CN108705326A - Numerical control drilling-milling center - Google Patents

Abstract

The invention discloses a kind of numerical control drilling-milling centers, it includes：Lathe bed, X on lathe bed is to slide plate, Y-direction slide plate and Z-direction slide plate, the X is respectively equipped with rack-and-pinion on slide plate, Y-direction slide plate and Z-direction slide plate, lead screw is connected to the motor by shaft coupling, drive lead screw and rack-and-pinion movement to drive X to the movement of slide plate, Y-direction slide plate and Z-direction slide plate from motor, it further includes：Roll-over table is mounted on lathe by roll-over table, the switching mechanism and benchmark block mechanism for being located at roll-over table both ends, and roll-over table is equipped with optical axis, and the equipment configuration is simple, stable and reliable in work, solves the problems, such as the inefficiency of existing manual small equipment in the industry.

Description

Numerical control drilling-milling center

Technical field

It is specifically a kind of for processing aluminium the present invention relates to industrial aluminum profile field of deep, door and window curtain wall manufacture field The numerical control drilling-milling center of proximate matter.

Background technology

Aluminium alloy is most widely used one kind non-ferrous metal structural material in industry, in Aeronautics and Astronautics, automobile, machinery It has been widely applied in manufacture, ship and chemical industry.The rapid development of industrial economy, the demand to aluminium alloy cutting processing is increasingly Increase, the cutting research enabled aluminum alloy to is also goed deep into therewith.

In the prior art, for the Milling Process of small size proximate matter in industry, the degree of automation is low, in a manual manner for It is main, due to the particularity of the industry, obtain that required precision is relatively low, and existing main problem is for milling：Meeting the industry Under the premise of interior Product Precision requires, the device efficiency of manual mode processing is low.

Invention content

Goal of the invention：In order to solve the deficiencies in the prior art, the present invention provides a kind of numerical control drilling-milling centers, with full-automatic Processing method replace original manual processing mode, improve production efficiency, reduce cost of labor.

Technical solution：In order to achieve the goal above, a kind of numerical control drilling-milling center of the present invention, it includes：Lathe bed, peace To slide plate, Y-direction slide plate and Z-direction slide plate, the X is respectively equipped with X on lathe bed on slide plate, Y-direction slide plate and Z-direction slide plate Rack-and-pinion, lead screw are connected to the motor by shaft coupling, drive lead screw and rack-and-pinion movement to drive X to cunning from motor The movement of plate, Y-direction slide plate and Z-direction slide plate, it further includes：Roll-over table is located at the switching mechanism and benchmark block at roll-over table both ends Roll-over table is mounted on lathe by mechanism, and roll-over table is equipped with optical axis, and the optical axis is equipped with fixture.

As present invention further optimization, the switching mechanism includes：Drive cylinder, link block, connecting rod, rotation branch Bracer A, mechanical position limitation block and angle locating piece, the rotational supporting block are set in the end of roll-over table, and angle locating piece is solid Be scheduled on the lower section of roll-over table, one end of connecting rod is connected across angle locating piece with rotational supporting block, the other end by link block with Cylinders, the top of link block and the lower section of angle locating piece are driven to be equipped with mechanical position limitation block.

As present invention further optimization, the benchmark block mechanism includes：Positioning plate, positioning cylinder, axis pin, zero Detent mechanism is spent, rotational supporting block B, benchmark frame, V-type face and horizontal location cylinder, the rotational supporting block B are set in overturning The piston rod of the end of platform, positioning cylinder is connected across benchmark frame with positioning plate, is threaded through the axis pin and zero degree of roll-over table bottom V-type face on detent mechanism is tangent, and horizontal location cylinder is mounted on the lower section of zero degree detent mechanism, and V-type has in face of pin from right Middle function, when cylinder and all tangent two inclined-planes, the cylinder end face center of circle is always on the angular bisector of V-type, to real The horizontal location of existing roll-over table.

As present invention further optimization, the lathe is equipped with the side that protective cover is located at roll-over table, by device Workspace demarcate, it is ensured that the safety of operating personnel.

As present invention further optimization, the rotational supporting block A is connected with roll-over table.

As present invention further optimization, the rotational supporting block B is connected with roll-over table, when the upper surface of proximate matter adds After the completion of work, rotary turning platform, the proximate matter being fixedly mounted on roll-over table is rotated, to make the surface of unprocessed proximate matter just In being cut and processed.

As present invention further optimization, the fixture realizes the folder to proximate matter by the stretching motion of clamping cylinder Tightly and loosen.

Advantageous effect：A kind of numerical control drilling-milling center of the present invention, compared with prior art, the equipment configuration is simple, It is stable and reliable in work, solve the problems, such as the inefficiency of existing manual small equipment in the industry.

Description of the drawings

Fig. 1 is the structural diagram of the present invention；

Fig. 2 is the partial view that proximate matter is installed on roll-over table；

Fig. 3 is the partial view of switching mechanism.

Specific implementation mode

In the following with reference to the drawings and specific embodiments, the present invention is furture elucidated.

As shown in Figure 1, a kind of numerical control drilling-milling center of the present invention, it includes：Lathe bed 1, optical axis 2, fixture 3, overturning Mechanism 4, benchmark block mechanism 5, X is to slide plate 6, Y-direction slide plate 7, Z-direction slide plate 8, protective cover 9 and electrical control cabinet.

The rack-and-pinion that X is respectively equipped on slide plate 6, Y-direction slide plate 7 and Z-direction slide plate 8, lead screw pass through shaft coupling and motor It is connected, drives lead screw and rack-and-pinion movement to drive X to the movement of slide plate 6, Y-direction slide plate 7 and Z-direction slide plate 8 by motor, Cutting tool installation manner is in the lower section of Z-direction slide plate 8, and X is to the movable basis that slide plate 6 is Y-direction slide plate 7 and Z-direction slide plate 8, and X is to slide plate 6 itself Movement realize that the X of cutter is moved in a straight line to movement, Y-direction slide plate 7 and Z-direction slide plate 8 on its respective direction, wherein Z-direction The spindle motor loaded on slide plate 8 realizes the processing to proximate matter 10 with cutter, by the way that X is arranged to slide plate 6,7 and of Y-direction slide plate Z-direction slide plate 8 realizes cutting and processing of the cutter to all angles of proximate matter 10, electrical control cabinet by three-dimensional software control X to Cutting and processing to proximate matter 10, electrical control cabinet and PLC circuit phase are realized in the movement of slide plate 6, Y-direction slide plate 7, Z-direction slide plate 8 Even, the time of the movement and the stopping that controlling each cylinder is realized.

Roll-over table 11 is mounted on lathe 1 by switching mechanism 4 and benchmark block mechanism 5 positioned at 11 both ends of roll-over table, is turned over Turntable 11 is equipped with fixture 3, by the way that based on the gripping range limit for meeting processing profile size, nothing needs to change fixture 3 Main element, including the required size for clamping proximate matter 10 is covered；Each clamping position of fixture 3 is equipped with Indivudual cylinder, passes through folder The stretching motion of tight cylinder 31 is realized clamping to proximate matter 10 and is loosened.

Embodiment

Step 1: starting the power switch on electrical control cabinet, PLC circuit controls X and is slided to slide plate 6, Y-direction slide plate 7 and Z-direction Plate 8 returns to initial position, and selection is cut and the Cutting tool installation manner of processing is in the tool-holder below Z-direction slide plate 8, will by operating personnel Proximate matter 10 is placed into the fixture 3 on optical axis 2；

Step 2: pressing the start button on electrical control cabinet, clamping cylinder 31 is started to work, and clamping cylinder 31 is passed through The clamping to proximate matter 10, when cylinder 31 to be clamped reaches limit value to the pressure of proximate matter 10, benchmark block mechanism 5 are realized in movement Positioning cylinder 52 is started to work, and the end that positioning plate 51 stretches out and resists proximate matter 10 is controlled by positioning cylinder 52, at this point, being threaded through The axis pin 53 of 11 bottom of roll-over table and the V-type face 57 on zero degree detent mechanism 54 are tangent, and there is from centering work(axis pin 53 in V-type face 57 Can, when two inclined-planes of axis pin 53 and V-type face 57 are all tangent, the 53 end face center of circle of axis pin is always in the V-type in V-type face 57 On angular bisector, to realize the horizontal location of roll-over table 11, if roll-over table 11 at this time not on horizontal position, is mounted on zero When the horizontal location cylinder 58 spent on detent mechanism 54 not up to stretches out setting position, sensor on horizontal location cylinder 58 without The alarm lamp of signal, equipment lights；

Step 3: after proximate matter 10 is stepped up, PLC circuit controls positioning cylinder 52 and retracts, to make positioning plate 51 retract, After positioning plate 51 is retracted, PLC circuit controls protective cover 9 and rises, and limits working region；

Step 4: after waiting for that protective cover 9 rises, PLC circuit sends out signal, after electrical control cabinet receives, according to advance The numerical control software set controls cutting and processing of movement realizations of the X to slide plate 6, Y-direction slide plate 7, Z-direction slide plate 8 to proximate matter 10；

Step 5: waiting for the one side of proximate matter after processing is completed, PLC circuit receives signal, and driving cylinder 41 is started to work, driving Cylinder 41 stretches out, and connecting rod 43 is gradually rotated to the stretching direction of driving cylinder 41, and rotational supporting block A44 turns together with connecting rod 43 When dynamic, fixture 3 on roll-over table 11 and being followed by the proximate matter 10 that fixture 3 clamps rotates together, when connecting rod 43 rotates When to defined position, drawback movement is done in the piston rod contraction of driving cylinder 41,90 ° of angle locating pieces 46 of roll-over table 11 at this time With 45 dieback of mechanical position limitation part, driving cylinder 41 continues output pressure and is positioned to it, it is ensured that the stabilization in process Property, after the completion of positioning, PLC circuit sends out signal to electrical control cabinet, and X is controlled to slide plate according to pre-set three-dimensional software 6, the movement realization of Y-direction slide plate 7, Z-direction slide plate 8 is cut and is processed to another surface of proximate matter 10；

Step 6: after waiting for that proximate matter 10 has been processed, PLC circuit controls X to slide plate 6, Y-direction slide plate 7 and Z-direction slide plate 8 Initial position is returned to, clamping cylinder 31, which is started to work, realizes loosening to proximate matter 10, and protective cover 9 declines, and operating personnel take out The proximate matter 10 machined.

The technical concepts and features of the above embodiment only to illustrate the invention, the purpose is to allow be familiar with the technical field Technical staff cans understand the content of the present invention and implement it accordingly, and can not limited the scope of the invention with this.All The equivalent changes or modifications made according to spirit of the invention, should be covered by the protection scope of the present invention.

Claims (7)

1. a kind of numerical control drilling-milling center, it includes：Lathe bed (1) is mounted on the X on lathe bed (1) to slide plate (6), Y-direction slide plate (7) With Z-direction slide plate (8), the X is respectively equipped with rack-and-pinion on slide plate (6), Y-direction slide plate (7) and Z-direction slide plate (8), and lead screw is logical It crosses shaft coupling to be connected to the motor, drives lead screw and rack-and-pinion movement to drive X to slide plate (6), Y-direction slide plate (7) from motor With the movement of Z-direction slide plate (8), it is characterised in that：It further includes：Roll-over table (11) is located at the tipper at roll-over table (11) both ends Roll-over table (11) is mounted on lathe (1) by structure (4) and benchmark block mechanism (5), and roll-over table (11) is equipped with optical axis (2), institute The optical axis (2) stated is equipped with fixture (3).

2. a kind of numerical control drilling-milling center according to claim 1, it is characterised in that：The switching mechanism (4) includes：It drives It takes offence cylinder (41), link block (42), connecting rod (43), rotational supporting block A (44), mechanical position limitation block (45) and angle locating piece (46), the rotational supporting block (44) is set in the end of roll-over table (11), and angle locating piece (46) is fixed on roll-over table (11) one end of lower section, connecting rod (43) is connected across angle locating piece (46) with rotational supporting block (44), and the other end passes through company It connects block (42) with driving cylinder (41) to be connected, the top of link block (42) and the lower section of angle locating piece (46) are equipped with mechanical position limitation Block (45).

3. a kind of numerical control drilling-milling center according to claim 1, it is characterised in that：Benchmark block mechanism (5) packet It includes：Positioning plate (51), positioning cylinder (52), axis pin (53), zero degree detent mechanism (54), rotational supporting block B (55), benchmark frame (56), V-type face (57) and horizontal location cylinder (58), the rotational supporting block B (55) are set in the end of roll-over table (11), The piston rod of positioning cylinder (52) is connected across benchmark frame (56) with positioning plate (51), is threaded through the axis pin of roll-over table (11) bottom (53) tangent with the V-type face (57) on zero degree detent mechanism (54), horizontal location cylinder (58) is mounted on zero degree detent mechanism (54) lower section.

4. a kind of numerical control drilling-milling center according to claim 1, it is characterised in that：The lathe (1) is equipped with protection Cover (9) is located at the side of roll-over table (11).

5. a kind of numerical control drilling-milling center according to claim 2, it is characterised in that：The rotational supporting block A (44) with Roll-over table (11) is connected.

6. a kind of numerical control drilling-milling center according to claim 3, it is characterised in that：The rotational supporting block B (55) with Roll-over table (11) is connected.

7. a kind of numerical control drilling-milling center according to claim 1, it is characterised in that：The fixture (3) is by clamping gas The stretching motion of cylinder (31) is realized clamping to proximate matter (10) and is loosened.