EA007235B1 - Pneumatic feeder (embodiment) - Google Patents

Abstract

The invention relates to the field of mining, specifically to the pneumatic feeders for rock drills. The invention is directed to improvement and buildup of performance capabilities as well as enhancement of reliability and usability. The technical result claimed is realized in such a way that the pneumatic feeder as to the first embodiment contains fastened to the foundation housing with tubular rod, one end of which has a piston fixed thereon and the other end of the rod protrudes beyond the housing and has a head installed thereon together with a fixture to secure the rock drill, and a compressed air distributor with channels to connect to delivery pipe, discharge pipe, cavity of the rod and cavity of the pipe, one end of which is rigidly fixed in the head and the second end of the pipe is arranged in the axial channel of piston, while the rod cavity is linked to the housing cavity by means of holes. Pneumatic feeder is provided with protective casing for retractable portion of the rod, the casing is kinematically connected with the housing and with at least one unit of rod fixing against turning-through, at the same time the protective casing is rigidly secured with its upper end-face onto the protruding end of the rod below the distributor and covers the outer surface of the pneumatic feeder housing all over the way of rod extension. As to the second embodiment of the pneumatic feeder, its housing and protective casing are both of telescopic design. The telescopic protective casing is made as an outer casing with its upper portion secured on the rod under the distributor, and at least one inner retractable casing with its upper portion secured on mating retractable housing or on the rod above the retractable housing fixing point. The telescopic protective casing has at least one unit of rod fixing against turning-through per each pair of mated protective casings and at least one such unit is provided to fix the inner casing with immoveable housing of pneumatic feeder. The unit of rod fixing against turning-through is made as a guide arranged over the outer surface of the housing along its axis or over the inner surface of the casing, and its mated groove being arranged respectively over the inner surface of the casing or outer surface of the housing. To reduce the dust level during used compressed air bleeding to the atmosphere and to reduce the noise level, the pneumatic feeder is additionally provided with at least one channel connected to the discharge pipe and made in the upper end-face of protective casing to deliver compressed air used by pneumatic feeder into the casing cavity, with the rod being extended, and at least one open channel made over the outer surface of the housing and/or inner surface of the casing, and/or clearance allowed between the bodies of casing and housing to bleed used compressed air into the atmosphere. The upper end-face of protective casing is built as a bush with annular inner channel for collection of used compressed air fed to the discharge pipe from the cavities of working and/or idling run of the rod, while the inner surface of the bush and the rod (on the side of the housing) produce annular slot to communicate with the annular channel and to provide moving direction of used compressed air from the annular channel along the extendable portion of the rod towards the housing, and the annular channel being connected to the discharge pipe via an additional channel or additional channels.

Description

The invention, intended primarily for pneumatic perforators, relates to structural elements of drilling rigs, in particular to devices for feeding tools (for example, perforators) to the working face.

Known telescopic pneumatic feeders for drilling rigs, consisting of two coaxial cylinders and a tubular retractable rod.

Closest to the technical task to be solved according to the first embodiment of the air feeder is a pneumatic feeder containing a housing fixed to the base with a tubular rod, a piston attached to one end, and a head with a device for attaching a perforator, a compressed air distributor with channels mounted on the other end protruding from the housing, associated with the pressure pipe, exhaust pipe, rod cavity and tube cavity, one end of which is rigidly fixed in the head, and the second is located in the axial channel a piston, wherein the stem cavity is connected to the body cavity by means of holes (RU 2110685, E 21C 5/11, 05/10/98).

Closest to the technical task to be solved according to the second embodiment of the air feeder is a pneumatic feeder containing a telescopic housing fixed on the base, made in the form of a fixed and at least one retractable inner case, in the cavity of which a tubular rod is placed, at one end of which a piston is fixed, and on the other end protruding from the housing has a head with a device for attaching a perforator, a compressed air distributor with channels connected to the pressure line, and an outlet an endway, a rod cavity and a tube cavity, one end of which is rigidly fixed in the head, and the other is located in the axial channel of the piston, while the rod cavity is connected to the cavity of the sliding part of the body through holes (RU 2110685, E 21C 5/11, 05/10/98) .

The disadvantages of the known designs of pneumatic feeders include, firstly, the limited use of them due to the possibility of mutual rotation of the rod relative to the housing with coaxial mutual arrangement of the pneumatic feeder and the perforator rod, and secondly, increased wear of the surface of the sliding rod and seals due to contact with their surface the abrasive formed during drilling, and, thirdly, increased injuries due to possible pinching of the hands of the driller between the sliding rod and the stationary parts of the air feeder, In addition, when bleeding the exhaust compressed air into the atmosphere, the dust level in the driller’s breathing area increases and the noise level increases due to the sharp expansion of the exhaust compressed air.

The invention is aimed at expanding and improving the operational capabilities of the air feeder, as well as improving the reliability and ease of use.

To achieve the specified technical result, two versions of pneumatic feeders are proposed mainly for pneumatic perforators.

The air feeder according to the first embodiment, comprising a housing fixed to the base with a tubular rod, a piston fixed to one end, and a head with a device for attaching a perforator, a compressed air distributor with channels connected to the pressure manifold, an exhaust manifold mounted on the other end protruding from the housing, rod cavity and tube cavity, one end of which is rigidly fixed in the head, and the second is located in the axial channel of the piston, while the rod cavity is connected with the cavity of the housing by rstium, equipped with a protective casing for the sliding part of the rod, kinematically connected with the body, and at least one knot for fixing the rod against rotation, while the protective casing with its upper end is rigidly mounted on the protruding end of the rod under the distributor and covers the outer surface of the housing of the pneumatic feeder throughout range of stem extension.

The node for fixing the stem from the rotation can be made in the form of a guide on the outer surface of the housing along its axis or inner surface of the casing and the counter groove on the inner surface of the casing or the outer surface of the housing, respectively.

To reduce the dust level in the area of the driller’s respiratory organs when venting the exhaust compressed air into the atmosphere and to reduce the noise level due to a sharp expansion of the exhaust compressed air, the air feeder according to the first embodiment is additionally equipped with at least one channel connected to the exhaust line and made in the upper the end face of the protective casing for supplying compressed air exhausted by the pneumatic feeder into its cavity with the stem extended, and at least one open channel made on an outer surface ited housing and / or the inner surface of the housing, and / or gap formed housings and the casing housing for venting exhaust compressed air to atmosphere.

To achieve this goal, the upper end of the protective casing is made in the form of a sleeve with an internal annular channel for collecting exhaust compressed air entering the exhaust line from the cavities of the working and / or idling rod, while the inner surface of the sleeve and the rod from the housing side form a ring the channel has an annular gap providing the direction of movement of the exhaust compressed air from the annular channel along the sliding part of the rod towards the body, and the annular channel is connected to the outlet Highway with additional channel or additional channels.

- 1 007235

The pneumatic feeder according to the second embodiment, comprising a telescopic housing fixed on the base, made in the form of a fixed and at least one retractable inner housing, in the cavity of which a tubular rod is placed, a piston is fixed at one end and a head with a piston protruding from the housing a device for attaching a perforator, a compressed air distributor with channels connected to the pressure manifold, exhaust manifold, stem cavity and tube cavity, one end of which is rigidly fixed mounted in the head, and the second is located in the axial channel of the piston, while the stem cavity is connected to the cavity of the sliding part of the housing through holes, equipped with a telescopic protective casing for the sliding part of the rod, made in the form of an outer casing, the upper part of which is mounted on the rod under the distributor, and at least one internal retractable casing, the upper part of which is mounted on a sliding casing mating with it or on a rod above the attachment point of the sliding casing, and at least one fixing unit and against rotation for each pair of mating covers and interior casing fixed housing.

The node for fixing the rod from the rotation can be made in the form of a longitudinal guide and a reciprocal groove.

To reduce the dust level in the area of the driller’s respiratory organs when venting the exhaust compressed air into the atmosphere and to reduce the noise level due to the sharp expansion of the exhaust compressed air, the pneumatic feeder according to the second variant is additionally equipped with at least one channel made in the upper end of each casing, connecting exhaust line with a cavity of the casing with the extended stem, and at least one open channel made on the outer surface of the fixed body and / or inner surface ozhuhov and / or gaps, formed by the mating housings and the inner casing with the fixed casing, connecting said cavities to atmosphere.

To achieve this goal, the upper end face of at least the outer casing is made in the form of a sleeve with an internal annular channel for collecting exhaust compressed air entering the exhaust manifold from the cavities of the working and / or idling rod, while the inner surface of the sleeve and the rod are on the side the bodies form an annular gap in communication with the annular channel, providing the direction of movement of the exhaust compressed air from the annular channel along the sliding part of the rod towards the body, and the annular channel connected to the exhaust manifold by an additional channel or additional channels.

The invention is illustrated by drawings, where in FIG. 1 shows a diagram of a General view of the air feeder in section with a single-stage protective casing (first option); in FIG. 2 is a section A-A of FIG. one; in FIG. 3 is a diagram of a General view of the air feeder in section with a telescopic protective casing and housing (second option); in FIG. 4 is a section A-A of FIG. 3; in FIG. 5 - pneumatic feeder according to the first embodiment with the upper end face of the protective casing in the form of a sleeve with an annular internal channel; in FIG. 6 is a section A-A of FIG. 5; in FIG. 7 - pneumatic feeder according to the second embodiment with the upper end face of the outer and inner protective casing in the form of a sleeve with an annular inner channel; in FIG. 8 is a section A-A of FIG. 7.

The pneumatic feeder with a one-stage protective casing according to the first embodiment comprises a housing 1 fixedly mounted on the base 2 with a bottom and an upper end in the form of a cover 3 with an axial channel 4 and seals. In the housing there is a retractable tubular rod 5, on one end of which a piston 6 is fixed with an axial channel 7 and seals, and on the other end (part) of the rod protruding from the housing, a head 8 is fixed with a device for attaching a hammer drill and a distributor 9 with a valve 10 and channels, which connect the pressure line 11 and the exhaust line 12 with the cavity of the rod 5 and the cavity of the tube 13. The tube 13 is installed inside the rod 5, while one end of the tube is fixedly mounted in the head 8 (or in the end of the stem protruding from the housing), and the second izhno fixed in the axial bore 7 of the piston 6. In the operation control of the crane 10 provided in the distributor handle 14.

The cavity of the working stroke 15 (piston space) of the rod 5 is connected with the pressure line 11 through the channel 16 of the distributor 9 and the cavity of the tube 13.

The idle cavity 17 of the rod 5 is connected to the pressure line 11 through the channel 18 of the distributor 9, the rod cavity and the holes 19 made in the rod in front of the piston (at the location of the piston).

To protect the sliding part of the stem, including the protruding one, from coal dust and abrasive, the pneumatic feeder is additionally equipped with a protective casing 20 with an upper end 21 made in the form of a cover and an axial channel 22, which provides mounting of the casing and fastening of its upper end to the rod.

The protective casing with its upper end is fixedly mounted on the protruding part of the rod coaxially (coaxially) to the housing of the air feeder, maximally protecting its protruding and sliding parts from coal dust, for example, under the distributor.

To fix the rod and the protective casing against rotation on the body, the pneumatic feeder is equipped with at least one node for fixing the rod against rotation, made in the form of a longitudinal guide 23 and its corresponding groove (groove) 24 on the inner surface of the protective casing. Guides can

- 2 007235 to be made on the inner surface of the protective casing, and the grooves (grooves) corresponding to them on the body.

The exhaust manifold 12 is connected to a channel 25 made in the upper part of the protective casing, for example, in its upper end, for supplying, when the rod is extended, the compressed air exhausted from the exhaust manifold from the exhaust manifold 12 into the cavity formed by the protective casing 21 and the housing 1 of the pneumatic feeder. Air is then removed through a longitudinal open channel (groove) 26 or longitudinal open channels (grooves) made on the inner surface of the protective casing or the outer surface of the housing, and / or the gap 27 at the junction of the protective casing with the housing, for example, from the lower end of the protective casing.

In the pneumatic feeder according to the second embodiment, the housing of the pneumatic feeder and the protective casing are made telescopic (multi-stage).

The air feeder housing consists of a fixed housing 1 and a retractable housing 28 installed inside it, while the upper end protrudes from the stationary housing.

The housing can be made multi-stage, consisting of a fixed housing 1 and a sliding system of sliding housing. The upper end face of each inner retractable housing protrudes above the upper end face of the outer extendable housing. At the upper ends of the drawer housings, the upper ends of the respective inner protective covers are fixed.

The fixed housing and the sliding housing of the air feeder are made, for example, in the form of hollow glasses.

The upper end face of the fixed and retractable (or retractable) bodies is made in the form of a cover with an axial channel and seals. The axial channel in the upper end of the stationary housing provides installation and installation of the sliding housing, and the axial channel in the upper end of the sliding housing allows its installation on the rod or the installation of the following retractable housing in case of multi-stage housing, while the last sliding housing with respect to the fixed housing is fixed on the protruding part of the stem.

Inside the sliding housing (or inside the last sliding housing with respect to the fixed housing) there is a retractable tubular rod 5, at one end of which a piston 6 is fixed with an axial channel 7 and seals, and a head 8 is secured at the other end (part) of the rod protruding from the housing a device for mounting a perforator and a distributor 9 with a valve 10 and channels that connect the pressure line 11, the exhaust line 12 with the cavity of the rod 5 and the cavity of the tube 13. The tube 13 is mounted inside the rod, with one end of the pipe ki is fixedly secured to the head 8 (or protruding from the enclosure end of the rod) and the latter is immovably fixed in the axial channel of the piston. To control the operation of the crane, a handle 14 is provided in the distributor.

The cavity of the working stroke 15 (piston space) of the rod 5 is connected with the pressure line 11 through the channel 16 and the tube 13.

The idle cavity 17 of the rod 5 is connected to the pressure line through the channel 18, the rod cavity and the holes 19, made in the rod and the sliding housing in front of the piston (at the location of the piston).

The lower end of the sliding housing is connected in cross section with the stationary housing or the corresponding sliding housing (in the case of multi-stage housing) to provide reciprocating movement of the sliding housing (or sliding housing) along the axis of the air feeder until it stops at the upper end of the stationary housing (or until it stops in the upper end face of the corresponding, downstream and adjacent to it, retractable housing). Such communication can be provided, for example, by means of a protrusion (stop) 29 made on the inner surface of the sliding housing (or sliding housing) from the bottom end.

The protective casing is made in the form of a sliding system of hollow casings, for example, at least one retractable inner 30 and outer 31 casing. The casing can be made, for example, in the form of hollow glasses mounted coaxially to the stationary case of the feeder.

The number of internal sliding casings corresponds to the number of sliding casings.

The upper ends of the outer 31 and inner 30 casings are made in the form of covers with axial channels and seals for their installation and installation on the rod and / or upper ends of the sliding bodies, respectively. The outer casing with its upper end is fixedly mounted on the rod, protecting its protruding and sliding parts as much as possible from coal dust, for example, under the distributor, and the inner casing with its upper end is fixed on the upper end of the sliding housing conjugated with it.

The pneumatic feeder is equipped with at least one knot for fixing the stem from rotation for each pair of mating housings (fixed and retractable inner casing or retractable inner casing) and an inner casing with a fixed casing. The node for fixing the rod from the rotation is made in the form of a longitudinal guide and a reciprocal groove. Together with the rigid fastening of the upper end face of the outer case 31 of the casing on the protruding part of the rod 5, the nodes of the rod fixing against rotation prevent the rod from turning relative to the fixed part of the case.

The protective casing covers the fixed housing of the air feeder over the entire range of extension of the rod.

In the stationary and retractable casings of the protective casing (mainly in their covers), channels 32 and 33 are made for supplying compressed air exhausted by the pneumatic feeder into the cavities formed by the protective casing bodies and the stationary part of the feeder body with the stem extended. To bleed the compressed air exhausted by the pneumatic feeder from the indicated cavities into the atmosphere, the joints between the casings and the fixed housing from the side of their lower ends have gaps 34 and / or open longitudinal channels (grooves) 35 are made on the inner surface of the protective casing casings.

Fixed joints of parts and nodes of the air feeder are conditionally shown by pins 36.

To reduce the noise level due to a sharp expansion of the exhaust compressed air, the upper end face 21 in the first embodiment of the air feeder of the protective casing, the upper end face 37 of the outer 31 and / or the upper end 38 of the inner 30 or inner protective casings in the second embodiment of the air feeder are made in the form of a sleeve, on the inner surface of which a closed annular channel (groove) 39 is provided along the entire length of the sleeve.

An opening 40 (or holes) is made in the bottom of the annular channel of the sleeve of the outer casing 31, through which exhaust compressed air from the exhaust line 12 is supplied through an additional channel or channels (not shown) to the annular channel.

The inner surface of the sleeve (from the lower end of the annular channel to the lower end of the sleeve) of the protective casing 21 or the outer casing 31 and the surface of the rod 5 from the upper end of the casing 1 or the inner casing 30, respectively, form an annular gap 41 to provide the direction of movement of the exhaust compressed air from the annular channel 39 along the sliding part of the rod 5 towards the upper end of the housing 1 or the upper end 38 of the inner casing 30, respectively, while the inner surface of the sleeve (from the upper end of the ring of the channel to the upper end of the sleeve) on the side of the distributor is rigidly interfaced with the rod 5.

In order to collect compressed air in each subsequent annular channel 39 in the upper ends of the inner casings, a channel or channels 42 are connected associated with the annular channel 39, and to ensure the direction of movement of compressed air along the outer surface of the inner casing 28 connected with the inner casing 30, an annular gap 43 formed by the inner surface of the sleeve (from the lower end of the annular channel to the lower end of the sleeve) and the outer surface of the inner retractable housing 28, while the inner The sleeve of the sleeve from the upper end of the annular channel to the upper end of the sleeve is rigidly connected with the outer surface of the inner retractable housing.

The annular gap may have a narrowing towards the outlet of compressed air.

The operation of the air feeder according to the first embodiment is as follows.

A perforator is installed on the stem head. The distributor is connected to the pressure line.

To bring the air feeder to the operating position (feeding the perforator to the drilling site), the handle 14 of the distributor 9 is transferred to the "feed" position. Compressed air enters the working cavity 15 under the piston 6 from the pressure line 11 through the channel 16 and the tube 13. The piston under pressure of compressed air makes a translational motion. As the rod extends, air from the idle cavity 17 of the rod 5 through the openings 19, the channel 18 and the exhaust manifold 12 is vented to the atmosphere.

Together with the rod 5 along the guides 23 and grooves (grooves) 24, the protective casing 20 moves, protecting the sliding part of the rod, including the protruding part, from falling onto it with the abrasive formed during drilling, while it is possible to drill with the coaxial arrangement of the air feeder and rods (for example, in vertical drilling).

After drilling, the handle 14 of the distributor 9 is moved to the “reverse” position, with compressed air being supplied to the idle cavity 17 of the rod 5 through the channel 18 and the openings 19 from the pressure line 11. The piston under pressure of compressed air makes a return motion. As the rod 5 is lowered, air from the cavity of the working stroke 15 of the rod 5 through the tube 13, channel 16 and exhaust manifold 12 is vented to the atmosphere. Together with the rod 5 moves the protective casing 20.

In the case of connecting the exhaust manifold with channel 25 (the channel or channels connecting them, not shown in FIG.), Compressed air exhausted by the pneumatic feeder during the working and / or idling of the rod enters the internal cavity of the protective casing, then through the channels 26 and / or the gap 27 is into the atmosphere, which allows to reduce the noise of the air feeder due to the gradual expansion of compressed air and to increase the resource and reliability of the moving parts by reducing their dust content as a result of regular and forced blowing inside renney cavity of the guard and hence the sliding parts.

The operation of the telescopic protective casing is similar to the operation of a single-stage air feeder according to the first embodiment.

- 4 007235

Claims (8)

CLAIM 1. An air feeder comprising a housing fixed to the base with a tubular rod, a piston attached to one end, and a head with a device for attaching a perforator, a compressed air distributor with channels connected to the pressure line, exhaust line, cavity installed on the other side protruding from the body. rod and tube cavity, one end of which is rigidly fixed in the head, and the second is located in the axial channel of the piston, while the rod cavity is connected to the cavity of the housing through holes, distinguishing I mean that the pneumatic feeder is equipped with a protective casing for the sliding part of the rod kinematically connected with the housing, and at least one knot for fixing the rod against rotation, while the protective casing is rigidly fixed with its upper end to the protruding end of the rod under the distributor and covers the outer surface of the pneumatic feeder body over the entire range of stem extension. 2. The air feeder according to claim 1, characterized in that the node for fixing the stem from the rotation is made in the form of a guide on the outer surface of the housing along its axis or inner surface of the casing and the reciprocal groove on the inner surface of the casing or the outer surface of the housing, respectively. 3. The pneumatic feeder according to claim 1, characterized in that it is additionally equipped with at least one channel connected to the exhaust manifold and made in the upper end of the protective casing for supplying compressed air exhausted by the pneumatic feeder with the stem extended, and at least one open channel made on the outer surface of the casing and / or the inner surface of the casing, and / or the gap formed by the casing of the casing and the casing for bleeding the exhaust compressed air into the atmosphere. 4. The pneumatic feeder according to claim 1, characterized in that the upper end of the protective casing is made in the form of a sleeve with an internal annular channel for collecting exhaust compressed air entering the exhaust manifold from the cavities of the working and / or idling rod, while the inner surface of the sleeve and the rod on the side of the body form an annular gap in communication with the annular channel, providing the direction of movement of the exhaust compressed air from the annular channel along the sliding part of the rod towards the body, and the annular channel with Yazan exhaust manifold with an additional channel or additional channels. 5. An air feeder comprising a telescopic housing fixed on the base, made in the form of a fixed and at least one retractable inner housing, in the cavity of which a tubular rod is placed, at one end of which a piston is fixed, and a head with a device for fastenings of a perforator, compressed air distributor with channels connected to the pressure line, exhaust pipe, rod cavity and tube cavity, one end of which is rigidly fixed to the heads ke, and the second is located in the axial channel of the piston, while the stem cavity is connected with the cavity of the sliding part of the housing through holes, characterized in that the pneumatic feeder is equipped with a telescopic protective casing for the sliding part of the rod, made in the form of an outer casing, the upper part of which is mounted on the rod under a distributor, and at least one internal retractable casing, the upper part of which is mounted on a retractable housing mating with it or on a rod above the mounting location of the retractable housing, and at least ie one node rod fixation against rotation for each pair of mating covers and interior casing fixed housing. 6. The air feeder according to claim 5, characterized in that the node fixing the rod from the rotation is made in the form of a longitudinal guide and a reciprocal groove. 7. The air feeder according to claim 5, characterized in that it is further provided with at least one channel made in the upper end of each casing, connecting the exhaust manifold with the cavity of the casing with the stem extended, and at least one open channel made on the outer surface of the stationary the housing and / or the inner surface of the casings, and / or the gaps formed by the mating casings and the inner casing with a fixed housing, connecting these cavities with the atmosphere. 8. The pneumatic feeder according to claim 5, characterized in that the upper end face of at least the outer casing is made in the form of a sleeve with an internal annular channel for collecting exhaust compressed air entering the exhaust manifold from the cavities of the working and / or idling rod, when this inner surface of the sleeve and the rod from the side of the body form an annular gap in communication with the annular channel, providing the direction of movement of the exhaust compressed air from the annular channel along the sliding part of the rod towards the body, and to The ring channel is connected to the exhaust line by an additional channel or additional channels.