WO2014109673A1 - Panel with wave-shaped mesh cloth on a rigid frame for vibrating screening machines - Google Patents

Abstract

This utility model relates to the removal of wellbore solids from drilling fluid with the aid of vibrating screening machines, and can be used in the production of panels with a wave-shaped mesh cloth on a rigid frame for vibrating screening machines. Technical result: a design for a panel with a wave-shaped mesh cloth on a rigid frame is proposed which is improved over the prior art. The sites where the wave-shaped mesh cloth is adhered to the elements of the rigid frame are relocated from the places where there are the largest volumes of drilling fluid to the region of the wave crests where the volumes of drilling fluid are minimal. This makes it possible to increase the throughput capacity of a panel. Furthermore, the surfaces for clamping the panel to a vibrating screening machine have a constant thickness, thus lowering requirements with respect to a device for clamping a panel to the vibrating frame of a vibrating screen machine.

Description

 Rigid screen cassette with a rigid frame for vibrating screens

The utility model relates to the cleaning of drilling fluids on vibrating screens from solid particles washed out of a borehole, and can be used in the manufacture of cartridges with a wave-like mesh cloth on a rigid frame for equipping vibration screens.

The well-known "three-dimensional panel of the Pinnacle type", which was used to clean drilling fluid on Brandt shale shakers. Working

the surface of the mesh on these panels increased due to the formation of a “bent” surface, the vertices and troughs of which were oriented parallel to the direction of movement of the drilling fluid (see the brochure: Vibrosita BRAND KING COBRA. Brand. A Varco

Company.Copyright 2001, Varco L.P.).

The disadvantage of this panel is that it has a “bent” mesh with the lower surface of the depressions glued to the strips supporting the mesh, which significantly reduces the working surface of the mesh in the depressions where the drilling fluid is in the largest volumes. As a prototype, the cassette "PMD 46x23 Screen" with

DERRICK pyramid mesh (see leaflet: PMD 46x23 and PTM 46x23 REPLACEMENT SCREEN. PYRAMID SCREEN TECHNOLOGY FOR MONGOOSE SHAKERS. DERRICK EQUIPMENT COMPANY. API RP 13C (ISO 13501). Compliant Screens. DEC - PMD / PTM 46x23 API 13C. Copyright 2006 Derrick Corporation.

The study of the description and graphic materials given in the indicated brochure of the Derrick company made it possible to identify the following essential features of the prototype: a cassette with a pyramidal mesh on a rigid frame for vibrating screens contains a rectangular rigid frame made of two short and two long square or rectangular pipes, moreover, the short pipes are made with the possibility of accepting the vertical clamping force of the cartridge when securing it to the frame of the vibrating sieve, p a perforated base on which a pyramidal mesh is supported and glued to it, whose vertices and troughs are parallel to short pipes, at the ends of the pyramidal mesh there are flat sections parallel to short pipes, the pyramidal mesh is glued along the perimeter of its surface to a rigid frame, while it has flat sections glued to the horizontal upper surfaces of the short pipes, to the perforated base, the pyramidal mesh is glued to the lower side of the depressions, and the thickness of the adhesive composition on the flat sections with pyramids the distance mesh, as well as the strength of the adhesive composition are designed to be able to install on them the details of the cassette clamp on a vibrating screen.

The prototype has the following disadvantages: 1) the pyramidal mesh is glued to the perforated base with the bottom side of the mesh troughs, which significantly reduces its usable area at the locations of the largest volumes of drilling fluid; 2) the cassette clamp on the vibrating frame of the vibrating screen is carried out through the adhesive layer, with the help of which the pyramidal grid is glued with flat sections to short pipes; as a result, deviations in the thickness of the clamped bag occur, which complicates the design of the clamping device.

According to the author of this application, the use of the term in the prototype

"Pyramidal grid" is an unsuccessful translation of the term from English language in Russia. The fact is that the peaks and troughs of periodic irregularities on the grid are actually not sharp and are made with smooth curves that are not typical of pyramids. In addition, these irregularities have a shape elongated along the peaks and troughs, which is also not typical for pyramids. Therefore, the author used the term

"Wave-like mesh fabric", which most accurately characterizes the surface of a multilayer mesh fabric having periodic wave-like irregularities.

The objective of the utility model is to improve the design of the cassette with a wave-like mesh web on a rigid frame for vibrating screens in order to eliminate the disadvantages of the prototype.

The solution to the problem is achieved by the fact that in the claimed utility model, the cassette with a wave-like mesh web on a rigid frame for vibrating screens contains a rigid rectangular frame made of two short and two long pipes of square or rectangular cross section, and short pipes are made with

the possibility of accepting the vertical clamping force of the cartridge when securing it to the frame of the vibrating sieve, a wavy mesh web in which the ridges and troughs of the waves are parallel to the short pipes at the ends

the undulating mesh web has flat sections parallel to the short pipes, the undulating mesh web is glued along the perimeter of its surface to the rigid frame, and at least one supporting part is fixed between the short tubes, the upper edge or upper surface of which is flush with the upper surface of the rigid carp perpendicular to the long pipes, flat plates of a rectangular shape are installed, the number of these plates is equal to the number of ridges of a wavy mesh web, flat plas the edges are supported by their edges on long pipes and connected rigidly to them, and in the span between the long pipes, the flat plates rest on a support part and are rigidly attached to it, a wave-like mesh web is supported on the upper edges of the flat plates so that the wave crests are located above the flat plates and glued to the upper edges of these plates, while the troughs of the waves of the undulating mesh web along their entire length in the span between the long pipes are not connected to the rigid frame, but on top of the flat sections of the undulating precise blade glued pressure bars. The application of the proposed combination of essential features allows you to get a new technical result: to improve the design of the cassette with a wavy mesh web and eliminate the disadvantages of the prototype. The bonding zones of the wave-like mesh web with the details of the rigid frame are transferred from the locations of the largest volumes of drilling fluid to the region of wave crests, where the volume of drilling fluid is minimal. This allows you to increase the throughput of the cartridge. In addition, pressure plates are glued over flat sections of the undulating mesh web, which ensures the dimensional stability of the clamped parts and, as a result, the requirements for the cassette clamping device on the vibrating screen are reduced.

The analysis of the prior art showed that the proposed combination

essential features is new, clearly does not follow from the prior art and thus, the proposed utility model is new and has an inventive step.

The essence of the utility model is illustrated in the drawing. Figure 1 shows a cassette with a wave-like mesh web on a rigid frame for vibrating screens, which contains: a rectangular rigid frame made of two short 1 and two long pipes 2,

a undulating mesh web 3, in which the ridges 4 and troughs 5 of the waves are parallel to the short pipes, at the ends of the undulating mesh web there are flat sections 6; between the short pipes 1, at least one supporting part 7 is fixed, the upper edge or upper surface of which is flush with the upper surface of the rigid frame, rectangular plates 8 are installed perpendicularly to the long pipes 2, the number of flat plates is equal to the number of ridges 4 of the wave-shaped mesh web 3, flat plates 8

they lean with their edges on the long pipes 2 and are rigidly connected to them, and in the span between the long pipes 2, the flat plates 8 rest on the support part 7 and are attached rigidly to it, the wave-like mesh web 3 rests on the upper edges of the flat plates 8 so that the ridges 4 waves of the mesh web are located above the flat plates 8 and glued with a hardening adhesive material 10 to the upper edges of these plates, while the troughs 5 of the waves of the undulating mesh web along their entire length in the span between the long pipes 2 are not connected with a rigid frame, over the flat sections 6 of the mesh web 3 are pressed pressure bars 9.

A cassette with a wave-like mesh web on a rigid frame works as follows. The cassette is clamped on a vibrating screen. To this end, the cassette is pressed against the counter surfaces of the vibrating frame by the lower surface of the long pipes 2 and short pipes 1. In this case, the clamping force acts on the short tubes 1 of the cartridge. The drilling fluid from the receiving hopper enters the cassette with a wave-like mesh web 3 and is forced through the holes of the mesh web under the influence of vibration. At the same time, in the troughs 5 of the waves of the undulating mesh web 3, the drilling fluid is forced through the holes along the entire working surface of the mesh web. This thereby increases the throughput of the cassette in comparison with the prototype, in which a significant area of the depressions of the wave-like surface of the mesh web is covered with adhesive.

In this cartridge the problem of a utility model is solved, - it is offered

improved design of the cassette with a wave-like mesh web on a rigid frame for vibrating screens, which eliminated the disadvantages of the prototype. The bonding zones of the wave-like mesh web with the details of the rigid frame are transferred from the locations of the largest volumes of drilling fluid to the region of wave crests, where the volume of drilling fluid is minimal. This allows you to increase the throughput of the cartridge. In addition, the use of pressure bars on top of the flat sections of the mesh web impregnated with the adhesive increases

 stability of the thickness of the cartridge, which significantly reduces

 requirements for the device for clamping cassettes on the vibrating frame of the vibrating screen.

The possibility of practical implementation of the utility model is beyond doubt. Testing the prototype cartridge showed an increase in its throughput by 20%. In this case, the deviation of the size of the thickness of the cartridge in the places of its clamp does not exceed +/- 0.5 mm.

Thus, the proposed utility model is industrially applicable.

Claims

Utility Model Formula 1. A cassette with a wave-like mesh web on a rigid frame for vibrating screens, comprising a rectangular rigid frame made of two short and two long square or rectangular pipes, the short pipes being made with the possibility of accepting the vertical clamping force of the cartridge when securing it to the frame of the vibrating sieve, a wavy mesh web in which the ridges and troughs of the waves are parallel to the short pipes at the ends the undulating mesh web has flat sections parallel to the short pipes, the undulating mesh web is glued along the perimeter of its surface to a rigid frame, characterized in that at least one supporting part is fixed between the short tubes, the upper edge or upper surface of which is flush with the upper surface rigid carp, perpendicular to long pipes flat plates of rectangular shape are installed, the number of these plates is equal to the number of ridges wave-like mesh fabric, flat plates rest with their edges on long pipes and are rigidly connected to them, and in the span between long pipes flat plates rest on a support part and are rigidly attached to it, a wave-like mesh fabric rests on the upper edges of the flat plates so that the ridges waves are located above the flat plates and glued to the upper edges of these plates, while the troughs of the waves of a wavy mesh web along their entire length in the span between long pipes are not connected with a rigid frame catfish, and pressure plates are glued over flat sections of a undulating net.