CN206536680U - Two-beam bridge stonecutter - Google Patents

Abstract

The utility model discloses a kind of two-beam bridge stonecutter, including elevation and subsidence mechanical part, move left and right mechanical part and movable mechanical part, the elevation and subsidence mechanical part, which is arranged on, to be moved left and right on mechanical part, the mechanical part that moves left and right is arranged on movable mechanical part, the movable mechanical part includes two parallel intervals and sets the bridge set up for cutting tool, it is described move left and right mechanical part include be erected at moved on the bridge move left and right seat, the seat that moves left and right is the frame seat structure for being coated on the movement of bridge outer surface, two bridges are located in frame seat structure respectively, the two ends of two bridge connect and compose overall structure by contiguous block respectively.The stonecutter of the structure enables to the mechanical part structure integration in each portion, and connection during work between each portion is more firm, and machinery is more steady during shift action, so as to lift cutting accuracy.

Description

Two-beam bridge stonecutter

Technical field

The utility model is related to the mechanical field of processing of stone, is specifically related to a kind of two-beam bridge stonecutter.

Background technology

Chinese Patent Application No. is 200910000203.X, and the applying date is on January 13rd, 2009, and authorized announcement date is 2011 A kind of entitled bridge-type double beam-guided multi-blade stone cutter disclosed on August 17, the stonecutter includes driving cutting tool Lifting realizes that the elevation and subsidence mechanical part cut to stone material depth direction, drive cutting tool move left and right realization and cut along stone material The front and rear of stone material cutting width is realized in moving left and right mechanical part and driving cutting tool to move forward and backward for line direction advance cutting Moving mechanical part, the elevation and subsidence mechanical part, which is arranged on, to be moved left and right on mechanical part, and the Machinery Ministry that moves left and right sets up separately Put on movable mechanical part, the detailed mechanical structure of the stonecutter refer to the text and figure of the open source literature of the patent, It is not further described herein.

When existing stonecutter is due to its own gravity, machine work gravity deviation and in the cutting course of work by Contact between cutting tool and stone material can produce the machine cuts bounce situation of opposing force generation, and these be able to can all make Into the unstable balance of machinery during work, cause to influence cutting accuracy, also can slowly cause the damage and loss of machinery, therefore should Problem urgent need to resolve.

Utility model content

The purpose of this utility model is to provide mechanical Stability Analysis of Structures during a kind of work, can lift the twin beams of cutting accuracy Bridge type stone cutting machine.

To achieve the above object, the technical solution of the utility model is：Two-beam bridge stonecutter, including elevation and subsidence mechanical portion Divide, move left and right mechanical part and movable mechanical part, the elevation and subsidence mechanical part, which is arranged on, moves left and right mechanical part On, the mechanical part that moves left and right is arranged on movable mechanical part, and it is flat that the movable mechanical part includes two Between-line spacing sets the bridge set up for cutting tool, it is described move left and right mechanical part and include to be erected on the bridge move Move left and right seat, the seat that moves left and right is the frame seat structure for being coated on the movement of bridge outer surface, and two bridges are located in respectively In frame seat structure, the two ends of two bridge connect and compose overall structure by contiguous block respectively.

The movable mechanical part also includes being respectively fixedly disposed on support overlapping mobile side for bridge two ends Beam and setting realizes movable front and rear transmission mechanism and front and rear sliding mechanism between bridge and side bar, described to slide back and forth Mechanism, which includes being arranged on bridge end, slides back and forth seat and the rail that slides back and forth being arranged on side bar, described to slide back and forth seat Section into concave character type structure, its recess is down, described to slide back and forth on rail provided with block is slid back and forth in the concave character type structure Provided with sliding back and forth groove for slide back and forth block insertion, the block that slides back and forth is fitted between groove with sliding back and forth provided with matching The slip inclined plane of slip, the rail that slides back and forth is provided with this protective cover for sliding back and forth rail is covered, and the protective cover is worn If crossing the concave character type structural cavities for sliding back and forth seat.

It is described before and after transmission mechanism include be arranged on slide back and forth on rail movable rack, be arranged on bridge before Rear drive equipment and the movable gear for being arranged on the output shaft of front and rear drive device and being meshed with movable rack.

The movable mechanical part also includes for being moved to the securing fixing device of cutting position in bridge, The fixing device includes mounting seat, the driving cylinder in mounting seat and the fixation for being connected to driving cylinder piston-rod end Hook, the mounting seat is arranged on and slid back and forth on seat, and down, the stay hook is used to catch on front and rear shifting the driving cylinder piston rod Carry-over bar slides back and forth rail.

The elevation and subsidence mechanical part includes motor mounting seat, main spindle box mounting seat and installed in motor mounting seat With moving left and right the driving cylinder between seat, the motor mounting seat and main spindle box mounting seat correspond to move left and right on seat respectively It is lower to set；The elevation and subsidence mechanical part also includes the fixed column being arranged between motor mounting seat and main spindle box mounting seat, Described to move left and right the cohesion device for being provided between seat and fixed column and being used for fixing fixed column, the driving cylinder is respectively in driving Motor mount distribution corresponding with the both sides for moving left and right seat is set.

The elevation and subsidence mechanical part also includes corresponding with the both sides of main spindle box mounting seat in motor mounting seat respectively Be distributed the lead set, the lead through sliding in the pilot hole that is provided with seat is moved left and right, the driving cylinder and Lead, which is arranged on, moves left and right seat on the part of bridge outer surface.

The driving cylinder is set in the distribution corresponding with four angles for moving left and right seat of motor mounting seat respectively, described Lead respectively motor mounting seat, move left and right seat it is corresponding with four angles of main spindle box mounting seat distribution set.

The cohesion device includes being fixedly installed on moving left and right on seat and being set in encircles hoop and driving in fixed column The holding driving cylinder that hoop holds fixed column tightly is encircled, the cohesion device is set respectively in the upper and lower surface for moving left and right seat Put.

The left and right transmission realized and moved left and right is respectively equipped with the frame seat structure for moving left and right seat between two bridges Slide sliding seat and be arranged in mechanism and left and right sliding mechanism, the left and right that the left and right sliding mechanism includes being arranged in frame seat structure The rail that horizontally slips on bridge, it is described horizontally slip on seat provided with two blocks that horizontally slip spaced apart, the rail that horizontally slips On be interval with and correspond to two tracks for horizontally slipping block respectively, described two horizontally slip between block and two slide rails provided with the patch that matches Close the slip inclined plane slided.

The left and right transmission mechanism includes being arranged on moving left and right rack, being arranged between two tracks of the rail that horizontally slips Move left and right the left and right drive device on seat and be arranged on the output shaft of left and right drive device and mutually nibbled with moving left and right rack That closes moves left and right gear, it is described move left and right gear and be arranged on two horizontally slip between block.

By using above-mentioned technical proposal, the beneficial effects of the utility model are：Above-mentioned stonecutter is by the way that two bridges are connected One entirety of composition is connect, seat will be moved left and right is arranged to frame seat structure and move that (i.e. two bridges are to be located in respectively on two bridges In frame seat structure, the mechanical part structure integration in each portion is enabled to, more preferably, connection during work between each portion is more for load-bearing Firm, machinery is more steady during shift action, so as to lift cutting accuracy, further structure setting can enter one in above-mentioned each portion What is walked make it that mechanical structure is more firm, more steady when mobile, and the situation for cutting bounce occurs in machinery when can effectively place work, So as to preferably realize the purpose of this utility model effect.

Brief description of the drawings

Fig. 1 is the overall structure diagram for the two-beam bridge stonecutter that the utility model is related to.

Fig. 2 is the enlarged drawing in A portions in Fig. 1.

Fig. 3 is the partial structural diagram for the two-beam bridge stonecutter that the utility model is related to.

Fig. 4 and Fig. 5 are the structural representations of the different angles of partial structurtes for the two-beam bridge stonecutter that the utility model is related to Figure.

Fig. 6 and Fig. 7 are the structural representations of elevation and subsidence mechanical part in the two-beam bridge stonecutter that the utility model is related to.

In figure：

Elevation and subsidence mechanical part 1；Motor mounting seat 11；Main spindle box mounting seat 12；Driving cylinder 13；

Fixed column 14；Cohesion device 15；Encircle hoop 151；Hold driving cylinder 152 tightly；Lead 16；

Move left and right mechanical part 2；Move left and right seat 21；Pilot hole 211；

Left and right transmission mechanism 22；Move left and right rack 221；Left and right drive device 222；

Left and right sliding mechanism 23；Slide sliding seat 231 in left and right；Horizontally slip block 2311；

Horizontally slip rail 232；Track 2321；

Movable mechanical part 3；Bridge 31；Contiguous block 32；Side bar 33；

Front and rear transmission mechanism 34；Movable rack 341；Front and rear drive device 342；Movable gear 343；

Front and rear sliding mechanism 35；Slide back and forth seat 351；Slide back and forth rail 352；

Slide back and forth block 353；Slide back and forth groove 354；Protective cover 355；

Fixing device 36；Mounting seat 361；Driving cylinder 362；Stay hook 363.

Embodiment

In order to which the technical solution of the utility model is explained further, the utility model is entered below by specific embodiment Row is elaborated.

The utility model discloses a kind of two-beam bridge stonecutter, as shown in Fig. 1-Fig. 7, including drives cutting tool lifting Realize the elevation and subsidence mechanical part 1 cut to stone material depth direction, drive cutting tool to move left and right realization along stone material tangent line Move left and right mechanical part 2 and the drive cutting tool of direction advance cutting move forward and backward the front and rear shifting for realizing stone material cutting width Dynamic mechanical part 3, the elevation and subsidence mechanical part 1, which is arranged on, to be moved left and right on mechanical part 2, described to move left and right mechanical part 2 It is arranged on movable mechanical part 3, the movable mechanical part 3 includes two parallel intervals and set for cutting tool frame If bridge 31, it is described move left and right mechanical part 2 include be erected at moved on the bridge 31 move left and right seat 21, institute State in the frame seat structure for moving left and right seat 21 and the left and right transmission mechanism 22 realized and moved left and right is respectively equipped between two bridges 31 With left and right sliding mechanism 23, the movable mechanical part 3 also includes being respectively fixedly disposed on support supplying the two ends of bridge 31 Overlap mobile side bar 33 and setting and movable front and rear transmission mechanism 34 is realized between bridge 31 and side bar 33 and front and rear Sliding equipment 35, the elevation and subsidence mechanical part 1 includes motor mounting seat 11, main spindle box mounting seat 12 and installed in driving electricity Machine mounting seat 11 and the driving cylinder 13 between seat 21 is moved left and right, 12 points of the motor mounting seat 11 and main spindle box mounting seat Seat 21 Dui Ying not moved left and right setting up and down；Stonecutter of the present utility model is described in detail below in conjunction with the accompanying drawings and cuts stone compared to existing The effect that the improvements and improvements of machine are realized.

As shown in Figure 1, Figure 4 and Figure 5, the seat 21 that moves left and right is the skeleton frame knot for being coated on the movement of the outer surface of bridge 31 Structure, two bridges 31 are located in frame seat structure respectively, the structure of skeleton frame can more preferably limit move left and right seat 21 and bridge 31 it Between first to moving direction, prevent skew, the two ends of two bridge 31 connect and compose overall structure by contiguous block 32 respectively, whole The structure of body enables to mechanical structure more firm, and action is more steady, so as to realize the purpose of this utility model effect.

As shown in figures 1 and 3, the front and rear sliding mechanism 35 includes being arranged on the end of bridge 31 sliding back and forth seat 351 and it is arranged on side bar 33 and slides back and forth rail 352, the section for sliding back and forth seat 351 is into concave character type structure, its recess Down, provided with block 353 is slid back and forth in the concave character type structure, the rail 352 that slides back and forth is provided with for sliding back and forth block 353 Embedded to slide back and forth groove 354, the block 353 that slides back and forth is with sliding back and forth slip of fit provided with matching between groove 354 Inclined plane is slided, the slide construction load-bearing balance of the structure, action is more steady, is less prone to skew, can reduce the machinery of slip Loss, is conducive to lifting cutting accuracy, the rail 352 that slides back and forth is provided with covering this protective cover for sliding back and forth rail 352 355, the protective cover 355 is fed through the concave character type structural cavities for sliding back and forth seat 351, and the setting of the protective cover 355 is can Effectively prevent dust debris from entering to slide back and forth to cause to slide abnormal increase abrasion in rail 352, influence cutting accuracy, and do not influence The normal slip of sliding equipment.

Further, as shown in figures 1 and 3, transmission mechanism 34 includes being arranged on before and after described slide back and forth on rail 352 before Mobile rack 341, the front and rear drive device 342 that is arranged on bridge 31 and it is arranged on the output shaft of front and rear drive device 342 afterwards Movable gear 343 that is upper and being meshed with movable rack 341, the drive mechanism of the structure is common using electricity compared to existing The secondary kind of drive of machine drive screw ball, driving force is bigger more steady, favorably with lifting cutting accuracy.

Further, as shown in Figure 1, Figure 2 and Figure 3, the movable mechanical part 3 also includes for being moved in bridge 31 The securing fixing device 36 of cutting position is moved, the fixing device 36 includes mounting seat 361, in mounting seat 361 Driving cylinder 362 and be connected to the stay hook 363 of the piston-rod end of driving cylinder 362, the mounting seat 361 is arranged on and slid back and forth On seat 351, down, the stay hook 363 is used to catch on movable rack 341 or front and rear cunning the piston rod of driving cylinder 362 In dynamic rail 352, shown in figure is to catch on movable rack 341, should also separately be set accordingly if catching on and sliding back and forth rail 352 Structure, when bridge 31 is moved to cutting position, fixing device is acted, and is further fixed, makes the connection of the part more Close firm, the situation that can effectively avoid cutting from beating is produced, and can so reduce mechanical wear, the use of prolonged mechanical In the life-span, be conducive to improving cutting accuracy again, acted during work by driving cylinder 362, its piston rod rises, drive stay hook 363 Rise to consolidate and catch on movable rack 341, so that further fixing position between bridge 31 and side bar 33, this is fixed Device 36 it is simple in construction, it is simple to operate, preferable fix stably effect can be realized.

Further, as Figure 4-Figure 7, the elevation and subsidence mechanical part 1 also include be arranged on motor mounting seat 11 with The lead 16 between fixed column 14 and motor mounting seat 11 and main spindle box mounting seat 12 between main spindle box mounting seat 12, It is described to move left and right the cohesion device 15 for being provided between seat 21 and fixed column 14 and being used for fixing fixed column 14, the driving cylinder 13 Set respectively in the distribution corresponding with the both sides for moving left and right seat 21 of motor mounting seat 11, shown in figure is in driving electricity The distribution corresponding with moving left and right 21 4 angles of seat of machine mounting seat 11 is set, and enables to driving force more to balance；Using above-mentioned liter Drop construction machine will not be because gravity deflection be to causing lifting inclination occur, in lifting process along with cohesion device 15 operationally Fixed column is held tightly the fixed position of fixed column 14, so as to solve in work because the influence cutting that skew is present occurs in operating position The problem of precision.

The lead 16 can be further increase structure setting, and it is respectively in motor mounting seat 11 and main spindle box The corresponding distribution in both sides of mounting seat 12 sets and through sliding in the pilot hole 211 being provided with seat 21 is moved left and right, such as schemed Shown in be motor mounting seat 11, move left and right seat 21 it is corresponding with four angles of main spindle box mounting seat 12 distribution set Put, further reach stable steering action effect；The driving cylinder 13 and lead 16, which are arranged on, moves left and right seat 21 beyond bridge On the part of the outer surface of beam 31, the structure setting enables to the motive force distribution of lifting more reasonable, and lifting more balance is steadily.

Further, as Figure 4-Figure 7, the cohesion device 15 includes being fixedly installed on moving left and right on seat 21 and being arranged The holding driving cylinder 152 for encircling hoop 151 and the holding fixed column 14 of driving ring anchor ear 151 in fixed column 14, works as cutting tool When dropping to the operating position of cutting, cohesion device 15 is opened, the position of fixed column 14 also can be just fixed, compared to only passing through The fixation that driving cylinder 13 carrys out the fixed position structure is more firm, active force influence when can avoid slit, described to hold dress tightly Put 15 to set respectively in the upper and lower surface for moving left and right seat 21, can reach and preferably hold effect tightly.

Further, as shown in figure 4, sliding seat is slided in the left and right that the left and right sliding mechanism 23 includes being arranged in frame seat structure 231 slide with the rail 232 that horizontally slips being arranged on bridge 31, two left and right spaced apart that are provided with horizontally slipped on seat 231 It is interval with motion block 2311, the rail 232 that horizontally slips and corresponds to two tracks 2321 for horizontally slipping block 2311, described two respectively Horizontally slip the slip inclined plane fitted and slided provided with matching between block 2311 and two slide rails 2321, the slide construction of the structure Ibid above-mentioned front and rear sliding mechanism can realize that load-bearing is balanced, and action is more steady, is less prone to skew, can reduce the machinery of slip Loss, is conducive to lifting cutting accuracy.

As shown in FIG., the left and right transmission mechanism 22 includes being arranged between two tracks 2321 of the rail 232 that horizontally slips Move left and right rack 221, be arranged on the left and right drive device 222 moved left and right on seat 21 and be arranged on left and right drive device On 222 output shaft and with move left and right that rack 221 is meshed move left and right gear (in figure invisible), it is described to move left and right Gear is arranged on two and horizontally slipped between block 2311, and the drive mechanism driving force of the structure is bigger more steady, is favorably cut with lifting Cut precision.

Above-described embodiment and schema and non-limiting product form of the present utility model and style, any art Appropriate change or modification that those of ordinary skill is done to it, all should be regarded as not departing from patent category of the present utility model.

Claims (10)

1. two-beam bridge stonecutter, including elevation and subsidence mechanical part, mechanical part and movable mechanical part are moved left and right, it is described Elevation and subsidence mechanical part, which is arranged on, to be moved left and right on mechanical part, and the mechanical part that moves left and right is arranged on movable Machinery Ministry On point, the movable mechanical part includes two parallel intervals and sets the bridge set up for cutting tool, described to move left and right Mechanical part include be erected at moved on the bridge move left and right seat, it is characterised in that：The seat that moves left and right is bag The frame seat structure of bridge outer surface movement is overlayed on, two bridges are located in frame seat structure respectively, the two ends difference of two bridge Overall structure is connected and composed by contiguous block.

2. two-beam bridge stonecutter as claimed in claim 1, it is characterised in that：The movable mechanical part also includes dividing It is not fixedly installed on support and overlaps the side bar of movement for bridge two ends and set realization between bridge and side bar movable Front and rear transmission mechanism and front and rear sliding mechanism, the front and rear sliding mechanism includes being arranged on bridge end and sliding back and forth seat With the rail that slides back and forth being arranged on side bar, the section for sliding back and forth seat is into concave character type structure, and its recess is down, described recessed Provided with sliding back and forth block in font structure, it is described slide back and forth rail and be provided with slide back and forth groove, institute for slide back and forth block insertion The slip inclined plane for sliding back and forth block with sliding back and forth between groove slip of fit provided with matching is stated, described slide back and forth sets on rail Have and cover this protective cover for sliding back and forth rail, the protective cover is fed through the concave character type structural cavities for sliding back and forth seat.

3. two-beam bridge stonecutter as claimed in claim 2, it is characterised in that：Transmission mechanism is included before being arranged on before and after described The movable rack on rail, the front and rear drive device being arranged on bridge and the output for being arranged on front and rear drive device are slided afterwards The movable gear being meshed on axle and with movable rack.

4. two-beam bridge stonecutter as claimed in claim 3, it is characterised in that：The movable mechanical part also includes For being moved to the securing fixing device of cutting position in bridge, the fixing device includes mounting seat, installed in mounting seat On driving cylinder and be connected to the stay hook of driving cylinder piston-rod end, the mounting seat is arranged on and slid back and forth on seat, described Drive cylinder piston rod down, the stay hook is used to catch on movable rack or slides back and forth rail.

5. the two-beam bridge stonecutter as described in claim 1-4 any one, it is characterised in that：The elevation and subsidence mechanical part bag Include motor mounting seat, main spindle box mounting seat and installed in motor mounting seat and move left and right the driving cylinder between seat, The motor mounting seat and main spindle box mounting seat correspond to that to move left and right seat setting up and down respectively；The elevation and subsidence mechanical part is also It is described to move left and right between seat and fixed column including the fixed column being arranged between motor mounting seat and main spindle box mounting seat Provided with the cohesion device for fixing fixed column, the driving cylinder in motor mounting seat and moves left and right the two of seat respectively The corresponding distribution in side is set.

6. two-beam bridge stonecutter as claimed in claim 5, it is characterised in that：The elevation and subsidence mechanical part also includes existing respectively The lead that the distribution corresponding with the both sides of main spindle box mounting seat of motor mounting seat is set, the lead exists through slip Move left and right in the pilot hole that seat is provided with, the driving cylinder and lead, which are arranged on, moves left and right seat beyond bridge outer surface On part.

7. two-beam bridge stonecutter as claimed in claim 6, it is characterised in that：The driving cylinder is installed in motor respectively Seat it is corresponding with moving left and right four angles of seat distribution setting, the lead respectively in motor mounting seat, move left and right Seat distribution corresponding with four angles of main spindle box mounting seat is set.

8. two-beam bridge stonecutter as claimed in claim 7, it is characterised in that：The cohesion device includes being fixedly installed on a left side Move right on seat and be set in the holding driving cylinder for encircling hoop and driving ring anchor ear holding fixed column in fixed column, the holding Device is set respectively in the upper and lower surface for moving left and right seat.

9. two-beam bridge stonecutter as claimed in claim 8, it is characterised in that：In the frame seat structure for moving left and right seat with It is respectively equipped between two bridges and realizes the left and right transmission mechanism moved left and right and left and right sliding mechanism, the left and right sliding mechanism bag Include the left and right being arranged in frame seat structure and slide sliding seat and the rail that horizontally slips being arranged on bridge, it is described to horizontally slip on seat Provided with two blocks that horizontally slip spaced apart, it is interval with the rail that horizontally slips and corresponds to two tracks for horizontally slipping block respectively, Described two horizontally slip between block and two slide rails provided with match fit slip slip inclined plane.

10. two-beam bridge stonecutter as claimed in claim 9, it is characterised in that：The left and right transmission mechanism includes being arranged on Horizontally slip moving left and right rack, being arranged on the left and right drive device moved left and right on seat and be arranged between two tracks of rail On the output shaft of left and right drive device and with move left and right that rack is meshed move left and right gear, the gear that moves left and right is set Put and horizontally slipped two between block.