CN105479123A - Tool for machining box and machining technology of tool - Google Patents

Abstract

The invention discloses a tool for machining a box. The tool comprises a stand column arranged on a rotary working table of a horizontal machining center, a box tool body I and a box tool body II. The box tool body I and the box tool body II are symmetrically arranged on the two sides of the stand column. According to the box tool body I, positioning is carried out through a positioning mechanism I with the B face and the M face of a workpiece as machining standards, and the N face, the L face and the Q face of the workpiece are tightly pressed through a clamping mechanism I for fixing. According to the box tool body II, positioning is carried out in the mode that a positioning mechanism II is matched with a J hole and a K hole in the workpiece, and the M face of the workpiece is tightly pressed by a clamping mechanism II for fixing. A box machining technology in which the tool is used includes the steps that the workpiece is installed on the box tool body I and the box tool body II in sequence, a required tool is installed in a tool magazine in advance, a machining program is compiled in advance, and then a machine is started to machine the workpiece. According to the tool and the technology, box machining can be completed only through two times of clamping, the machining technology is simplified, machining quality is guaranteed, the labor intensity of an operator is reduced, and machining efficiency is improved.

Description

A kind of casing processing tool and processing technology thereof

Technical field

The present invention relates to mechanical cool-working technology field, particularly relate to a kind of casing processing tool and processing technology thereof.

Background technology

In traditional manufacture, because complex-shaped box parts often needs multiple cutter to process different planes and hole (as shown in figures 1-8) on different lathe, former processing technology is: bore hole, boring plane, boring; Milling flat, boring, tapping, this processing technology at least needs three equipment and three operators, and this kind of process not only exists that clamping times is many, the problem of long processing time, inconvenient operation, and machining accuracy is not high, production efficiency is low.

Machining center is then the typical products of electromechanical integration, can be described as the most perfect modern unit.It embodies the elementary cell of flexible automation, realizes the carrier of advanced manufacturing technology, can automatic tool changer, greatly reduces workpiece handling and clamping times, shorten non-cutting time, improve precision, efficiency and automaticity further, reduce the cost.For this situation, simultaneously for the process characteristics of machining box part on brill, milling, boring class machining center, have studied box parts machining process route and frock used thereof, solve such complicated casing and have enough to meet the need processing between different lathe, the present situation that production process clamping times is many, efficiency is lower.

Summary of the invention

Technical problem to be solved by this invention is to provide a kind of casing processing tool and processing technology thereof, can simplified processing process, ensures crudy, reduces the labour intensity of operating personnel, improves working (machining) efficiency.

For solving the problems of the technologies described above, the technical solution used in the present invention is:

A kind of casing processing tool, comprise the column be arranged on horizontal Machining centers rotary table, tool for case body I and tool for case body II, described tool for case body I and tool for case body II is symmetricly set on column both sides, described tool for case body I comprises detent mechanism I and clamp system I, by detent mechanism I with workpiece B face and M face for machining benchmark positions, be fixed by the N face of clamp system I workpiece pressing, L face and Q face; Tool for case body II comprises detent mechanism II and clamp system II, to be coordinated and positions, be fixed by the M face of clamp system II workpiece pressing by detent mechanism II with the J hole on workpiece and K hole.

Preferably, described detent mechanism I comprises horizontal location post and vertical locating dowel, and described horizontal location post is four and is square to be fixed on rotary table, and described vertical locating dowel is three and is triangular in shapely arranged on column; Described clamp system I comprises horizontal direction clamping part, vertical direction clamping part and front side clamping part I.

Preferably, described horizontal direction clamping part comprises the left push rod and right push rod that are oppositely arranged, and left push rod and right push rod are horizontally set on bearing, and described bearing is fixed on column, and described left push rod and right push rod and bearing are threaded engagement; Described front side clamping part I is three covers, include pressure plates I and check lock lever I, check lock lever I end and nut screw connection, described pressure plates I to be applied on check lock lever I and can to rotate around check lock lever I, a check lock lever I is fixed on top board, and another two check lock lever I to be fixed on column and to be separately positioned on below two bearings.

Preferably, described detent mechanism II comprises positioning core axle and lower positioning core axle, and upper positioning core axle and lower positioning core axle are all vertically arranged on support, and upper positioning core axle and lower positioning core axle coordinate with the J hole on workpiece and K hole respectively and position; Described clamp system II comprises the identical front side clamping part II of upper and lower two nested structures, front side clamping part II comprises pressure plates II and check lock lever II, check lock lever II end and nut screw connection, described pressure plates II to be applied on check lock lever II and can to rotate around check lock lever II, and two check lock lever II are separately fixed at support side.

Preferably, described support is L-type, and support is fixed on column, another side is horizontally disposed with, and two L-type support are corresponding, opposing to be up and down arranged on column, and support level limit is provided with the through hole coordinated with positioning core axle.

Preferably, three vertical locating dowels are triangular in shape to be arranged on riser, and described riser is fixed on column, and the bearing of described horizontal direction clamping part is all arranged on riser.

Preferably, all vacancy sections on described riser, described vacancy section and workpiece A* facial contour match.

Preferably, described upper positioning core axle top is provided with handle, and described handle is circular.

The invention still further relates to a kind of casing processing technology, comprise the following steps:

(1) on the rotary table of horizontal Machining centers, install tool for case body I and tool for case body II, tool for case body I and tool for case body II is symmetricly set on the column in the middle part of rotary table; Required cutter is installed in advance in tool magazine, and good procedure prepared in advance on the control panel;

(2) Workpiece fixing is pressed on tool for case body I, rough mills the A datum level of workpiece, G datum level, E datum level;

(3) the H hole on the A face of borer part, A* face, G face and E face, I hole, J hole and K hole is distinguished, and the inner each shoulder hole in each hole;

(4) the A face of finish-milling workpiece, G face and E face, and chamfering is carried out to the aperture on A face, G face and E face;

(5) inclined hole F place plane on finish-milling workpiece;

(6) periphery hole in K hole and F hole on the periphery hole in J hole, E face on the periphery hole in H hole, G face on drill workpiece A face;

(7) workpiece is unloaded from tool for case body I, be installed on tool for case body II, workpiece is located on tool for case body II and compresses;

(8) the A* face of thick finish-milling workpiece, B face and B* face;

(9) on drill workpiece B* face, on each hole, A* face, on the periphery hole in I hole and B face each hole;

(10) chamfering is carried out to the aperture in I hole on workpiece A* face;

Each hole on (11) drill workpiece M face.

The beneficial effect adopting technique scheme to produce is: the cabinet workpiece of machining shape complexity on horizontal Machining centers, the tool for case body I on rotary table and tool for case body II can be utilized to be fixed by workpiece, successively each machined surface and each hole are processed, only need twice clamping can complete casing processing.Processing work on this multiple functional horizontal Machining centers, it integrates milling, drilling, ream, boring, tapping and chasing, be conducive to the position accuracy demand ensureing each working position, decrease the clamping times of workpiece simultaneously, save a large amount of special and universal toolings, save the floor space taken; In addition, also can reduce the non-cutting time of workpiece loading and unloading, eliminate the position error brought because of multiple clamping, make it have kinds of processes means, improve machining accuracy, in processing, decrease the number of turnover and transport amount, and consequently reduce operator, reduce production cost.

Accompanying drawing explanation

Fig. 1 is the front view of casing;

Fig. 2 is the left view of Fig. 1;

Fig. 3 is the right view of Fig. 1;

Fig. 4 is the A-A sectional view in Fig. 1;

Fig. 5 is the B-B sectional view in Fig. 2;

Fig. 6 is the C-C sectional view in Fig. 2;

Fig. 7 is the D-D sectional view in Fig. 6;

Fig. 8 is the top and bottom perspective views of Fig. 3;

Fig. 9 is the front view of the embodiment of the present invention;

Figure 10 is the S direction view of Fig. 9;

Figure 11 is the T direction view of Fig. 9;

In figure: 1-rotary table, 2-tool for case body I, 3-tool for case body II, 4-column, 5-detent mechanism I, 7-detent mechanism II, 8-clamp system II, 9-horizontal location post, the vertical locating dowel of 10-, 11-handle, 12-vertical direction clamping part, clamping part I on front side of 13-, the left push rod of 14-, the right push rod of 15-, 16-bearing, 17-top board, 18-screw rod, 19-pressure plates I, the upper positioning core axle of 20-check lock lever I, 21-, 22-support, clamping part II on front side of 23-, 24-pressure plates II, 25-check lock lever II, 26-riser, 27-vacancy section, positioning core axle under 28-.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

A kind of casing processing tool as described in Fig. 9,10,11, comprise the column 4 be arranged on horizontal Machining centers rotary table 1, tool for case body I2 and tool for case body II3, described tool for case body I2 and tool for case body II3 is symmetricly set on column 4 both sides, described tool for case body I2 comprises detent mechanism I5 and clamp system I, by detent mechanism I5 with workpiece B face and M face for machining benchmark positions, be fixed by the N face of clamp system I workpiece pressing, L face and Q face; Tool for case body II3 comprises detent mechanism II7 and clamp system II8, to be coordinated and positions, be fixed by the M face of clamp system II8 workpiece pressing by detent mechanism II7 with the J hole on workpiece and K hole.

Wherein, described detent mechanism I5 comprises horizontal location post 9 and vertical locating dowel 10, and described horizontal location post 9 is four and is square to be fixed on rotary table 1, and described vertical locating dowel 10 is three and is triangular in shapely arranged on column 4; Described clamp system I comprises horizontal direction clamping part, vertical direction clamping part 12 and front side clamping part I13.Three vertical locating dowels 10 are triangular in shape to be arranged on riser 26, and described riser 26 is fixed on column 4, and the bearing 16 of described horizontal direction clamping part 11 is all arranged on riser 26.

In order to reduce frock overall weight, all vacancy sections 27 on riser 26, described vacancy section 27 and workpiece A* facial contour match, can be by when installing workpiece.

Described horizontal direction clamping part comprises the left push rod 14 and right push rod 15 that are oppositely arranged, and left push rod 14 and right push rod 15 are horizontally set on bearing 16, and described bearing 16 is fixed on column 4, and described left push rod 14 and right push rod 15 are threaded engagement with bearing 16; Described vertical direction clamping part 12 comprises the horizontal top 17 be vertically fixed on column 4 and the screw rod 18 vertically running through top board 17; Described front side clamping part I13 is three covers, include pressure plates I 19 and check lock lever I20, check lock lever I20 end and nut screw connection, described pressure plates I 19 to be applied on check lock lever I20 and can to rotate around check lock lever I20, a check lock lever I20 is fixed on top board 17, and another two check lock lever I20 to be fixed on column 4 and to be separately positioned on below two bearings 16.

Described detent mechanism II7 comprises positioning core axle 21 and lower positioning core axle 28, upper positioning core axle 21 and lower positioning core axle 28 are all vertically arranged on support 22, upper positioning core axle 21 and lower positioning core axle 28 coordinate with the J hole on workpiece and K hole respectively and position, the conveniently upper positioning core axle 21 of handling, be provided with handle 11 at its top, described handle 11 is circular; Described clamp system II8 comprises the identical front side clamping part II23 of upper and lower two nested structures, front side clamping part II23 comprises pressure plates II 24 and check lock lever II25, check lock lever II25 end and nut screw connection, described pressure plates II 24 to be applied on check lock lever II25 and can to rotate around check lock lever II25, and two check lock lever II25 are separately fixed at support 22 side.Described support 22 is L-type, and support 22 is fixed on column 4, another side is horizontally disposed with, and two L-type support about 22 are corresponding, opposing to be arranged on column 4, and support 22 horizontal sides is provided with the through hole coordinated with positioning core axle 21.

Processing A face, E face, G face and upper each hole time, by trade union college on tool for case body I2, B face, horizontal location post 9 pairs of lower ends, vertically locating dowel 10 pairs of workpiece M faces are utilized to carry out centering location, left push rod 14 and two sides, right push rod 15 pairs of workpiece left and right is utilized to be fixed, the top screw rod 18 running through top board 17 is locked, workpiece front end face then to coordinate with check lock lever I20 with nut up and down and pressure plates I 19 is fixed, and then processes it according to the program finished; Then unloaded by workpiece, then be arranged on tool for case body II3, front side then to coordinate with check lock lever II25 with nut pressure plates II 24 is pressed on upper and lower position on front side of workpiece, then processes workpiece A* face, B face, B* face and M face according to the program finished.

Utilize the casing processing technology of above-mentioned casing processing tool, comprise the following steps:

(1) on the rotary table 1 of horizontal Machining centers, install tool for case body I2 and tool for case body II3, tool for case body I2 and tool for case body II3 is symmetricly set on the column 4 in the middle part of rotary table 1; Required cutter is installed in advance in tool magazine, and good procedure prepared in advance on the control panel;

(2) be pressed on tool for case body I2 by Workpiece fixing, rough mill the A datum level of workpiece, then rotary table 1 turns clockwise 90 ° and rough mills G datum level, rotary table 1 is rotated counterclockwise 180 ° again and rough mills E datum level;

(3) according to the H hole in program respectively the A face of borer part, A* face, G face and E face, I hole, J hole and K hole, and the inner each shoulder hole in each hole;

(4) the A face of finish-milling workpiece, G face and E face, and chamfering is carried out to the aperture on A face, G face and E face;

(5) inclined hole F place plane on finish-milling workpiece;

(6) periphery hole in K hole and F hole on the periphery hole in J hole, E face on the periphery hole in H hole, G face on drill workpiece A face;

(7) workpiece is unloaded from tool for case body I2, be installed on tool for case body II3, workpiece is located on tool for case body II3 and compresses;

(8) the A* face of thick finish-milling workpiece, B face and B* face;

(9) on drill workpiece B* face, on each hole, A* face, on the periphery hole in I hole and B face each hole;

(10) chamfering is carried out to the aperture in I hole on workpiece A* face;

Each hole on (11) drill workpiece M face.

In sum, invention has simplified processing process, guarantee crudy, reduces the labour intensity of operating personnel, improves the advantage of working (machining) efficiency.The cabinet workpiece of machining shape complexity on horizontal Machining centers, can utilize the tool for case body I on rotary table and tool for case body II to be fixed by workpiece, process successively to each machined surface and each hole, only needs twice clamping can complete casing processing.Processing work on this multiple functional horizontal Machining centers, it integrates milling, drilling, ream, boring, tapping and chasing, be conducive to the position accuracy demand ensureing each working position, decrease the clamping times of workpiece simultaneously, save a large amount of special and universal toolings, save the floor space taken; In addition, also can reduce the non-cutting time of workpiece loading and unloading, eliminate the position error brought because of multiple clamping, make it have kinds of processes means, improve machining accuracy, in processing, decrease the number of turnover and transport amount, and consequently reduce operator, reduce production cost.

Claims (9)

1. a casing processing tool, it is characterized in that: comprise the column (4) be arranged on horizontal Machining centers rotary table (1), tool for case body I (2) and tool for case body II (3), described tool for case body I (2) and tool for case body II (3) are symmetricly set on column (4) both sides, described tool for case body I (2) comprises detent mechanism I (5) and clamp system I, by detent mechanism I (5) with workpiece B face and M face for machining benchmark positions, be fixed by the N face of clamp system I workpiece pressing, L face and Q face; Tool for case body II (3) comprises detent mechanism II (7) and clamp system II (8), to be coordinated with the J hole on workpiece and K hole by detent mechanism II (7) and position, be fixed by the M face of clamp system II (8) workpiece pressing.

2. casing processing tool according to claim 1, it is characterized in that: described detent mechanism I (5) comprises horizontal location post (9) and vertical locating dowel (10), described horizontal location post (9) is four and is square to be fixed on rotary table (1), and described vertical locating dowel (10) is three and is triangular in shapely arranged on column (4); Described clamp system I comprises horizontal direction clamping part, vertical direction clamping part (12) and front side clamping part I (13).

3. casing processing tool according to claim 2, it is characterized in that: described horizontal direction clamping part comprises the left push rod (14) and right push rod (15) that are oppositely arranged, left push rod (14) and right push rod (15) are horizontally set on bearing (16), described bearing (16) is fixed on column (4), and described left push rod (14) and right push rod (15) are threaded engagement with bearing (16); Described vertical direction clamping part (12) comprises the horizontal top (17) be vertically fixed on column (4) and the screw rod (18) vertically running through top board (17); Described front side clamping part I (13) is three covers, include pressure plates I (19) and check lock lever I (20), check lock lever I (20) end and nut screw connection, described pressure plates I (19) is applied in check lock lever I (20) and goes up and can rotate around check lock lever I (20), a check lock lever I (20) is fixed on top board (17), and another two check lock lever I (20) are fixed on column (4) and go up and be separately positioned on two bearings (16) belows.

4. casing processing tool according to claim 1, it is characterized in that: described detent mechanism II (7) comprises positioning core axle (21) and lower positioning core axle (28), upper positioning core axle (21) and lower positioning core axle (28) are all vertically arranged on support (22), and upper positioning core axle (21) and lower positioning core axle (28) coordinate with the J hole on workpiece and K hole respectively and position; Described clamp system II (8) comprises identical front side clamping part II (23) of upper and lower two nested structures, front side clamping part II (23) comprises pressure plates II (24) and check lock lever II (25), check lock lever II (25) end and nut screw connection, described pressure plates II (24) is applied in check lock lever II (25) and goes up and can rotate around check lock lever II (25), and two check lock lever II (25) are separately fixed at support (22) side.

5. casing processing tool according to claim 4, it is characterized in that: described support (22) is L-type, support (22) is while be fixed on that column (4) is upper, another side is horizontally disposed with, two L-type support (22) are corresponding, opposing to be up and down arranged on column (4), and support (22) horizontal sides is provided with the through hole coordinated with positioning core axle (21).

6. casing processing tool according to claim 3, it is characterized in that: three vertical locating dowels (10) are triangular in shape to be arranged on riser (26), described riser (26) is fixed on column (4), and the bearing (16) of described horizontal direction clamping part is all arranged on riser (26).

7. casing processing tool according to claim 6, is characterized in that: the upper all vacancy sections (27) of described riser (26), described vacancy section (27) and workpiece A* facial contour match.

8. casing processing tool according to claim 4, is characterized in that: described upper positioning core axle (21) top is provided with handle (11), and described handle (11) is for circular.

9. the casing processing technology of casing processing tool according to above-mentioned arbitrary claim, is characterized in that, comprise the following steps:

(1) be symmetricly set on the column (4) at rotary table (1) middle part at upper tool for case body I (2) and tool for case body II (3), tool for case body I (2) and tool for case body II (3) installed of the rotary table (1) of horizontal Machining centers; Required cutter is installed in advance in tool magazine, and good procedure prepared in advance on the control panel;

(2) Workpiece fixing is pressed on tool for case body I (2), rough mills the A datum level of workpiece, G datum level, E datum level;

(3) the H hole on the A face of borer part, A* face, G face and E face, I hole, J hole and K hole is distinguished, and the inner each shoulder hole in each hole;

(4) the A face of finish-milling workpiece, G face and E face, and chamfering is carried out to the aperture on A face, G face and E face;

(5) inclined hole F place plane on finish-milling workpiece;

(6) periphery hole in K hole and F hole on the periphery hole in J hole, E face on the periphery hole in H hole, G face on drill workpiece A face;

(7) workpiece is unloaded from tool for case body I (2), be installed on tool for case body II (3), workpiece is above located at tool for case body II (3) and compressed;

(8) the A* face of thick finish-milling workpiece, B face and B* face;

(9) on drill workpiece B* face, on each hole, A* face, on the periphery hole in I hole and B face each hole;

(10) chamfering is carried out to the aperture in I hole on workpiece A* face;

Each hole on (11) drill workpiece M face.