RU207822U1 - Device for measuring the thickness of deposits in a pipe - Google Patents

Abstract

The utility model relates to devices for servicing sewerage networks and can be mainly used to measure the thickness of sediments in gravity pipelines. The essence of the utility model lies in the fact that in a device for measuring the thickness of deposits in a pipe, including a measuring unit located inside the pipe, configured to measure the thickness of deposits in the bottom of the pipe, as well as means for its longitudinal movement, including a support frame connected to each other and the pusher, providing longitudinal movement of the support frame in the pipe, according to the utility model, the pusher is made in the form of a rod - holder, the support frame has the shape of a rhombus and includes links that form its lateral sides, connected with the possibility of changing their mutual angular position to ensure a decrease in the linear size of the first and correspondingly increase in the linear size of the second of the two mutually perpendicular diagonals of the support frame under the action of the force created by the rod-holder, the rod-holder is oriented along the first diagonal of the support frame and is connected to the support frame while maintaining their mechanical connection when changing the mutual the angular position of the links of the support frame, the measuring unit is installed inside the support frame to ensure that the thickness of deposits is measured in the direction normal to its longitudinal plane, while on two opposite end sections of the support frame located along its second diagonal, support rollers are installed, intended for contact with the inner side surface of the pipe during the longitudinal movement of the support frame in the pipe. The technical result of the claimed utility model is the ability to determine the thickness of deposits in the pipe while ensuring the simplicity of the device design. 3 C.p. f-ly, 1 dwg

Description

The utility model relates to devices for servicing sewerage networks and can be mainly used to measure the thickness of sediments in gravity pipelines.

Known devices are designed to measure the thickness of deposits in a pipe using measuring units located outside the pipe, containing measuring means, the operation of which is based on the dependence of a particular physical parameter on the thickness of deposits inside the pipe.

For example, a device for measuring the thickness of deposits on the inner surface of a pipe is known, as described in [RU2344338]. This device includes an annular heater installed on the outer surface of the pipe, as well as heat sensors located along the pipe, which are used to measure the temperature gradient on its surface, which is used to judge the size of deposits.

There is a known device for measuring deposits in a pipe, described in [RU2098754], which includes a source of ultrasonic vibrations and a receiver of ultrasonic vibrations located on diametrically opposite sections of the outer surface of the pipe. The intensity and amplitude of the vibrations passed through the pipe are measured in the absence of deposits and in the presence of deposits, and on the basis of the measurements carried out using calculation formulas, the thickness of the deposits in the pipe is determined.

However, the devices under consideration, due to the need to locate the measuring means outside the pipe, have a limited area of use. In particular, such devices cannot be used in underground water supply and sewerage networks.

Known device for measuring the thickness of deposits in the pipe [CN211234328], which is selected as the closest analogue.

This device contains a measuring unit located inside the pipe, configured to measure the thickness of deposits in the bottom of the pipe, and means for moving it along the longitudinal axis of the pipe. The specified means of movement contains a motor mounted on a massive base and a gear-screw mechanism driven by it, the screw (worm) of which is connected to the support frame and performs the function of a pusher, providing longitudinal movement of the support frame in the pipe during the longitudinal movement of the said screw. A measuring unit is installed on the support frame, which is used as an ultrasonic rangefinder, as well as a vertically oriented rod probe, equipped with a sliding plate freely installed on it, located on the surface of the deposits.

Using an ultrasonic rangefinder, the distance to the sliding plate is determined and, based on the measurements, the thickness of the deposits is determined. In this case, these measurements can be carried out at several points along the longitudinal axis of the pipe.

This device is located inside a pipe and can be used to measure the thickness of deposits both in above-ground pipelines and in pipelines located in the ground.

However, this device is complex in design.

The technical problem to be solved when using the utility model is the ability to determine the thickness of deposits in the pipe while ensuring the simplicity of the device design.

The essence of the utility model lies in the fact that in a device for measuring the thickness of deposits in a pipe, including a measuring unit located inside the pipe, configured to measure the thickness of deposits in the bottom of the pipe, as well as means for its longitudinal movement, including a support frame connected to each other and the pusher, providing longitudinal movement of the support frame in the pipe, according to the utility model, the pusher is made in the form of a rod - holder, the support frame has the shape of a rhombus and includes links that form its lateral sides, connected with the possibility of changing their mutual angular position to ensure a decrease in the linear size of the first and correspondingly increase in the linear size of the second of the two mutually perpendicular diagonals of the support frame under the action of the force created by the rod-holder, the rod-holder is oriented along the first diagonal of the support frame and is connected to the support frame while maintaining their mechanical connection when changing the mutual the angular position of the links of the support frame, the measuring unit is installed inside the support frame to ensure that the thickness of deposits is measured in the direction normal to its longitudinal plane, while on two opposite end sections of the support frame located along its second diagonal, support rollers are installed, intended for contact with the inner side surface of the pipe during the longitudinal movement of the support frame in the pipe.

In a particular case of the implementation of the utility model, the measuring unit includes an adapter that makes it possible to transmit data on the thickness of deposits over a wireless network.

In the particular case of the utility model, the support frame contains a level gauge designed to indicate its position relative to the horizontal plane.

In the particular case of the utility model, the rod-holder contains a threaded rod mechanically connected to the end section of the support frame located along the first diagonal, providing a screw connection of the threaded rod and the specified end section.

The claimed device, due to the placement of all its structural units inside the pipe, can be used to measure the thickness of deposits, both in ground pipelines and in pipelines located in the ground.

In the claimed device, by placing the measuring unit inside the support frame to ensure that the thickness of the deposits is measured in a direction normal to its longitudinal plane, it is possible to measure the thickness of the deposits located in the specified part of the pipe in the direction normal to the longitudinal plane of the pipe.

Due to the fact that the support frame is made with the possibility of transforming its diagonal dimensions under the action of the force created by the rod-holder, the support frame is set in a position in which its opposite end sections, equipped with rollers, abut against the opposite sections of the lateral inner surface of the pipe. This makes the device adaptable to pipes with different diameters.

With the longitudinal movement of the rod-holder with the help of rollers, the support frame is slid along the inner lateral surface of the pipe and installed in a working position over one or sequentially over several sections selected for measuring the thickness of deposits.

That is, with the help of simple constructive means, the operator controls the claimed device and measures the thickness of deposits in pipes of various diameters in selected areas located along the longitudinal axis of the pipe.

Thus, the technical result of the claimed utility model is the ability to determine the thickness of deposits in the pipe while ensuring the simplicity of the device design.

The links of the support frame can be made, in particular in the form of strips, rods, plates, and can have various shapes in the plane of the cross-section, in particular, box-shaped, round, rectangular and other shapes.

As the material of the links of the support frame, in particular metal or polymer structural material can be used.

The links of the support frame can be connected at its vertices, in particular by means of spherical, cylindrical and other hinges that provide a change in the mutual angular position of the links.

As a measuring unit, a unit equipped with a measuring device can be used, the operation of which is based on the dependence of one or another physical parameter on the thickness of deposits inside the pipe.

So, in particular, measuring units containing an ultrasonic measuring sensor, a capacitive measuring sensor, and so on can be used.

In the particular case of the implementation of the utility model, when the measuring unit includes a measuring instrument and a digital adapter connected to each other, which makes it possible to transmit data on the thickness of deposits via a wireless network (for example, Bluetooth, WLAN), the possibility of remotely obtaining measurement results is provided.

In the particular case of the utility model, when the support frame contains a level gauge designed to indicate its position relative to the horizontal plane, the accuracy of maintaining the horizontal position of the support frame increases, and, consequently, the accuracy of measuring the thickness of deposits in the pipe.

It is preferable to use a digital level gauge equipped with a digital adapter that allows monitoring the position of the base frame in the horizontal plane remotely via a wireless network (eg Bluetooth, WLAN).

In the particular case of the utility model, when the rod-holder contains a threaded rod, mechanically connected to the end section of the support frame located along the first diagonal, providing a screw connection of the specified end section and the threaded rod, reliable fixation of the links of the support frame is achieved in the position, corresponding to the inner diameter of the pipe.

The figure shows a schematic diagram of a general view of the claimed device.

The device contains a rod bar - a holder 1, mechanically connected to a support frame in the form of a rhombus containing links 2, 3, 4, 5, forming its lateral sides, in particular, made in the form of rectangular strips.

Links 2, 3, 4, 5 are connected with the possibility of changing their mutual angular position, in particular, using cylindrical hinges 6, 7, 8, 9.

In this case, the support frame is made in the form of a structure - a transformer with the possibility of changing the mutual angular position of its links 2, 3, 4, 5 with the provision of reducing the linear size of the first diagonal of the support frame, at the ends of which hinges 7 and 9 are located, and, accordingly, increasing the linear size of the second diagonals of the support frame, at the ends of which hinges 6 and 8 are located, under the action of the force created by the rod - holder 1

The rod-holder 1 is oriented along the first diagonal of the support frame and is connected to it while maintaining their mechanical connection when the mutual angular position of the links 2, 3, 4, 5 of the support frame changes.

In particular, the rod-holder 1 includes a hollow rod 10, inside which a threaded rod 11 is freely installed. In this case, the hollow rod 10 is freely passed through the body of the hinge 9 installed on the first end section of the support frame located along its first diagonal, and the threaded rod 11 is passed through the body of the hinge 7 installed on the second end section of the support frame located along its first diagonal, providing a screw connection of the threaded rod 11 and the hinge 7.

In a particular case, the rod-holder 1 is made sliding with the possibility of increasing its length.

A measuring unit 12 is installed inside the support frame to ensure that the thickness of deposits is measured in a direction normal to its longitudinal plane.

In particular, the measuring unit 12 is installed on a support platform 13 located under the rod - holder 1 and fixed to the hollow rod 10 by means of a clamp 14 in such a way that the measurement of the thickness of deposits using the measuring unit 12 is carried out in the direction normal to the plane of the longitudinal section of the support frame ...

The measuring unit contains a means for measuring the thickness of deposits.

In particular, the measuring unit 12 contains an ultrasonic range finder (not shown in the figure), as well as a measuring probe 15 oriented normally relative to the longitudinal plane of the support frame with a floating plate 16 located on the surface of deposits in the pipe.

In particular, the probe 15 is made extensible with the possibility of increasing its length.

The measuring unit 12, in particular, is equipped with a digital adapter, which makes it possible to obtain the measurement results remotely.

The device, in particular, contains a digital level gauge 17 with an adapter that allows remote monitoring of the position of the support frame in the horizontal plane.

Rollers 18 and 19 are installed on opposite end sections of the support frame located along its second diagonal.

The device works as follows.

The operator holds the rod - holder 1 and places the support frame over the bottom of the pipe so that the longitudinal plane of the support frame is located in the horizontal plane, mainly in the axial longitudinal plane of the pipe. The operator controls the horizontal position of the support frame remotely using a digital level gauge 17.

The operator rotates the threaded rod 11 within the hollow rod 10, while the hinge 9 moves along the threaded rod 11 towards the center of the support frame. Under the action of the pushing force created by the rod-holder 1, the support frame is transformed and takes on dimensions at which its first diagonal decreases, and the second diagonal increases in such a way that the rollers 18 and 19 abut against the opposite sections of the inner lateral surface of the pipe.

The operator carries out the longitudinal movement of the rod - holder 1 inside the pipe, while the support frame slides along the side surface of the pipe. When the base frame reaches the area selected for measuring the thickness of the deposits, the operator turns on the measuring unit 12. Using an ultrasonic rangefinder, the distance to the floating plate 16 is measured, which descends along the probe 15 and is located on the surface of the deposits. The measured data is transmitted to the operator remotely over a wireless network to a mobile communication device.

If necessary, in the same way, the operator measures the thickness of deposits inside the pipe in one or several sections, moving the rod - holder 1 along the longitudinal axis of the pipe. The obtained measurement results are used either to obtain an average value of the thickness of the deposits, or to determine the gradient of the thickness of the deposits along the length of the pipe.

Claims (4)

1. A device for measuring the thickness of deposits in a pipe, including a measuring unit located inside the pipe, configured to measure the thickness of deposits in the bottom of the pipe, as well as means for its longitudinal movement, including a support frame and a pusher connected to each other, providing longitudinal movement of the support frame in a pipe, characterized in that the pusher is made in the form of a rod-holder, the support frame has the shape of a rhombus and includes links that form its lateral sides, connected with the possibility of changing their mutual angular position to reduce the linear size of the first and, accordingly, increase the linear size of the second of of two mutually perpendicular diagonals of the support frame under the action of the force created by the rod-holder, the rod-holder is oriented along the first diagonal of the support frame and connected to the support frame while maintaining their mechanical connection when changing the mutual angular position of the links of the support frame, measure The liner unit is installed inside the support frame to ensure that the thickness of deposits is measured in a direction normal to its longitudinal plane, while on two opposite end sections of the support frame located along its second diagonal, support rollers are installed, designed to contact the inner side surface of the pipe in the longitudinal moving the support frame in the pipe. 2. The device according to claim. 1, characterized in that the measuring unit includes an adapter that allows you to transmit data on the thickness of the deposits over a wireless network. 3. The device according to claim. 1, characterized in that the support frame contains a level gauge designed to indicate its position relative to the horizontal plane. 4. The device according to claim. 1, characterized in that the rod-holder contains a threaded rod, mechanically connected to the end section of the support frame, located along the first diagonal, providing a screw connection of the threaded rod and the specified end section.

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