阅读说明：本技术 一种锯机的废料导出系统 (Waste material derivation system of sawing machine ) 是由 吕俊 吕凌俊 项坚冰 于 2021-06-16 设计创作，主要内容包括：本发明涉及锯机领域,特别地,涉及一种锯机的废料导出系统,包括切割台以及升降台,所述升降台与所述切割台竖直滑动连接,包括清理机构,所述清理机构包括推板以及收纳槽,所述推板与所述切割台水平滑动连接,所述推板一侧为斜面,所述推板用于分离废料与切割好的管材,所述收纳槽贯穿所述切割台上下端面,所述收纳槽用于导出废料以及收纳所述推板,所述推板一侧设有动力组件,本发明目的是克服现有技术的不足而提供一种锯机的废料导出系统,实现在管材或板材加工过程中及时对废料及边角料进行清理的效果。(The invention relates to the field of sawing machines, in particular to a waste material guiding system of a sawing machine, which comprises a cutting table and a lifting table, wherein the lifting table is vertically and slidably connected with the cutting table, the lifting table comprises a cleaning mechanism, the cleaning mechanism comprises a push plate and an accommodating groove, the push plate is horizontally and slidably connected with the cutting table, one side of the push plate is an inclined plane, the push plate is used for separating waste materials from cut pipes, the accommodating groove penetrates through the upper end surface and the lower end surface of the cutting table, the accommodating groove is used for guiding out the waste materials and accommodating the push plate, and a power assembly is arranged on one side of the push plate.)

1. A waste material guiding system of a sawing machine is characterized by comprising a cutting table (12) and a lifting table (13), wherein the lifting table (13) is vertically connected with the cutting table (12) in a sliding manner, it is characterized by comprising a cleaning mechanism, wherein the cleaning mechanism comprises a push plate (18) and a containing groove (25), the push plate (18) is horizontally connected with the cutting table (12) in a sliding way, one side of the push plate (18) is provided with a bevel used for separating waste materials from cut pipes, the containing groove (25) penetrates through the upper end surface and the lower end surface of the cutting table (12) and is used for guiding out waste materials, one side of the push plate (18) is provided with a power component which is used for driving the push plate (18) to move, the other side of the push plate (18) is provided with a reset assembly, the reset assembly is used for driving the push plate (18) to reset, and the power assembly drives the push plate (18) in a single direction.

2. The scrap discharge system for sawing machine according to claim 1 wherein said cleaning mechanism further comprises a guide plate (17) and a back plate (10), one end of said guide plate (17) is fixedly connected to said push plate (18), said back plate (10) is fixedly connected to said cutting table (12), said guide plate (17) is horizontally slidably connected to said back plate (10) through said back plate (10).

3. The waste material guiding system of the sawing machine as claimed in claim 2, wherein the power assembly comprises a power slider (36), a pulling rope (31), a driven slider (27) and a trip block (37), the power slider (36) and the driven slider (27) are vertically and slidably connected with the back plate (10), two ends of the pulling rope (31) are fixedly connected with the guide plate (17) and the driven slider (27), respectively, the power slider 36 is used for driving the driven slider (27) to ascend, and the driven slider (27) drives the pushing plate 18 to move towards the accommodating groove 25 by tensioning the pulling rope 31; when the follower slider (27) rises to a predetermined height, the release block (37) releases the follower slider (27) from contact with the power slider (36).

4. The waste material guiding system of the sawing machine according to claim 3, wherein a micro-motion sliding groove (28) is formed in the driven sliding block (27), a micro-motion pressure spring (29) is arranged in the micro-motion sliding groove (28), a micro-motion sliding block (30) is arranged in the micro-motion sliding groove (28) in a sliding manner, and the upper end surface of one end, away from the driven sliding block (27), of the micro-motion sliding block (30) is an inclined surface.

5. The waste material guiding system of the sawing machine according to claim 3, wherein a driven groove (26) and a power sliding groove (35) are formed in the rear plate (10), the driven groove (26) is connected with a driven sliding block (27) in a sliding mode, the power sliding groove (35) is connected with a power sliding block (36) in a sliding mode, the power sliding groove (35) is communicated with the driven groove (26), the micro-motion sliding block (30) is connected with the power sliding groove (35) in a sliding mode, the driven sliding block (27) is driven by the power sliding block (36) through the micro-motion sliding block (30) in a sliding mode, and the micro-motion sliding block (30) is connected with the driven groove (26) in a sliding mode.

6. The waste material guiding system of the sawing machine as claimed in claim 5, characterized in that the trip block (37) is fixedly connected with the top end of the connection between the power chute (35) and the driven groove (26), and the lower end face of the trip block (37) is provided with an inclined surface for controlling the micro slide block (30) to be separated from the power slide block (36).

7. The waste material guiding system of the sawing machine according to claim 5, wherein a front plate (11) is fixedly arranged at the upper end of the cutting table (12), the power slider (36) is fixedly connected with the lifting table (13), the lifting table (13) is slidably connected with the front plate (11), and a lifting mechanism is arranged on the outer side of the lifting table (13) and arranged inside the front plate (11).

8. The waste material guiding system of the sawing machine according to claim 1, wherein the reset mechanism comprises an end plate (22), the end plate (22) is fixedly connected with the cutting table (12), a reset sliding groove (32) is formed in the end plate (22), the reset sliding groove (32) is slidably connected with the push plate (18), and a reset pressure spring (33) for controlling the reset of the push plate (18) is arranged in the reset sliding groove (32).

9. The scrap discharge system for sawing machine according to claim 1 wherein said receiving channel (25) is internally fixed with at least one baffle (24) and said pushing plate (18) is internally provided with at least one baffle slot (23), said baffle slot (23) being adapted to receive said baffle (24).

10. The waste material guiding system of the sawing machine according to claim 1, wherein a material guiding box (19) is fixed at the lower end of the cutting table (12), the material guiding box (19) is located at one side of the push plate (18) which is not inclined, a material guiding cavity (20) is formed inside the material guiding box (19), the lower end surface of the material guiding cavity (20) is inclined, one side of the material guiding cavity (20) is communicated with the outside, and the upper side of the material guiding cavity (20) penetrates through the cutting table (12) and is communicated with the outside.

Technical Field

The invention relates to the field of sawing machines, in particular to a waste material guiding system of a sawing machine.

Background

The sawing machine is important equipment in the metal processing process, is mainly used for reducing the material of metal, usually cuts and processes pipes or plates, can produce a large amount of leftover materials and plate scraps in the pipe or plate cutting process, influences the cutting continuous operation, and therefore the waste materials need to be continuously cleaned in the pipe or plate cutting process.

Among the prior art, the waste material that produces usually adopts manual clearance or cutting fluid to wash in the saw working process, manual clearance is inefficiency not only, and because the piece of panel and the high temperature that leftover bits produced under the high-speed rotation of saw extremely easily scald the clearance personnel, the cutting fluid washes the limitation great, only can wash the cutting piece of panel, still need the manual work to clear up the leftover bits, consequently how to design the waste material derivation system of a saw, can in time clear up waste material and leftover bits and pieces in tubular product or panel course of working has become the technical problem that technical staff in the field await treatment urgently.

Disclosure of Invention

In view of this, the present invention provides a waste material guiding system of a sawing machine to overcome the defects of the prior art, so as to achieve the effect of timely cleaning the waste material and the leftover material in the pipe or plate processing process.

In order to solve the technical problems, the technical scheme of the invention is as follows:

the utility model provides a waste material derivation system of saw, including the cutting bed with the vertical sliding connection of cutting bed, a serial communication port, including clearance mechanism, clearance mechanism includes the push pedal, push pedal one side is equipped with the inclined plane that is used for separating waste material and the good tubular product of cutting, it runs through to accomodate the groove terminal surface is used for deriving the waste material about the cutting bed, push pedal one side is equipped with power component, power component is with the drive the push pedal removes, the push pedal opposite side is equipped with reset assembly, reset assembly is used for driving the push pedal resets, power component folk prescription is to the drive the push pedal.

Compared with the prior art, the invention has the advantages that:

the lifting table is used for providing power to drive the power assembly, the power assembly drives the push plate to slide on the outer side of the cutting table, the push plate pushes waste materials and pipes on the cutting table to slide, the push plate is stored in the storage groove, the push plate pushes the waste materials to fall through the storage groove, the pipes move to the other side of the push plate along the inclined surface of the push plate under the pressure action of the push plate, meanwhile, the power assembly is disconnected from the lifting table, the reset mechanism resets the push plate, the push plate is separated from the storage groove, and the push plate drives the cut pipes to reset.

Further, clearance mechanism still includes deflector and back plate, deflector one end with push pedal fixed connection, the back plate with cutting bed fixed connection, the deflector runs through the back plate with back plate horizontal sliding connects, realizes spacing and the direction to the push pedal.

Furthermore, the power assembly comprises a power sliding block, a pull rope, a driven sliding block and a tripping block, the power sliding block and the driven sliding block are vertically and slidably connected with the rear plate, two ends of the pull rope are respectively and fixedly connected with the guide plate and the driven sliding block, the power sliding block is used for driving the driven sliding block to ascend, and the driven sliding block drives the push plate to move to one side of the accommodating groove by tensioning the pull rope; when the driven slide block rises to a specified height, the driven slide block is separated from the power slide block by the trip block, and the power assembly is driven in a single direction by the lifting platform.

Further, a micro-motion sliding groove is formed in the driven sliding block, a micro-motion pressure spring is arranged in the micro-motion sliding groove, a micro-motion sliding block is arranged in the micro-motion sliding groove in a sliding mode, the upper end face of one end of the driven sliding block is an inclined face, and the micro-motion sliding block can only be driven in the vertical direction in a single direction due to the existence of the inclined face of the micro-motion sliding block and the reset effect of the micro-motion pressure spring.

Furthermore, a driven groove and a power sliding groove are formed in the rear plate, the driven groove is connected with a driven sliding block in a sliding mode, the power sliding groove is connected with a power sliding block in a sliding mode, the power sliding groove is communicated with the driven groove, a micro-motion sliding block is connected with the power sliding groove and the driven groove communicating groove in a sliding mode, the power sliding block drives the driven sliding block to move through the micro-motion sliding block, and the limitation of the power sliding block and the limitation of the micro-motion sliding block as well as the connection of the power sliding block and the micro-motion sliding block by the rear plate are achieved.

Furthermore, the tripping block is fixedly connected with the top end of the communication part of the power sliding groove and the driven groove, and an inclined plane used for controlling the micro-motion sliding block to be separated from the power sliding block is arranged on the lower end face of the tripping block, so that the micro-motion sliding block and the power sliding block are automatically separated from each other.

Further, the cutting bed upper end is fixed and is equipped with the front bezel, the power slider with elevating platform fixed connection, the elevating platform with front bezel sliding connection, the elevating platform outside is equipped with elevating system, elevating system locates inside the front bezel, the realization is to the provision of elevating platform power.

Further, canceling release mechanical system includes the end plate, the end plate with cutting bed fixed connection, the inside spout that resets of end plate has been seted up, the spout that resets with push pedal sliding connection, the spout that resets inside is equipped with and is used for control the pressure spring that resets that the push pedal resets realizes the reset action to the push pedal.

Furthermore, at least one baffle is fixedly arranged inside the accommodating groove, at least one baffle groove is formed inside the push plate, and the baffle groove is used for accommodating the baffle and blocking the cut pipe from being clamped into the accommodating groove.

Further, a material guide box is fixedly arranged at the lower end of the cutting table and located on one side of the non-inclined surface of the push plate, a material guide cavity is formed in the material guide box, the lower end face of the material guide cavity is an inclined surface, one side of the material guide cavity is communicated with the outside, the upper side of the material guide cavity penetrates through the cutting table and is communicated with the outside, and cut pipes are guided out.

Drawings

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

FIG. 2 is an enlarged schematic view of the invention at A;

FIG. 3 is an isometric schematic view of the present invention;

FIG. 4 is a schematic view in partial cross-section in elevation of the present invention;

FIG. 5 is a schematic view of the direction B-B of FIG. 4;

fig. 6 is an enlarged schematic view of fig. 4 at C.

Reference numerals: 10. the cutting device comprises a rear plate, 11, a front plate, 12, a cutting table, 13, a lifting table, 14, a sawing machine, 16, a cutting groove, 17, a reciprocating plate, 18, a push plate, 19, a material guiding box, 20, a material guiding cavity, 22, an end plate, 23, a limiting groove, 24, a limiting plate, 25, a containing groove, 26, a driven groove, 27, a driven slide block, 28, a micro-motion slide groove, 29, a micro-motion compression spring, 30, a micro-motion slide block, 31, a pull rope, 32, a reset slide groove, 33, a reset compression spring, 34, a limiting slide block, 35, a power slide groove, 36, a power slide block, 37 and a reset block.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in order to make the technical solution of the present invention easier to understand and understand.

Referring to fig. 1, 3, 4 and 5, the present embodiment provides a waste material guiding system of a sawing machine, which is mainly used for timely cleaning waste materials and leftover materials during a pipe or plate processing process.

Including cutting bed 12 and elevating platform 13, elevating platform 13 with the vertical sliding connection of cutting bed 12, including clearance mechanism, clearance mechanism includes push pedal 18 and accomodates groove 25, push pedal 18 with the horizontal sliding connection of cutting bed 12, 18 one side of push pedal is the inclined plane, push pedal 18 is used for separating the waste material and the good tubular product of cutting, accomodate groove 25 and run through terminal surface about cutting bed 12, accomodate groove 25 and be used for deriving the waste material and accomodate push pedal 18, 18 one side of push pedal is equipped with power component, power component is with the drive 18 of push pedal removes, 18 opposite sides of push pedal are equipped with reset assembly, reset assembly is used for driving 18 resets of push pedal, power component by 13 unilateral drives of elevating platform.

Specifically, the method comprises the following steps:

in order to limit and guide the push plate 18, the cleaning mechanism further comprises a guide plate 17 and a rear plate 10, the rear plate 10 is fixedly connected with the cutting table 12, and the guide plate 17 penetrates through the rear plate 10 and is horizontally connected with the rear plate 10 in a sliding manner, so that the push plate 18 is limited and guided.

As shown in fig. 3, 4 and 6, the power assembly includes a power slider 36, a pull rope 31, a driven slider 27 and a trip block 37, the power slider 36 and the driven slider 27 are vertically and slidably connected to the rear plate 10, two ends of the pull rope 31 are respectively fixedly connected to the guide plate 17 and the driven slider 27, the power slider 36 is used for driving the driven slider 27 to ascend, and the driven slider 27 drives the push plate 18 to move to one side of the accommodating groove 25 by tightening the pull rope 31; the trip block 37 is used to separate the follower slide 27 from the power slide 36 when the follower slide 27 is lifted to a predetermined height, so that the power assembly is driven in one direction by the lifting table 13.

By the above device, the power slider 36 drives the driven slider 27 to rise, the driven slider 27 drives the push plate 18 to move towards the accommodating groove 25 side through the tension rope 31, and when the driven slider 27 rises to a specified height, the release block 37 enables the driven slider 27 to be separated from the power slider 36, so that the lifting platform 13 drives the power assembly in one direction.

In order to realize that the micro-motion sliding block 30 can only be driven in the vertical direction in a single direction, a micro-motion sliding groove 28 is formed in the driven sliding block 27, a micro-motion pressure spring 29 is arranged in the micro-motion sliding groove 28 in a sliding mode, a micro-motion sliding block 30 is arranged in the micro-motion sliding groove 28 in a sliding mode, the upper end face, far away from one end of the driven sliding block 27, of the micro-motion sliding block 30 is an inclined face, and due to the fact that the micro-motion sliding block 30 can only be driven in the vertical direction in the single direction through the existence of the inclined face of the micro-motion sliding block 30 and the reset effect of the micro-motion pressure spring 29.

In order to limit the power slider 36 and the micro slider 30 by the rear plate 10 and connect the power slider 36 and the micro slider 30, a driven groove 26 and a power sliding groove 35 are formed in the rear plate 10, the driven groove 26 is in sliding connection with the driven slider 27, the power sliding groove 35 is in sliding connection with the power slider 36, the power sliding groove 35 is communicated with the driven groove 26, the micro slider 30 is in sliding connection with the power sliding groove 35 and the driven groove 26, the power slider 36 drives the driven slider 27 to move through the micro slider 30, and limit of the power slider 36 and the micro slider 30 by the rear plate 10 and connection of the power slider 36 and the micro slider 30 are realized.

In order to realize the automatic disconnection between the micro-motion slider 30 and the power slider 36, the top end of the communication part between the power chute 35 and the driven chute 26 is fixedly connected with the trip block 37, the lower end surface of the trip block 37 is an inclined surface, and the trip block 37 is used for controlling the micro-motion slider 30 to be disconnected from the power slider 36, so that the automatic disconnection between the micro-motion slider 30 and the power slider 36 is realized.

In order to realize the lifting of the lifting platform 13, the upper end of the cutting table 12 is fixedly provided with a front plate 11, the power slider 36 is fixedly connected with the lifting platform 13, the lifting platform 13 is in sliding connection with the front plate 11, the outer side of the lifting platform 13 is provided with a lifting mechanism, and the lifting mechanism is arranged inside the front plate 11 to realize the power supply of the lifting platform 13.

For processing the pipe, a saw 14 can be fixedly mounted on the lifting table 13, and the saw 14 is used for cutting the pipe.

In order to clear up the waste material in succession, need reset push pedal 18, canceling release mechanical system includes end plate 22, end plate 22 with cutting table 12 fixed connection, end plate 22 is inside to have seted up the spout 32 that resets, the spout 32 that resets with push pedal 18 sliding connection, the inside pressure spring 33 that resets that is equipped with of spout 32 that resets, pressure spring 33 that resets is used for control push pedal 18 resets, realizes the reset action to push pedal 18.

In order to ensure the linear movement of the push plate 18, a cutting groove 16 is formed inside the cutting table 12, a limiting slide block 34 is fixedly arranged at one end, away from the end plate 22, of the push plate 18, the limiting slide block 34 is used for being in sliding connection with the cutting groove 16, and the limiting slide block 34 is used for further limiting the push plate 18 to ensure the linear movement of the push plate 18.

In order to ensure the separation of the pipe and the waste materials, at least one baffle plate 24 is fixedly arranged inside the accommodating groove 25, at least one baffle plate groove 23 is formed inside the push plate 18, and the baffle plate groove 23 is used for accommodating the baffle plate 24 and preventing the cut pipe from being clamped into the accommodating groove 25.

In order to guide out the cut pipes, a material guide box 19 is fixedly arranged at the lower end of the cutting table 12, the material guide box 19 is located on one side, which is not inclined, of the push plate 18, a material guide cavity 20 is formed in the material guide box 19, the lower end face of the material guide cavity 20 is inclined, one side of the material guide cavity 20 is communicated with the outside, the upper side of the material guide cavity 20 penetrates through the cutting table 12 and is communicated with the outside, and the cut pipes are guided out.

The implementation principle is as follows: firstly, a pipe is placed on the upper end face of a cutting table 12 to be fixed, a lifting mechanism drives a saw 14 to move downwards through a lifting table 13, the lifting table 13 drives a power slide block 36 to move downwards, the power slide block 36 is abutted against a micro-motion slide block 30, the micro-motion slide block 30 drives a micro-motion pressure spring 29 to compress, the power slide block 36 is separated from the micro-motion slide block 30 to be contacted, the micro-motion pressure spring 29 resets, meanwhile, the saw 14 rotates to cut the pipe, cut scraps fall through a cutting groove 16, cut scraps are left on the upper end face of the cutting table 12, after the pipe is cut, the lifting mechanism drives the saw 14 to move upwards through the lifting table 13, the lifting table 13 drives the power slide block 36 to move upwards, the power slide block 36 drives a reciprocating plate 17 to move through the micro-motion slide block 30, a driven slide block 27 and a pull rope 31 to drive a push plate 18 to move, the reset pressure spring 33 compresses, the push plate 18 is abutted against the cut pipe, the cut tubular product moves to the opposite side of push pedal 18 along the inclined plane of push pedal 18, the cut tubular product is in the tilt state under the supporting action of reciprocating plate 17, push pedal 18 continues to move and promotes piece and leftover bits of the upper side of cutting bed 12, piece and leftover bits drop under the action of gravity from cutting groove 16 and accommodating between the groove 25, meanwhile, fine motion slider 30 and reset block 37 butt, fine motion slider 30 drives the compression of fine motion pressure spring 29, reset block 37 breaks away from the back of contact with fine motion slider 30, fine motion pressure spring 29 resets, reset pressure spring 33 resets, push pedal 18 resets under the spring action of reset chute 32, push pedal 18 promotes the cut tubular product and gets into inside guide chamber 20, the terminal surface roll-off under guide chamber 20 of cut tubular product edge.

The above are only typical examples of the present invention, and besides, the present invention may have other embodiments, and all technical solutions formed by equivalent substitutions or equivalent transformations fall within the scope of the present invention.