CS197295B2 - Watertight electric motor and method of making the same - Google Patents

Description

The present invention relates to waterproof motors for circulation pumps and to a process for their manufacture.

The designation 'circulating pump motor' refers to those motors which are inserted into the pipeline and drive the pump that causes water to circulate in the pipeline. Circulation pumps are mainly used for circulating hot water into radiators in buildings and the like.

The electric motor for the circulation pump is usually a so-called waterproof motor, ie the rotor space is filled with water which maintains a constant suitable temperature in the motor. This water is taken from the water circulating in the piping system and admitted to the rotor space via a filter. In addition to controlling the engine temperature, water also serves to lubricate bearings that are designed as plain bearings. This type of motor is characterized in that the stator on its inner side is shielded with respect to the rotor space by a nonmagetic metal sleeve, which preferably consists of stainless steel. It is important that the shielding sleeve is very thin so that the gap between the rotor and stator is as small as possible.

One method which is often used to produce a circulator pump motor is to first cast a solid aluminum housing or the like. In this housing, holes are made at both ends for bearings and other devices and one hole at the side through which conductors can pass. The housing is further provided with a connecting flange and has through holes for connecting the stator, inter alia. The stator, the bearings, the shielding sleeve, the filter and the end pieces are fitted and bolted to the housing. This manufacturing process requires a lot of manual work and the engine becomes very bulky.

In known motors, the shield sleeve is usually welded to the coarse flange in such a way that a watertight seal is achieved. Due to the fact that the flange must withstand the water pressure in the pipe, it must be relatively strong. For financial reasons, it is therefore necessary for the flange to be made of conventional sheet material instead of the stainless material used for the housing. As a result, corrosion problems are likely to occur. Furthermore, it is difficult to weld a thick sheet metal part to a thin stainless steel tube.

For correct operation, the pump motor must have a rotor shaft that is perpendicular to the flange. It is therefore necessary that the stainless steel housing be ground after welding. ‘

The purpose of the invention is to provide an engine whose construction is simple and easy to manufacture.

To solve the above problems, the invention is based on the aforementioned waterproof electric motor for circulators, which comprises a stator, a stator shielding sleeve, a rotor, a rotor bearing and a terminal box, the stator part according to the invention being housed in a plastic casting and the pump wheels are shielded by a thin plate provided with a central opening and having a flexible central portion, the plate being reinforced by connection to the cast plastic material and being watertightly connected to the shielding sleeve by welding and provided with a sealing shoulder for the surrounding housing.

According to a preferred embodiment of the invention, the plate with its flexible central part on the peripheral part is provided with reinforcing grooves.

As a result, forces originating from the water pressure acting on the plate are transmitted to the connecting bolts. The groove profiling further improves the transfer of s1 between the casting and the plate, thereby further reinforcing the plate.

However, the central part of the plate must be so flexible that the casting sleeve can be adjusted by the clamp during casting without the application of excessive forces, so that it is exactly perpendicular to the surface of the plate that rests on the pump housing when assembling the motor. During casting, the position of the shielding sleeve relative to the plate is stabilized with an angular accuracy which is only determined by the accuracy of the fixture.

This is in contrast to the conventional design, where the angular tolerance is determined only by the accuracy that can be achieved during rolling.

According to another embodiment of the invention, the diameter of the central hole of the plate is somewhat smaller than the diameter of the portion of the shielding sleeve that engages the plate.

By this measure, the engagement surface is formed or a groove for the locking spring can be formed which can hold one of the rotor bearings in the axial direction.

According to another embodiment of the invention, the plate extends radially away from the stator portion and is provided with openings for connecting the motor to a circulating water system.

The invention also provides a method of manufacturing an electrical machine which comprises welding a thin, flexible plate provided with a circular opening and a sealing shoulder for the housing to the open end of the shielding sleeve in such a way that the central opening of the plate is concentric with the shielding sleeve around the shielding sleeve. the stator with windings is placed on the sealing plate on the plate and the terminal box is placed around the stator, the shielding sleeve is clamped and adjusted exactly perpendicular to the surface of the plate adjacent to the pump casing using a mandrel or other casting machine fixtures; fill with the casting mixture, which is allowed to harden and the rotor and other components are mounted.

According to another embodiment of the invention, the diameter of the central 'opening in a plate made smaller than the diameter of the adjacent part of the shadow ^ton Cl sleeve to form a groove for the axial locking · one of the rotor bearings.

Suitably, the casting composition is introduced into the stator portion of the electric motor using centrifugal force.

In order to produce a centrifugal force, it is desirable that the casting rotor rotates about an axis that is offset parallel to its own axis. In the case of the wire connections, the opening through which the plastic can be introduced is provided. material, and the air contained inside can escape from the mold.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be explained in more detail with reference to the drawings in which: Fig. 1 shows a longitudinal section of a finished motor; Fig. 2 shows the connection between plate and sleeve and part of the bearing housing; .

Giant. 1 shows a thin plate 1 which is flexible in its central part and which is welded in place 2 to the shield sleeve 3. The stator 4 with its windings 5 is arranged around said sleeve. Around the stator part is a housing 6, which in the present case is made of a plastic material. The position of the housing 6 relative to the plate 1 is determined by the sealing shoulder 7. The terminal block 8 is integral with the housing 6. The stator part, with the exception of the terminal block 8, is completely filled with the molded plastic material 9. This casting adheres well to the plate 1 and the shielding sleeve 3. so it gets a rigid unit that can very well withstand water pressure. To connect the motor to the water system, the plate 1 is somewhat wider than the motor housing and is provided with connection holes ID. Since the plate 1 is thin and does not require much material, it can be made of stainless steel, whereby the same material can be used for both the plate 1 and the shield sleeve 3. This eliminates the corrosion problem.

As can be seen in FIG. 2, the orifice of the plate 1 has a smaller diameter than the opening of the adjacent part of the sleeve 3. This provides a shoulder 11 into which a locking spring 12 can be inserted to stabilize the rotor bearing bush 13 in the axial direction. . The weld 14 is evidently converted on the outside of the shielding sleeve 3. This saving solution is made possible by the fact that the position of the stainless steel sleeve 3 is stabilized on the casting by the casting machine preparation and becomes even more rigid by the casting material.

Giant. 3 shows a detail of the peripheral portion of the motor that is attached to the base. As can be seen in FIG. 3, reinforcing grooves 15 have been rolled into the plate 1.

A further advantage of the fact that the flange is of thin metal sheet that can be milled is that it is easy to form an internal shoulder, to which the stator housing made of thermoplastic material fits tightly during casting. Due to the fact that the thermoplastic material expands more than steel when exposed to heat, the high temperature casting will automatically produce a good sealing effect.

It is a great advantage that it is possible to make the stator box and the terminal block in one piece of plastic material, because both the production costs are reduced and the problem of sealing between the box and the separate terminal block is eliminated. In addition, the dimensions of the terminal block can be reduced, since there is no need to take into account the safety distance between the live parts and the metal. These problems would arise if the motor housing and terminal box were cast in one piece of aluminum.

Compared to a conventional motor having an aluminum housing, it is advantageous to work to a certain extent to shape and encapsulate the winding heads and to impregnate the windings, which means cost savings. Since the stator housing is made of a plastics material according to the invention, it is possible for the stator housing to form unencapsulated winding heads, which are then fastened by a plastic casting. Due to the fact that the winding heads can engage the stator housing and do not have to be moved to a safe distance, as is the case with aluminum, the dimensions of the housing can be reduced in the axial direction.

Further cost savings are achieved in that the machining required on the outer diameter of the stator bundle or the stator housing is unnecessary in conventional constructions because the stator housing of plastic material is removed from the outer diameter of the stator bundle and is attached thereto by plastic casting.

Due to the casting of the stator windings with a casting mixture filled with mineral material, the heat transfer from the windings to the water-cooled plate 1 and to the shielding sleeve 3 is greatly improved compared to a conventional motor, where the windings are surrounded by heat-insulating air. Improved cooling means increased engine power. Thus, it is preferred that the water contacting portion of the plate is profiled, thereby increasing the heat transfer surface.

The invention may be altered, for example, in that the stator housing of plastic material may be provided with connection holes for the motor, thereby avoiding the modification of connection holes in the plate.

Claims (7)

Waterproof electric motor for circulating pumps, comprising a stator, a stator shielding sleeve, a rotor, a rotor bearing and a terminal box, characterized in that the stator part (4) is housed in a plastic casting and shielded by a plate ( 1), provided with a central opening and having a flexible central portion, the plate (1) being reinforced by connection to the cast plastic material (9) and being welded to the shielding sleeve (3) by a weld and provided with a sealing shoulder (7) for the surrounding cabinet ( 6). Waterproof electric motor according to claim 1, characterized in that the plate (1) with its flexible central part is provided with reinforcing grooves (15) on the peripheral part. Waterproof electric motor according to claim 1 or 2, characterized in that the diameter of the central opening of the plate (1) is somewhat smaller than the diameter of the portion of the shielding sleeve (3) that engages the plate (1). Waterproof electric motor according to any one of claims 1 to 3, characterized in that the plate (1) extends radially outside the stator part and is provided with openings (10) for connecting the motor to the circulating water system. vynalezu Method for manufacturing an electric motor according to any one of claims 1 to 4, characterized in that the plate (1) provided with a circular opening and a sealing shoulder for the housing is welded to the open end of the shielding sleeve in such a way that the central opening of the plate is concentric with the shielding. A stator with windings is placed around the stator sleeve and a terminal box is placed around the stator and the terminal box is fitted around the stator, the shield sleeve is clamped and aligned exactly perpendicular to the surface of the board adjacent the pump housing using a mandrel or other jigs of the casting machine. , the stator part is filled with the casting mixture which is allowed to harden and the rotor and other components are mounted · 6. The method of claim 5, wherein the diameter of the central hole in the plate is less than the diameter of the adjacent portion of the shielding sleeve to form a groove for axially arresting one of the rotor bearings. 7. The method of claim 5, wherein the casting composition is introduced into the stator portion of the electric motor using centrifugal force.