CN205463779U - Numerical control bender - Google Patents

Abstract

The utility model relates to a numerical control bender belongs to the bending apparatus technical field who manages. It has solved the low problem poor with work efficiency of bending precision that prior art exists. (1)The utility model comprises a base (1), workstation, rotation mechanism, servo motor and controller, the rotation mechanism who is provided with the pivot is located between base and the workstation, and rotation mechanism control workstation remains unchanged along the rotatory position of rest who guarantees tubular product of base, servo motor and controller are fixed in the workstation inner wall respectively, and servo motor links to each other with the action part of workstation top, and the workstation outer wall is provided with control panel and display lamp, and the controller links to each other with rotation mechanism, servo motor, control panel and display lamp respectively. The utility model discloses an adopting worktable rotation and numerical control system, having realized that the position of rest of tubular product remains unchanged, the operation is very convenient, and working space has been practiced thrift in the great improvement of work efficiency. The utility model discloses can extensively apply to metal tubular product bends and closes with industrial area.

Description

Numerical control bender

Technical field

This utility model relates to numerical control bender, belongs to the bending apparatus technical field of pipe.

Background technology

Current hydraulic bending press is mainly the bending being realized tubing by the cooperation of drivewheel and driven pulley, with the characteristic that it is exclusive Welcome by market.But, the function singleness of hydraulic bending press and have the disadvantage that (1) existing hydraulic bending press exists In using, the control accuracy of tubing is low, undesirable thus repeat bending after there is tubing bending, causes manpower and time Wasting phenomenon；(2) workbench is fixing, and staff's motility on the table is poor, it is impossible to for the mobile side of tubing To being operated the adjustment that platform is overall, cause work efficiency low.

Utility model content

The purpose of this utility model is the drawbacks described above overcoming existing hydraulic bending press to exist, it is proposed that a kind of numerical control bender, Use worktable rotary and digital control system, it is achieved that the original position of tubing keeps constant, and easy to operate, work efficiency is big Big raising, has saved work space.

This utility model is to use following technical scheme to realize: a kind of numerical control bender, including base, workbench, revolution Mechanism, servomotor and controller, be provided with the slew gear of rotating shaft between base and workbench, and slew gear controls work Station rotates along base and ensures that the original position of tubing keeps constant；Servomotor and controller are individually fixed in workbench inwall, Servomotor is connected with the action component above workbench, and workbench outer wall is provided with control panel and display lamp, and controller is respectively It is connected with slew gear, servomotor, control panel and display lamp.

Further, servomotor includes servomotor I and servomotor II, and action component includes driven pulley and drivewheel, watches Taking motor I to be connected with drivewheel, servomotor II is connected with driven pulley by leading screw.

Further, the rotating shaft two ends of slew gear are respectively arranged in the center of gravity of base and workbench.In the course of the work, always Keep the balance of center of gravity, prevent crooked.

Further, base is rectangle frame, and the bottom of rectangle frame is provided with orientation and universal dual-purpose takes turns.Moved by universal being easy to Dynamic, it is easy to work by orientation.

Further, workbench is 0-360 ° along the anglec of rotation of base.

Further, the program that the rotary speed of workbench sets according to controller determines.Rotary speed is according to the bending journey of tubing Degree determines.

Further, controller uses digital control system.Digital control system is provided with according to the program set by different tubing, permissible Tubing is carried out bending in various degree.

The beneficial effects of the utility model are:

(1) numerical control bender described in the utility model, controls the rotation of workbench by slew gear, it is achieved that rising of tubing Beginning invariant position, in the course of the work, it is to avoid tubing, because the personnel that bending brings run back and forth, saves manpower；

(2) numerical control bender described in the utility model, is provided with digital control system and servomotor, for the bending degree of tubing Accurately control, avoid in the course of the work and manually proofread precision, drastically increase work efficiency and product quality.

Accompanying drawing explanation

Fig. 1 is external view of the present utility model.

Fig. 2 is interior views of the present utility model.

In figure: 1 base；2 workbench；3 servomotors I；4 driven pulleys；5 drivewheels；6 servomotors II；7 leading screws； 8 slew gears；9 grooves；10 guide rails；11 tubing；12 dual-purpose take turns；13 control panels；14 display lamps；15 controllers.

Detailed description of the invention

The utility model is described in further detail below in conjunction with the accompanying drawings.

As shown in Figure 1 to Figure 2, numerical control bender described in the utility model, including base 1, workbench 2, slew gear 8, Servomotor and controller 15, be provided with the slew gear 8 of rotating shaft between base 1 and workbench 2, and slew gear 8 is controlled Workbench 2 processed rotates along base 1 and ensures that the original position of tubing 11 keeps constant.Servomotor and controller 15 are fixed respectively In workbench 2 inwall, servomotor is connected with the action component above workbench 2, and workbench 2 outer wall is provided with control panel 13 and display lamp 14, controller 15 is connected with slew gear 8, servomotor, control panel 13 and display lamp 14 respectively.

Servomotor includes servomotor I 3 and servomotor II 6, and action component includes driven pulley 4 and drivewheel 5, servo electricity Machine I 3 is connected with drivewheel 5, and servomotor II 6 is connected with driven pulley 4 by leading screw 7.The rotating shaft two ends of slew gear 8 are divided It is not installed on base 1 and the center of gravity of workbench 2.In the course of the work, base 1 and workbench 2 are always maintained at the balance of center of gravity, Prevent crooked.Base 1 is rectangle frame, and the bottom of rectangle frame is provided with orientation and universal dual-purpose takes turns 12.Moved by universal being easy to Dynamic, it is easy to work by orientation.Workbench 2 is 0-360 ° along the anglec of rotation of base 1.The rotary speed root of workbench 2 The program set according to controller 15 determines.Rotary speed determines according to the bending degree of tubing 11.Controller 15 uses numerical control system System.Digital control system is provided with according to the program set by different tubing 11 materials, can carry out tubing 11 in various degree Bending.

In real work, because tubing 11 is longer, tubing 11 part is positioned at ground, and another part is positioned on workbench 2 , there is the most inconsistent situation, bending can be caused error occur in side.In order to avoid the problems referred to above occur, need staff Original position at tubing 11 is lifted, and remains uniform height by lifting guarantee tubing 11 in Forging Process.And In prior art, workbench 2 is fixed, and tubing 11 needs bending, causes the original position of tubing 11 to change always, thus compels Making the staff lifting tubing 11 run the most back and forth, waste of manpower, work efficiency is low.

According to the principle of relative motion, substitute the movement of staff by using workbench 2 to rotate, thus ensure staff As long as the original position standing in tubing 11 is motionless, save manpower.

Conventionally, as the bending degree of tubing 11 is drawn with constantly experiment by artificial calculating, lose time. And because the degree of bending cannot be precisely controlled, causing in practical work process, staff still cannot avoid moving Dynamic.In order to solve the problems referred to above, the controller 15 within workbench 2 being replaced to digital control system, the general PLC of employing controls system System.By digital control system, can realize being precisely controlled to the bending of tubing 11, then the rotation of cooperating platform 2, finally realize Tubing 11 original position keeps constant.

Work process is as follows:

Staff is positioned at side of the present utility model, lifts tubing 11 and stretches into the drivewheel 5 above workbench 2 and driven pulley 4 Between.Starting this utility model, controller 15 controls servomotor I 3 and drives drivewheel 5 to rotate, and servomotor II 6 passes through Leading screw 7 drives driven pulley 4 along guide rail 10 near drivewheel 5, thus completes the bending to tubing 11；In tubing 11 bending Meanwhile, by controller 15, it is achieved the motion of the slew gear 8 between base 1 and workbench 2, thus workbench 2 is promoted Carrying out corresponding angle rotation, the angle of rotation is controlled according to the program being previously set.The effect being finally reached is, work Make personnel the most motionless, and tubing 11 can rotate by Edge Bend workbench 2 at any time.Therefore, this utility model operation ten It is convenient to divide, and work efficiency is greatly improved, and the space taken during work is smaller, has saved work space.

In addition, two drivewheels 5 and driven pulley 4 being both provided with place the groove 9 of tubing 11, groove 9 is spill swallow Stern notch, "T"-shaped groove, circular trough, rhombus groove, bevel edge groove or elliptical slot.By different grooves 9, can be directed to not Same tubing 11.Base 1 lower end is provided with orientation and universal dual-purpose dual-purpose takes turns 12.When needs work when, take turns dual-purpose 12 are oriented, and when needs are mobile when, open universal pattern.

This utility model uses workbench 2 to rotate and digital control system, it is achieved that the original position of tubing 11 keeps constant.

Certainly, foregoing is only preferred embodiment of the present utility model, it is impossible to be considered for limiting reality of the present utility model Execute example scope.This utility model is also not limited to the example above, and those skilled in the art are of the present utility model Impartial change and the improvement etc. made in essential scope, all should belong in patent covering scope of the present utility model.

Claims (7)

1. a numerical control bender, it is characterised in that: include base (1), workbench (2), slew gear (8), servo electricity Machine and controller (15), the slew gear (8) being provided with rotating shaft is positioned between base (1) and workbench (2), turn-around machine Structure (8) controls workbench (2) and ensures that the original position of tubing (11) keeps constant along base (1) rotation；Servomotor and Controller (15) is individually fixed in workbench (2) inwall, and servomotor is connected with the action component of workbench (2) top, Workbench (2) outer wall is provided with control panel (13) and display lamp (14), controller (15) respectively with slew gear (8), Servomotor, control panel (13) are connected with display lamp (14).

Numerical control bender the most according to claim 1, it is characterised in that: servomotor include servomotor I (3) and Servomotor II (6), action component includes driven pulley (4) and drivewheel (5), servomotor I (3) and drivewheel (5) Being connected, servomotor II (6) is connected with driven pulley (4) by leading screw (7).

Numerical control bender the most according to claim 1, it is characterised in that: the rotating shaft two ends of slew gear (8) are pacified respectively It is loaded on base (1) and the center of gravity of workbench (2).

Numerical control bender the most according to claim 1, it is characterised in that: base (1) is rectangle frame, the end of rectangle frame Portion is provided with orientation and universal dual-purpose takes turns (12).

Numerical control bender the most according to claim 1, it is characterised in that: workbench (2) is along the anglec of rotation of base (1) Degree is for 0-360 °.

Numerical control bender the most according to claim 1 or 5, it is characterised in that: the rotary speed of workbench (2) according to The program that controller (15) sets determines.

Numerical control bender the most according to claim 6, it is characterised in that: controller (15) uses digital control system.