).

6. Bearing system for molds according to claim 5, wherein each blocking flange (6) is arranged in the lower part of each hydraulic support element (5).

7. Bearing system for molds according to claim 1, comprising a regulating plate (8) for regulating the positioning of the sliding mold carrier (3) with respect to a moving plate (1) of an injection machine.

8. Bearing system for molds according to claim 7, wherein said regulating plate (8) comprises a plurality of holes for placing a fixing element between the sliding mold carrier (3) and the moving plate (1) of an injection machine.

9. Method for regulating the position of a moving part (2) of a mold by using the bearing system according to claim 1, characterized in that it comprises the following steps: assembling the moving part (2) of the mold;vertically and sequentially moving the hydraulic support elements (5) until they detect a pre-determined pressure;stopping the vertical movement of each hydraulic support element (5) when said pre-determined pressure is detected.

10. Method for regulating the position of a moving part (2) of a mold according to claim 9, wherein the stopping of the vertical movement of each hydraulic support element (5) is performed by means of a blocking flange (6).