RU202031U1 - TOOL FOR REFERRING LAWS "LO" - Google Patents

Abstract

The utility model refers to hand tools used in the development of underground workings and designed to remove the formed chipping in order to bring the bottom to a safe state. The technical result achieved by the utility model is to increase ease of use, facilitate the design of the tool, increase reliability and strength. is achieved due to the fact that in a tool for clearing stabs containing a metal pipe, hollow transition couplings installed at the ends of the pipe, connected to the pipe, working bodies in the form of a lance or blade, installed in the corresponding transition couplings, each transition coupling is made in the form of one piece consisting of two sections, the first section is outer with a tapered outer surface facing the working body with its narrow side, the wide side of the tapered outer surface of the transition sleeve is mated with a mounting section designed to be placed inside a metal pipe with the possibility the th stop of the wide side of the tapered outer surface of the adapter on the end surface of the pipe to ensure insulation of the inner cavity of the pipe, according to the utility model, each sleeve is connected to the pipe by means of a rectangular thread made on the outer surface of the mounting section of the sleeve and a mating rectangular thread on the inner surface of the pipe made of duralumin, each transition sleeve is made of steel with a smooth inner surface and is connected to the corresponding working body, divided into the outer and mounting parts, the outer part of the working body is made in the form of a peak or blade, conjugated with a cylindrical section, at the opposite end of which two are made outside the lateral surface opposite flats facing the end surface of the specified cylindrical section, the mounting part of the working body is made in the form of a cylindrical rod intended to be placed inside the corresponding adapter sleeve, diameter of the cylindrical section of the outer part of the working member and the distance between the flats of the said cylindrical section is greater than the diameter of the mounting part of the working member, on the inner side surface of each coupling on its outwardly facing section facing the working member, two opposite flats are made, while the diameter of the inner cavity of each coupling is greater than the diameter of the mounting part of the working body, and the distance between the flats of the coupling is greater, respectively, of the inner diameter of the coupling and the distance between the flats on the cylindrical section of the outer part of the working body, while the distance between the flats of the working body and the coupling, as well as the depth of the flats of the coupling and the cylindrical section of the outer parts of the working body are selected from the condition of ensuring the placement of the mounting part of the working body in the coupling with the adjoining surfaces of the flats of the cylindrical section of the outer part of the working body to the surfaces of the corresponding flats of the coupling with simultaneous emphasis of the vertical surfaces the flats formed by the flats of the cylindrical section of the outer part of the working body into the end surface of the coupling, while the depth of the flat means its size along the corresponding axial line of the working body or coupling, each working body is fixed in the adapter sleeve by means of a cotter pin passing through the pipe, the coupling and the working body through. 3 C.p. f-crystals, 4 fig.

Description

The utility model relates to hand tools used in the development of underground workings and designed to remove the formed chipping in order to bring the bottom to a safe state.

Zakol - a crack formed in a rock mass near outcropping surfaces during mining (mainly blasting) operations. With the formation of a cleft, the locally exfoliated part of the massif hangs and can cause a sudden collapse of roof rocks or pillars (in the working faces of mines) or rock sliding from the upper part of the bench in open pits. To prevent the unfavorable consequences of the formed stabs, they are mechanized or manually trimmed at the stage of preparing the face for excavation (http://www.mining-enc.ru/z/zakol/).

In the process of clearing the clefts, all the pieces of rock that are insufficiently fixed in the massif are collapsed from the roof, sides and from the working face, which will increase both the safety of subsequent work and the quality of the design of the working section in the near-soil part.

From the USSR author's certificate No. 1320409, a tool for trimming the contours of mine workings is known, containing a rod and ends rigidly connected to it, one of which has the shape of a paw, while in order to save scarce material, reduce the cost and weight of the rod, the latter is made in cross section in the form of an ellipse, the long axis of which is directed perpendicular to the front edge of the paw, and the core of the rod is made of wood, and the outer layer is made of an epoxy compound reinforced with a mesh.

The disadvantage of the tool according to the AS of the USSR No. 1320409 is its insufficient reliability and durability.

From the information given on the Internet at the site http://ooo-egk.ru/lom_oborochnyiy, a flare scrap is known, containing a hollow pipe, at the ends of which are fixed on one side - a blade, and on the other side - a peak. In this case, the lance and the blade are connected to the pipe by means of a cone-shaped transition sleeve, which is screwed into a pipe made of metal, thereby closing the pipe end with its wide side, from the narrow side either a lance or blade, rigidly fixed in the sleeve. All shock and bending loads from the lance / vane are absorbed by the coupling rigidly fixed in the pipe.

The disadvantage of the known scrap scrap is the inconvenience in operation due to the large weight of the scrap and the impossibility of replacing the peak or blade in case of failure, as well as insufficient strength and reliability of the scrap.

The frill scrap, known from the Internet http://ooo-egk.ru/lom_oborochnyiy, was chosen as the closest analogue (prototype).

The technical problem solved by the proposed utility model is the development of a design for a hand-held tool for clearing stitches, which has high reliability and durability.

The technical result achieved by the utility model is to increase the reliability and strength of the tool for clearing the cleats.

The technical result is achieved due to the fact that, in a tool for clearing stitches containing a hollow metal pipe, hollow transition couplings installed at the ends of the pipe and connected to the pipe, according to the utility model, each transition coupling is connected to the pipe by means of a rectangular thread made on the outer surface of the mounting section couplings and a mating rectangular thread on the inner surface of the pipe, each transition sleeve is made of steel with a smooth inner surface and is connected to the corresponding working body, the outer part of the working body is made conjugated with its mounting cylindrical section, at the opposite end of which two opposite flats are made outside the side surface extending to the end surface of the specified mounting cylindrical section, the mounting part of the working member is made in the form of a cylindrical rod intended for placement inside the corresponding adapter sleeve, the diameter of the cylinder the inner surface of the outer part of the working member and the distance between the flats of the said cylindrical section is greater than the diameter of the mounting part of the working member, on the inner surface of each clutch on its outwardly facing section facing the working member, two opposite flats are made, while the diameter of the inner cavity of each clutch larger than the diameter of the mounting part of the working body, and the distance between the flats of the coupling is greater, respectively, the inner diameter of the coupling and the distance between the flats on the cylindrical section of the outer part of the working body, while the distance between the flats of the working body and the coupling, as well as the depth of the flats of the coupling and the cylindrical section of the outer part of the working body are selected from the condition of ensuring the placement of the installation part of the working body in the coupling with the adjoining of the surfaces of the flats of the cylindrical section of the outer part of the working body to the surfaces of the corresponding flats of the coupling with simultaneous abutment of the vertical surfaces of the steps formed by the flats of the cylindrical section of the outer part of the working body against the end surface of the coupling, while the depth of the flat is understood as its size along the corresponding axial line of the working body or transition couplings.

Each working body can be fixed in the transition sleeve by means of a cotter pin passing through the pipe, the sleeve and the working body through and through.

The cotter pin can be made of metal.

Rectangular threads can be made with teeth 3 mm wide, 1.5 mm high, while the distance between the teeth is 3 mm.

The inventive tool is intended for cutting the stitches formed after blasting the rock mass and as a result of the rock pressure.

The inventive tool contains a pipe made, preferably of heat-treated duralumin (for example, Pipe 40x5 D16T GOST18482-79), onto the ends of which hollow transition steel couplings are screwed by means of a rectangular thread.

Each adapter is connected to the pipe by means of a threaded connection, and the thread is made rectangular to prevent spontaneous twisting of the sleeve from the pipe. The square thread provides a working condition in which self-loosening is minimized by applied loads and allows a connection with a tightening torque of 200 Nm.

When each adapter is screwed into the pipe, the end of the pipe is closed, which prevents foreign objects and water from entering the pipe cavity.

Each working body contains an outer part, made, respectively, in the form of a lance or a blade, mated with a cylindrical section, and a mounting part intended to be placed inside the transition sleeve.

To prevent the lance or blade from turning in the transition sleeve, two opposite flats are made on the outer surface of the cylindrical section of the outer part of the working body. The diameter of the cylindrical section of the outer part of the working body and the distance between the flats of the specified cylindrical section are greater than the diameter of the mounting part of the working body. On the inner side surface of each clutch on its outwardly protruding section facing the working member, two opposite flats are also made. Inner diameter the cavity of each transition sleeve is larger than the diameter of the mounting part of the working body to ensure the placement of the mounting part of the working body inside the transition sleeve. The distance between the flats of the adapter is greater, respectively, of the inner diameter of the clutch and the distance between the flats on the cylindrical section of the outer part of the working member to ensure the placement of the flats of the cylindrical section of the outer part of the working member between the flats of the clutch.

It is obvious that the flats of the cylindrical section of the outer part of the working member will be placed between the corresponding flats of the clutch only if the distance between the flats of the clutch is greater than the distance between the flats of the cylindrical section of the outer part of the working member. However, the difference between these distances should not be significant. The distance between the flats of the working member and the clutch is selected from the condition of ensuring the placement of the mounting part of the working member in the clutch with the adjoining surfaces of the flats of the cylindrical section of the outer part of the working member to the surfaces of the corresponding flats of the clutch. At the same time, the depth of the flats of the clutch and the cylindrical section of the outer part of the working member is selected from the condition of ensuring the abutment of the vertical surfaces of the steps formed by the flats of the cylindrical section of the outer part of the working member against the end surface of the clutch to ensure the tightness of the inner cavity of the adapter.

The depth of the flat is understood as its size along the corresponding centerline of the implement or coupling.

Such a mutual execution of the flats of the coupling and the flats on the working bodies reduces, or almost completely eliminates the likelihood of turning the working body in the coupling.

The working bodies are additionally fixed in the transition sleeve by means of cotter pins passing through the pipe, the sleeve and the working body through and through. In case of failure of the working body, it is possible to replace it by removing the cotter pin with the subsequent disconnection of the working body with the coupling. After replacing the working body, the cotter pin is installed in place.

In general, a strong and reliable connection of the working body with the coupling and their reliable fixation in the position set by the flats are provided.

All shock and bending loads from the working body are borne by a steel coupling rigidly fixed in a duralumin pipe, which is preferably heat-treated.

The use of non-standardized rectangular threads, through which the transition couplings and the pipe are connected, reduces the likelihood of the coupling spontaneously turning out of the pipe, which increases the reliability of their connection.

The steel adapter coupling, connected to the pipe by means of a rectangular thread, serves to uniformly transfer both shock and bending types of loads to the duralumin pipe, preventing its deformation, and for a long period allows significant efforts to be applied with a tool length of more than 5 m.

An anti-slip notch can be made on the outer surface of the pipe, allowing the tool to be held firmly even in oily contaminated conditions.

After assembly, the entire tool structure is a single rigid structure.

Depending on the type of work for which the claimed tool is intended, it can be equipped with peaks and blades of various designs in various combinations (two peaks, two blades, peak + blade).

The reliability and strength of the proposed tool is ensured by the reliability of connections of all its structural elements with simultaneous isolation of the internal cavities of the structural elements of the tool from the external environment. This reduces the possibility of moisture entering the inside of the tool, leading to corrosion, as well as foreign objects (small pieces of rock, dirt, etc.), which can lead to tool breakage.

The proposed utility model is illustrated by drawings.

FIG. 1 shows the inventive tool in section.

FIG. 2 shows a tool with separately located structural elements.

FIG. 3 shows the flats on the coupling and the working body.

FIG. 4 shows a rectangular thread through which the couplings are connected to the pipe.

Tool for clearing stabs, contains a hollow metal pipe 1, installed at the ends of the pipe 1, hollow transition couplings 2, connected to the pipe 1, working bodies 3 in the form of a peak or a blade, installed in the corresponding transition couplings 2. Each transition coupling 2 is made in the form of one a part consisting of two sections - the first section 4 is external with a tapered external surface facing the working body 3 with its narrow side, the wide side of the tapered external surface of the transition sleeve 2 is mated with the installation section 5, designed to be placed inside the metal pipe 1 with the possibility of a wide stop side of the tapered outer surface of the transition sleeve 2 into the end surface of the pipe 2. Each transition sleeve 2 is connected to the pipe 1 by means of a rectangular thread 6 made on the outer surface of the mounting section 5 of the sleeve 2 and a mating rectangular thread on the inner surface of the pipe 1. The pipe 1 is made of duralumin ... Each transition sleeve 2 is made of steel with a smooth inner surface and is connected to the corresponding working body 3. The working body 3 is divided into outer 7 and mounting 8 parts. The outer part 7 of the working body 3 is made in the form of a peak or blade, conjugated with a cylindrical section 9, at the opposite end of the outer surface of which two opposite flats are made 10. The mounting part 8 of the working body is made in the form of a cylindrical rod intended for placement inside the corresponding adapter sleeve 2 The diameter of the cylindrical section 9 of the outer part of the working member 3 and the distance between the flats 10 of the said cylindrical section 9 are greater than the diameter of the mounting part 8 of the working member 3. On the inner surface of each clutch 2 in its outwardly facing section facing the working member 3, two opposite flats 11. The diameter of the inner cavity of each clutch 2 is greater than the diameter of the mounting part 8 of the working member 3, and the distance between the flats 11 of the clutch 2 is larger, respectively, the inner diameter of the clutch 2 and the distance between the flats 10 on the cylindrical section 9 of the outer part of the working member 3. Distance between flat mi 10 and 11 of the working body and the coupling, as well as the depth of the flats 10 and 11 of the coupling 2 and the cylindrical section 9 of the outer part of the working body 3 are selected from the condition of ensuring the placement of the mounting part 8 of the working body 3 in the coupling 2 with the contact of the surfaces of the flats 10 of the cylindrical section 9 to the surfaces of the corresponding flats 11 of the coupling 2 with simultaneous abutment of the vertical surfaces 12 of the steps formed by the flats 10 of the cylindrical section 9 against the end surface 13 of the coupling 2. Each working body 3 is fixed in the transition coupling 2 by means of a cotter pin 14 passing through the pipe 1, the coupling 2 and the working body 3 through and through. An anti-slip notch 15 is made on the outer surface of the pipe 1. The rectangular thread 6 has teeth 3 mm wide, 1.5 mm high, with the distance between the teeth being 3 mm.

The process of working with the claimed tool implies a manual (manual) ruffling of the stings formed after blasting the rock mass and as a result of the impact of rock pressure, using a lance - if necessary, applying shock movements, a blade - if necessary, chipping, etc.

Claims (4)

1. Tool for clearing stabs containing a hollow metal pipe, installed at the ends of the pipe, hollow transition couplings connected to the pipe, characterized in that each transition coupling is connected to the pipe by means of a rectangular thread made on the outer surface of the fitting section of the coupling, and a mating rectangular thread on the inner surface of the pipe, each transition sleeve is made of steel with a smooth inner surface and is connected to the corresponding working body, the outer part of the working body is made conjugated with its mounting cylindrical section, at the opposite end of which two opposite flats are made on the outside of the lateral surface, facing the end surface of the specified the mounting cylindrical section, the mounting part of the working body is made in the form of a cylindrical rod designed to be placed inside the corresponding adapter sleeve, the diameter of the cylindrical section of the outer part of the working body and the distance The friction between the flats of the specified cylindrical section is greater than the diameter of the mounting part of the working body, on the inner surface of each coupling on its outwardly facing area facing the working body, two opposite flats are made, while the diameter of the inner cavity of each coupling is greater than the diameter of the mounting part of the working body, and the distance between the flats of the clutch is greater, respectively, the inner diameter of the clutch and the distance between the flats on the cylindrical section of the outer part of the working body, while the distance between the flats of the working body and the coupling, as well as the depth of the flats of the coupling and the cylindrical section of the outer part of the working body are selected from the condition of ensuring placement the installation part of the working body in the coupling with the contact of the surfaces of the flats of the cylindrical section of the outer part of the working body to the surfaces of the corresponding flats of the coupling with the simultaneous emphasis of the vertical surfaces of the steps formed by the flats of the cylindrical section of the outer part of the working the body into the end surface of the coupling, while the depth of the flat is understood as its size along the corresponding axial line of the working body or adapter coupling. 2. The tool according to claim. 1, characterized in that the working body is fixed in the transition sleeve by means of a cotter pin passing through the pipe, the sleeve and the working body through and through. 3. The tool according to claim 2, characterized in that the cotter pin is made of metal. 4. The tool according to claim 1, characterized in that the rectangular thread is made with teeth 3 mm wide, 1.5 mm high, and the distance between the teeth is 3 mm.

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