KR101335121B1 - Cylinder pressure measuring device - Google Patents

Abstract

The present invention is a cylinder pressure measuring device for an internal combustion engine for measuring the pressure in the combustion chamber of the cylinder of the internal combustion engine outside the combustion chamber, comprising a support sleeve (11) divided radially and axially, wherein the support sleeve is at least one; Two of the support sleeves 11 fixed to the tension rods of the cylinder via a fixing device 22 of the cylinder, the support sleeves 11 being partially enclosed by the tension rods, and separated from each other by radial splitting. The above parts 14, 15 are assigned to the parts 18, 29, 19 of the capacitive measuring system such that the length variation of the tension rod caused by the cylinder pressure to be measured is separated from each other by radial division. (14, 15) and accordingly a cylinder pressure measuring device, which causes axial movement of parts 18, 29 and 19 of the capacitive measuring system.

Cylinders, combustion chambers, support sleeves, fixtures, tension rods, capacitive measuring systems.

Description

Cylinder pressure measuring device {CYLINDER PRESSURE MEASURING DEVICE}

The present invention relates to a cylinder pressure measuring device for an internal combustion engine.

In order to ensure optimal operation of internal combustion engines, such as large diesel engines or gas engines, it is necessary to detect cylinder pressure in the cylinders of internal combustion engines by measuring techniques and use them for example to adjust the ignition characteristics of internal combustion engines. For this purpose, the cylinder pressure in the cylinder of the internal combustion engine must be permanently detected.

In practice, known cylinder pressure measuring devices detect the cylinder pressure of a cylinder of an internal combustion engine directly or inside the combustion chamber of the cylinder. This combustion chamber-side cylinder pressure measuring device is subjected to high thermal loads and mechanical loads. This cylinder pressure measuring device is also damaged by the deposition of combustion residues. Because of this, the combustion chamber-side cylinder pressure measuring device, which is actually known, has a short lifespan and is therefore not suitable for reliably detecting cylinder pressure permanently over a relatively long operating time. Therefore, there is a need for a cylinder pressure measuring device capable of permanently measuring the cylinder pressure in a cylinder of an internal combustion engine, which can be carried out at a relatively low cost, without a structural change of the internal combustion engine.

The problem of the present invention is to form a new cylinder pressure measuring device.

The object is achieved by a cylinder pressure measuring device according to claim 1. The cylinder pressure measuring device according to the invention has a support sleeve divided radially and axially, the support sleeve being secured to the tension rod of the cylinder via at least one fixing device such that the support sleeve partially surrounds the tension rod. Can be. Two or more portions of the support sleeve, separated from each other by radial splitting, are assigned to the components of the capacitive measuring system so that the length fluctuations of the tension rod caused by the cylinder pressure to be measured are separated from each other by radial splitting. And hence axial movement of the components of the capacitive measurement system.

By the cylinder pressure measuring device according to the present invention, the cylinder pressure in the cylinder of the internal combustion engine is detected indirectly or outside the combustion chamber of the cylinder. For this purpose, the expansion of the tension rod of the cylinder being monitored in relation to the cylinder pressure is used, which is proportional to the cylinder pressure. Since the cylinder pressure measuring device according to the invention is not directly connected with the combustion chamber of the cylinder to be monitored, the cylinder pressure measuring device is not subjected to high thermal loads and mechanical loads. In addition, the function of the cylinder pressure measuring device according to the present invention is not degraded by the deposition of combustion residues. In addition, no structural change of the internal combustion engine is required. The cylinder pressure measuring device according to the present invention can be simply assembled and disassembled in an internal combustion engine. The cylinder pressure measuring device according to the present invention requires a relatively low cost and has a long service life. The use of the capacitive measuring system in the cylinder pressure measuring device according to the present invention gives a tension-free measurement principle for the cylinder pressure in the cylinder of the internal combustion engine, whereby the cylinder pressure measuring device according to the present invention is fixed. There is no risk of friction corrosion.

Since a low surface pressure is required between the cylinder pressure measuring device and the tension rod, the cylinder pressure measuring device can be assembled on the corrosion protection of the tension rod. Thus, in addition to the risk of frictional corrosion, corrosion due to moisture accumulation does not occur. The cylinder pressure measuring device according to the invention can always be assembled to a tension rod and can be disassembled from the tension rod. Existing internal combustion engines can simply be retrofitted.

Preferred embodiments of the invention are set forth in the dependent claims and the following description. Embodiments of the present invention are described in detail with reference to the drawings, but are not limited thereto.

1 to 11 show a preferred embodiment of the cylinder pressure measuring device 10 according to the present invention. The cylinder pressure measuring device 10 is used for indirectly detecting the cylinder pressure in the cylinder of the internal combustion engine outside the combustion chamber of the cylinder, and the proportional expansion of the tension rod of the cylinder monitored in relation to the cylinder pressure is used for the cylinder pressure measurement. do.

The cylinder pressure measuring device 10 according to the invention has a supporting sleeve 11, which is axially on the one hand, ie in the direction of the arrow 12 and radially on the other hand. Ie in the direction of the arrow 13. Preferably the support sleeve 11 is divided into four parts 14, 15, 16, 17 by radial and axial division or separation. 11 shows two of the four parts of the support sleeve 11.

1 and 2, the parts 18, 19 of the capacitive measurement system are assigned to the two parts 14, 15 separated from one another in the radial direction of the support sleeve 11. The component 18 (see FIG. 9) is a so-called sensor holder for accommodating the capacitive sensor 29. The component 19 (see FIG. 10) is a so-called sensor counterpart.

The part 18 formed as a sensor holder of the capacitive measurement system houses the capacitive sensor 29 in particular in the recess 31 (see FIG. 9). The capacitive sensor 29 capacitively measures the distance 21 with the component 19 formed as the sensor counterpart of the capacitive measurement system.

The parts 18, 19 of the capacitive measuring system are connected with respective parts 14, 15 of the support sleeve 11 by means of a dowel pin 20 according to FIG. 3. The dowel pin 20 prevents the components 18, 19 of the capacitive measurement system from tilting.

1 to 3, the position of the portions 14, 15, 16, 17 of the support sleeve 11 is defined by the ring-shaped member 30. The ring-shaped member 30 is formed in an H-shaped cross section according to FIG. 3, in which parts 14, 15, 16, 17 of the support sleeve 11 are preferably connected to the member 30 by groove-protrusion-coupling. Combined. The portions 14, 15, 16, 17 of the support sleeve 11 are aligned with each other by the ring-shaped member 30.

The member 32, preferably formed of a plastic plate, comprises a sensor housed within the component 18 to adjust the defined gap 21 or gap between the components 18, 19 of the capacitive measurement system and accordingly. 29 and a defined gap 21 or gap between the component 19 formed as a sensor counterpart.

The cylinder pressure measuring device according to the invention of FIGS. 1 and 2 also has two fixing devices 22 for fixing the cylinder pressure measuring device 10 according to the invention to the tension rod of the cylinder. The fixing takes place in such a way that the support sleeve 11 partially surrounds the tension rod. The two axial ends of the support sleeve 11 are each assigned one fixing device 22.

The fixing device 22 is a U-shaped fixing ring 23 (see FIG. 5), a groove block 24 (see FIG. 6), a clamping portion 25 (see FIG. 7) and a fixing plate 26 (FIG. 8), respectively. Reference). Each fixing plate 26 is screwed with the corresponding clamping portion 25 and the groove block 24 by screws 27, such that the fixing ring 23 presses the support sleeve 11 against the corresponding tension rod. do.

By the use of the retaining ring 23, the cylinder pressure measuring device 10 can be assembled to the tension rod even in a narrow place. The surface tension of the support sleeve 11 by the tension rod is defined by the tightening moment of the screw 27.

The portions 14, 15, 16, 17 of the support sleeve 11 each have a projection 28 at the outer end, which contacts the tension rod in the assembled state. The dimensions of the projections 28 formed on the inner surfaces of the portions 14, 15, 16, 17 of the support sleeve 11 and the tightening moment of the screw 27 are determined between the support sleeve 11 and the tension rod. Determine the surface pressure. The inner diameter of the protrusion 28 formed on the inner surface of the parts 14, 15, 16, 17 is adapted to the inner diameter of the tension rod to which the cylinder pressure measuring device should be fixed.

As mentioned above, the support sleeve 11 is divided or separated in axial and radial directions. The support sleeve 11 provides a conductive support structure, on which the capacitive measuring system or capacitive sensor is assembled. The axial splitting of the support sleeve 11 enables the assembly of the cylinder pressure measuring device according to the invention at the time of mounting or assembling the tension rod. Radial splitting of the support sleeve 11 is necessary for capacitive measurement without force.

When the tension rod and thus the support sleeve 11 are subjected to a tensile load, the portions 14, 15, 16, 17 of the support sleeve 11 can move freely from each other. In compressive loads that may appear under thermal expansion, only the forces absorbed by the member 30 are overcome. The variation in length of the tension rod caused by the cylinder pressure to be measured is such that the parts 14, 15 supporting the parts separated from each other by radial division, in particular the parts 18, 29, 19 of the capacitive measurement system. Results in axial movement of.

This axial movement changes the spacing 21 between the capacitive sensor 29 and the component 19 of the capacitive measurement system formed as a sensor counterpart and thus the measurement signal provided. The capacitive sensor 29 is protected from contamination by a seal not shown.

It is also possible to retrofit a cylinder pressure measuring device according to the invention to an existing internal combustion engine. Assembly and disassembly of the cylinder pressure measuring device according to the invention takes place in the assembled tension rod. No structural change of the tension rod or the internal combustion engine is necessary.

The measuring principle is that no force is used, so that no force is transmitted or only a very small force is transmitted by the connection between the tension rod and the cylinder pressure measuring device. Thus, there is no risk of frictional corrosion in the tension rods.

1 is a perspective view of a cylinder pressure measuring device according to the present invention.

2 is a plan view of a cylinder pressure measuring device according to the present invention of FIG.

3 is a cross-sectional view of the cylinder pressure measuring device according to the present invention along the cutting line III-III of FIG.

4 is a side view of a cylinder pressure measuring device according to the present invention of FIG.

5 is a fixing ring of the fixing device of the cylinder pressure measuring device according to the present invention.

6 is a groove block of the fixing device of the cylinder pressure measuring device according to the present invention.

Figure 7 is a clamping portion of the fixing device of the cylinder pressure measuring device according to the present invention.

8 is a fixing plate of the fixing device of the cylinder pressure measuring device according to the present invention.

9 is a first part of a capacitive measuring system of a cylinder pressure measuring device according to the present invention;

10 is a second part of a capacitive measuring system of a cylinder pressure measuring device according to the present invention.

11 shows two parts of a support sleeve of a cylinder pressure measuring device according to the invention.

Claims (6)

A cylinder pressure measuring device for an internal combustion engine for measuring the pressure in the combustion chamber of a cylinder of an internal combustion engine outside the combustion chamber, Radially and axially divided support sleeves (11), said support sleeves being connected to the tension rods of said cylinders by at least one fixing device (22), said support sleeves (11) partially supporting said tension rods; The two or more parts 14, 15 of the support sleeve 11, which are fixed to enclose and are separated from each other by radial division, are assigned to the parts 18, 29, 19 of the capacitive measurement system, The length fluctuations of the tension rod caused by the cylinder pressure to be measured are separated from each other by radial division and thus the axes of the parts 18, 29, 19 of the capacitive measurement system. Causes directional movement, The portions 14, 15, 16, 17 of the support sleeve 11 are aligned with each other by a ring-shaped member 30, the ring-shaped member 30 being radially divided into portions 14, 16. And the parts (15, 17) are coupled between the cylinder pressure measuring device. A cylinder pressure measuring device according to claim 1, characterized in that the support sleeve (11) is divided into four parts (14, 15, 16, 17) by radial and axial splitting. delete 3. The part (14), (15), (16) and (17) of the support sleeve (1) according to claim 1 or 2, at its outer end, has one projection (28) each assigned to its inner surface, The protrusion is a cylinder pressure measuring device, characterized in that for pressing the outer surface of the tension rod in the state assembled to the tension rod. 3. The cylinder pressure measuring device according to claim 1 or 2, wherein the cylinder pressure measuring device can be fixed to the tension rod of the cylinder by two fixing devices (22), each holding device (22) having a U-shaped fixing ring (23). ), Groove block 24, clamping portion 25 and retaining plate 26, each retaining ring 23 including portions of the support sleeve 11 at its outer end, the respective fastenings Forces applied to the respective fixing ring 23 via the plate 26, the respective clamping portion 25 and the respective groove block 24 are applied to the portions 14, 15, of the support sleeve 11. 16, 17) to pressurize the tension rods. 3. The parts (14, 15) of claim 1, wherein the components (18, 29, 19) of the capacitive measurement system are arranged by a dowel pin (20). Cylinder pressure measuring device, characterized in that connected with.

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