CN110733129A - kinds of stone slitting equipment - Google Patents

Abstract

The invention discloses stone slitting equipment which comprises a transverse conveying slitting machine, a coupling type bearing conveyor and a longitudinal conveying slitting machine, wherein the transverse conveying slitting machine comprises a transverse rack, a transverse conveying vehicle and a transverse saw blade cutting assembly, the longitudinal conveying slitting machine comprises a longitudinal rack, a longitudinal conveying vehicle and a longitudinal saw blade cutting assembly, the coupling type bearing conveyor comprises a bearing rack, a bearing roller set and a bearing transmission assembly, the bearing roller set is driven by the bearing transmission assembly and transversely conveyed on the bearing rack, the transverse conveying vehicle and the longitudinal conveying vehicle are respectively provided with a vehicle-mounted roller set which is transversely conveyed, the vehicle-mounted roller set is connected with a vehicle-mounted transmission assembly, and a coupling assembly is arranged between the vehicle-mounted transmission assembly and the bearing transmission assembly.

Description

kinds of stone slitting equipment

Technical Field

The invention relates to a stone cutting technology, in particular to kinds of stone slitting equipment.

Background

The stone slitting equipment is types in stone cutting machinery and is used for transversely and longitudinally cutting stone into strip-shaped plates with required sizes.

At present, two main stone slitting operation methods are available, stone slitting operation is horizontal and vertical cutting separate operation, so that multiple feeding and discharging operations are needed, the operation is complicated, and the efficiency is low, and stone slitting operation is horizontal and vertical fluid flow operation, wherein the stone slitting operation is firstly carried out in a horizontal manner to form a plurality of intermediate plates, then the intermediate plates are carried out with operations such as conveying, turning, overturning, receiving and the like, and then the stone slitting operation is carried out in a vertical manner, so that although the operation of middle feeding and discharging is saved, the operation of middle series of operations carried out for realizing turning cutting not only greatly lengthens the whole cutting production line, but also has complex operation, high requirement on matching precision, the production efficiency is still not.

Disclosure of Invention

The invention aims to provide kinds of stone slitting equipment, the whole production line is very brief, concise and ingenious in design, and simple and novel in operation, and the production efficiency is greatly improved and considerable economic benefits are brought.

In order to achieve the above purpose, the solution of the invention is:

kinds of stone slitting equipment comprises a transverse conveying slitting machine, a coupling type bearing conveyor and a longitudinal conveying slitting machine, wherein,

the transverse conveying slitter comprises a transverse frame, a transverse conveying vehicle and a transverse saw blade cutting assembly; the transverse conveying vehicle is arranged on the transverse frame in a transverse conveying mode, and the transverse saw blade cutting assembly is suspended on the transverse frame to transversely cut the stone on the transverse conveying vehicle below the transverse saw blade cutting assembly;

the longitudinal conveying slitter comprises a longitudinal frame, a longitudinal conveying vehicle and a longitudinal saw blade cutting assembly; the longitudinal conveying vehicle is arranged on the longitudinal rack in a longitudinal conveying mode, and the longitudinal saw blade cutting assembly is suspended on the longitudinal rack so as to longitudinally cut the stone on the longitudinal conveying vehicle below the longitudinal saw blade cutting assembly;

the coupling type rotary bearing conveyor comprises a rotary bearing rack, a rotary bearing roller set and a rotary bearing transmission assembly; the rotary bearing roller group is driven by the rotary bearing transmission component and is arranged on the rotary bearing frame in a transverse conveying way; the horizontal conveying vehicle and the longitudinal conveying vehicle are respectively provided with a vehicle-mounted roller set which is arranged for horizontal conveying, the vehicle-mounted roller set is connected with a vehicle-mounted transmission assembly, and a coupling assembly is arranged between the vehicle-mounted transmission assembly and the rotary bearing transmission assembly.

The horizontal conveying vehicle and the longitudinal conveying vehicle respectively comprise an upper layer vehicle frame and a lower layer vehicle frame, the lower layer vehicle frame is provided with a strip plate group, the bottom of the lower layer vehicle frame is provided with a traveling wheel group, the upper layer vehicle frame is movably erected on the lower layer vehicle frame, the bottom of the upper layer vehicle frame is provided with a supporting wheel group, the supporting wheel group is parallel to the traveling direction of wheels of the traveling wheel group, the upper layer vehicle frame is provided with vehicle-mounted roller groups staggered with the strip plate group of the lower layer vehicle frame, and the sides of the horizontal machine frame and the longitudinal machine frame, which are close to the shaft coupling type rotary bearing conveyor, are provided with supporting inclined plane groups, the supporting wheel groups are matched through the supporting inclined plane groups to enable the supporting wheel groups to have high and low supporting states, and.

The wheel row direction of the traveling wheel set of the transverse conveying vehicle is arranged in the same direction as the conveying direction of the vehicle-mounted roller set; the wheel row direction of the traveling wheel set of the longitudinal conveying vehicle is perpendicular to the conveying direction of the vehicle-mounted roller set.

The supporting wheel set is arranged at the bottom of the upper frame and is arranged at a wheel line position corresponding to the wheel row direction of the staggered walking wheel set.

The vehicle-mounted roller set is in transmission connection with a vehicle-mounted transmission assembly, the vehicle-mounted transmission assembly comprises a transmission main shaft and a plurality of bevel gear sets, each bevel gear set comprises th bevel gears and second bevel gears which are correspondingly in meshing transmission, the th bevel gears of the plurality of bevel gear sets are installed on the transmission main shaft at intervals, and the second bevel gears of the plurality of bevel gear sets are correspondingly installed on the roller shafts of the roller sets.

The upper body of the lower layer frame is provided with a bottom plate group which is formed by a plurality of supporting bottom plates arranged side by side at intervals, the batten group is formed by a plurality of wooden battens, and the wooden battens are correspondingly detachably fixed on the supporting bottom plates.

The support wheelset is equipped with four groups, and every group includes bracing piece and supporting wheel, and the bracing piece runs through lower floor's frame and down extends, and the supporting wheel is installed in the bottom of bracing piece.

The longitudinal conveying slitter is also provided with a limiting assembly, and the limiting assembly comprises a limiting block and a limiting cylinder; the limiting block is arranged above the corresponding vehicle-mounted roller group on the longitudinal conveying vehicle, the limiting cylinder is arranged on the longitudinal frame, and the limiting block and the limiting cylinder are matched with each other longitudinally and longitudinally for limiting so as to tightly push and limit the stone plate on the longitudinal conveying vehicle.

The supporting bevel group is provided with a matching surface matched with the supporting bevel group, the matching surface is provided with an th bevel, a second bevel and a high-level plane which are sequentially connected from low to high, and the inclination of the th bevel is greater than that of the second bevel.

The horizontal driving assembly and the longitudinal driving assembly comprise driving motors, two transmission wheel sets and transmission belts, the driving motors are in transmission connection with the transmission wheel sets, the two transmission wheel sets are arranged in the front and back direction of the conveying direction, the transmission belts are wound on the two transmission wheel sets, and the bottoms of the horizontal conveying vehicle or the longitudinal conveying vehicle are connected with the transmission belts.

The shaft coupling type rotary bearing conveyor also comprises an arranging assembly, wherein the arranging assembly is provided with two groups of jacking cylinder groups, and the two groups of jacking cylinder groups are arranged above the rotary bearing roller group and are oppositely arranged along the direction vertical to the conveying direction of the rollers.

The rotary bearing transmission assembly comprises a transmission main shaft and a plurality of bevel gear sets, each bevel gear set comprises th bevel gears and second bevel gears which are correspondingly meshed and transmitted, th bevel gears of the bevel gear sets are arranged on the transmission main shaft at intervals, each second bevel gear of the bevel gear sets is correspondingly arranged on each roller shaft of each rotary bearing roller set, the positions, not at two ends, of the transmission main shaft are in transmission connection with rotary bearing driving assemblies, and the positions at two ends of the transmission main shaft are respectively connected with a coupler assembly.

The transmission main shafts are provided with two transmission main shafts, the inner ends of the two transmission main shafts are in transmission connection with the rotary bearing driving assembly through transmission mechanisms, and the outer ends of the two transmission main shafts are respectively connected with the coupling assembly.

The stone slitting equipment further comprises a coupling discharging machine, the coupling discharging machine is located at the rear position of the longitudinal conveying slitting machine in the transverse direction, and a coupling assembly is arranged between the coupling discharging machine and the longitudinal conveying workshop.

By adopting the scheme, the stone slitting equipment has the advantages that the transverse conveying slitting machine, the coupling type rotating bearing conveyor and the longitudinal conveying slitting machine which are quite simple in structure are skillfully designed, and the technical effect of transverse and longitudinal efficient slitting operation of stone can be achieved.

The stone to be cut is sent to the transverse conveying vehicle from the transverse conveying slitter, and the transverse saw blade cutting assembly transversely cuts the stone to be cut on the transverse conveying vehicle; then the transversely-cut stone plate group is carried by a transverse conveying vehicle and conveyed to a coupling transmission way of a coupling type rotary bearing conveyor, and the stone plate group is conveyed to a rotary bearing roller group; then the transverse conveying vehicle returns, and the operation is repeated; the longitudinal conveying vehicle is in coupling transmission with a coupling type rotary bearing conveyor (the timing of the coupling transmission operation can be synchronous with or after the transverse conveying coupling transmission operation), a stone slab group received by a rotary bearing roller group is transferred to the longitudinal conveying vehicle, the longitudinal conveying vehicle carries the stone slab group to move longitudinally, and the longitudinal saw blade cutting assembly is used for longitudinally cutting the stone slab group to form a stone strip group with a specific required size; and then, after the longitudinal conveying vehicle sends out the stone strip group, repeating the operation.

According to the stone slitting equipment, transverse and longitudinal cutting are mutually independent, synchronous operation is achieved during work, operation is simple, mutual influence is avoided, complicated operations such as rotation and overturning are not needed in transverse and longitudinal turning, front and back conveying can be connected seamlessly through linkage and driving, the transmission time matching of conveying sections is not needed to be controlled accurately, cutting operation control is very simple and reliable, compared with the prior art, a production line is greatly shortened, longitudinal cutting can be used for cutting an entire transversely-cut stone plate group simultaneously ( overturning and cutting are needed traditionally), and in sum, production efficiency is greatly improved and considerable economic benefits are brought.

Drawings

FIG. 1 is a schematic perspective view of a stone slitting apparatus according to the present disclosure;

FIG. 2 is a perspective view of a cross feed slitter;

FIG. 3 is a schematic view of the frame and cross conveyor car of the cross conveyor slitter;

FIG. 4 is an exploded view of FIG. 3;

FIG. 5 is a perspective view of a longitudinal feed slitter;

FIG. 6 is a schematic view of a frame of the longitudinal feed slitter;

FIG. 7 is a schematic view of a longitudinal conveyor car of the longitudinal conveyor slitter;

FIG. 8 is a front view of the present apparatus for slicing stone material;

FIG. 9 is a schematic perspective view of a coupled rotary support conveyor;

fig. 10 is a partially enlarged view of fig. 8.

Description of the reference symbols

A transverse frame 100, a transverse rail 11, a set of support ramps 12,

a transverse driving component 13, a driving motor 131, two transmission wheel sets 132,

a transverse conveying vehicle 200, an upper layer vehicle frame 21, a vehicle-mounted roller set 211, a supporting wheel set 212,

a support rod 2121, a support wheel 2122, a lower layer frame 22, a lath group 221, a road wheel group 222,

the vehicle-mounted transmission assembly 23, the transmission main shaft 231, the th bevel gear 232, the second bevel gear 233,

a transverse saw blade cutting assembly 300, a swing frame 31, a saw blade main spindle box 32 and a saw blade driving assembly 33;

a longitudinal frame 400, a longitudinal rail 41, a support ramp group 42,

a longitudinal driving component 43, a driving motor 431, two transmission wheel sets 432,

a longitudinal transport vehicle 500, an upper layer vehicle frame 51, a vehicle-mounted roller set 511, a support roller set 512,

the lower frame 52, the slat set 521, the road wheel set 522,

the vehicle-mounted transmission assembly 53, the transmission main shaft 531, the th bevel gear 532, the second bevel gear 533,

a longitudinal saw blade cutting assembly 600, a swing frame 61, a saw blade main shaft box 62 and a saw blade driving assembly 63;

a coupling type rotary bearing conveyor 700, a rotary bearing frame 71 and a rotary bearing roller group 72;

a rotary bearing drive assembly 73, a drive shaft 731, an -th bevel gear 732, a second bevel gear 733,

coupling assembly 74, -th coupling portion 741, second coupling portion 742, collating assembly 75,

the limiting assembly 800, the limiting block 81 and the limiting cylinder 82.

Detailed Description

The present disclosure will be described in further detail in with reference to specific embodiments.

The scheme relates to kinds of stone slitting equipment, which comprises a transverse conveying slitting machine, a coupling type rotary bearing conveyor 700 and a longitudinal conveying slitting machine, wherein the coupling type rotary bearing conveyor 700 is arranged between the transverse conveying slitting machine and the longitudinal conveying slitting machine and plays a role of a middle rotary bearing for disengagement or coupling transmission, as shown in figures 1-10.

The cross feed slitter comprises a cross frame 100, a cross feed carriage 200, and a cross saw blade cutting assembly 300. The transverse frame 100 is provided with a transverse rail 11, and the transverse transport vehicle 200 is movably erected on the transverse rail 11 to realize transverse back and forth transport. The cross blade cutting assembly 300 is suspended from the cross frame 100 to cut stone laterally on the cross car 200 therebelow.

The transversal blade cutting assembly 300 can be realized by using the existing related blade cutting assembly, wherein is preferably suspended by using a pendulum type cutting method, specifically, the transversal blade cutting assembly 300 comprises a pendulum frame 31, a blade headstock 32 and a blade driving assembly 33, wherein the pendulum frame 31 is movably pivoted on the transversal frame 100, a lifting cylinder group 34 is arranged between the pendulum frame 31 and the transversal frame 100 to drive the pendulum frame 31 to swing in coordination with the cutting operation, and the blade headstock 32 is installed on the pendulum frame 31 and driven by the blade driving assembly 33 to realize the rotary cutting operation of the blade.

The longitudinal conveying slitter and the transverse conveying slitter are structurally designed in a common mode, and the first difference is that conveying directions are different and are vertical and transverse, the longitudinal conveying slitter comprises a longitudinal rack 400, a longitudinal conveying vehicle 500 and a longitudinal saw blade cutting assembly 600. similarly, the longitudinal rack 400 is provided with a longitudinal rail 41, the longitudinal conveying vehicle 500 is movably erected on the longitudinal rail 41 to realize longitudinal back-and-forth conveying, the longitudinal saw blade cutting assembly 600 is suspended on the longitudinal rack 400 to longitudinally cut stone on the longitudinal conveying vehicle 500 below the longitudinal saw blade cutting assembly 600 and the transverse saw blade cutting assembly 300 are arranged and operated in a similar mode, the longitudinal saw blade cutting assembly 600 mainly comprises a main spindle box 61, a saw blade 62, a saw blade driving assembly 63 and a lifting cylinder group 64, and the main spindle box 32/62 can be in a single main spindle integral driving mode or a plurality of main spindle separate driving modes.

The shaft-coupled rotary bearing conveyor 700 includes a rotary bearing frame 71, a rotary bearing roller set 72 and a rotary bearing transmission assembly 73. The rotary bearing roller group 72 is arranged on the rotary bearing frame 71 and is driven by the rotary bearing transmission assembly 73 to transversely convey. The horizontal transport vehicle 200 is provided with a vehicle-mounted roller set 211 for horizontal transport, and the vertical transport vehicle 500 is provided with a vehicle-mounted roller set 511 for vertical transport. That is, the on-vehicle roller set 211 of the horizontal transport vehicle 200, the supporting roller set 72, and the on-vehicle roller set 511 of the vertical transport vehicle 500 are transported in the same axial direction.

The vehicle-mounted roller set 211 of the transverse conveying vehicle 200 is connected with a vehicle-mounted transmission assembly 23, the vehicle-mounted roller set 211 is driven by the vehicle-mounted transmission assembly 23 to roll to realize conveying, similarly, a vehicle-mounted transmission assembly 53 is connected with a vehicle-mounted roller set 511 of the longitudinal conveying vehicle 500, the vehicle-mounted roller set 511 is driven by the vehicle-mounted transmission assembly 53 to roll to realize conveying, coupling assemblies 74 are respectively arranged between the vehicle-mounted transmission assembly 23 and the rotary bearing transmission assembly 73 and between the vehicle-mounted transmission assembly 53 and the rotary bearing transmission assembly 73, so that the vehicle-mounted transmission assembly 23 and the rotary bearing transmission assembly 73 can be mutually separated or mutually combined and linked by the corresponding coupling assemblies 74, the coupling assemblies 74 adopt the existing related coupling devices, namely shaft portions, the coupling assemblies 74 are divided into a second shaft portion 741 and a second shaft portion 742, the two portions are respectively arranged on the related transmission shafts of the vehicle-mounted transmission assembly 23 and the rotary bearing transmission assembly 73, the shaft portions are respectively arranged on the related transmission shafts of the vehicle-mounted transmission assembly 53 and the rotary bearing transmission assembly 73, the transverse conveying vehicle 200 and the longitudinal conveying vehicle is not provided with the conveying machine by the power conveying machine, and the conveying machine is not provided by the power of the conveying machine.

The present case stone material slitting equipment realizes the horizontal vertical high efficiency flowing water slitting operation of stone material to horizontal transport slitting machine is the assembly line front end for example (the direction also can be reversed certainly), and the operating procedure is:

1) the stone to be cut is sent to a transverse conveying vehicle 200 of a transverse conveying slitter, after the transverse conveying vehicle 200 is conveyed to a set position on a transverse frame 100, the stone to be cut on the transverse conveying vehicle 200 is transversely cut into a stone plate group by a transverse saw blade cutting assembly 300;

2) then the transverse conveying vehicle 200 carries the transversely cut stone plate group to be conveyed to the position, and the vehicle-mounted transmission assembly 23 and the rotary bearing transmission assembly 73 of the transverse conveying vehicle 200 are automatically linked and combined by means of the corresponding coupling assemblies 74;

3) the rotary bearing transmission component 73 starts to work, the rotary bearing roller group 72 is driven to roll, meanwhile, the vehicle-mounted roller group 211 of the transverse conveying vehicle 200 is also driven to roll synchronously, and the stone slab group is conveyed to the rotary bearing roller group 72 from the vehicle-mounted roller group 211; then the transverse conveying vehicle 200 is separated from linkage and returns, and the operation is repeated; namely, the continuous high-efficiency line production of stone transverse cutting and conveying is realized;

4) the longitudinal transport vehicle 500 automatically links and combines the vehicle-mounted transmission component 53 and the rotary bearing transmission component 73 by means of the corresponding coupling component 74, the rotary bearing transmission component 73 starts to work to drive the rotary bearing roller set 72 to roll, simultaneously, the vehicle-mounted roller set 511 of the longitudinal transport vehicle 500 is also driven to roll synchronously, and the stone plate set received by the rotary bearing roller set 72 is transferred to the vehicle-mounted roller set 511 of the longitudinal transport vehicle 500; the stone slab groups are flexibly transferred to the longitudinal conveying vehicle 500 (from transverse direction to longitudinal direction);

it should be noted that, in step 3) and step 4), the front and rear steps are respectively and independently operated, that is, the transverse transport vehicle 200 and the longitudinal transport vehicle 500 are in linkage combination with the coupling type rotary bearing conveyor 700 in turn, so that the design is favorable for the transverse transport vehicle 200 and the longitudinal transport vehicle 500 to carry out respectively and independently conveying and cutting operations without mutual influence, waiting time caused by limitation of the other side is not needed, and efficiency is improved.

Certainly, the steps 3) and 4) can also be performed synchronously, that is, the vehicle-mounted transmission assembly 23 and the rotary bearing transmission assembly 73 are linked and combined, and simultaneously, the vehicle-mounted transmission assembly 53 and the rotary bearing transmission assembly 73 are also linked and combined, so that the vehicle-mounted roller set 211, the rotary bearing roller set 72 and the vehicle-mounted roller set 511 roll synchronously, and the stone slab group can be transmitted to the vehicle-mounted roller set 511 in steps.

5) The vehicle-mounted roller group 511 of the longitudinal conveying vehicle 500 carries the stone slab to move longitudinally, and after the stone slab moves to a set position, the stone slab is longitudinally cut into stone slab groups with specific required sizes by the longitudinal saw blade cutting assembly 300; and then the longitudinal conveying vehicle 500 sends the stone strip group out, and the operations are repeated, namely, after the transverse cutting of the stone is finished, continuous longitudinal cutting and continuous and efficient line production of conveying are realized.

In order to facilitate the saw blade cutting assembly to perform efficient and accurate cutting operation on the stone on the conveying vehicle and avoid the possibility of damage to the conveying vehicle (mainly referred to as a roller group part) caused by the saw blade cutting. The present disclosure also proposes a preferable design for the transverse transport vehicle 200 and the longitudinal transport vehicle 300.

The preferred embodiment, take the cross transport vehicle 200 as an example

The transverse conveying vehicle 200 comprises an upper layer vehicle frame 21 and a lower layer vehicle frame 22 which are movably assembled with each other, a strip plate group 221 is arranged on the lower layer vehicle frame 22, the strip plate group 221 is formed by a plurality of strip-shaped strips which are parallel to each other and are arranged side by side at intervals, a walking wheel group 222 is arranged at the bottom of the lower layer vehicle frame 22, the walking wheel group 222 is used as a walking conveying wheel of the transverse conveying vehicle 200 and is erected on a transverse rail 11 to walk, the upper layer vehicle frame 21 is movably erected on the lower layer vehicle frame 22, a vehicle-mounted roller group 211 is arranged on the upper layer vehicle frame 21, the vehicle-mounted roller group 211 is formed by a plurality of rollers which are parallel to each other and are arranged side by side at intervals, the plurality of rollers of the vehicle-mounted roller group 211 and the plurality of strips of the strip plate group 221 are arranged in a staggered mode (preferably staggered mode) in the horizontal direction, and therefore, when the height position of the upper layer vehicle.

The scheme for changing the height position of the upper frame 21 relative to the lower frame 22 is that the bottom of the upper frame 21 is provided with a support wheel set 212, the support wheel set 212 is arranged in parallel with the wheel traveling direction of the traveling wheel set 222, that is, the wheel axial directions of the support wheel set 212 and the traveling wheel set 222 are mutually parallel, so that the support wheel set 212 is in a state capable of sliding during the traveling and sliding process of the traveling wheel set 222, a support slope set 12 is arranged on the lateral frame 100 and on the side near the shaft-coupled revolving and conveying machine 700, the support slope set 12 is arranged for the support wheel set 212 to climb on, and the height of the support wheel set 212 is changed through the slope of the slope, so that the support wheel set 212 has a high-low support state, and finally the vehicle-mounted roller set 211 can perform a lifting and adjusting action higher than or lower than the slat set 221.

, the support ramp group 12 is configured to allow the support wheel set 212 to crawl thereon, and an extending direction of an inclined plane of the support ramp group 12 is a wheel traveling direction (a direction of the transverse rail 11) of the support wheel set 212, in order to facilitate the support wheel set 212 to smoothly enter and exit from the support ramp group 12, a matching surface of the support ramp group 12, which corresponds to the support wheel set 212, is designed to be a th inclined plane, a second inclined plane and a high level plane, which are sequentially received from low to high, the high level plane is close to a side of the coupling type transfer conveyor 700, so as to facilitate the transverse conveyor 200 to stably stay there and to perform coupling with the coupling type transfer conveyor 700, an inclination of the th inclined plane is greater than an inclination of the second inclined plane, and a crawling process of the support wheel set 212 is properly buffered through two inclined planes with different inclinations, so as to improve stable reliability of overall conveying of the transverse conveyor 200.

In the preferred embodiment, the support wheel set 212 is provided in four sets, each set including a support rod 2121 and a support wheel 2122, the support rod 2121 extends downward through the lower frame 22, and the support wheel 2122 is mounted at the bottom of the support rod 2121.

Thus, in step 1) of the above operation principle, the transverse transport vehicle 200 receives material at the front end, the support wheel set 212 is in a natural sinking state, the upper frame 21 is directly placed on the lower frame 22 and supported by the lower frame 22, the vehicle-mounted roller set 211 is lower than the slat group 221, the stone to be cut is supported by the slat group 221, the transverse transport vehicle 200 is transported to a set position on the transverse frame 100, the set position is located at a position corresponding to the front of the shaft coupling (i.e. the position in front of the bevel support group 12), the transverse saw blade cutting assembly 300 transversely cuts the stone to be cut on the transverse transport vehicle 200 into a slat group, the stone is stably placed on the slat group 221 and is to be cut, the saw blade group is correspondingly placed on the saw cutting slat group 221, the sunken vehicle-mounted roller set 211 can avoid the problem that the saw blade group may erroneously cut the stone, the slat group 221 is preferably made of wood slats, the wood slats are detachably fixed on the lower frame 22, and the lower frame is preferably provided with a plurality of bottom plates arranged side by side for replacing, and facilitating the bottom plate groups and also for detaching operation.

Then, in step 2) of the above operation principle, the transverse transport vehicle 200 carries the transversely cut stone slab group and continues to transport forward, the supporting wheel set 212 correspondingly touches and climbs on the inclined supporting surface group 12, and after the inclined supporting wheel set climbs to a set high position (the high-level plane position of the inclined supporting surface group 12), at this time, the vehicle-mounted roller set 211 rises to be higher than the stone slab group 221, and the stone slab group on the strip slab group 221 is received; at this time, the transverse conveying vehicle 200 is also conveyed to the right position, the ascending vehicle-mounted transmission assembly 23 is positioned at the position of the coupling combination, and the vehicle-mounted transmission assembly 23 and the rotary bearing transmission assembly 73 of the transverse conveying vehicle 200 are automatically combined in a linkage manner by virtue of the corresponding coupling assembly 74; and then, step 3) can be carried out, the vehicle-mounted roller group 211 and the rotary bearing roller group 72 are mutually supported and synchronous with the rollers, and the conveying of the stone plate group is realized.

Preferably, the longitudinal transport vehicle 500 has the same structural design concept as the transverse transport vehicle 200, the longitudinal transport vehicle 500 includes an upper layer frame 51 and a lower layer frame 52, the upper layer frame 51 is provided with a vehicle-mounted roller set 511, the lower layer frame 52 is provided with a slat group 521 and a road wheel set 522, the structures of the above parts are matched, and the corresponding structures of the transverse transport vehicle 200 are matched with the same arrangement, which will not be described in detail herein. The difference lies in the change of the transverse direction and the longitudinal direction, the traveling wheel set 522 is erected on the longitudinal rail 41 for traveling longitudinally.

The scheme of changing the height position of the upper layer frame 51 relative to the lower layer frame 52 is also the same as that of the transverse conveying vehicle 200, the bottom of the upper layer frame 51 is provided with a supporting wheel set 512, the supporting wheel set 512 is arranged in parallel with the wheel walking direction of the walking wheel set 522, a supporting inclined plane set 42 is arranged on the longitudinal frame 400 and close to the side where the coupling type rotary bearing conveyor 700 is located, the supporting inclined plane set 42 is arranged in a similar way, the purpose of the supporting inclined plane set is to allow the supporting wheel set 512 to climb on the supporting wheel set, the height of the supporting wheel set 512 is changed through inclined plane gradient, and finally the vehicle-mounted roller set 511 is subjected to lifting adjustable movement higher than or lower than the slat group 521, the supporting wheel set 512 is provided with four groups in a similar way, each group comprises a supporting rod 5121 and a supporting wheel 5122, the description is omitted, the supporting inclined plane set 42 is designed with a inclined plane, a second inclined plane and a high level which are sequentially supported from low to high level, the high level is close to the side where the coupling type rotary.

Thus, in step 4) of the above operation principle, the longitudinal transport vehicle 500 is located at the front end of the longitudinal frame 400 (i.e. close to the side where the coupled rotary bearing conveyor 700 is located), and at this time, the supporting wheel set 512 is located on the high level plane of the supporting slope set 42, and the on-board roller set 511 is higher than the slat set 521, and the longitudinal transport vehicle 500 is also located at the position where the coupled joint is located, and the on-board transmission assembly 53 and the rotary bearing transmission assembly 73 are automatically linked and combined by means of the corresponding coupling assembly 74, the rotary bearing transmission assembly 73 starts to operate, and drives the on-board roller set 511 of the longitudinal transport vehicle 500 to synchronously roll while driving the rotary bearing roller set 72 to roll, and the slat set received by the rotary bearing roller set 72 is transferred to the on-board roller set 511 of the longitudinal transport vehicle 500;

then, in step 5) of the above operation principle, the vehicle-mounted roller set 511 of the longitudinal conveying vehicle 500 carries the stone slab group to move backwards along the longitudinal direction, in the process of moving backwards, the supporting roller set 512 correspondingly crawls downwards along the supporting inclined plane set 42, when the vehicle-mounted roller set is separated from the supporting inclined plane set 42, the supporting roller set 512 is in a natural sinking state, the upper-layer frame 51 is directly placed on the lower-layer frame 52 to be supported by the lower-layer frame, at this time, the vehicle-mounted roller set 511 is lower than the slab group 521, and the stone slab group to be cut is supported by the slab group 521 from the vehicle-mounted roller set 511; after the longitudinal transport vehicle 500 continues to move backward to the set position, the group of slates is longitudinally cut into a group of slates of a specific desired size by the longitudinal saw blade cutting assembly 600.

In the second mode, considering that the longitudinal conveying vehicle 500 needs to return to a front receiving position, the sending position of the stone group is designed to be corresponding to the receiving position, the feeding step adopts a coupling conveying mode, so that the time for the longitudinal conveying vehicle 500 to operate back and forth can be shortened, the efficiency is improved, particularly, the stone slitting equipment further comprises a coupling discharging machine, the coupling discharging machine is located at the rear position of the longitudinal conveying vehicle, the coupling discharging machine and a vehicle-mounted transmission component 53 of the longitudinal conveying vehicle 500 are arranged, when the longitudinal conveying vehicle 500 returns to the operation 4), the coupling discharging machine is linked with a vehicle-mounted transmission component 53 of the longitudinal conveying vehicle, the vehicle-mounted transmission component 53 is linked with a vehicle-mounted roller transmission component 53953, and the vehicle-mounted roller 511 is linked with the vehicle-mounted transmission component 53, so that the vehicle-mounted transmission component 511 is linked with the vehicle-mounted roller transmission component 511, and the vehicle-mounted transmission component 511 is linked with the vehicle-mounted transmission component 53, and the vehicle-mounted transmission component 511 is linked with the vehicle-mounted transmission roller 511 to synchronously to perform the operation of the vehicle-mounted stone group.

It should be noted here that the transverse transport vehicle 200 and the longitudinal transport vehicle 500 are provided mainly for the purpose of turning the design to meet the transverse and longitudinal cutting. The main difference is the different conveying directions, mainly reflected in the different direction relations between the traveling wheel set and the vehicle-mounted roller set. The row direction of the traveling wheel set 222 of the transverse conveying vehicle 200 is arranged in the same direction as the conveying direction of the vehicle-mounted roller set 211, namely, the traveling wheel set is arranged along the transverse direction. The wheel row direction of the traveling wheel set 522 of the longitudinal conveying vehicle 500 is perpendicular to the conveying direction of the vehicle-mounted roller set 511, so that the purpose of steering is achieved.

Preferably, taking the transverse conveying vehicle 200 as an example (the same applies to the longitudinal conveying vehicle 500), the arrangement position of the supporting wheel set 212 at the bottom of the upper frame 21 is the wheel line position corresponding to the wheel row direction of the staggered running wheel set 222. Thus, the supporting wheel set 212 and the road wheel set 222 can slide respectively without interference, and the high-low crawling action of the supporting wheel set 212 is facilitated.

Preferably, taking the transverse conveying vehicle 200 as an example (the same principle is applied to the longitudinal conveying vehicle 500), the vehicle-mounted roller set 212 is in transmission connection with the vehicle-mounted transmission assembly 23, the vehicle-mounted transmission assembly 23 comprises a transmission main shaft 231 and a plurality of bevel gear sets, each bevel gear set comprises th bevel gears 232 and 233 th bevel gears 233 which are in corresponding meshing transmission, each th bevel gear 232 of the plurality of bevel gear sets is installed on the transmission main shaft 231 at intervals, the end part of the transmission main shaft 231 is correspondingly provided with the coupler assembly 74, each second bevel gear 233 of the plurality of bevel gear sets is correspondingly installed on each roller shaft of each roller set 212, therefore, the transmission main shaft 231 is in linkage rotation, the roller sets 212 can be driven to roll through the transmission cooperation of the th bevel gear 232 and the second bevel gear 233, the vehicle-mounted transmission assembly 53 of the longitudinal conveying vehicle 500 similarly comprises a transmission main shaft 531 and a plurality of bevel gear sets, each bevel gear set comprises th bevel gear.

Preferably, the rotary bearing driving assembly 73 comprises a driving main shaft 731 and a plurality of bevel gear sets, each bevel gear set comprises th bevel gears 732 and a second bevel gear 733 which are correspondingly meshed for driving, each th bevel gear 732 of the plurality of bevel gear sets is arranged on the driving main shaft 731 at intervals, each second bevel gear 733 of the plurality of bevel gear sets is correspondingly arranged on each roller shaft of each rotary bearing roller set 72, the positions of the two ends of the driving main shaft 731, which are not opposite, are connected with rotary bearing driving assemblies 734 in a driving mode, the positions of the two ends of the driving main shaft 731 are respectively used for connecting coupling assemblies 74, in addition, the connection mode of the rotary bearing driving assemblies 734 is that the driving main shaft 731 is composed of two shafts which are arranged in a shape like a Chinese character '', the inner ends of the two shafts are in driving connection with the rotary bearing driving assemblies 74 through a driving mechanism.

Preferably, taking the transverse conveying vehicle 200 as an example (the longitudinal conveying vehicle 500 is the same), the transverse frame 100 is provided with a transverse driving assembly 13 for driving the transverse conveying vehicle 200, the transverse driving assembly 13 comprises a driving motor 131, two transmission wheel sets 132 and a transmission belt, the driving motor 131 is in transmission connection with the transmission wheel set 132, the two transmission wheel sets 132 are arranged in front and at back along the conveying direction, the transmission belt is wound on the two transmission wheel sets 132, and the bottom of the transverse conveying vehicle 200 is connected with the transmission belt, so that the driving motor 131 drives the transmission belt to transmit and finally drive the transverse conveying vehicle 200 to convey, the longitudinal conveying vehicle 500 is the same, the longitudinal frame 400 is provided with a longitudinal driving assembly 43 for driving the longitudinal conveying vehicle 500, the longitudinal driving assembly 43 comprises a driving motor 431, two transmission wheel sets 432 and a transmission belt, and is in connection and driving operation with the transverse driving assembly 13, and the transmission belt can be a belt, a steel wire rope.

According to the preferable scheme, the stone plate group is formed by horizontally stacking a plurality of vertical stone plates, so that the placing stability of the stone plate group is improved when the whole stone plate group is cut, and the purpose of accurate and effective cutting is achieved. The longitudinal conveying slitter 500 is also provided with a limiting assembly 800, and the limiting assembly 800 comprises a limiting block 81 and a limiting cylinder 82; stopper 81 locates the top position of the on-vehicle cylinder group 511 of correspondence on vertical delivery wagon 500, on vertical frame 100 is located to spacing cylinder 82, stopper 81 and spacing cylinder 82 along vertical front and back spacing setting of mutually supporting, so, carry slate group to carry backward when vertical delivery wagon 500 and carry to wait to cut the position after, before the cutting, earlier by spacing cylinder 82 forward the action of stretching out, cooperation stopper 81 realizes tightly spacing to the front and back top of the two slate group, later longitudinal cutting carries out again.

Preferably, the stone material is transversely cut, so that there are gaps between the slabs of the set of slabs in order to facilitate the transport thereof and the subsequent longitudinal cutting operation. The coupled rotary bearing conveyor 700 further comprises an arranging assembly 75, wherein the arranging assembly 75 is provided with two groups of tightening cylinder groups, the two groups of tightening cylinder groups are arranged above the rotary bearing roller group 72 and are oppositely arranged along the direction vertical to the roller conveying direction. Therefore, after the rotary bearing roller set 72 bears the stone plate set, the two jacking cylinder sets of the arranging assembly 75 synchronously extend to combine and arrange the stone plates of the stone plate set together, and then the stone plates are conveyed to the longitudinal conveying vehicle 500.

The above description is only a preferred embodiment of the present invention, and all equivalent changes and modifications made within the scope of the claims of the present invention should fall within the scope of the claims of the present invention.

Claims (10)

1, kinds of stone slitting equipment, which is characterized by comprising a transverse conveying slitting machine, a coupling type bearing conveyor and a longitudinal conveying slitting machine, wherein,

the transverse conveying slitter comprises a transverse frame, a transverse conveying vehicle and a transverse saw blade cutting assembly; the transverse conveying vehicle is arranged on the transverse frame in a transverse conveying mode, and the transverse saw blade cutting assembly is suspended on the transverse frame to transversely cut the stone on the transverse conveying vehicle below the transverse saw blade cutting assembly;

the longitudinal conveying slitter comprises a longitudinal frame, a longitudinal conveying vehicle and a longitudinal saw blade cutting assembly; the longitudinal conveying vehicle is arranged on the longitudinal rack in a longitudinal conveying mode, and the longitudinal saw blade cutting assembly is suspended on the longitudinal rack so as to longitudinally cut the stone on the longitudinal conveying vehicle below the longitudinal saw blade cutting assembly;

the coupling type rotary bearing conveyor comprises a rotary bearing rack, a rotary bearing roller set and a rotary bearing transmission assembly; the rotary bearing roller group is driven by the rotary bearing transmission component and is arranged on the rotary bearing frame in a transverse conveying way; the horizontal conveying vehicle and the longitudinal conveying vehicle are respectively provided with a vehicle-mounted roller set which is arranged for horizontal conveying, the vehicle-mounted roller set is connected with a vehicle-mounted transmission assembly, and a coupling assembly is arranged between the vehicle-mounted transmission assembly and the rotary bearing transmission assembly.

2. The stone slitting device as claimed in claim 1, wherein the horizontal conveyor and the vertical conveyor each comprise an upper frame and a lower frame, the lower frame is provided with a slat group, the lower frame is provided with a running wheel group, the upper frame is movably erected on the lower frame, the lower frame is provided with a support wheel group, the support wheel group is arranged in parallel with the running direction of the wheels of the running wheel group, the upper frame is provided with vehicle-mounted roller groups staggered with the slat group of the lower frame, the sides of the horizontal frame and the vertical frame near the joint shaft type rotary bearing conveyor are provided with support slope groups, the support wheel groups are matched with the support slope groups to enable the support wheel groups to have high and low support states, and accordingly the vehicle-mounted roller groups are enabled to perform lifting actions higher than or lower than the slat group.

3. The stone slitting device as claimed in claim 2, wherein the traversing vehicle has a traveling wheel set with wheels running in the same direction as the conveying direction of the vehicle-mounted roller set, and the longitudinal vehicle has a traveling wheel set with wheels running perpendicular to the conveying direction of the vehicle-mounted roller set.

4. The stone slitting device as claimed in claim 1, wherein the on-board roller sets are drivingly connected to an on-board driving assembly, the on-board driving assembly includes a driving shaft and a plurality of bevel gear sets, the bevel gear sets include a bevel gear and a second bevel gear for respective meshing transmission, the bevel gears of the plurality of bevel gear sets are alternately mounted on the driving shaft, and the second bevel gears of the plurality of bevel gear sets are correspondingly mounted on the roller shafts of the roller sets.

5. The stone slitting device as claimed in claim 1, wherein the longitudinal feed slitter further comprises a limiting assembly including a limiting block and a limiting cylinder, the limiting block is disposed above the corresponding vehicle-mounted roller set on the longitudinal feed carriage, the limiting cylinder is disposed on the longitudinal frame, and the limiting block and the limiting cylinder are longitudinally engaged with each other to limit the position of the stone set on the longitudinal feed carriage.

6. The stone slitting device as claimed in claim 2, wherein the support slope group has a matching surface with the support wheel group, the matching surface has a th slope, a second slope and a high level plane, which are sequentially connected from low to high, the slope of the th slope is greater than that of the second slope.

7. The stone slitting device as claimed in claim 1, wherein the transverse frame is provided with a transverse driving assembly for driving the transverse conveying vehicle, the longitudinal frame is provided with a longitudinal driving assembly for driving the longitudinal conveying vehicle, the transverse driving assembly and the longitudinal driving assembly each comprise a driving motor, two transmission wheel sets and a transmission belt, the driving motor is in transmission connection with the transmission wheel set, the two transmission wheel sets are arranged in front and at the back along the conveying direction, the transmission belt is wound on the two transmission wheel sets, and the bottom of the transverse conveying vehicle or the longitudinal conveying vehicle is connected with the transmission belt.

8. The stone slitting device as claimed in claim 1, wherein the coupled rotary bearing conveyor further comprises a collating unit having two sets of urging cylinder sets disposed above the rotary bearing roller sets and disposed opposite to each other in a direction perpendicular to the roller conveying direction.

9. The stone slitting device as claimed in claim 1, wherein the rotary bearing driving assembly comprises a driving main shaft and a plurality of bevel gear sets, each bevel gear set comprises a bevel gear and a second bevel gear which are correspondingly engaged and driven, each bevel gear of the plurality of bevel gear sets is installed on the driving main shaft at intervals, each second bevel gear of the plurality of bevel gear sets is installed on each roller shaft of each rotary bearing roller set correspondingly, the positions at the two ends of the driving main shaft are in transmission connection with the rotary bearing driving assemblies, and the positions at the two ends of the driving main shaft are respectively connected with the coupling assemblies.

10. The stone slitting device as claimed in claim 1, further comprising a coupling discharging machine laterally positioned at a rear position of the longitudinal conveying slitting machine, wherein a coupling assembly is provided between the coupling discharging machine and the longitudinal conveying shop.

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