NL2008135C2 - ROTOR METER FOR MEASURING THE QUANTITY OF GAS. - Google Patents

Description

Rotor meter for measuring the amount of gas DESCRIPTION: 5

FIELD OF THE INVENTION

The invention relates to a rotor meter for measuring the amount of gas flowing through a conduit, comprising a housing provided with a cylinder wall and two axial side walls, in which housing a measuring chamber is present, as well as an inlet opening present in the cylinder wall and a outlet opening present in the cylinder wall, which rotor meter further comprises at least two rotors rotatably present in the measuring chamber, each of which is provided with a rotor shaft which is mounted with its ends in the side walls of the housing, which rotors are present in the gas flow during operation between the inlet opening and the outlet opening, such that the gas flow causes the rotors to rotate, whereby a defined volume is moved from the inlet to the outlet. This volume is determined by the dimensions and shape of the rotors.

20 State of the art

Such a rotor meter is generally known. With the known rotor meter, the cylinder wall of the housing is made of one part and the side walls are separate parts which are connected to the cylinder wall. The side walls and cylinder wall with the bearing fits therein must be accurately fabricated and accurately positioned relative to each other to allow the rotors to rotate accurately in the fits in the housing with a nominal clearance between the measuring chamber and the rotors themselves in the order of 0.15 mm. The dimensional accuracy of the dimensions and of the positions of the bearing openings in the side walls and the dimensional accuracy of the positions of the positioning pins and holes in and on the cylinder wall and the side walls must be added together and to the prescribed tolerance ( approximately 0.15 mm). As a result, the cylinder wall and the side walls must be manufactured with high accuracy.

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Summary of the invention

An object of the invention is to provide a rotor meter of the type described in the preamble which is cheaper to manufacture than the known rotor meter and has at least the same dimensional accuracy as the known rotor meter. To this end, the rotor meter according to the invention is characterized in that the cylinder wall is divided transversely into two parts, and each side wall of the housing as well as the part of the cylinder wall adjoining this side wall is manufactured in one piece and in one fixture, the opposite sides of the side walls sub-planes present are provided with contact surfaces that are in contact with each other and dowel pins and dowel holes present in each other. Each of the two parts that determine the dimensional accuracy of the bearing openings in the housing and hence relative to each other, is made in one single clamping from one whole. As a result, there are fewer tolerances that must be added together, whereby the required tolerance of each of the parts to be manufactured in one fixture may be greater than the tolerances of the individual parts of which the housing of the known rotor meter is assembled.

An inlet opening and an outlet opening are preferably present in the cylinder wall, wherein a part of the inlet opening and a part of the outlet opening are present in each part of the cylinder wall. As a result, the parts can be identical to each other, so that they can be manufactured on the same machine with the same machine settings.

Brief description of the drawings The invention will be explained in more detail below with reference to an exemplary embodiment of the rotor meter according to the invention shown in the drawings. Hereby shows:

Figure 1 partially disassembles the known rotor meter;

Figure 2 shows an embodiment of the rotor meter according to the invention partly taken apart;

Figure 3 shows the disassembled housing with rotors of the rotor meter shown in Figure 2;

Figure 4 shows the two parts of the housing of the rotor meter shown in Figure 2; 3

Figure 5 shows the housing with the rotors of the rotor meter shown in Figure 2 in assembled condition in perspective view; and

Figure 6 shows the housing shown in Figure 5 with the rotors in perspective view from a different viewing angle.

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Detailed description of the drawings

Figure 1 shows the known rotor meter in perspective, with it partly taken apart in parts. The known rotor meter 101 has a housing 103 provided with a cylinder wall 105 and two axial side walls 107 and 109. The housing comprises a measuring chamber 111 in which two rotatable rotors 113 and 115 are located. Each rotor has a rotor shaft 113B, 115B, the ends of which are mounted in the side walls of the housing and project through the side wall 107 on one side. At these ends there are gears 117 and 119 which engage with each other to synchronize the rotors with respect to each other.

An inlet opening 121 and an outlet opening 123 are present in the cylinder wall 105. The gas flow from the inlet opening to the outlet opening causes the rotors to rotate. The number of rotors of the rotors is a measure of the amount of gas that has flowed through the rotor meter.

The cylinder wall 105 and the side walls 107 and 109 are separate parts in the known rotor meter which must be precisely manufactured and accurately assembled relative to each other in order to be able to achieve the required accuracy of the bearing and position of the rotors in the housing realize.

Figure 2 shows an embodiment of the rotor meter according to the invention in perspective, wherein it is partly taken apart in parts. The rotor meter 1 has a housing 3 in which a measuring chamber 4 is present with two rotatable rotors 17 and 19 therein. The housing 3 has a cylinder wall 5 and two axial side walls 7 and 9. The housing 3 is slid into a cylindrical outer housing 37 and is inserted therein locked in axial direction by side walls 39 and 41.

The rotors are each provided with a rotor shaft 17A and 19A which is mounted with the ends in the side walls 7 and 9 of the housing 3. During operation, the rotors are present in the gas flow between the inlet opening and the outlet opening, such that the gas flow causes the rotors to rotate, whereby a defined volume is moved from the inlet to the outlet.

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The cylinder wall 5 is divided transversely into two parts 5A and 5B, see Figures 3 and 4, in which the disassembled housing with rotors and the two parts of the housing are respectively shown. Each side wall 7 and 9 of the housing 3, as well as the part 5A, 5B of the cylinder wall 5 adjacent to this side wall, is made from one whole 21, 23. The sub-surfaces present opposite the side walls are provided with contact surfaces 25 and 27 and contact pins 29 and projecting holes 31. Each of the two parts, which together measure the dimensional accuracy of the bearing openings relative to each other and to the Determine the house is made from a whole in a single fixture. As a result, there are only two manufacturing tolerances that must be added together.

In each part 5A, 5B of the cylinder wall 5, a part of an inlet opening 33 and a part of an outlet opening 35 are present. In the assembled state, these sections form the inlet and outlet openings in the cylinder wall 5.

By way of illustration, in Figures 5 and 6, the housing 3 with the rotors 33, 35 in assembled condition is shown in perspective as viewed from different viewing angles.

Although in the foregoing the invention has been elucidated with reference to the drawings, it should be noted that the invention is by no means limited to the embodiment shown in the drawings. The invention also extends to all embodiments deviating from the embodiment shown in the drawings within the scope defined by the claims.

Claims (2)

Rotor meter (1) for measuring the amount of gas flowing through a pipe, comprising a housing (3) provided with a cylinder wall (5) and two axial side walls (7, 9), in which housing a measuring chamber (11) is present, as well as an inlet opening (13) present in the cylinder wall and an outlet opening (15) present in the cylinder wall, which rotor meter further comprises at least two rotors (17, 19) rotatably present in the measuring chamber, each of which is provided with a rotor shaft (17A, 19A) which is mounted with their ends in the side walls (7, 9) of the housing (3), which rotors are present during operation in the gas flow between the inlet opening and the outlet opening, such that the gas flow enters the rotor causes rotation by moving a defined volume from the inlet to the outlet, characterized in that the cylinder wall (5) is divided transversely into two parts (5A, 5B), and each side wall (7, 9) of the housing (3 ) and the part (5A, 5B) of the cylinder wall adjacent to this side wall d (5) is manufactured in one piece (21, 23) and in one fixture, the sub-faces located opposite the side walls 15 being provided with contact surfaces (25, 27) and contact pins (29) present in each other and pass holes (31). Rotor meter (1) according to claim 1, characterized in that an inlet opening (33) and an outlet opening (35) are present in the cylinder wall (5), wherein in each part (5A, 5B) of the cylinder wall (5) a portion of the inlet opening 20 (33) and a portion of the outlet opening (35) is present.