CN203804720U - Straight edge chamfering machine - Google Patents

Abstract

The utility model provides a straight edge chamfering machine. The straight edge chamfering machine comprises a worktable, a guide rail, a driving source, a sliding seat, and at least one power source, wherein the worktable is provided with a front sidewall, a horizontal placement surface is formed at the top of the worktable and a workpiece can be spanned over the placement surface; the guide rail is arranged above the placement surface in the length direction, the bottom of the guide rail faces the front sidewall of the worktable and a flexible driving belt is arranged on the guide rail; the driving source is mounted on the guide rail and used for driving the driving belt into back-and-forth reciprocating motion in the length direction of the guide rail; the sliding seat is suspended under the guide rail, connected with the driving belt and driven by the driving belt to displace; the at least one power source is used for driving an edge grinding wheel to rotate and the edge grinding wheel is used for grinding the edge of the workpiece. The straight edge chamfering machine is convenient for an operator to quickly move the workpiece to be aligned and positioned or leave the placement surface in a push manner, and has the advantages of labor saving, convenient operation and accurate machining.

Description

A kind of straight flange beveler

Technical field

The utility model relates to a kind of straight flange beveler of glass plate, and particularly a kind of glass plate workpiece level is placed on workbench, and edging wheel moves a side of this workpiece to be ground to the straight flange beveler of chamfering along guide rail.

Background technology

The glass plate that prior art provides has certain size according to field of employment; and there is suitable weight; owing to can hurting human body and there is danger in four water chestnut limits of glass board material; conventionally can grind at the Zhe angle of its surrounding; to process contra bevel or arc surface; prevent sharp-pointed water caltrop incised wound user, therefore need to the outer side edges of this glass plate, carry out edging by straight flange beveler.And the glass plate straight flange beveler of tradition is that one fixedly body seat is vertical on the ground, body is provided with at least two rollers and and grinds abrasive band, this two grindings roller common coil is provided with the grinding abrasive band of an annular, wherein a roller is driving wheel, another roller is follower, this driving wheel is subject to the driving of a motor to produce rotation, and drives this grindings abrasive band to rotate, and operator must operate a side that glass plate makes this glass plate and contact this grinding wheel and carry out attrition process and go out a chamfering.Two of the glass plate straight flange beveler that the prior art provides grinds roller for being hubbed on body, and this grinds abrasive band is around this second wheel, and workpiece must be abutted against this grinding abrasive band of rotation by operating personnel's operation, grind out chamfering.What infered is, glass plate workpiece has different sizes, if weight is very large when glass plate workpiece is large-scale, cause operator will extremely require great effort and cautious moving, to grind abrasive band by pasting this, thereby suitable effort while causing operator to carry, and time-consuming bothersome and do not conform to economic benefit, be difficult for again controlling the precision that glass plate workpiece and grinding wheel grind.

Utility model content

The utility model provides a kind of straight flange beveler, the grinding abrasive band of the glass straight edge beveler providing with solution prior art is installed on body, operating personnel need operate glass plate workpiece contact abrasive sand band and carry out chamfering, feel to waste time and energy and the uppity defect of precision.

To achieve these goals, the utility model provides following technical scheme:

A straight flange beveler, comprising:

Workbench, has a front side wall, and the top of this workbench has a placement surface of level, and this placement surface is for bridging a workpiece;

Guide rail, is arranged on the top of this placement surface with its length direction, the front side wall of the bottom faces of this guide rail to workbench, is provided with flexible rotating band on this guide rail;

Drive source, is installed on this guide rail and drives this rotating band, and this rotating band is moved back and forth along the length direction of this guide rail;

Sliding seat, is suspended in this guide rail below, and this sliding seat is connected with this rotating band and is subject to this rotating band drive displacement;

And at least one power source, driving edging wheel rotation, this edging wheel carries out edging to this workpiece.

Preferably, this workbench is provided with and can moves up and down and the lifter plate of level, and this lifter plate is lower than this placement surface and be pivoted with the roller that plural number can rotate freely.

Preferably, this workbench is rectangle, there is the front side wall and the rear wall that are parallel to each other, and have respectively with this front side wall, rear wall and be a vertical left side wall, a right side wall, this workbench is longitudinal, lateral cross is provided with a plurality of grids region, respectively in this grid region, establish this lifter plate, this lifter plate of plural number is synchronous to rise and declines, this roller with this lifter plate rise exceed this placement surface and under be reduced to this placement surface.

Preferably, the front side wall of this workbench plural prelocalization part that is pivoted, described prelocalization part is movable on this front side wall to be rotated up and exceeds this placement surface as a side of keeping out this workpiece, and can be rotated down to be positioned at the below of this placement surface.

Preferably, the right side wall of this workbench is pivoted with a flap, this flap and this prelocalization part synchronous rotary and exceed this placement surface and for another side of this workpiece, lean and be positioned at the below of this placement surface.

Preferably, this sliding seat is provided with two power sources, and these two power sources drive respectively this edging wheel rotation of different axis directions, with different angles, a side of this glass plate are carried out to chamfer grinding simultaneously.

Preferably, this guide pass is to being arranged with the sensing element that is electrically connected to this power source of plural number on a bottom surface of this workbench, with this location of workpiece of sensing element and control this power source startup rotating.

Preferably, the left and right sidewall of this workbench is respectively established a foot rest, and this guide rail connects this two foot rests.

Preferably, this guide rail is established a suspension rod, and this suspension rod has the first end with this guide rail pivot joint, the second end pivot joint one sensor of this suspension rod, and this sensor cover arranges this workbench.

By implementing above technical scheme, there is following technique effect: the straight flange beveler that the utility model provides, with handled easily person, with this working substance of way of propelling fast moving, aim at location or leave this placement surface, there is laborsaving good operation and precision machining.

Accompanying drawing explanation

One stereogram (the first operating state) of the straight flange beveler that Figure 1A provides for the utility model;

Figure 1B is the part enlarged drawing of Figure 1A;

Another stereogram (the second operating state) of the straight flange beveler that Fig. 2 provides for the utility model.

A: workpiece; A1: the front side edge of workpiece; A2: the right edge of workpiece; 10: workbench; 101: foot rest; 11: the front side wall of workbench; 111: prelocalization part; 12: the rear wall of workbench; 13: the left side wall of workbench; 14: the right side wall of workbench; 141: flap; 15: the placement surface of workbench; 16: lifter plate; 17: roller; 18: grid region; 19: feet; 20: guide rail; 21: rotating band; 22: sensing element; 23: suspension rod; 231: the first end of suspension rod; 232: the second end of suspension rod; 233: sensor; 24: the front face of guide rail; 30: drive source; 40: sliding seat; 50a, the first power source; 50b: the second power source; 51a, the first edging wheel 51b: the second edging wheel.

The specific embodiment

In order better to understand the technical solution of the utility model, below in conjunction with accompanying drawing, describe the embodiment that the utility model provides in detail.

The utility model embodiment provides a kind of straight flange beveler, as shown in Figure 1A, Figure 1B and Fig. 2, comprising: a workbench 10, a guide rail 20, a drive source 30, a sliding seat 40 and at least one power source 50.This workbench 10 has a front side wall 11 for rectangle, one rear wall 12 of this front side wall 11 of one opposing parallel and with this front side wall 11, the vertical left side wall 13 of rear wall 12 difference, one right side wall 14, the top of this workbench 10 has a placement surface 15 of level, this placement surface 15 is for bridging a workpiece a, this workpiece a can be a glass plate, this workbench 10 is provided with, at least one lifter plate 16 of lower movement and level, this lifter plate 16 is also provided with the roller 17 that plural number can rotate freely, this workbench 10 is longitudinal in the present embodiment, lateral cross is provided with a plurality of grids region 18, respectively in this grid region 18, establish this lifter plate 16, those lifter plates 16 are synchronous to rise and declines, this roller 17 with these lifter plate 16 rise and fall, can exceed this placement surface 15 or lower than this placement surface 15, the bottom of this workbench 10 has plural feet 19, so that this workbench 10 is erected at the top on ground and has quite height apart from ground.

Plural prelocalization part 111 is established in these workbench 10 outsides, those prelocalization parts 111 are hubbed on the front side wall 11 of this workbench 10 with respect to this guide rail 20, the movable rotation of those prelocalization parts 111 to upper at this front side wall 11, and exceed this placement surface 15 as keeping out a side (as front side edge a1) of this workpiece a, and can be positioned at the below of this placement surface 15 downwards.The right side wall 14 of this workbench 10 is pivoted with a flap 141, this flap 141 upwards exceeds this placement surface 15 with these prelocalization part 111 synchronous movement rotations, to resist another side (as right edge a2) of this workpiece a and to select to be positioned at the below of this placement surface 15 downwards.

A left side for this workbench 10, right side respectively establish directly to a foot rest 101, this guide rail 20 laterally connects this bipod 101, this guide rail 20 and with its length direction position above this placement surface 15, this guide rail 20 has a relative initiating terminal 25, one clearing end 26 and with this front side wall 11 front face 24 in the same way, this front face 24 is established a flexual rotating band 21, this rotating band 21 is a chain, the bottom surface that this guide rail 20 is faced this workbench 10 is arranged with the sensing elements 22 of plural number and 30 electric connections of this drive source, to detect the position of this workpiece a and to control this drive source 30, start rotating and drive, this rotating band 21 is moving back and forth, this guide rail 20 is also provided with a suspension rod 23, this suspension rod 23 has first end 231 and one second end 232 with 20 pivot joints of this guide rail, these the second end 232 pivot joint one sensors 233, this sensor 233 is in the face of this workbench 10 is to detect this workpiece a.

This drive source 30 can be a stepper motor, is installed on this guide rail 20 and with this rotating band 21 and is connected and drives this rotating band 21, and this rotating band 21 is moved back and forth along the length direction of this guide rail 20.

This sliding seat 40, is suspended in this guide rail 20 belows, and this sliding seat 40 is connected with this rotating band 21, makes this sliding seat 40 along the length direction slippage back and forth of this guide rail 20.

This first power source 50a is a motor, drive an edging wheel 51a rotation, this sliding seat 40 is provided with the first power source 50a, the second power source 50b in the present embodiment, the first power source 50a, the second power source 50b drive respectively the first edging wheel 51a, the second edging wheel 51b of different axis directions, and each carries out chamfer grinding to a side of this workpiece a with different angles the first edging wheel 51a, the second edging wheel 51b simultaneously.

During operation, first start this two power source 50a, 50b rotation, operator can be by workpiece a horizontal on the placement surface 15 of workbench 10, when this lifting face 16 rises, on those rollers 17 are synchronous, move to such an extent that contact with the bottom surface of workpiece a, this working substance a ejects this placement surface 15 by roller 17, and roller 17 freewheels turn and can pass fast adjustment locality, the front side edge a1 of workpiece a is propped up by those prelocalization parts 111, the right edge a2 of this workpiece a is also subject to this flap 141 to resist location, when workpiece, a is placed in precalculated position, this prelocalization part 111 is activated with these flap 141 acceptable signals and rotates and be positioned at the below of this placement surface 15, this workpiece a is flat on placement surface 15 again, then, this driving wheel 30 starts this rotating band 21 of drive, this rotating band 21 drives this sliding seat 40 again, from this initiating terminal 25, toward these clearing end 26 directions, slided, the sensing member 22 of this guide rail 20 also predicts the extension position that this workpiece a treats side a1 before chamfering, controlling this sliding seat 40 coordinates this workpiece a to want the front side edge a1 length of chamfering, towards these clearing end 26 displacement strokes, make this first edging wheel 51a, the second edging wheel 51b carries out attrition process to this workpiece a and goes out chamfering, after completing, this sliding seat 40 can be return original position, those lifter plates 16 receive the bottom surface that signal rises and drives this roller 17 to rise and withstand this workpiece a, handled easily person is with way of propelling fast moving this workpiece a and leave this placement surface 15.Like this, this workpiece a can level be seated on this placement surface 15, and the side that this first edging wheel 51a, the second edging wheel 51b can aim at this workpiece a grinds chamfering, has advantages of laborsaving and is beneficial to the workpiece rapid processing chamfering of different areas.

A kind of straight flange beveler above the utility model embodiment being provided is described in detail, for one of ordinary skill in the art, thought according to the utility model embodiment, all will change in specific embodiments and applications, in sum, this description should not be construed as restriction of the present utility model.

Claims (9)

1. a straight flange beveler, is characterized in that, comprising:

Workbench, has a front side wall, and the top of this workbench has a placement surface of level, and this placement surface is for bridging a workpiece;

Guide rail, is arranged on the top of this placement surface with its length direction, the front side wall of the bottom faces of this guide rail to workbench, is provided with flexible rotating band on this guide rail;

Drive source, is installed on this guide rail and drives this rotating band, and this rotating band is moved back and forth along the length direction of this guide rail;

Sliding seat, is suspended in this guide rail below, and this sliding seat is connected with this rotating band and is subject to this rotating band drive displacement;

And at least one power source, driving edging wheel rotation, this edging wheel carries out edging to this workpiece.

2. straight flange beveler as claimed in claim 1, is characterized in that, this workbench is provided with and can moves up and down and the lifter plate of level, and this lifter plate is lower than this placement surface and be pivoted with the roller that plural number can rotate freely.

3. straight flange beveler as claimed in claim 2, it is characterized in that, this workbench is rectangle, there is the front side wall and the rear wall that are parallel to each other, and have respectively with this front side wall, rear wall and be a vertical left side wall, a right side wall, this workbench is longitudinally, lateral cross is provided with a plurality of grids region, respectively in this grid region, establishes this lifter plate, this lifter plate of plural number is synchronous to rise and declines, this roller with this lifter plate rise exceed this placement surface and under be reduced to this placement surface.

4. straight flange beveler as claimed in claim 1, it is characterized in that, the front side wall of this workbench plural prelocalization part that is pivoted, described prelocalization part is movable on this front side wall to be rotated up and exceeds this placement surface as a side of keeping out this workpiece, and can be rotated down to be positioned at the below of this placement surface.

5. straight flange beveler as claimed in claim 4, is characterized in that, the right side wall of this workbench is pivoted with a flap, this flap and this prelocalization part synchronous rotary and exceed this placement surface and for another side of this workpiece, lean and be positioned at the below of this placement surface.

6. straight flange beveler as claimed in claim 2, is characterized in that, this sliding seat is provided with two power sources, and these two power sources drive respectively this edging wheel rotation of different axis directions, with different angles, a side of this glass plate are carried out to chamfer grinding simultaneously.

7. straight flange beveler as claimed in claim 1, is characterized in that, this guide pass is to being arranged with the sensing element that is electrically connected to this power source of plural number on a bottom surface of this workbench, with this location of workpiece of sensing element and control this power source startup rotating.

8. straight flange beveler as claimed in claim 1, is characterized in that, the left and right sidewall of this workbench is respectively established a foot rest, and this guide rail connects this two foot rests.

9. straight flange beveler as claimed in claim 1, is characterized in that, this guide rail is established a suspension rod, and this suspension rod has the first end with this guide rail pivot joint, the second end pivot joint one sensor of this suspension rod, and this sensor cover arranges this workbench.