CN106041400B - Retaining wall on slope equipment and its application method - Google Patents

Abstract

The present invention discloses a kind of retaining wall on slope equipment and its application method.Wherein, retaining wall on slope equipment includes cutting machine and assistance platform, the cutting machine can be mobile relative to the assistance platform, it is characterized in that, the cutting machine includes ontology and the crossbeam for being arranged on the body end, and the cutting assembly being flexibly connected with the crossbeam, the assistance platform is located at the lower section of the crossbeam, the cutting assembly includes cutting assembly, described cutting assembly one end is connect with the crossbeam, the other end extends towards the assistance platform, and the cutting assembly is provided with cutting head and laser emitter close to the assistance platform.Compared with prior art, retaining wall on slope equipment of the invention has the function of double groove simultaneous processing, and structure is simple, and production cost is low.

Description

Retaining wall on slope equipment and its application method

Technical field

The present invention relates to steel construction cutting technique fields, and in particular to a kind of retaining wall on slope equipment and its application method.

Background technique

There are mainly two types of the bevelled methods of traditional steel construction: the first, using lathe bevel, lathe bevel When, the cutter on lathe is easy to happen abrasion during finished edge, so that the processing quality of groove is influenced, in addition, knife It needs to replace cutter in time after tool abrasion, needs to expend certain manpower and time, reduce bevel efficiency；It second, uses Semi auto cutting machine bevel, since semi auto cutting machine is cut using flame, flame is difficult to be directed at groove when cutting End, groove are easily deformed, and can also influence cut quality to a certain extent.

It can overcome the problems, such as that above-mentioned beveling and cutting is of poor quality, beveling and cutting low efficiency using numerical control cutting machine, but number Production cost and the maintenance cost for controlling cutting machine are high, and application range is narrow.

Summary of the invention

It is an object of the present invention to provide a kind of retaining wall on slope equipment, the precision of finished edge is high, and structure Simply, production cost is low.

It is another object of the present invention to provide a kind of retaining wall on slope equipment, can protect each in retaining wall on slope equipment The cable of a electrical component.

Yet another object of the invention is that providing a kind of application method of retaining wall on slope equipment, can be improved using this method The processing efficiency and machining accuracy of groove.

To achieve this purpose, the present invention adopts the following technical scheme:

On the one hand, a kind of retaining wall on slope equipment, including cutting machine and assistance platform are provided, the cutting machine can be relatively described Assistance platform is mobile, and the cutting machine includes ontology, the crossbeam for being arranged on the body end, and is connected with the crossbeam activity The cutting assembly connect, the assistance platform are located at the lower section of the crossbeam, and the cutting assembly includes cutting assembly, the cutting Assembly one end is connect with the crossbeam, and the other end extends towards the assistance platform, and the cutting assembly is flat close to the auxiliary There are two cutting head and a laser emitters for platform setting.

On the other hand, the application method of retaining wall on slope equipment described in one kind is provided, comprising the following steps:

S10, the cutting position that part is placed on assistance platform and processes part by pattern adjustment will be processed, it is then, logical The electric permanent-magnet suction disc crossed on assistance platform is fixed；

S20, the power supply for opening laser emitter, the bevel end for the laser face processing part for emitting laser emitter Portion regulates the angle of cutting head and locking；

S30, start cutting machine and adjust cutting flame progress beveling and cutting, and beveling and cutting position is directed at using hyperbaric oxygen It is purged；

Starting driving trolley and each transmission mechanism while S40, cutting.

Beneficial effects of the present invention: in retaining wall on slope equipment of the invention, cutting head is matched with laser emitter to auxiliary The processing part helped on platform is cut, the laser alignment that laser emitter is emitted groove end to be cut, then again Starting cutting machine is cut, and is not easy to deform during beveling and cutting, can improve processing with strict control beveling and cutting quality The retaining wall on slope precision of part.Compared with prior art, retaining wall on slope equipment of the invention has double groove simultaneous processing Function, has the advantages that efficient, and structure is simple, and production cost is low.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the retaining wall on slope equipment of the embodiment of the present invention.

Fig. 2 is the enlarged drawing in Fig. 1 at I.

Fig. 3 is the enlarged diagram of the assistance platform of the embodiment of the present invention.

In Fig. 1 to 3:

100, cutting machine；110, ontology；120, crossbeam；130, cutting assembly；131, assembly is cut；132, elevating lever； 133, cutting head；134, laser emitter；135, fixing link；1351, mounting base；1352, fixing axle；1353, movable joint；140, First cable protector；150, trolley is driven；160, rail；161, third guide rail；170, the second cable protector； 180, clump weight；

200, assistance platform；210, electric permanent-magnet suction disc；220, pattern；

10, part is processed.

Specific embodiment

To further illustrate the technical scheme of the present invention below with reference to the accompanying drawings and specific embodiments.

In the description of the present invention, it is to be understood that, the orientation or position of the instructions such as term "inner", " length direction " are closed System is merely for convenience of description of the present invention and simplification of the description to be based on the orientation or positional relationship shown in the drawings, rather than indicates Or imply that signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore cannot understand For limitation of the present invention.

In the description of the present invention unless specifically defined or limited otherwise, term " fixation " shall be understood in a broad sense, example Such as, it may be a fixed connection, may be a detachable connection, or is integral；It can be mechanical connection, be also possible to be electrically connected； Can be directly connected, can also indirectly connected through an intermediary, can be two components interiors connection or two components Interaction relationship.For the ordinary skill in the art, above-mentioned term can be understood in the present invention with concrete condition In concrete meaning.

In the present invention unless specifically defined or limited otherwise, fisrt feature second feature "upper" or "lower" It may include that the first and second features directly contact, also may include that the first and second features are not direct contacts but pass through it Between other characterisation contact.Moreover, fisrt feature the "upper" of second feature include fisrt feature second feature just Top and oblique upper, or first feature horizontal height is merely representative of higher than second feature.Fisrt feature is in the "lower" of second feature It is directly below and diagonally below the second feature including fisrt feature, or is merely representative of first feature horizontal height less than second feature.

Fig. 1 is the structural schematic diagram of the retaining wall on slope equipment of the embodiment of the present invention, and Fig. 2 is the enlarged drawing in Fig. 1 at I.

As shown in Figure 1, 2, retaining wall on slope equipment provided by the invention, including cutting machine 100 and assistance platform 200, it is described Cutting machine 100 can be mobile relative to the assistance platform 200, and the cutting machine 100 includes ontology 110, is set to the ontology The crossbeam 120 of 110 upper ends, and the cutting assembly 130 being flexibly connected with the crossbeam 120, the assistance platform 200 are located at institute The lower section of crossbeam 120 is stated, the cutting assembly 130 includes cutting assembly 131, described 131 one end of cutting assembly and the crossbeam 120 connections, the other end extend towards the assistance platform 200, and the cutting assembly 131 is arranged close to the assistance platform 200 There are two cutting head 133 and with a laser emitter 134.Cutting head 133 of the invention is flame-type cutting head, with laser Transmitter 134, which matches, cuts the processing part 10 on assistance platform 100, the laser that laser emitter 134 is emitted It is directed at groove end to be cut, then restarts cutting machine 100 and is cut, is not easy to deform during beveling and cutting, it can With strict control beveling and cutting quality, the retaining wall on slope precision of processing part 10 is improved, meanwhile, two cutting heads 133 can be to adding The double groove simultaneous processing of work part 10 has the advantages that the structure of efficient and of the invention retaining wall on slope equipment is simple, Production cost is low, has a wide range of application.

In this present embodiment, the cutting assembly 131 is additionally provided with hyperbaric oxygen nozzle (figure close to the assistance platform 200 In be not shown), the slag that cuts generated in cutting process can be blown away in time by hyperbaric oxygen nozzle, avoid cutting slag and influence groove and cut Cut precision.

For opening double groove, using the time that two-chamber cutting head of the invention is more fast again than single-chamber cutting head, 3~5 seconds Time can open hyperbaric oxygen, cutting head and driving trolley, carry out cutting and greatly improve retaining wall on slope efficiency.

Processing part 10 in the present embodiment refers to the structure of plate, such as steel plate.

In this present embodiment, for single groove, along the width direction of groove, one end of groove is located at processing part 10 Upper surface, the other end are located at the side of processing part 10, and groove end described in the present embodiment refers to that groove is located at processing part One end of 10 side；For double groove, groove end refers to the joint of two grooves.

In the present embodiment, the distance and angle of two cutting heads 133 are adjustable, and the laser emitter 134 is located at two Between a cutting head 133.Before cutting, first using laser emitter 134 emit laser find accurately processing part 10 on to Two cutting heads 133 after adjusting beveling and cutting angle, are directed at laser point simultaneously, are then cut by the groove end of cutting It cuts, the machining accuracy of double groove is greatly improved under the auxiliary of laser emitter 134.

In the present embodiment, cutting assembly 131 is vertical with crossbeam 120, and lower end is provided with the cutting head 133 and described Laser emitter 134.

In the present embodiment, the cutting assembly 131 is provided with close to the assistance platform 200 can be along the cutting assembly The elevating lever 132 of 131 length direction telescopic moving, two cutting heads 133 and the laser emitter 134 are arranged at On the elevating lever 132.In the present embodiment, the scalable setting of elevating lever 132, can be sliding by screw rod on cutting assembly 131 Dynamic connection, and locked by locking device, it can also be driven by other driving devices.By by two cutting heads 133 and Laser emitter 134 is arranged on elevating lever 132, can be convenient adjusting beveling and cutting position along the vertical direction.

There are two fixing links 135, two cutting heads 133 to pass through two respectively for setting on the elevating lever 132 The fixing link 135 is connect with the elevating lever 132, so that two cutting heads 133 at least can be along described perpendicular to institute The length direction for stating elevating lever 132 is mobile.Two cutting heads 133 at least can be along the length perpendicular to the elevating lever 132 Direction is close or far from the processing part 10.In the present embodiment, at least one of two fixing links 135 can also edge The length direction of elevating lever 132 is selectively mobile and fixed, to realize the beveling and cutting position of multi-angle regulation processing part 10.

Specifically, as shown in Fig. 2, two cutting heads 133 are respectively set on elevating lever 132 from the bottom to top First cutting head and the second cutting head, corresponding fixing link 135 respectively the first fixing link, the second fixing link, first Fixing link includes mounting base 1351, and mounting base 1351 is fixed by screws on elevating lever 132, and mounting base 1351 is close to auxiliary One end of platform 200 is provided with fixing axle 1352, is arranged with movable joint 1353 outside fixing axle 1352, movable joint 1353 is far from elevating lever 132 one end is rotatably provided with first cutting head, and to adjust the cutting angle of the first cutting head, movable joint 1353 can edge The fixing axle 1352 slides axially to adjust the distance between the first cutting head and processing part 10, angle and distance tune It is fixed respectively by screw again after section is good.Wherein, the first cutting head is rotatably connected with movable joint 1353, " rotatable " It can use and be realized with flowering structure, for example, the first cutting head is provided with connecting rod far from one end of flame-thrower nozzle, connecting rod passes through Shaft and movable joint are rotatablely connected, and pass through screw selective locking；Ball-type protrusion can also be set in the end of connecting rod, it is right The accommodating chamber matched with the protrusion is set on movable joint 1353 with answering, which is restricted in the accommodating chamber, and can be in institute Rotation in accommodating chamber is stated, is additionally provided with threaded hole in accommodating chamber, after rotational angle regulates, is somebody's turn to do by the way that screw is selectively fixed First cutting head.The connection structure of the second fixing link in the present embodiment and the second cutting head with the first fixing link phase Together, the difference of the second fixing link and the first fixing link is: the second fixing link can back and forth be moved along the elevating lever 132 It is dynamic, to adjust the distance between two cutting heads.

In this present embodiment, fixing axle 1352 can be is arranged on elevating lever 132 by being welded and fixed, and is also possible to lead to It crosses dismountable mode to be fixed on elevating lever 132, with easy to disassemble.

Specifically, hyperbaric oxygen nozzle is arranged on the elevating lever 132 adjacent to the laser emitter 134 and (does not show in figure Out), and the position of hyperbaric oxygen nozzle and angle are adjustable, connection type and its position, angle on elevating lever 132 Regulative mode is similar with cutting head, and details are not described herein.

In this present embodiment, laser emitter 134 can also be moved back and forth along the elevating lever 132.

The first guide rail, the cutting assembly 131 are provided on the crossbeam 120 and along the length direction of the crossbeam 120 It can be moved back and forth along first guide rail.When the beveling and cutting position for needing to adjust the processing part 10 on assistance platform 200 When, without mobile processing part 10 or assistance platform 200, passes through corresponding transmission mechanism and moved along the first guide rail direction and cut Cutting assembly 131 equally may be implemented.

The first cable protector 140 is provided on the crossbeam 120, first cable protector 140 includes chain The first mobile transmission mechanism of the first crawler belt and driving first crawler belt of formula structure, it is corresponding with first crawler belt Ground is provided with the second guide rail on the crossbeam 120 along its length, and first crawler belt is arranged on second guide rail, The cable being electrically connected with the cutting head 133, the laser emitter 134 is installed in first crawler belt.It is cut actual During cutting, when cutting assembly 131 occurs mobile, cable can be moved, and cutting assembly 131 is easy to damage by pressure in moving process Cable needs to repair cable at this time, influences retaining wall on slope efficiency, also needs to increase additional maintenance cost.The present embodiment By using the first crawler belt of chain structure, it can protect corresponding cable and be not subject to crushing, improve retaining wall on slope effect indirectly Rate has saved maintenance cost.

Driving trolley 150 is arranged at intervals with below the ontology 110 of the cutting machine 100 to be accordingly laid on roadbed There is rail 160；The second cable protector 170 is provided on the roadbed, second cable protector 170 includes chain The second transmission mechanism that the second crawler belt and driving second crawler belt of formula structure are mobile is accordingly arranged on the roadbed There is the third guide rail 161 parallel with the rail 160, second crawler belt is arranged on the third guide rail 161, and described second The cable being electrically connected with the driving trolley 150 is installed in crawler belt.Moving trolley can drive along the direction of rail 160 and cut The cutting head 133 of machine 100 is at the uniform velocity moved along the length direction of the groove to be processed of processing part 10.As shown in Figure 1, rail 160 Between and be located at the cutting machine 100 ontology below be provided with the third guide rail 161, be provided on third guide rail 161 The second crawler belt driven by the second transmission mechanism, third guide rail 161 are parallel with rail 160.The present embodiment passes through setting second Cable protector 170, to protect the cable of driving trolley 150 not to be subject to crushing.

When the gravity torque for the ontology 110 that the gravity torque for cutting assembly 131 and crossbeam 120 is greater than cutting machine 100, Cutting machine 100 is easy to happen rollover, or the beveling and cutting effect of processing part 10 is influenced because unstable.Therefore, this implementation Clump weight 180 is arranged in side of the example on the ontology 110 far from the crossbeam 120, to prevent cutting machine 100 from turning on one's side, guarantees The machining accuracy of groove.

As shown in figure 3, the upper surface of the assistance platform 200 in the present embodiment is provided with electric permanent-magnet suction disc 210, to select Property the fixed assistance platform 200 on processing part 10；The assistance platform 200 is arranged close to the side of the ontology 110 There is moveable pattern 220, to adjust the placement location for processing part 10 on assistance platform 200.Before cutting, first will it need Then the upper surface that processing part 10 is placed on assistance platform 200 is positioned by pattern 220, is then turned on by pattern 220 The switch of electric permanent-magnet suction disc 210, igniting, opening high pressure gas are cut later, pass through the strong magnetic field action of electric permanent-magnet suction disc 210 Can be stabilized by the thermal energy of flame, former beveling and cutting position is deviateed in gas flame cuttiug position caused by avoiding thermal energy from transmitting, Prevent groove from deforming.Electric permanent-magnet suction disc 210 is closed after the completion of cutting.

Two cutting assemblies 130 are arranged at intervals on the crossbeam 120, accordingly, between 110 lower section of ontology Every setting, there are two the assistance platforms 200, can carry out retaining wall on slope work to two processing parts 10 simultaneously.

In this present embodiment, assistance platform 200 is not limited to two, be also possible to three it is even more, be arranged in correspondence with There are multiple cutting assemblies 131, concrete foundation is processed depending on the quantity of part 10 and the load-bearing of cutting machine 100.

The embodiment of the present invention also provides a kind of application method of retaining wall on slope equipment described in above-described embodiment, the application Method the following steps are included:

S10, processing part 10 is placed on assistance platform 200 and is cut by the groove that pattern 220 adjusts processing part 10 Position is cut, then, passes through the fixed processing part 10 of electric permanent-magnet suction disc 210 on assistance platform 200；

S20, the power supply for opening laser emitter 134, the laser face processing part 10 for emitting laser emitter 134 Groove end, regulate the angle of cutting head 133 and locking；

S30, starting cutting machine 100, adjustment cutting flame carries out beveling and cutting, and is directed at beveling and cutting position using hyperbaric oxygen It sets and is purged；

Starting driving trolley 150 and each transmission mechanism while S40, cutting, drive cable by the transmission mechanism Protective device.

Specifically, it when single side bevel, opens one of cutting head and carries out gas flame cuttiug；When two-sided bevel, It then needs to open simultaneously two cutting heads and carries out gas flame cuttiug.

In description of the invention, when two cutting heads 133 are cut, two cutting heads 133 are on processing part 10 Cutting position be the state mutually staggered, i.e., the groove that one of 133 cut direction of cutting head is downwardly inclined, another The then cut direction inclined groove upward since another position of cutting head 133, to avoid between two cutting heads 133 mutually It influences.

Specifically, transmission mechanism includes the first transmission mechanism and the second transmission mechanism, accordingly, cable protector the One cable protector 140 and the second cable protector 170.

The present invention carries out beveling and cutting according to the method described above, and the machining accuracy and retaining wall on slope efficiency of groove mention significantly Height saves certain labour cost.

In addition, the production cost of retaining wall on slope equipment of the invention is low, it is suitable for shipbuilding, structure steel fabrication industry, can subtracts The working strength of few worker, and can be reduced one times of labour.

Above embodiments are only used to illustrate method detailed of the invention, and the invention is not limited to above-mentioned method detaileds, i.e., Do not mean that the invention must rely on the above detailed methods to implement.It should be clear to those skilled in the art, right Any improvement of the invention, the addition of equivalence replacement and auxiliary element to each raw material of product of the present invention, the selection of concrete mode Deng all of which fall within the scope of protection and disclosure of the present invention.

Claims (8)

1. a kind of retaining wall on slope equipment, including cutting machine and assistance platform, the cutting machine can be mobile relative to the assistance platform, It is characterized in that, the cutting machine includes ontology, the crossbeam for being arranged on the body end, and it is flexibly connected with the crossbeam Cutting assembly, the assistance platform is located at the lower section of the crossbeam, and the cutting assembly includes cutting assembly, and the cutting is total It holds one end to connect with the crossbeam, the other end extends towards the assistance platform, and the cutting assembly is close to the assistance platform There are two cutting head and a laser emitters for setting；

The upper surface of the assistance platform is provided with electric permanent-magnet suction disc, to the processing zero on the fixed assistance platform of selectivity Part；The assistance platform is provided with moveable pattern close to the side of the ontology of the cutting machine, described to adjust The placement location of processing part on assistance platform；

The cutting assembly is provided with close to the assistance platform can be along the liter of the length direction telescopic moving of the cutting assembly Bar drops, and there are two fixing links for setting on the elevating lever, and the fixing link includes mounting base, and the mounting base passes through screw It is fixed on the elevating lever, the mounting base is provided with fixing axle close to one end of the assistance platform, outside the fixing axle It is arranged with movable joint, the one end of the movable joint far from the elevating lever is rotatably provided with the cutting head, to adjust cutting head Cutting angle, the movable joint can along the fixing axle slide axially with adjust the first cutting head and process part between away from From, one of them described fixing link can be moved back and forth along the elevating lever, to adjust between two cutting heads away from From；The cutting assembly is additionally provided with hyperbaric oxygen nozzle close to the assistance platform.

2. retaining wall on slope equipment according to claim 1, which is characterized in that the laser emitter is arranged in the lifting On bar and it is located between two cutting heads.

3. retaining wall on slope equipment according to claim 1, which is characterized in that on the crossbeam and along the length of the crossbeam Direction is provided with the first guide rail, and the cutting assembly can be moved back and forth along first guide rail.

4. retaining wall on slope equipment according to claim 3, which is characterized in that be provided with the first cable protection on the crossbeam Device, first cable protector include chain structure the first crawler belt and driving first crawler belt it is mobile the One transmission mechanism accordingly with first crawler belt is provided with the second guide rail along its length on the crossbeam, and described first Crawler belt is arranged on second guide rail, is equipped in first crawler belt and is electrically connected with the cutting head, the laser emitter The cable connect.

5. retaining wall on slope equipment according to claim 4, which is characterized in that it is small to be arranged at intervals with driving below the ontology Vehicle is accordingly equipped with rail on roadbed；

The second cable protector is provided on the roadbed, second cable protector includes the second of chain structure Crawler belt and the second transmission mechanism of driving the second crawler belt movement are accordingly provided with and the rail on the roadbed Parallel third guide rail, second crawler belt are arranged on the third guide rail, are equipped in second crawler belt and the drive The cable of dynamic trolley electrical connection.

6. retaining wall on slope equipment according to claim 4, which is characterized in that far from the side of the crossbeam on the ontology It is provided with clump weight.

7. retaining wall on slope equipment according to any one of claims 1 to 6, which is characterized in that be spaced setting on the crossbeam Two assistance platforms are accordingly arranged at intervals with below the crossbeam there are two the cutting assembly.

8. a kind of application method of the described in any item retaining wall on slope equipment of claim 1 to 7, which is characterized in that including following Step:

S10, the cutting position that part is placed on assistance platform and processes part by pattern adjustment will be processed, then, by auxiliary The electric permanent-magnet suction disc helped on platform is fixed；

S20, the power supply for opening laser emitter, the groove end for the laser face processing part for emitting laser emitter, Regulate the angle of cutting head and locking；

S30, start cutting machine and adjust cutting flame progress beveling and cutting, and carried out using hyperbaric oxygen alignment beveling and cutting position Purging；

Starting driving trolley and each transmission mechanism while S40, cutting.