CN220719638U - Sliding table saw capable of automatically feeding - Google Patents

Abstract

The application relates to a but automatic pay-off's sliding table saw, but automatic pay-off's sliding table saw includes: work bench, saw cut mechanism, guiding mechanism, saw cut mechanism and guiding mechanism all set up on the work bench, guiding mechanism can assist spacing when saw cut the mechanism cutting, still include: the transfer mechanism is arranged above the sawing mechanism and can move and cut the workpiece to be cut on the workbench; and the adjusting mechanism is arranged on the transfer mechanism and can adjust the transfer direction of the transfer mechanism. The application can improve the stability in use of the sliding table saw capable of automatically feeding, and then the quick and stable cutting of the pieces to be cut with different sizes is realized.

Description

Sliding table saw capable of automatically feeding

Technical Field

The application relates to the technical field of furniture manufacturing, in particular to a sliding table saw capable of automatically feeding.

Background

The sliding table saw is also called a precise plate cutting saw, has the characteristics of simple and convenient operation, stability, safety and high efficiency, and is a necessary device for furniture batch, standardization, mechanization and specialized production.

The existing sliding table saw mainly comprises a workbench, a crosspiece ruler and a saw blade. When the cutting machine is used, firstly, a plate to be cut is placed on the workbench, the plate is pushed to slide from the feeding side to the discharging side of the workbench, the advancing direction of the plate is limited through the crosspiece ruler on one side above the workbench, and sawing operation is carried out on the plate by using the saw blade above the workbench, so that the aim of rapid cutting is fulfilled.

When the furniture plate is actually produced and processed, the plates with different length sizes are required to be cut and sawed so as to be assembled into furniture with different sizes, however, in the process of processing the plate with smaller length sizes by using the sliding table saw, the plate is required to be pushed to the lower position of the workbench, which is close to the saw blade, so that the distance between an operator and the saw blade is too close, the situation of injury is easy to be caused, and the existing sliding table saw is not beneficial to rapidly cutting the plate with smaller size.

Disclosure of Invention

In order to be beneficial to the rapid cutting processing of plates with different sizes, the application provides a sliding table saw capable of automatically feeding.

The application provides a but automatic sliding table saw of pay-off adopts following technical scheme:

a bench saw capable of automated feeding, comprising: work bench, saw cut mechanism, guiding mechanism, saw cut mechanism and guiding mechanism all set up on the work bench, guiding mechanism can assist spacing when saw cut the mechanism cutting, still include:

the transfer mechanism is arranged above the sawing mechanism and can move and cut the workpiece to be cut on the workbench;

and the adjusting mechanism is arranged on the transfer mechanism and can adjust the transfer direction of the transfer mechanism.

Through adopting above-mentioned technical scheme, saw cut the mechanism and can carry out the fast cutting to waiting on the workstation, and guide assembly then can be at saw cut the mechanism and carry out cutting during operation rather than mutually supporting, will wait to cut the moving direction of piece and restrict, be favorable to promoting saw cut the mechanism and wait to cut the cutting stability of piece, in addition, transfer mechanism can be in saw cut the mechanism and carry out the drive to wait to cut the piece and carry out the guide, make wait to cut the piece and can send out from saw cut the mechanism fast, reduce the condition of waiting to cut the piece of manual propelling movement, reach the purpose of promoting the security of work, in addition, through the cooperation of transfer mechanism and adjustment mechanism, make wait to cut the piece and transport along guide mechanism more steadily, thereby can improve the stability in use of the pushing bench saw of this application automated pay-off more effectively, and then realize waiting to cut the piece to cut the effect of quick and stable cutting of different sizes, possess better popularization effect.

Optionally, the sawing mechanism includes:

the conveying mechanism and the adjusting mechanism are correspondingly arranged above the working surface of the carrying component;

the cutting assembly is arranged on one side of the workbench through the mounting assembly and corresponds to the position of the transfer mechanism.

Through adopting above-mentioned technical scheme, carry the thing subassembly and can bear the weight of the piece to be cut, and the cutting subassembly then can carry out the use of mutually supporting with carrying the thing subassembly, can cut the piece to be cut steadily in one side of workstation, promote effectively and treat the cutting efficiency of cutting the piece.

Optionally, the transfer mechanism includes:

the support assembly is arranged on the workbench and extends to the upper part of the sawing mechanism;

the delivery assembly is arranged on one side, close to the upper side of the sawing mechanism, of the supporting assembly so as to drive a piece to be cut on the sawing mechanism;

the driving assembly is arranged on one side of the supporting assembly and used for driving the sending-out assembly.

Through adopting above-mentioned technical scheme, send out the subassembly and can use with drive assembly cooperation for wait to cut the piece and carry to the opposite side fast from one side of carrying the thing subassembly, thereby can reach when waiting to cut the piece and cut, can also make to wait to cut the piece and cut the purpose of the opposite side ejection of compact of mechanism from sawing fast, be favorable to promoting the use continuity of this application sliding table saw, in addition, can stably restrict sending out subassembly and drive assembly in the top of cutting the subassembly through supporting component, and can make the adaptation to send out the position of subassembly and drive assembly according to waiting to cut the shape size of piece and adjust, thereby further promote the flexibility of use of this application sliding table saw.

Optionally, the adjusting mechanism includes:

the connecting component is arranged on the supporting component so as to connect the supporting component with the sending-out component, and the position of the sending-out component is adjusted through the connecting component;

and the fastening component is sleeved on the periphery of the connecting component so as to limit the movement of the connecting component.

Through adopting above-mentioned technical scheme, coupling assembling can connect between supporting component and send out the subassembly to make and send out the subassembly and can carry out nimble angular adjustment in supporting component's one end, thereby be favorable to adjusting the direction of sending out of waiting to cut the piece, reach the purpose of reinforcing pay-off stability, wherein, after sending out the angle of subassembly through adjusting, can cooperate with coupling assembling through fastening assembly and use, make the angular position who sends out the subassembly obtain the restriction, thereby promote effectively and send out the work stationarity of subassembly when supplementary pay-off.

Optionally, the delivering assembly includes:

the first rolling piece and the second rolling piece are arranged on one side, close to the upper side of the sawing mechanism, of the supporting component, distributed along the sending direction of the piece to be cut, and connected with the driving component;

the auxiliary conveying piece is arranged between the first rolling piece and the second rolling piece, is connected with the driving assembly and is in contact with the piece to be cut, so that the piece to be cut on the sawing mechanism can be conducted directionally.

Through adopting above-mentioned technical scheme, first rolling element and second rolling element matched with use, can carry steadily to carrying waiting on the thing subassembly to the workman of being convenient for carries out cutting processing to waiting of small size, has improved the security of cutting work, simultaneously, still can carry out the cooperation in coordination with first rolling element and second rolling element through assisting to send the piece, in order to be waiting to cut the piece and steadily attach and advance on carrying the thing subassembly, can also make simultaneously waiting to cut the piece and be close to and paste tightly towards the direction that is close to guiding mechanism, thereby reinforcing better waiting to cut the piece and saw cut the quality when processing.

Optionally, the driving assembly includes:

the driving piece is arranged on the supporting component and is used for driving the first rolling piece and the second rolling piece;

the driving piece is in transmission connection with the first rolling piece and the second rolling piece through the first driven piece, and the orientation piece is in transmission connection with the driving piece through the second driven piece.

Through adopting above-mentioned technical scheme, the driving piece can be through the cooperation with first follower, second follower, realizes the drive to first rolling element and second rolling element for first rolling element and second rolling element can drive the transport to treat the cutting member fast, simultaneously, drive to assisting the piece through the second follower, can further increase assisting the orientation drive rate of sending the piece to treat the cutting member, thereby are favorable to promoting better the transport stationarity of treating the cutting member.

Optionally, the sawing mechanism further comprises:

a blanking assembly; the blanking assembly is arranged on one discharging side of the carrying assembly and can split and discharge the cut piece to be cut;

a transfer assembly; the transfer assembly is arranged on the side wall of the blanking assembly, and the cut piece to be cut entering the blanking assembly is guided out to the carrying assembly through the transfer assembly.

Through adopting above-mentioned technical scheme, the unloading subassembly can separate the waiting to cut after the cutting fast, makes the garrulous wood between waiting to cut after accomplishing the cutting can drop better to follow-up split is expanded, and shifts the split that the subassembly can cooperate the unloading subassembly, thereby can shift the propelling movement to waiting to cut after the split, is favorable to follow-up to waiting to cut to get of accomplishing the cutting and put the collection.

Optionally, the sawing mechanism further comprises:

the reset component is arranged on the blanking component and is connected and matched with the transfer mechanism, so that the blanking component can be reset to one side close to the transfer mechanism.

Through adopting above-mentioned technical scheme, reset assembly can adjust the position of unloading subassembly towards being close to the direction of sending out the subassembly to be favorable to the unloading subassembly to follow-up completion cutting wait to cut the piece and carry out supplementary unloading continuously, promoted the availability factor of this application sliding table saw effectively.

Optionally, the unloading subassembly includes:

the directional piece is positioned on the discharging side of the carrying component and is arranged along the conveying direction of the piece to be cut;

the sliding piece is arranged on the side wall of the directional piece in a sliding mode, and can drive the piece to be cut to output blanking along the extending direction of the directional piece.

Through adopting above-mentioned technical scheme, the slider can be through the cooperation with the orientation piece to wait to cut the subassembly and split the transfer unloading fast after will accomplishing the cutting, thereby can improve the continuity of this application sliding table saw when using the work effectively.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the saw cutting mechanism that sets up, can carry out the fast cutting to waiting on the workstation, and guide assembly then can be when saw cutting the mechanism and carry out cutting work rather than mutually supporting, the direction of movement of waiting to cut the piece is restricted, be favorable to promoting saw cutting mechanism and wait to cut the cutting stability of piece, in addition, transfer mechanism can be when saw cutting the mechanism and carry out the drive and guide to wait to cut the piece, make waiting to cut the piece and can send out from saw cutting mechanism fast, reduce the condition of manual propelling movement waiting to cut the piece, reach the purpose of promoting the operational safety, in addition, through the cooperation of transfer mechanism and adjustment mechanism, make waiting to cut the piece and can transport along guide mechanism more steadily, thereby can improve the stability in use of the push bench saw of this application can automatic pay-off more effectively, and then realize waiting to cut the piece to cut the effect of quick and stable cutting of different sizes, possess better popularization effect;

2. the conveying component can be used in a cooperative mode with the driving component, so that a piece to be cut can be conveyed to the other side from one side of the carrying component quickly, the purpose that the piece to be cut can be discharged from the other side of the sawing mechanism quickly when the piece to be cut is cut can be achieved, the use continuity of the sliding table saw is improved, in addition, the position of the blanking component can be adjusted towards the direction close to the conveying component through the resetting component, the blanking component is facilitated to continuously assist blanking of the piece to be cut after cutting is completed, and the use efficiency of the sliding table saw is effectively improved;

3. the unloading subassembly can separate the waiting to cut after cutting fast, makes the garrulous wood between the waiting to cut after accomplishing the cutting can drop better, so that follow-up split is expanded, and transfer subassembly can cooperate the split of unloading subassembly, thereby can shift the propelling movement to waiting to cut after the split, be favorable to follow-up to waiting to cut of accomplishing to get, put and collect, in addition, come to mutually support the use with sending out the subassembly through reset assembly, can adjust the position orientation of unloading subassembly near sending out the subassembly, thereby be favorable to the unloading subassembly to follow-up waiting to cut to assist the unloading continuously, and then promoted the availability factor of this application sliding table saw more effectively.

Drawings

FIG. 1 is a schematic view of the overall structure of a table saw according to an embodiment of the present application;

FIG. 2 is a schematic diagram illustrating an internal structure of a dispensing assembly according to an embodiment of the present disclosure;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a schematic view of a workbench and a transfer mechanism according to an embodiment of the present application;

FIG. 5 is a schematic view of a driving assembly, a connecting assembly and a fastening assembly according to an embodiment of the present disclosure;

FIG. 6 is an enlarged view of portion B of FIG. 4;

FIG. 7 is a schematic view of an auxiliary feeding unit according to an embodiment of the present application;

FIG. 8 is a schematic view of the overall structure of a two-stage saw according to an embodiment of the present application;

fig. 9 is an enlarged view of a portion C of fig. 8;

fig. 10 is a schematic structural diagram of a blanking assembly and a transferring assembly according to a second embodiment of the present disclosure.

Reference numerals illustrate:

1. a work table;

2. a sawing mechanism; 21. a carrier assembly; 211. a sliding table; 212. an extension seat; 22. a cutting assembly; 221. sawing; 23. a mounting assembly; 24. a blanking assembly; 241. an orientation member; 241a, auxiliary blanking tracks; 241b, a distributor block; 242. a sliding member; 242a, guide strips; 242b, push holes; 25. a transfer assembly; 251. pushing the strip; 252. an elastic member; 26. a reset assembly; 261. a door-shaped frame; 262. a traction bar; 263. a stroke limiting block;

3. a guide mechanism; 31. abutting against the limiting component; 311. a tightening strip; 312. a connecting strip; 32. a displacement assembly; 321. a limit bar; 322. a displacement block;

4. a transfer mechanism; 41. a support assembly; 411. a positioning rod; 412. an extension rod; 413. a bearing block; 42. a feed-out assembly; 421. a first rolling member; 422. a second rolling member; 423. auxiliary feeding parts; 423a, a drive bar; 423b, a ball; 423c, mounting holes; 424. a protective cover; 424a, through holes; 425. a sprocket set; 426. a rotating shaft; 427. a chain; 43. a drive assembly; 431. a driving member; 432. a first follower; 432a, a turbine; 432b, a worm; 432c, a drive gear; 433. a second follower; 433a, a drive plate; 433b, driven bars;

5. an adjusting mechanism; 51. a connection assembly; 511. a first connection plate; 512. a second connection pad; 52. a fastening assembly; 521. a first arcuate ring; 521a, locking screw; 521b, a handle; 522. a second arcuate ring; 523. a relief groove; 524. a bar;

6. a piece to be cut;

7. a dust removing mechanism.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-10.

Example 1

The embodiment of the application discloses a sliding table saw capable of automatically feeding. Referring to fig. 1-2, an automatically feedable bench saw includes a table 1, a sawing mechanism 2, and a transfer mechanism 4. Wherein, the sawing mechanism 2 is movably installed at one side of the workbench 1, and the transfer mechanism 4 is arranged on the workbench 1 and extends to the upper part of the sawing mechanism 2. During operation, the workpiece 6 to be cut placed on one side of the workbench 1 can be conveyed and cut through the cooperation of the sawing mechanism 2 and the transfer mechanism 4, so that the use safety of the conventional sliding table saw is effectively improved.

In order to be beneficial to improving the accuracy of the sawing mechanism 2 when the workpiece 6 to be cut is cut, the guide mechanism 3 is arranged on the workbench 1, the guide mechanism 3 is arranged along the conveying direction of the workpiece 6 to be cut, and during operation, the workpiece 6 to be cut can be conveyed and cut along the extending direction of the workbench 1 under the assistance of the guide mechanism 3 through the cooperation of the sawing mechanism 2 and the transfer mechanism 4.

Referring to fig. 2-3, in the present embodiment, the sawing mechanism 2 includes a carrier assembly 21 and a cutting assembly 22. Wherein, the carrying component 21 is slidably mounted on one side of the workbench 1, and the cutting component 22 is mounted on the carrying component 21 through the mounting component 23 and corresponds to the position of the transfer mechanism 4.

In the present embodiment, the carrying assembly 21 includes a sliding table 211 and an extension seat 212. Wherein, extension seat 212 sets up in the one side lateral wall department of workstation 1, and slip table 211 then sliding connection is in extension seat 212's top. During the use, can be according to waiting to cut the size demand of piece 6 and adjust the slip table 211 on extending seat 212 position, make slip table 211 can slide to corresponding working position along extending direction who extends seat 212 to the flexibility of use of this application sliding table saw is promoted.

Referring to fig. 2-4, in this embodiment, the cutting assembly 22 includes a saw blade 221. Wherein, a mounting hole is formed on the upper surface of the workbench 1, and the saw blade 221 is mounted in the mounting hole of the workbench 1 through the mounting component 23. Meanwhile, a driving member for driving the saw blade 221 to rotate is provided at the inner side of the table 1. In this embodiment, the driving member includes a sawing motor and a pulley, the sawing motor is mounted on the inner side of the sliding table 211 and drives the mounting assembly 23 through the pulley, so as to further drive the saw blade 221 to perform rotary cutting through the mounting assembly 23.

In addition, in the present embodiment, the mounting assembly 23 includes a mounting block and a linkage shaft. Wherein the mounting block is fixed at the inner side of the workbench 1 and is rotatably connected with the saw blade 221 through a linkage shaft. Meanwhile, the other end of the linkage shaft penetrates through the mounting block and is in driving connection with the belt pulley. In use, the linkage shaft is driven to rotate by the belt pulley, so that the saw blade 221 is further driven to rotate and cut by the linkage shaft.

Referring to fig. 1-2, in the present embodiment, the transfer mechanism 4 includes a support assembly 41, a driving assembly 43, and a sending-out assembly 42. One end of the supporting component 41 is movably mounted on the upper surface of the workbench 1, and the other end extends to the position right above the saw blade 221. The feeding assembly 42 and the driving assembly 43 are movably connected to the end of the supporting assembly 41 near the saw blade 221.

Referring to fig. 2-4, in the present embodiment, the support assembly 41 includes a positioning rod 411 and an extension rod 412. Wherein, the positioning rod 411 is rotatably connected to the workbench 1, one end of the extension rod 412 is slidably inserted into the outer wall of the positioning rod 411, the other end is connected to the driving assembly 43 and the delivering assembly 42 through the bearing block 413, and the bearing block 413 is rotatably connected to one end of the extension rod 412 away from the positioning rod 411. Meanwhile, in the present embodiment, the extension rod 412 is provided in a retractable manner. In addition, in order to facilitate the adjustment and restriction of the position of the feeding out assembly 42, adjustment clamps are provided at the connection between the positioning rod 411 and the working bar and at the connection between the extension rod 412 and the positioning rod 411.

When the position of the feeding assembly 42 needs to be adjusted, the extension rod 412 may be rotated around the positioning rod 411 to adjust the overall position of the extension rod 412, and then the overall telescopic length of the extension rod 412 is adjusted, so that the longitudinal position and the transverse position of the feeding assembly 42 can be flexibly adjusted to accommodate stable conveying of the to-be-cut pieces 6 placed on the sliding table 211 and having different sizes.

Referring to fig. 2-4, the driving assembly 43 includes a driving member 431, a first driven member 432, and a second driven member 433. The driving member 431 is mounted on the supporting assembly 41 and drives the feeding assembly 42 through the first driven member 432 and the second driven member 433.

Referring to fig. 3-5, in the present embodiment, the driving member 431 may be a driving motor, and the first driven member 432 includes a worm wheel 432a, a worm 432b and a driving gear 432c. Wherein the drive motor is mounted on the bearing block 413 with the output shaft extending through to the bottom of the bearing block 413, and the worm 432b is mounted at the output shaft of the drive motor and is in driving connection with the feed-out assembly 42 via the worm gear 432a and the drive gear 432c.

Referring to fig. 3-4 and 6, in this embodiment, the payout assembly 42 includes a protective cover 424 and a sprocket set 425. Wherein, the protection cover 424 is rotatably connected to the bottom of the bearing block 413, the turbine 432a is coaxially and rotatably connected to the inside of the protection cover 424 with the driving gear 432c, and the worm 432b at the output end of the driving motor extends to the inside of the protection cover 424 and is in driving engagement with the turbine 432 a. Meanwhile, two sprocket groups 425 are arranged along the moving direction of the workpiece 6 to be cut on the sliding table 211, each sprocket group 425 is composed of two sprockets, a plurality of sprockets are rotatably connected in the protective cover 424 through the rotating shaft 426 and are arranged along the moving direction of the workpiece 6 to be cut on the sliding table 211, and the driving gear 432c is meshed with a first driven gear arranged on one of the sprockets.

Meanwhile, referring to fig. 1-2, in order to reduce the accumulation of waste materials in the protection cover 424, a dust removing mechanism 7 is disposed on the protection cover 424 in a communicating manner, and in this embodiment, the dust removing mechanism 7 is communicated with the interior of the protection cover 424 through a dust removing pipe, and the other end of the dust removing pipe is communicated with an external exhaust fan and a dust collecting box.

In order to facilitate the restriction of the position of the shield 424 after rotation, an adjustment mechanism 5 is provided at the junction of the shield 424 and the bearing block 413. In this embodiment, the adjusting mechanism 5 includes a connecting component 51 and a fastening component 52. Wherein, the connecting component 51 is installed between the bearing block 413 and the protective cover 424, and the fastening component 52 is sleeved outside the connecting component 51.

Referring to fig. 4-5, in the present embodiment, the connection assembly 51 includes a first connection pad 511 and a second connection pad 512, and the first connection pad 511 and the second connection pad 512 are respectively fixed to the bearing block 413 and the protection cover 424.

In addition, in the present embodiment, the fastening assembly 52 includes a first arcuate ring 521, a second arcuate ring 522, and a bar 524. Wherein, the first arc ring 521 and the second arc ring 522 are respectively sleeved on two sides of the first connection disc 511 and the second connection disc 512 through bars 524, and the inner sides of the first arc ring 521 and the second arc ring 522 are respectively provided with a yielding groove 523 in sliding fit with the first connection disc 511 and the second connection disc 512. In use, the first connection plate 511 and the second connection plate 512 can slide in the relief groove 523, thereby realizing stable rotation adjustment of the entire feed-out module 42.

Meanwhile, referring to fig. 4 to 5, in order to achieve locking of the first arc-shaped ring 521 and the second arc-shaped ring 522, a locking screw 521a is screw-coupled to the other end of the first arc-shaped ring 521, and the locking screw 521a penetrates through one end of the first arc-shaped ring 521 to be screw-coupled to the second arc-shaped ring 522. Further, in order to facilitate the screwing of the locking screw 521a, a handle 521b is attached to the end of the locking screw 521 a.

When the whole of the delivery assembly 42 needs to be rotationally adjusted, the locking screw 521a is firstly unscrewed by the handle 521b, so that the first arc-shaped ring 521 and the second arc-shaped ring 522 are separated from each other, then the protective cover 424 is rotated to enable the protruding block to slide in the annular groove, after the protective cover 424 is adjusted to a proper position, the locking screw 521a is screwed down again, so that the first arc-shaped ring 521 and the second arc-shaped ring 522 are close to each other and clamp the outer walls of the first connecting disc 511 and the second connecting disc 512, and therefore the whole of the delivery assembly 42 is flexibly adjusted and rapidly limited.

Referring to fig. 3-4 and 6, the payout assembly 42 further includes an auxiliary feeder 423, a first roller 421, and a second roller 422. The first rolling member 421 and the second rolling member 422 are respectively located at an output end and an output end of the protection cover 424, the auxiliary feeding member 423 is located between the first rolling member 421 and the second rolling member 422, and the driving motor drives the auxiliary feeding member 423 through the second driven member 433.

Meanwhile, in the present embodiment, the first rolling member 421 and the second rolling member 422 are each composed of two rolling wheels, and the rolling wheels are fixed on the rotating shaft 426 of each sprocket, and the rolling wheels can rotate synchronously with the corresponding sprocket. Further, a chain 427 is connected to both inside the two sprocket groups 425 and between the two sprocket groups 425. In the embodiment, a rubber sleeve is sleeved outside the rolling wheel.

Referring to fig. 4, 6 and 7, in the present embodiment, the second follower 433 includes a driving disc 433a and a follower bar 433b, wherein the driving disc 433a is sleeved and fixed on the rotating shafts 426 of the two sprockets located at the inner side, and the follower bar 433b is rotatably connected at an eccentric position of the driving disc 433 a.

Meanwhile, in the present embodiment, the auxiliary feeding member 423 includes a driving bar 423a and a ball 423b. The driving bar 423a is connected to one end of the driven bar 433b away from the driving disc 433a, and a plurality of mounting holes 423c are uniformly formed in the driving bar 423a, the rolling ball 423b is correspondingly rotatably mounted in the mounting hole 423c, and the rolling direction of the rolling ball 423b and the conveying direction of the workpiece 6 to be cut are distributed in forty-five degrees, so that the workpiece 6 to be cut is driven by the rolling ball 423b to move towards the direction close to the guiding mechanism 3. In addition, in order to facilitate the driving bar 423a to drive and guide the workpiece 6 to be cut on the sliding table 211 through the rolling ball 423b, a through hole 424a adapted to the driving bar 423a is formed at the bottom of the protection cover 424.

When the cutter is used, the worm 432b is driven by the driving motor to operate, so that the first driven gear drives one of the sprockets to rotate firstly through the rotation transmission of the turbine 432a and the driving gear 432c, and the other sprockets can synchronously rotate under the transmission cooperation of the chain 427, so that a plurality of rolling wheels can be further driven to synchronously roll and convey the workpiece 6 to be cut on the sliding table 211, and the aim of synchronously conveying and cutting is fulfilled.

Referring to fig. 1-2 and 4, in order to facilitate the adjustment and restriction of the position of the feed-out assembly 42, adjustment clamps are provided at the connection of the positioning rod 411 to the work bar, the connection of the extension rod 412 to the positioning rod 411, and the connection of the shield 424 to the bearing block 413.

During the use, can be through the regulation clamping piece that uses different positions to press from both sides tight restriction to the position after locating lever 411 rotates, the position after extension rod 412 rotates, the flexible length of extension rod 412 and the position after protection casing 424 rotates respectively to improve the use flexibility and the stability of this application and send out subassembly 42 effectively.

Referring to fig. 1-2 and 4, in the present embodiment, the guiding mechanism 3 includes a tightening limiting assembly 31 and a displacement assembly 32. The abutment limiting assembly 31 is mounted on the workbench 1 and extends along the conveying direction of the workpiece 6 to be cut, and the displacement assembly 32 is mounted on one side of the workbench 1 and can adjust the position of the abutment limiting assembly 31 on the workbench 1.

In the present embodiment, the abutment limiting assembly 31 includes an abutment bar 311 and a connecting bar 312. The abutting strip 311 is vertically fixed at the lower half part of one side of the connecting strip 312, which is close to the sliding table 211, and the abutting strip 311 and the connecting strip 312 are movably connected with the workbench 1 through the displacement assembly 32.

Meanwhile, referring to fig. 2 and 4, in the present embodiment, the displacement assembly 32 includes a limiting bar 321 and a displacement block 322. The limiting bar 321 is mounted on one side of the workbench 1 and extends along the width direction of the workbench 1, and the displacement block 322 is slidably connected to the limiting bar 321 and fixed to one side of the connecting bar 312 away from the abutting bar 311. In order to limit the positions of the abutting strip 311 and the connecting strip 312, an adjustment clamp is provided at the joint between the displacement block 322 and the stopper 321.

Example two

Referring to fig. 8-9, the second embodiment is different from the first embodiment in that in this embodiment, the sawing mechanism 2 further includes a blanking component 24 and a transferring component 25. Wherein, the blanking component 24 is arranged on the discharging side of the upper surface of the sliding table 211, and the transferring component 25 is arranged on the side walls of the two sides of the blanking component 24.

When the automatic cutting machine is used, the workpiece 6 to be cut moves along the sliding table 211 while being cut under the drive of the sending-out assembly 42 and moves to the discharging side of the sliding table 211, the workpiece 6 to be cut after cutting can be rapidly divided into two parts under the drive of the blanking assembly 24, and finally the workpiece 6 to be cut divided into two parts is rapidly blanked from the blanking assembly 24 through the transferring assembly 25, so that a worker can receive and take and put the workpiece 6 to be cut after cutting, and subsequent reprocessing operation is facilitated.

Referring to fig. 9-10, in the present embodiment, the blanking assembly 24 includes a directional member 241 and a sliding member 242, where the directional member 241 is installed on the discharging side of the sliding table 211, and extends along the discharging direction of the discharging assembly 42. Meanwhile, the sliding members 242 are slidably coupled to both side walls of the orientation member 241. In use, the two-in-one pieces 6 to be cut can be fed out along the extending direction of the orientation piece 241 under the guidance of the sliding pieces 242 on both sides of the orientation piece 241, respectively.

In addition, in the present embodiment, the orientation member 241 includes an auxiliary blanking track 241a and a distributing block 241b. Wherein, the auxiliary blanking track 241a is installed on the blanking side of the upper surface of the sliding table 211, and the distributing block 241b is fixed at one end of the auxiliary blanking track 241a near the feeding assembly 42, meanwhile, the cross section of the distributing block 241b is triangular, so that the cut piece 6 to be cut can be better detached through the triangular distributing block 241b.

Referring to fig. 9-10, in this embodiment, the sled 242 includes two guide bars 242a. The two guide bars 242a are respectively and slidably connected in the rail grooves on both sides of the auxiliary discharging rail 241 a. Meanwhile, the guide bar 242a is provided in an L-shape in cross section as a whole, and the guide bar 242a is parallel to the upper surface of the slide table 211 in cross section.

During the use, the two parts of waiting to cut 6 through the bisection carry the front end can keep away from the split each other fast under the effect of distributor block 241b earlier to support the lateral wall of two guide bars 242a in corresponding position respectively after the split, make the two parts of waiting to cut 6 of bisection send out along the extending direction of supplementary unloading track 241a respectively under the guide of two guide bars 242a, and finally accomplish the blanking rapidly from the both sides of supplementary unloading track 241a under the effect of transfer unit 25, promoted the production continuity of this application sliding table saw.

Referring to fig. 9 to 10, in order to facilitate rapid feeding out of the two parts of the workpiece 6 to be cut abutted against the side wall of the guide bar 242a by the transfer unit 25, a push hole 242b is provided in the side wall of the guide bar 242a near the auxiliary discharging rail 241 a.

Meanwhile, in the present embodiment, the transferring assembly 25 includes a pushing bar 251 and an elastic member 252. Wherein the elastic member 252 is mounted on a side wall of the auxiliary discharging rail 241a and is located at an end far from the discharging assembly 42. The pushing bar 251 is fixed at the movable end of the elastic member 252, and can be slidably engaged with the pushing hole 242b of the guiding bar 242a. In addition, in the present embodiment, the elastic member 252 may be a spring, and a plurality of springs are uniformly distributed along the extending direction of the auxiliary blanking track 241 a. In addition, in order to facilitate adjustment of the position of the push bar 251 by the guide bar 242a, both ends of the push bar 251 are provided with chamfers.

Referring to fig. 8-9, in order to continuously feed the cut piece 6 to be cut through the guide bar 242a, in this embodiment, the sawing mechanism 2 further includes a reset assembly 26, and the reset assembly 26 is disposed between the guide bar 242a and the first rolling member 421.

In this embodiment, the reset assembly 26 includes a gantry 261 and a traction bar 262. Wherein, two ends of the bottom of the door-shaped frame 261 are respectively connected with the tops of the two guide bars 242a, and the two traction bars 262 are provided, and the two traction bars 262 are both fixed on one side of the door-shaped frame 261 close to the sending-out assembly 42, meanwhile, one end of the door-shaped frame 261 of the two traction bars 262 is far away from and extends to the inner side of the protection cover 424 and is in rolling fit with one of the rolling wheels of the first rolling member 421.

During the use, through the reverse operation of driving motor, so that roll send the wheel can reverse rotation and drive and set up two traction bars 262 of top and remove along the opposite one side with waiting to cut 6 direction of sending, and drive door frame 261 and two guide bars 242a and remove simultaneously, thereby make two guide bars 242a can slide along the track groove of supplementary unloading track 241a both sides simultaneously, and reset to the one end that supplementary unloading track 241a is close to send out subassembly 42 fast, and then be convenient for follow-up waiting to cut 6 to carry out continuous delivery to accomplishing after the cutting, reach the purpose that further improves the production continuity of this application sliding table saw, possess great popularization effect.

In addition, referring to fig. 8, in order to limit the travel of the traction bar 262, a travel limit block 263 is fixed to one end of the traction bar 262 far from the door frame 261, and one side of the travel limit block 263 near the roller is provided in an arc shape so as to be able to adapt to the arc of the roller. In this embodiment, the thickness of one roller in contact with the two traction bars 262 is greater than the thickness of the other rollers. Meanwhile, the two traction bars 262 are arranged at intervals, and the distance between the two traction bars is slightly larger than the thickness of other rolling wheels.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (9)

1. A bench saw capable of automated feeding, comprising: workstation (1), saw cut mechanism (2), guiding mechanism (3), saw cut mechanism (2) and guiding mechanism (3) all set up on workstation (1), guiding mechanism (3) can assist spacing when saw cut mechanism (2) cutting, its characterized in that still includes:

the conveying mechanism (4) is arranged above the sawing mechanism (2) and can move and cut a piece (6) to be cut on the workbench (1);

and an adjusting mechanism (5), wherein the adjusting mechanism (5) is arranged on the transfer mechanism (4) and can adjust the transfer direction of the transfer mechanism (4).

2. An automated feed table saw according to claim 1, wherein,

the sawing mechanism (2) comprises:

the conveying mechanism (4) and the adjusting mechanism (5) are correspondingly arranged above the working surface of the carrying assembly (21);

the cutting assembly (22) is arranged on one side of the workbench (1) through the mounting assembly (23) and corresponds to the position of the transfer mechanism (4).

3. An automated feed table saw according to claim 1, wherein,

the transfer mechanism (4) comprises:

the support assembly (41) is arranged on the workbench (1) and extends to the upper part of the sawing mechanism (2);

the delivery assembly (42) is arranged on one side, close to the upper side of the sawing mechanism (2), of the supporting assembly (41) so as to be capable of driving a piece (6) to be cut on the sawing mechanism (2);

and a driving assembly (43), wherein the driving assembly (43) is arranged on one side of the supporting assembly (41) and is used for driving the sending-out assembly (42).

4. A bench saw capable of automated feeding according to claim 3, wherein;

the adjusting mechanism (5) comprises:

the connecting component (51) is arranged on the supporting component (41) to connect the supporting component (41) with the sending-out component (42), and the position of the sending-out component (42) is adjusted through the connecting component (51);

and the fastening component (52) is sleeved on the periphery of the connecting component (51) so as to limit the movement of the connecting component (51).

5. A bench saw capable of automated feeding according to claim 3, wherein:

the delivery assembly (42) includes:

the first rolling elements (421) and the second rolling elements (422), wherein the first rolling elements (421) and the second rolling elements (422) are arranged on one side, close to the upper side of the sawing mechanism (2), of the supporting component (41), are distributed along the sending-out direction of the to-be-cut piece (6), and are connected with the driving component (43);

auxiliary conveying piece (423), auxiliary conveying piece (423) set up between first rolling piece (421) and second rolling piece (422), be connected with drive assembly (43) and with wait to cut piece (6) and contact to can carry out directional conduction to waiting to cut piece (6) on saw cut mechanism (2).

6. An automated feedable bench saw according to claim 5 wherein:

the drive assembly (43) comprises:

a driving member (431), wherein the driving member (431) is arranged on the supporting component (41) and is used for driving the first rolling member (421) and the second rolling member (422);

the first driven piece (432) and the second driven piece (433), the driving piece (431) is in transmission connection with the first rolling piece (421) and the second rolling piece (422) through the first driven piece (432), and the auxiliary conveying piece (423) is in transmission connection with the driving piece (431) through the second driven piece (433).

7. An automated feedable bench saw according to claim 2 wherein:

the sawing mechanism (2) further comprises:

a blanking assembly (24); the blanking assembly (24) is arranged on one discharging side of the carrying assembly (21) and can split and discharge the cut piece (6) to be cut;

a transfer assembly (25); the transfer assembly (25) is arranged on the side wall of the blanking assembly (24), and the cut piece (6) which enters the blanking assembly (24) and is cut is guided out to the carrying assembly (21) through the transfer assembly (25).

8. An automated feedable bench saw according to claim 7 wherein:

the sawing mechanism (2) further comprises:

and the resetting component (26) is arranged on the blanking component (24) and is connected with the transfer mechanism (4) in a matched mode, so that the blanking component (24) can be reset to one side close to the transfer mechanism (4).

9. An automated feedable bench saw according to claim 7 wherein:

the blanking assembly (24) includes:

the orientation piece (241) is positioned on the discharging side of the carrying component (21) and is arranged along the conveying direction of the piece (6) to be cut;

the sliding piece (242), the sliding piece (242) slides and sets up in the lateral wall of orientation piece (241), and can drive the piece (6) of waiting to cut of completion cutting and export the unloading along the extending direction of orientation piece (241).