CN210548482U - Saw cutting equipment - Google Patents

Abstract

The utility model provides a sawing device, which relates to the technical field of workpiece processing equipment and solves the technical problems of poor cutting precision and low cutting quality of an automatic sawing machine in the prior art, and comprises a machine body, a sawing device, a feeding device and a tailstock device, wherein the sawing device is arranged on the machine body and is used for processing workpieces; the feeding device is arranged on the machine body and is positioned between the sawing device and the tailstock device; the tailstock device comprises a tailstock mounting frame and a one-way guide shaft arranged on the tailstock mounting frame, the tailstock mounting frame is arranged on the machine body, and the one-way guide shaft can only rotate in one way towards the feeding direction so as to prevent the workpieces to be processed, which are placed on the feeding device and the one-way guide shaft, from returning in the feeding process; the utility model discloses a material feeding unit and tailstock device mutually support, effectively prevent the material returned on the basis of guaranteeing that the work piece steadily feeds, and the machining precision is high, and processingquality is good.

Description

Saw cutting equipment

Technical Field

The utility model relates to a work piece processing equipment technical field, concretely relates to saw cut equipment.

Background

In the process of workpiece processing production, a sawing device is often needed to be used for cutting workpieces, at present, the traditional sawing device in the domestic market usually adopts a conveying mechanism to drive the workpieces to feed, then the sawing mechanism is used for completing the cutting of the workpieces, the traditional sawing equipment often has the defects of low cutting precision, scratch on the surfaces of the workpieces in the feeding process, poor cutting quality of the workpiece sections, low production efficiency and the like in the cutting process, and the deep processing requirements of the current society on the workpieces cannot be met.

The automatic sawing machine comprises a machine table, a conveying mechanism, a pressing and feeding mechanism, a sawing mechanism and a flush stop mechanism, wherein the conveying mechanism, the pressing and feeding mechanism, the sawing mechanism and the flush stop mechanism are sequentially arranged on the machine table along the feeding direction.

The applicant has found, in comparison with the prior art, that at least the following technical problems exist:

1. the automatic sawing machine has the advantages that the phenomenon of aluminum material returning often occurs in the aluminum material feeding process, the cutting precision of the aluminum material and the cutting quality of the aluminum material are greatly influenced,

2. this automatic saw cuts machine's feeding mechanism that compresses tightly only can compress tightly the aluminum product from vertical direction, and when the cutting aluminum product, the aluminum product takes place to rock easily on the horizontal direction, easy fish tail aluminum product to cutting accuracy and cutting quality have been influenced seriously.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a sawing device to solve the technical problems of poor cutting precision and low cutting quality of an automatic sawing machine in the prior art; the utility model provides a plurality of technical effects that the preferred technical scheme can produce among a plurality of technical schemes (the ratchet pawl mechanism makes the one-way guide shaft only can rotate to the feeding direction in one way, can effectively prevent the material return phenomenon, the auxiliary guide shaft cooperates with the one-way guide shaft for guiding the workpiece, the horizontal hold-down mechanism cooperates with the vertical hold-down mechanism, the workpiece is pressed from the horizontal direction and the vertical direction together, the workpiece is effectively prevented from shaking up and down and shaking horizontally in the processing process or the feeding process, the suspended feeding platform can drive the workpiece to reciprocate up and down in the vertical direction, the feeding driving device can drive the mounting seat and the suspended feeding platform to slide synchronously, thereby driving the workpiece to feed, the pushing cylinder and the pushing spring drive the feeding platform to move up and down in the vertical direction, the feeding mounting rack is provided with the vertical hold-down mechanism and the horizontal hold-, the fixing of the workpiece is more stable; the saw cutting driving device drives the saw cutting sheet to rotate so as to cut the workpiece; the sliding device can drive the sawing driving device to slide in a horizontal plane perpendicular to the feeding direction, so that the workpiece can be conveniently cut; the sliding driving device can drive the sliding seat to slide on the sliding rail, so that the sawing blade can cut a workpiece along the sliding direction; the sawing device, the feeding device and the tailstock device are matched with each other, so that various workpieces can be cut, and the sawing tasks of large-batch, high-efficiency, high-quality and high-range industrial aluminum can be met; see below for details.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a pair of saw cut equipment, include the organism, saw cut device, material feeding unit and tailstock device, wherein: the sawing device is arranged on the machine body and used for processing workpieces; the feeding device is arranged on the machine body and positioned between the sawing device and the tailstock device, and the feeding device can convey a workpiece to be processed, which is placed on the feeding device, to the sawing device; the tailstock device comprises a tailstock mounting frame and a one-way guide shaft arranged on the tailstock mounting frame, the tailstock mounting frame is arranged on the machine body, the one-way guide shaft can only rotate in one direction in the feeding direction to prevent the one-way guide shaft from being placed on the feeding device and the one-way guide shaft, and workpieces to be processed return in the feeding process.

Preferably, the one-way guide shaft is rotatably arranged on the tailstock mounting frame, a ratchet and pawl mechanism is arranged at the end of the one-way guide shaft, and the one-way guide shaft can only rotate towards the feeding direction under the action of the ratchet and pawl mechanism.

Preferably, the tailstock device further comprises an auxiliary guide shaft, the auxiliary guide shaft is vertically arranged on one side of the one-way guide shaft, and the auxiliary guide shaft is rotatably arranged on the tailstock mounting frame.

Preferably, be provided with horizontal hold-down mechanism and vertical hold-down mechanism on the tailstock mounting bracket, wherein: the horizontal pressing mechanism is arranged on the other side of the one-way guide shaft and is opposite to the auxiliary guide shaft; the vertical pressing mechanism is arranged in parallel relative to the auxiliary guide shaft.

Preferably, material feeding unit includes floated pay-off platform, mount pad and pay-off drive arrangement, be provided with the guide rail on the organism, wherein: the suspension type feeding table is arranged on the mounting seat and comprises a feeding table and a first suspension type pushing mechanism, and the first suspension type pushing mechanism is arranged below the feeding table and can push the feeding table to move up and down along the vertical direction; the mounting seat is arranged on the guide rail and is in sliding fit with the guide rail; the feeding driving device is in transmission connection with the mounting seat and can drive the mounting seat to slide so as to feed the feeding table.

Preferably, first floated push mechanism includes propelling movement cylinder and propelling movement spring, wherein: the pushing cylinder and the pushing spring are both connected with the mounting seat; the pushing cylinder is arranged below the feeding table and connected with the middle position of the bottom surface of the feeding table; the number of the pushing springs is at least two, and all the pushing springs are arranged circumferentially relative to the pushing cylinder; the pushing cylinder and the pushing spring can drive the feeding table to move up and down along the vertical direction.

Preferably, a feeding mounting frame is arranged on the feeding table, a vertical pressing mechanism, a horizontal pressing mechanism and a second suspension type pushing mechanism are arranged on the feeding mounting frame, the vertical pressing mechanism is arranged above the feeding table, and the horizontal pressing mechanism and the second suspension type pushing mechanism are oppositely arranged on two sides of the feeding table.

Preferably, saw cut the device and include slider, saw cut drive arrangement and saw cut the piece, be located on the organism saw cut the position of device and be provided with the processing platform, wherein: the saw cutting driving device is arranged below the processing table, is in transmission connection with the saw cutting sheet and can drive the saw cutting sheet to rotate; saw cut drive arrangement and set up slide arrangement is last, be provided with on the processing platform with saw cut piece size complex fluting, slide arrangement can drive saw cut drive arrangement slides so that the saw section is in slide in the fluting.

Preferably, the sawing device comprises a sawing mounting frame, the sawing mounting frame is arranged on the processing table, a vertical pressing mechanism and a horizontal pressing mechanism are arranged on the sawing mounting frame, and the vertical pressing mechanism and the horizontal pressing mechanism are both vertically arranged relative to the feeding direction; the vertical pressing mechanism and the horizontal pressing mechanism are used for pressing the workpiece.

Preferably, the sliding device includes a sliding seat and a sliding driving device, a sliding rail is arranged inside the machine body, wherein: the saw cutting driving device is arranged on the sliding seat, the sliding seat is in sliding fit with the sliding rail, and the sliding driving device is in transmission connection with the sliding seat and can drive the sliding seat to slide; the sliding direction of the sliding seat is perpendicular to the feeding direction.

The utility model provides a pair of saw cut equipment has following beneficial effect at least:

the sawing equipment comprises a machine body, a sawing device, a feeding device and a tailstock device, wherein the machine body is used for supporting and installing the sawing device, the feeding device and the tailstock device; the sawing device is arranged on the machine body and used for processing workpieces; the feeding device is arranged on the machine body and positioned between the sawing device and the tailstock device, the feeding device can convey a workpiece to be machined, which is placed on the feeding device, to the sawing device, and the feeding device can drive the workpiece to feed; the tailstock device comprises a tailstock mounting frame and a one-way guide shaft arranged on the tailstock mounting frame, the tailstock mounting frame is arranged on the machine body, the one-way guide shaft can only rotate in one way in the feeding direction, workpieces are placed on the feeding device and the one-way guide shaft for feeding, and the one-way guide shaft which can only rotate in one way in the feeding direction can effectively avoid the returning of the workpieces, so that the cutting precision and the cutting quality of the workpieces are effectively improved; the utility model discloses, mutually support through tailstock device and material feeding unit, effectively prevent the material returned on the basis of guaranteeing that the work piece steadily feeds, the machining precision is high, and processingquality is good.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the tailstock device of the present invention;

FIG. 3 is a schematic structural view of the ratchet-pawl mechanism of the present invention;

FIG. 4 is a schematic structural view of the feeding device of the present invention;

fig. 5 is a side view of the feeding device of the present invention;

FIG. 6 is a schematic structural view of the sawing device of the present invention;

FIG. 7 is a schematic view of the saw blade, saw drive and slide assembly of the present invention;

fig. 8 is a schematic structural view of the sawing clamping device of the present invention.

Reference numerals

1-body; 11-a guide rail; 12-a processing station; 121-slotting; 13-a slide rail; 2-a sawing device; 21-saw cutting driving device; 211-sawing motor; 212-a drive shaft; 22-sawing and slicing; 23-a slide; 231-a slide drive; 2311-a sliding motor; 2312-lead screw; 232-a slide seat; 24-sawing a mounting frame; 3-a feeding device; 31-a suspension type feeding table; 311-a feeding table; 312-a first suspended pushing mechanism; 3121-a push cylinder; 3122-an auxiliary cylinder; 3123-a push spring; 32-a feed mounting frame; 33-a mounting seat; 331-a second slider; 34-a feeding driving device; 341-feeding nut; 342-a lead screw; 343-a feed motor; 4-a console; 5-tailstock means; 51-a tailstock mounting; 52-ratchet-pawl mechanism; 521-a ratchet wheel; 522-return spring; 523-pawl; 53-one-way guide shaft; 54-a first slide; 55-auxiliary guide shaft; 6-a vertical hold-down mechanism; 7-a horizontal hold-down mechanism; 8-a second suspension type pushing mechanism.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The utility model provides a saw cut equipment, like fig. 1 the utility model discloses schematic structure and fig. 2 the utility model discloses tailstock device schematic structure is shown, saw cut equipment includes organism 1, saw cuts device 2, material feeding unit 3 and tailstock device 5, wherein: the sawing device 2 is arranged on the machine body 1 and used for processing a workpiece; the feeding device 3 is arranged on the machine body 1 and positioned between the sawing device 2 and the tailstock device 5, and the feeding device 3 can convey a workpiece to be processed, which is placed on the feeding device 3, to the sawing device 2; the tailstock device 5 comprises a tailstock mounting frame 51 and a one-way guide shaft 53 arranged on the tailstock mounting frame 51, the tailstock mounting frame 51 is arranged on the machine body 1, and the one-way guide shaft 53 can rotate in a one-way mode only in the feeding direction so as to prevent the workpieces to be processed, which are placed on the feeding device 3 and the one-way guide shaft 53, from returning in the feeding process.

During operation, a workpiece to be processed is placed on the feeding device 3 and the tailstock device 5, the workpiece to be processed moves to the sawing device 2 under the conveying of the feeding device 3, then the sawing device 2 cuts the workpiece to be processed, and the one-way guide shaft 53 can effectively prevent the workpiece to be processed from returning in the process of conveying the workpiece to be processed by the feeding device 3, so that the processing precision of the workpiece is ensured, and the processing quality of the workpiece is improved; the utility model discloses, mutually support through material feeding unit and tailstock device and can prevent effectively that to wait to process the work piece material returned, the machining precision is high, and processingquality is good.

As an alternative embodiment, as shown in the structural schematic diagrams of the ratchet and pawl mechanism in fig. 2 and 3, a one-way guide shaft 53 is rotatably disposed on the tailstock mounting frame 51, a ratchet and pawl mechanism 52 is disposed at an end of the one-way guide shaft 53, and the one-way guide shaft 53 can only rotate in the feeding direction under the action of the ratchet and pawl mechanism 52; the number of the one-way guide shafts 53 is two, the two one-way guide shafts 53 are arranged in parallel, the end parts of the two one-way guide shafts 53 are rotatably connected to the tailstock mounting frame 51 through bearings, the ratchet and pawl mechanism 52 comprises two ratchets 521, a return spring 522 and two pawls 523, the two ratchets 521 are respectively arranged at the same end of the two one-way guide shafts 53, the two pawls 523 are rotatably arranged on the tailstock mounting frame 51, two ends of the return spring 522 are respectively connected with the two pawls 523, and the return spring 522 is always in a stretching state; preferably, both ends of the two one-way guide shafts 53 are provided with ratchet-pawl mechanisms 52.

As an alternative embodiment, as shown in fig. 2, the tailstock apparatus 5 further includes an auxiliary guide shaft 55, the auxiliary guide shaft 55 is vertically disposed on one side of the one-way guide shaft 53, the auxiliary guide shaft 55 is rotatably disposed on the tailstock mounting frame 51, the number of the auxiliary guide shafts 55 is two, and the two one-way guide shafts 53 are disposed between the two auxiliary guide shafts 55.

As an alternative embodiment, as shown in fig. 2, a horizontal pressing mechanism 7 and a vertical pressing mechanism 6 are provided on the tailstock mounting frame 51, wherein: the horizontal pressing mechanism 7 is arranged on the other side of the one-way guide shaft 53 and is opposite to the auxiliary guide shaft 55; the vertical pressing mechanism 6 is arranged in parallel with respect to the auxiliary guide shaft 55; preferably, the number of the horizontal pressing mechanisms 7 is two, and the workpiece can be pressed in the vertical direction, and the moving direction of the horizontal pressing mechanism 7 and the moving direction of the vertical pressing mechanism 6 are perpendicular to each other.

The vertical pressing mechanism 6 and the horizontal pressing mechanism 7 can adopt a hydraulic pressing mechanism, an air pressure type pressing mechanism or an electric pressing mechanism, preferably, the vertical pressing mechanism 6 and the horizontal pressing mechanism 7 both adopt air pressure type pressing mechanisms, each air pressure type pressing mechanism comprises an air cylinder and a cushion block, the telescopic end of the air cylinder is connected with the cushion block, and the cushion block can be abutted against a workpiece to press the workpiece.

As optional embodiment, like fig. 4 the utility model discloses material feeding unit schematic structure diagram and fig. 5 the utility model discloses material feeding unit side view is shown, and material feeding unit 3 includes floated pay-off platform 31, mount pad 33 and pay-off drive arrangement 34, and pay-off drive arrangement 34 can set up to fluid pressure type pay-off drive arrangement, vapour-pressure type pay-off drive arrangement or electrodynamic type pay-off drive arrangement, is provided with guide rail 11 on the organism 1, wherein: the suspension type feeding table 31 is arranged on the mounting seat 33, the suspension type feeding table 31 comprises a feeding table 311 and a first suspension type pushing mechanism 312, and the first suspension type pushing mechanism 312 is arranged below the feeding table 311 and can push the feeding table 311 to move up and down along the vertical direction; the mounting base 33 is arranged on the guide rail 11 and is in sliding fit with the guide rail 11, the number of the guide rails 11 is three, the bottom surface of the mounting base 33 is provided with first sliding blocks 331 at positions corresponding to the three guide rails 11, the first sliding blocks 331 are in sliding fit with the guide rail 11, and the guide rail 11 is arranged into a linear square rail or a linear circular rail; the feeding driving device 34 is in transmission connection with the mounting seat 33 and can drive the mounting seat 33 to slide so as to feed the feeding table 311; preferably, the feeding driving device 34 is configured as an electric feeding driving device, the electric feeding driving device includes a feeding power device and a feeding transmission device, the feeding power device is configured as a feeding motor 343, and the feeding transmission device is configured as a screw-nut mechanism or a rack-and-pinion mechanism; further preferably, the feeding transmission device is a screw nut mechanism, the feeding transmission device includes a screw 342 and a feeding nut 341, an input end of the screw 342 is connected to the feeding motor 343 in a transmission manner, an output end of the screw 342 is rotatably connected to the machine body 1 through a bearing, the feeding nut 341 is sleeved on the screw 342 and is fixedly connected to the mounting seat 33, and the feeding motor 343 drives the screw 342 to rotate, so that the mounting seat 33 slides synchronously along the screw 342 along with the feeding nut 341.

As an alternative embodiment, as shown in fig. 2, the bottom of the tailstock mounting frame 51 is provided with a second slider 54, the second slider 54 is slidably engaged with the rail 11, and the tailstock device 5 can slide on the rail 11 through the second slider 54, so as to adjust the relative position of the tailstock device 5.

As an alternative embodiment, as shown in fig. 5, the first levitation type pushing mechanism 312 includes a pushing cylinder 3121 and a pushing spring 3123, wherein: the pushing cylinder 3121 and the pushing spring 3123 are connected with the mounting seat 33; the pushing cylinder 3121 is arranged below the feeding table 311 and connected with the middle position of the bottom surface of the feeding table 311; the number of the pushing springs 3123 is at least two, and all the pushing springs 3123 are circumferentially arranged with respect to the pushing cylinder 3121; the pushing cylinder 3121 and the pushing spring 3123 can drive the feeding table 311 to move up and down along the vertical direction; in a normal state, the feeding table 311 compresses the pushing spring 3123 to deform and generate elastic force under the contraction of the pushing cylinder 3121, when the feeding table 311 moves upwards under the pushing of the pushing spring 3121, the elastic force generated by the pushing spring 3123 can balance the feeding table 311 to prevent the feeding table 311 from being clamped due to uneven stress, meanwhile, the pushing spring 3123 provides upward auxiliary elastic force for the feeding table 311, and after the feeding table 311 moves to a designated position, the feeding driving device 34 drives the mounting seat 33 and the suspension type feeding table 31 to move synchronously to start feeding; after feeding is completed, the feeding table 311 moves downwards under the contraction of the feeding cylinder 3121, meanwhile, the compression feeding spring 3123 deforms, in the process, the feeding table 311 is acted by the feeding spring 3123, so that the feeding table 311 keeps balance, clamping stagnation can be effectively prevented, the feeding table 311 returns to the original position, the feeding driving device 34 drives the mounting seat 33 and the suspension type feeding table 31 to return to the original state, and then the feeding device 3 enters the next feeding period.

Preferably, the number of the pushing springs 3123 is four, four pushing springs 3123 are circumferentially distributed with respect to the pushing cylinder 3121, the first levitation type pushing mechanism 312 further includes two auxiliary cylinders 3122, and the two auxiliary cylinders 3122 are symmetrically disposed with respect to the pushing cylinder 3121.

As an alternative embodiment, as shown in fig. 5, a feeding table 311 is provided with a feeding mounting frame 32, a vertical pressing mechanism 6, a horizontal pressing mechanism 7 and a second suspension type pushing mechanism 8 are provided on the feeding mounting frame 32, the vertical pressing mechanism 6 is arranged above the feeding table 311, the horizontal pressing mechanism 7 and the second suspension type pushing mechanism 8 are oppositely arranged on two sides of the feeding table 311, and the structure of the second suspension type pushing mechanism 8 is similar to that of the first suspension type pushing mechanism 312.

As an optional implementation manner, as shown in fig. 6, the sawing device 2 includes a sliding device 23, a sawing driving device 21 and a sawing blade 22, and a processing table 12 is disposed on the machine body 1 at a position of the sawing device 2, wherein: the sawing driving device 21 is arranged below the processing table 12, and the sawing driving device 21 is in transmission connection with the sawing blade 22 and can be driven to the sawing blade 22 to rotate; the sawing driving device 21 is arranged on the sliding device 23, the processing table 12 is provided with a slot 121 matched with the sawing blade 22 in size, the sliding device 23 can drive the sawing driving device 21 to slide so that the sawing blade 22 slides in the slot 121, and the sliding device 23 can be a pneumatic sliding device, a hydraulic sliding device or an electric sliding device; saw cut equipment when using for the first time, the position that corresponds saw section 22 and saw on the processing platform 12 sets up to aluminum plate, and during debugging equipment, saw cutting piece 22 saw right aluminum plate cuts, and then forms fluting 121, and the thickness of this moment fluting 121 and saw cutting piece 22 mutually support.

As an optional implementation manner, a saw cutting piece storage bin and a material guide bin are arranged inside the machine body 1, the saw cutting piece storage bin is communicated with the material guide bin, a discharge port of the material guide bin is arranged on the machine body 1, a bottom plate of the material guide bin is obliquely arranged, and the heights of the bottom plates are sequentially reduced along a direction close to the discharge port; when not using, saw cut piece 22 is parked under slider 23's drive in the saw section collecting compartment, during the use, saw cut piece 22 slides along fluting 121 under slider 23's drive, and the produced waste material of cutting work piece can be in follow under the guide effect of guide bin the discharge gate is discharged.

As an optional implementation manner, as shown in fig. 8, the sawing device 2 includes a sawing mounting frame 24, the sawing mounting frame 24 is disposed on the processing table 12, a vertical pressing mechanism 6 and a horizontal pressing mechanism 7 are disposed on the sawing mounting frame 24, and both the vertical pressing mechanism 6 and the horizontal pressing mechanism 7 are disposed vertically with respect to the feeding direction; the vertical pressing mechanism 6 and the horizontal pressing mechanism 7 are used for pressing the workpiece; when the feeding device 3 conveys the workpiece to be processed to the sawing device 2, the vertical pressing mechanism 6 and the horizontal pressing mechanism 7 on the sawing device 2 and the tailstock device 5 press the workpiece to be processed together, the sliding device 23 drives the saw blade 22 to cut the workpiece to be processed, and at the moment, the feeding device 3 returns to the initial position.

As an optional implementation manner, as shown in fig. 7, the structure schematic diagram of the saw blade, the saw cutting driving device and the sliding device of the present invention shows, the sliding device 23 includes a sliding seat 232 and a sliding driving device 231, the inside of the machine body 1 is provided with a sliding rail 13, wherein: the sawing driving device 21 is arranged on the sliding base 232, the sliding base 232 is in sliding fit with the sliding rail 13, the sliding driving device 231 is in transmission connection with the sliding base 232 and can drive the sliding base 232 to slide, the number of the sliding rails 13 is two, the two sliding rails 13 are arranged in parallel, a third sliding block is fixedly arranged on the bottom surface of the sliding base 232 relative to the positions of the two sliding rails 13, the sliding base 232 is in sliding fit with the sliding rails 13 through the third sliding block, and the sliding rails 13 are arranged to be linear square rails or linear round rails; the sliding direction of the sliding base 232 is perpendicular to the feeding direction; the slide driving means 231 includes a slide power means and a slide transmission means, which may be provided as a lead screw nut mechanism or a rack and pinion mechanism; preferably, the sliding power device is a sliding motor 2311, and the sliding transmission device includes a lead screw 2312 and a sliding nut matched with the lead screw 2312, and the sliding nut is sleeved on the lead screw 2312 and is fixedly connected with the sliding seat 232.

Saw cut drive arrangement 21 including saw cutting motor 211 and transmission shaft 212, saw cutting motor 211 and transmission shaft 212 all set up on slide 23, saw cut the output connection of motor 211 and be provided with the output wheel, the input connection of transmission shaft 212 is provided with the drive wheel, the output wheel with the drive wheel passes through the drive belt transmission and connects, and the output and the saw cutting piece 22 transmission of transmission shaft 212 are connected.

As an optional embodiment, as shown in fig. 1, a control table 4 is arranged on a machine body 1, a sawing device 2, a feeding device 3 and a tailstock device 5 are all electrically connected with the control table 4, and working parameters of the sawing device 2, the feeding device 3 and the tailstock device 5 can be adjusted through the control table 4, so that the sawing equipment can be automatically controlled; a tank chain is arranged in the machine body 1, and a cable line and a pneumatic tube (hydraulic tube) of corresponding devices are arranged in the tank chain; the position that is located the 2 ejection of compact of saw cutting device on the organism 1 is provided with the unloading platform, follows after the work piece cutting is accomplished the work piece is taken off to the unloading platform.

The working process is as follows:

selecting a workpiece to be processed, placing the workpiece to be processed on the feeding table 311 and the one-way guide shaft 53, and attaching the auxiliary guide shaft 55 to the side wall of the workpiece to be processed; then, parameters of each device are adjusted through the control platform 4, and the equipment is started;

the saw blade 22 is taken out of the saw and aligned, and at the same time, the first suspension type pushing mechanism 312 pushes the feeding table 311 upwards, so that the workpiece to be processed moves to a preset position in the vertical direction, the second suspension type pushing mechanism 8 pushes the workpiece to be processed to a preset position in the horizontal direction, and thereafter, the vertical pressing mechanism 6 and the horizontal pressing mechanism 7 on the feeding mounting frame 32 press the workpiece to be processed, the sliding driving device 34 drives the mounting base 33 and further drives the feeding table 311 to start feeding, when a workpiece to be machined is fed to the sawing device 3, the vertical pressing mechanism 6 and the horizontal pressing mechanism 7 on the feeding mounting frame 32 are loosened, the first suspension type pushing mechanism 312 drives the feeding table 311 to move downwards, the sliding driving device 34 drives the feeding table 311 to move reversely along the feeding direction until the feeding table 311 returns to the initial position, and the feeding device 3 is ready for the next feeding action;

after the feeding process is completed, the vertical pressing mechanism 6 and the horizontal pressing mechanism 7 on the sawing mounting frame 24 press the workpiece to be processed, the vertical pressing mechanism 6 and the horizontal pressing mechanism 7 on the tailstock mounting frame 51 press the workpiece to be processed, then, the sawing blade 22 rotates under the driving of the sawing driving device 21, the sliding device 23 drives the sawing driving device 21 and the sawing blade 22 to move along the cutting direction, the sawing blade 22 starts to cut the workpiece, after the cutting action is completed, the sawing blade 22 and the sawing driving device 21 recover to the initial position under the driving of the sliding device 23, and the sawing device 2 prepares for the next sawing action.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a saw cut equipment, its characterized in that, includes organism (1), saw cuts device (2), material feeding unit (3) and tailstock device (5), wherein:

the sawing device (2) is arranged on the machine body (1) and is used for processing workpieces;

the feeding device (3) is arranged on the machine body (1) and is positioned between the sawing device (2) and the tailstock device (5), and the feeding device (3) can convey a workpiece to be machined, which is placed on the feeding device (3), to the sawing device (2);

tailstock device (5) include tailstock mounting bracket (51) and set up one-way guide shaft (53) on tailstock mounting bracket (51), tailstock mounting bracket (51) set up on organism (1), one-way guide shaft (53) only can be to the one-way rotation of direction of feed in order to prevent to place material feeding unit (3) with the work piece of treating on one-way guide shaft (53) material returned at the pay-off in-process.

2. The sawing apparatus according to claim 1, characterized in that the one-way guide shaft (53) is rotatably arranged on the tailstock mounting (51), the end of the one-way guide shaft (53) is provided with a ratchet and pawl mechanism (52), and the one-way guide shaft (53) can only rotate in the feeding direction under the action of the ratchet and pawl mechanism (52).

3. Sawing device according to claim 1, characterised in that the tailstock arrangement (5) further comprises an auxiliary guide shaft (55), the auxiliary guide shaft (55) being vertically arranged on one side of the unidirectional guide shaft (53), the auxiliary guide shaft (55) being rotatably arranged on the tailstock mounting (51).

4. Sawing device according to claim 3, characterised in that a horizontal pressing mechanism (7) and a vertical pressing mechanism (6) are provided on the tailstock mounting (51), wherein:

the horizontal pressing mechanism (7) is arranged on the other side of the one-way guide shaft (53) and is opposite to the auxiliary guide shaft (55); the vertical pressing mechanism (6) is arranged in parallel relative to the auxiliary guide shaft (55).

5. Sawing device according to claim 1, characterised in that the feeding device (3) comprises a suspension feed table (31), a mounting seat (33) and a feed drive (34), on which machine body (1) a guide rail (11) is arranged, wherein:

the suspension type feeding table (31) is arranged on the mounting seat (33), the suspension type feeding table (31) comprises a feeding table (311) and a first suspension type pushing mechanism (312), and the first suspension type pushing mechanism (312) is arranged below the feeding table (311) and can push the feeding table (311) to move up and down along the vertical direction;

the mounting seat (33) is arranged on the guide rail (11) and is in sliding fit with the guide rail (11);

the feeding driving device (34) is in transmission connection with the mounting base (33) and can drive the mounting base (33) to slide so as to feed the feeding table (311).

6. Sawing device according to claim 5, wherein the first levitation push mechanism (312) comprises a push cylinder (3121) and a push spring (3123), wherein:

the pushing cylinder (3121) and the pushing spring (3123) are both connected to the mounting seat (33); the pushing cylinder (3121) is arranged below the feeding table (311) and is connected with the middle position of the bottom surface of the feeding table (311); the number of the pushing springs (3123) is at least two, and all the pushing springs (3123) are circumferentially arranged relative to the pushing cylinder (3121); the pushing cylinder (3121) and the pushing spring (3123) can drive the feeding table (311) to move up and down along the vertical direction.

7. The sawing device according to claim 5, wherein a feed mounting frame (32) is arranged on the feed table (311), a vertical pressing mechanism (6), a horizontal pressing mechanism (7) and a second suspension type pushing mechanism (8) are arranged on the feed mounting frame (32), the vertical pressing mechanism (6) is arranged above the feed table (311), and the horizontal pressing mechanism (7) and the second suspension type pushing mechanism (8) are oppositely arranged at two sides of the feed table (311).

8. Sawing device according to claim 1, characterised in that the sawing means (2) comprise sliding means (23), sawing drive means (21) and sawing blades (22), and that a processing table (12) is provided on the machine body (1) at the location of the sawing means (2), wherein:

the sawing driving device (21) is arranged below the processing table (12), and the sawing driving device (21) is in transmission connection with the saw blade (22) and can be driven to rotate to the saw blade (22);

saw cut drive arrangement (21) and set up on slider (23), be provided with on processing platform (12) with saw section (22) size complex fluting (121), slider (23) can drive saw cut drive arrangement (21) slide so that saw section (22) slide in fluting (121).

9. Sawing device according to claim 8, characterised in that the sawing means (2) comprise a sawing mounting (24), which sawing mounting (24) is arranged on the machining table (12), on which sawing mounting (24) a vertical pressing mechanism (6) and a horizontal pressing mechanism (7) are arranged, which vertical pressing mechanism (6) and horizontal pressing mechanism (7) are both arranged perpendicularly with respect to the feed direction; the vertical pressing mechanism (6) and the horizontal pressing mechanism (7) are used for pressing workpieces.

10. Sawing device according to claim 8, characterized in that the sliding means (23) comprise a slide (232) and a slide drive (231), the machine body (1) being internally provided with a slide rail (13), wherein:

the sawing driving device (21) is arranged on the sliding seat (232), the sliding seat (232) is in sliding fit with the sliding rail (13), and the sliding driving device (231) is in transmission connection with the sliding seat (232) and can drive the sliding seat (232) to slide; the sliding direction of the sliding seat (232) is perpendicular to the feeding direction.

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