CN201747392U - Combined top beam slipping hydraulic support system used in coal mine - Google Patents

Combined top beam slipping hydraulic support system used in coal mine Download PDF

Info

Publication number
CN201747392U
CN201747392U CN2010202800333U CN201020280033U CN201747392U CN 201747392 U CN201747392 U CN 201747392U CN 2010202800333 U CN2010202800333 U CN 2010202800333U CN 201020280033 U CN201020280033 U CN 201020280033U CN 201747392 U CN201747392 U CN 201747392U
Authority
CN
China
Prior art keywords
brace summer
main brace
hydraulic support
coupling beam
girder
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
CN2010202800333U
Other languages
Chinese (zh)
Inventor
王洪英
徐兴强
陈志才
石洪起
王昱
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
BEIJING CHENTIAN-HENGYE COLLERY EQUIPMENT Co Ltd
Original Assignee
BEIJING CHENTIAN-HENGYE COLLERY EQUIPMENT Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by BEIJING CHENTIAN-HENGYE COLLERY EQUIPMENT Co Ltd filed Critical BEIJING CHENTIAN-HENGYE COLLERY EQUIPMENT Co Ltd
Priority to CN2010202800333U priority Critical patent/CN201747392U/en
Application granted granted Critical
Publication of CN201747392U publication Critical patent/CN201747392U/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Landscapes

  • Conveying And Assembling Of Building Elements In Situ (AREA)

Abstract

The utility model relates to a combined top beam slipping hydraulic support system used in a coal mine, which comprises a main support beam, a main beam support device, a boundary beam, a boundary beam support device, a main beam coupling beam and a boundary beam coupling beam, wherein the middle of the main beam coupling beam is connected with the lower part of the main support beam through a movable connection mechanism, and cannot fall out from the main support beam; two ends of the main beam coupling beam are connected with the lower part of the boundary beam through a slip connection mechanism, and can slide and cannot fall out from the boundary beam; two ends of the boundary beam coupling beam are connected with the lower part of the boundary beam through the movable connection mechanism, and cannot fall out from the boundary beam; the middle of the boundary beam coupling beam is connected with the lower part of the main support beam through the slip connection mechanism, and can slide and cannot fall out from the boundary beam; and the main support beam and the boundary beam can move in an interactive way under the traction action of a hydraulic control device. The combined top beam slipping hydraulic support system solves the problems that the conventional hydraulic support cannot eliminate the incline phenomena during the bracket transferring process at the same time and cannot provide effective support to an oblique top plate, the bracket deforms caused by uneven pressure, and the bracket transferring work is cumbersome.

Description

A kind of landing beam sliding hydraulic support system for coal mine
Technical field
The utility model relates to a kind of colliery hydraulic support equipment, relates in particular to a kind of linked roof bar gliding hydraulic bracket system.
Background technology
Termination and crossheading supporting always are the emphasis and the difficult point of safety coal mining about the coal-face, present coal-face both domestic and external termination and crossheading supporting mainly contain two kinds of forms: the one, and the supporting of automatic moving type face end support, the 2nd, towering beam of single-column or single-column hinge beam combined supporting.Wherein the automatic moving type face end support is bulky and heavy, the pedestrian space is little, transport and install all very difficulty, and therefore, this mode is not adopted or seldom adopts in most of colliery; The towering beam of single-column or single-column hinge beam combined supporting formal cause its flexibly, convenient, low cost and other advantages and being adopted by most of colliery, but this mode operation sequence complexity, labour intensity are big, have a strong impact on the performance of coal excavation apparatus ability and the raising of production efficiency.Simultaneously, this mode safety is relatively poor relatively, and general accident is more.How not only safety but also the termination and the crossheading supporting that solve coal-face efficiently are the technical barriers of puzzlement Safety of Coal Mine Production always.
Suspension moving hydraulic support is the intermediate products between above-mentioned two kinds of support patterns, it had both had self-advancing support good integrity, moving property and safe advantage certainly, also have simultaneously towering beam of single-column and hinge girder construction simple, move flexibly, control the big advantage in space, since releasing, be known as the basic mode that effectively solves face end or roadway support under the present technical condition by the colliery always.Because suspension moving hydraulic support self do not have the chassis, can avoid and termination equipment is installed conflicts, thereby the equipment that can guarantee the position, termination has enough layouts and space for maintenance, again can with the same moved further of coal excavation apparatus in the work plane.Need to overcome the " " phenomenon of bowing in the desirable hydraulic support moving process, the phenomenon of " bowing " be since hydraulic support in moving the frame process, the reach part that takes the lead in lacks effective support in the process of protracting, run-off the straight earthward under the roof pressure effect, because this reach part produces certain gradient with the expection reach direction of hydraulic support, and can't correct the gradient that is caused from the top board immense pressure by the supporting role of later stage machinery, this will cause moving frame work and can't continue subsequently;
Because in the actual condition, top board is not smooth, hydraulic support need provide effective support to irregular top board;
In addition, hydraulic support also needs to overcome problem on deformation when roof supporting: because traditional hydraulic support is for being rigidly connected, and the top board in the actual job process is not smooth, causes hydraulic support often to deform because of unbalance stress in the process of roof supporting.
For solving the problem of " bowing ", CN201025054Y has proposed a kind of lift-moving type linked roof bar hydraulic support, comprise beam body and pillar, the beam body comprise a word beam with by Zuo Liang, right beam and be connected at least one of left and right beam and connect the U-shaped beam that crossbeam is formed, left and right beam is with to be connected crossbeam integrally welded.Because left and right beam is with to be connected crossbeam integrally welded, left and right beam be connected between the crossbeam and can't relatively move, a word beam is connected by the passing jack with the U-shaped beam.On a U-shaped beam and a word beam, be provided with the guide and limit structure, the guiding gusset that this lead position limiting structure comprises the limited block on the connection crossbeam that is arranged on the U-shaped beam and is arranged on the described left and right beam inboard and the word beam outside, described guiding gusset matches with described limited block, so that left and right beam or the mobile of word beam are led.When moving frame, a word beam serves as to support the reach that takes the lead in the U-shaped beam, in the reach process, limits because a word beam is subjected to the position of guide and limit mechanism, can prevent " bowing " phenomenon preferably.In addition, it is not loaded down with trivial details that the hydraulic support of this structure moves frame work yet, only a word beam and U-shaped beam need be supported mobile getting final product each other, do not have the extra connection crossbeam that moves separately of needs.
But, because the left and right beam of such support makes left and right beam must be in same level height with to be connected crossbeam integrally welded.When running into top board not at ordinary times, can't play effective support; In moving the frame process, because a word beam and U-shaped beam stress are inhomogeneous, make that easily guiding gusset and limited block deform under roof pressure, finally cause hydraulic support can't continue to move frame.
For solving the problem of hydraulic support to uneven top plate supporting and support intensity, CN201103399Y disclose a kind of with before and after drag the suspension moving hydraulic support of beam, drag beam to adopt compression spring device to be suspended on the back timber below before and after it, this compression spring device is made up of built-in cylindrical compression spring of spring spool and connection bearing pin.The hydraulic support of this structure is because at back timber and drag compression spring device is set between beam, can play effective support to ceiling not.Simultaneously, in the process of moving frame and roof supporting, also can play certain cushioning and protection, avoid hydraulic support to produce distortion because of pressurized is uneven hydraulic support.But the frame work that moves of such hydraulic support is comparatively loaded down with trivial details, will serve as to support this hydraulic support is moved forward one by one with adjacent hydraulic support at first, after all hydraulic support is moved into place, also needs and will be used to connect the connection crossbeam reach of each hydraulic support.These the two spacing broads that connect crossbeam often are arranged with two in parallel and connect crossbeam, if will cause hydraulic support single forward pitch from shorter; Otherwise, if narrower, then when hydraulic support is subjected to immense pressure from top board because of reach,,, and certainly lead to " bowing " phenomenon again less than the effective support that connects crossbeam because its bottom is unsettled, cause the follow-up frame work that moves to carry out.In addition, owing to be used to connect the connection crossbeam and the non-integral of adjacent hydraulic support, but the segmentation combination, this also will inevitably influence the globality and the stability of hydraulic support.
In addition, CN1067479A discloses a kind of hydraulic prop for moving suspended top beam, this hydraulic support includes girder, Zuo Fuliang, right three back timbers of beam of paying, and passes through the elasticity quadric chain between girder and the left and right pair of beam, but the oil cylinder of taking a step to advance of hinged synchronization action respectively.Such support can be done corresponding swing according to ceiling not, thereby realize the not support of ceiling, also can solve " bowing " problem to a certain extent, but because its girder is connected respectively by the elasticity quadric chain with left and right pair of beam, when running into not ceiling, need adjust left and right pair of beam, complex operation respectively.
Above-mentioned three kinds of suspension moving hydraulic supports can only solve in the following problems, can not solve following two problems simultaneously:
1, hydraulic support in moving the frame process " bowing " phenomenon and to move frame work loaded down with trivial details;
2, hydraulic support deforms because of being subjected to the top board immense pressure in moving the frame process, and can not keep smooth after moving frame, can't realize the not support of ceiling.
CN201025054Y and desirable hydraulic support are the most approaching, because it is by the limited block on the connection crossbeam that is arranged on the U-shaped beam and be arranged on a left side, the firm and hard position guiding of now moving in the frame process of right beam guiding rib inboard and the word beam outside, moving in the frame process limited block slides in the guiding gusset, can solve " bowing " problem to a certain extent, if but can't provide to imitate to ceiling not and support and problem such as hydraulic support is yielding for solving it, between guiding gusset and limited block, introduce the elastic construction among the CN201103399Y, then can break and change its mutual fit structure, it can not be moved according to the mode of setting.Equally, still keep smooth after making the disclosed technical scheme of CN1067479A realize moving, then need to use the U-shaped girder construction of CN201025054Y, in fact, not only used to connect crossbeam but also use four-bar linkage structure can't realize technically.
In addition, because the path in face tunnel, termination is not straight, therefore moving the different directions adjustment that also needs in the frame process according to the path at hydraulic support moves the frame direction, and the above-mentioned hydraulic support of mentioning all can't address this problem.CN1067136C discloses a kind of steering hydraulic support, by back timber, propelling oil cylinder, hydraulic prop, and two groups formed around the property quadric chain, wherein a side of one group of quadric chain is provided with the upright fork with two long arc-shaped holes, and with slide block, go up connecting rod, bearing pin and location-plate and form upright pendulum sliding-block linkage, when support is advanced, a back timber roof supporting, another back timber changes the spacing of its rear end and supporting top beam by upright fork swing, thereby reaches the purpose that automatic adjusting moves the frame direction.This support is owing to adopted two frame structures, when a back timber roof supporting, when another back timber half uninstall is moved frame, the less stable of hydraulic support, upright pendulum sliding-block linkage hour can operate as normal at roof pressure, complicated or be subjected to roof pressure when excessive when operating mode, this structure can't realize moving normally the frame tuning.
The utility model content
Technical problem to be solved in the utility model be existing hydraulic support can't solve simultaneously move in the frame process hydraulic support owing to be subjected to roof pressure produce " bowing " phenomenon, can't to ceiling not provide imitate support, hydraulic support is subjected to differential pressure and is out of shape and moves problems such as frame work is loaded down with trivial details.
Further, the utility model has also solved hydraulic support moves the frame direction according to the tunnel adjustment in moving the frame process problem, also solved the leakage top phenomenon that produces betwixt owing to move forward one by one between the support simultaneously, realized full-time sealing, guaranteed construction safety top board.
For this reason, the technical scheme that the utility model adopted is: a kind of landing beam sliding hydraulic support system for coal mine comprises:
Main brace summer;
Girder bracing or strutting arrangement, described girder bracing or strutting arrangement are positioned at described main brace summer below;
Side beam places described main brace summer both sides;
The side bar bracing or strutting arrangement places described side beam below;
The girder coupling beam, the middle part of described girder coupling beam is connected in the below of described main brace summer and does not fall off in main brace summer by moving connecting mechanism, and its two ends are connected in described side beam slid underneath and do not fall off in side beam by the mechanism that is slidingly connected;
The side bar coupling beam, the two ends of described side bar coupling beam are connected in the below of described side beam and do not fall off in side beam by moving connecting mechanism, and its middle part is connected in described main brace summer slid underneath and does not fall off in side beam by the mechanism that is slidingly connected;
Described girder coupling beam and side bar coupling beam be arranged in parallel;
Described main brace summer and side beam are realized interactive moving under the draw of hydraulic control device.
Further, the described mechanism that is slidingly connected comprises:
Chute is arranged at described main brace summer and side beam soffit, and offers along described main brace summer and side beam length direction;
Pin is slidingly connected, pass described girder coupling beam or side bar coupling beam, its upper end is equiped with to slide and is arranged at the interior limited block of described chute, its lower end is equiped with anti-flake, described anti-flake is used for the girder coupling beam is fixed in the position of described side beam below near soffit, or is used for the side bar coupling beam is fixed in the position of described main brace summer below near soffit.
Further, described moving connecting mechanism comprises:
Fixedly connected pin passes described girder coupling beam and side bar coupling beam;
Spacer pin through the through hole and the pin-and-hole that is arranged at described main brace summer and side beam below of fixedly connected pin upper end, is used for described main brace summer and side beam below will be fixed in described fixedly connected pin upper end; And,
Anti-flake is installed in described fixedly connected pin lower end and is used for the girder coupling beam is fixed in the position of described main brace summer below near soffit, or is used for the side bar coupling beam is fixed in the position of described side beam below near soffit.
Further, be equiped with elastic device between described anti-flake and girder coupling beam or the side bar coupling beam.
Further, also comprise the fixed edge coupling beam, the two ends of described fixed edge coupling beam are fixedly connected on the below of side beam one end respectively.
Further, leave the gap that is used to turn between described main brace summer and the side beam, described hydraulic control device quantity is two and is parallel to each other, and is provided with along described main brace summer and side beam length direction; Described hydraulic control device one end links to each other with main brace summer or girder coupling beam, and its other end links to each other with side beam or side bar coupling beam.
Further, the side that described main brace summer and side beam are positioned at the end offers vertical chute along described main brace summer and side beam length direction, and activity is equiped with the flexible shielding plate that does not fall off in described vertical chute in described vertical chute.
Described flexible shielding plate is installed in vertical chute that described main brace summer and side beam leading section offer, correspondingly, the corresponding respectively head of the front end of described flexible shielding plate is in vertical chute that the main brace summer and the side beam rearward end of adjacent last hydraulic support are offered.
Perhaps, described flexible shielding plate is installed in vertical chute that described main brace summer and side beam rearward end offer, correspondingly, the corresponding respectively head in the rear end of described flexible shielding plate is in vertical chute that the main brace summer and the side beam leading section of an adjacent back hydraulic support are offered.
Further, the bottom of described main brace summer is provided with the horizontal concrete chute perpendicular to its length direction, and activity is equiped with the girder bracing or strutting arrangement in the described horizontal concrete chute.
Landing beam sliding hydraulic support system for coal mine of the present utility model can form a reliable supporting integral body at the upper and lower termination and the upper and lower crossheading of work plane, to guarantee that this section can guarantee workman's personal safety, can alleviate working strength of workers again, reduce the supporting operation, raise labour productivity.Wherein, each unit hydraulic support all is the integral body of a combination, by changing the connected mode between the back timber in the prior art, makes hydraulic support have tangible globality, flexibility, reliability and safety.
In addition, the technical solution of the utility model also has following tangible difference and advantage compared to existing technology:
1, by be slidingly connected mechanism and moving connecting mechanism beam body and girder coupling beam and side bar coupling beam are fixed together, form the linked roof bar structure, make hydraulic support have tangible globality, reliability and safety.Separately along with main brace summer and side beam move, it is longer to make that single moves frame distance, does not also have the extra mobile separately connection crossbeam of needs in moving the frame process for girder coupling beam and side bar coupling beam, thereby it is comparatively easy to move frame work.Main brace summer and side beam effectively support in moving the frame process in real time each other, and hydraulic support stability is stronger, and is stressed also more reasonable, be difficult for producing hydraulic support in moving the frame process because of being subjected to " bowing " phenomenon that roof pressure takes place.Simultaneously, owing to be connected for elasticity between main brace summer and side beam and girder coupling beam and the side bar coupling beam, permission exists certain height poor between main brace summer and side beam, can provide effective support for ceiling not, correspondingly also reduce hydraulic support because of being subjected to the probability that differential pressure deforms.In addition, flexible connected mode can either make girder coupling beam and side bar coupling beam keep being adjacent to main brace summer and side beam respectively, helps the impact that slow light main brace summer or side beam produce hydraulic support when unloading in moving the frame process again.
2, hydraulic support can move the frame direction along with tunnel crooked route adjustment, structure in conjunction with this hydraulic support, by two hydraulic control devices are set, and control that it is mutual flexible poor, make hydraulic support in moving the frame process, the direction of offering with the tunnel to carry out tuning.
3, this hydraulic support has fundamentally solved the hydraulic support reach and top board has been supported repeatedly, causes the hydraulic support reach top problem that the local slump of top board (coal) is hurted sb.'s feelings with the sky top.Particularly, in recovery process, hydraulic support is pushed ahead synchronously with the propelling of work plane, the time difference that can have an empty top, this empty top time difference is the time of accident pilosity and zone exactly also, in order to solve this security hidden trouble, form one to the totally enclosed shielding integral body of top board by flexible shielding plate between this hydraulic support hydraulic support that front and back are adjacent, no matter be that hydraulic support is in mobile status or the work holding state is all so, thereby effectively avoid the accident that collapses and fall to hurting sb.'s feelings because of hydraulic support top in the hydraulic support moving process.
4, hydraulic support master brace summer bottom surface is provided with the girder bracing or strutting arrangement that can laterally slide, and under the prerequisite that does not reduce supporting intensity, the girder bracing or strutting arrangement can laterally move, and conflicts to avoid with the equipment of the hydraulic support below installation site taking place.
5, because this hydraulic rack structure form is combined, can amplify or dwindle stent length or width according to the specification in tunnel, therefore have tangible compliance.Moreover, the indivisible single-piece volume of support is little, in light weight, and is little to the specification binding character of haulage drift, so large, medium and small colliery is all had extremely strong compliance.
6, the girder bracing or strutting arrangement of hydraulic support and side bar bracing or strutting arrangement can be realized centralized Control, thereby have improved automaticity, have alleviated working strength of workers, have improved workman's working environment.
Description of drawings
Structural representation when Fig. 1 is hydraulic control device connection girder coupling beam and side bar coupling beam;
Fig. 2 is an A-A line sectional view among Fig. 1;
Fig. 3 is the partial sectional view of mechanism of being slidingly connected among Fig. 2;
Fig. 4 is the partial sectional view of moving connecting mechanism among Fig. 2;
Fig. 5 is the structural scheme of mechanism that is slidingly connected of boss and roller structure;
Fig. 6 is a structural representation of having set up the fixed edge coupling beam;
Fig. 7 is the hydraulic bracket system schematic diagram that hydraulic control device connects main brace summer and side beam;
Fig. 8 is the hydraulic bracket system schematic diagram that hydraulic control device connects main brace summer and side bar coupling beam.
Wherein: 1-master's brace summer, 2-side beam, 3-side bar coupling beam, 4-hydraulic control device, 5-girder coupling beam, 6-girder bracing or strutting arrangement, 7-fixed edge coupling beam, 8-side bar bracing or strutting arrangement, the flexible shielding of 9-plate, 10-chute, the 11-pin that is slidingly connected, the 12-horizontal concrete chute, the fixedly connected pin of 13-, 14-spacer pin, 15-elastic device, 16-limited block, the 17-mechanism that is slidingly connected, 18-prevents flake, the 19-moving connecting mechanism, 20-boss, 21-roller.
The specific embodiment
For the easier quilt of content of the present utility model is clearly understood, according to specific embodiment of the utility model also in conjunction with the accompanying drawings, the utility model is described in further detail below.
Embodiment 1
In conjunction with shown in Figure 1, described landing beam sliding hydraulic support system for coal mine, comprise main brace summer 1, be positioned at described main brace summer 1 below girder bracing or strutting arrangement 6, place the side beam 2 of described main brace summer 1 both sides and the side bar bracing or strutting arrangement 8 that places described side beam 2 belows.Be provided with side bar coupling beam 3 and girder coupling beam 5 at main brace summer 1 and side beam 2 parallel beneath, the middle part of side bar coupling beam 3 is connected in main brace summer 1 below by the mechanism 17 that is slidingly connected, and can slide and not fall off in main brace summer 1; The two ends of side bar coupling beam 3 are connected in side beam 2 belows by moving connecting mechanism 19.The middle part of girder coupling beam 5 is connected in main brace summer 1 below by moving connecting mechanism 19; The two ends of girder coupling beam 5 are connected in side beam 2 belows by the mechanism 17 that is slidingly connected respectively, and can slide and not fall off in side beam 2.
Main brace summer 1 and side beam 2 are realized interactive moving under the draw of hydraulic control device 4, hydraulic control device 4 is along main brace summer 1 and side beam 2 length direction settings, it is installed quantity and can be one or more, one end of hydraulic control device 4 can be installed on main brace summer 1 or the girder coupling beam 5, the other end is installed on side beam 2 or the side bar coupling beam 3, hydraulic control device 4 quantity are two and are parallel to each other in the present embodiment, and its two ends are connected with side bar coupling beam 3 with girder coupling beam 5 respectively.
In conjunction with Fig. 2 and shown in Figure 3, the mechanism 17 that is slidingly connected comprises chute 10, the pin 11 that is slidingly connected, limited block 16 and anti-flake 18.Chute 10 is arranged at main brace summer 1 and side beam 2 soffits, and offers along main brace summer 1 and side beam 2 length directions; Limited block 16 is installed in pin 11 upper ends and slide of being slidingly connected and places in the chute 10; Anti-flake 18 is installed in pin 11 lower ends that are slidingly connected, and its role is to girder coupling beam 5 is fixed in the position of described side beam 2 belows near soffit, and side bar coupling beam 3 is fixed in the position of described main brace summer 1 below near soffit.
In conjunction with Fig. 2 and shown in Figure 4, moving connecting mechanism 19 comprises fixedly connected pin 13, spacer pin 14 and anti-flake 18.Fixedly connected pin 13 is through described girder coupling beam 5 and side bar coupling beam 3.Spacer pin 14 is used for described main brace summer 1 and side beam 2 belows are fixed in described fixedly connected pin 13 upper ends through the through hole and the pin-and-hole that is arranged at described main brace summer 1 and side beam 2 belows of fixedly connected pin 13 upper ends; Anti-flake 18 is installed in fixedly connected pin 13 lower ends, its role is to girder coupling beam 5 is fixed in the position of described main brace summer 1 below near soffit, and side bar coupling beam 3 is fixed in the position of described side beam 2 belows near soffit.
Be equiped with elastic device 15 between anti-flake 18 and girder coupling beam 5 or the side bar coupling beam 3, this elastic device 15 can make girder coupling beam 5 and side bar coupling beam 3 keep being close to main brace summer 1 and side beam 2 respectively.Simultaneously, in moving the frame process, also can play the process that main brace summer 1 of buffering and side beam 2 fall, reduce impact force, prevent the hydraulic support distortion.
For forming effective protection zone between the hydraulic support adjacent before and after making; the side that is positioned at the end at main brace summer 1 and side beam 2 offers vertical chute (not shown) along described main brace summer 1 and side beam 2 length directions; the flexible shielding of movable installing plate 9 in described vertical chute; flexible shielding plate 9 do not come off the scope of vertical chute its role is to shielding in time and moves the top board that exposes because of main brace summer 1 and side beam 2.
In the present embodiment, the front end of flexible shielding plate 9 is movable respectively and be not installed in vertical chute that the rearward end of main brace summer 1 and side beam 2 offers with not coming off, and the rear end of this flexible shielding plate 9 corresponding respectively movable and be not installed in vertical chute that the leading section of the main brace summer 1 of an adjacent back hydraulic support and side beam 2 offers with not coming off.In like manner, also the rear end of the shielding plate 9 that stretches can be installed on respectively in vertical chute that the leading section of main brace summer 1 and side beam 2 offers, the front end of flexible shielding plate 9 is corresponding respectively to be movably installed in vertical chute that the rearward end of the main brace summer 1 of adjacent last hydraulic support and side beam 2 offers.
Main brace summer 1 bottom surface offers horizontal concrete chute 12, and activity is equiped with girder bracing or strutting arrangement 6 in the horizontal concrete chute 12.Girder bracing or strutting arrangement 6 can slide along horizontal concrete chute 12, adjusts girder bracing or strutting arrangement 6 and is arranged at distance between the side bar bracing or strutting arrangement 8 on the side beam 2 with convenient, and effectively prevent to conflict with equipment occurrence positions under the hydraulic support.
Support to girder bracing or strutting arrangement 6 and side bar bracing or strutting arrangement 8 is to adopt centralized Control with the effect of mentioning in the course of the work, can effectively improve automaticity, alleviates working strength of workers.
The course of work of this hydraulic bracket system is as follows:
The first step: mention the girder bracing or strutting arrangement 6 below the main brace summer 1, main brace summer falls within for 1 time on side bar coupling beam 3 and the girder coupling beam 5, side bar coupling beam 3, girder coupling beam 5 begin to be compressed with the elastic device 15 of side beam 2 junctions, main brace summer 1 continues to fall to the position after elastic device 15 is compressed, so far, realize that main brace summer 1 breaks away from top board and unloading.
Second step: operation hydraulic control device 4 shrinks, the main brace summer 1 of girder coupling beam 5 drives this moment moves to the direction near side bar coupling beam 3 relative to side bar coupling beam 3 and side beam 2, flexible shielding plate 9 on the main simultaneously brace summer 1 stretches out round about, screens main brace summer 1 to move the top board that the back exposes.After main brace summer 1 moves to the distance of hydraulic control device 4 settings, support girder bracing or strutting arrangement 6, make main brace summer 1 contact and roof supporting, reach setting load, enter the support works state.
The 3rd step: the side bar bracing or strutting arrangement 8 of mentioning side beam 2 bottom surfaces, at this moment, side beam falls within for 2 times on side bar coupling beam 3 and the girder coupling beam 5, the elastic device 15 of side bar coupling beam 3 and girder coupling beam 5 and main brace summer 1 junction is compressed simultaneously, side beam 2 continues to fall to the position after elastic device 15 is compressed, and realizes that side beam 2 breaks away from top board and unloading.
The 4th step: operation hydraulic control device 4 stretches out, side bar coupling beam 3 drives side beam 2 and moves to the direction away from girder coupling beam 5 relative to girder coupling beam 5 and main brace summer 1, flexible shielding plate 9 on the side beam 2 stretches out round about simultaneously, and shielding side beam 2 moves the top board that the back exposes.After moving to the distance of hydraulic control device 4 settings, support side bar bracing or strutting arrangement 8 and make side beam 2 contact and roof supportings, reach setting load, enter the support works state.
The 5th step: along with moving and the reach of rear adjacent support of corollary equipment, flexible shielding plate 9 is regained, and realizes complete reach circulation of hydraulic support.
When hydraulic support need be adjusted direction along with the path, tunnel, can move in the frame process at hydraulic support and realize tuning.In conjunction with shown in Figure 1, leave the gap that is used to turn between main brace summer 1 and the side beam 2, the installation quantity of hydraulic control device 4 is two, the big more tuning effect of lateral separation between the hydraulic control device 4 is good more, move in the frame process, after main brace summer 1 broke away from top board and unloading, the stroke of control left side and right side hydraulic control device 4 can be realized the adjustment of main brace summer 1 direction of advance.Particularly, realize that hydraulic support is offset to the left, the stroke of the hydraulic control device 4 on the left of then being positioned at is less than the stroke of right side hydraulic control device 4, and vice versa.After main brace summer 1 moves to the distance of setting, support girder bracing or strutting arrangement 6, make main brace summer 1 contact and roof supporting, reach setting load, enter the support works state.Then continue mobile side beam 2, finish the tuning work of whole hydraulic support.
Embodiment 2
Present embodiment has proposed the design scheme of the another kind of mechanism 17 that is slidingly connected, in conjunction with shown in Figure 5, soffit at main brace summer 1 (not shown) and side beam 2 is provided with a boss 20, and this boss 20 is along main brace summer 1 and side beam 2 length direction settings, in the track of boss 20, be provided with a pair roller 21, this roller 21 is connected with girder coupling beam 5 and side bar coupling beam 3 (not shown), and can drive girder coupling beam 5 and side bar coupling beam 3 is slided in the track of boss 20.
Be provided with elastic device 15 between girder coupling beam 5 and side bar coupling beam 3 and boss 20, this elastic device 15 can make girder coupling beam 5 and side bar coupling beam 3 keep being close to main brace summer 1 and side beam 2 respectively.Simultaneously, in moving the frame process, also can play the process that main brace summer 1 of buffering and side beam 2 fall, reduce impact force, prevent the hydraulic support distortion.
Embodiment 3
In conjunction with shown in Figure 3, the difference of present embodiment and embodiment 1 is: increased fixed edge coupling beam 7, the two ends of fixed edge coupling beam 7 are fixedly connected on the below of side beam 2 one ends respectively.By setting up fixed edge coupling beam 7, make that the combination of two side beams 2 is more stable, can strengthen the globality and the supporting intensity of hydraulic support.
Embodiment 4
In conjunction with shown in Figure 7, the difference of present embodiment and embodiment 3 is: flexible shielding plate 9 is in contraction state, and an end of hydraulic control device 4 is fixed on the main brace summer 1, and its other end is fixed on the side beam 2, and hydraulic control device 4 is flexible along main brace summer 1 length direction.When the hydraulic control device 4 of both sides was worked simultaneously, the side beam 2 that can drive main brace summer 1 and both sides moved along its length direction is interactive.
Embodiment 5
In conjunction with shown in Figure 8, present embodiment is with the difference of embodiment 3: an end of the hydraulic control device 4 in the present embodiment is fixedlyed connected with side bar coupling beam 3, and its other end is fixedly connected with main brace summer 1.
When the hydraulic control device 4 of both sides was worked simultaneously, the side beam 2 that can drive main brace summer 1 and both sides moved along its length direction is interactive.
Obviously, the foregoing description only is for example clearly is described, and is not the qualification to embodiment.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here need not also can't give exhaustive to all embodiments.And conspicuous variation of being extended out thus or change still are among the protection domain of the utility model creation.

Claims (10)

1. a landing beam sliding hydraulic support system for coal mine comprises
Main brace summer (1);
Girder bracing or strutting arrangement (6), described girder bracing or strutting arrangement (6) are positioned at described main brace summer (1) below;
Side beam (2) places described main brace summer (1) both sides;
Side bar bracing or strutting arrangement (8) places described side beam (2) below;
It is characterized in that, also comprise:
Girder coupling beam (5), the middle part of described girder coupling beam (5) is connected in the below of described main brace summer (1) and does not fall off in main brace summer (1) by moving connecting mechanism (19), and its two ends are slidingly connected to described side beam (2) below and do not fall off in side beam (2) by the mechanism that is slidingly connected (17);
Side bar coupling beam (3), the two ends of described side bar coupling beam (3) are connected in the below of described side beam (2) and do not fall off in side beam (2) by moving connecting mechanism (19), and its middle part is slidingly connected to described main brace summer (1) below and does not fall off in side beam (2) by the mechanism that is slidingly connected (17);
Described girder coupling beam (5) and side bar coupling beam (3) be arranged in parallel;
Described main brace summer (1) and side beam (2) are realized interactive moving under the draw of hydraulic control device (4).
2. landing beam sliding hydraulic support system for coal mine according to claim 1 is characterized in that: the described mechanism that is slidingly connected (17) comprises
Chute (10) is arranged at described main brace summer (1) and side beam (2) soffit, and offers along described main brace summer (1) and side beam (2) length direction;
Pin (11) is slidingly connected, pass described girder coupling beam (5) or side bar coupling beam (3), its upper end is equiped with to slide and is arranged at the interior limited block of described chute (10), its lower end is equiped with anti-flake (18), described anti-flake (18) is used for girder coupling beam (5) is fixed in the position of described side beam (2) below near soffit, or is used for side bar coupling beam (3) is fixed in the position of described main brace summer (1) below near soffit.
3. landing beam sliding hydraulic support system for coal mine according to claim 1 is characterized in that: described moving connecting mechanism (19) comprises
Fixedly connected pin (13) passes described girder coupling beam (5) or side bar coupling beam (3);
Spacer pin (14) through the through hole and the pin-and-hole that is arranged at described main brace summer (1) or side beam (2) below of fixedly connected pin (13) upper end, is used for described main brace summer (1) and side beam (2) below will be fixed in described fixedly connected pin (13) upper end; And
Anti-flake (18), be installed in described fixedly connected pin (13) lower end and be used for girder coupling beam (5) is fixed in the position near soffit, described main brace summer (1) below, or be used for side bar coupling beam (3) is fixed in the position of described side beam (2) below near soffit.
4. according to claim 2 or 3 described landing beam sliding hydraulic support system for coal mine, it is characterized in that: be equiped with elastic device (15) between described anti-flake (18) and girder coupling beam (5) or the side bar coupling beam (3).
5. according to the arbitrary described landing beam sliding hydraulic support system for coal mine of claim 1 to 3, it is characterized in that:
Also comprise fixed edge coupling beam (7), the two ends of described fixed edge coupling beam (7) are fixedly connected on the below of side beam (2) one ends respectively.
6. according to the arbitrary described landing beam sliding hydraulic support system for coal mine of claim 1 to 3, it is characterized in that:
Leave the gap that is used to turn between described main brace summer (1) and the side beam (2);
Described hydraulic control device (4) quantity is two and is parallel to each other, and along described main brace summer (1) and side beam (2) length direction setting; Described hydraulic control device (4) one ends link to each other with main brace summer (1) or girder coupling beam (5), and its other end links to each other with side beam (2) or side bar coupling beam (3).
7. as the arbitrary described landing beam sliding hydraulic support system for coal mine of claim 1 to 3, it is characterized in that:
The side that described main brace summer (1) and side beam (2) are positioned at the end offers vertical chute along described main brace summer (1) and side beam (2) length direction, and activity is equiped with the flexible shielding plate (9) that does not fall off in described vertical chute in described vertical chute.
8. landing beam sliding hydraulic support system for coal mine as claimed in claim 7 is characterized in that:
Described flexible shielding plate (9) is installed in vertical chute that described main brace summer (1) and side beam (2) leading section offer, correspondingly, the corresponding head of the front end of described flexible shielding plate (9) difference is in vertical chute that the main brace summer (1) and side beam (2) rearward end of adjacent last hydraulic support are offered.
9. landing beam sliding hydraulic support system for coal mine as claimed in claim 7 is characterized in that:
Described flexible shielding plate (9) is installed in vertical chute that described main brace summer (1) and side beam (2) rearward end offer, correspondingly, difference corresponding head in the rear end of described flexible shielding plate is in vertical chute that the main brace summer (1) and side beam (2) leading section of an adjacent back hydraulic support are offered.
10. as the arbitrary described landing beam sliding hydraulic support system for coal mine of claim 1 to 3, it is characterized in that:
The bottom of described main brace summer (1) is provided with the horizontal concrete chute (12) perpendicular to its length direction, and the interior activity of described horizontal concrete chute (12) is equiped with girder bracing or strutting arrangement (6).
CN2010202800333U 2010-08-02 2010-08-02 Combined top beam slipping hydraulic support system used in coal mine Expired - Lifetime CN201747392U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2010202800333U CN201747392U (en) 2010-08-02 2010-08-02 Combined top beam slipping hydraulic support system used in coal mine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2010202800333U CN201747392U (en) 2010-08-02 2010-08-02 Combined top beam slipping hydraulic support system used in coal mine

Publications (1)

Publication Number Publication Date
CN201747392U true CN201747392U (en) 2011-02-16

Family

ID=43582075

Family Applications (1)

Application Number Title Priority Date Filing Date
CN2010202800333U Expired - Lifetime CN201747392U (en) 2010-08-02 2010-08-02 Combined top beam slipping hydraulic support system used in coal mine

Country Status (1)

Country Link
CN (1) CN201747392U (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101906984A (en) * 2010-08-02 2010-12-08 北京诚田恒业煤矿设备有限公司 Landing beam sliding hydraulic support system for coal mine
CN102913266A (en) * 2011-08-05 2013-02-06 郑州四维机电设备制造有限公司 Two-stage telescopic tamping mechanism used for recrement filling hydraulic support
CN103277107A (en) * 2013-06-24 2013-09-04 张井龙 Shield type roadway heading machine
CN106640162A (en) * 2016-11-23 2017-05-10 安徽普特机械制造有限公司 Antiskid large-inclination angel hydraulic support and control method thereof
CN106640165A (en) * 2016-11-23 2017-05-10 安徽普特机械制造有限公司 Hydraulic support for coal mines and control method thereof

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101906984A (en) * 2010-08-02 2010-12-08 北京诚田恒业煤矿设备有限公司 Landing beam sliding hydraulic support system for coal mine
CN101906984B (en) * 2010-08-02 2012-05-02 北京诚田恒业煤矿设备有限公司 Landing beam sliding hydraulic support system for coal mine
CN102913266A (en) * 2011-08-05 2013-02-06 郑州四维机电设备制造有限公司 Two-stage telescopic tamping mechanism used for recrement filling hydraulic support
CN102913266B (en) * 2011-08-05 2015-09-23 卡特彼勒(郑州)有限公司 For the two-stage stretching tamping mechanism of waste filling hydraulic support
CN103277107A (en) * 2013-06-24 2013-09-04 张井龙 Shield type roadway heading machine
CN103277107B (en) * 2013-06-24 2015-01-28 张井龙 Shield type roadway heading machine
CN106640162A (en) * 2016-11-23 2017-05-10 安徽普特机械制造有限公司 Antiskid large-inclination angel hydraulic support and control method thereof
CN106640165A (en) * 2016-11-23 2017-05-10 安徽普特机械制造有限公司 Hydraulic support for coal mines and control method thereof
CN106640162B (en) * 2016-11-23 2018-07-20 安徽普特机械制造有限公司 A kind of anti-skidding high inclination-angle hydraulic support and its control method
CN106640165B (en) * 2016-11-23 2019-04-02 安徽普特机械制造有限公司 A kind of coal-mine hydraulic support and its control method

Similar Documents

Publication Publication Date Title
CN202882972U (en) Along-groove stepping split type advanced hydraulic support frame group
CN200985799Y (en) Roadway advance support bracket
CN101906984B (en) Landing beam sliding hydraulic support system for coal mine
CN103233761B (en) Reversed loader moving-assisted large-cycle tunnel advance support bracket
CN201747392U (en) Combined top beam slipping hydraulic support system used in coal mine
CN103407737A (en) Stepping self-moving rubber belt conveyor tail used for fast driving
CN102168572B (en) Waste filling supporting bracket
CN103410545A (en) Hydraulic support capable of realizing top coal caving and filling operation
CN101191419B (en) Fully mechanized working faces track along end head bracket
CN101519973A (en) Hydraulic bracket with interconnected top and bottom
CN201714412U (en) Hydraulic support for non-solid-filled working face
CN110424996A (en) A kind of nothing supports automatic moving type advanced stand device repeatedly
CN101509388B (en) Tunnel ahead support stent
CN202544887U (en) Tunnel self-moving supporting shed
CN105697041A (en) Temporary supporting bracket with telescopic top beams and connecting rods and supporting method
CN201606097U (en) Waste rock filling supporting bracket
CN101798935B (en) Transverse self-moving combined suspension hydraulic bracket
CN104179518B (en) Hydraulic support for roadway supporting
CN101482025B (en) Light hydraulic support
CN200999622Y (en) Fully Mechanized working faces along track end head bracket
CN201460938U (en) Forward supporting type end hydraulic support
CN202788899U (en) Large-swing beam structured top coal caving hydraulic support
CN202520350U (en) Sectional retractable suspension top beam tunnel fore support
CN201627596U (en) Transverse self-advancing combined suspension hydraulic support
CN104265344A (en) Conveyor unloading part rear-mounted end hydraulic support

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
AV01 Patent right actively abandoned

Granted publication date: 20110216

Effective date of abandoning: 20120502