DE29813996U1 - Static mixer - Google Patents

Description

Applicant: Böllhoff Verfahrenstechnik Branch of Wilhelm Böllhoff Beteiligungsgesellschaft mbH & Co. KG Duisburger Straße 7, 33647 Bielefeld

Static mixer .

The invention relates to a static mixer according to the preamble of claim 1.

Known static mixers have a mixing chamber in which a guide body resting on the mixing chamber wall divides the media flow consisting of several components into partial flows several times and then recombines them, so that the deflection of the flow on the guide surfaces and its division results in a mixing of the media flow. However, for good mixing, many division and unification processes are required for the media flow, so that the guide body has a complicated structure and is therefore expensive. In addition, such a mixer is relatively large.

The invention is based on the object of creating a compact static mixer that can be manufactured cost-effectively.

The static mixer according to the invention ensures through the special guidance of the media flow and the

18 632 " 30.07.1998

The swirl creates a strong turbulence and therefore a good mixing of the components. The spiral course of the media flow allows a compact design for the mixer, which essentially has rotating surfaces that are easy to manufacture.

Preferred embodiments of the invention emerge from the subclaims.

Two preferred embodiments are explained in more detail below with reference to the drawings. They show:

Figure 1 - the longitudinal section through a first embodiment of a static mixer according to the invention
with two tangential supply lines;

Figure 2 - a section according to section plane II - II in
Fig.1;

Figure 3 - a longitudinal section through a second embodiment
a static mixer according to the invention
with a tangential and a central supply line;

Figure 4 - a section according to section plane IV - IV in
Fig.3.

The housing 1 of a static mixer consists of two housing parts la and Ib screwed together. The housing parts are joined together in a sealing manner with the separating surface Id. The housing 1 has a rotationally symmetrical mixing chamber 2. A mixing body 3 protrudes into the mixing chamber 2,

18 632 30.07.1998

whose axis coincides with the central axis 2a of the mixing chamber 2. The mixing body 3 is inserted into a receiving bore 1c in the bottom 2b of the mixing chamber 2. Three lines lead into the mixing chamber 2, two of which serve as supply lines 4 and 5 for the low to high viscosity media to be mixed and one as a discharge line 6 for the mixed media.

The supply lines 4 and 5 are, as can be seen from Fig. 2, screwed tangentially to the wall of the mixing chamber 2 into the housing part Ib and sealed against the housing part Ib with sealing rings 4b and 5b. The supply line openings 4a and 5a are arranged near the bottom 2b of the mixing chamber 2. Due to the flow speed with different quantities of the media used, e.g. for the components of paints or coating materials, the openings 4a and 5a have different cross-sections. A discharge opening 6a for the discharge line 6 is arranged on the ceiling 2c of the mixing chamber 2.

The mixing chamber 2 is divided into two adjacent areas 2d and 2e, one of which is dome-shaped and the other barrel-shaped. At the transition between the two areas, a constriction Ie of the mixing chamber 2 is formed.

The mixing body 3 has areas of different diameters as guide surfaces with constrictions 3a, which together with the barrel-shaped chamber wall form interconnected annular spaces. The mixing body 3 ends in a cone 3b, the tip of which lies in the dome-shaped area 2d of the mixing chamber 2.

·

18 632 30.07.1998

The media flowing tangentially into the mixing chamber 2 are forced by the shape of the mixing body 3 and the mixing chamber 2 into a rotational movement indicated by the arrow 7, whereby the components are mixed by the swirl acting on the media flow on their way to the outlet opening 6a.

In the embodiment of the static mixer shown in Fig. 3 and Fig. 4, the housing part la' is partially provided with an external thread and is screwed directly into the housing part 1b'. The second supply line 5' is connected to the mixing body 3' and to a central bore 3c in the mixing body 3, which extends into the cone 3b. The supply line opening 5a' is directed obliquely at the angle α against the inner wall of the barrel-shaped area 2e of the mixing chamber 2, so that the component flow rebounding at the angle ß combines, as indicated by arrow 8, with the flow of the first component introduced tangentially through the first supply line 4. The angle of incidence to the perpendicular 9 at the point of impact corresponds to the rebound angle. The circular transport of the media flow to the discharge line 6 corresponds to that described in connection with Fig. 1 and 2. The result is just as good a mixing of the components as in the first embodiment.

Claims (14)

PATF NTANWAI TF ·» ··· .. .. qadoerbwumer strasse 20 I-M I ClIN I MINVVMUI CZ D-33602 BIELEFELD DIPL.- ING. BODO THIELKING _{TELEPHONE: (0521) 60621} DIPL- ING. OTTO ELBERTZHAGEN fax: (0521) 173725 POSTAL ACCOUNT HANNOVER (bank code 25O1OO3O) 3091 93-302 ATTORNEY FILE: 18 DATE: 30.07.1998 Protection claims : 1. Static mixer for mixing media with a housing (1) which has a rotationally symmetrical mixing chamber (2) into which a centrally arranged mixing body (3; 3') protrudes, which has guide surfaces on its surface for the medium to be mixed, further with a first supply line (4) for a first medium and a second supply line (5; 5') for a second medium and with supply line openings (4a; 5a; 5a') at the end of the supply lines (4; 5; 5'), as well as with a discharge line (6) for the mixed media, characterized in that that a free annular gap remains between the mixing body (3; 3') and the wall of the mixing chamber (2), the mixing body (3; 3') ending at a distance from the ceiling (2c) of the mixing chamber (2) opposite the floor (2b), to which the discharge line (6) is connected, at least one supply line (4; 5) for a medium opens tangentially into the mixing chamber (2) adjacent to the floor (2b). 2. Static mixer according to claim 1,
characterized, that adjacent to the bottom (2b) , tangentially into the mixing 18 632 " 30.07.1998 chamber (2) opens at least one second supply line (5) which is arranged offset in the circumferential direction to the first supply line (4). 3. Static mixer according to claim 1,
characterized, that a second supply line (5') is partially formed by a central bore (3c) of the mixing body (3 ¹ ). 4. Static mixer according to claim 3,
characterized, that the supply line opening (5a ¹ ) of the second supply line (5 ¹ ) is directed against the inner wall of the mixing chamber (2) at an impact angle (α) such that one leg of the rebound angle (ß) points towards the first supply line opening (4). 5. Static mixer according to one or more of claims 1 to 4, characterized, that the discharge opening (6a) in the ceiling (2c) of the mixing chamber (2) is arranged in alignment with the central axis (2a) of the mixing body (3; 3 ¹ ). 6. Static mixer according to one or more of claims 1 to 5, characterized, that the mixing body (3; 3 ¹ ) has surface areas with different diameters forming the guide surfaces. • » * * &iacgr; 11 18 632 30.07.1998 7. Static mixer according to one or more of claims 1 to 6, characterized, that the mixing body (3; 3') has a helical constriction on its surface. 8. Static mixer according to one or more of claims 1 to 7, characterized, that the mixing body (3; 3') is inserted into a receiving bore (Ic) in the bottom (2b) of the mixing chamber (2). 9. Static mixer according to one or more of claims 1 to 8, characterized, that the free end of the mixing body (3; 3') is formed by a cone (3b). 10.Static mixer according to one or more of claims 1 to 9, characterized, that the mixing chamber (2) is formed by housing parts (la; la'; Ib; Ib') which have a separating surface (Id) running transversely to the central axis (2a). 11.Static mixer according to one or more of claims 1 to 10, characterized, that the region (2d) of the mixing chamber (2) surrounding the free end of the mixing body (3; 3') is dome-shaped. 18 632 . 30.07.1998 12.Static mixer according to one or more of claims 1 to 11, characterized, that the mixing chamber (2) is barrel-shaped in the region of the guide surfaces of the mixing body (3; 3 ¹ ). 13.Static mixer according to one or more of claims 1 to 12, characterized, that the dome-shaped region (2d) and the barrel-shaped region (2e) of the mixing chamber (2) abut one another in a constriction (Ie). 14.Static mixer according to one or more of claims 1 to 13, characterized, that the supply line opening (5a; 5a ¹ ) of the second supply line (5; 5') has a smaller cross-section than the supply line opening (4a) of the first supply line (4).