CN211520615U - Stone material slitting delivery wagon - Google Patents

Abstract

The utility model discloses a stone slitting conveyor, which comprises an upper layer frame and a lower layer frame; the lower frame is provided with a batten group, and the bottom of the lower frame is provided with a walking wheel group; the upper layer frame is movably erected on the lower layer frame, the bottom of the upper layer frame is provided with a supporting wheel set, and the supporting wheel set is arranged in parallel with the wheel walking direction of the walking wheel set; the upper frame is provided with vehicle-mounted roller sets which are staggered with the slat sets of the lower frame one by one, and the vehicle-mounted roller sets can lift or lower than the slat sets through the high-low supporting state of the supporting wheel sets. This is novel to realize succinct, simple, efficient stone material biography material transport and cutting and provide crucial technique, brings splendid economic benefits for the enterprise.

Description

Stone material slitting delivery wagon

Technical Field

The utility model relates to a stone material cutting equipment specifically indicates a stone material slitting delivery wagon.

Background

The stone slitting equipment is one of stone cutting machines, and is used for transversely and longitudinally cutting stone into strip-shaped plates with required sizes. The traditional stone slitting adopts single-knife cutting, and the efficiency is extremely low. At present, a single knife is generally changed into a plurality of knives, so that the efficiency is improved, but still great defects exist.

At present, two main stone slitting operation methods are provided, one is transverse and longitudinal cutting and separating operation, and therefore repeated feeding and discharging operations are needed, the operation is complex, and the efficiency is low. The other is horizontal and vertical integrated flow operation, the middle plates are longitudinally cut to form a plurality of middle plates, then the middle plates are conveyed, turned, connected and the like one by one, and then longitudinal cutting is carried out, although the operation of feeding and discharging in the middle is saved, a series of middle operations carried out for realizing turning cutting not only greatly lengthen the whole cutting production line and complicate the operation, but also have high requirement on the matching precision, the production efficiency is not ideal enough, and the production benefit is influenced

In view of the above, the present disclosure provides a stone slitting apparatus, and a conveying vehicle for cutting stone into strips.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a stone material slitting delivery wagon for realizing succinct, simple, efficient stone material biography material transport and cutting provide crucial technique, brings splendid economic benefits for the enterprise.

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

a stone slitting transport vehicle comprises an upper layer vehicle frame and a lower layer vehicle frame; the lower frame is provided with a batten group, and the bottom of the lower frame is provided with a walking wheel group; the upper layer frame is movably erected on the lower layer frame, the bottom of the upper layer frame is provided with a supporting wheel set, and the supporting wheel set is arranged in parallel with the wheel walking direction of the walking wheel set; the upper frame is provided with vehicle-mounted roller sets which are staggered with the slat sets of the lower frame one by one, and the vehicle-mounted roller sets can lift or lower than the slat sets through the high-low supporting state of the supporting wheel sets.

The wheel row direction of the traveling wheel set is arranged in the same direction as the conveying direction of the vehicle-mounted roller set or 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 group is in transmission connection with a vehicle-mounted transmission assembly; the vehicle-mounted transmission assembly is connected with a driving assembly for realizing self-driving of the vehicle-mounted roller set, or the vehicle-mounted transmission assembly is connected with a coupling assembly for realizing linkage of the vehicle-mounted roller set.

The vehicle-mounted transmission assembly comprises a transmission main shaft and a plurality of bevel gear sets; the bevel gear set comprises a first bevel gear and a second bevel gear which are correspondingly meshed and driven; and the first bevel gears of the plurality of bevel gear sets are arranged on the transmission main shaft at intervals, and the second bevel gears of the plurality of bevel gear sets are correspondingly arranged on the roller shafts of the vehicle-mounted roller sets one by one.

A plurality of bottom plate groups which are arranged side by side at intervals by a plurality of supporting bottom plates are integrally arranged on the lower-layer frame; the batten group consists of a plurality of wooden battens which are detachably fixed on a plurality of supporting bottom plates in a one-to-one correspondence manner.

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

And the lower-layer frame is also provided with a limiting block, the limiting block is arranged above the vehicle-mounted roller group, and the limiting direction is perpendicular to the conveying direction of the vehicle-mounted roller group.

After adopting above-mentioned scheme, this novel stone material slitting delivery wagon for prior art's beneficial effect lies in: specially designing two-layer structures respectively corresponding to the vehicle-mounted roller group and the strip plate group; when the conveying vehicle moves to the position where the supporting wheel set is lifted, the vehicle-mounted roller set is lifted to be higher than the batten set at the moment, and the conveying vehicle is in a roller material conveying state and can be used for smoothly receiving the stone conveyed in the previous step or conveying the stone on the conveying vehicle to the subsequent step; the delivery wagon removes when supporting the wheelset and not being supported by external force, corresponds on-vehicle cylinder group nature and descends to being less than slat group this moment, and the stone material on the delivery wagon rotates to being supported by slat group from on-vehicle cylinder group, and the stone material on the delivery wagon is in and waits to cut ready state this moment, and relevant saw bit cutting assembly can carry out steadily, accurately cutting action to the stone material promptly, and on-vehicle cylinder group sinks to avoid the saw bit cutting, ensures that the structure is reliable, safe and effective cutting operation effect. So, the present case delivery wagon can realize passing the switching of material state and cutting state at the in-process of carrying, passes material operation state and cutting operation state in return and can succinctly combine integratively again with the help of the delivery wagon, passes the material for realizing succinctly, simple, efficient stone material and carries and the cutting provides crucial technique, brings splendid economic benefits for the enterprise.

Drawings

FIG. 1 is a schematic view of a first embodiment of the present delivery vehicle;

FIG. 2 is an exploded view of FIG. 1;

FIG. 3 is a schematic view of a second embodiment of the present delivery wagon;

FIG. 4 is a schematic view of the application of the first embodiment of the present delivery wagon;

fig. 5 is a schematic application diagram of a second embodiment of the present delivery wagon.

Description of the reference symbols

A frame 100, a walking rail 11, a supporting slope group 12,

a 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 first bevel gear 232, the second bevel gear 233,

a stop block 81.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and embodiments.

The present application relates to a stone slitting conveyor, and the first scheme is as shown in fig. 1-2, the conveyor 200 comprises an upper layer frame 21 and a lower layer frame 22 which are movably assembled with each other. The lower frame 22 is provided with a strip plate group 221, and the strip plate group 221 is formed by a plurality of strip-shaped strip plates which are parallel to each other and are arranged side by side at intervals. The bottom of the lower frame 22 is provided with a traveling wheel set 222, and the traveling wheel set 222 is used as a traveling conveying wheel of the conveying vehicle 200 and erected on a traveling rail 11 of the related frame to travel in application.

The upper frame 21 is movably erected on the lower frame 22, the upper frame 21 is provided with a vehicle-mounted roller set 211, the vehicle-mounted roller set 211 is formed by a plurality of rollers which are parallel to each other and are arranged side by side at intervals, and the plurality of rollers of the vehicle-mounted roller set 211 and the plurality of slats of the slat set 221 are arranged in a staggered mode (preferably arranged in a one-to-one staggered mode) in the horizontal direction, so that when the height position of the upper frame 21 relative to the lower frame 22 is changed, the vehicle-mounted roller set 211 can ascend and descend relative to the slat set 221, and the relative height of the two can be changed and adjusted.

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, i.e. the wheel traveling 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 of being capable of sliding during the moving and sliding process of the traveling wheel set 222. Therefore, the on-board roller set 211 can be lifted or lowered above or below the slat group 221 by the high-low support state of the support roller set 212.

In application, the high-low supporting state of the supporting wheel set 212 is realized by the auxiliary cooperation of external related mechanisms, specifically, the frame 100 is provided with the supporting slope set 12, the supporting slope set 12 is set to allow the supporting wheel set 212 to climb on the supporting slope set 12, and the height of the supporting wheel set 212 is changed by the slope of the slope, so that the supporting wheel set 212 has the high-low supporting state, and finally, the vehicle-mounted roller set 211 performs the adjustable lifting action higher than or lower than the slat group 221.

The stone slitting conveying vehicle is used for conveying stone and performing slitting operation in a matched mode. Namely the operation mode of the stone slitting, the continuous operation of stone material connection, conveying, slitting and conveying to conveying out is realized by the mode of carrying the stone material by the conveying vehicle. The conveying vehicle 200 is specially designed to have a two-layer structure corresponding to the on-vehicle roller set 211 and the slat set 221, respectively; this is so:

1) when the conveying vehicle 200 moves to the matching position where the supporting wheel set 212 corresponds to the supporting slope set 12, the vehicle-mounted roller set 211 rises to be higher than the slat set 221, the conveying vehicle 200 is in a roller material transferring state, and can smoothly receive the stone conveyed in the previous direction or convey the stone on the conveying vehicle to the subsequent direction;

2) when the conveying vehicle 200 moves to the position where the supporting wheel set 212 is separated from the supporting slope set 12, the corresponding vehicle-mounted roller set 211 descends to a position lower than the batten set 221, the stone on the conveying vehicle 200 is rotated from the vehicle-mounted roller set 211 to be supported by the batten set 221, the stone on the conveying vehicle 200 is in a ready state to be cut, the relevant saw blade cutting assembly arranged at a specific position is used for smoothly and accurately cutting the stone, the vehicle-mounted roller set 211 sinks to avoid the saw blade for cutting, and the reliable, safe and effective cutting operation effect of the structure is ensured. After the cutting is completed, the cut stone is transferred out by the transfer cart 200.

The first scheme and the second scheme of the scheme are mainly characterized in that the placing and conveying direction of the stone on the conveying vehicle and the conveying direction of the conveying vehicle are changed in the direction relation, so that the conveying vehicle can be suitable for receiving, conveying and conveying materials in different directions and can perform slitting operation on the stone in different directions. As will be described in detail below.

In the first embodiment, the conveying direction of the conveying vehicle 200 (i.e., the wheel traveling direction of the traveling wheel set 222) is set in the same direction as the conveying direction of the on-vehicle roller set 211. This solution is better suited to the case of a first cutting operation of the whole stone. As shown in FIG. 4, the frame 100 has a material feeding position, a cutting position and a material discharging position, which are sequentially arranged in the front-back direction, and the support slope group 12 is arranged at the material discharging position. The specific operating principle is as follows:

1) the conveying vehicle 200 receives materials at the front end feeding position, the supporting wheel set 212 is in a natural sinking state at the moment, the upper layer frame 21 is directly overlapped on the lower layer frame 22 and supported by the lower layer frame 22, the vehicle-mounted roller set 211 is lower than the batten set 221 at the moment, and the stone to be cut is supported by the batten set 221; after the conveying vehicle 200 is conveyed to the cutting position on the frame 100, the stone to be cut on the conveying vehicle 200 is cut into a stone plate group by the related saw blade cutting assembly; in the cutting process, the stone is stably placed on the lath group 221 and waiting to be cut, the saw blade group correspondingly saw cuts on the lath group 221, and the sunken vehicle-mounted roller group 211 can avoid the problem that the saw blade group can mistakenly cut the stone.

The batten sets 221 are preferably made of wood battens, namely, the batten sets are formed by a plurality of wood battens, the wood battens are detachably fixed on the lower-layer frame 22 in a one-to-one correspondence mode, and the lower-layer frame 22 is preferably integrally provided with a plurality of bottom plate sets 223 arranged side by side at intervals of supporting bottom plates so as to be favorable for the detachable fixing and replacement operation of the wood battens one by one.

2) The conveying vehicle 200 carries the cut stone plate group and continues to convey forwards, the supporting wheel set 212 correspondingly touches the inclined supporting surface group 12 and climbs on the inclined supporting surface group, when the supporting wheel set climbs to a set discharging position (a high level position of the inclined supporting surface group 12), the vehicle-mounted roller group 211 rises to be higher than the stone plate group 221, and the stone plate group on the drawing plate group 221 is received; at this point, the transport vehicle 200 is also in position to wait for the group of stone slabs thereon to be transported out.

In order to convey the stone plate group on the conveying vehicle 200, the vehicle-mounted roller group 211 is in transmission connection with a vehicle-mounted transmission assembly 23; the vehicle-mounted transmission assembly 23 is driven by two embodiments, the first embodiment is that the vehicle-mounted transmission assembly 23 adopts a self-driving mode, that is, the vehicle-mounted transmission assembly 23 is connected with a driving assembly, and the driving assembly drives the vehicle-mounted transmission assembly 23 to transmit, so that the purpose of rolling and conveying the material by the vehicle-mounted roller set 211 is finally realized. Secondly, the vehicle-mounted transmission assembly 23 adopts a coupling driving mode, that is, the vehicle-mounted transmission assembly 23 is connected with a related shaft device assembly, the shaft device assembly only adopts the conventional shaft coupling device, the shaft coupling assembly is divided into a first coupling part and a second coupling part, the two parts are respectively arranged on the transmission shafts of the vehicle-mounted transmission assembly 23 and the subsequent related material receiving devices, the transmission shafts of the related material receiving devices are in a self-driving mode, and the transmission can also adopt a roller set. Therefore, when the conveying vehicle 200 is conveyed to a proper position, namely, at the position where the coupling is combined, the vehicle-mounted transmission assembly 23 of the conveying vehicle 200 and the subsequent related material receiving device are automatically combined in a linkage manner by virtue of the corresponding coupling assembly; then, the related material receiving device is self-driven to drive the roller sets to roll, and simultaneously, the vehicle-mounted roller sets 211 of the conveying vehicle 200 are driven to roll synchronously, and the stone plate groups are conveyed to the related material receiving device from the vehicle-mounted roller sets 211. Then the transport vehicle 200 returns in a linkage manner, and the operation is repeated; thus realizing the continuous high-efficiency line production of stone cutting and conveying.

In the second embodiment, as shown in fig. 3, the conveying direction of the conveying vehicle 200 is perpendicular to the conveying direction of the on-board roller set 211. This solution is better suited to the case of performing a second turning cutting operation on stone material that has already been cut once. As shown in FIG. 5, the application situation is that the frame 100 has a material receiving/discharging position and a cutting position which are adjacently arranged, i.e. the material receiving position and the material discharging position are overlapped, and the support slope group 12 is arranged at the position of the material receiving/discharging position; the specific operating principle is as follows:

1) the conveying vehicle 200 is positioned at the front end/discharging position of the frame 100, at this time, the supporting wheel set 212 is positioned on the high level plane of the supporting slope group 12, and the vehicle-mounted roller group 211 is higher than the slat group 221; the conveying vehicle 200 is in a state of waiting for the material to be conveyed, and the stone plate group formed by cutting once is conveyed to the vehicle-mounted roller group 211 of the conveying vehicle 200.

The mode that the conveying vehicle 200 receives the preorder material transfer is as follows, referring to the condition that the conveying vehicle 200 feeds the material out, the first mode is that the vehicle-mounted transmission assembly 23 adopts a self-driving mode; secondly, the vehicle-mounted transmission assembly 23 adopts a coupling driving mode, when the conveying vehicle 200 is positioned at the front end/discharging position of the frame 100, the conveying vehicle 200 is also positioned at the coupling combination position, and the vehicle-mounted transmission assembly 23 and the previous related feeding device are automatically combined in a linkage manner by virtue of the coupling assembly; then, the related feeding device is driven by itself to drive the roller set to roll, and simultaneously, the vehicle-mounted roller set 211 of the conveying vehicle 200 is driven to roll synchronously, and the stone plate group is conveyed to the vehicle-mounted roller set 211 from the related feeding device.

2) The vehicle-mounted roller set 211 of the conveying vehicle 200 carries the stone slab set to move backwards, in the process of moving backwards, the supporting wheel set 212 correspondingly crawls downwards along the supporting inclined plane set 12, when the supporting wheel set 212 crawls to be separated from the supporting inclined plane set 12, the supporting wheel set 212 is in a natural sinking state, the upper-layer frame 21 is directly placed on the lower-layer frame 22 and supported by the lower-layer frame 22, at the moment, the vehicle-mounted roller set 211 is lower than the slab set 221, and the stone slab set to be cut is supported by the slab set 221 from the vehicle-mounted roller set 211; after the conveying vehicle 200 continues to move backwards to the cutting position, the related saw blade cutting assembly performs secondary steering cutting on the stone slab group to form a stone slab group with a specific required size, and the cutting operation is completed.

3) After the secondary steering cutting is completed, the conveying vehicle 200 sends out the stone bar group, and then moves back and forth to repeat the operation. The conveying vehicle 200 sends out the stone bar group, and considering that the conveying vehicle 200 needs to return to the front end to send out the material level to receive materials, the sending-out position of the stone bar group can be correspondingly arranged at the material receiving position, and further a coupling conveying mode can be uniformly adopted, so that the time of once back and forth operation of the conveying vehicle 200 can be shortened, and the efficiency is improved. Specifically, a coupling discharging machine is arranged beside the receiving/discharging position and matched with the receiving/discharging position, and a coupling assembly is arranged between the coupling discharging machine and the vehicle-mounted transmission assembly 23 of the conveying vehicle 200. Thus, when the conveying vehicle 200 returns to repeat the operation of step 1), the vehicle-mounted transmission assembly 23 is linked with the previous related feeding device, meanwhile, the vehicle-mounted transmission assembly 23 is also linked with the coupling discharging machine, the previous related feeding device transfers the stone slab group subjected to one-time cutting to the vehicle-mounted roller group 211 of the conveying vehicle 200, meanwhile, the cut stone slab group on the vehicle-mounted roller group 211 can be synchronously sent out to the coupling discharging machine, so that the conveying vehicle 200 can simultaneously perform discharging and receiving operations, and the production efficiency is further improved.

Preferably, the position of the supporting wheel set 212 at the bottom of the upper frame 21 is a wheel line position corresponding to the wheel row direction of the staggered walking 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, the vehicle-mounted roller set 212 is connected with a vehicle-mounted transmission assembly 23 in a transmission manner, and the vehicle-mounted transmission assembly 23 comprises a transmission main shaft 231 and a plurality of bevel gear sets; the helical gear set includes a first helical gear 232 and a second helical gear 233 that mesh in unison. The first bevel gears 232 of the plurality of bevel gear sets are mounted on the transmission main shaft 231 at intervals, and the end part of the transmission main shaft 231 is correspondingly provided for mounting the coupling assembly 74. The second bevel gears 233 of the plurality of bevel gear sets are mounted on the respective drum shafts of the respective drum sets 212 in a one-to-one correspondence. Therefore, the transmission main shaft 231 rotates in a linkage manner, and the roller set 212 can be driven to roll through the transmission matching of the first bevel gear 232 and the second bevel gear 233.

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.

In a preferable scheme, a limiting block 81 is further arranged on the lower frame 22; the limiting block 81 is arranged above the corresponding vehicle-mounted roller group 211, and the limiting direction of the limiting block 81 is perpendicular to the conveying direction of the vehicle-mounted roller group 211. So design specially adapted secondary turns to the cutting condition, and the stone material becomes slabstone group after once cutting, and slabstone group comprises a plurality of slabstone level superpositions of erectting, and through stopper 81's limiting displacement, turning to the cutting carrying out the secondary, slabstone group wholly can keep placing steadily relatively to ensure accurate, effective cutting.

The foregoing is only a preferred embodiment of the present invention and all equivalent changes and modifications made within the scope of the present invention are intended to be covered by the appended claims.

Claims (8)

1. The utility model provides a stone material slitting delivery wagon which characterized in that: comprises an upper layer frame and a lower layer frame; the lower frame is provided with a batten group, and the bottom of the lower frame is provided with a walking wheel group; the upper layer frame is movably erected on the lower layer frame, the bottom of the upper layer frame is provided with a supporting wheel set, and the supporting wheel set is arranged in parallel with the wheel walking direction of the walking wheel set; the upper frame is provided with vehicle-mounted roller sets which are staggered with the slat sets of the lower frame one by one, and the vehicle-mounted roller sets can lift or lower than the slat sets through the high-low supporting state of the supporting wheel sets.

2. The stone slitting conveyor car as claimed in claim 1, wherein: the wheel row direction of the traveling wheel set is arranged in the same direction as the conveying direction of the vehicle-mounted roller set or is perpendicular to the conveying direction of the vehicle-mounted roller set.

3. The stone slitting conveyor car as claimed in claim 1, wherein: 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.

4. The stone slitting conveyor car as claimed in claim 1, wherein: the vehicle-mounted roller group is in transmission connection with a vehicle-mounted transmission assembly; the vehicle-mounted transmission assembly is connected with a driving assembly for realizing self-driving of the vehicle-mounted roller set, or the vehicle-mounted transmission assembly is connected with a coupling assembly for realizing linkage of the vehicle-mounted roller set.

5. The stone slitting conveyor car as claimed in claim 4, wherein: the vehicle-mounted transmission assembly comprises a transmission main shaft and a plurality of bevel gear sets; the bevel gear set comprises a first bevel gear and a second bevel gear which are correspondingly meshed and driven; and the first bevel gears of the plurality of bevel gear sets are arranged on the transmission main shaft at intervals, and the second bevel gears of the plurality of bevel gear sets are correspondingly arranged on the roller shafts of the vehicle-mounted roller sets one by one.

6. The stone slitting conveyor car as claimed in claim 1, wherein: a plurality of bottom plate groups which are arranged side by side at intervals by a plurality of supporting bottom plates are integrally arranged on the lower-layer frame; the batten group consists of a plurality of wooden battens which are detachably fixed on a plurality of supporting bottom plates in a one-to-one correspondence manner.

7. The stone slitting conveyor car as claimed in claim 1, wherein: the support wheelset is equipped with four groups, and every group includes bracing piece and supporting wheel, and the bracing piece runs through upper frame and down extends, and the supporting wheel is installed in the bottom of bracing piece.

8. The stone slitting conveyor car as claimed in claim 1, wherein: and the lower-layer frame is also provided with a limiting block, the limiting block is arranged above the vehicle-mounted roller group, and the limiting direction is perpendicular to the conveying direction of the vehicle-mounted roller group.

Images