DE29522402U1 - Fuel injection for IC engine - with Peltier heater in inlet manifold to prevent condensation of fuel - Google Patents

Abstract

The fuel is injection upstream of the inlet valve (6) and the adjacent surface area of the inlet manifold is covered with a Peltier effect electric heating element (27) which prevents fuel condensing on the walls of the manifold. The Peltier heating element is recessed into the wall of the inlet manifold as one element of as several elements in series and mounted between two thin ceramic plates. The fuel is sprayed towards the inlet valve as a spray cone.

Description

DR. JOHANNES HEIDENHAIN GmbH 19 September 1995

guide

The invention relates to a linear or curved guide, in particular for processing or measuring machines/whose straight or curved guide rail can be attached to the machine bed as an independent structural unit.

Such linear or curved guides are preferably roller guides, which are designed in such a way that either roller or ball elements are installed in a carriage on a hardened and ground straight or curved guideway as a counter-guide (magazines "Industrie Anzeiger" 18/92, pages 43 to 45 and "Produktion" No. 39 of September 29, 1994, page 23).

A linear guide with an integrated length measuring system, which is attached to a processing or measuring machine, is known from the publication WO 91/16591 and JP-OS-3-153915 as well as the INA Technical Product Information TPI 86 from September 1994 "Integrated opto-electronic Measuring system CMS".

In the known linear guides with integrated length measuring system for processing or measuring machines, the scanning head that reads the scale is guided directly on the guide rail and is also firmly connected to the carriage of the guide rail. This requires special adjustment and deformations in the length measuring device can occur when the guide rail is installed or when the machine is operated, which can affect the measuring accuracy.

Furthermore, since in the known linear guides with integrated length measuring system for processing or measuring machines the scale is virtually inseparably connected to a surface of the guide rail, the entire linear guide must be removed from the machine in the event of maintenance or a malfunction, which requires considerable effort.

In the case of processing or measuring machines, it is known per se that their length measuring devices, which are attached as an independent structural unit directly to the bed or carriage of the machine, can be attached either directly to the machine via connecting means that can be changed, or indirectly via a mounting rail. The mounting rail itself can have connecting means, or the mounting rail can be firmly attached to the machine, while the length measuring device is connected to the mounting rail via connecting means that can be changed (US-PS 3,910,703, EP-PS 0 185 072 and DE-GM 88 08 811). Dovetail-shaped interlocking elements are provided as connecting means on the structural units to be connected.

In the case of rodless pressure cylinders, it is already known to attach an encapsulated length measuring device to the outside of the cylinder tube by means of brackets which are inserted into a longitudinal groove on the outside of the cylinder tube which runs parallel to the cylinder bore (EP-PS 0 214 615).

The invention is based on the object of specifying an improved linear or curved guide, in particular for processing or measuring machines, the length measuring device of which should thus be easy to attach and, if necessary, also easy to dismantle and which, moreover, ensures a high level of measuring accuracy.

This object is achieved by a linear or curved guide with the features listed in claim 1. Advantageous further embodiments of the invention are specified in the dependent claims.

The linear or curved guide according to the invention offers the advantage that the length measuring device can be attached to the guide rail as a pre-assembled component, which not only ensures separate functions, but also enables particularly simple assembly and separate maintenance of the guide and length measuring device. In addition, there is no mechanical weakening of the guide rail and the accuracy is independent of the installation and load conditions, for example the tightening torque of the screws for fastening the guide rail and whether it is installed vertically, hanging or sideways. Another advantage is the good adaptation to different guide systems.

The invention is explained in more detail with reference to the drawing.

Show it
5

Figure 1 shows a linear guide with an open length measuring device on the guide rail;

Figure 2 another linear guide with

an open length measuring device on the guide rail;

Figure 3 a linear guide with an encapsulated length measuring device

on the guide rail;

Figure 4 a view of the linear guide

according to Figure 3;
20

Figure 5 shows a linear guide with a length measuring device having a changeover coupling;

Figure 6 a linear guide with a

Length measuring device mounted on a mounting rail;

Figure 7 another linear guide with

a length measuring device which is mounted on a mounting rail and

Figure 8 an encapsulated incremental

Length measuring device of photoelectric type.

• · · &igr;

Figure 1 shows schematically the bed 2 of, for example, a processing or measuring machine, on which a machine slide 1 can be moved in the direction of the arrow. The guide for the slide 1, designated overall by 3, is a known linear guide which has a guide rail 4 with hardened and ground guide surfaces on which a carriage 5 can be moved via roller or ball elements (not shown). The carriage 5 of the linear guide 3 is connected to the machine slide 1, the relative position of which to the machine bed 2 is to be measured or adjusted. Linear guides of the aforementioned type are described, for example, in the magazine "Industrie Anzeiger" 18/92, pages 43 to 45. The guide according to the aforementioned principle can also have a curved guide rail in a manner not shown, for example in the style of the curved guide according to the magazine "Produktion" No.

39 of 29.09.1994, page 23.

In Figures 1 and 2, an open length measuring device 6 is attached to the guide rail 4 as a separate, pre-assembled unit. The length measuring device 6 has a scale 7, which is provided on a carrier 9 and is scanned by a scanning head 8 to generate electrical measuring signals. The carrier 9 serves as an auxiliary guide for the scanning head 8, which conveniently slides on it via ball bearings and is connected by means of a coupling 10 to a driver 11, which in turn is attached to the carriage 5 of the linear guide 3. In the simplest case, the coupling 10 consists of elements with a curved and flat surface, which are held in contact by means of a tension spring. The coupling 10 ensures that the scanning head 8 is only rigidly coupled to the carriage 5 in the measuring direction and is articulated in other directions. In Figure 1

the scanning head 8 is coupled to its carrier part at the level of the division plane of the scale 7, whereas in Figure 2 it is coupled at the level of the neutral fiber of the scale 7 (such couplings are known per se, for example from DE-PS 22 19 624).

In the exemplary embodiment, the length measuring device 6 is an incremental measuring device that operates according to the principle of the photoelectric arrangement shown in Figure 8. The length measuring device 6 attached to the linear guide 3 according to the invention can, however, also be an absolute measuring device and any physical functional principle is also conceivable, for example magnetic, inductive or capacitive.

Figures 3 and 4 show an encapsulated incremental length measuring device 6, which is again attached as a separate, pre-assembled unit to the guide rail 4 of the linear guide 3. An encapsulated length measuring device 6 of this type is shown schematically in Figure 8. Its core elements are a scale 7 in the form of a grid division, which is scanned by a corresponding grid division in the scanning head 8 to generate electrical measurement signals. The scale 7 is located on a carrier 9, which also serves as an auxiliary guide for the scanning head 8 sliding on it, which is articulated to the driver 11. The elements scale 7 and scanning head 8 of the photoelectric length measuring device 6 are accommodated in a housing 12, which is covered by flexible sealing lips 13 made of rubber or plastic. The driver 11, which is firmly connected to the carriage 5 of the linear guide 3, penetrates the aforementioned sealing lips 13. The encapsulated length measuring device 6 can be designed according to different physical

Principles as already described above in connection with Figures 1 and 2. Open and encapsulated length measuring devices 6, as provided according to the invention as separate, pre-assembled units on the linear guide 3, can be found in the company publication "HEIDENHAIN Delivery Overview", August 1994 edition, pages 10 to 17.

In Figure 5, an encapsulated length measuring device 6 is attached to the guide rail 4 of the linear guide 3 via a connecting means in the form of a change coupling 14, which is easy to install and replace. The change coupling 14 is designed in the manner of a dovetail pair. The receiving groove is located in the guide rail 4, the dovetail-shaped projection on the length measuring device 6.

Figure 6 shows a linear guide 3 in which, according to the invention, an encapsulated length measuring device 6 is attached to the guide rail 4 via a mounting rail 15. The mounting rail 15, which engages in the guide rail 4 like a slotted nut, is clamped to the guide rail 4 by means of screws 16. It is also conceivable to attach the mounting rail to the guide rail and to provide a changeover coupling between the mounting rail and the length measuring device.

Figure 7 shows a linear guide 3 which is mounted on a mounting rail 15 _x , to which the encapsulated length measuring device 6 is also exchangeably attached, which is connected to the carriage 5 via the driver 11.

The scale and/or its support can be connected to the guide rail or the mounting rail in a manner not shown via joint-like compensating elements at the scale ends in a manner that is practically free of constraining forces, whereby the compensating elements can also be designed as interchangeable couplings.

Claims (24)

1. Linear or curved guide, in particular for processing or measuring machines, whose straight or curved guide rail ( 4 ) can be fastened to the machine bed ( 2 ) as an independent structural unit and the guide rail ( 4 ) is assigned a measuring device ( 6 ) with a scale (7) and scanning head ( 8 ) for measuring the travel path of a carriage ( 5 ) that can be moved thereon and is connected to the machine slide ( 1 ), wherein furthermore the measuring device ( 6 ) is mounted on the guide rail ( 4 ) as a separate, pre-assembled structural unit. 2. Guide according to claim 1, characterized in that the scanning head ( 8 ) of the measuring device ( 6 ) is guided on an auxiliary guide ( 9 ) which is separate from the guide rail ( 4 ) and connected to the latter. 3. Guide according to claim 1, characterized in that the scanning head ( 8 ) of the measuring device ( 6 ) is coupled to the carriage ( 5 ) of the guide rail ( 4 ) via a coupling ( 10 ) which is rigid in the measuring direction and otherwise articulated. 4. Guide according to claim 2, characterized in that the auxiliary guide ( 9 , 12 ) for the scanning head ( 8 ) is formed by the scale itself and/or by a separate structural unit. 5. Guide according to claim 1, characterized in that the scanning head ( 8 ) and scale (7) of the measuring device ( 6 ) are encapsulated by means of a housing ( 12 ) which is connected to the guide rail ( 4 ). 6. Guide according to claim 1, characterized in that connecting means ( 14 ) operatively connected to the guide rail ( 4 ) and the measuring device ( 6 ) are provided for the defined, interchangeable fastening of the measuring device ( 6 ) to the guide rail ( 4 ). 7. Guide according to claim 6, characterized in that the connecting means ( 14 ) are provided in the form of an interchangeable coupling directly on the guide rail ( 4 ) and on the measuring device ( 6 ). 8. Guide according to claim 1, characterized in that the measuring device ( 6 ) is fastened to the guide rail ( 4 ) via a separate mounting rail ( 15 ; 151 ). 9. Guide according to claim 6, characterized in that the measuring device ( 6 ) is fastened to a mounting rail ( 15 ), and that the connecting means in the form of an interchangeable coupling are provided directly on the guide rail ( 4 ) and on a side of the mounting rail ( 15 ) facing this. 10. Guide according to claim 6, characterized in that the measuring device is fastened to a mounting rail, and that connecting means in the form of an interchangeable coupling are provided between the mounting rail fastened to the guide rail and the measuring device. 11. Guide according to claim 6, characterized in that the connecting means ( 14 ) for the exchangeable fastening of the measuring device ( 6 ) to the guide rail ( 4 ) are designed by positively interlocking elements which are respectively provided on the assemblies to be connected. 12. Guide according to claim 11, characterized in that the positively interlocking connecting means ( 14 ) are formed by elements in the manner of a dovetail pair. 13. Guide according to claim 12, characterized in that the dovetail-shaped receiving groove in the guide rail ( 4 ) and the counterpart engaging therein in a form-fitting manner are provided as a projection on the measuring device ( 6 ) or its carrier. 14. Guide according to claim 6, characterized in that the measuring device ( 6 ) which can be exchangeably attached to the guide rail ( 4 ) can be fixedly fastened to the guide rail ( 4 ) by means of at least one clamping element ( 16 ). 15. Guide according to claim 14, characterized in that the clamping elements ( 16 ) act directly on the connecting means on the guide rail ( 4 ) and measuring device ( 6 ) or their carrier. 16. Guide according to claim 5 and 6, characterized in that the scale (7) and scanning head ( 8 ) of the measuring device ( 6 ) are encapsulated in a rail-like housing ( 12 ), and that the housing ( 12 ) is removably attached to the side of the guide rail ( 4 ) by means of the connecting means ( 14 ). 17. Guide according to claim 16, characterized in that the rail-like housing ( 12 ) has a slot which is closed by means of flexible sealing lips ( 13 ) through which a driver ( 11 ) extends, which is connected to the scanning head ( 8 ) via a coupling ( 10 ) which is rigid in the measuring direction but otherwise articulated and is attached to the displaceable carriage ( 5 ) of the guide rail ( 4 ). 18. Guide according to claim 5 and 6, characterized in that a dovetail-shaped projection is provided directly on the housing ( 12 ), which engages in a dovetail-shaped receiving groove in the guide rail ( 4 ). 19. Guide according to claim 5 and 6, characterized in that the scale (7) and scanning head ( 8 ) of the measuring device ( 6 ) are encapsulated in a housing ( 12 ), and that the housing ( 12 ) is fastened to a mounting rail ( 15 ) on which a projection is provided which engages in a receiving groove directly in the guide rail ( 4 ). 20. Guide according to claim 4, characterized in that the separate structural unit is formed as an auxiliary guide by a housing ( 12 ) into which the scanning head ( 8 ) and the scale (7) are introduced for shielding against environmental influences, the housing ( 12 ) being fastened to the guide rail ( 4 ). 21. Guide according to claim 1, characterized in that the scale or its carrier - for example in the form of a housing for encapsulation - is expediently connected to the guide rail at the scale ends in a virtually free-of-constraint-force manner via articulated compensating elements. 22. Guide according to claim 1 and 2, characterized in that the measuring graduation of the scale (7) lies outside the neutral fiber, and that the scanning head ( 8 ) is guided parallel to the graduation plane and is coupled to its carrier part at the level of the neutral fiber of the scale (7). 23. Guide according to claim 1 and 2, characterized in that the scanning head ( 8 ) guided on the auxiliary guide ( 9 ) is operatively coupled to its carrier part in the graduation plane of the scale (7). 24. Guide according to claim 1, characterized in that the carriage ( 5 ) is mounted on the straight or curved guide rail ( 4 ) via roller or ball elements.