RU149618U1 - GROUND BATTERY STORAGE - Google Patents

Abstract

Ground bitumen storage containing a bitumen storage tank with heaters on its bottom and under the hood peaks, sampling pipes and a bitumen pump, a metal shell of a spherical or truncated pyramidal shape with external peaks and sampling holes in the lower part, a central hole, a through pipe and heat-resistant plates with very a small coefficient of thermal conductivity in the upper one, characterized in that the upper end of the passage pipe is located above the maximum filling level of the storage with bitumen, the pipe along the entire length e has inside an additional heating element with a low surface power, the lower end of which is located below the Central hole of the casing.

Description

The utility model relates to the field of road construction, in particular to the storage and heating of bitumen.

Bitumen storage is carried out in underground or surface bitumen storages.

Known above-ground bitumen storage containing heating elements, two intake pipes and a bitumen pump (Patent RU No. 2198256 E01C 19/08, C10C 3/12 Publ. 10.02.2003 Bull. No. 4). Heating and sampling of bitumen is carried out in a spherical or truncated-pyramidal metal casing mounted on the bottom of the ground bitumen storage.

The closest technical solution is the ground bitumen storage (Patent RU No. 134943 E01C 19/08, C10C 3/12 Pub. November 27, 2013 Bull. No. 33), containing the capacity of the bitumen storage with heaters on its bottom and under the hoods of the casing, intake pipes and a bitumen pump , a metal casing of a spherical or truncated-pyramidal shape with intake holes and visors in the lower part, a central hole and a through pipe equipped with a shut-off valve and heat-resistant plates with a very low coefficient of thermal conductivity, in the upper one.

The disadvantage of this heating and sampling of bitumen from the ground bitumen storage is the destruction of the casing in the region of the central hole during the initial heating of bitumen due to jamming of the shut-off valve and the action of pressure forces during thermal expansion of bitumen under the casing.

The objective of the utility model is to increase the operability of the surface bitumen storage, especially in the initial (spring) period of operation, by eliminating the shut-off valve and making it possible for bitumen to exit from under the casing during thermal expansion by installing a heating element in the passage pipe.

The essence of the utility model is that the surface bitumen storage contains the capacity of the bitumen storage with heaters on its bottom and under the visors of the casing, intake pipes and a bitumen pump, a metal casing of a spherical or truncated pyramidal shape with external visors and intake holes in the lower part, a central hole , a passage pipe and heat-resistant plates with a very low coefficient of thermal conductivity in the upper, and the upper end of the passage pipe is located above the maximum storage level searching bitumen, over the entire length inside the tube has an additional heating element with low power surface, the lower end of which is located below the central housing openings.

The technical result is to increase the efficiency of the ground bitumen storage.

This task is achieved by eliminating the shutoff valve and providing the possibility of bitumen coming out from under the casing during thermal expansion, by arranging a heating element in the passage pipe. At the same time, to exclude the possibility of bitumen ignition when the heating element is exposed, the heating element has a small surface power, and the pipe through which the bitumen enters the storehouse has a height that does not exceed the marks on the roof of the storehouse.

Such a constructive solution will ensure the heating of bitumen over the central opening of the casing in the passage pipe and its free exit from under the casing during thermal expansion during heating without destroying the integrity of the structural elements of the casing.

The essence of the utility model is illustrated in the drawing, which shows a vertical section of a surface bitumen storage with a casing and a pipe through.

Bitumen storage contains storage capacity 1 with heaters 2 installed on the bottom, an additional heating element 3 of low surface power, two intake pipes: with an upper 4 and lower (bottom) 5 fence, the outlets of which are connected through a three-way valve 6 to a pumping bitumen pump 7, a casing 8 spherical or truncated pyramidal shape with peaks 9 and intake holes 10 for filling it in the lower part and in the upper part: heat-resistant plates 11 having a low coefficient of thermal conductivity, a central hole 12 and a pipe 13, exceeding the maximum level of bitumen 14 in the storage.

The utility model works as follows.

When filling the storage tank 1, bitumen through the intake holes 10 enters under the casing 8, filling the space under it and displacing the air through the central hole 12 and the pipe 13. If necessary, the heated bitumen is taken from the bitumen storage, an additional heater 3 is turned on to warm up the space inside the pipe through passage 13 8. After that, the heaters 2 are turned on under the casing 8 and the visors 9. The heated bitumen under the casing 8 rises due to free convection and is concentrated in the upper part of the casing 8, surplus Itum formed as a result of thermal expansion during the heating under the cover 8 may freely enter the surface of the bitumen in the storage 1 via the passage tube 13 to the surface of the bitumen in the storage 1.

When sampling the heated bitumen, the bitumen pump 7 is turned on and through the three-way valve 6 and the intake pipe 4, bitumen is taken from the upper part of the volume bounded by the casing 8. In this case, the withdrawn mass of heated bitumen is compensated by the arrival of bitumen heated under the peaks 9 through the intake holes 10 into the lower part under the casing 8. In this case, the volume of heated bitumen under the casing 8 should be larger than the taken volume of the heated bitumen. If the requirements of the technical conditions are violated and the performance of the bitumen pump 7 is high, and the volume of incoming heated bitumen through the holes 10 under the casing 8 is less than the volume of the heated bitumen being taken, then the bitumen will also be taken from the passage pipe 13, which will prevent vacuum from forming under the casing 8 and ensure it constructive integrity. After pumping out the required volume of heated bitumen, the heating and further collection cycle is repeated.

An exception to the design of the shut-off valve and the device in the passage pipe 13 of the casing 8 of an additional heating element 3 ensures the integrity of the casing 8 during the initial heating of bitumen under the casing 8 and an increase in bitumen in volume due to thermal expansion due to the free exit of the heated bitumen to the surface of the bitumen in storage 1.

In addition, when pumping bitumen from under the casing 8, the proposed design solution prevents the formation of vacuum under the casing 8 and ensures its integrity.

The execution of the additional heating element 3 with a low surface power does not lead to the ignition of bitumen on the exposed surfaces of the heater when emptying the storage.

Claims (1)

Ground bitumen storage containing a bitumen storage tank with heaters on its bottom and under the hood peaks, sampling pipes and a bitumen pump, a metal shell of a spherical or truncated pyramidal shape with external peaks and sampling holes in the lower part, a central hole, a through pipe and heat-resistant plates with very a small coefficient of thermal conductivity in the upper one, characterized in that the upper end of the passage pipe is located above the maximum filling level of the storage with bitumen, the pipe along the entire length e has inside an additional heating element with a low surface power, the lower end of which is located below the Central hole of the casing.

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