RU211586U1 - SCREW CONVEYOR - Google Patents

Abstract

The utility model relates to hoisting and transport engineering, namely to screw conveyors for transporting bulk, plastic materials, such as drilling mud, drilling cuttings, alumina, and can be used in the oil and gas, mining industries and other sectors of the national economy.

SUBSTANCE: screw conveyor contains a housing that drives and supports bearing supports, a screw screw made in the form of a shaft with a screw feather and collapsible and installed in the drive and supporting bearing supports with the possibility of rotation, while the screw screw consists of a working section and two end sections, while the working section is made with the possibility of its location in the body and connection with two end sections outside the body, and each end section is made with the possibility of its location in the bearing support and connection with the working section, the ends of the working section are connected and fixed to the end section by means of a detachable connection , which is located outside the body and at a given distance from it. 2 ill.

Description

The utility model relates to hoisting and transport engineering, namely to screw conveyors for transporting bulk, plastic materials, such as drilling mud, drilling cuttings, alumina, and can be used in the oil and gas, mining industries and other sectors of the national economy.

Known Screw conveyor, consisting of a housing, bearings, screw auger, made collapsible and mounted on bearings (RF patent No. 55006, E21B 10/44; E21B 3/00, op. 27.07.2006).

The disadvantage of this technical solution is the difficulty of replacing a fast-wearing screw screw associated with a large amount of work to clean the detachable part of the screw screw to replace it and remove it, including from intermediate supports.

The closest to the claimed technical solution is a screw conveyor containing a housing that drives and supports bearings, a screw screw made collapsible and installed in the drive and supporting bearings with the possibility of rotation (RF patent No. 2274595, B65G 33/14, op. 20.04. 2006, prototype).

The disadvantage of this technical solution is that the integral part of the screw auger is inside the housing in direct contact with the transported material, and it is difficult to replace the fast-wearing screw of the auger, which is associated with a large amount of work, including cleaning the detachable part of the screw to replace it.

The task to be solved by the claimed utility model is to increase the reliability of operation.

The technical result consists in eliminating the contamination of the detachable connection by sticking the transported material, for example, drill cuttings, on the elements of the detachable connection, for example, a bolt with a nut, ensuring that there is no need to clean the connection of two sections of the screw auger from the transported material, which makes it possible to simplify the process of replacing the working section of the screw auger located in the housing, and, accordingly, reduce the time for its replacement, and / or simplify the process of replacing the end sections of the screw auger in the drive and supporting bearings, and reduce the time to replace the drive and supporting bearings, and also simplify the process replacement of units and parts of bearing supports, which in turn increases the reliability of the claimed design.

The stated technical result is achieved by the fact that the screw conveyor contains a housing that drives and supports bearings, a screw auger made in the form of a shaft with a screw pen and collapsible and installed in the drive and supporting bearings with the possibility of rotation, the screw auger consists of a working section and two end sections, while the working section is configured to be located in the housing and connected to two end sections outside the housing, and each end section is configured to be located in the bearing support and connected to the working section, the ends of the working section are connected and fixed with an end section by means of a detachable connection, which are located outside the body and at a given distance from it.

In FIG. 1 shows a general view of the screw conveyor in section; figure 2 shows a detachable connection screw conveyor in section.

Screw conveyor consists of housing 1, driving 2 and supporting 3 bearing supports, screw auger.

The housing 1 is made with the possibility of placing in it the working section 4 of the screw screw, for example, in the form of a chute.

The screw auger is made in the form of a shaft with a screw pen and a collapsible one, consisting of a working section 4 and two end sections 5 and 6.

The working section 4 of the screw auger is made monolithic or collapsible, including at least two sections connected and fixed to each other.

The working section 4 is made with the possibility of its location inside the body 1 and with the possibility of its connection with two end sections 5 and 6, while the ends of the working section 4 are made without a screw pen in the form of a shaft, connected and fixed fixedly with the corresponding end section 5 (6) at a given distance from the housing 1, and the section of the working section 4, located in the housing 1, is made in the form of a shaft with a screw pen.

Each end section 5 or 6 is made, for example, in the form of a shaft, with the possibility of being located in the bearing support 2 or 3, and each end section 5 or 6 is installed in the drive 2 or supporting 3 bearing supports with the possibility of rotation, for example, the end section 5 is installed in drive bearing support 2;

the end section 6 is installed in the supporting bearing support 3.

The working section 4 is connected and fixed at its two ends with two end sections 5 and 6 by means of a detachable connection 7 and 8, each of which is located outside the body 1 and at a given distance from it, for example,

the end section 5 is installed in the drive bearing support 2 with the possibility of rotation and is connected and fixed with one end of the working section 4 by means of a detachable connection 7, which is located at a given distance from the housing 1 and is placed between the housing 1 and the drive bearing support 2, ensuring contact elimination detachable connection 7 with the transported material;

the end section 6 is installed in the supporting bearing support 3 with the possibility of rotation and connected to the other opposite end of the working section 4 by means of a detachable connection 8, which is located at a given distance from the housing 1 and is placed between the housing 1 and the supporting bearing support 3, ensuring the elimination of the contact of the detachable connection 8 with the transported material.

Detachable connection 7 or 8 is a connection through, for example, fasteners in the form of bolts and studs.

Plug connection 7 or 8 is, for example,

- detachable connection, in which the end 5 (6) and working sections 4 of the screw auger are equipped with mating flanges, which are connected and fixed by means of fasteners, for example, bolts with nuts, studs with nuts, while each flange of the detachable connection 7 (8) fixed to the respective section, namely the end section 5, the end section 6 and the work section 4 by means of, for example, welding, or each flange of the respective section, namely the end section 5, the end section 6 and the work section 4 is a monolithic structure together with the corresponding section;

- detachable connection, in which the ends of the shafts of the end 5 (6) and working 4 sections enter into each other in the axial direction, for example,

the end of the shaft of the end section 5 enters the end hole located on the end of the shaft of the working section 4 or vice versa in the axial direction: the end of the shaft of the working section 4 enters the end hole located on the end of the shaft of the end section 5,

are connected and fixed to each other by means of fasteners or an element, for example, a bolt with a nut, a stud with a nut, a pin, placed in through holes made at the ends of the shafts of the end 5 (6) and working 4 sections;

- detachable connection, in which the ends of the shafts of the end 5 (6) and working 4 sections are equipped with a half-coupling with holes, while both half-couplings are connected and fixed to each other by means of fasteners, for example, bolts with nuts, studs with nuts, while each half-coupling fixed at the ends of the shafts end 5 (6) and working 4 sections by, for example, welding.

The drive bearing support 2 is a support with a bearing, for example, a rolling bearing, installed in a support housing provided with covers, having paws for the possibility of fixing it to the frame or conveyor housing.

The supporting bearing support 3 is a support with a bearing, for example, a rolling bearing, installed in a support housing provided with covers, having paws for the possibility of fixing it to the frame or conveyor housing. One of the housing covers is deaf.

The drive bearing support 2 is equipped with a drive that ensures the rotation of the screw auger, and the supporting bearing support 3 allows the screw auger to rotate.

The body 1 is additionally provided with a lid or a lid with a funnel, for example, the body 1 is made in the form of a trough provided with a lid; body 1 is made in the form of a trough provided with a lid with a funnel.

The screw conveyor is additionally equipped with a specified number of intermediate supports located in the housing 1, for example,

the screw conveyor contains supports: drive 2 and supporting 3 bearing supports and ten intermediate supports, which are located in the housing 1;

the screw conveyor contains supports: drive 2 and supporting 3 bearing supports and five intermediate supports, which are located in the housing 1.

The transported material is, for example, drill cuttings, clay, sand, starch, grain, other bulk materials.

Screw conveyor works as follows.

The screw conveyor is placed horizontally to the surface on which it is installed, or at an inclination, for example, 20°.

The drive is switched on and the screw auger is driven by rotation of the screw auger shaft, which includes one working section 4 and two end sections 5 and 6. The working section 4 is connected and fixed from two opposite ends with the end sections 5 and 6 by means of a detachable connection 7 and 8, which are located outside the building 1.

The transported material is fed into the housing 1 by known methods, for example, by means of a funnel, directly into the housing 1.

When the screw screw 4 rotates, the transported material is moved by means of the working section 4 from the loading place, for example, from the funnel, to the unloading place, for example, to the outlet pipe or hole.

Since each end section 5 and 6 is connected to the working section 4 by means of a detachable connection 7 and 8, which are located outside the body 1, and the transported material does not go beyond the boundaries of the body 1, then, accordingly, it does not fall and does not stick to the detachable connections 7 and 8 in view of their location outside the housing 1 and at a given distance from the housing 1, providing protection for the detachable connection 7 and 8 in the form of preventing contamination from entering it, as well as protecting the bearings in supports 2 and 3, the drive from contamination in the form of transported material.

Example.

An auger conveyor with a body length of 14.5 m is placed horizontally to the ground. The screw auger consists of one working section 4 with a length of 14.82 m and two end sections 5 and 6.

Each end section 5 (6) by means of a detachable connection 7 (8) located outside the body 1 and at a given distance from it, is connected to the end sections of the working section 4 protruding beyond the body 1 from two opposite sides at a given distance equal to 0.26 m.

A detachable connection 7, which is a flange connection with eight fasteners in the form of bolts and nuts, connects and fixes the end section 5 with the end section of the working section 4 on one side of the body 1, and a detachable connection 8, which is a flange connection with eight fasteners in the form of bolts with nuts, connect and fix the end section 6 with the opposite end section of the working section 4 on the other opposite side of the body 1.

The drive is turned on and the screw auger is set in rotation, consisting of one working section 4 and two end sections 5 and 6. The end sections 5 and 6 are installed in the drive 2 and supporting 3 bearings, equipped with roller bearings, which ensure the rotation of the screw auger.

The transported material in the form of drill cuttings is fed directly into the body 1.

Rotating, the screw auger through the working section 4 with a length of 14.82 m moves the drill cuttings from the loading place to the unloading point, which is located inside the housing 1, in the process of moving the drilling cuttings does not go beyond the boundaries of the housing 1 and does not enter the detachable connections 7 and 8, located outside the housing 1.

In the process of moving, the drill cuttings did not stick to the detachable connections 7 and 8 with eight bolts and nuts placed between the body 1 and the corresponding bearing support 2 and 3 and at a given distance from the body 1, which ensures that the detachable connections 7 and 8 do not come into contact with the drill cuttings.

Thus, the proposed device eliminates contamination in the form of sticking of the transported material on the detachable connections of the screw auger, including fasteners, for example, bolts, ensuring that there is no need to clean the detachable connection of the screw auger from the transported material, making it possible to simplify the replacement process and, accordingly, reduce time to replace, for example, the working section of the screw auger, the end section or end sections of the screw auger, bearing assemblies and parts, which in turn increases the reliability of the claimed design.

Claims (3)

Screw conveyor, containing a housing, driving and supporting bearings, a screw screw, made in the form of a shaft with a screw pen and collapsible and installed in the driving and supporting bearings with the possibility of rotation, characterized in that the screw auger consists of a working section and two end sections, while the working section is made with the possibility of its location in the housing and connection with two end sections outside the housing, and each end section is made with the possibility of its location in the bearing support and connection with the working section, the ends of the working section are connected and fixed to the end section by means of a detachable connection, which are located outside the body and at a predetermined distance from it.

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