NL8104434A - Screw-type compressor unit - has rotor non-radiused edge working with trochoidal flank on other rotor - Google Patents

Abstract

The compressor has two or more rotors working together in a housing with inlet and outlet. The rotors are so shaped that when running their lines of contact always intersect one or more of the cylinders circumscribing them. The portion of each rotor dividing the screw turns one or more non-radiused edges. The non-radiused edge of one rotor works with the trochoidal flank portion of the other. The dividing portion can have a cylindrical outer surface, working against a curved flank on the other rotor.

Description

* * i i 81 · 5097 / Rey / sme

Short designation: Screw compressor.

The invention relates to a screw compressor comprising a housing with an inlet and an outlet opening, in which housing two or more co-operating rotors are mounted.

Such screw compressors are generally known, and have the drawback that for the manufacture of the rotors often complicated and therefore expensive machines are necessary. In addition, it has hitherto not been possible to construct a screw compressor, which can compete with a piston compressor in terms of yield and efficiency. Namely, the conventional screw compressors all have a so-called "Blasloch", that is to say that during operation an open connection is temporarily created between two adjacent screw threads, that is, between the suction and the pressure side.

The object of the invention is to provide a screw compressor which can be manufactured with simple aids and which avoids the above-mentioned drawbacks. This object is achieved according to the invention in that the two rotors are formed in such a way that their contact lines during operation cut at least one of the cutting lines of the enveloping cylinders of the two rotors 20.

Because the contact line between the rotors now runs continuously to the house, the "Blasloch" is avoided.

According to the invention, for each rotor, the screw threads are mutually separated by at least one unrounded side.

Preferably, the sharp side of one rotor interacts with a trochoid flank portion of the other rotor, seen in normal cross-section.

The invention is further elucidated on the basis of the 8104434-2 -, 5 · 5 * drawing.

Fig. 1 shows a perspective view of the rotors according to the invention.

Fig. 2 schematically shows a normal cross-section of the 5 rotors according to FIG. 1.

Fig. 3 illustrates two choices of rotors for illustrative purposes.

Fig. 1 is a perspective view of a male rotor 1 cooperating with a female rotor 2. In the illustrated embodiment, the male rotor has three passes and the female rotor six. The screw threads of the male rotor are separated from each other by a single sharp, i.e. unrounded, side 3, while the screw threads of the female rotor are separated from each other by an intermediate piece 4, which changes into sharp edges 5, 6 15 the adjacent screw threads. The outer surface of the intermediate piece 4 is formed in accordance with the circumferential cylinder of the respective rotor 2. The intermediate piece 4 serves to improve the sealing between the screw threads and also has manufacturing technical advantages, as will be seen later. It will be clear that the male rotor 1 can also be designed with such an intermediate piece *

Fig. 2 schematically shows a housing 7 with two intersecting cylindrical bores 8, 9, so that at the location of the cutting lines the sharp edges 10 and 10 respectively. 10 'originated in the house. The rotors are mounted in the bores, the outer surfaces of the rotors sealingly running against the inner surface of the respective bore.

In the position of the two rotors shown in Fig. 1, the side 3 of the male rotor 1 is located at point 10 of the housing. If both rotors 1, 2 rotate in the direction of the arrows R, the side 3 of rotor 1 will come into contact with the female rotor 2, while the side 5 of rotor 2 will come into contact 4 8104434 <n

I I

- 3 - with the male rotor 1.

According to the inventive idea, the side 3 of the rotor 1 now meets the side 5 of rotor 2 in point 10. This means that the side 3 transfers from the housing to the 5 rotor 2 without breaking the contact (apart from the necessary clearance and manufacturing tolerances).

The side 3 of the rotor 1 then cooperates with the "pit" 5-5 ", which pit is in the form of a trochoid. On the other hand, the side 5 comes into contact with the edge 3-3 'of the rotor 1 * 10. The part of the edge 3-3' cooperating with the side 5 also has the shape of a trochoid. The moment the side 5 passes the connecting line 11 between the rotational centers of the rotors, the side 5 loses contact with the flank 3-3 ', which contact is taken over by the cylindrical surface of the intermediate piece 4. The side 5 leaves the flank section 3-3 * at point 12.

From point 12, the cylindrical surface of the intermediate piece 4 works with the flank, until at point 13 the side 6 contacts the flank. This is the moment that side 6 passes line 11. The flank part 12-13 is therefore in the form of a circular arc, while the next flank part 13-3 'which co-acts with the edge é is again in the form of a trochoid.

Due to this specific design of the rotors, the rotors unwind over each other, without creating a "Blasloch".

It will be clear that if the male rotor is provided with an intermediate piece, the shape of the "hole" 5-5 'must be adapted accordingly, that is to say a circular arc-shaped part must also be provided here ·

By selecting the rotor diameters, the depth and width of the pit can be varied. In figure 3 two rotor combinations A-A 'and B-B' are indicated. Combination A shows a narrow deep hole, while combination B shows a wide shallow hole 8104434 - 4 -

Λ Μ * 'C

in the female rotor. A wide shallow hole is technically desirable as it can be milled out with normal tools, without fear of pre- and post-cutting. If the spacers were to be omitted from the female rotor 5, "deep holes with steep sidewalls would also form, again creating the danger of pre- and post-cutting."

It has been found in practice that a screw compressor according to the invention can also function as a turbine.

i 8104434

Claims (2)

1. Screw compressor comprising a housing with an inlet and an outlet opening in which at least two co-operating rotors are mounted, which are formed such that their contact lines during operation always cut at least one of the cutting lines of the enveloping cylinders of the two rotors, while the screw-separating portion of each rotor has at least one unrounded side, characterized in that the unrounded side of one rotor interacts with a trochoid-shaped flank portion of the other rotor, seen in normal cross-section. Screw compressor comprising a housing with an inlet and an outlet opening, in which housing two or more co-operating rotors are mounted, characterized in that the two rotors are formed such that their contact lines during operation are at least one of the intersecting lines of the envelope cylinders of both rotors. Screw compressor according to claim 1, characterized in that for each of the rotors the screw holes are mutually separated by at least one unrounded side. 3. Screw compressor according to claim 2, characterized in that the sharp side of one rotor works with a trochoid flank part of the other rotor, seen in normal cross-section. Screw compressor according to claim 2 or 3, characterized in that the screw threads of at least one of the rotors are separated by an intermediate piece with a cylindrical outer surface. Screw compressor according to claim 4, characterized in that the cylindrical surface of the intermediate piece 20 of one rotor cooperates with a circular arc-shaped flank part of the other rotor, seen in normal cross-section. 8104434 η \ Oh. 8104434 Errata dd »16-12— * 81 Short designation: Screw compressor The invention relates to a screw compressor comprising a housing with an inlet and an outlet opening in which at least two co-operating rotors are mounted, which are formed such that their 5 contact lines always cut at least one of the cutting lines of the enveloping cylinders of the two rotors during operation, while the part of each rotor separating the screw threads has at least one unrounded side. Such a screw compressor is known from Dutch patent 44178. By the above-mentioned measures, whereby the one (male) rotor and the other (female) rotor always come into contact where both leave the housing in normal cross-section, the occurrence of prevent a so-called escape opening or "Blasloch", which affects the efficiency. However, this patent does not indicate how to shape the rotor flanks to obtain an optimum sealing along the contact lines. According to the invention, this is achieved in that the unrounded side of one rotor cooperates with a trochoid-shaped flank part of the other rotor, seen in normal cross-section. This not only prevents the occurrence of the escape opening, but also provides an excellent sealing of the rotors relative to each other, so that the compressor has a high efficiency. Moreover, the shapes obtained are still quite easy to manufacture. According to the invention, in a compressor thus designed, in which of each rotor the part separating the screw threads has a cylindrical outer surface, this cylindrical outer surface interacts with a circular arc-shaped flank part of the other rotor, seen in normal cross section. The invention is further elucidated on the basis of the 8104434 Λ ♦ Errata dA «l6-12-, 8l OA 8104434 C O N C LU S I E S 2. Screw compressor according to claim 1, in which of each rotor the part separating the screw threads has a cylindrical outer surface, characterized in that this cylindrical outer surface cooperates with a circular arcuate flank part of the other rotor, seen in normal cross-section. 8104434