CN202726470U - Multifunctional machining machine tool for flywheel shell - Google Patents

Abstract

The utility model discloses a multifunctional machining machine tool for a flywheel shell. The multifunctional machining machine tool for the flywheel shell comprises a machine tool body, a sliding table, an end surface milling device, a drilling device, a chamfering device, a tapping device, and an oil window machining device, wherein a linear guide rail is arranged on the machine tool body; the end surface milling device is arranged at a first work station of the sliding table; the drilling device is arranged at a second work station of the sliding table; the chamfering device is arranged at a third work station of the sliding table; the tapping device is arranged at a fourth work station of the sliding table; and the oil window machining device is arranged at a fifth work station of the sliding table and comprises a machining spindle. All machining can be finished by clamping one time; the production efficiency can be effectively improved; and the labor intensity of workers is reduced.

Description

The bell housing Multifunction processing machine tool

Technical field

The utility model relates to a kind of specialized working machine tool of machine of engine fittings.

Background technology

Bell housing is being added man-hour, need to process the first end face second end face of bell housing both sides and screwed hole and oily window,

Prior art adopts horizontal milling machine usually in that the first end face and the second end face are added man-hour, installs frock at the bell housing anchor clamps first.Part in the location on the frock be utilize the location macropore and in advance after the bottom outlet of two screwed holes on macropore place, the location end face carries out articulation processing as dowel hole usefulness, to guarantee the depth of parallelism of the first end face and the second end face.The clamping of part is that the stud increased pressure board is pressed on the frock.Because the allowance of part is larger, and the power of horizontal milling machine only has 7.5KW, need 2 feeds just can finish an end face processing.

And because the first end face and the second end face do not wait to the distance of location macropore, for raising the efficiency, need forward again clamping of another horizontal milling machine to after processing an end face, finish the processing of another end face.

Prior art adds man-hour in double thread hole and oily window, part is installed on the indexable frock first, uses first ZK3050 drilling machine auger shell line bottom outlet, then unload from frock, and chamfering, oily fenestra is bored in tapping again.Finish this operation and will carry out clamped one time, unload work, change cutter No. six times, turn over part twice.In with the tapping of drilling machine process, owing to entirely with workman's sensation, the inadequate mistake of tapping depth often occurs.

By above process processing, part needs multiple clamping and turnover, and labor strength is larger, and production efficiency is lower.

Summary of the invention

Technical problem to be solved in the utility model provides a kind of energy Effective Raise production efficiency, reduces the bell housing Multifunction processing machine tool of labor strength.

For solving the problems of the technologies described above, the technical solution of the utility model is: bell housing comprises with Multifunction processing machine tool: lathe bed, and described lathe bed is provided with line slideway;

Slide unit comprises the guiderail base that cooperates with described line slideway, and the bell housing anchor clamps are installed on the described guiderail base, is provided with leading screw between described lathe bed and the described guiderail base, and described leading screw is connected with servomotor;

The end face milling device, be arranged on the first working position of described slide unit, comprise the boring and milling head outer base that is fixedly mounted on described lathe bed both sides, be slidingly fitted with the boring and milling head outer slide on the described boring and milling head outer base, on the described boring and milling head outer slide boring and milling head outer is installed, be provided with the boring and milling head outer feed arrangement between described boring and milling head outer base and the described boring and milling head outer slide, the two described boring and milling head outer respectively two side ends face with described bell housing are corresponding;

Drilling equipment, be arranged on the second working position of described slide unit, comprise the drilling processing head base that is fixedly mounted on described lathe bed both sides, be slidingly fitted with drilling processing head slide on the described drilling processing head base, on the described drilling processing head slide drilling processing head is installed, be provided with the drilling feed arrangement between described drilling processing head base and the described drilling processing head slide, the two described drilling processing heads respectively screwed hole with the both sides end face of described bell housing are corresponding; Drill jig corresponding to described screwed hole is installed on the described lathe bed;

Facing attachment, be arranged on the 3rd working position of described slide unit, comprise the chamfering working head base that is fixedly mounted on described lathe bed both sides, be slidingly fitted with chamfering working head slide on the described chamfering working head base, on the described chamfering working head slide chamfering working head is installed, be provided with the chamfering feed arrangement between described chamfering working head base and the described chamfering working head slide, the two described chamfering working heads respectively screwed hole with the both sides end face of described bell housing are corresponding;

Chasing bar, be arranged on the 4th working position of described slide unit, comprise the tapping working head base that is fixedly mounted on described lathe bed both sides, be slidingly fitted with tapping working head slide on the described tapping working head base, on the described tapping working head slide tapping working head is installed, be provided with the tapping feed arrangement between described tapping working head base and the described tapping working head slide, the two described tapping working heads respectively screwed hole with the both sides end face of described bell housing are corresponding;

Oil window processing unit (plant) is located at the 5th working position of described slide unit, comprises machining spindle, on the described machining spindle boring and milling cutter is installed.

As preferred technical scheme, described boring and milling head outer feed arrangement comprises the boring and milling feeding hydrocylinder, described boring and milling feeding hydrocylinder is hinged on the described boring and milling head outer base, the end of described boring and milling feeding hydrocylinder piston rod is provided with the adjustment bolt, described boring and milling head outer slide lower surface is provided with positioning seat, described positioning seat is provided with connecting hole, the threaded shank of described adjustment bolt is sleeved in the described connecting hole, the end thread that the threaded shank of described adjustment bolt is stretched out described connecting hole is connected with adjusting nut, and described adjusting nut is adjacent to the side surface at described positioning seat.

As preferred technical scheme, described drilling feed arrangement comprises the driving hydraulic cylinder, described driving hydraulic cylinder is hinged on the described drilling processing head base, be provided with limit pull rod between described drilling processing head base and the described drilling processing head slide, described limit pull rod is provided with two spacing preiections, described drilling processing head base is provided with the limit baffle ring that cooperates with described spacing preiection, and described limit baffle ring is located between the two described spacing preiections; Described chamfering feed arrangement comprises the driving hydraulic cylinder, described driving hydraulic cylinder is hinged on the chamfering working head base, be provided with limit pull rod between chamfering working head base and the chamfering working head slide, described limit pull rod is provided with two spacing preiections, chamfering working head base is provided with the limit baffle ring that cooperates with described spacing preiection, and described limit baffle ring is located between the two described spacing preiections.

As preferred technical scheme, described drilling processing head comprises drill bit, and described drill bit power is connected with the drill bit drive unit; Described chamfering working head comprises rose reamer, and described rose reamer power is connected with the chamfering drive unit.

As preferred technical scheme, described drill bit drive unit comprises motor, and described motor is connected with belt drive unit, and the clutch end of described belt drive unit is connected with gear-box; Described chamfering drive unit comprises motor, and described motor is connected with belt drive unit, and the clutch end of described belt drive unit is connected with gear-box.

As preferred technical scheme, described gear-box comprises the first power shaft and the second power shaft, and described the first input shaft gear is connected with two Cutting tool installation manner axles, and described the second input shaft gear is connected with four Cutting tool installation manner axles.

As preferred technical scheme, described belt drive unit comprises the first drive pulley and the second drive pulley that is located at respectively on the motor output shaft, be respectively equipped with the first driven pulley and the second driven pulley on the first power shaft of described gear-box and described the second power shaft, be provided with the first driving belt between described the first drive pulley and described the first driven pulley, be provided with the second driving belt between described the second drive pulley and described the second driven pulley.

As preferred technical scheme, described tapping working head comprises screw tap, described screw tap power is connected with the tapping drive unit, described tapping drive unit comprises the tapping servomotor, described tapping servomotor is connected with deceleration device, described deceleration device is connected with the tapping gear-box, described deceleration device comprises the deceleration drive pulley that is located on the described tapping servomotor output shaft, be rotatablely equipped with rotating shaft on the described tapping working head slide, one end of described rotating shaft is provided with the deceleration driven pulley that is connected with described deceleration drive pulley belt transmission, the other end of described rotating shaft is provided with the first tapping drive pulley and the second tapping drive pulley, described tapping gear-box is provided with the first tapping power shaft and the second tapping power shaft, described the first tapping power shaft is provided with the first tapping driven pulley, described the second tapping power shaft is provided with the second tapping driven pulley, be provided with the first tapping driving belt between described the first tapping drive pulley and described the first tapping driven pulley, be provided with the second tapping driving belt between described the second tapping drive pulley and described the second tapping driven pulley, described the first tapping input shaft gear is connected with two tapping output shafts that screw tap is installed, and described the second tapping input shaft gear is connected with four tapping output shafts that screw tap is installed.

As preferred technical scheme, be provided with the shock resistance elastic connecting device between the tapping output shaft of described screw tap and described gear-box, described shock resistance elastic connecting device comprises the screw tap mounting rod, described tapping output shaft is provided with sliding tray, one end of described screw tap mounting rod slides in described sliding tray, be provided with guide pad in the described sliding tray, described screw tap mounting rod is provided with the gathering sill corresponding with described guide pad, be installed with the sleeve that is sleeved on described screw tap mounting rod outer surface on the described tapping output shaft, described screw tap mounting rod is set with spring, one end of described spring is resisted against on the described sleeve, the other end of described spring is resisted against on the positioning convex that described screw tap mounting rod is provided with, and is provided with disk spring between the positioning convex on the end face of described tapping output shaft and the described screw tap mounting rod.

As preferred technical scheme, described tapping feed arrangement comprises the feed servo motor, is provided with feed screw between described tapping working head slide and the described tapping working head base, and described feed servo motor power is connected with described feed screw.

Owing to adopted technique scheme, the bell housing Multifunction processing machine tool comprises: lathe bed, and described lathe bed is provided with line slideway; Slide unit comprises the guiderail base that cooperates with described line slideway, and the bell housing anchor clamps are installed on the described guiderail base, is provided with leading screw between described lathe bed and the described guiderail base, and described leading screw is connected with servomotor; The end face milling device, be arranged on the first working position of described slide unit, comprise the boring and milling head outer base that is fixedly mounted on described lathe bed both sides, be slidingly fitted with the boring and milling head outer slide on the described boring and milling head outer base, on the described boring and milling head outer slide boring and milling head outer is installed, be provided with the boring and milling head outer feed arrangement between described boring and milling head outer base and the described boring and milling head outer slide, the two described boring and milling head outer respectively two side ends face with described bell housing are corresponding; Drilling equipment, be arranged on the second working position of described slide unit, comprise the drilling processing head base that is fixedly mounted on described lathe bed both sides, be slidingly fitted with drilling processing head slide on the described drilling processing head base, on the described drilling processing head slide drilling processing head is installed, be provided with the drilling feed arrangement between described drilling processing head base and the described drilling processing head slide, the two described drilling processing heads respectively screwed hole with the both sides end face of described bell housing are corresponding; Drill jig corresponding to described screwed hole is installed on the described lathe bed; Facing attachment, be arranged on the 3rd working position of described slide unit, comprise the chamfering working head base that is fixedly mounted on described lathe bed both sides, be slidingly fitted with chamfering working head slide on the described chamfering working head base, on the described chamfering working head slide chamfering working head is installed, be provided with the chamfering feed arrangement between described chamfering working head base and the described chamfering working head slide, the two described chamfering working heads respectively screwed hole with the both sides end face of described bell housing are corresponding; Chasing bar, be arranged on the 4th working position of described slide unit, comprise the tapping working head base that is fixedly mounted on described lathe bed both sides, be slidingly fitted with tapping working head slide on the described tapping working head base, on the described tapping working head slide tapping working head is installed, be provided with the tapping feed arrangement between described tapping working head base and the described tapping working head slide, the two described tapping working heads respectively screwed hole with the both sides end face of described bell housing are corresponding; Oil window processing unit (plant) is located at the 5th working position of described slide unit, comprises machining spindle; Just can finish whole processing by clamped one time, energy Effective Raise production efficiency reduces labor strength.

Description of drawings

Fig. 1 is the structural representation of the utility model embodiment;

Fig. 2 is the structural representation of slide unit among the utility model embodiment;

Fig. 3 is the structural representation of boring and milling head outer feed arrangement among the utility model embodiment;

Fig. 4 is that the A-A of Fig. 1 is to cutaway view;

Fig. 5 is the structural representation of drilling processing head among the utility model embodiment;

Fig. 6 is the side view of Fig. 5;

Fig. 7 is that the B-B of Fig. 6 is to cutaway view;

Fig. 8 is the structural representation of drilling feed arrangement among the utility model embodiment;

Fig. 9 is that the C-C of Fig. 8 is to cutaway view;

Figure 10 is the structural representation of chamfering working head among the utility model embodiment;

Figure 11 is the structural representation of chamfering feed arrangement among the utility model embodiment;

Figure 12 is the structural representation of tapping working head among the utility model embodiment;

Figure 13 is the side view of Figure 12;

Figure 14 be among Figure 13 D-D to cutaway view;

Figure 15 is the partial enlarged drawing at I place among Figure 14;

Figure 16 is the structural representation of tapping feed arrangement among the utility model embodiment;

Figure 17 is the top view of Figure 16;

Figure 18 is the side view of Figure 16;

Figure 19 is the structural representation of machining spindle among the utility model embodiment;

Figure 20 is the side view of Figure 19;

Among the figure: the 1-lathe bed; The 2-guiderail base; The 3-line slideway; 4-bell housing anchor clamps; The 5-leading screw; The 6-servomotor; 7-boring and milling head outer base; 8-boring and milling head outer slide; The 9-boring and milling head outer; 10-drilling processing head base; 11-drilling processing head slide; 12-drilling processing head; The 13-drill jig; 14-chamfering working head base; 15-chamfering working head slide; 16-chamfering working head; 17-tapping working head base; 18-tapping working head slide; 19-tapping working head; The 20-machining spindle; 21-boring and milling feeding hydrocylinder; 22-adjusts bolt; The 23-positioning seat; The 24-connecting hole; The 25-adjusting nut; 26-drives hydraulic cylinder; The 27-limit pull rod; The 28-spacing preiection; The 29-limit baffle ring; The 30-drilling attachment; 31-rose reamer anchor clamps; The 32-motor; The 33-gear-box; 34-the first power shaft; 35-the second power shaft; 36-Cutting tool installation manner axle; 37-the first drive pulley; 38-the second drive pulley; 39-the first driven pulley; 40-the second driven pulley; 41-the first driving belt; 42-the second driving belt; 43-screw tap anchor clamps; 44-tapping servomotor; 45-tapping gear-box; 46-deceleration drive pulley; The 47-rotating shaft; 48-deceleration driven pulley; 49-the first tapping drive pulley; 50-the second tapping drive pulley; 51-the first tapping power shaft; 52-the second tapping power shaft; 53-the first tapping driven pulley; 54-the second tapping driven pulley; 55-the first tapping driving belt; 56-the second tapping driving belt; 57-tapping output shaft; 58-screw tap mounting rod; The 59-sliding tray; The 60-guide pad; The 61-gathering sill; The 62-sleeve; The 63-spring; The 64-positioning convex; The 65-disk spring; 66-feed servo motor; The 67-feed screw.

The specific embodiment

As depicted in figs. 1 and 2, bell housing comprises with Multifunction processing machine tool: lathe bed 1, and described lathe bed 1 is provided with line slideway 3;

Slide unit, comprise the guiderail base 2 that cooperates with described line slideway, on the described guiderail base 2 bell housing anchor clamps 4 are installed, described bell housing anchor clamps comprise macropore clamping and positioning device and two pin-and-hole clamping and positioning devices, also comprise the compressed oil cylinder that compresses workpiece to be processed, be provided with leading screw 5 between described lathe bed 1 and the described guiderail base 2, described leading screw 5 is connected with servomotor 6;

The end face milling device, such as Fig. 1, Fig. 3 and shown in Figure 4, be arranged on the first working position of described slide unit, comprise the boring and milling head outer base 7 that is fixedly mounted on described lathe bed 1 both sides, be slidingly fitted with boring and milling head outer slide 8 on the described boring and milling head outer base 7, on the described boring and milling head outer slide 8 boring and milling head outer 9 is installed, is provided with the boring and milling head outer feed arrangement between described boring and milling head outer base 7 and the described boring and milling head outer slide 8, the two described boring and milling head outer respectively two side ends face with described bell housing are corresponding;

Drilling equipment, such as Fig. 1, Fig. 5 and shown in Figure 9, be arranged on the second working position of described slide unit, comprise the drilling processing head base 10 that is fixedly mounted on described lathe bed both sides, be slidingly fitted with drilling processing head slide 11 on the described drilling processing head base 10, on the described drilling processing head slide 11 drilling processing head 12 is installed, be provided with the drilling feed arrangement between described drilling processing head base 10 and the described drilling processing head slide 11, the two described drilling processing heads respectively screwed hole with the both sides end face of described bell housing are corresponding; Drill jig 13 corresponding to described screwed hole is installed on the described lathe bed 1, has guaranteed the positional precision of boring.

Facing attachment, such as Fig. 1, Figure 10 and shown in Figure 11, be arranged on the 3rd working position of described slide unit, comprise the chamfering working head base 14 that is fixedly mounted on described lathe bed 1 both sides, be slidingly fitted with chamfering working head slide 15 on the described chamfering working head base 14, on the described chamfering working head slide 15 chamfering working head 16 is installed, be provided with the chamfering feed arrangement between described chamfering working head base 14 and the described chamfering working head slide 15, the two described chamfering working heads respectively screwed hole with the both sides end face of described bell housing are corresponding;

Chasing bar, such as Fig. 1, Figure 12 and shown in Figure 16, be arranged on the 4th working position of described slide unit, comprise the tapping working head base 17 that is fixedly mounted on described lathe bed 1 both sides, be slidingly fitted with tapping working head slide 18 on the described tapping working head base 17, on the described tapping working head slide 18 tapping working head 19 is installed, be provided with the tapping feed arrangement between described tapping working head base 17 and the described tapping working head slide 18, the two described tapping working heads respectively screwed hole with the both sides end face of described bell housing are corresponding;

Oil window processing unit (plant) such as Fig. 1, Figure 19 and shown in Figure 20, is located at the 5th working position of described slide unit, comprises machining spindle 20, on the described machining spindle 20 boring and milling cutter is installed.

As shown in Figure 3 and Figure 4, described boring and milling head outer feed arrangement comprises boring and milling feeding hydrocylinder 21, described boring and milling feeding hydrocylinder 21 is hinged on the described boring and milling head outer base 7, the end of described boring and milling feeding hydrocylinder 21 piston rods is provided with adjusts bolt 22, described boring and milling head outer slide 8 lower surfaces are provided with positioning seat 23, described positioning seat 23 is provided with connecting hole 24, the threaded shank of described adjustment bolt 22 is sleeved in the described connecting hole 24, the end thread that the threaded shank of described adjustment bolt 22 is stretched out described connecting hole 24 is connected with adjusting nut 25, described adjusting nut 25 is adjacent to the side surface at described positioning seat 23, described piston rod end is equipped with adjusts bolt and adjusting nut, with the stroke of control boring and milling feeding hydrocylinder with make the accurately resetting of boring and milling head outer slide, simultaneously, the response time can be shortened.

Such as Fig. 8 and shown in Figure 9, described drilling feed arrangement comprises driving hydraulic cylinder 26, described driving hydraulic cylinder 26 is hinged on the described drilling processing head base 10, be provided with limit pull rod 27 between described drilling processing head base 10 and the described drilling processing head slide 11, described limit pull rod 27 is provided with two spacing preiections 28, described drilling processing head base 10 is provided with the limit baffle ring 29 that cooperates with described spacing preiection 28, described limit baffle ring 29 is located between the two described spacing preiections 28, limit pull rod is under the prerequisite that guarantees drilling depth, shorten the stroke of drilling processing head slide 11, improved response speed.

Such as Fig. 5, Fig. 6 and shown in Figure 7, described drilling processing head 12 comprises drill bit, and described drill bit power is connected with the drill bit drive unit, and described drill bit is installed on the drilling attachment 30.

Described drill bit drive unit comprises motor 32, and described motor 32 is connected with belt drive unit, and the clutch end of described belt drive unit is connected with gear-box 33.

As shown in figure 11, described chamfering feed arrangement is identical with the structure of described drilling feed arrangement, described chamfering feed arrangement comprises driving hydraulic cylinder 26, described driving hydraulic cylinder 26 is hinged on the described chamfering working head base 14, be provided with limit pull rod 27 between described chamfering working head base 14 and the described chamfering working head slide 15, described limit pull rod 27 is provided with two spacing preiections 28, described chamfering working head base 14 is provided with the limit baffle ring 29 that cooperates with described spacing preiection 28, described limit baffle ring 29 is located between the two described spacing preiections 28, limit pull rod is under the prerequisite that guarantees drilling depth, shorten the stroke of chamfering working head slide 15, improved response speed.

As shown in figure 10, described chamfering working head 16 comprises rose reamer, and described rose reamer power is connected with the chamfering drive unit, and described rose reamer is installed on the rose reamer anchor clamps 31.

Described chamfering drive unit comprises motor 32, and described motor 32 is connected with belt drive unit, and the clutch end of described belt drive unit is connected with gear-box 33.

As shown in Figure 7, identical the first power shaft 34 and the second power shaft 35 of including of the structure of the gear-box of described drill bit drive unit and the gear-box of described chamfering drive unit, 34 gear drives of described the first power shaft are connected with two Cutting tool installation manner axles 36, and 35 gear drives of described the second power shaft are connected with four Cutting tool installation manner axles 36.

Described belt drive unit comprises the first drive pulley 37 and the second drive pulley 38 that is located at respectively on motor 32 output shafts, be respectively equipped with the first driven pulley 39 and the second driven pulley 40 on the first power shaft 34 of described gear-box and described the second power shaft 35, be provided with the first driving belt 41 between described the first drive pulley 37 and described the first driven pulley 39, be provided with the second driving belt 42 between described the second drive pulley 38 and described the second driven pulley 40.

Such as Figure 12, Figure 13, Figure 14, Figure 15, Figure 16, Figure 17 and shown in Figure 180, described tapping working head 19 comprises screw tap, described screw tap power is connected with the tapping drive unit, described screw tap is installed in screw tap anchor clamps 43 the above tapping drive unit and comprises tapping servomotor 44, described tapping servomotor 44 is connected with deceleration device, described deceleration device is connected with tapping gear-box 45, described deceleration device comprises the deceleration drive pulley 46 that is located on described tapping servomotor 44 output shafts, be rotatablely equipped with rotating shaft 47 on the described tapping working head slide 18, one end of described rotating shaft 47 is provided with the deceleration driven pulley 48 that is connected with described deceleration drive pulley 46 belt transmission, the other end of described rotating shaft 47 is provided with the first tapping drive pulley 49 and the second tapping drive pulley 50, described tapping gear-box 45 is provided with the first tapping power shaft 51 and the second tapping power shaft 52, described the first tapping power shaft 51 is provided with the first tapping driven pulley 53, described the second tapping power shaft 52 is provided with the second tapping driven pulley 54, be provided with the first tapping driving belt 55 between described the first tapping drive pulley 49 and described the first tapping driven pulley 53, be provided with the second tapping driving belt 56 between described the second tapping drive pulley 50 and described the second tapping driven pulley 54,51 gear drives of described the first tapping power shaft are connected with two tapping output shafts 57 that screw tap is installed, and 52 gear drives of described the second tapping power shaft are connected with four tapping output shafts 57 that screw tap is installed.

Be provided with the shock resistance elastic connecting device between the tapping output shaft 57 of described screw tap and described gear-box, described shock resistance elastic connecting device comprises screw tap mounting rod 58, described tapping output shaft 57 is provided with sliding tray 59, one end of described screw tap mounting rod 58 slides in described sliding tray 59, be provided with guide pad 60 in the described sliding tray 59, described screw tap mounting rod 58 is provided with the gathering sill 61 corresponding with described guide pad 60, be installed with the sleeve 62 that is sleeved on described screw tap mounting rod 58 outer surfaces on the described tapping output shaft 57, described screw tap mounting rod 58 is set with spring 63, one end of described spring 63 is resisted against on the described sleeve 62, the other end of described spring 63 is resisted against on the positioning convex 64 that described screw tap mounting rod 58 is provided with, be provided with disk spring 65 between the positioning convex 64 on the end face of described tapping output shaft 57 and the described screw tap mounting rod 58, the shock resistance elastic connecting device has reduced in the tapping process rotating speed deviation that impact and longer driving-chain to screw tap cause.。

Described tapping feed arrangement comprises feed servo motor 66, be provided with feed screw 67 between described tapping working head slide 18 and the described tapping working head base 17, described feed servo motor 66 power are connected with described feed screw 67, realized the feed speed of tapping working head slide and screw tap to shoot speed identical.

Only need clamped one time, the dowel hole in the time of can using part and install can not affect the machining accuracy of dowel hole requirement.Like this, just needn't relend with thread Pilot hole and do technique dowel hole usefulness, save the processing in this step of machining center.Simultaneously, adopt the compressed oil cylinder hydraulic clamp, labour intensity reduces greatly, has improved production efficiency.

More than show and described basic principle of the present utility model, principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; that describes in above-described embodiment and the specification just illustrates principle of the present utility model; under the prerequisite that does not break away from the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall in claimed the utility model scope.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (10)

1. the bell housing Multifunction processing machine tool is characterized in that, comprising:

Lathe bed, described lathe bed is provided with line slideway;

Slide unit comprises the guiderail base that cooperates with described line slideway, and the bell housing anchor clamps are installed on the described guiderail base, is provided with leading screw between described lathe bed and the described guiderail base, and described leading screw is connected with servomotor;

The end face milling device, be arranged on the first working position of described slide unit, comprise the boring and milling head outer base that is fixedly mounted on described lathe bed both sides, be slidingly fitted with the boring and milling head outer slide on the described boring and milling head outer base, on the described boring and milling head outer slide boring and milling head outer is installed, be provided with the boring and milling head outer feed arrangement between described boring and milling head outer base and the described boring and milling head outer slide, the two described boring and milling head outer respectively two side ends face with described bell housing are corresponding;

Drilling equipment, be arranged on the second working position of described slide unit, comprise the drilling processing head base that is fixedly mounted on described lathe bed both sides, be slidingly fitted with drilling processing head slide on the described drilling processing head base, on the described drilling processing head slide drilling processing head is installed, be provided with the drilling feed arrangement between described drilling processing head base and the described drilling processing head slide, the two described drilling processing heads respectively screwed hole with the both sides end face of described bell housing are corresponding; Drill jig corresponding to described screwed hole is installed on the described lathe bed;

Facing attachment, be arranged on the 3rd working position of described slide unit, comprise the chamfering working head base that is fixedly mounted on described lathe bed both sides, be slidingly fitted with chamfering working head slide on the described chamfering working head base, on the described chamfering working head slide chamfering working head is installed, be provided with the chamfering feed arrangement between described chamfering working head base and the described chamfering working head slide, the two described chamfering working heads respectively screwed hole with the both sides end face of described bell housing are corresponding;

Chasing bar, be arranged on the 4th working position of described slide unit, comprise the tapping working head base that is fixedly mounted on described lathe bed both sides, be slidingly fitted with tapping working head slide on the described tapping working head base, on the described tapping working head slide tapping working head is installed, be provided with the tapping feed arrangement between described tapping working head base and the described tapping working head slide, the two described tapping working heads respectively screwed hole with the both sides end face of described bell housing are corresponding;

Oil window processing unit (plant) is located at the 5th working position of described slide unit, comprises machining spindle, on the described machining spindle boring and milling cutter is installed.

2. bell housing Multifunction processing machine tool as claimed in claim 1, it is characterized in that: described boring and milling head outer feed arrangement comprises the boring and milling feeding hydrocylinder, described boring and milling feeding hydrocylinder is hinged on the described boring and milling head outer base, the end of described boring and milling feeding hydrocylinder piston rod is provided with the adjustment bolt, described boring and milling head outer slide lower surface is provided with positioning seat, described positioning seat is provided with connecting hole, the threaded shank of described adjustment bolt is sleeved in the described connecting hole, the end thread that the threaded shank of described adjustment bolt is stretched out described connecting hole is connected with adjusting nut, and described adjusting nut is adjacent to the side surface at described positioning seat.

3. bell housing Multifunction processing machine tool as claimed in claim 1, it is characterized in that: described drilling feed arrangement comprises the driving hydraulic cylinder, described driving hydraulic cylinder is hinged on the described drilling processing head base, be provided with limit pull rod between described drilling processing head base and the described drilling processing head slide, described limit pull rod is provided with two spacing preiections, described drilling processing head base is provided with the limit baffle ring that cooperates with described spacing preiection, and described limit baffle ring is located between the two described spacing preiections; Described chamfering feed arrangement comprises the driving hydraulic cylinder, described driving hydraulic cylinder is hinged on the chamfering working head base, be provided with limit pull rod between chamfering working head base and the chamfering working head slide, described limit pull rod is provided with two spacing preiections, chamfering working head base is provided with the limit baffle ring that cooperates with described spacing preiection, and described limit baffle ring is located between the two described spacing preiections.

4. bell housing Multifunction processing machine tool as claimed in claim 1, it is characterized in that: described drilling processing head comprises drill bit, described drill bit power is connected with the drill bit drive unit; Described chamfering working head comprises rose reamer, and described rose reamer power is connected with the chamfering drive unit.

5. bell housing Multifunction processing machine tool as claimed in claim 4, it is characterized in that: described drill bit drive unit comprises motor, and described motor is connected with belt drive unit, and the clutch end of described belt drive unit is connected with gear-box; Described chamfering drive unit comprises motor, and described motor is connected with belt drive unit, and the clutch end of described belt drive unit is connected with gear-box.

6. bell housing Multifunction processing machine tool as claimed in claim 5, it is characterized in that: described gear-box comprises the first power shaft and the second power shaft, described the first input shaft gear is connected with two Cutting tool installation manner axles, and described the second input shaft gear is connected with four Cutting tool installation manner axles.

7. bell housing Multifunction processing machine tool as claimed in claim 6, it is characterized in that: described belt drive unit comprises the first drive pulley and the second drive pulley that is located at respectively on the motor output shaft, be respectively equipped with the first driven pulley and the second driven pulley on the first power shaft of described gear-box and described the second power shaft, be provided with the first driving belt between described the first drive pulley and described the first driven pulley, be provided with the second driving belt between described the second drive pulley and described the second driven pulley.

8. bell housing Multifunction processing machine tool as claimed in claim 1, it is characterized in that: described tapping working head comprises screw tap, described screw tap power is connected with the tapping drive unit, described tapping drive unit comprises the tapping servomotor, described tapping servomotor is connected with deceleration device, described deceleration device is connected with the tapping gear-box, described deceleration device comprises the deceleration drive pulley that is located on the described tapping servomotor output shaft, be rotatablely equipped with rotating shaft on the described tapping working head slide, one end of described rotating shaft is provided with the deceleration driven pulley that is connected with described deceleration drive pulley belt transmission, the other end of described rotating shaft is provided with the first tapping drive pulley and the second tapping drive pulley, described tapping gear-box is provided with the first tapping power shaft and the second tapping power shaft, described the first tapping power shaft is provided with the first tapping driven pulley, described the second tapping power shaft is provided with the second tapping driven pulley, be provided with the first tapping driving belt between described the first tapping drive pulley and described the first tapping driven pulley, be provided with the second tapping driving belt between described the second tapping drive pulley and described the second tapping driven pulley, described the first tapping input shaft gear is connected with two tapping output shafts that screw tap is installed, and described the second tapping input shaft gear is connected with four tapping output shafts that screw tap is installed.

9. bell housing Multifunction processing machine tool as claimed in claim 8, it is characterized in that: be provided with the shock resistance elastic connecting device between the tapping output shaft of described screw tap and described gear-box, described shock resistance elastic connecting device comprises the screw tap mounting rod, described tapping output shaft is provided with sliding tray, one end of described screw tap mounting rod slides in described sliding tray, be provided with guide pad in the described sliding tray, described screw tap mounting rod is provided with the gathering sill corresponding with described guide pad, be installed with the sleeve that is sleeved on described screw tap mounting rod outer surface on the described tapping output shaft, described screw tap mounting rod is set with spring, one end of described spring is resisted against on the described sleeve, the other end of described spring is resisted against on the positioning convex that described screw tap mounting rod is provided with, and is provided with disk spring between the positioning convex on the end face of described tapping output shaft and the described screw tap mounting rod.

10. bell housing Multifunction processing machine tool as claimed in claim 1, it is characterized in that: described tapping feed arrangement comprises the feed servo motor, be provided with feed screw between described tapping working head slide and the described tapping working head base, described feed servo motor power is connected with described feed screw.

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