DE1528640B2 - STORAGE OF A RUNNER OF A PLUG-LESS HEATING CIRCULATION PUMP - Google Patents

Description

The invention relates to a mounting of a rotor with a glandless heating circulation pump water-lubricated plain bearings made of a very hard material, the bearing parts of which resemble a pair of bearings Composition and have the same hardness of their material, with one bearing part on the both shaft ends of the pump shaft and the other bearing part is arranged in the pump housing.

Such a storage discloses the magazine "Power Design and Equipment Application Section" May 1962, pp. 59 to 61; Here it is suggested to use the combination for water-lubricated pump bearings Obviously, making "carbide" of the bearing and the journal from the same hard material made of a hard metal such as tungsten carbide. Such bearings, however, have proven to be great costly and not proven to be useful in all areas.

In particular for the requirements of glandless circulating pumps had to be different Materials for the bearing parts are searched for. the

ίο bearings without glandless circulators are water-lubricated, but very sensitive to water pollution. Even with perfect execution of all installation work, it is unavoidable that residues of many kinds in the heating system remain, for example molding sand from castings, scale from steel pipes, welding residues or sand. The plain bearings of the circulating pumps - which are usually off - are against all of these impurities the conventional bearing materials bronze, carbon or plastic exist - despite efforts to the contrary still sensitive. In most cases, it is not possible to remove dirt particles from the system - Dirt traps and sieves, however, do not lead to success because they are slurried through Clog the dirt. The bearings have to withstand occasional dry running, for example during the installation of the pump or at higher water temperatures. The pump bearings should also be insensitive to the amount of solder grease in the heating water. The aforementioned Carbide bearings are more resistant to the agents found in the heating water than the usual bearing materials and can usually run dry temporarily without withstand significant impairment of storage properties; but it has been shown that they are against the rubbing dirt in the water is not sufficiently insensitive, at least that is not for longer periods of use. But just a long period of use is required for the maintenance-free operation of a pump.

In view of these circumstances, the inventor has set himself the goal of developing a new type of storage for the To create the type mentioned at the beginning, in which both the disadvantages of conventional bronze and coal bearings as . also the lack of hard metal bearings are avoided.

A bearing in which all bearing parts of the pump shaft that slide on one another leads to the solution of this problem and the pump housing made of sintered single-material material - aluminum oxide of high purity exist. That this single material is ideal for the special application of glandless heating circulation pumps is exceptionally suitable, numerous attempts have shown.

Due to its unusual hardness, an α-oxide in the form of corundum is used as a bearing jewel for Clocks and electrical measuring instruments and used as abrasives for precious stones and metals. However, the storage of clocks and measuring instruments is fundamentally different; in the jewel Such fine devices run the steel tip of a steel shaft. Also the requirements for such bearings differ significantly from the subject area at hand; the bearings of clocks and electrical measuring instruments must be installed dry and dust-free. It is a so-called point storage,

which can absorb only the slightest forces and exhibit the least amount of friction.

A-aluminum oxides have also been used for mechanical seals used, but have other tasks to perform with flow-inhibiting seals than with plain bearings, which are used for recording are trained by forces. Even in the area of mechanical seals, material combinations Ceramic / ceramic are only of importance when sealing salt solutions. That in addition to this ceramic Materials of different hardness are preferred, refer to the manual "Axial Mechanical Seals" by E. Meyer, 1965, p. 166, to be found. Both mechanical seals and plain bearings were thus, in general, materials of different hardness are used for both bearing parts.

According to a further feature of the invention, the outer bearing part of the pump shaft is in the pump housing angularly movable - but largely excluding purely radial displacement - formed and arranged. Such an outer bearing part is already offered by British patent 7 85 489, in the bearings are described with bearing sleeves made of stainless steel shrunk onto the pump shaft. This arrangement, known per se, leads to bearing parts made of a-aluminum oxide particularly stable and maintenance-free pumps.

Exemplary embodiments of the invention are shown in the drawing. It shows

1 shows a circulating pump without a stuffing box with bearings of the invention arranged on both shaft ends Training and arrangement,

F i g. 2 shows the schematic representation of the bearing arrangement according to FIG. 1 on an enlarged scale schematically with a ring element with a double diametral Line contact,

F i g. 3 shows a modified embodiment of the bearing according to FIG. 1 and 2 with a ring element with Line contact on the pump housing,

Fig. 4 shows a modified embodiment F i g. 3 with a ring element with line contact on the bearing.

The in the F i g. 1 shown heating circulation pump has the pump housing 1, its suction side with 2 and the pressure side with 3 is designated. The motor housing 4 is flanged to the pump housing. The stator of the motor is denoted by 5 and its rotor by 6. The rotor sits on the Pump shaft 7, which carries the pump impeller 8 on the side of the pump housing 1, which is connected to the pump shaft is firmly connected. The two shaft ends are designed as pins 9 and 10, the diameter of which is smaller than that of the pump shaft 7. Disks 11 are placed on this pin, which rest against the face of the shaft shoulder. In addition, these pins carry a preferably glued on Sleeve 12. The disk 11 and the sleeve 12 together form the bearing part connected to the shaft. The horizontally arranged pump shaft 7 is mounted in the two bearings 13, which can be gimbaled are trained. The bearing 15 has a collar 14 towards the rotor 6. On the cylindrical part of the bearing sits approximately in the middle of the bearing, a ring element 15, which is shown in FIGS. 1 and 2 as an O-ring is shown. The ring 15 is preferably made of a suitable plastic that is largely inelastic is and the bearing 13 encloses 16 by line contact. The second line contact 17 is diametrically opposed for inner line contact 16. This second line contact has the ring element on the pump housing 1, which is provided with a receiving bore 18 here. This mounting hole is in diameter discontinued and has an inwardly directed base 19. The O-ring 15 is between the opposite end faces 20 and 21 on the collar 14 and on the base 19.

The bearing parts 11, 12 and 13 consist of a very hard, preferably sintered material and preferably made of a-aluminum oxide of high purity, which is the same composition and for all bearing parts has the same hardness.

The two other embodiments according to FIGS. 3 and 4 differ from that according to FIG. 1 and 2 only with regard to the shape of the ring element. According to the embodiment according to Fi g. 2, the ring element 15 a has a spherically curved surface on its outer circumference and has only one line contact 17, namely on the housing 1, while the ring element 15 _a rests on the bearing 13 with a cylindrical inner surface. This design of the ring element is reversible. According to FIG. 4, the ring element 15 _{6 has} its spherically curved surface on the inside and thus the line contact 16 on the bearing 13.

In general, the double line touch according to the embodiment of FIGS. 1 and 2 however, to give preference. The easy gimbal mobility of the achieved by the ring element However, bearing part 13 includes a purely radial movement of the Bearing off, so that the central guidance of the pump shaft is guaranteed.

For this purpose 2 sheets of drawings

Claims (7)

Patent claims: 1. Storage of a rotor of a glandless heating circulation pump with water-lubricated slide bearings made of a very hard material, the bearing parts of a bearing pairing having the same composition and the same hardness of the material, with one bearing part being arranged on the two shaft ends of the pump shaft and the other bearing part in the pump housing, characterized in that all of the bearing parts (H ₅ 12, 13) of the pump shaft (7) and the pump housing (1) sliding on one another are made of sintered single-material a-aluminum oxide of high purity. 2. Storage according to claim 1, characterized in that the outer bearing part (13) of the pump shaft (7) angularly movable in the pump housing (1), but largely purely radial displacement is exclusive, designed and arranged. 3. Storage according to claims 1 and 2, characterized in that between the bearing (13) of the pump shaft (7) and a bore (18) in the pump housing (1) an O-ring or a similar, easy mobility permitting, predominantly with spherically curved surface provided ring element (15, 15 ₀ , 15 _b ) is present, which has at least one line contact (16, 17). 4. Storage according to claim 3, characterized in that the ring element (15) line contact (s) (16,17) on the bearing (13) and on the pump housing (1). 5. Storage according to claim 3, characterized in that the ring element (15 ₆ ) on the bearing part (13) line contact (16) and on the pump housing (1) has surface contact. 6. Storage according to claim 3, characterized in that the ring element (15 _a ) on the pump housing (1) line contact (17) and on the bearing part (13) has surface contact. 7. Storage according to at least one of claims 3 to 6, characterized in that the receiving bore (18) in the pump housing (1) has an inwardly directed projection (19) and the bearing (13) has a collar (14) and the end faces (20, 21) take up the ring element (15, 15 ″, 15 _b ) between them from the approach and collar.