CN105537952A - Method and device for processing steps - Google Patents

Abstract

The invention provides a method and a device for processing steps. The device comprises a frame, a positioning component, a cutting component and a chamfering component, wherein the positioning component is arranged on the frame and comprises an operation platform, a bracket and a translation guide pillar; the cutting component and the chamfering component are successively arranged on the frame; the cutting component comprises a cutting blade, a cutting motor, a cutting bottom plate, a cutting guide pillar and a cutting cylinder; the chamfering component comprises a chamfering blade, a chamfering motor, a chamfering upper plate, a chamfering lifting cylinder, a chamfering lower plate, a chamfering guide pillar and a chamfering cylinder. The method and the device for processing the steps are automatically and continuously cutting, chamfering and trimming baffle plates, are high in processing efficiency and high in accuracy, can ensure the processing safety, and are conducive to production and application.

Description

The processing method of step and device

Technical field

The present invention relates to a kind of processing method and device of step.

Background technology

On terraced road, the effect of block is the accessory whorl making rear step push down previous step, prevents it to jump out.When the roller that step uses strengthens, or large when promoting the minority ladder type of angle, need this block to excise.After this block of excision, when the side due to step uses, the side of step can produce interference situation, needs to process this interference situation, cuts chamfering operation to the side of the side of step and the arc surface of step.What adopt due to original frock is cut block and chamfering process with the cutting machine of large saw blade, the practical security presence hidden danger found for employee, and operating efficiency and precision are not high.

In addition, when the roller diameter that step uses is enlarged to 100mm by 70mm, the cutting side of step being carried out about 11mm is needed.Under traditional processing mode, this operation is cut with portable bead cutter by employee, and do the aluminium bits sputtering produced like this and can cause potential safety hazard to employee, and moving and overturning of step is also under a strain, efficiency and precision are not high.

And, carrying out the special block of step multinomially adding man-hour, after single operation processing, needing carrying, upset step, time and effort consuming.

The problems referred to above should be paid attention in the processing processing procedure of the special block of step and the problem solved.

Summary of the invention

The object of this invention is to provide a kind of processing method of step and device to solve exist in prior art artificial and add man-hour to step, potential safety hazard is large, and is carrying out step multinomially adding man-hour, after single operation processing, need carrying, upset step, the problems such as time and effort consuming.

Technical solution of the present invention is:

A processing method for step, comprises the following steps:

The direction that step is put down to, arc surface is vertical with tread is placed on operating desk;

By cutting assembly, the block of step is excised; After completing block excision, then carry out according to the chamfering operation selected or trimming operation;

When selecting to carry out chamfering operation, by the first translation cylinder under operating desk, operating desk being transferred to chamfer angle component place, carrying out chamfering by chamfer angle component and operate;

When selecting to carry out trimming operation, by the first translation cylinder under operating desk, the second translation cylinder, operating desk being transferred to trimming assembly place, carrying out trimming operation by trimming assembly.

Further, while chamfering motor drives rising by chamfering with lift cylinder, the arc surface sidepiece of chamfering driven by motor chamfering sheet to step carries out the chamfering of set angle; Trimming operation is specially: while edge cutting motor drives rising by trimming lift cylinder, and edge cutting motor drives the arc surface sidepiece of trimming sheet to step to carry out setting the trimming of width.

A kind of processing method of step and device, comprise frame, positioning component, cutting assembly and chamfer angle component, frame is provided with positioning component, positioning component comprises operating desk, support, translation guide pillar, the two ends of translation guide pillar are separately fixed in frame, the bottom of operating desk is provided with translation guide plate, translation guide plate is provided with translation pilot hole, through described translation guide pillar in translation pilot hole, the bottom of operating desk is also connected with the first translation cylinder, propping up is set up on operating desk, support is provided with compression cylinder, compression cylinder is located at the top of operating desk,

Cutting assembly and chamfer angle component are located in frame successively, cutting assembly comprises cutting blade, cutting motor, cutting base plate, cutting guide pillar, cutting cylinder, cutting blade is connected in the rotating shaft of cutting motor, on cutting motor cutting riser, cutting riser is vertical on cutting base plate, the bottom of cutting base plate is provided with cutting guide plate, cutting guide plate is provided with cutting pilot hole, through described cutting guide pillar in cutting pilot hole, the bottom of cutting base plate is also connected with the piston rod of cutting cylinder, and the base of cutting cylinder is connected in frame;

Chamfer angle component comprises chamfering sheet, chamfering motor, chamfering upper plate, chamfering lift cylinder, chamfering lower plate, chamfering guide pillar, chamfering cylinder, chamfering sheet is connected in the rotating shaft of chamfering motor, chamfering motor is located on chamfering upper plate, the end face of chamfering upper plate and frame is formed with inclination angle, the bottom of chamfering upper plate is connected to the piston rod of plural chamfering lift cylinder, the base of chamfering lift cylinder is located in chamfering lower plate, the bottom of chamfering lower plate is provided with chamfering guide plate, chamfering guide plate is provided with chamfering pilot hole, through described chamfering guide pillar in chamfering pilot hole, the bottom of chamfering base plate is also connected with the piston rod of chamfering cylinder, the base of chamfering cylinder is connected in frame.

Further, also comprise trimming assembly, trimming assembly is located in frame, trimming assembly comprises trimming sheet, edge cutting motor, trimming upper plate, trimming lift cylinder, trimming lower plate, trimming guide pillar, trimming cylinder, trimming sheet is connected in the rotating shaft of edge cutting motor, edge cutting motor is located on trimming upper plate, the bottom of trimming upper plate is connected to the piston rod of plural trimming lift cylinder, the base of trimming lift cylinder is located in trimming lower plate, the bottom of trimming lower plate is provided with trimming guide plate, trimming guide plate is provided with trimming pilot hole, through described trimming guide pillar in trimming pilot hole, the bottom of trimming base plate is also connected with the piston rod of trimming cylinder, the base of trimming cylinder is connected in frame.

Further, the base of the first translation cylinder is connected on driver plate, and driver plate is connected to the piston rod of the second translation cylinder, and the base of the second translation cylinder is connected in frame.

Further, also comprise controller, controller connects translation cylinder, cutting cylinder, chamfering cylinder, trimming cylinder respectively, controller controls as follows: compression cylinder compresses step on operating desk, promote cutting motor by cutting cylinder and move to operating desk, by cutting blade, the block of step on operating desk is cut; Chamfering operation or trimming operation is carried out after cutting completes.

Further, chamfering operation is specially: control the first translation cylinder and promote operating desk and move in frame, then controls chamfering cylinder and promote chamfering motor and move on operating desk, carries out chamfering by chamfer angle component to the sidepiece of the step on operating desk.

Further, trimming operation is specially: control the first translation cylinder promotion operating desk and move in frame, control the second translation cylinder promotion operating desk continues mobile in frame, controlling trimming cylinder promotion trimming motor again moves on operating desk, carries out trimming by trimming assembly to the sidepiece of the step on operating desk.

Further, the end face of chamfering upper plate and frame is formed with 2-10 ° of inclination angle.

Further, operating desk adopts convex shape, and operating desk is provided with more than one locating piece.

The invention has the beneficial effects as follows: the processing method of this kind of step and device, after the block of step is positioned, can automatically realize the cutting operation to the block of step.After the cutting operation, by automatic movable operating platform, realize the automatic shift of the processing stations to step, can realize operating the chamfering of the arc surface side of step.When not carrying out chamfering operation, also by automatically realizing the continuation displacement of operating desk, the trimming operation of the arc surface side to step can be realized.The processing method of this kind of step and device, can realize cutting automatically block, chamfering, trimming operation, and working (machining) efficiency is high, precision is high, and can ensure process safety, is beneficial to production and application.

Accompanying drawing explanation

Fig. 1 is the structural representation of the processing unit (plant) of embodiment of the present invention step;

Fig. 2 is the structural representation of cutting assembly in embodiment;

Fig. 3 is the structural representation of chamfer angle component in embodiment;

Fig. 4 is the structural representation of trimming assembly in embodiment;

Fig. 5 is the polycrystalline substance schematic diagram of operating desk in embodiment;

Wherein: 1-frame, 2-cutting assembly, 3-chamfer angle component, 4-trimming assembly, 5-operating desk, 6-support, 7-compression cylinder, 8-translation guide pillar, 9-translation guide plate, 10-first translation cylinder, 11-driver plate, 12-second translation cylinder, 13-locating piece;

21-cutting blade, 22-cutting motor, 23-cuts base plate, 24-cutting guide pillar, and 25-cuts riser, 26-cutting guide plate;

31-chamfering sheet, 32-chamfering motor, 33-chamfering upper plate, 34-chamfering lift cylinder, 35-chamfering lower plate, 36-chamfering guide pillar, 37-chamfering guide plate;

41-trimming sheet, 42-edge cutting motor, 43-trimming upper plate, 44-trimming lift cylinder, 45-trimming lower plate, 46-trimming guide pillar, 47-trimming guide plate.

Detailed description of the invention

The preferred embodiments of the present invention are described in detail below in conjunction with accompanying drawing.

Embodiment

A processing method for step, comprises the following steps:

The direction that step is put down to, arc surface is vertical with tread is placed on operating desk 5;

By cutting assembly 2, the block of step is excised; After completing block excision, then carry out according to the chamfering operation selected or trimming operation;

When selecting to carry out chamfering operation, by the first translation cylinder 10 under operating desk 5, operating desk 5 being transferred to chamfer angle component 3 place, carrying out chamfering by chamfer angle component 3 and operate;

When selecting to carry out trimming operation, by cylinder 10, the second translation cylinder 12 of the first translation under operating desk 5, operating desk 5 being transferred to trimming assembly 4 place, carrying out trimming operation by trimming assembly 4.

While chamfering motor 32 drives rising by chamfering lift cylinder 34, chamfering motor 32 drives the arc surface sidepiece of chamfering sheet 31 pairs of steps to carry out the chamfering of set angle; Trimming operation is specially: while edge cutting motor 42 drives rising by trimming lift cylinder 44, and edge cutting motor 42 drives the arc surface sidepiece of trimming sheet 41 pairs of steps to carry out setting the trimming of width.

Embodiment method, after positioning the block of step, realizes the cutting operation of the block to step.After the cutting operation, by automatic movable operating platform 5, realize the automatic shift of the processing stations to step, can realize operating the chamfering of the arc surface side of step.When not carrying out chamfering operation, also by automatically realizing the continuation displacement of operating desk 5, the trimming operation of the arc surface side to step can be realized.The method, can realize cutting automatically block, chamfering, trimming operation, and working (machining) efficiency is high, precision is high, and can ensure process safety, is beneficial to production and application.

Embodiment also provides a kind of processing unit (plant) of step, as Fig. 1, comprise frame 1, positioning component, cutting assembly 2 and chamfer angle component 3, frame 1 is provided with positioning component, positioning component comprises operating desk 5, support 6, translation guide pillar 8, the two ends of translation guide pillar 8 are separately fixed in frame 1, the bottom of operating desk 5 is provided with translation guide plate 9, translation guide plate 9 is provided with translation pilot hole, through described translation guide pillar 8 in translation pilot hole, the bottom of operating desk 5 is also connected with the first translation cylinder 10, support 6 is located on operating desk 5, support 6 is provided with compression cylinder 7, compression cylinder 7 is located at the top of operating desk 5.

Cutting assembly 2 and chamfer angle component 3 are located in frame 1 successively, as Fig. 2, cutting assembly 2 comprises cutting blade 21, cutting motor 22, cutting base plate 23, cutting guide pillar 24, cutting cylinder, cutting blade 21 is connected in the rotating shaft of cutting motor 22, cutting motor 22 cuts on riser 25, cutting riser 25 is vertical on cutting base plate 23, and cutting riser 25 is provided with stiffener, in order to improve stability.The bottom of cutting base plate 23 is provided with cutting guide plate 26, cutting guide plate 26 is provided with cutting pilot hole, through described cutting guide pillar 24 in cutting pilot hole, the bottom of cutting base plate 23 is also connected with the piston rod of cutting cylinder, and the base of cutting cylinder is connected in frame 1.

As Fig. 3, chamfer angle component 3 comprises chamfering sheet 31, chamfering motor 32, chamfering upper plate 33, chamfering lift cylinder 34, chamfering lower plate 35, chamfering guide pillar 36, chamfering cylinder, chamfering sheet 31 is connected in the rotating shaft of chamfering motor 32, chamfering motor 32 is located on chamfering upper plate 33, chamfering upper plate 33 is formed with inclination angle with the end face of frame 1, the bottom of chamfering upper plate 33 is connected to the piston rod of plural chamfering lift cylinder 34, the base of chamfering lift cylinder 34 is located in chamfering lower plate 35, the bottom of chamfering lower plate 35 is provided with chamfering guide plate 37, chamfering guide plate 37 is provided with chamfering pilot hole, through described chamfering guide pillar 36 in chamfering pilot hole, the bottom of chamfering base plate is also connected with the piston rod of chamfering cylinder, the base of chamfering cylinder is connected in frame 1.

The processing unit (plant) of this kind of step, after positioning the block of step, can realize the cutting operation to the block of step automatically.After the cutting operation, by automatic movable operating platform 5, realize the automatic shift of the processing stations to step, can realize operating the chamfering of the arc surface side of step.When not carrying out chamfering operation, also by automatically realizing the continuation displacement of operating desk 5, the trimming operation of the arc surface side to step can be realized.The processing unit (plant) of this kind of step, can realize cutting automatically block, chamfering, trimming operation, and working (machining) efficiency is high, precision is high, and can ensure process safety, is beneficial to production and application.

The processing unit (plant) of this kind of step, implementation procedure is as follows: start compression cylinder 7 and push down step, and cutting cylinder drives cutting motor 22 to move on cutting guide pillar 24 simultaneously, cutting step block; After block has cut, operating desk 5 moves forward, then leads the angle of step arc surface side R2.5 by chamfer angle component 3.

The angle that chamfer angle component 3 carries out chamfering is that the inclination angle formed by chamfering upper plate 33 and frame 1 is determined.Chamfering upper plate 33 is formed with 2-10 ° of inclination angle with the end face of frame 1, is preferably 2.5 ° of inclinations angle.The process that chamfer angle component 3 carries out chamfering is the process implementation moved on being undertaken by chamfering lifting motor drive chamfering upper plate 33.

The both sides of operating desk 5 are respectively equipped with chamfer angle component 3, the both sides of operating desk 5 are respectively equipped with trimming assembly 4, operating desk 5 adopts convex shape, thus when the arc surface of chamfer angle component 3 or trimming assembly 4 pairs of steps operates, facilitates chamfering sheet 31 or trimming sheet 41 to process.

Support 6 is arranged on operating desk 5, can move with operating desk 5, thus when carrying out subsequent processing operation to step, compression cylinder 7 still positions step, and does not need to reorientate, and saves interlude.

Operating desk 5 is provided with more than one locating piece 13, realizes the location to step on operating desk 5, locating and machining of being more convenient for.The piston rod of compression cylinder 7 can arrange compact heap, and compact heap adopts nylon block, can avoid, when directly contact step carries out compression location, causing external force to damage to step.

Also comprise trimming assembly 4, as Fig. 4, trimming assembly 4 is located in frame 1, trimming assembly 4 comprises trimming sheet 41, edge cutting motor 42, trimming upper plate 43, trimming lift cylinder 44, trimming lower plate 45, trimming guide pillar 46, trimming cylinder, trimming sheet 41 is connected in the rotating shaft of edge cutting motor 42, edge cutting motor 42 is located on trimming upper plate 43, the bottom of trimming upper plate 43 is connected to the piston rod of plural trimming lift cylinder 44, the base of trimming lift cylinder 44 is located in trimming lower plate 45, the bottom of trimming lower plate 45 is provided with trimming guide plate 47, trimming guide plate 47 is provided with trimming pilot hole, through described trimming guide pillar 46 in trimming pilot hole, the bottom of trimming base plate is also connected with the piston rod of trimming cylinder, the base of trimming cylinder is connected in frame 1.

The implementation procedure of trimming assembly 4 is as follows: be put in by step on operating desk 5, and after being compressed by compression cylinder 7, trimming cylinder drives edge cutting motor 42 to move to operating desk 5 place, is carried out the 11MM of the arc surface side cutting step by trimming assembly 4.The process that trimming assembly 4 carries out trimming is the process implementation moved on being undertaken by trimming lifting motor drive trimming upper plate 43.

The processing unit (plant) of this kind of step, is improved to automatic processing structure, and add the safety guarantee of employee and the cutting accuracy to product, precision and efficiency are improved.

As Fig. 5, the base of the first translation cylinder 10 is connected on driver plate 11, and driver plate 11 is connected to the piston rod of the second translation cylinder 12, and the base of the second translation cylinder 12 is connected in frame 1.

Also comprise controller, controller connects translation cylinder, cutting cylinder, chamfering cylinder, trimming cylinder respectively, controller controls as follows: compression cylinder 7 compresses step on operating desk 5, promote cutting motor by cutting cylinder and move to operating desk 5, cut by the block of step on cutting blade 21 pairs of operating desks 5; Chamfering operation or trimming operation is carried out after cutting completes.

Chamfering operation is specially: control the first translation cylinder 10 and promote operating desk 5 and move in frame 1, then controls chamfering cylinder and promote chamfering motor and move on operating desk 5, carries out chamfering by the sidepiece of the step on chamfer angle component 3 pairs of operating desks 5.

Trimming operation is specially: control the first translation cylinder 10 and promote operating desk 5 and move in frame 1, control the second translation cylinder 12 to promote operating desk 5 and continue mobile in frame 1, controlling trimming cylinder promotion trimming motor again moves on operating desk 5, carries out trimming by the sidepiece of the step on trimming assembly 4 pairs of operating desks 5.

The processing unit (plant) of this kind of step, by arranging chamfer angle component 3, trimming assembly 4 in frame 1 simultaneously, after the excision block operation to step can be realized, carry out chamfering or the trimming operation of the rounded face side of step again, the continued operation to step can be realized in frame 1, without the need to carrying step or upset step, time saving and energy saving, efficiency can be greatly improved.The promotion of the first translation cylinder 10, second translation cylinder 12 can be realized by control button, realize the selection to chamfering or trimming operation.

Claims (10)

1. a processing method for step, is characterized in that: comprise the following steps:

The direction that step is put down to, arc surface is vertical with tread is placed on operating desk;

By cutting assembly, the block of step is excised; After completing block excision, then carry out according to the chamfering operation selected or trimming operation;

When selecting to carry out chamfering operation, by the first translation cylinder under operating desk, operating desk being transferred to chamfer angle component place, carrying out chamfering by chamfer angle component and operate;

When selecting to carry out trimming operation, by the first translation cylinder under operating desk, the second translation cylinder, operating desk being transferred to trimming assembly place, carrying out trimming operation by trimming assembly.

2. the processing method of step as claimed in claim 1, is characterized in that: chamfering operation is specially: while chamfering motor drives rising by chamfering lift cylinder, the arc surface sidepiece of chamfering driven by motor chamfering sheet to step carries out the chamfering of set angle; Trimming operation is specially: while edge cutting motor drives rising by trimming lift cylinder, and edge cutting motor drives the arc surface sidepiece of trimming sheet to step to carry out setting the trimming of width.

3. one kind realizes the processing unit (plant) of claim 1 or 2 step, it is characterized in that: comprise frame, positioning component, cutting assembly and chamfer angle component, frame is provided with positioning component, positioning component comprises operating desk, support, translation guide pillar, the two ends of translation guide pillar are separately fixed in frame, the bottom of operating desk is provided with translation guide plate, translation guide plate is provided with translation pilot hole, through described translation guide pillar in translation pilot hole, the bottom of operating desk is also connected with the first translation cylinder, propping up is set up on operating desk, support is provided with compression cylinder, compression cylinder is located at the top of operating desk,

Cutting assembly and chamfer angle component are located in frame successively, cutting assembly comprises cutting blade, cutting motor, cutting base plate, cutting guide pillar, cutting cylinder, cutting blade is connected in the rotating shaft of cutting motor, on cutting motor cutting riser, cutting riser is vertical on cutting base plate, the bottom of cutting base plate is provided with cutting guide plate, cutting guide plate is provided with cutting pilot hole, through described cutting guide pillar in cutting pilot hole, the bottom of cutting base plate is also connected with the piston rod of cutting cylinder, and the base of cutting cylinder is connected in frame;

Chamfer angle component comprises chamfering sheet, chamfering motor, chamfering upper plate, chamfering lift cylinder, chamfering lower plate, chamfering guide pillar, chamfering cylinder, chamfering sheet is connected in the rotating shaft of chamfering motor, chamfering motor is located on chamfering upper plate, the end face of chamfering upper plate and frame is formed with inclination angle, the bottom of chamfering upper plate is connected to the piston rod of plural chamfering lift cylinder, the base of chamfering lift cylinder is located in chamfering lower plate, the bottom of chamfering lower plate is provided with chamfering guide plate, chamfering guide plate is provided with chamfering pilot hole, through described chamfering guide pillar in chamfering pilot hole, the bottom of chamfering base plate is also connected with the piston rod of chamfering cylinder, the base of chamfering cylinder is connected in frame.

4. the processing unit (plant) of step as claimed in claim 3, it is characterized in that: also comprise trimming assembly, trimming assembly is located in frame, trimming assembly comprises trimming sheet, edge cutting motor, trimming upper plate, trimming lift cylinder, trimming lower plate, trimming guide pillar, trimming cylinder, trimming sheet is connected in the rotating shaft of edge cutting motor, edge cutting motor is located on trimming upper plate, the bottom of trimming upper plate is connected to the piston rod of plural trimming lift cylinder, the base of trimming lift cylinder is located in trimming lower plate, the bottom of trimming lower plate is provided with trimming guide plate, trimming guide plate is provided with trimming pilot hole, through described trimming guide pillar in trimming pilot hole, the bottom of trimming base plate is also connected with the piston rod of trimming cylinder, the base of trimming cylinder is connected in frame.

5. the processing unit (plant) of step as claimed in claim 4, it is characterized in that: the base of the first translation cylinder is connected on driver plate, driver plate is connected to the piston rod of the second translation cylinder, and the base of the second translation cylinder is connected in frame.

6. the processing unit (plant) of step as claimed in claim 5, it is characterized in that: also comprise controller, controller connects translation cylinder, cutting cylinder, chamfering cylinder, trimming cylinder respectively, controller controls as follows: compression cylinder compresses step on operating desk, promote cutting motor by cutting cylinder and move to operating desk, by cutting blade, the block of step on operating desk is cut; Chamfering operation or trimming operation is carried out after cutting completes.

7. the processing unit (plant) of step as claimed in claim 6, it is characterized in that: chamfering operation is specially: control the first translation cylinder promotion operating desk and move in frame, controlling chamfering cylinder promotion chamfering motor again moves on operating desk, carries out chamfering by chamfer angle component to the sidepiece of the step on operating desk.

8. the processing unit (plant) of step as claimed in claim 6, it is characterized in that: trimming operation is specially: control the first translation cylinder promotion operating desk and move in frame, control the second translation cylinder promotion operating desk continues mobile in frame, controlling trimming cylinder promotion trimming motor again moves on operating desk, carries out trimming by trimming assembly to the sidepiece of the step on operating desk.

9. the processing unit (plant) of the step as described in any one of claim 3-8, is characterized in that: the end face of chamfering upper plate and frame is formed with 2-10 ° of inclination angle.

10. the processing unit (plant) of step as claimed in claim 3, is characterized in that: operating desk adopts convex shape, and operating desk is provided with more than one locating piece.