CN205588676U - Be equipped with servo pressure machine preceding stage actuating mechanism of stopper - Google Patents

Abstract

The utility model discloses a be equipped with servo pressure machine preceding stage actuating mechanism of stopper belongs to servo pressure machine technical field. Including the drive gear main shaft, stopper and the servo motor that have drive gear and driving spindle, servo motor sets firmly on the lathe bed, and driving spindle rotates and sets up on the lathe bed, and driving spindle is transversal arrangement according to the left and right direction of lathe bed, and driving spindle's one end and servo motor's shaft extension end driving spindle 0, and driving spindle's the other end stretch out the lathe bed outer and with stopper driving spindle 0, drive gear is located between driving spindle's the both ends. The utility model discloses structure and layout are reasonable, have realized high -efficient one -level and have directly driven, and transmission precision is high, the power loss is little, and impurity contamination can be avoided to the stopper of noiseless dismouting, has still reduced the moment of torsion requirement, and is small.

Description

It is equipped with the servo-pressing machine prime drive mechanism of brake

[technical field]

This utility model relates to a kind of servo-pressing machine prime drive mechanism being equipped with brake, belongs to Servo-pressing machine technical field.

[background technology]

In existing servo-pressing machine, the work process of servo-pressing machine is by being loaded on watching of lathe bed bottom Taking motor and drive reduction box by belt wheel mechanism, the output shaft of reduction box is by the connecting shaft with brake Device transfers power on gear shaft, the gear wheel that gear shaft is loaded on crankshaft end by engaged transmission, Drive crank up campaign, convert rotational motion is that slide block is along guiding mechanism by elbow-bar mechanism by bent axle Upper and lower reciprocating motion, finally realizes forging operation.Objectively there is following deficiency in this structure:

1, brake is positioned at inside lathe bed, not only demolition, installation and repair and maintenance operation inconvenience, and in lubricant Impurity easily pollute the brake area of brake, and then affect brake slide block and maintain slide block solid Fixed motionless performance.

2, the apolegamy of the aspect such as its moment of torsion of brake requires height, it is difficult to meet servo-pressing machine heavy duty, High-torque, functional reliability in high precision, under Variable Velocity Condition, owing to the installation volume of brake is big, Affect the Appropriate application of lathe bed inner space, it addition, also find in other existing servo-pressing machine Brake is loaded on crankshaft end, there is also drawbacks described above equally；The belt wheel of belt wheel mechanism is commonly installed On the input shaft end of reduction box, there is cantilever position.

3, three grades of transmission band dynamic crankshafts, transmission chain length, transmission accuracy is low, kinetic equation loss is big.

4, gear shaft is laid along lathe bed depth direction, and servomotor is loaded on lathe bed bottom, and lathe bed is high Degree space utilization is low.

Brake is the parts stopped and keeping slide block halted state that slow down for controlling slide block, even if Servomotor under peak torque state, also should be able to brake silpper make slide block be in halted state, it It is mainly used in following three kinds of situations:

1., when normal shutdown or improper dead electricity, maintain slide block in fixed position；2. it is used for Brake hard is implemented, it is ensured that lathe, mould etc. are the most impaired, and are under mechanical, electrical exception or malfunction Operator provide personal safety guarantee；The brake hard implemented in the case of 3. maloperation occurs.

China Patent No. 200520069739.4 discloses the brake dress of a kind of digital control precision shaping press Putting, gear shaft is longitudinally arranged along lathe bed with servomotor, and gear shaft is positioned at the lower section of bent axle, this knot The electromagnetic brake device of structure is positioned at inside lathe bed, and this gear shaft is longitudinally arranged structure and makes inside lathe bed The utilization rate in space is low.

[utility model content]

For many technical deficiencies of above-mentioned prior art objective reality, this utility model passes through reasonable cloth If, connect drive shaft and brake, motor, it is desirable to provide a kind of servo pressure being equipped with brake Power machine prime drive mechanism.

To this end, this utility model following technical scheme of offer:

It is equipped with the servo-pressing machine prime drive mechanism of brake, including having driving gear and driving Driving main gear shaft, brake and the servomotor of main shaft, servomotor is fixedly arranged on lathe bed, drives Main axis is arranged on lathe bed, and its improvement is: described drive shaft is by the left and right side of lathe bed To in lateral arrangement, and the axle stretch end of one end of drive shaft and servomotor is rigidly connected, and drives The other end of main shaft stretches out outside lathe bed and is rigidly connected with brake, and it is main that described driving gear is positioned at driving Between the two ends of axle.

In order to optimize the layout of this prime drive mechanism, its installation of the above-mentioned drive shaft in lateral arrangement Position is at the rear upper of lathe bed, and so, the lathe bed front upper space vacateed can be as installation Used by the space of bent axle, be installed on bent axle, gear wheel that volume exclusion is bigger can correspondingly be arranged In the front upper (i.e. driving the dead ahead of gear) of lathe bed, and with drive the driving tooth of main gear shaft Wheel is meshed, and so, the space of lathe bed front upper obtains sufficiently effective utilization, can make Longitudinal degree of depth of the forward and backward lathe bed of servo-pressing machine is greatly collapsed into possibility.

As preferentially, above-mentioned axle stretch end is provided with the first expansion sleeve, and one end of described drive shaft is provided with even Female connector, and its other end is provided with the second expansion sleeve, the first expansion sleeve is placed in adapter sleeve, the second tensioner It is placed in the center mounting hole of brake.

One end of drive shaft is that inside and outside spline couples with above-mentioned axle stretch end, the other end of drive shaft With brake by key connecting, or one end of drive shaft is coupled by shaft coupling with above-mentioned axle stretch end, Key connecting is passed through in the other end of drive shaft and brake.

As preferentially, above-mentioned driving gear and drive shaft are two-in-one single part.

In drive shaft, straight forming drives gear, and single component machining accuracy concordance is high, drives Gear can exempt to offer axis hole, exempt to press-fit, and part bulk strength is high, transmission accuracy is high；Drive gear master Axle realizes whole tearing open self-contained, and maintenance is changed quick.

Above-mentioned brake is electricity loss brake.

This utility model fact has the advantage that and beneficial effect:

1, brake is positioned at outside lathe bed, can noiseless demolition, installation, it is simple to repair and maintenance operation, it is to avoid lubrication In agent, impurity pollutes the brake area of brake, it is ensured that brake silpper and make slide block be in halted state.

2, brake is laid in drive shaft and stretches out the outer end of lathe bed with this axle and is connected, and this is with often See that brake is loaded on the output shaft of reduction box or is loaded on bent axle to compare, be substantially reduced brake Apolegamy requirement, the torque demand of brake is expected to reduce by 3～10 times, correspondingly achieves brake little Type, and servo-pressing machine can be met again in heavy duty, high-torque, work in high precision, under Variable Velocity Condition Make reliability.

3, drive gear between the drive shaft two ends of lateral arrangement, can avoid driving gear to be in Under cantilever position, engagement drives gear wheel, not only can make to drive main gear shaft revolution steadily, Er Qieyou Beneficially the reasonable Arrangement of lathe bed internal drive mechanism, reduces lathe bed size.

4, servomotor directly is rigidly connected to achieve with driving main gear shaft and directly drives, and is thus greatly promoted Drive efficiency, after this utility model prime drive mechanism is assembled on known forcing press, drives Gear can be used for directly engaging the gear wheel that driving is fixedly arranged in crankshaft end, it is achieved thereby that one-level passes Dynamic, therefore servo-pressing machine can realize the design of one-level big speed ratio, driving-chain is short, compact conformation thus Efficiency is high, and the stability for subsequent motion transmission lays a solid foundation.

5, the two ends of main gear shaft are driven to be rigidly connected with servomotor, brake respectively, this measure Transmission accuracy height, kinetic equation loss can be made little.

[accompanying drawing explanation]

Fig. 1 is sectional view of the present utility model；

Fig. 2 is to be equipped with servo-pressing machine front view of the present utility model；

Fig. 3 is the side view of Fig. 2.

[detailed description of the invention]

Refer to shown in Fig. 1, be equipped with the servo-pressing machine prime drive mechanism of brake, including tool There are driving gear 32 and the driving main gear shaft 3 of drive shaft 31, brake 2 and servomotor 1, Servomotor 1 is fixedly arranged on lathe bed G, and drive shaft 31 rotates and is arranged on lathe bed G, drive shaft 31 is to be that (shown in Figure 2, arrow L points to lathe bed to lateral arrangement by the left and right direction of lathe bed G Left side, arrow R points on the right side of lathe bed), and drive shaft 31 one end (Fig. 1 show left end, It is positioned at lathe bed G) it is rigidly connected with the axle stretch end 11 of servomotor 1, and drive shaft 31 is another One end (Fig. 1 show right-hand member) is stretched out outside lathe bed G and is rigidly connected with brake 2, brake 2 Being positioned at outside lathe bed G, described driving gear 32 is between the two ends of drive shaft 31.

Driving gear 32 to may be used for directly engaging, that driving is fixedly arranged on bent axle (not shown) end is big Gear (not shown).

The installation site of drive shaft 31 is (to refer to Fig. 3, arrow at the rear upper of lathe bed G B points to lathe bed rear portion).

A kind of embodiment as preferential: axle stretch end 11 is provided with the first expansion sleeve 41, drive shaft One end of 31 is provided with adapter sleeve 5, and its other end is provided with the second expansion sleeve 42, and the first expansion sleeve 41 is put In adapter sleeve 5, the second expansion sleeve 42 is placed in the center mounting hole of brake 2.

As another embodiment: one end of drive shaft 31 and axle stretch end 11 can be inside and outside Spline couples, and the other end of drive shaft 31 then can pass through key connecting with brake 2, be embodied as Time, to get on the bus external splines processed at axle stretch end 11, the left end in drive shaft 31 then processes internal spline.

As another embodiment: one end of drive shaft 31 can also be by connection with axle stretch end 11 Joint couples；The other end of drive shaft 31 then can pass through key connecting with brake 2.

Driving gear 32 and drive shaft 31 is two-in-one single part.

Driving gear 32 is roller gear.

Brake 2 is electricity loss brake.

When brake 2 is matched, can be pneumatic braking device or liquid braking device or electromagnetic system Dynamic device.

Claims (6)

1. it is equipped with a servo-pressing machine prime drive mechanism for brake, including having driving gear With driving main gear shaft, brake and the servomotor of drive shaft, servomotor is fixedly arranged on lathe bed, Drive shaft rotates and is arranged on lathe bed, it is characterised in that: described drive shaft is left and right by lathe bed Direction is lateral arrangement, and the axle stretch end of one end of drive shaft and servomotor is rigidly connected, and drives The other end of dynamic main shaft stretches out outside lathe bed and is rigidly connected with brake, and described driving gear is positioned at driving Between the two ends of main shaft.

Servo-pressing machine prime drive mechanism the most according to claim 1, it is characterised in that: institute State the installation site of drive shaft at the rear upper of lathe bed.

Servo-pressing machine prime drive mechanism the most according to claim 2, it is characterised in that: institute Stating axle stretch end and be provided with the first expansion sleeve, one end of described drive shaft is provided with adapter sleeve, and its other end Being provided with the second expansion sleeve, the first expansion sleeve is placed in adapter sleeve, and the second expansion sleeve is placed in brake In heart installing hole.

Servo-pressing machine prime drive mechanism the most according to claim 2, it is characterised in that: institute The one end stating drive shaft is that inside and outside spline couples with described axle stretch end, another of described drive shaft End and brake are by key connecting, or one end of drive shaft is joined by shaft coupling with described axle stretch end Connecing, key connecting is passed through in the other end of described drive shaft and brake.

5. according to the servo-pressing machine prime drive mechanism described in claim 3 or 4, it is characterised in that: Described driving gear and drive shaft are two-in-one single part.

Servo-pressing machine prime drive mechanism the most according to claim 1 and 2, it is characterised in that: Described brake is electricity loss brake.