CN203221239U - Numerical control slotting machine for adjustable spanner groove - Google Patents

Abstract

The utility model relates to a numerical control slotting machine for an adjustable spanner groove. The numerical control slotting machine is structurally characterized in that a ram is connected with an inclined guide rail of a machine body and moves back and forth; a worktable is connected with a vertical guide rail of the machine body and moves vertically, and a lifting system is installed below the worktable; and in the lifting system, a bearing seat is installed at the bottom of the worktable, a lifting screw is connected with the bearing seat and only rotates relative to the bearing seat, servo motor synchronous belt wheel is connected with a servo motor and a screw synchronous belt wheel is connected with the lifting screw. The numerical control slotting machine overcomes the defects that the control accuracy is very low, the efficiency and the service life of a cutter are influenced and the like because the uplifting distance can only be fixed at several levels or is influenced by hydraulic elements in the existing mechanical and hydraulic control slotting machines. By controlling the rotating direction, the rotating angle and the rotating speed of the lifting screw through a numerical control system, the lifting speed and the lifting distance of the worktable can be set, the control accuracy is high, the commissioning is very convenient to carry out, the processing conversion time is saved and the working efficiency is improved.

Description

Adjustable wrench groove numerical control slotting machine

Technical field

The utility model relates to a kind of mechanical processing machine, particularly adjustable wrench groove numerical control slotting machine.

Background technology

Before the present utility model, the worktable lifting of slotting machine has machinery and two kinds of control modes of hydraulic pressure.Mechanical control method is because being subjected to structural limitations, and its per step climb can only be fixed as several grades; The per step climb of hydraulic control mode can be realized step-less adjustment in theory, but owing to influenced by Hydraulic Elements, its control accuracy is very low; And two kinds of control modes per step climb and decrease speed in process are changeless.For above-mentioned reasons, select optimal processing parameters to be restricted, make machining accuracy, efficient and cutter life all be affected.

Summary of the invention

The purpose of this utility model just is to overcome above-mentioned defective, design adjustable wrench groove numerical control slotting machine.

The technical solution of the utility model is:

Adjustable wrench groove numerical control slotting machine, lathe bed is installed on the base, and its major technique is characterised in that ram is connected with inclined guide rails on the lathe bed, and moves back and forth along this guide rail; Workbench is connected with vertical guide rail on the lathe bed and moves both vertically along this guide rail, and jacking system is installed on the workbench below; In the described jacking system, bearing block is installed in the workbench bottom, elevating screw is relative with the bearing block connection only to rotate, the feed screw nut is connected with nut seat, nut seat is installed on the base, servomotor is installed in workbench inside, and the servomotor synchronous pulley is connected with servomotor, and the screw mandrel synchronous pulley is connected with elevating screw.

Advantage of the present utility model is that direction of rotation, the anglec of rotation and the rotary speed by digital control system control elevating screw can arrange worktable lifting and lifting distance, rising or falling speed, the control accuracy height, and it is very convenient to debug; To the workpiece that each slotting process load does not wait, the climb that can be arranged to not wait reaches lathe and cutter load evenly to change processing capacity, improves the life-span of lathe and cutter; Not pind down by the rate of climb, can obtain maximum decrease speed, save to process and improve work efficiency conversion time.

Other advantages of the present utility model and effect will go on to say below.

Description of drawings

Fig. 1--the utility model structural principle schematic diagram.

Fig. 2--the utility model processing spanner groove schematic diagram.

Each label represents that the corresponding components title is as follows among the figure:

Lathe bed 1, inclined guide rails 1-1, vertical guide rail 1-2, base 2, ram 3, workbench 4, screw mandrel shaft block 5, elevating screw 6, feed screw nut 7, nut seat 8, servomotor synchronous pulley 9, screw mandrel synchronous pulley 10, servomotor 11, slotting tool 12, workpiece 13, anchor clamps 14, cross slid platform 15, governor motion 15-1.

The specific embodiment

As shown in Figure 1 and Figure 2:

Lathe bed 1 is installed on the base 2, and ram 3 is connected with inclined guide rails 1-1 on the lathe bed 1 and moves back and forth along guide rail, and workbench 4 is connected with vertical guide rail 1-2 on the lathe bed 1 and moves along vertical guide rail; Cross slid platform 15 is connected with workbench 4, and governor motion 15-1 is connected with cross slid platform 15, and anchor clamps 14 are installed on the cross slid platform 15; Inclined guide rails 1-1 is positioned at lathe bed 1 top and spends angle for 4 one-tenth 60 with workbench; Vertical guide rail 1-2 is positioned at lathe bed 1 bottom and spends angle for 4 one-tenth 90 with workbench.

Jacking system is made up of screw mandrel shaft block 5, elevating screw 6, feed screw nut 7, nut seat 8, motor synchronous belt wheel 9, screw mandrel synchronous pulley 10, servomotor 11; Bearing block 5 is installed in workbench 4 bottoms, and elevating screw 6 is connected with bearing block 5, and only makes relative rotary motion, and feed screw nut 7 is connected with nut seat 8, and nut seat 8 is installed on the base 2; Servomotor 11 is installed on the inboard boss of workbench 4, is connected with workbench 4 and with its lifting; Servomotor synchronous pulley 9 connects with servomotor 11, and screw mandrel synchronous pulley 10 is connected with elevating screw 6.

Because will process the groove 13-1 on the workpiece 13, its width is 6mm or littler only, slotting tool 12 can't integral body enter in the groove 13-1; Therefore inclined guide rails 1-1 is arranged to and 4 one-tenth 60 degree of workbench angle, to form horizontal slotting, can finishes slotting so that the part of slotting tool 12 enters in the groove 13-1.

The explanation of the utility model application process:

Workpiece 13 is clamped on the anchor clamps 14, by the governor motion 15-1 on the cross slid platform 15 workpiece 13 and slotting tool 12 is aligned, total kilometres and the step distance of workbench 4 is set by numerical control programming;

Start lathe, workpiece 13 progressively rises, and the groove 13-1 on workpiece 13 inserts out, and workbench 4 descends fast, returns original position.

During work, when ram 3 is done once to move back and forth, namely after the slotting, control servomotor 11 rotations one angle, drive servomotor synchronous pulley 9, the same angle of screw mandrel synchronous pulley 10 rotations, screw mandrel synchronous pulley 10 drives the same angle of elevating screw 6 rotations, because feed screw nut 7 is fixing, elevating screw 6 rises and drives workbench 4 rising certain distances by bearing block 5, finishes length feed one time, by control servomotor 11, each anglec of rotation can obtain different length feed amounts, and said process repeatedly is along with workbench 4 progressively rises, groove 13-1 on the workpiece 13 is inserted logical from top to bottom, machines.The rotation of control servomotor 11 high-speed reverse drives workbench 4 and drops to original position fast, finishes the time processing process.

The utility model can be enhanced productivity one times compared to prior art, and the adjustment time shortens.

The scope that the utility model is asked for protection is not limited to description of the present embodiment.

Claims (4)

1. adjustable wrench groove numerical control slotting machine, lathe bed is installed on the base, it is characterized in that ram is connected with inclined guide rails on the lathe bed, and moves back and forth along this guide rail; Workbench is connected with vertical guide rail on the lathe bed and moves both vertically along this guide rail, and jacking system is installed on the workbench below; In the described jacking system, bearing block is installed in the workbench bottom, elevating screw is relative with the bearing block connection only to rotate, the feed screw nut is connected with nut seat, nut seat is installed on the base, servomotor is installed in workbench inside, and the servomotor synchronous pulley is connected with servomotor, and the screw mandrel synchronous pulley is connected with elevating screw.

2. adjustable wrench groove numerical control slotting machine according to claim 1 is characterized in that inclined guide rails is positioned at lathe bed top and becomes 60 to spend angles with workbench.

3. adjustable wrench groove numerical control slotting machine according to claim 1 is characterized in that vertical guide rail is positioned at the lathe bed bottom and becomes 90 to spend angles with workbench.

4. adjustable wrench groove numerical control slotting machine according to claim 1 is characterized in that servomotor on the inboard boss of workbench, is connected with workbench.

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