CN220145363U - Multi-station blanking device for sawing machine - Google Patents

Abstract

The utility model discloses a multi-station blanking device for a sawing machine, which comprises a conveying mechanism, a base, a stock frame, a first telescopic driving piece and a material transferring mechanism, wherein the conveying mechanism is arranged at the blanking side of the sawing machine and is used for conveying shaft workpieces after cutting, and the multi-station blanking device comprises a plurality of conveying rollers which are arranged side by side and at intervals, and stations are formed between the adjacent conveying rollers; the base is arranged below each conveying roller; the material storage rack is provided with a material storage groove which is obliquely arranged, and the high end of the material storage groove is provided with an opening and is positioned right above the base; the first telescopic driving piece is used for driving the base to horizontally move along the conveying direction of the conveying mechanism. The beneficial effects of the utility model are as follows: not only can realize the unloading to the cutting material of different length, can also realize transporting to the cutting material of different length at the in-process of unloading to it is neat to make the work piece put.

Description

Multi-station blanking device for sawing machine

Technical Field

The utility model relates to the technical field of sawing machine blanking devices, in particular to a multi-station blanking device for a sawing machine.

Background

The sawing machine uses circular saw blade, saw band or saw blade as cutting tool to saw round metal material, square material, pipe material, section bar, etc. After the sawing machine cuts the shaft workpieces, the cutting materials realize the blanking process under the action of the blanking device, and the existing sawing machine blanking device (such as a blanking mechanism for a vertical sawing machine disclosed in the application number 202221336151.0) can only realize blanking of the cutting materials, and can not realize transferring of the cutting materials with different lengths, so that the workpieces are placed neatly. Therefore, there is a need for a blanking device that can not only satisfy the blanking of the cutting materials of the shaft workpieces with different lengths, but also arrange the cutting materials neatly.

Disclosure of Invention

The utility model aims to overcome the technical defects, and provides a multi-station blanking device for a sawing machine, which solves the technical problems that in the prior art, the blanking device for the sawing machine can only realize blanking of cutting materials of shaft workpieces and can not realize transferring of the cutting materials with different lengths so as to enable the workpieces to be placed neatly.

In order to achieve the technical purpose, the technical scheme of the utility model provides a multi-station blanking device for a sawing machine, which comprises the following components:

the conveying mechanism is arranged on the blanking side of the sawing machine and used for conveying the shaft workpieces after cutting, and comprises a plurality of conveying rollers which are arranged side by side at intervals, wherein stations are formed between the adjacent conveying rollers;

the base is arranged below each conveying roller;

the material storage rack is provided with a material storage groove which is obliquely arranged, and the high end of the material storage groove is provided with an opening and is positioned right above the base;

the first telescopic driving piece is used for driving the base to horizontally move along the conveying direction of the conveying mechanism so that the base can reach the positions right below different stations;

the material transferring mechanism is fixed on the base and used for transferring the shaft workpieces on the conveying mechanism into the material storage groove.

Further, the material transferring mechanism comprises a material transferring table, a rotating mechanism and a lifting mechanism, wherein the material transferring table is used for receiving shaft workpieces on the conveying mechanism, the rotating mechanism is used for driving the material transferring table to rotate, and the lifting mechanism is fixed on the base and used for driving the rotating mechanism to move up and down so that the shaft workpieces on the material transferring table enter the material storage groove.

Further, elevating system includes a plurality of guide bar, lifter plate and second flexible driving piece, each the equal vertical sliding connection of guide bar in on the base, the lifter plate is fixed in each the top of guide bar, the bottom of changeing the material platform rotate install in on the lifter plate, the flexible driving piece of second is fixed in on the base, the output of the flexible driving piece of second with lifter plate fixed connection is used for the drive the lifter plate reciprocates.

Further, the rotating mechanism comprises a gear, a toothed bar and a third telescopic driving piece, the gear is coaxially and fixedly sleeved at the lower end of the material transferring table, the toothed bar is slidably mounted on the lifting plate, a toothed portion is arranged on the toothed bar and meshed with the gear through the corresponding toothed portion, the third telescopic driving piece is fixed on the lifting plate, and the output end of the third telescopic driving piece is fixedly connected with the toothed bar and used for driving the toothed bar to move.

Further, the multi-station blanking device for the sawing machine further comprises a base, wherein the base is arranged below each conveying roller, and the base is slidably mounted on the base.

Further, the base comprises a bottom plate and two sliding rails, the two sliding rails are parallel to each other along the conveying direction of the conveying mechanism and fixed on the bottom plate at intervals, the bottom of the base is connected to the sliding rails in a sliding mode, and the first telescopic driving piece is fixed on the bottom plate.

Further, the distance between the bottom of the base and the bottom plate is 5cm-10 cm.

Further, the multi-station blanking device for the sawing machine further comprises a plurality of gear pieces, each gear piece is arranged on the outer side of the sliding rail at intervals along the length direction of the sliding rail, each gear piece corresponds to the corresponding station one by one and is located on one side of the corresponding station and used for limiting movement of the base.

Further, the gear piece comprises a slot and an inserting block, the slot is fixed on the bottom plate, the height of the slot is smaller than the distance between the bottom of the base and the bottom plate, the inserting block is inserted into the slot, and the upper end of the inserting block is used for being abutted to the base.

Further, the stock frame includes support, two carry the material pole, striker plate, two limiting plates and two drive assembly, two carry the material pole along conveying mechanism's direction of delivery relatively and the interval is fixed in on the support, two carry the material pole on be used for supplying the both ends of axle type work piece to set up respectively, carry the material pole slope setting, just carry the high end of material pole to be located directly over the base, the striker plate both ends are fixed in respectively corresponding carry the lower extreme of material pole for enclosing the synthesis stock groove, two limiting plates along conveying mechanism's direction relatively set up in carry the outside of material pole, and sliding connection in on the support, two drive assembly is used for driving respectively corresponding limiting plates along perpendicular to carry the length direction of material pole to make two limiting plates respectively with the both ends butt of axle type work piece.

Compared with the prior art, the utility model has the beneficial effects that: when sawing to axle type work piece, at first set up conveying mechanism in the unloading side of sawing machine, the cutting material of axle type work piece falls into on each conveying roller, and be carried under the effect of each conveying roller, according to the length of cutting material, through controlling first flexible driving piece, make first flexible driving piece drive base along conveying mechanism's direction horizontal migration, so that the base reaches under the different stations, rethread controls the material transfer mechanism, make the material transfer mechanism convey the axle type work piece on the conveying roller to the storage inslot for storage, owing to can make the base reach under the different stations, thereby make the material transfer mechanism can transport the cutting material of different length, improve the suitability of device, again owing to the slope setting of storage inslot, make the axle type work piece that gets into in the storage inslot, can slide downwards along the length direction of storage groove, thereby make axle type work piece can neat put in the storage, make this unloader can not only realize the unloading to different cutting material lengths, the work piece can also be neatly put in the unloading to different length in the storage groove.

Drawings

Fig. 1 is a schematic perspective view of a multi-station blanking device for a sawing machine;

fig. 2 is a schematic perspective view of a multi-station blanking apparatus for a sawing machine in fig. 1, with cutting materials omitted;

FIG. 3 is a schematic perspective view of a multi-station blanking apparatus for a sawing machine of FIG. 2, with a conveying mechanism and a stock frame omitted;

in the figure: 100-conveying mechanism, 110-conveying roller, 111-station, 200-base, 300-stock rack, 310-stock trough, 320-bracket, 330-loading rod, 340-baffle plate, 350-limit plate, 360-driving component, 400-first telescopic driving piece, 500-material transferring mechanism, 510-material transferring platform, 520-rotating mechanism, 521-gear, 522-rack bar, 523-third telescopic driving piece, 530-lifting mechanism, 531-guide bar, 532-lifting plate, 533-second telescopic driving piece, 600-base, 610-bottom plate, 620-slide rail, 700-baffle plate, 710-slot and 720-plug-in block.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

The utility model provides a multi-station blanking device for a sawing machine, which is shown in fig. 1 and 2, and comprises a conveying mechanism 100, a base 200, a stock frame 300, a first telescopic driving piece 400 and a material transferring mechanism 500, wherein the conveying mechanism 100 is arranged at the blanking side of the sawing machine and is used for conveying shaft workpieces after cutting, and the multi-station blanking device comprises a plurality of conveying rollers 110 which are arranged side by side at intervals, and stations 111 are formed between the adjacent conveying rollers 110; the base 200 is disposed below each of the conveying rollers 110; the stock rack 300 is provided with a stock groove 310 which is obliquely arranged, and the high end of the stock groove 310 is provided with an opening and is positioned right above the base 200; the first telescopic driving piece 400 is used for driving the base 200 to horizontally move along the conveying direction of the conveying mechanism 100 so that the base 200 reaches the position right below the different stations 111; the transfer mechanism 500 is fixed on the base 200, and is used for transferring the shaft workpieces on the conveying mechanism 100 into the stock tank 310.

When sawing a shaft workpiece by using a sawing machine, firstly, the conveying mechanism 100 is arranged at the discharging side of the sawing machine, the cut materials of the shaft workpiece fall into the conveying rollers 110 and are conveyed under the action of the conveying rollers 110, according to the length of the cut materials, the first telescopic driving piece 400 is controlled, so that the first telescopic driving piece 400 drives the base 200 to horizontally move along the conveying direction of the conveying mechanism 100, the base 200 is enabled to arrive under different stations 111, and then the transferring mechanism 500 is controlled, so that the transferring mechanism 500 transfers the shaft workpiece on the conveying rollers 110 into the storage tank 310 for storage, and as the lengths of the cut materials of the base 200 can be changed, the applicability of the device is improved, and as the storage tank 310 is obliquely arranged, the cut materials entering the storage tank 310 can be changed along the axial direction, the cut materials can not be transferred to the storage tank 310, and the cut materials can be changed in the same length, so that the cut materials can not be transferred to the storage tank 310, and the cut materials can be tidily and smoothly placed in the same length.

As a preferred embodiment, please refer to fig. 2 and 3, the material transferring mechanism 500 includes a material transferring table 510, a rotating mechanism 520 and a lifting mechanism 530, the material transferring table 510 is used for receiving the shaft workpiece on the conveying mechanism 100, the rotating mechanism 520 is used for driving the material transferring table 510 to rotate, the lifting mechanism 530 is fixed on the base 200 and is used for driving the rotating mechanism 520 to move up and down, so that the shaft workpiece on the material transferring table 510 enters the material storage tank 310, the lifting mechanism 530 is controlled to drive the rotating mechanism 520 to move up, so as to drive the material transferring table 510 to move up, so that the material transferring table 510 can receive the cut material on the conveying roller 110, and by controlling the rotating mechanism 520, the material transferring table 510 is driven to rotate 90 degrees, so that the cut material is rotated 90 degrees, so that the cut material is in a vertical position relationship with the conveying direction of the conveying mechanism 100, the material transferring table 510 is driven to move up, so that the cut material transferring table 510 can slide up to the material storage tank 310, and the cut material storage tank 310 can slide up.

As a preferred embodiment, referring to fig. 3, the lifting mechanism 530 includes a plurality of guide rods 531, a lifting plate 532 and a second telescopic driving member 533, each guide rod 531 is vertically slidably connected to the base 200, the lifting plate 532 is fixed to the top of each guide rod 531, the bottom of the material transferring table 510 is rotatably mounted on the lifting plate 532, the second telescopic driving member 533 is fixed to the base 200, and an output end of the second telescopic driving member 533 is fixedly connected to the lifting plate 532 and is used for driving the lifting plate 532 to move up and down, and by manipulating the second telescopic driving member 533, the second telescopic driving member 533 drives the lifting plate 532 to move up and down, so as to drive the material transferring table 510 to move up and down.

As a preferred embodiment, referring to fig. 3, the rotating mechanism 520 includes a gear 521, a toothed bar 522, and a third telescopic driving member 523, where the gear 521 is coaxially and fixedly sleeved at the lower end of the material transferring table 510, the toothed bar 522 is slidably mounted on the lifting plate 532, a toothed portion is disposed on the toothed bar 522 and engaged with the gear 521 via the corresponding toothed portion, the third telescopic driving member 523 is fixed on the lifting plate 532, and an output end of the third telescopic driving member 523 is fixedly connected with the toothed bar 522 and is used for driving the toothed bar 522 to move, and by manipulating the third telescopic driving member 523, the toothed bar 522 is driven to move on the lifting plate 532, and by meshing the toothed portion with the gear 521, the gear 521 can be driven to rotate, thereby driving the material transferring table 510 to rotate.

As a preferred embodiment, referring to fig. 2 and 3, the multi-station blanking apparatus for sawing machine further includes a base 600, the base 600 is disposed below each of the conveying rollers 110, and the base 200 is slidably mounted on the base 600 for supporting the base 200.

As a preferred embodiment, referring to fig. 3, the base 600 includes a bottom plate 610 and two sliding rails 620, the two sliding rails 620 are fixed on the bottom plate 610 in parallel and spaced apart along the conveying direction of the conveying mechanism 100, the bottom of the base 200 is slidably connected to the sliding rails 620, and the first telescopic driving member 400 is fixed on the bottom plate 610, so that the base 200 can slide along the conveying direction of the conveying mechanism 100.

As a preferred embodiment, referring to fig. 3, the distance between the bottom of the base 200 and the bottom plate 610 is between 5cm and 10cm, so that the gear 700 can play a role in limiting the movement of the base 200.

As a preferred embodiment, please refer to fig. 2, the multi-station blanking device for a sawing machine further includes a plurality of gear members 700, each gear member 700 is disposed at an outer side of the sliding rail 620 along a length direction of the sliding rail 620 at intervals, each gear member corresponds to a corresponding station 111 one by one and is located at one side of the corresponding station 111, so as to limit movement of the base 200, and because the first telescopic driving member 400 does not accurately control a stroke of the base 200, the base 200 is easily located under each station 111, and a movement distance of the base 200 can be well limited by the gear members 700, so that the base 200 is accurately positioned, and a transferring effect of the material transferring mechanism 500 on cutting materials with different lengths is improved.

As a preferred embodiment, referring to fig. 3, the gear 700 includes a slot 710 and an insert block 720, the slot 710 is fixed on the bottom plate 610, the height of the slot 710 is smaller than the distance between the bottom of the base 200 and the bottom plate 610, the insert block 720 is inserted into the slot 710, the upper end of the insert block 720 is used for abutting against the base 200, the insert block 720 is inserted into the slot 710 or the insert block 720 is taken out from the slot 710, and the upper end of the insert block 720 abuts against the base 200 to realize the limiting function of the insert block 720 on the movement of the base 200.

As a preferred embodiment, please refer to fig. 1 and 2, the stock frame 300 includes a support 320, two loading rods 330, a baffle 340, two limiting plates 350, and two driving components 360, where the two loading rods 330 are opposite to each other along the conveying direction of the conveying mechanism 100 and fixed on the support 320 at intervals, the two loading rods 330 are respectively used for supporting two ends of a shaft workpiece, the loading rods 330 are disposed obliquely, the high ends of the loading rods 330 are located directly above the base 200, the two ends of the baffle 340 are respectively fixed on the lower ends of the loading rods 330 corresponding to the baffle 340, so as to enclose the stock tank 310, in order to make the lifting mechanism 530 drive the turning table 510 to move upwards, the shaft workpiece can pass through a gap between the two loading rods 330 and move to the upper side of the loading rods 330, and then control the turning mechanism 520 so as to make the turning mechanism 520 move the turning table 520 to the workpiece to the corresponding to the two loading rods 330 vertically along the conveying mechanism 100, the two lifting mechanism 530 move the lifting mechanism 330 vertically along the two ends of the lifting mechanism 330 corresponding to the conveying mechanism 100, the lifting mechanism 530 is further moves the two workpieces to the upper end of the lifting mechanism 330 vertically, and the lifting mechanism is connected to the upper end of the corresponding to the carrier plate 330, and the upper end of the lifting mechanism is further driven by the lifting mechanism 510 to the lifting mechanism is moved up and down the upper than the upper end of the corresponding to the workpiece of the loading rod 330, the lifting mechanism is moved by the lifting mechanism is moved by the lifting mechanism 510, so that the two limiting plates 350 are respectively abutted to two ends of the shaft workpiece to limit the shaft workpiece, so as to prevent the shaft workpiece from rolling off from the loading rod 330, and the two driving assemblies 360 are respectively used for driving the corresponding limiting plates 350 to move along the length direction perpendicular to the loading rod 330, so that the spacing between the two limiting plates 350 can be adjusted, and the two limiting plates 350 can limit the shaft workpiece with different lengths.

As a preferred embodiment, the conveying mechanism 100 further includes a rotation driving mechanism for driving each of the conveying rollers 110 to rotate so as to convey the cut material by the conveying rollers 110.

For better understanding of the present utility model, the following details of the working principle of the technical solution of the present utility model are described with reference to fig. 1 to 3:

when sawing a shaft workpiece by using a sawing machine, the conveying mechanism 100 is firstly arranged at the blanking side of the sawing machine, the cut material of the shaft workpiece falls onto each conveying roller 110 and is conveyed under the action of each conveying roller 110, according to the length of the cut material, the first telescopic driving piece 400 is controlled to drive the base 200 to horizontally move along the conveying direction of the conveying mechanism 100, so that the base 200 reaches the right lower part of different stations 111, the second telescopic driving piece 533 is controlled to drive the lifting plate 532 to move upwards, so as to drive the material transferring table 510 to move upwards until the shaft workpiece is positioned above the material carrying rod 330, and then the third telescopic driving piece 523 is controlled, the third telescopic driving member 523 drives the toothed bar 522 to move on the lifting plate 532, and through the meshing of the toothed portion and the gear 521, the gear 521 can be driven to rotate 90 degrees, so as to drive the turning table 510 to rotate 90 degrees, so that the shaft workpiece rotates 90 degrees, and the shaft workpiece and the loading rod 330 are in a vertical position relationship, and the second telescopic driving member 533 is controlled, so that the second telescopic driving member 533 drives the lifting plate 532 to move downward, so as to drive the turning table 510 to move downward, until both ends of the shaft workpiece are respectively set up on the corresponding loading rods 330, the shaft workpiece slides downward on the loading rods 330 along the length direction of the loading rods 330, so that the shaft workpiece can be orderly placed on the loading rods 330, thereby make the commentaries on classics material mechanism 500 can transport the cutting material of different length, improves the suitability of device, again because stock groove 310 slope sets up for get into the axle type work piece in the stock groove 310 can be followed stock groove 310's length direction downwardly sliding, thereby make axle type work piece can be neat put stock groove 310 is interior, makes this unloader not only can realize the unloading to the cutting material of different length, can also realize transporting the cutting material of different length at the in-process of unloading, in order to make the work piece put neatly.

The multi-station blanking device for the sawing machine has the following beneficial effects:

(1) The two limiting plates 350 are respectively abutted against two ends of the shaft workpiece to limit the shaft workpiece, so as to prevent the shaft workpiece from rolling off the material carrying rod 330;

(2) The two driving assemblies 360 are respectively configured to drive the corresponding limiting plates 350 to move along a direction perpendicular to the length direction of the loading rod 330, so that a distance between the two limiting plates 350 can be adjusted, and the two limiting plates 350 can limit shaft workpieces with different lengths;

(3) Because can make base 200 reach the difference under the station 111, thereby make material mechanism 500 can transport the cutting material of different length, improve the suitability of device, again because stock groove 310 slope sets up, makes the entering stock inslot's axle type work piece can be followed stock groove 310's length direction slides down, thereby makes axle type work piece can be neat put in stock groove 310 for this unloader not only can realize the unloading to the cutting material of different length, can also realize transporting the cutting material of different length at the in-process of unloading, so that the work piece is put neatly.

The above-described embodiments of the present utility model do not limit the scope of the present utility model. Any other corresponding changes and modifications made in accordance with the technical idea of the present utility model shall be included in the scope of the claims of the present utility model.

Claims (10)

1. A multistation unloader for sawing machine, characterized by, include:

the conveying mechanism is arranged on the blanking side of the sawing machine and used for conveying the shaft workpieces after cutting, and comprises a plurality of conveying rollers which are arranged side by side at intervals, wherein stations are formed between the adjacent conveying rollers;

the base is arranged below each conveying roller;

the material storage rack is provided with a material storage groove which is obliquely arranged, and the high end of the material storage groove is provided with an opening and is positioned right above the base;

the first telescopic driving piece is used for driving the base to horizontally move along the conveying direction of the conveying mechanism so that the base can reach the positions right below different stations;

the material transferring mechanism is fixed on the base and used for transferring the shaft workpieces on the conveying mechanism into the material storage groove.

2. A multi-station blanking device for a sawing machine according to claim 1, wherein the material transferring mechanism comprises a material transferring table, a rotating mechanism and a lifting mechanism, the material transferring table is used for receiving shaft workpieces on the conveying mechanism, the rotating mechanism is used for driving the material transferring table to rotate, and the lifting mechanism is fixed on the base and used for driving the rotating mechanism to move up and down so as to enable the shaft workpieces on the material transferring table to enter the material storage tank.

3. The multi-station blanking device for a sawing machine according to claim 2, wherein the lifting mechanism comprises a plurality of guide rods, lifting plates and second telescopic driving pieces, each guide rod is vertically and slidably connected to the base, the lifting plates are fixed to the tops of the guide rods, the bottoms of the material turning tables are rotatably mounted on the lifting plates, the second telescopic driving pieces are fixed to the base, and the output ends of the second telescopic driving pieces are fixedly connected with the lifting plates and used for driving the lifting plates to move up and down.

4. A multi-station blanking device for a sawing machine according to claim 3, wherein the rotating mechanism comprises a gear, a toothed bar and a third telescopic driving piece, the gear is coaxially and fixedly sleeved at the lower end of the material transferring table, the toothed bar is slidably mounted on the lifting plate, the toothed bar is provided with a tooth part and meshed with the gear through the corresponding tooth part, the third telescopic driving piece is fixed on the lifting plate, and the output end of the third telescopic driving piece is fixedly connected with the toothed bar and used for driving the toothed bar to move.

5. A multi-station blanking apparatus for a sawing machine according to claim 1 further comprising a base disposed below each of said conveyor rollers, said base being slidably mounted on said base.

6. The multi-station blanking device for a sawing machine according to claim 5, wherein the base comprises a bottom plate and two sliding rails, the two sliding rails are fixed on the bottom plate in parallel and at intervals along the conveying direction of the conveying mechanism, the bottom of the base is slidably connected to the sliding rails, and the first telescopic driving piece is fixed on the bottom plate.

7. A multi-station blanking apparatus for a sawing machine according to claim 6 wherein the spacing between the bottom of said base and said bottom plate is between 5cm and 10 cm.

8. The multi-station blanking device for a sawing machine according to claim 7, further comprising a plurality of gear pieces, wherein each gear piece is arranged on the outer side of the sliding rail at intervals along the length direction of the sliding rail, corresponds to the corresponding station one by one, is positioned on one side of the corresponding station, and is used for limiting movement of the base.

9. The multi-station blanking device for a sawing machine according to claim 8, wherein the gear piece comprises a slot and an insert block, the slot is fixed on the bottom plate, the height of the slot is smaller than the distance between the bottom of the base and the bottom plate, the insert block is inserted into the slot, and the upper end of the insert block is used for being abutted with the base.

10. The multi-station blanking device for the sawing machine according to claim 1, wherein the stock frame comprises a bracket, two carrying rods, a baffle plate, two limiting plates and two driving components, the two carrying rods are opposite along the conveying direction of the conveying mechanism and fixed on the bracket at intervals, the two carrying rods are respectively used for being erected at two ends of a shaft workpiece, the carrying rods are obliquely arranged, the high ends of the carrying rods are positioned right above the base, the two ends of the baffle plate are respectively fixed at the corresponding low ends of the carrying rods and are used for enclosing the stock tank, the two limiting plates are oppositely arranged at the outer sides of the carrying rods along the conveying direction of the conveying mechanism and are connected to the bracket in a sliding manner, and the two driving components are respectively used for driving the corresponding limiting plates to move along the length direction perpendicular to the carrying rods so that the two limiting plates are respectively abutted against the two ends of the shaft workpiece.