RU164051U1 - MIXER - Google Patents

Abstract

1. A mixer comprising a frame on which a flip device is mounted, on which a hopper with internal blades is mounted rotatably, the mixer being provided with a hopper rotation drive comprising a gear wheel rigidly fixed outside on the bottom of the hopper, characterized in that the axis of rotation of the hopper rigidly fixed to the bottom of the hopper, and the gear wheel is fragmentarily welded to the bottom in several places coaxially with the axis of rotation of the hopper. 2. The mixer according to claim 1, characterized in that the gear wheel is made in the form of a steel ring, on the outer surface of which the teeth are made, while the area of welding of the gear wheel and the bottom is inside the gear wheel and outside the bottom. 3. The mixer according to claim 1 or 2, characterized in that the bottom is made flat, the gear wheel is adjacent to the bottom from the outside and welded to it at six points. 4. The mixer according to claim 1 or 2, characterized in that the bottom is convex, the gear has a groove on the inside, with which it is worn externally on the bottom, the outer edge of which is coaxial to the axis of the hopper, while the gear is welded to the bottom at three points .5. The mixer according to claim 1 or 2, characterized in that the bottom has a groove on the outside that is coaxial with the axis of the hopper, onto which a gear is fitted without a gap, while the gear is welded to the bottom at three points. The mixer according to claim 1 or 2, characterized in that the bottom is concave, machined coaxially to the axis of the hopper and a gear wheel is put on it without a gap, while the gear wheel is welded to the bottom at three points.

Description

The field of technology.

The technical solution relates to construction machines, namely, to gravity type mixers, and can be used for the preparation of construction mixtures, mainly in individual construction, as well as for any mixtures in an individual household, including for the preparation of combined feeds.

The prior art.

The known mixer according to the patent of the Russian Federation for utility model No. 150767, IPC ВС 5/18, 2015. As in the claimed technical solution, the specified analogue contains:

- hopper body with internal blades and loading and unloading hole;

- a drive mechanism for rotating the hopper containing a mechanical transmission,

- a support frame consisting of a rack with a base on which a flipping device is located;

- manual drive overturn device.

Torque from the engine is transmitted by a V-ribbed belt, or a timing belt, or a chain drive.

The disadvantage of this analogue is the fastening of the gear to the hopper by welding around the entire circumference of this wheel. When operating the mixers, damage to the gear teeth sometimes occurs. It turns out that the bucket is not yet worn out and its operation can be continued. However, the above mounting of the gear to the bucket leads to the need to replace the entire bucket with a gear, because after cutting off the damaged gear from the bucket, it is impossible to install a new gear in its place. Cutting off the welding at the point of attachment of the damaged gear to the bucket around the entire circumference of this wheel leads to damage to the surface (perimeter) of the base of the bucket around this circumference. This leads to the absence of places on the surface of the tub that could be used as reference points for installing a new gear. Due to the relatively large size of the tub, its groove in order to restore the mentioned reference points requires large machines and is therefore difficult. This leads to the fact that it is necessary to replace the entire tub, and not just the gear.

Disclosure of the claimed technical solution.

The technical problem, which is aimed by the claimed technical solution, is to extend the use of the tub mixer.

The technical result provided by the claimed technical solution is to increase the maintainability of the mixer.

The essence of the claimed technical solution lies in the fact that the mixer contains a frame on which a flip device is installed, on which a hopper with internal blades is mounted with the possibility of rotation. In this case, the mixer is equipped with a hopper rotation drive containing a gear wheel, rigidly fixed externally to the bottom of the hopper. It differs in that the axis of rotation of the hopper is rigidly fixed to the bottom of the hopper, and the gear wheel is fragmentarily welded to the bottom in several places coaxially with the axis of rotation of the hopper.

The above essence is a set of essential features of the claimed technical solution, ensuring the achievement of the claimed technical result.

In special cases, it is permissible to carry out the technical solution as follows. The gear wheel can be made in the form of a steel ring, on the outer surface of which teeth are made. Moreover, the area of welding of the gear wheel and the bottom is located inside the gear wheel and outside the bottom.

The bottom can be made flat, while the gear wheel is adjacent to the outside of the bottom and welded to it at six points.

The bottom can be made convex. In this case, the gear wheel may have a groove from the inside, with which it is worn externally on the bottom, the outer edge of which is coaxial to the axis of the hopper. The gear wheel is welded to the bottom at three points.

The bottom may have a groove from the outside, coaxial to the axis of the hopper, on which a gear is put on without a gap. The gear wheel is welded to the bottom at three points.

The bottom can be made concave, machined coaxially to the axis of the hopper and a gear wheel is put on it without a gap. In this case, the gear wheel is welded to the bottom at three points.

The author of the claimed technical solution made a prototype of this solution, the tests of which confirmed the achievement of the technical result.

A brief description of the drawings.

FIG. 1 shows a side view of a mixer according to one embodiment of a frame and a flip device; FIG. 2 is a top view of this mixer, FIG. 3 - view A of figure 2 is enlarged.

FIG. 4 shows a side view of a mixer according to another embodiment of the frame and the overturning device; FIG. 5 is a top view of this mixer, FIG. 6 - view B of figure 5 is enlarged.

Figure 7 shows a longitudinal section of the mixer hopper of Example 1; FIG. 8 is a longitudinal section through the hopper of Example 2; FIG. 9 is a longitudinal section through the hopper of Example 3; FIG. 10 is a longitudinal section of the hopper according to example 4.

Implementation of a technical solution.

The mixer comprises a frame 1, on which a flip device is mounted rotatably (Fig. 1, 2). In the flip device with the possibility of rotation placed the hopper 2.

The frame can be made, for example, in the form of a rack 4 located on the base 3, on which a pair of guides 5 of the overturning device are rigidly fixed. In the specified guide mounted flipping device (not indicated), designed to rotate the hopper 2 relative to the support frame 1 when unloading the finished mixture.

The base 3 of the frame can be made by bending from a single billet of a steel pipe of circular or rectangular cross section. The base of the frame can also be made by welding blanks (segments, arcs) from rolled steel.

The overturning device is a bracket bent at an obtuse angle, having horizontal 6 and inclined 7 sections. It is preferable to make such an arm welded from two straight pipe sections.

At the end of the horizontal section 6 of the bracket is fixed a manual drive 8 of a flip device, which can be made in the form of a helm. Manual drive 8 can also be made in the form of one or more linear levers equipped with handles. The levers can be connected to each other to increase the rigidity of the drive coup device. The manual drive 8 of the flip device can be equipped with a gearbox (not shown), in which the driven gear is rigidly fixed to the end of the horizontal section of the flip device, and the pinion gear is fixed to the shaft of the hand drive (for example, the steering wheel).

At the end of the inclined section of the bracket, a bearing housing 9 is fixed, in which the axis of rotation of the hopper is installed in the bearings.

The overturning device can be equipped with a brake device (not shown) to restrain the rotation of the hopper during unloading until the overturn device is completely locked.

Frame 1 can also be made in the form of a spatial structure with two (Fig. 4, 5) or more spatially spaced guides 5 of the overturning device fixed on it. In this case, the flip device may have a different design from the one described above, and the bearing housing 9 of the axis of rotation of the hopper can be mounted on the flip device in the area between the two guides 5 of the flip device.

The hopper 2 is made in the form of a drum containing a bottom 10 and one or more conical and / or cylindrical shells - walls 11 (Fig. 7, 1, 2, 4, 5). The figures show a mixer with three conical walls. In it, the edge of the conical wall, located opposite the bottom 10, forms a loading and unloading hole 12. The edge of the loading and unloading hole of the hopper is provided along the contour with a metal edging (not shown) of a solid section. As a fringing, a bar of round, square, hexagonal or strip section welded along the edge of the hole of the hopper can be used.

The blades are fixed inside the hopper.

The axis 13 of rotation of the hopper is rigidly fixed to the bottom 10 by welding (Fig. 7-10). The bottom 10 can be made flat, as well as convex or concave. The convex or concave bottom may have, for example, a spherical, elliptical, parabolic shape. From the outside, on the bottom 10, coaxially to the axis of rotation 13, a gear wheel 14 is rigidly fixed by welding, which is a steel ring, on the outer surface of which teeth are made. Additionally, the gear 14 can be partially or completely put on the bottom 10 to center it relative to the axis of rotation of the hopper 13.

To enable the replacement of the gear wheel 14, it is welded to the bottom 10 not all over the circumference, but selectively fragmented in several places. It is advisable to weld the gear wheel 14 to the bottom 10 at least in three places. At the same time, at least three points free from welding remain in the contact area of the gear 14 and the bottom 10 as reference points for installing a new gear with its possible replacement. The process of replacing a gear will be described later in this document.

The hopper rotation drive comprises an electric motor 15 mounted on a flipping device and a mechanical transmission (not indicated). The drive rotation of the hopper is made with the possibility of reverse rotation. Mechanical transmission is made in the form (Fig. 3, 6):

- leading link 16 mounted on the shaft of the electric motor 15,

- the driven link 17, mounted on the shaft of the drive gear 18 of the hopper, mounted in a bearing housing 19, mounted on a flip device,

- a gear wheel 14 fixedly connected to the bottom 10 of the hopper 2. Rotation from the drive gear 18 of the hopper is transmitted to the gear wheel 14.

The torque from the engine 15 to the driven link 17 is transmitted, preferably, by a flexible belt drive 20 (V-ribbed or timing belt), but can also be transmitted by a chain drive. For safety, the flexible belt drive 20 is covered by a protective casing 21.

The design of the mixer can be performed so that the axis around which the hopper rotates and the axis around which the flip device rotates are located in one vertical plane, which is also the plane of symmetry of the mixer base.

The mixer is equipped with an automatic device to maintain the mixture in working condition.

Examples of specific performance.

Example 1. The gear wheel 14 is adjacent to the outside of the flat bottom 10 and is welded to it at six points (Fig. 7). The welding points are evenly distributed around the circumference of the gear 14. In this case, the welding area is inside the gear 14 and the outside of the flat bottom 10. With this connection of the gear 14 with the flat bottom 10, it is required to ensure the alignment of the gear and the hopper rotation axis 13 before welding. For this, as a rule, templates (not shown) are used, worn on the axis of rotation of the hopper 13.

Example 2. The gear wheel 14 has a groove 22 on the inside, with which it is worn without a gap on the convex bottom 10, the outer edge of which is a circle and coaxial to the axis 13 of the hopper (Fig. 8). The gear wheel 14 is welded to the bottom 10 at three points. The welding points are evenly distributed around the circumference of the gear wheel 14. The welding area is located inside the gear wheel 14 and outside the bottom 10.

Example 3. The convex bottom 10 has an external groove 23, coaxial to the axis 13 of the hopper, on which a gear 14 is put on without a gap (Fig. 9). The gear wheel 14 is welded to the bottom 10 at three points. The welding points are evenly distributed around the circumference of the gear 14. The welding area is located inside and from the end of the gear 14 and the outside of the bottom 10.

Example 4. The concave bottom 10 is machined coaxially to the axis 13 of the hopper and a gear 14 is put on it without a gap (Fig. 10). The gear wheel 14 is welded to the bottom 10 at three points. The welding points are evenly distributed around the circumference of the gear wheel 14. The welding area is located inside the gear wheel 14 and outside the bottom 10.

The implementation of the proposed technical solution is not limited to the above examples.

The order of use.

The component components of the concrete (or other) mixture are loaded into the hopper 2, an electric motor 15 is turned on, which transmits torque through a flexible, flat mechanical transmission to the drive gear 18 of the hopper, which transmits rotation through the gear wheel 14 to the mixer hopper 2. Mixing occurs with the help of the blades due to gravitational forces with the inclined position of the hopper.

The resulting mixture is unloaded from the hopper 2 by turning the steering wheel 8 in the unloading position. If it is necessary to unload the finished mixture from the hopper, the reverse rotation is turned on, providing a shift of the mixture towards the discharge side, which contributes to the spontaneous rotation of the hopper 2 and facilitates the process of unloading the mixture. From the rapid tipping of the hopper 2 protects the brake device, pre-configured for the necessary resistance to spontaneous tipping.

The mixer is equipped with an automatic device to maintain the mixture in working condition. When stirring is suspended, the mixture is prone to settling. To prevent this, the automatic engine starting device turns on the mixer for a time determined by the technological process - the mixing mode. This ensures the maintenance of the mixture in working condition and increases the efficiency of use of the mixer.

If the teeth of the gear wheel 14 of the hopper are damaged, it is replaced as follows.

Pre-cut the welding at the junction of the gear 14 with the bottom 10. In this case, any damage to the gear 14 is allowed, because it is disposed of. Additionally, the relatively large thickness of the bottom 10 allows you to not worry about possible damage to the surface of the bottom 10 in these places. Thus, this operation can be performed without having much experience in such work.

Due to the fact that welding of the gear 14 with the bottom 10 was carried out only at some points, the rest of the bottom 10 after removing the old gear 14 serves as a template for installing a new gear in place of the previous one. At the same time, the constant fastening of the axis of rotation of the hopper 13 to the bottom 10 contributes to this.

When connecting the gear 14 to the bottom 10 of Example 1, the contact plane of the flat bottom 10 and the new gear 14 is provided by that part of the flat bottom 10, on which there were no marks of welding with the used gear 14. In addition, the welding points of the new gear and the flat the bottoms may coincide with the weld points of the previous gear with a flat bottom, or be in other places.

When connecting the gear 14 to the bottom 10 according to examples 2-4, the alignment of the bottom 10 and the new gear 14 is provided by that part of the bottom on which there were no traces of welding with a used gear. In this case, the welding points of the new gear wheel and the bottom may coincide with the welding points of the previous gear wheel with the bottom, or be in other places.

Industrial applicability.

The claimed technical solution is implemented using industrially produced devices and materials, can be manufactured at any engineering company and will be widely used in the household and construction fields.

Claims (6)

1. A mixer comprising a frame on which a flip device is mounted, on which a hopper with internal blades is mounted for rotation, the mixer is equipped with a hopper rotation drive comprising a gear wheel rigidly fixed outside on the bottom of the hopper, characterized in that the axis of rotation of the hopper rigidly fixed to the bottom of the hopper, and the gear wheel is fragmentarily welded to the bottom in several places coaxially with the axis of rotation of the hopper. 2. The mixer according to claim 1, characterized in that the gear wheel is made in the form of a steel ring, on the outer surface of which the teeth are made, while the area of welding of the gear wheel and the bottom is inside the gear wheel and outside the bottom. 3. The mixer according to claim 1 or 2, characterized in that the bottom is flat, the gear wheel is adjacent to the outside of the bottom and welded to it at six points. 4. The mixer according to claim 1 or 2, characterized in that the bottom is convex, the gear has a groove on the inside, with which it is worn externally on the bottom, the outer edge of which is coaxial with the axis of the hopper, while the gear is welded to the bottom in three points. 5. The mixer according to claim 1 or 2, characterized in that the bottom has a groove on the outside that is coaxial with the axis of the hopper, onto which a gear is fitted without a gap, while the gear is welded to the bottom at three points. 6. The mixer according to claim 1 or 2, characterized in that the bottom is concave, machined coaxially to the axis of the hopper and a gear wheel is put on it without a gap, while the gear wheel is welded to the bottom at three points.

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