초록 ▼

The invention relates to a device and method for detecting a force on an injection moulding machine for processing plastic materials. According to said invention, a first element (100) interacting with a mechanical drive and movable at least indirectly thereby in a direction of movement (x) is disp

The invention relates to a device and method for detecting a force on an injection moulding machine for processing plastic materials. According to said invention, a first element (100) interacting with a mechanical drive and movable at least indirectly thereby in a direction of movement (x) is displaced during said displacement with respect to a second element (200) positioned near the first element (100) or oppositely thereto. A force measuring device (D) is used for determining the force applied on the first (100) and/or second (200) element by the actuation of the injection moulding machine produced by the relative displacement thereof between the first (100) and second (200) elements. A hydraulic chamber whose size is modifiable during the relative displacement associated with a change in pressure of a fluid medium in said hydraulic chamber is firmed between the first (100) and second (200) elements, wherein said change in pressure forms an input signal for adjusting the force or pressure and a pressure-relief valve (30) is used for bypassing the hydraulic medium to a hydraulic medium container (35), when the predetermined or predeterminable presser is exceeded in the hydraulic chamber (10), thereby making it possible to obtain a device and method for detecting a force on an injection moulding machine which makes it possible to determine said force in a favourable alternative manner and simultaneously ensure an overload protection.

대표청구항 ▼

The invention claimed is: 1. Device for detecting a force on an injection molding machine for processing plastics materials and other plasticisable compounds, said device comprising: at least one first component, which interacts with at least one mechanical drive, which is displaced at least indire

The invention claimed is: 1. Device for detecting a force on an injection molding machine for processing plastics materials and other plasticisable compounds, said device comprising: at least one first component, which interacts with at least one mechanical drive, which is displaced at least indirectly by the mechanical drive in a direction of displacement and is displaced during the displacement relatively to at least one additional component of the injection molding machine, the additional component being adjacent the first component, and at least one force detecting device for detecting the force acting on at least one of the first component and the additional component due to an activation of the injection molding machine as a result of the relative displacement between the first component and the additional component, a hydraulic chamber being formed between the first component and the additional component, the size of the hydraulic chamber changing during the relative displacement by means of a change in the pressure of a hydraulic medium situated in the hydraulic chamber, wherein the change in pressure is an input signal for controlling a force or a pressure, wherein a pressure-relief valve is provided for diverting hydraulic medium into a hydraulic medium container when a predetermined or predeterminable pressure is exceeded in a hydraulic chamber, wherein the hydraulic chamber is defined by the first component and the additional component and by a piston-type element, which is mounted on one of the first component and the additional component in a manner sealing the hydraulic chamber and wherein the piston-type element is displaceable in the direction of displacement of the first component if the predetermined or predeterminable pressure of the hydraulic medium is exceeded in the hydraulic chamber. 2. Device according to claim 1, wherein the piston-type element is fixedly connectable to the first component or to the additional component to form a part of the same. 3. Device according to claim 1, wherein the hydraulic medium in the hydraulic chamber is hydraulically pre-stressed. 4. Device according to claim 1, wherein the drive is a linear displacement element or a component of a linear drive or a spindle drive that is directly connected to the linear displacement element. 5. Device according to claim 1, wherein the drive toggle drive. 6. Device according to claim 1, wherein the additional component is an injection bridge for a feeding element of the injection molding machine. 7. Method for detecting a force on an injection molding machine for processing plastics materials and other plasticisable compounds, said method comprising: displacing at least one first component by means of at least one drive in a direction of displacement (x) relative to at least one additional component of the injection molding unit, the additional component being adjacent the first component, detecting the force acting on at least one of the first component and the additional component as a result of the relative displacement between the first component and the additional component in forming a hydraulic chamber between the first component and the additional component and determining the change in pressure of a hydraulic medium situated in the hydraulic chamber during the relative displacement; using the determined change in pressure as an input signal for controlling the pressure or force, limiting the pressure in the hydraulic chamber to a predetermined or predeterminable pressure and discharging the hydraulic medium out of the hydraulic chamber, if the predetermined or predeterminable pressure is exceeded, and mounting a piston-type element defining the hydraulic chamber on at least one of the first component and the additional component in a manner sealing the hydraulic chamber such that the piston-type element is displaceable in the direction of displacement of the first component if a predetermined or predeterminable pressure of the hydraulic medium is exceeded in the hydraulic chamber. 8. Method according to claim 7, wherein hydraulic medium is discharged out of the hydraulic chamber by opening a defined displacement buffer space of the first component and of the additional component relative to each other. 9. Method according to claim 7, further comprising a cyclical calibration of the pressure in the hydraulic chamber to an initial value. 10. Method according to claim 7, further comprising hydrau1ically resetting at least one of the first component and the additional component into its initial state after detecting the force in a preferably cyclical manner. 11. Method according to claim 7, wherein a spindle drive, a linear drive, a spindle with hydraulic drive or a toggle drive is used as the drive. 12. Method according to claim 7, wherein an input signal is used for controlling the pressure or force of the drive. 13. Method according to claim 7, wherein the force acting on at least one of the first component and the additional component is detected as a result of the relative displacement between the first component and the additional component by the components deforming in an elongated manner.