DEP0053483DA - Mine support - Google Patents

Description

the 28.2 «1950

Bowty Equipment X ± with®d ₈ of Arl @ Court _s cüialttanhaj ^ ι, η, thus ... Gonniy of Gloucester * England »

Mine support

The vorliegend® invention relates to a mine roof primarily for Abbaub tri®b @ © "and consists essentially in" is that two groups of two consecutively arranged and above "zugsweis® rigidly interconnected urubenetempeln so related to each other are brought _s that the individual stemps! groups can alternately be vargerüokt in a relative movement to each other _g when the punches of one group are released β while the punches of the other group are under pressure «Preferably the two groups of punches are articulated so that the advance can be carried out in the Weis® that one group is swiveled around the other.

In the case of wandering pit construction, the invention is generally used in such a way that one end of each group is directed towards the bottom of the mine and the adjacent expansion section requires support «the stamps of a group are released and advanced towards the dismantling front«, when this is released® group is advanced »the stamps of this group are pulled out and set» around the necessary additional expansion za . form,! times a certain time, the stamps of the other group are released and advanced in a similar way to a new development position.

^ Bxm can be realized and the mine roof according to the invention with all types of punches "so is au but zweokmässige hydraulic jacks to bring the application of this _e which sindβ equipped with the usual pressure relief valves to allow relief or reduction under increasing rock pressure When using hydraulic rams, the pressure chambers of all rams in a group can preferably be in communicating connection with one another so that the pressure required for them can be generated by a single pump.

- ■ 2 -

. 2 "

Designed: - 7 EET. 1950

Another Vorsehlag the Hrfindang is _e between the two S temp β! Groups mechanical Vorschubeinri ^ htangsa provide 'make it possible that the expansion _ß groups may be advanced. Bin double-acting hydraulically actuated feed cylinder procedures can be applied, "namely in the form of an extendable and retractable articulated connection _s welch® is arranged diagonally between the pivotally interconnected stamp groups for this purpose preferably. B @ l the extension of the pre-thrust cylinder, the group of one extension is advanced ₈ while the gate thrust of the other group occurs when the pre-thrust cylinder is shortened * whereby the standing® stamp group® is braced between the lying and hanging wall *

The invention is henceforth in the formation of a pit expansion with essentially two hydraulically operated expansion units "which are so connected to each other _e that each have a detached unit duroh a Real ± ivbewegung can be advanced to a strained unit ₈ in which a valve arrangement is provided _s loosening who only enables unity; if the other unit is under a certain pressure stexitο Za for this purpose the® hydraulic® system assigned to the expansion can be equipped with a main valve device »di @ on the one hand a liquid supply to the stamps of a group or unit | hd on the other hand a reverse flow of the hydraulic fluid from the other group permits and vice versa, "Bine further valve means can fin in training use the ™" that they moved from a position ^ DI® a certain pressure in d®r supply line maintains * and a Bückfluss vernlnderis in ein® position can be moved _e di # one This type of stroke enables the main valve to allow access of the hydraulic fluid between the one End® of a thrust cylinder on the track side? when the one® stamp group® is pressurized »as well as allowing a return flow from the other end of the feed cylinder and vice versa. Here Woe @ are entsprechend® arrangements n _e to the effect of the main valve from the

in which a certain pressure is obtained in the pressurized system * to be reversed »

"3 -

"3 -

Designed: - 7 EET. 1950

W @ na Stemptl hydraulic design are used and because the pressure system is controlled by a valve arrangement according to the invention »the supply of the pressure fluid via the line can give the possibility» to almost automatically carry out a series of movement processes _β with those of the Expansion is being advanced step by step "

If di © conveyor of a conveyor belt or the like bestehtg which long the working face is laid _e can DI® conveyor progresses working face as ~ $ & nz®B using a number are advanced by expansion units β DI® with a single valve assembly according to the invention controlled becoming so that the gesaut® expansion can only be operated from a single location »

A pit lining with the individual features of the present invention is described with reference to the drawings. It shows ι

Figure 1 shows a pit lining according to the invention in Seitenanaicht and partial section »

Figure 2 in plan view and partial section and

Figure 3 is a partially schematic representation of the Brucksy star «.

In Figure "expansion arrangement shown 1 and 2 consists of one group ron two hydraulic punches 11 and 11 or" 12 and L2a> DI® die 11 and lla by a Rohrkreus

13 rigidly connected to each other »which is between two pipe necks @ n

14 and 14a are arranged ₈ the actual stamps surround the »In a similar way the stamps 12 and 12a are surrounded by a circle of tubes

15 rigidly connected to one another between the ear sleeves 16 and 16a which are emitted »Di® both groups of stamps are through for example four legs 17 articulated together * which® comprise the corresponding Hohrhiiilsen 14 and 14a * 16 and 16a * The upper ends of the stamps are connected to the soleplate (caps) 13 and 19 by bolts * which are cantilevered Cantilever arms protrude after the mining face »to secure the hanging wall © above the usual conveying means along the coal face * Di® lower ends of the punches are connected to slides 20 and 21 by bolts®

Ausqelegh

-7 EET, 195O

Si © vi®r stamps essentially have a similar® training «Aus de? Sarstellung de® stamp 12 in Pig »I is seeing dear. " that this consists of a tubular outer punch 22 * in which a tubular®? Inner stamp 23 telescopic open movable, is β The seeded aiapol 22 is closed at the lower booth by a “Platt® 24” on its lower one. End is the inside » stamp 23 b @ i 26 sealed against the external stamp 22 »Sin® supply of hydraulic fluid in those formed by the drilling Drackraam causes the plunger to set and sinking in is made possible by the release of pressure fluid »

The diagonally opposite Ronr sleeves 16 and 14a are each provided with a pair of eye-shaped extensions® ** 27 and the cylinder 28 of a gate push cylinder is connected to the eyes of the sleeve © 16 by a bolt while its piston rod is connected to the eyes of the sleeve® 14a is connected by a corresponding bolt. For example, if the ober® group of In Pig. stamp shown between the footwall and hanging wall is clamped and released, the lower is Grupp® _s can be achieved by an extract from the Vorschubsylinders "that DI® punch 12 and 12a herumsohwingen the stamp U and lla and are advanced way. If thereupon the punches 12 and 12a are clamped and the punches 11 and 11a are released »can through. "Can be achieved in the retraction of the torsion cylinder" that the punches 11 and 11a pivot about the punches 12 and 12a and thus execute a feed movement "

The expansion can preferably be equipped with a valve housing, generally designated 30, SQIa _8, via which the sequence of necessary work processes to carry out a number of torso stroke movements can be carried out automatically by a single line 31 which is constantly under pressure described in detail with reference to Fig. 3 of the drawing

The Druokräum® of the stamps 11 and 11a are connected via a® line 32 in connection ₈ to which a common inflow and outflow line 33 is connected ® jointly® inflow and caulking line 35 joins « fern & T guide

Designed:

- ?. QEZ. 1950

two lines 36 and 37 on the opposite ends of the pre-lifting cylinder 28 # Duron © in® pump 39, pressure fluid is pressed from a container 38 to a manually operated valve 40, from which the di® Pl Ii se igle © it either flows back through a® return line to the container or through a® © inaig® inflow line 31 to the valve housing 30, Di® Zuführungalei & ng 31 opens into a® Sammer 42 _e from which the pressure fluid reaches the main valve 43 of the System® of the channels and 45 with the inflow of the pressure medium in port connection _B while Sea on the other hand each connects the other of the channels 44 and with a return line 46 which leads back to the container 38. In the position shown, the pressure fluid can pass from the channel 42 into the channel 45 through the bore 47 and the channel 43 while the channel 44 communicates with the return line 46 but the inlet space 49. The channel 44 is directly connected to the line 36 _g which leads to one end of the gate thrust cylinder 23 and is connected to the line 35 of the stamps 12 and 12a via a spring-loaded check valve 50. The channel 45 leads in a similar Wels® directly to the line 47 and the opposite End® of the feed cylinder and via a spring-loaded Bücksohlagventil 51 to the line 33 of the stamp 11 and 11a «The Büoksohlagventile 50 and can be arranged on the two opposite sides of a piston 54 ® Vorsprung® 52 wa & 53 will be raised "the piston 54 is in a middle position shown in none of these Vorsprung® to its associated valve acts _g wobjgL ISTG assumed that the expansion is already one time and de # piston 54 dies® central position as a result of leaks if valve 43 is taken, all® punches press against the Hangend® and can »if @s necessary» take up a® G-e-rock load of, for example, 50 t calculated for Jedi's pair of punches »which the urensen represented the through. Maintaining pressure relief valves 55 and 56 _e which the flow from the conduits 33 and 35 to the over flow pipe 46 catching a result, * that the two pressure relief valves 55 and 56 under the action of a common spring 57 _s are beftrenst the pressure relief valve each system ₈ if it worked alone din sebirgslast for each punch group to 50 t _f while each punch group can hold 50 t »if both overpressure valves

Designed! -7. OEZ, 195 O

arbtit®n _f as it can happen after a blown standing time of the expansion® & nn _f ao that here the expansion can take a total load γon 100 t «

In the illustrated embodiment, it is desirable that b @ in the release of each punch group® each punch of this group nooh a® load of 1 t to overcome by the Vors®hubzylind®r. is _s when it executes a forward movement *. For this purpose there is a check valve 58 in each of the lines 33 and 35, which prevents a flow from the pistons and an overpressure valve 59 * which only allows an overpressure * if the pressure in the line is above a pressure which corresponds to a punch load of 1 t β

When the main valve 43 is in its illustrated position, leakage fluid flows over to the plungers 11 and 12 the check valve 51 and to the lower end of the advancing piston through the line 37 · The piston 54 with its lugs 52 and 53 acts as a DiJEerenaial piston as explained below and limits the setting load of the punches 11 and 11a to 5 t, whereby the indentations 52 and 53 each have a tenth of the piston area in cross-section that piston 54 has "

When the system works, it is necessary * that the main valve 43 reverses its action and changes from a distortion to the other® end position as quickly as possible * when one stamp group® has reached the set load of 5 t and the other relieves it down to 1 t is «Before the functioning of the system is explained», the mechanism ₉ with the help of which this® suddenly® reversal is achieved »is described»

The valve 43 has a rod 60 which protrudes into the chamber 42 and is provided with a longitudinal slot 61. The last® in which a bolt 62 of a tab 63 engages is therefore connected to the rod® in the manner of a tow coupling The Lasch® is b®i 64 connected to a tilting plate 65 which can tilt via a bolt 66 on an arm 67 «The plate 65 can swing downwards against the resistance of a pair of pedals * from which one is indicated at 68 and extends away from Attachments of the Kipplatt © to another plague arm 69 extends “When the tilting plate moves downwards, the abutment of the springs moves with the Platt® through a dead® mid-position _s after they exceed the effective

Designed: - 7 EET. 1950

kuag d @ r tension spring 63 the plate 65 au. a quick movement awingti while the pin 62 in de® slot 61 ·. the Ventilstang® 60 abuts the bottom of the End® Schiitsea and the valve 43 brings in β Tin® other Bndstellung "

Bit Kipplatt® 65 has a slot 70 into which a boIaen 71 of a laser © 72 engages «This® stands with the upper one End® of a plunger 73 in connection * which extends through a stuffing box 74 into a® chamber 75 and has a plug 76 there loaded by a® spring 77

The slot 70 in the plate 65 is arranged in relation to the axis® of the plunger 73 "that it forms a leg of an angle with the bolt 71 at the upper end® of the slot" Si® pressure fluid in the chamber 42 acts on the end ® the plunger 73 and the plunger is moved downwards against the spring 77 when this pressure reaches a certain amount »Here, the bolt 71 zips the plate 65 clockwise * so that the spring 68 through the middle mentioned above Dead center is pressed »It should be emphasized that the pressure in the chamber» at which the switching mechanism changes the position of the main valve 43 in this way _{e is} slightly above the pressure «at which the stamps their setting load ύοώ. 5 t get "Once the Pe df τη 68 at one end after exceeding the Jpdpunk" - tes entspannenβ caused the rapid movement of 65 β Sipplatte that the bolt connection with the Lasch® 72 their || Position at the other end of the slot 70 "which thereby executes a movement so that it now forms the other leg of the mentioned angle" The bolt now engages in a cutout at the other end and the plate 65 is through in its new position the tension of the spring 68 held "after it has passed the dead center © The springs now extend from the top right to the bottom left" The plunger 73 now protrudes again as far as possible into the Sammer 42 and can be pushed down again "when the pressure When the plunger 73 is pushed down again * the Lasen® 73 tilts the plate 65 counterclockwise and causes the spring 68 to pass through its dead center “so that the switching mechanism is again the one shown Takes position "

1 interpreted: • β - ^Β

wänrena. c

it is before

Bit Follow® d # r work processes® _fi wl @ si® naoustehe rüok®ni dts Expansion® is described _s @ ht aas «that all® divides themYes, in which« Lag® is shown in Fig. 3 «Xn These positions are all clamped between the hanging wall and the lying front. When the hydraulic fluid is fed to the JDsanal 45 and the lines and 37 ₈ the gate thrust cylinder encounters a resistance * and the pressure is released under the piston 54 of the secondary valve. The piston 54 is therefore raised and opens the valve 50 ₈ so that the pressure on the plungers 12 and 12a is relieved »whereby the line 35 is brought into connection with the return line 46» which brings about the supply of pressure fluid to the feed cylinder; now there is no movement of the system «Because the feed cylinder is fully pushed in. As a result, the pressure increases in the chamber 42, which received the switching mechanism and the valve 43 is now brought into its lower distortion in which the channel 44 is connected to the chamber 42, while the channel 45 with the return line 46, The change in valve position also brings the line at our end of the feed cylinder into connection with the return line 46 and, on the other hand, connects the line 36 to the upper end of the feed cylinder with the chamber 42 the lower position of the valve is supplied to the upper end of the _B Vorschubzylindera therefore the relieved punch 12 and 12a moves hydraulic fluid 43 in the position shown in dashed lines. At the same time pressure fluid flows through the line 35 to the advanced punches 12 and 12a and "as soon as the feed cylinder has reached the end of its agpeita stroke" the punches 12 and 12a are put under pressure until the setting load of 5 t is reached. Immediately above this pressure, the piston 54 is moved downwards, so that the valve 50 closes and the valve 51 is opened. This relieves the pressure on the stamps 11 and Ha, whereupon the pressure in the Kauaner 42 applies so that the switching mechanism holds the valve 43 in its upper position Line 31 is fed *

The printing sequence can be summarized as follows: The pre-stroke cylinder moves the relieved punches? if this® have a load of 1 t and the other punches take up a load of 5 t then clamped to 5 t and the other punches relieved by opening the corresponding check valve 50 or 51 »The pressure in the control comb controls the valve at a pressure slightly above de® of 5 t. The hydraulically locked stamps are

Designed:

-7.ΠΕΖ.1950

at 50 t load on one "" side of the carrion unit

The mechanism described for the tint © insig © expansion unit can generally be used with the invention for the advancement of a larger number of such units and these units can be arranged at intervals along a conveyor® * so that the conveyor as a whole with the Vorrüok @ fi d © @ expansion is laid "Although in the illustrated and described Ausführungsbeispi @ l stamps a Grupp® © rwähat _s was that SI® to be relieved to a Hangendruok from a Tonn®" 1st it possible the stamp completely by Hanging ® release before dl® feed device works «On every pail, dl® prevents overflow valve arrangement with pistons 54 and non-return valves 50 and 51 a®!

If it is desirable, hand-operated devices can also be provided _e with the help of which expansion can be relieved at will. For example, the lines 33 and 35 between their respective stamps and Süell impact and relief valves 58 and 59 can be provided with taps ₉ which are operated separately or together _{B to} connect these lines to the storage container «

Claims (1)

"Ίο - Interpreted: -7. OEZ. 1950 1 »mine roof» »that it beat®ht from SWEi groups of two consecutively arranged, and preferably rigidly connected pit stamping _g which are connected to each other into besonder® for mining operations, characterized in * that the individual die arrays may be alternately advanced in a relative movement to each other , when the punches of one group are released and the punches of the other group are under pressure * 2 «Pit lining, characterized according to claim I _8, characterized in that the two groups of dies are articulated to one another in a parallelogram arrangement«. 3β pit lining according to claims 1 and 2 »daduroh characterized that the pit ram is designed as a hydraulic © ram are and the pressure chambers of the stamps are in communicating connection ^ so that the stamps of a group can be operated by a single pump can be put under pressure » 4 «Pit lining according to claims 1 to 3» characterized by the arrangement of torso lifting means between the two groups of rams. 5 * Pit lining according to claims 1 to 4 _e daduroh characterized in that * 'the feed means consist of a double-acting * diagonally aryan a @ n punch groups arranged pre-stroke cylinder * 6 β pit lining according to claims 1 to 5 »characterized a that the opposite ends of the feed aylinder® are connected with corresponding sleeves »which surround the respective punch in an axially displaceable arrangement» 7 «Pit support according to claims 1 to S ₉ characterized by * that it consists of two hydraulically operated support units welch® are connected to each other in such a way that one® unit, when released, is tense compared to the other Unit can be advanced and a valve arrangement is provided which © allows a unit to be released only when the other unit is under bridge to a certain extent » - 11 - Interpreted: -7. OEZ. 1950 θ * mine roof NaOH in claims X to 7 ^ - characterized in that the verbunden® with the punches hydraulic system © ia main valve having _s daa one hand, a Flüasigkeitszufluss to d @ n stamping a group and on the other hand, a back flow of ά®τ other Grupp® and vice versa enabled during a second® yen »tll arrangement can be set to a certain pressure in the supply line © and can block and release the backflow * 9 β pit construction, na oh claims 1 to 8 »characterized * that the main valve is designed in such a way * that it supplies a 3rd @ of a gate schubaylinder with pressure ₉ when the stamps of a group are acted upon and at the same time a return flow from the other End of the feed cylinder allows and reverse 10 »mine support according to claims 1 to 9 _S characterized gekannt®iei &" net "that the hydraulic system is designed in such _e that di @ effect of the main valve, while maintaining a certain pressure in the pressurized system reversed kann® 11» mine support according to to claims 1 to 10 »characterized gokennseioh" net _f Haujltventil that is under the effect of a schnappsohlos®--like switching device " 12 β pit support na oh the claims 1 to H ₈ dadureh kems. » draws » that the secondary valve arrangement essentially consists of a double-acting differential piston arrangement on both sides of the non-return valves ₉ with the piston. b @ i a certain bridge in the one under pressure. Line can open the non-return valve of the non-pressurized X @ i3tungesyatems 13 _β mine support according to claims 1 to 12 ₁ in dadureh * that is provided for each stamp Grupp © ein® gemeinsam® supply and return line _s communicating with the pressure spaces of 3T @ mp @ lgrupp® in Terbindung and a branch au the Riickdruokventil comprising _e which opens at a certain mountain pressure and connects the duct with a return duct _e 14 "mine roof Naeh to claims 1 to 13» dadureh in that φ DI® two back pressure valves of both the supply and return lines under dr effect of a single spring between them arranged stand @ n * - 12 - Designed: -Z OEZ. 1950 Mine support according to the addresses 1 bia U. "that Mm ^ miÄmm are rbunden in a * Abbaub _@ drive di _@ Ausbautiahe th in Abstauen with the conveying Rain direction ^ characterized and all entaprechenden Druokräuat the individual expansion groups with" Y are rbonden each other *, so daa ^ ₃ p of Au construction and with it the Pirderer τοη a single point of control au _s operated and canoe "