CN108098071A - A kind of efficient groover - Google Patents

Abstract

The present invention relates to a kind of efficient groovers, including lathe bed, rack, walking component, Y-axis component, Z axis component and knife rest, walking component is arranged between lathe bed and rack, and Y-axis component level is fixed in rack, Z axis component is vertically arranged on Y-axis component, and knife rest is fixedly mounted on Z axis component；It is set side by side along Y-axis on knife rest there are three tool apron, apart from adjustable, one of tool apron is fixedly mounted on knife rest the Y-axis between three tool aprons.Two of which tool apron in three tool aprons is with respect to the Z axis size adjustable of knife rest.Such efficient groover can not only complete the processing of wall scroll slot, and one-pass can also complete the processing of a plurality of slot simultaneously, and Flexible Equipment is high, while necking tool is easy to adjust, and adjusting machine time is short, and comprehensive process is efficient.

Description

A kind of efficient groover

Technical field

The present invention relates to groovers, are specifically a kind of efficient groover.

Background technology

Doorframe is also known as door cheek, is generally made of two vertical frames and upper ledge.It is horizontal in also having when door carries transom Frame.Multiple leaf door then also has mullion.Doorframe is that door leaf, transom and wall contact component.Aluminum alloy doorframe is since its intensity is high, makes The advantages that with year limit for length, increasingly favored be subject to consumer and market, use scope constantly expands in recent years, therefore improves door The production efficiency of frame is extremely urgent.

Aluminum alloy doorframe is generally formed by sheet metal bending.Before bending, certain usually using groover removal Clout so that bending part can form regular right angle.In reality produces, for the difference of different doorframe or doorframe Face, it may be necessary to multiple bending and a plurality of slot must be outputed, it is also possible to only need a bending and need to only output a bar groove.It is existing Doorframe groover single necking tool is often only installed, knife rest walking can only once output a bar groove, when needing to output a plurality of slot When, then knife rest is needed repeatedly to be processed back and forth, this results in processing efficiency very low.

The content of the invention

The technical problem to be solved in the present invention is to provide a kind of efficient groovers, can not only complete the processing of wall scroll slot, One-pass can also complete the processing of a plurality of slot simultaneously, and Flexible Equipment is high, while necking tool is easy to adjust, and adjusting machine time is short, comprehensive It closes high in machining efficiency.

In order to solve the above technical problem, the present invention provides technical solution it is as follows：

A kind of efficient groover, including lathe bed, rack, walking component, Y-axis component, Z axis component and knife rest, walking group Part is arranged between lathe bed and rack, and Y-axis component level is fixed in rack, and Z axis component is vertically arranged on Y-axis component, knife Frame is fixedly mounted on Z axis component；Set side by side along Y-axis on knife rest there are three tool apron, the Y-axis between three tool aprons apart from adjustable, One of tool apron is fixedly mounted on knife rest.Two of which tool apron in three tool aprons is with respect to the Z axis size adjustable of knife rest.

It generally needs to output one, three or four bar grooves on Door frame board, using such structure, when only needing out a bar groove When, due to Z axis size adjustable of two tool aprons with respect to knife rest, two tool aprons to the adjustment of Z axis positive direction can be lifted, individually made One tool apron is in running order；And when opening three bar grooves if necessary, adjust the Y-axis distance between three tool aprons, you can processing Three bar grooves met the size requirements；And when needing to process four bar grooves, the Y-axis distance between three tool aprons can be first adjusted, is added Work goes out three bar grooves, then lifts two tool aprons, and control system control Y-axis component makes knife rest move to suitable position, processes Article 4 slot.And if directly setting four tool aprons, the Y-axis distance adjusting mechanism between four tool aprons is sufficiently complex, is manufactured into This height, worker's toolsetting time is long, and machining accuracy is also difficult to ensure that.

Further, the intermediate tool apron of three tool aprons with respect to knife rest Y-axis size constancy, other two tool apron and knife rest it Between be equipped with adjustment component.

Further, adjusting component includes dovetail guide, dovetail slide unit and adjustment screw, and dovetail guide is fixedly mounted on On knife rest, dovetail slide unit is slidably mounted on dovetail guide, and adjustment screw is rotatably arranged on dovetail guide, adjustment screw One end be spirally connected with dovetail slide unit, the other end of adjustment screw is equipped with adjustment handwheel.Using such structure, using intermediate tool apron as Benchmark can quickly and easily adjust the tool apron position of both sides, simple in structure practical, when substantially reducing the toolsetting of worker Between, improve the processing efficiency of equipment.

Further, two tool aprons with respect to the Z axis size adjustable of knife rest include fixed tool apron and movable tool apron, fixed Tool apron is fixedly connected with knife rest, and movable tool apron is mounted on fixed tool apron.

Further, one end of movable tool apron is hinged with fixed tool apron one end, the other end of movable tool apron and fixed tool apron Between be equipped with overturning structure.Using such structure, when row's cutter is only needed to slot, overturning structure makes on movable tool apron It turns over, two tool aprons are lifted to the adjustment of Z axis positive direction, realize single groove processing.

Further, lathe bed includes pedestal, waist and table top, the both ends difference connect base and table top of waist, lathe bed In " work " font.

Further, component of walking includes guide rail slide block component and rack and pinion assembly.Guide rail slide block component versatility Good, convenient maintenance and replacement can directly be bought, and equipment manufacturing costs are low.Rack and pinion assembly transmission efficiency, bearing capacity Greatly.

Further, guide rail slide block component includes line slideway and linear slider, and line slideway is fixedly mounted on pedestal The both sides of top, linear slider are sleeved on line slideway, and rack is mounted in linear slider.

Further, rack and pinion assembly includes rack and gear, and rack is fixedly mounted on the both sides below table top, tooth The teeth portion of item faces pedestal, and gear is rotatably arranged in rack, wheel and rack engagement.It, can be with using such structure The Y-axis size of equipment is effectively reduced, equipment complete machine structure is compacter.

Further, rack is gantry structure, and rack includes two legs and crossbeam, one end of two legs and crossbeam It is fixedly connected, the other end of two legs is fixedly mounted in linear slider, and rotatable transmission is respectively equipped on two legs Axis, gear are fixedly mounted on transmission shaft one end.Power inputs respectively from two transmission shafts, and two transmission shaft driven gears rotate, Walking is completed in wheel and rack engagement, and such structure line of force closing ensures that lathe fluting is stablized, improves the machining accuracy of slot.

In conclusion such efficient groover, can not only complete the processing of wall scroll slot, one-pass can also be complete simultaneously Into the processing of a plurality of slot, Flexible Equipment is high, while necking tool is easy to adjust, and adjusting machine time is short, and comprehensive process is efficient.

Description of the drawings

Fig. 1 is the structure diagram of the efficient groover of the present embodiment；

Fig. 2 is the partial enlarged view of A in Fig. 1；

Fig. 3 is the front view of the efficient groover of the present embodiment；

Fig. 4 is the left view of the efficient groover of the present embodiment；

Wherein, lathe bed 1, pedestal 11, waist 12, table top 13, rack 2, leg 21, crossbeam 22, transmission shaft 23, component of walking 3rd, line slideway 31, linear slider 32, rack 33, gear 34, Y-axis component 4, Z axis component 5, knife rest 6, tool apron 7, fixed tool apron 71, movable tool apron 72, necking tool 8 adjusts component 9, dovetail guide 91, dovetail slide unit 92, adjustment screw 93, adjustment handwheel 94.

Specific embodiment

In order to make the purpose , technical scheme and advantage of the present invention be clearer, with reference to the accompanying drawings and embodiments, it is right The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and It is not used in the restriction present invention.

It is shown as shown in figures 1 and 3, a kind of efficient groover, including lathe bed 1, rack 2, walking component 3, Y-axis component 4, Z axis component 5 and knife rest 6, walking component 3 are arranged between lathe bed 1 and rack 2, and Y-axis component 4 is horizontally fixed in rack 2, Z Shaft assembly 5 is vertically arranged on Y-axis component 4, and knife rest 6 is fixedly mounted on Z axis component 5.

It is set side by side along Y-axis on knife rest 6 there are three tool apron 7, the Y-axis between three tool aprons 7 is apart from adjustable, one of tool apron 7 are fixedly mounted on knife rest 6.Necking tool 8 is fixedly mounted on tool apron 7.In the present embodiment, 7 phase of intermediate tool apron of three tool aprons 7 The Y-axis size constancy of cutter setting frame 6 is equipped with adjustment component 9, as shown in Figures 2 and 3 between other two tool apron 7 and knife rest 6.

As shown in Fig. 2, adjustment component 9 includes dovetail guide 91, dovetail slide unit 92 and adjustment screw 93, dovetail guide 91 It is fixedly mounted on knife rest 6, dovetail slide unit 92 is slidably mounted on dovetail guide 91, and adjustment screw 93 is rotatably arranged in swallow On tail guide rail 91, one end and the dovetail slide unit 92 of adjustment screw 93 are spirally connected, and the other end of adjustment screw 93 is equipped with adjustment handwheel 94. Intermediate tool apron 7 is fixed, and rotates adjustment handwheel 94, and dovetail slide unit 92 is moved along dovetail guide 91.Using such structure, in Between on the basis of tool apron 7, can quickly and easily adjust 7 position of tool apron of both sides, it is simple in structure practical, substantially reduce work The toolsetting time of people improves the processing efficiency of equipment.

The Z axis size adjustable of the opposite knife rest 6 of two of which tool apron 7 in three tool aprons 7.In the present embodiment, with respect to knife rest 6 Two tool aprons 7 of Z axis size adjustable include fixed tool apron 71 and movable tool apron 72, fixed tool apron 71 is fixed with knife rest 6 to be connected It connects, movable tool apron 72 is mounted on fixed tool apron 71.

Specifically, one end of movable tool apron 72 is hinged with fixed 71 one end of tool apron, the other end of movable tool apron 72 and fixation Overturning structure is equipped between tool apron 71.Many structures can realize turn over function or even can realize automatic turning in the prior art Function, it is relevant overturning structure can apply in the present invention, therefore in the present invention to overturning structure do not repeat.Certainly, Alternatively, linear motion adjustment structure can also be used between movable tool apron 72 and fixed tool apron 71.Using so Structure, when row's necking tool 8 is only needed to slot, overturning structure turns over movable tool apron 72, and two tool aprons 7 are square to Z axis It is lifted to adjustment, realizes single groove processing.

It generally needs to output one, three or four bar grooves on Door frame board, using such structure, when only needing out a bar groove When, due to Z axis size adjustable of two tool aprons 7 with respect to knife rest 6, two tool aprons 7 can be lifted to the adjustment of Z axis positive direction, it is single Solely make a tool apron 7 in running order；And when opening three bar grooves if necessary, the Y-axis distance between three tool aprons 7 is adjusted, i.e., Three bar grooves met the size requirements can be processed；And when needing to process four bar grooves, it can first adjust the Y-axis between three tool aprons 7 Distance processes three bar grooves, then lifts two tool aprons 7, and control system control Y-axis component 4 makes knife rest 6 move to suitable position It puts, processes Article 4 slot.And if directly setting four tool aprons 7, the Y-axis distance adjusting mechanism between four tool aprons 7 is very Complexity, manufacture is of high cost, and worker's toolsetting time is long, and machining accuracy is also difficult to ensure that.

In addition, lathe bed 1 includes pedestal 11, waist 12 and table top 13, the both ends difference connect base 11 and platform of waist 12 Face 13, lathe bed 1 are in " work " font.

Component 3 of walking includes guide rail slide block component and rack and pinion assembly.Guide rail slide block component versatility is good, and repair is more It changes conveniently, can directly buy, equipment manufacturing costs are low.Rack and pinion assembly transmission efficiency, large carrying capacity.

As shown in figure 4, guide rail slide block component includes line slideway 31 and linear slider 32, line slideway 31 is fixedly mounted Square both sides, linear slider 32 are sleeved on line slideway 31 on the pedestal 11, and rack 2 is mounted in linear slider 32.

And rack and pinion assembly includes rack 33 and gear 34, rack 33 is fixedly mounted on the both sides of 13 lower section of table top, The teeth portion of rack 33 faces pedestal 11, and gear 34 is rotatably arranged in rack 2, and gear 34 is engaged with rack 33.Using this The structure of sample, can effectively reduce the Y-axis size of equipment, and equipment complete machine structure is compacter.

In the present embodiment, rack 2 is gantry structure, and rack 2 includes two legs 21 and crossbeam 22, two legs 21 One end is fixedly connected with crossbeam 22, and the other end of two legs 21 is fixedly mounted in linear slider 32, is divided on two legs 21 Not She You rotatable transmission shaft 23, gear 34 is fixedly mounted on 23 one end of transmission shaft.It is dynamic by using such as decelerating motor etc. Power apparatus drives transmission shaft 23, can set power set respectively on two transmission shafts 23 to drive two transmission shafts 23 same Step rotates；One power set can also be only set, and by transmission device two transmission shafts 23 is driven to rotate synchronously, such as Transmission device can include shaft and transmission belt, power set drive shaft rotate, two transmission shafts 23 by transmission belt with Shaft connects, and so as to the rotation of shaft two transmission shafts 23 is driven to rotate synchronously.With the rotation of transmission shaft 23, gear 34 also with Rotation, gear 34 engages completion walking with rack 33, and the closing of such structure line of force ensures that lathe fluting is stablized, improves The machining accuracy of slot.

In conclusion such efficient groover, can not only complete the processing of wall scroll slot, one-pass can also be complete simultaneously Into the processing of a plurality of slot, Flexible Equipment is high, while necking tool is easy to adjust, and adjusting machine time is short, and comprehensive process is efficient.

In short, the foregoing is merely illustrative of the preferred embodiments of the present invention, it is not intended to limit the invention, it is all in the present invention Spirit and principle within all any modification, equivalent and improvement made etc., should be included in protection scope of the present invention it It is interior.

Claims (10)

1. a kind of efficient groover, it is characterised in that：Including lathe bed, rack, walking component, Y-axis component, Z axis component and knife Frame, the walking component are arranged between lathe bed and rack, and the Y-axis component level is fixed in rack, and the Z axis component erects It is directly arranged on Y-axis component, the knife rest is fixedly mounted on Z axis component；Set along Y-axis that there are three knives on the knife rest side by side Seat, apart from adjustable, one of tool apron is fixedly mounted on knife rest for Y-axis between three tool aprons；Three knives Seat in two of which tool apron with respect to knife rest Z axis size adjustable.

2. efficient groover described in accordance with the claim 1, it is characterised in that：The intermediate tool apron of three tool aprons is with respect to knife rest Y-axis size constancy, between the other two tool apron and knife rest be equipped with adjustment component.

3. efficient groover described in accordance with the claim 2, it is characterised in that：The adjustment component includes dovetail guide, dovetail Slide unit and adjustment screw, the dovetail guide are fixedly mounted on knife rest, and the dovetail slide unit is slidably mounted on dovetail guide On, the adjustment screw is rotatably arranged on dovetail guide, and one end and the dovetail slide unit of the adjustment screw are spirally connected, described The other end of adjustment screw is equipped with adjustment handwheel.

4. efficient groover described in accordance with the claim 3, it is characterised in that：The two of the Z axis size adjustable of the opposite knife rest A tool apron includes fixed tool apron and movable tool apron, the fixed tool apron are fixedly connected with knife rest, and the activity tool apron is mounted on On fixed tool apron.

5. according to the efficient groover described in claim 4, it is characterised in that：One end of the activity tool apron and fixed tool apron one End is hinged, and overturning structure is equipped between the other end and fixed tool apron of the activity tool apron.

6. according to the efficient groover described in claim 1-5 any one, it is characterised in that：The lathe bed includes pedestal, waist Portion and table top, the both ends difference connect base and table top of the waist, the lathe bed is in " work " font.

7. according to the efficient groover described in claim 6, it is characterised in that：It is described walking component include guide rail slide block component with And rack and pinion assembly.

8. according to the efficient groover described in claim 7, it is characterised in that：The guide rail slide block component include line slideway with And linear slider, the line slideway are fixedly mounted on the both sides above pedestal, the linear slider is sleeved on line slideway, The rack is mounted in linear slider.

9. according to the efficient groover described in claim 8, it is characterised in that：The rack and pinion assembly includes rack and tooth Wheel, the rack are fixedly mounted on the both sides below table top, and in face of pedestal, the gear is rotationally set the teeth portion of the rack It puts in rack, the wheel and rack engagement.

10. according to the efficient groover described in claim 9, it is characterised in that：The rack be gantry structure, the rack bag Two legs and crossbeam are included, one end of described two legs is fixedly connected with crossbeam, and the other end of described two legs is fixed In linear slider, rotatable transmission shaft is respectively equipped on described two legs, the gear is fixedly mounted on transmission Axis one end.