CN204892637U - Tubular product bending control system based on terminal size control - Google Patents

Abstract

The utility model discloses a tubular product bending control system based on terminal size control, including the base, locate tubular product profiling on the base, perpendicular base setting the centre form, be used for tubular product bending processing rotary die, be used for rotary die drive arrangement, be used for detecting the position encoder of the rotatory position of rotary die and be used for the laser rangefinder sensor that tubular product kick -backs and detect, rotary die uses the center pin of centre form to make rotary motion as the pivot. The utility model provides a tubular product at the bending in -process, have plastic deformation and elastic deformation and result in the not high technical problem of tubular product bending precision, it is terminal through the laser rangefinder sensor to the tubular product real -time detection that kick -backs to take shape at tubular product to it is shaping step by step according to the testing result, realize the high accuracy processing of the shaping resulting dimension of tubular product.

Description

Based on the tube bending forming control system that tip dimensions controls

Technical field

The utility model relates to a kind of tube bending forming control system controlled based on tip dimensions, belongs to tubular object extruding technical field.

Background technology

Forming tubular product processes the feature such as product structure lightweight, process low-consumption high-efficiency that is content with very little, therefore being widely applied in Aero-Space, electric power connection, high-rating generator, boats and ships, field of petrochemical industry. the manufacturing process of tubing is varied, and totally can be divided into has contour forming and mouldless shaping.Having contour forming to adopt rigid die to directly act on, that the bending deformation area of tubing carries out is bending, and mouldless shaping refers generally to the direct effect that bending deformation area is not subject to rigid die, the final shape of tubing by the relative motion of instrument and workpiece determine bending.

Because tubing is in bending forming process, there is plastic deformation and elastic deformation.In tube-forming processes, springback control is the principal element affecting forming tubular product precision, for improving bending precision, caning be passed through after lot of experiments draws data utilizes the shape and size of adjustment rigid die working portion to compensate the rear resilience occurred of tubing unloading, but lot of experiments takes time and effort.

On September 19th, 2012 discloses the Chinese patent that a name is called " a kind of tubing heat forming equipment " in patent database, its application number is: 201210140059.1, this utility model mainly solves the low and tubing of tubing thermo shaping method forming efficiency and to be shaped in the process transferring to mould unstable problem, carry out formed machining after tubing heating and not only can obviously improve its forming property, reduce tubing shaping after resilience, and can greatly reduce its be shaped required for load.But this manufacturing process reduces the stiffness of tubing, limit its range of application.

In prior art, the research of forming tubular product technology comprises: the multiple methods such as forming tubular product mechanism, forming technology are predicted or estimate resilience, realize the high accuracy formed machining of tubing.

Document " tubing space go for a stroll springback compensation technique study ", in (-2011 years-29 volume-5 phases-811 ~ 815 of Northwestern Polytechnical University's journal), for the resilience after bending pipes unloading, utilizes numerical value springback Prediction method, improves bend pipe geometric accuracy.Document " Analysis on Mechanism that tube bending is shaped " is in (-2013 years-5 phases-98 ~ 102 of Guangdong shipbuilding), to improve bending pipes precision for starting point, use the principle of elastic-plastic deformation, analyze produce in tubing rotary-drawing tube bending process resilience, extend phenomenon, and derive the approximate formula of the elongation after bending pipes, springback capacity.In document " rectangular tube crooked experiment and finite element simulation " (-2014 years 4 phases-105 ~ 107 of mechanicnl manufacture and automation), finite element software is utilized to analyze bending pipes process, the debug time of effective minimizing CNC tube bending machine and test number (TN), improve the shaping quality of tubing.But because tubing uniformity there are differences, the high accuracy that said method is all difficult to reach tubing is shaped, and affects following process, installation is made troubles.

Utility model content

The purpose of this utility model is to overcome deficiency of the prior art, a kind of tube bending forming control system controlled based on tip dimensions is provided, to solve in prior art tubing in bending forming process, there is plastic deformation and elastic deformation causes the technical problem that tube bending forming precision is not high.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is: based on tip dimensions control tube bending forming control system, comprise base, the tubing pattern be located on base, vertical feet arrange internal mold, for bending pipes processing revolving die, for the drive unit of revolving die, for detecting the position coder of revolving die position of rotation and the laser range sensor for tubing checking spring range; Described revolving die with the central shaft of internal mold for rotating shaft rotates;

The preset clearance passed for tubing is provided with between described tubing pattern and internal mold;

Described position coder, laser range sensor, drive unit are connected with computer respectively, computer controls revolving die by drive unit and rotates, the revolving die anglec of rotation is detected by position coder, the actual range of laser range sensor by constantly detecting, between feedback laser distance measuring sensor and tubing, realizes tube bending forming closed-loop control.

Preferably, the measuring surface of the measurement axis of described laser range sensor and the tubing after machining is perpendicular.

Preferably, described computer is also connected with the touch-screen for man-machine interaction.

Preferably, described position coder, drive unit are connected with computer communication by CAN address card.

Compared with prior art, the beneficial effect that the utility model reaches is: control system adopts single axial movement to control forming tubular product to be divided into two stages, tubing resilience is detected in real time by laser range sensor at forming tubular product end, and according to testing result progressive molding, realize the high accuracy processing of forming tubular product final size.

Accompanying drawing explanation

Fig. 1 is the structural representation of the tube bending forming control system based on tip dimensions control that the utility model provides.

Fig. 2 is the tube bending forming control system process structural representation controlled based on tip dimensions that the utility model provides.

Fig. 3 is that the tube bending forming control system based on tip dimensions control that the utility model provides processes final shaped structure schematic diagram.

In figure: 1, base; 2, internal mold; 3, tubing pattern; 4, revolving die; 5, tubing; 6, laser range sensor.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is further described.Following examples only for clearly the technical solution of the utility model being described, and can not limit protection domain of the present utility model with this.

As shown in Figure 1, be the utility model provide based on tip dimensions control tubing 5 bending forming control system, comprise base 1, the tubing pattern 3 be located on base 1, vertical feet 1 arrange internal mold 2, the revolving die 4 for tubing 5 bending machining, the drive unit for revolving die 4, for detecting the position coder of revolving die 4 position of rotation and the laser range sensor 6 for tubing 5 checking spring range.

When laser range sensor 6 is installed, the measuring surface of measurement axes normal after tubing 5 machines of laser range sensor 6 should be ensured, simultaneously should as far as possible near tubing 5 end, to improve certainty of measurement.

Revolving die 4 with the central shaft of internal mold 2 for rotating shaft rotates.

Be provided with the preset clearance passed for tubing 5 between tubing pattern 3 and internal mold 2, preset clearance realizes adjustment by changing tubing pattern 3 position, processes with the tubing 5 adapting to different in width.

Position coder, laser range sensor 6, drive unit are connected with computer respectively, computer controls revolving die 4 by drive unit and rotates, revolving die 4 anglec of rotation is detected by position coder, the actual range of laser range sensor 6 by constantly detecting, between feedback laser distance measuring sensor 6 and tubing 5, realizes the closed-loop control of tubing 5 bending forming.

The measuring surface of the measurement axis of laser range sensor 6 and the tubing 5 after machining is perpendicular.

Computer is also connected with the touch-screen for man-machine interaction, realizes process operation, instruction machine process and duty display etc.

Position coder, drive unit are connected with computer communication by CAN address card, and CAN address card comprises CAN interface, is arranged in the slot of computer.Preliminary shaping phase, computer is by the CAN interface load position encoder measurement on CAN address card, carry out position correction computing, and position correction operation result is sent to drive unit by the CAN interface on CAN address card, drive unit drives revolving die 4 to rotate to target location.Shape the stage progressive, computer reads the measured value of laser range sensor 6, and rotates according to this measured value control revolving die 4.

Tubing 5 bending forming method controlled based on tip dimensions adopts above-mentioned control system to complete, and it comprises preliminary shaping phase and progressively shapes the stage.

Preliminary shaping phase is: by driving revolving die 4, coordinates internal mold 2 to extrude, makes tubing 5 bend preliminarily forming; Progressively shape the stage and be: by the actual range after laser range sensor 6 repeated measurement tubing 5 preliminarily forming between tubing 5 end and laser range sensor 6, compared with the target range of computer settings, in conjunction with self regulation coefficient of tubing 5, calculate tubing 5 machining angle, adopt the mode of progressive processing to realize the closed-loop control of tubing 5 bending forming.Specific as follows:

As shown in Figure 2, preliminary shaping phase comprises the steps:

Step 101: adjustment tubing pattern 3, spacing between revolving die 4 and internal mold 2, be installed on pattern, between revolving die 4 and internal mold 2 by tubing 5 to be processed;

Step 102: by tubing 5 ideal forming angle θ _maxbe divided into n equal portions; N meets:

Step 103: computer is with θ _i=i × θ _max/ n as angle on target, wherein: i ∈ (1,2 ..., n), control revolving die 4 by drive unit and rotate, and keep 0.5 ~ 2 second in target location, make tubing 5 that plastic deformation occur; As i=n, show that revolving die 4 turns to θ _maxangle, completes tubing 5 preliminarily forming.

As shown in Figure 3, progressively shape the stage and comprise the steps:

Step 201: after establishing tubing 5 to shape completely, the target range between tubing 5 end and laser range sensor 6 is L1, and the angle that now revolving die 4 rotates is θ _max;

Step 202: rotate backward revolving die 4, if rotational angle is θ _x, θ _x∈ (5 ° ~ 15 °), makes tubing 5 fully discharge elastic deformation, and in Fig. 3, dotted line is the recoil position after tubing 5 discharges.

Step 203: tubing 5 again detects the distance between tubing 5 end and laser range sensor 6 with laser range sensor 6, is set to L2, and ask for Δ L=L after fully discharging elastic deformation ₂-L ₁;

Step 204: again drive revolving die 4, make revolving die 4 rotate forward θ _y, θ _yask for by following formula:

θ _y＝K×ΔL+θ _y-1

Wherein: y ∈ (1,2...); θ ₀=θ _max; K is regulation coefficient, its unit degree of being/millimeter, K value size affects tubing 5 shaping and reaches final forming dimension speed, it is comparatively large that K value is got, then forming speed is fast, but excessive, tubing 5 then can be caused to cross be shaped and cannot recover, the tubing of different model is due to its rebound characteristics difference, and generally get different value, identical value got by model tubing of the same race.

Step 205: repeat step 202 ~ 204, asymptotics forming dimension L1, until Δ L≤δ, δ are the maximum deviation that tubing 5 shapes permission, completes that tubing 5 is progressive to be shaped.

Tubing 5 is shaped and is divided into two stages, detected in real time by the resilience of laser range sensor 6 pairs of tubing 5 at tubing 5 forming end, and according to testing result progressive molding, realize tubing 5 and to be shaped the high accuracy processing of final size.

The above is only preferred embodiment of the present utility model; should be understood that; for those skilled in the art; under the prerequisite not departing from the utility model know-why; can also make some improvement and distortion, these improve and distortion also should be considered as protection domain of the present utility model.

Claims (4)

1. based on the tube bending forming control system that tip dimensions controls, it is characterized in that, comprise base, the tubing pattern be located on base, vertical feet arrange internal mold, for bending pipes processing revolving die, for the drive unit of revolving die, for detecting the position coder of revolving die position of rotation and the laser range sensor for tubing checking spring range; Described revolving die with the central shaft of internal mold for rotating shaft rotates;

The preset clearance passed for tubing is provided with between described tubing pattern and internal mold;

Described position coder, laser range sensor, drive unit are connected with computer respectively, computer controls revolving die by drive unit and rotates, the revolving die anglec of rotation is detected by position coder, the actual range of laser range sensor by constantly detecting, between feedback laser distance measuring sensor and tubing, realizes tube bending forming closed-loop control.

2. the tube bending forming control system controlled based on tip dimensions according to claim 1, is characterized in that, the measuring surface of the measurement axis of described laser range sensor and the tubing after machining is perpendicular.

3. the tube bending forming control system controlled based on tip dimensions according to claim 1, is characterized in that, described computer is also connected with the touch-screen for man-machine interaction.

4. the tube bending forming control system controlled based on tip dimensions according to claim 1, is characterized in that, described position coder, drive unit are connected with computer communication by CAN address card.