RU155822U1 - UNIVERSAL DEVICE FOR TAKING SAMPLES OF LIQUID PRODUCTS FROM THE RESERVOIR - Google Patents

Abstract

1. The device for sampling liquid products from the tank is universal, containing the pump of the pumped product, the sampling pipe in the tank, pivotally mounted at the bottom of the tank, characterized in that the sampling pipe is removed outside the tank, movably connected to the pump of the pumped product and movably fixed to the power cylinder at least one of the cavities of which is connected to the pump of the product being pumped. 2. A device for sampling liquid products from a tank is universal according to claim 1, characterized in that the sampling pipe is movably fixed to the power cylinder through an element defining the trajectory of the power cylinder. 3. A device for sampling liquid products from a tank is universal according to claim 1, characterized in that a membrane is installed on the connection of at least one of the cavities of the power cylinder with the pump of the pumped product. A device for sampling liquid products from a tank is universal according to claim 1, characterized in that the device has a scale for assessing the movement of the sampling pipe relative to the fixed part of the hinge mount at the bottom of the tank. 5. A device for sampling liquid products from a tank is universal according to claim 1, characterized in that the power cylinder has a scale for assessing the movement of one part of the power cylinder relative to another. The device for sampling liquid products from a tank is universal according to claim 1, characterized in that a float is fixed on the sampling pipe in the tank. 7. A device for sampling liquid products from a tank is universal according to claim 1, characterized in that

Description

The proposed utility model relates to equipment for enterprises of the oil, oil refining and petrochemical industries and is intended for sampling the product from various levels along the height of the tank.

Known devices for sampling (stationary samplers) for taking a representative representative sample of a product from a certain level of the reservoir and the combined sample (patent No. 566614, IPC G01N 1/10, published on 09/10/2006). Known stationary samplers are widely used to assess the water cut of a product in reservoirs of produced oil, various sedimentation tanks of stratified products, etc. Structurally, such metal-consuming devices. They are carried out by introducing stationary pipes into the tank, the open end of which ends at the level of a layer whose composition is interesting, the combined sample is obtained by mixing point samples in a collector or sampler. The known device, however, does not allow to obtain an accurate sample from any level along the height of the tank, since the number of sampling levels is limited by the number of pipes introduced into the tank. The combined sample is additionally prepared from point samples and has a low representativeness, that is, an error in composition compared to the product in the tank due to the finite number of sampling levels.

The well-known "Universal device for sampling liquid products from a container" (patent No. 2390747, IPC G01N 1/10, publ. 05.27.2010), containing a container, drain valve, vertical pipe, characterized in that the pipe is rotatable 360 ° and is equipped with holes for sampling averaged and point samples located along the height and circumference of the pipe, which, when the pipe is rotated by a predetermined angle, are combined with the holes of all sliding bearings located at the sampling points for sampling the averaged sample, or with holes of one of plain bearings for spot sampling. This invention allows to obtain samples of liquid products at different levels and an averaged sample. The disadvantages of this device are the large number of movable sliding bearings inside the tank, which must remain airtight, difficult installation of the device, associated with the difficulty of ensuring alignment of the bearings with respect to the rotating pipe along the height of the tank, the presence of a combined sample of air in the pipe, which prevents uniform filling of the pipe product from all levels (i.e. sample error), as well as low representativeness, due to the finite number of levels of sampling.

The closest to the claimed invention by technical essence is a “Sampler for a tank with oil products”, containing at least one sampling pipe mounted on the intake end of a drain pipe made of articulated sections, and its intake end is mounted on one of the branches of a closed cable into an endless vertical loop, passed through the block at the top, and below through the drive drum of a winch mounted outside the tank (patent No. 44788, IPC F16T 1/00, published on 03/27/2005). The design of this sampler is aimed at solving the problem of determining the fractional composition of the oil product separately at any level along the height of the tank with the possibility of draining the desired fraction. This sampler allows you to get a combined sample by a large number of additional sequential operations associated with moving the drain pipe along the cable along the height of the tank using a winch, pumping a sampling pipe, obtaining a point sample and mixing it into a combined sample. The complexity of obtaining the combined sample is significant, which worsens the working conditions of the staff, for example, in bad weather conditions. The diversity of the design along the height of the tank (the block at the top of the tank and the winch drum at the bottom of the tank) further complicates the design of the device and reduces the reliability of the entire tank. For example, during wall deformations associated with a change in the level of product breakdown or tank sediment, the cable may sag or break.

The objective underlying this utility model is the creation of a device for sampling liquid products from a universal tank, providing both a combined sample of maximum representativeness in one go and a point sample from any level along the height of the tank.

The technical result that can be obtained using the inventive utility model is to ensure the greatest representativeness in the sample of the product stored in the tank from all heights and reduce the complexity of obtaining a combined sample.

The task underlying the present utility model, with the achievement of the claimed technical result, is solved by the fact that the proposed device for sampling liquid products from the tank universal, containing a pump of the pumped product, a sampling pipe in the tank, mounted pivotally at the bottom of the tank. What is new is that the sampling pipe is removed outside the tank, movably connected to the pump of the product being pumped, and movably fixed to the power cylinder, at least one of the cavities of which is connected to the pump of the product being pumped; the sampling pipe is movably fixed to the power cylinder through an element defining the trajectory of the power cylinder; a membrane is mounted on the connection of at least one of the cavities of the power cylinder with the pump of the pumped product; the device has a scale for assessing the movement of the sampling pipe relative to the fixed part of the hinge at the bottom of the tank; the power cylinder has a scale for assessing the movement of one part of the power cylinder relative to another; a float is fixed on the sampling pipe in the tank; the end of the sampling pipe in the tank is removed from the plane of movement of the sampling pipe along the height of the tank.

Preferred embodiments of the proposed technical solution are described below based on the drawings, where:

- in FIG. 1 shows a general view of a device for sampling liquid products from a universal tank;

- in FIG. 2 shows a section through a sampling pipe with a mount for a sampling pipe and a reservoir and a mount for a power cylinder and a sampling pipe.

In graphic materials, the corresponding structural elements of the device for sampling liquid products from the tank are indicated by the following positions:

1 - sampling pipe;

2 - pumped product;

3 - power cylinder;

4 - reservoir;

5 - mount the sampling pipe and reservoir;

6 - fastening of the power cylinder and sampling pipe;

7 - fastening of the power cylinder and reservoir;

8 - connection of the sampling pipe and the pump of the pumped product;

9 - pulse line of communication of the power cylinder and the pump of the pumped product;

10 - valves returning the product to the tank and draining the sample;

11 - a float;

12 - tube drain sample;

13 - tube line return product to the tank;

14 - membrane;

15 - fittings connecting the pump of the pumped product and the power cylinder;

16 - a scale for assessing the position of one part of the power cylinder relative to another;

17 - a scale for assessing the movement of the sampling pipe relative to the fixed part of the hinge;

18 - element that defines the trajectory of the power cylinder.

A universal device for sampling liquid products from a tank contains a sampling pipe 1 fixed by means of a fastening 5 on the tank 4. The sampling pipe 1 is a column movable relative to the fastening 5 and is able to move so that the free end of the sampling pipe 1 changes its position along the height of the tank 4 The mount 5 provides a hermetic outlet of the sampling pipe 1 from the tank 4. Outside of the tank 4 on the sampling pipe 1 by means of the mount 6 is movably fixed the bottom of the parts of the master cylinder 3, and the sampling pipe 1 is connected to the pump of the product being pumped 2 by a connection 8. The other part of the master cylinder 3 is movably fixed to the tank 4 by means of a fastening 7. At least one of the cavities of the master cylinder 3 is connected to the pump of the pumped product 2 using the impulse line 9. On the impulse line 9, an optionally converting pressure to move the movable membrane 14 is installed in order to prevent product from entering the cavity of the power cylinder 3 from the tank 4, for example, BCCH corrosion-active material with respect to the actuator 3, is prone to coking on the surface or prone to crystallization or increased viscosity at lower temperatures. An armature 15 is installed on the impulse line 9 to enable the movement of one part of the power cylinder 3 relative to another or to limit such movement. The pump of the product being pumped 2 is connected by a pipe of a line 12 and a valve 10 with a sample container (not shown). The pump of the product being pumped 2 is connected through a valve 10 and a pipe of the line 13 to the tank 4. Optionally, the scale 16 allows you to evaluate the position of one part of the power cylinder 3 relative to the other, that is, to determine the position of the free end of the sampling pipe 1 by the height of the tank 4. Optionally, the scale 17 is calibrated in units the height of the tank 4 allows you to evaluate the position of the free end of the sampling pipe 1 in the tank 4 in height by the angular position of the end of the sampling pipe 1 removed from the tank 4. Optionally, a float 11 is installed at the free end of the sampling pipe 1.

The device for sampling liquid products from the tank universal works as follows.

If it is necessary to obtain a point sample during operation, the pump of the pumped product 2 creates overpressure in one of the cavities of the power cylinder 3 through the impulse line 9, the parts of the power cylinder 3 are moved relative to each other, the part of the power cylinder 3 mounted on the pipe 1 by means of the fastening 6 moves the sampling pipe 1 relative to the mount 5. The free end of the sampling pipe 1 in the tank 4 changes its position along the height of the tank 4. For example, on a scale of 16 the position of the free ontsa sampling nozzle 1 adjustment tank 4. The sampling tube 1 reaches the height of the tank 4 in which the product properties are required to investigate. Armature 15 is overlapped. The movement of the parts of the power cylinder 3 relative to each other stops and the position of the free end of the sampling pipe 1 is fixed along the height of the tank 4 at the required level. When the valve body of the valve 10 is returned to the tank 4, the product is returned to the tank 4 through the pipe 13, in the column of the sampling pipe 1 the product is replaced with a new product from the level at which the free end of the sampling pipe 1 is located. After replacement, switch the valve 10 to drain samples the pump of the product being pumped 2 pumps the spot sample into the sample tank.

If it is necessary to obtain a combined sample during operation, the pump of the pumped product 2 creates overpressure in one of the cavities of the power cylinder 3 through the impulse line 9, the parts of the power cylinder 3 are moved relative to each other, the part of the power cylinder 3 mounted on the sampling pipe 1 by means of the fastening 6 moves the sampling pipe 1 relative to the mount 5. The free end of the sampling pipe 1 changes its position along the height of the tank 4. For example, on a scale of 16 is controlled by the position of the freedoms th end of the sampling nozzle 1 adjustment tank 4. The sampling tube 1 reaches, for example, the lower limit level adjustment tank 4 in which the product properties required to explore. The shutoff valve of the valve 15 is open so that a specific value of the product volume entering the power cylinder 3 for a certain product volume passing, for example, per cycle through the pump of the pumped product 2, corresponds to a certain sample volume per unit of movement of the sampling pipe 1 along the height of the tank 4. The product passes into the tank 4 through 10 and 13 and simultaneously enters one of the cavities of the power cylinder 3. The free end of the sampling pipe 1 continues to move along the height of the tank 4. The volume of new of the product taken from each meter, the height of the tank 4 will be the same, due to a change in the speed of movement of the sampling pipe 1 along the height of the tank 4 due to the use of an element 18 that defines the trajectory of the power cylinder 3 when moving the sampling pipe 1. Such an element may be, for example, a slot mount the axis of the master cylinder 3 on the sampling pipe 1. At a certain height, after the column of the sampling pipe 1 is freed from the old product, the valve 10 switches to sample. In this case, the pump of the product being pumped 2 pumps the combined sample into the sample container for one movement of the sampling pipe 1 along the height of the tank. At the end of the movement of the sampling pipe 1 along the height of the tank, for example, until reaching the upper point of sampling, the valve 15 is closed. The master cylinder 3 stops moving the sampling pipe 1. The remains of the combined sample from the column of the sampling pipe 1 are pumped into the sample container before the product enters the sample container from the lower point of the position of the sampling pipe 1 in the tank, which should not enter the sample. The valve 10 is placed in the position to return the product from the sampling pipe 1 to the tank 4.

The use of the float 11 allows you to reduce the force on the power cylinder 3, to monitor the current level of product infiltration in the tank 4 with the valves 15 open and the position of the valves 10 to return to the tank 4 during storage and other operations not related to sampling.

The end of the sampling pipe 1 in the tank 4 is removed from the plane of movement of the sampling pipe 1 along the height of the tank 4 in order to exclude the influence of product mixing at the sampling site during the sequential receipt, for example, of a combined and private sample.

Thus, the design of a device for sampling liquid products from a universal tank allows you to get both a combined sample of the greatest representativeness with the minimum complexity of this operation in one go, and a point sample from any level along the height of the tank.

Claims (7)

1. The device for sampling liquid products from the tank is universal, containing a pump of the pumped product, a sampling pipe in the tank, pivotally mounted at the bottom of the tank, characterized in that the sampling pipe is removed outside the tank, movably connected to the pump of the pumped product and movably fixed to the power cylinder at least one of the cavities of which is connected to the pump of the pumped product. 2. The device for sampling liquid products from the tank is universal according to claim 1, characterized in that the sampling pipe is movably fixed to the power cylinder through an element defining the trajectory of the power cylinder. 3. The device for sampling liquid products from the tank is universal according to claim 1, characterized in that a membrane is installed on the connection of at least one of the cavities of the power cylinder with the pump of the pumped product. 4. The device for sampling liquid products from the tank is universal according to claim 1, characterized in that the device has a scale for assessing the movement of the sampling pipe relative to the fixed part of the hinge mount at the bottom of the tank. 5. The device for sampling liquid products from the tank is universal according to claim 1, characterized in that the power cylinder has a scale for assessing the movement of one part of the power cylinder relative to the other. 6. The device for sampling liquid products from the tank is universal according to claim 1, characterized in that a float is fixed on the sampling pipe in the tank. 7. The device for sampling liquid products from a tank is universal according to claim 1, characterized in that the end of the sampling pipe in the tank is brought out of the plane of movement of the sampling pipe along the height of the tank.

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