RU191210U1 - SCREW CONVEYOR - Google Patents

Abstract

The technical solution relates to screw rotating spiral conveyors for materials stored in bulk, as well as to their structural elements, and can be used to transport drill cuttings in a wide temperature range. The technical result to which the utility model is directed is to increase the reliability of the screw conveyor for transporting drill cuttings in a wide temperature range, by simplifying the design of heating elements, which reduces the formation of condensate and eliminates the formation of cavities for its accumulation. The technical result is achieved in a screw conveyor containing a housing in which a screw auger is installed, while in the lower part of the housing there is a tube heating grid that is insulated from the external environment by thermal insulation. 7 c.p. f-ly, 2 ill.

Description

The technical solution relates to screw rotating spiral conveyors for materials stored in bulk, as well as to their structural elements, and can be used to transport drill cuttings in a wide temperature range.

The screw conveyor according to the patent of the Russian Federation No. 184124 for a utility model (published October 16, 2018) for transporting drill cuttings in a wide temperature range is known from the prior art. A screw conveyor containing a housing made in the form of a chute closed by a lid, at the ends of which there are drive and non-drive bearing bearings, each of which consists of a housing and a spherical roller bearing, a quick-detachable screw screw made in the form of a shaft with a screw a feather, characterized in that on the lower outer part of the conveyor body a steam jacket is fixed, which is a rolled metal sheet and forming a cavity, which is rigidly divided into sections STI formed on the body; The stiffening ribs contain openings for free passage of steam between the said sections, each of the sections is equipped with an outlet pipe for condensate discharge, and the first section is additionally equipped with an inlet pipe for supplying steam.

The disadvantages of this screw conveyor are the complexity of the design and manufacture of heating elements, requiring a large number of welding operations and the formation of a large number of internal cavities in which condensate can form and accumulate, leading to accelerated wear of the structure and reduced reliability.

The technical result, which the utility model is aimed at, is to increase the reliability of the screw conveyor for transporting drill cuttings in a wide temperature range, by simplifying the design of heating elements, which reduces the formation of condensate and eliminates the formation of cavities for its accumulation.

The technical result is achieved in a screw conveyor containing a housing in which a screw auger is installed, while in the lower part of the housing there is a tube heating grid for supplying steam, which is insulated from the external environment by thermal insulation.

Preferably, the housing is in the form of a gutter with a lid.

Preferably, the insulation is in the form of a heat insulating layer.

It is preferable to perform a tube heating grid consisting of two pipes for supplying hot steam and a recirculation pipe laid in grooves of stiffeners along the entire length of the conveyor.

It is preferable to cover the insulating layer from the external environment with a galvanized sheet tightly adjacent to the insulating layer and rigidly attached to the gutter.

It is preferable to perform a screw conveyor with a tube sheet passing through the entire conveyor.

It is preferable to perform a tube sheet with an inlet pipe for supplying steam under the first section

Preferably, the heat insulating layer is in the form of a PPU shell or URSA material.

Figure 1 shows a General view of a screw conveyor.

Figure 2 shows a cross section of a screw conveyor.

1 - gutter, 2 - gutter cover, 3 - drive bearing support, 4 - non-drive bearing support, 5 - screw auger, 6 - heating tube for steam supply, 7 - heat insulating material (PPU shell or URSA material), 8 - sections auger conveyor, 9 - transverse stiffeners, 10 - galvanized sheet attached with screws to the groove, 11 - inlet pipe, 12 - steam supply pipe, 13 - recirculation pipe

The utility model is implemented in a screw conveyor containing a housing made of sections 8 in the form of a groove 1, covered with a cover 2, drive 3 and non-drive 4 bearing bearings are installed at the ends of the screw conveyor. In the groove of the screw conveyor 1, on the supports 3 and 4 there is a quick-detachable screw screw 5. made in the form of a shaft with a screw pen. On the lower surface of the chute 1, a heating tube for steam supply 6 is installed, consisting of two pipes 12 for supplying steam and a recirculation pipe 13, laid in grooves of the stiffeners 9 along the entire length of the chute 1. The heating pipes 12 and the recirculation pipe 13 are made with connecting jumpers. The tube sheet for supplying steam 6 passing under the chute 1 is insulated with a heat-insulating layer 7 (for example, a PPU shell or URSA material), the heat-insulating layer 7 is closed from the external environment by a galvanized sheet 10, tightly adjacent to the heat-insulating layer 7 and rigidly attached to the chute 1. From the side drive support 3, the housing 1 is equipped with an inlet pipe 11 for supplying steam. On the side of the non-driven bearing support 4, the housing 1 is equipped with an outlet pipe for discharging the cooled steam to the boiler equipment for subsequent heating.

Screw conveyor operates as follows

A steam line is connected to the inlet pipe 11 to ensure heating of the transported material and the electric motor is turned on, which ensures rotation of the screw screw 5. Next, a transportable drill cuttings are fed into the receiving hatch of the conveyor neck (not shown in the figures) located next to the drive support 3, while the screw auger 5 ensures its transportation to the discharge neck (not shown in the figures), and the supply of steam to the tube sheet for supplying steam 6 prevents the sludge from freezing at low temperatures rah. Moreover, on the outer surface of the tube sheet for supplying steam 6 there is a heat-insulating layer 7 closed from the external environment by a galvanized sheet 10, which provides thermal insulation of the tube sheet and prevents the formation of condensate in the internal cavities of the screw conveyor.

Thus, a technical result is achieved, and the screw conveyor has increased reliability due to the use of a tube sheet in its design, which simplifies the design of heating elements and eliminates the formation of cavities for condensate accumulation, while the use of thermal insulation reduces the formation of condensate on the elements of the screw conveyor .

Claims (8)

1. A screw conveyor comprising a housing in which a screw auger is installed, characterized in that in the lower part of the housing there is a tube heating grid for supplying steam, made with heat insulation from the external environment. 2. The screw conveyor according to claim 1, characterized in that the housing is made in the form of a groove with a cover. 3. The screw conveyor according to claim 1, characterized in that the thermal insulation is made in the form of a heat insulating layer. 4. The screw conveyor according to claim 1, characterized in that the heating pipe grate is made up of two pipes for supplying hot steam and a recirculation pipe laid in the grooves of the stiffeners along the entire length of the groove of the screw conveyor. 5. The screw conveyor according to claim 1, characterized in that the heat-insulating layer is closed from the external environment by a galvanized sheet tightly adjacent to the heat-insulating layer and rigidly attached to the gutter. 6. The screw conveyor according to claim 1, characterized in that the tube sheet is made of two heating pipes and a recirculation pipe connected by jumpers. 7. The screw conveyor according to claim 1, characterized in that the tube sheet under the first section is made with an inlet pipe. 8. The screw conveyor according to claim 1, characterized in that the insulating layer is made in the form of a PPU shell or URSA material.

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