CN106869956A - A kind of high inclination-angle development machine with auxiliary climbing apparatus - Google Patents

Abstract

The invention discloses a kind of high inclination-angle development machine with auxiliary climbing apparatus, including frame, upper supporting part, auxiliary climbing apparatus；Upper supporting part is arranged on the top of frame, including telescopic supporting rod, rod end supporting plate and support bar turnover hydraulic cylinder；Auxiliary climbing apparatus are arranged on the rear lower of frame, including tie-beam, tie-beam turnover hydraulic cylinder, process auxiliary drive frame assembly, guide slip shoe and weight tray；Process auxiliary drive frame assembly includes process auxiliary drive hydraulic motor and engagement driving wheel；Weight tray is oriented to sliding and is connected by guided way and guide slip shoe, and the position of correspondence engagement driving wheel is provided with and the meshing transmission structure for engaging driving wheel cooperation on the upper surface of weight tray.This have auxiliary climbing apparatus high inclination-angle development machine can in provided auxiliary driving force during tunneling process is dug in high inclination-angle tunnel, effectively prevent development machine from gliding on the premise of improve drivage efficiency, reduce potential safety hazard, be particularly well-suited to the cuttings driving in ± 25 ° of high inclination-angle tunnels.

Description

A kind of high inclination-angle development machine with auxiliary climbing apparatus

Technical field

The present invention relates to a kind of development machine, specifically it is a kind of be applied to ± 25 ° of high inclination-angle tunnels dig driving with auxiliary The high inclination-angle development machine of climbing apparatus is helped, belongs to development machine equipment technology field.

Background technology

Development machine is the machine for digging straight underground passage, is divided into open type development machine and shield formula development machine, is led to Often include walking mechanism, operating mechanism, shipment activity and transferring mechanism composition, as walking mechanism is pushed ahead, operating mechanism In the continuous fractured rock of cutting head, and detritus is transported, have the advantages that safe efficient and good into lane quality, particularly hang Road headers, it integrates the functions such as cut, shipment, walking, operation, is mainly used in the underground of cut arbitrary shape section Rock, coal or alternate heading.

During the larger raise advance in inclination angle, the downslide that development machine can be produced by deadweight, downslide is not only resulted in The cutting efficiency of development machine declines, cannot even advance, and serious meeting causes security incident, therefore the applicable work of development machine Make inclination angle general within ± 16 °, tunnel inclination angle surpasses generally to be blown out using hand-holing when going beyond the scope carries out excavation operation Big gun pick mode, big gun pick operation is not only dangerous very high but also drivage efficiency is relatively low, if getting working face be located under water body, Under building and railway under " under three " getting working face when forbid big gun dig, tunnel digging angle can only be changed, not only increase Plus workload, and reduce the exploited length in tunnel, in turn result in the waste of coal resources.

Taking directly lifting to drive the moment of torsion of crawler belt hydraulic motor, increase crawler belt high inclination-angle development machine of the prior art more The mode of adhesive force realizes that development machine high inclination-angle is tunneled to increase the driving force of development machine crawler belt, but due to underground driving face Condition limitation and development machine need to not stop mobile job specification, the mode of this simple increase driving force reaches at tunnel inclination angle Effect is unsatisfactory when to a certain degree；Also have to take in the prior art and realize that development machine high inclination-angle is dug by the mode of assist device Enter, i.e. advancing jack is rearward supported and is connected on the wall of tunnel side by use, or advancing jack support is connected to hydraulic pressure Support, individual prop etc. are supported on the support apparatus between back and base plate, by controlling stretching out for advancing jack Realize increasing the motive force of development machine, but because the stroke of advancing jack is limited, therefore need advancing jack to coordinate substep to stretch , to prevent development machine from gliding, advancing jack coordinates substep extension and contraction control not only to easily cause driving for contracting or in time laying support apparatus Machine is partial to and inclined shore easily causes contact surface skidding and there is larger potential safety hazard in the mode on the wall of tunnel side, and In time laying support apparatus mode not only virtually extend manufacture cycle and also easily influence Department of Transportation discharge refuse.

The content of the invention

Regarding to the issue above, the present invention provides a kind of high inclination-angle development machine with auxiliary climbing apparatus, auxiliary climbing dress Put compact conformation, can high inclination-angle tunnel dig tunneling process in provided auxiliary driving force, effectively prevent development machine glide Under the premise of improve drivage efficiency, reduce potential safety hazard, be particularly well-suited to the cuttings driving in ± 25 ° of high inclination-angle tunnels.

To achieve the above object, this high inclination-angle development machine with auxiliary climbing apparatus includes frame, cutting units, loading Portion, running part, Department of Transportation, upper supporting part, auxiliary climbing apparatus, electrical system, hydraulic system and atomizing dust-removing system；

Described cutting units is arranged on the front upper part of frame, including cantilever and cutterhead by panoramic table；Described loading Portion is arranged on the front lower portion of frame, including shovel board and the multijaw star-wheel or scraper plate being left and right symmetrically arranged in shovel board；Described row Portion is walked installed in the bottom of frame, including track frame, hydraulic motor travel motor, sprocket wheel and caterpillar chain；Described Department of Transportation includes preceding Rear direction is erected at the back-connected drag conveyor of in frame and loading part；Described electrical system, hydraulic system and spray Mist dust pelletizing system is installed in frame；

Described upper supporting part is arranged on the top of frame, including the turnover of telescopic supporting rod, rod end supporting plate and support bar Hydraulic cylinder；The position of telescopic supporting rod correspondence running part is arranged on the top of frame, the bottom of telescopic supporting rod be articulated and connected in Support bar telescopic hydraulic cylinder is set in the top of frame, telescopic supporting rod；The baseplane of rod end supporting plate is articulated and connected in flexible The top of support bar, the top plane of rod end supporting plate is provided with anti-skid structure；The bottom of support bar turnover hydraulic cylinder is articulated and connected It is articulated and connected in telescopic supporting rod in frame, top；

Described auxiliary climbing apparatus are arranged on the rear lower of frame, including tie-beam, tie-beam turnover hydraulic cylinder, auxiliary Bogie assembly, guide slip shoe and weight tray；Tie-beam fore-and-aft direction is set, and front end and the frame of tie-beam are articulated and connected； Tie-beam turnover hydraulic cylinder is arranged on the top of tie-beam, and tie-beam turnover hydraulic cylinder one end is articulated and connected with frame, the other end It is articulated and connected with tie-beam；Process auxiliary drive frame assembly be arranged on tie-beam rear end, including support body, process auxiliary drive hydraulic motor and Engagement driving wheel, the body of process auxiliary drive hydraulic motor is fixedly mounted on the rear end of support body, the output of process auxiliary drive hydraulic motor Engage driving wheel and roll setting along the longitudinal direction with to engage driving wheel coaxially connected in end；It is hingedly connected at the top of guide slip shoe On the support body of process auxiliary drive frame assembly, bottom have fore-and-aft direction set piston shoes gathering sill；Weight tray is that fore-and-aft direction sets The string configuration put, is fixed with the guiding with the piston shoes gathering sill dimensional fits of guide slip shoe on the upper surface of weight tray Rail, weight tray is oriented to sliding and is connected by guided way and guide slip shoe, correspondence engagement driving wheel on the upper surface of weight tray Position be provided with and engage driving wheel cooperation meshing transmission structure, the baseplane of weight tray is provided with anti-skid structure.

Scheme as a further improvement on the present invention, described auxiliary climbing apparatus also include balance hydraulic cylinder, equilibrium liquid Cylinder pressure is arranged on the top of guide slip shoe, and balance hydraulic cylinder one end is articulated and connected with process auxiliary drive frame assembly, the other end and guiding Piston shoes are articulated and connected.

Scheme as a further improvement on the present invention, the support body front end of described process auxiliary drive frame assembly passes through axial direction The swivel pin for setting along the longitudinal direction is articulated and connected with the rear end of tie-beam.

Scheme as a further improvement on the present invention, described tie-beam is zigzag structure.

Scheme as a further improvement on the present invention, described weight tray is provided with ground anchor bolt mounting hole.

Used as present invention engagement driving wheel and a kind of implementation method of the engaging structure of weight tray, described engagement drives Wheel is tooth-shape structure, and the engaging structure of described weight tray is and the row's latch structure for engaging the cooperation of driving wheel tooth-shape structure.

Used as present invention engagement driving wheel and the another embodiment of the engaging structure of weight tray, described engagement is driven Driving wheel is gear structure, and the engaging structure of described weight tray is and the rack structure for engaging the cooperation of driving wheel teeth portion.

Scheme as a further improvement on the present invention, the overall frame structure in shaped door of described tie-beam, portal structure Two front ends are articulated and connected with frame；The support body front end of described process auxiliary drive frame assembly is arranged on tie-beam portal structure Medium position on the left and right directions of rear end；Described process auxiliary drive hydraulic motor is arranged on the support body rear end of process auxiliary drive frame assembly Medium position on left and right directions, and process auxiliary drive hydraulic motor is double output shaft hydraulic motor；Described engagement driving wheel is extremely It is few to be coaxially arranged into being set to two, being coaxially fixedly mounted on the output shaft of the double output shaft hydraulic motor left and right sides.

Used as preferred scheme of the invention, described support bar turnover hydraulic cylinder is articulated and connected to be located in the bottom of frame and stretches Contracting support bar is articulated and connected in the rear of the bottom of frame, and telescopic supporting rod is less than relative to the turnover expanded angle of frame 90°。

Used as preferred scheme of the invention, anti-skid structure and weight tray bottom in described rod end supporting plate top plane are put down Anti-skid structure on face is the ratchet structure that tilted rearward is set.

Compared with prior art, this high inclination-angle development machine with auxiliary climbing apparatus is turned down due to being provided with by support bar Hydraulic cylinder can be turned down and be accommodated in the upper supporting part of frame top and after tie-beam turnover hydraulic cylinder can be turned down and be accommodated in frame The auxiliary climbing apparatus of bottom, therefore do not influence the scraper plate of Department of Transportation defeated in the normal headwork of non-high inclination-angle tunnelling Send swinging up and down amplitude, not influenceing the operation of running part for machine；Because process auxiliary drive frame assembly includes process auxiliary drive hydraulic motor The meshing transmission structure for passing through guide slip shoe and having and engage driving wheel to coordinate with engagement driving wheel and process auxiliary drive frame assembly Weight tray connection, therefore this high inclination-angle development machine can simultaneously control hydraulic motor travel motor and process auxiliary drive during climbing Hydraulic motor exports power, and hydraulic motor travel motor drive sprocket drives caterpillar chain reach action to provide the advance of this high inclination-angle development machine Main driving force, process auxiliary drive fluid motor-driven engagement driving wheel reach is rolled on weight tray by meshing transmission structure The auxiliary driving force of this high inclination-angle development machine advance is provided, and then realizes providing larger driving force, such that it is able to be climbed identical On the premise of the ability of slope realize reduce hydraulic motor travel motor power configuration, realize it is energy-saving；When the pick of this high inclination-angle development machine When entering to move forward to the stroke front end of weight tray, upper supporting part coordinates to stretch out and is supported in back and makes this high inclination-angle development machine steady Climbing apparatus can will be aided in lift and invert the reach one of taking a step that process auxiliary drive hydraulic motor realizes weight tray after fixed bit Step pitch, auxiliary climbing apparatus compact conformation, control simple and fast, improves driving effect on the premise of effectively preventing development machine from gliding Rate, reduction potential safety hazard, are particularly well-suited to ± 25 ° of cuttings drivings in high inclination-angle tunnel.

Brief description of the drawings

Fig. 1 is configuration diagram of the invention；

Fig. 2 is the top view of Fig. 1；

Fig. 3 is the three-dimensional structure diagram of present invention auxiliary climbing apparatus；

Configuration diagram when Fig. 4 is high inclination-angle driving state of the present invention.

In figure：1st, frame, 2, cutting units, 3, loading part, 4, running part, 5, Department of Transportation, 6, upper supporting part, 61, flexible branch Strut, 62, rod end supporting plate, 7, auxiliary climbing apparatus, 71, tie-beam, 72, tie-beam turnover hydraulic cylinder, 73, process auxiliary drive frame Assembly, 731, process auxiliary drive hydraulic motor, 732, engagement driving wheel, 74, guide slip shoe, 75, balance hydraulic cylinder, 76, carry bottom Plate.

Specific embodiment

The present invention will be further described below in conjunction with the accompanying drawings (being described by front of the tunneling direction of development machine below).

As shown in Figure 1 and Figure 2, this high inclination-angle development machine with auxiliary climbing apparatus includes frame 1, cutting units 2, loads Portion 3, running part 4, Department of Transportation 5, upper supporting part 6, auxiliary climbing apparatus 7, electrical system, hydraulic system and atomizing dust-removing system.

Described cutting units 2 is arranged on the front upper part of frame 1, including cantilever and cutterhead by panoramic table, and cantilever can band Dynamic cutterhead carries out the arbitrarily angled regulation of transverse direction and longitudinal direction relative to frame 1；Described loading part 3 is arranged on the front lower of frame 1 Portion, including shovel board and the multijaw star-wheel or scraper plate being left and right symmetrically arranged in shovel board；Described running part 4 is arranged on frame 1 Bottom, including track frame, hydraulic motor travel motor, sprocket wheel and caterpillar chain；Described Department of Transportation 5 is erected at frame including fore-and-aft direction On the 1 and back-connected drag conveyor of loading part 3；Described electrical system, hydraulic system and atomizing dust-removing system are pacified In frame 1.

Described upper supporting part 6 is arranged on the top of frame 1, including telescopic supporting rod 61, rod end supporting plate 62 and support Bar turns down hydraulic cylinder；The position of the correspondence running part 4 of telescopic supporting rod 61 is arranged on the top of frame 1, the bottom of telescopic supporting rod 61 End is articulated and connected in setting support bar telescopic hydraulic cylinder in the top of frame 1, telescopic supporting rod 61；Put down at the bottom of rod end supporting plate 62 Face is articulated and connected in the top of telescopic supporting rod 61, and the top plane of rod end supporting plate 62 is provided with anti-skid structure；Support bar is turned down The bottom of hydraulic cylinder is articulated and connected and be articulated and connected in telescopic supporting rod 61 in frame 1, top；Hydraulic pressure is turned down by controlling support bar The flexible of cylinder can control telescopic supporting rod 61 to be stretched out or folding storage from the turnover of the top of frame 1, be stretched by controlling support bar The stretching out of hydraulic cylinder can control telescopic supporting rod 61 to stretch out makes rod end supporting plate 62 act against on back.

Described auxiliary climbing apparatus 7 are arranged on the rear lower of frame 1, as shown in figure 3, including tie-beam 71, tie-beam Turnover hydraulic cylinder 72, process auxiliary drive frame assembly 73, guide slip shoe 74 and weight tray 76；The fore-and-aft direction of tie-beam 71 is set, even The front end and frame 1 for connecing beam 71 are articulated and connected；Tie-beam turnover hydraulic cylinder 72 is arranged on the top of tie-beam 71, tie-beam turnover The one end of hydraulic cylinder 72 is articulated and connected with frame 1, the other end and tie-beam 71 are articulated and connected, and hydraulic cylinder is turned down by controlling tie-beam 72 stretch can control tie-beam 71 to rotate turnover with the pin joint of frame 1 along it；Process auxiliary drive frame assembly 73 is arranged on and connects Connect the rear end of beam 71, including support body, process auxiliary drive hydraulic motor 731 and engagement driving wheel 732, process auxiliary drive hydraulic motor 731 Body be fixedly mounted on the rear end of support body, the output end of process auxiliary drive hydraulic motor 731 with engage that driving wheel 732 is coaxial to be connected Connect, engagement driving wheel 732 rolls setting along the longitudinal direction；The top of guide slip shoe 74 is hingedly connected to process auxiliary drive frame assembly 73 Support body on, bottom have fore-and-aft direction set piston shoes gathering sill；Weight tray 76 is the strip knot that fore-and-aft direction is set Structure, is fixed with the guided way with the piston shoes gathering sill dimensional fits of guide slip shoe 74 on the upper surface of weight tray 76, carry Base plate 76 is oriented to sliding and is connected by guided way and guide slip shoe 74, correspondence engagement driving wheel on the upper surface of weight tray 76 732 position is provided with and engages the meshing transmission structure that driving wheel 732 coordinates, and is driven by controlling process auxiliary drive hydraulic motor 731 Dynamic engagement driving wheel 732 rotation can realize that weight tray 76 is moved along the longitudinal direction, and the baseplane of weight tray 76 is provided with Anti-skid structure.

This high inclination-angle development machine with auxiliary climbing apparatus, can in the normal headwork of non-high inclination-angle tunnelling It is entirely retracted to state and telescopic supporting rod 61 is accommodated in the top of frame 1 by controlling support bar to turn down hydraulic cylinder to be in, can leads to Cross control tie-beam turnover hydraulic cylinder 72 makes tie-beam 71 drive process auxiliary drive frame assembly 73, is oriented to and slides in the state that is entirely retracted to Boots 74 and the overall rear lower for being accommodated in frame 1 of weight tray 76, do not influence the drag conveyor of Department of Transportation 5 to swing up and down width Degree, the operation for not influenceing running part 4.

When high inclination-angle tunnelling work is carried out, as shown in figure 4, control tie-beam turnover hydraulic cylinder 72 stretches out and makes connection Beam 71 is turned over downwards along pin joint rotation, drives process auxiliary drive frame assembly 73, guide slip shoe 74 and weight tray 76 overall from machine The rear lower of frame 1 is routed up, and rationally the output pressure of control tie-beam turnover hydraulic cylinder 72 consolidates the baseplane of weight tray 76 It is supported on roadway floor, this has during the high inclination-angle development machine climbing of auxiliary climbing apparatus, while controlling walking hydraulic pressure Motor and the output power of process auxiliary drive hydraulic motor 731, hydraulic motor travel motor drive sprocket drive caterpillar chain reach action to provide The main driving force that this high inclination-angle development machine advances, process auxiliary drive hydraulic motor 731 drives engagement driving wheel 732 to pass through engaged transmission Structure rolls reach on weight tray 76 and provides the auxiliary driving force that this high inclination-angle development machine advances, and then realizes providing larger Driving force, such that it is able on the premise of identical climbing capacity realize reduce hydraulic motor travel motor power configuration, realize section Can consumption reduction；Stop reach when this high inclination-angle development machine driving moves forward to the stroke front end of weight tray 76, control support bar is turned over Folding hydraulic cylinder and support bar telescopic hydraulic cylinder stretch out makes telescopic supporting rod 61 be stretched out from the turnover of the top of frame 1, rationally control support The output pressure of bar telescopic hydraulic cylinder makes that the top plane of rod end supporting plate 62 is firm to be supported on back, then control connection The beam turnover retraction of hydraulic cylinder 72 makes tie-beam 71 flip up shifting on drive weight tray 76 along pin joint rotation and departs from tunnel bottom Plate, then control process auxiliary drive hydraulic motor 731 to export reverse power driving engagement driving wheel 732 is made by meshing transmission structure Weight tray 76 moves forward to stroke rear end relative to process auxiliary drive frame assembly 73, and tie-beam turnover hydraulic cylinder 72 is controlled again Stretching out makes tie-beam 71 be turned over downwards firm being supported on roadway floor of drive weight tray 76 to complete a reach for step pitch, Control support bar turnover hydraulic cylinder and support bar telescopic hydraulic cylinder retraction make telescopic supporting rod 61 be accommodated in behind the top of frame 1 i.e. Headwork can again be carried out；This is climbed to further increase during having high inclination-angle development machine climbing of auxiliary climbing apparatus Slope ability, first control control telescopic supporting rod 61 can launch to stretch out to be supported on back, then control row before climbing The support bar for walking control telescopic supporting rod 61 while hydraulic motor and process auxiliary drive hydraulic motor 731 together export power stretches The synchronization of hydraulic cylinder is stretched out and provides extra motive force, and then can realize further increasing climbing capacity.

In order to prevent the weight tray 76 in the normal headwork of non-high inclination-angle tunnelling contacted with roadway floor into And influence excavation operation, fitted with roadway floor leakiness when weight tray 76 fits support with roadway floor, as this hair Bright further improvement project, described auxiliary climbing apparatus 7 also include balance hydraulic cylinder 75, and balance hydraulic cylinder 75 is arranged on leads To the top of piston shoes 74, the one end of balance hydraulic cylinder 75 and process auxiliary drive frame assembly 73 are articulated and connected, the other end and guide slip shoe 74 It is articulated and connected；Can realize that control weight tray 76 is in horizontality or and tunnel by controlling the flexible of balance hydraulic cylinder 75 The parallel state of base plate.

In order that weight tray 76 is more securely supported in roadway floor, scheme, institute as a further improvement on the present invention Swivel pin and tie-beam 71 that the support body front end of the process auxiliary drive frame assembly 73 stated is set along the longitudinal direction by axial direction Rear end is articulated and connected, and the mode being articulated and connected can make process auxiliary drive frame assembly 73 and weight tray 76 follow the ground of roadway floor Gesture carries out adaptability rotation, and then weight tray 76 can be made more securely to be supported in roadway floor.

Driven to increase auxiliary on the premise of auxiliary climbing apparatus 7 and the less installing space of rear lower of frame 1 are ensured The installing space of moving frame assembly 73, guide slip shoe 74 and weight tray 76, and then the more thick and heavy weight tray 76 of size can be realized, So as to further realizing more firm skidproof effect, scheme as a further improvement on the present invention, described tie-beam 71 is Z-shaped Shape structure.

In order to realize more preferable skidproof effect, scheme as a further improvement on the present invention, on described weight tray 76 Ground anchor bolt mounting hole is provided with, ground anchor bolt is installed by ground anchor bolt mounting hole and is realized more preferable skidproof effect, stepping reach The preceding ground anchor bolt, stepping first removed carries out installation ground anchor bolt after moving forward, and then realizes further reducing potential safety hazard.

Used as present invention engagement driving wheel 732 and a kind of implementation method of the engaging structure of weight tray 76, described nibbles It is tooth-shape structure to close driving wheel 732, and the engaging structure of described weight tray 76 is and engages the cooperation of the tooth-shape structure of driving wheel 732 Row's latch structure, the engaging structure between row's pin is inserted by tooth-shape structure and realizes engaged transmission, row's latch structure sets in a row Bearing pin is easier to safeguard that bearing pin is directly changed after damaging.

It is described as present invention engagement driving wheel 732 and the another embodiment of the engaging structure of weight tray 76 Engagement driving wheel 732 is gear structure, and the engaging structure of described weight tray 76 is and engages the cooperation of the teeth portion of driving wheel 732 Rack structure, engaged transmission is realized by rack and pinion engagement.

In order to prevent further increasing auxiliary traction power while unbalance loading, scheme, institute as a further improvement on the present invention The overall frame structure in shaped door of tie-beam 71 stated, two front ends of portal structure are articulated and connected with frame 1；Described auxiliary The support body front end of bogie assembly 73 is arranged on the medium position on the portal structure rear end left and right directions of tie-beam 71；Described Process auxiliary drive hydraulic motor 731 is arranged on the medium position on the support body rear end left and right directions of process auxiliary drive frame assembly 73, and auxiliary It is double output shaft hydraulic motor to help driving hydraulic motor 731；Described engagement driving wheel 732 is at least coaxially arranged into being set to Two, be coaxially fixedly mounted on the output shaft of the double output shaft hydraulic motor left and right sides；It is the tie-beam 71 of portal structure, double The setting of output shaft hydraulic motor and the symmetrical engagement driving wheel 732 being arranged in pairs makes entirely to aid in climbing apparatus 7 in a left side Right symmetrical structure, not only support strength increase but also can prevent unbalance loading.

Described telescopic supporting rod 61 can using perpendicular to back supporting way, can also use tilted backwards Be supported in the mode of back, due in the tilted mode to rear support of inclined shaft except with perpendicular to back Reverse component outside also have and can be more efficiently prevented from along domatic upward reverse component, therefore the mode of support tilted backwards Development machine is better than the supporting way perpendicular to back, therefore preferably the latter because of deadweight downslide, support effect, i.e. as Preferred scheme of the invention, described support bar turnover hydraulic cylinder to be articulated and connected and be located at telescopic supporting rod 61 in the bottom of frame 1 It is articulated and connected in the rear of the bottom of frame 1, and telescopic supporting rod 61 is less than 90 ° relative to the turnover expanded angle of frame 1.

The anti-skid structure on anti-skid structure and the baseplane of weight tray 76 in the described top of rod end supporting plate 62 plane can With using raised horn structure, it would however also be possible to employ the ratchet structure that tilted rearward is set, because former structure is difficult direct machine Tool is processed, and the latter is more convenient for being machined, and the latter has more preferable skidproof effect, therefore preferably the latter, i.e. used as this hair Bright preferred scheme, the anti-Slipped Clove Hitch on anti-skid structure and the baseplane of weight tray 76 in the described top of rod end supporting plate 62 plane Structure is the ratchet structure that tilted rearward is set.

This high inclination-angle development machine with auxiliary climbing apparatus can turn down receipts due to being provided with by support bar turnover hydraulic cylinder Being contained in the upper supporting part 6 at the top of frame 1 and turn down hydraulic cylinder 72 by tie-beam can turn down the auxiliary for being accommodated in the rear lower of frame 1 Climbing apparatus 7, thus do not influenceed in the normal headwork of non-high inclination-angle tunnelling Department of Transportation 5 drag conveyor it is upper Lower swing amplitude, the operation for not influenceing running part 4；Because process auxiliary drive frame assembly 73 includes the He of process auxiliary drive hydraulic motor 731 The engagement that engagement driving wheel 732 and process auxiliary drive frame assembly 73 pass through guide slip shoe 74 and have and engage driving wheel 732 to coordinate The weight tray 76 of drive mechanism is connected, therefore this high inclination-angle development machine can simultaneously control hydraulic motor travel motor during climbing Power is exported with process auxiliary drive hydraulic motor 731, it is big that hydraulic motor travel motor drive sprocket drives caterpillar chain reach action to provide this The main driving force that inclination angle development machine advances, process auxiliary drive hydraulic motor 731 drives engagement driving wheel 732 to pass through meshing transmission structure Reach is rolled on weight tray 76 auxiliary driving force that this high inclination-angle development machine advances is provided, and then realize providing larger drive Power, such that it is able to realizing reducing the power configuration of hydraulic motor travel motor on the premise of identical climbing capacity, realizing that energy-conservation drops Consumption；When this high inclination-angle development machine driving moves forward to the stroke front end of weight tray 76, the cooperation of upper supporting part 6 is stretched out and is supported in lane Auxiliary climbing apparatus 7 can be lifted and invert process auxiliary drive hydraulic motor by road top board after making this high inclination-angle development machine strong fix 731 step pitches that move forward of taking a step for realizing weight tray 76, auxiliary climbing apparatus compact conformation, control simple and fast, effective Prevent development machine from drivage efficiency is improved on the premise of gliding, potential safety hazard is reduced, be particularly well-suited to opening for ± 25 ° of high inclination-angle tunnels Chisel driving.

Claims (10)

1. a kind of high inclination-angle development machine with auxiliary climbing apparatus, including frame (1), cutting units (2), loading part (3), walking Portion (4), Department of Transportation (5), electrical system, hydraulic system and atomizing dust-removing system；Cutting units (2) is arranged on frame by panoramic table (1) front upper part, including cantilever and cutterhead；Loading part (3) installed in frame (1) front lower portion, including shovel board and left and right it is right Claim the multijaw star-wheel or scraper plate in shovel board；Running part (4) is installed in the bottom of frame (1), including track frame, walking liquid Pressure motor, sprocket wheel and caterpillar chain；Department of Transportation (5) is erected in frame (1) and loading part (3) rear portion and connects including fore-and-aft direction The drag conveyor for connecing；Electrical system, hydraulic system and atomizing dust-removing system are installed in frame (1)；Characterized in that, this High inclination-angle development machine with auxiliary climbing apparatus also includes upper supporting part (6) and auxiliary climbing apparatus (7)；

Described upper supporting part (6) is arranged on the top of frame (1), including telescopic supporting rod (61), rod end supporting plate (62) and Support bar turns down hydraulic cylinder；The position of telescopic supporting rod (61) correspondence running part (4) is arranged on the top of frame (1), branch of stretching The bottom of strut (61) is articulated and connected in setting support bar telescopic hydraulic cylinder in the top of frame (1), telescopic supporting rod (61)；Bar The baseplane at end supporting plate (62) is articulated and connected and set on the top of telescopic supporting rod (61), the top plane of rod end supporting plate (62) There is anti-skid structure；The bottom of support bar turnover hydraulic cylinder is articulated and connected and be articulated and connected in telescopic supporting rod in frame (1), top (61)；

Described auxiliary climbing apparatus (7) are arranged on the rear lower of frame (1), including tie-beam (71), tie-beam turnover hydraulic pressure Cylinder (72), process auxiliary drive frame assembly (73), guide slip shoe (74) and weight tray (76)；Tie-beam (71) fore-and-aft direction is set, The front end of tie-beam (71) is articulated and connected with frame (1)；Tie-beam turns down the top that hydraulic cylinder (72) is arranged on tie-beam (71), Hydraulic cylinder (72) one end is articulated and connected with frame (1), the other end and tie-beam (71) are articulated and connected for tie-beam turnover；Process auxiliary drive Frame assembly (73) is installed in the rear end of tie-beam (71), including support body, process auxiliary drive hydraulic motor (731) and engagement driving wheel (732), the body of process auxiliary drive hydraulic motor (731) is fixedly mounted on the rear end of support body, process auxiliary drive hydraulic motor (731) With to engage driving wheel (732) coaxially connected, engagement driving wheel (732) rolls set along the longitudinal direction output end；Guide slip shoe (74) it is hingedly connected at the top of on the support body of process auxiliary drive frame assembly (73), there are the piston shoes that fore-and-aft direction is set to be oriented to for bottom Groove；Weight tray (76) is the string configuration that fore-and-aft direction is set, and is fixed with and leads on the upper surface of weight tray (76) To the guided way of the piston shoes gathering sill dimensional fits of piston shoes (74), weight tray (76) is led by guided way with guide slip shoe (74) Connected to sliding, the position of correspondence engagement driving wheel (732) is provided with and engages driving wheel on the upper surface of weight tray (76) (732) meshing transmission structure for coordinating, the baseplane of weight tray (76) is provided with anti-skid structure.

2. it is according to claim 1 with the high inclination-angle development machine for aiding in climbing apparatus, it is characterised in that described auxiliary Climbing apparatus (7) also include balance hydraulic cylinder (75), and balance hydraulic cylinder (75) is arranged on the top of guide slip shoe (74), equilibrium liquid Cylinder pressure (75) one end is articulated and connected with process auxiliary drive frame assembly (73), the other end and guide slip shoe (74) are articulated and connected.

3. it is according to claim 1 with the high inclination-angle development machine for aiding in climbing apparatus, it is characterised in that described auxiliary Swivel pin and the rear end of tie-beam (71) that the support body front end of bogie assembly (73) is set along the longitudinal direction by axial direction It is articulated and connected.

4. it is according to claim 1 with the high inclination-angle development machine for aiding in climbing apparatus, it is characterised in that described connection Beam (71) is zigzag structure.

5. it is according to claim 1 with the high inclination-angle development machine for aiding in climbing apparatus, it is characterised in that described carrying Base plate (76) is provided with ground anchor bolt mounting hole.

6. according to claim 1 to 5 any claim with auxiliary climbing apparatus high inclination-angle development machine, its feature It is that described engagement driving wheel (732) is tooth-shape structure, the engaging structure of described weight tray (76) is and engages driving Row's latch structure that wheel (732) tooth-shape structure coordinates.

7. according to claim 1 to 5 any claim with auxiliary climbing apparatus high inclination-angle development machine, its feature It is that described engagement driving wheel (732) is gear structure, the engaging structure of described weight tray (76) is and engages driving The rack structure that wheel (732) teeth portion coordinates.

8. according to claim 1 to 5 any claim with auxiliary climbing apparatus high inclination-angle development machine, its feature Be, the overall frame structure in shaped door of described tie-beam (71), two front ends of portal structure with frame (1) company of being hinged Connect；The support body front end of described process auxiliary drive frame assembly (73) is arranged on the left and right directions of tie-beam (71) portal structure rear end Medium position；Described process auxiliary drive hydraulic motor (731) is installed in support body rear end of process auxiliary drive frame assembly (73) or so Medium position on direction, and process auxiliary drive hydraulic motor (731) is double output shaft hydraulic motor；Described engagement driving wheel (732) at least coaxially it is arranged into being set to two, the coaxial output for being fixedly mounted on the double output shaft hydraulic motor left and right sides On axle.

9. according to claim 1 to 5 any claim with auxiliary climbing apparatus high inclination-angle development machine, its feature It is that described support bar turnover hydraulic cylinder is articulated and connected and be articulated and connected positioned at telescopic supporting rod (61) in the bottom of frame (1) In the rear of the bottom of frame (1), and telescopic supporting rod (61) is less than 90 ° relative to the turnover expanded angle of frame (1).

10. the high inclination-angle development machine with auxiliary climbing apparatus according to claim 1 to 5 any claim, it is special Levy and be, the anti-skid structure on anti-skid structure and weight tray (76) baseplane in described rod end supporting plate (62) top plane It is the ratchet structure of tilted rearward setting.