CN104070127A - Clutch type forging part molding machine - Google Patents

Abstract

The invention discloses a clutch type forging part molding machine. The clutch type forging part molding machine comprises a forging device, and a power device positioned at one side of the forging device. The forging device comprises a stand, a crankshaft rotationally mounted on the stand, and a flywheel capable of linking the crankshaft to rotate. The power device comprises a motor, a shaft rod capable of driving the flywheel, and a clutch mounted between the motor and the shaft rod. The clutch is arranged between the motor and the shaft rod of the power device in a manner of keeping away from the forging device, so that the maintenance is convenient, the oil stain pollution is prevented, and the transfer of the rotating power of the motor to the shaft rod is controlled; and when the rotating power is not transferred to the shaft rod, the flywheel is not driven to rotate by the shaft rod, so that the energy consumption can be reduced, and the service life can be prolonged.

Description

Disengaging type forging press

Technical field

The present invention relates to a kind of forging press, particularly relate to a kind of clutch that is provided with the disengaging type forging press of clutch for clutch control transmission power.

Background technology

The components such as general screw, nut, on manufacturing, be mainly by after bundled wire rod straightening, traction is sent in a forging press, by power set, provide rotational power, be used for driving that a forging apparatus carries out a series of charging, cuts off, pinches, impact forging and the flow process such as eject, make this wire rod be forged into gradually the component of reservation shape.And it is following only for these power set and drive the relevant portion of this forging apparatus to illustrate.

Consult Fig. 1, Fig. 2 and Fig. 3, a kind of existing forging press 1, comprises: a forging apparatus 11, and power set 12.This forging apparatus 11 comprises that a board 111, one are rotatably installed on this board 111 and can be with the bent axle 112 of the unshowned Forgingother of cardon mechanism start, a flywheel 113 that is sheathed on rotationally one end of this bent axle 112, and a clutch 114 that is installed on 112, this flywheel 113 and this bent axle.And these power set 12 comprise a side of board 111 and a shell block 121 for hollow that is installed on this forging apparatus 11, a motor 122 that is installed on these shell block 121 tops, an axostylus axostyle 123 being rotatably installed in this shell block 121, one is driven the powered pulley 124 of rotating by this motor 122, be installed on respectively an input belt pulley 125 and an output belt pulley 126 that this axostylus axostyle 123 stretches out the two ends outside this shell block 121, a snare connects the input belt 127 of this powered pulley 124 and this input belt pulley 125, and snare connects the output belt 128 of this output belt pulley 126 and this flywheel 113.

During use, start this motor 122 and drive this powered pulley 124, via this this input belt pulley 125 of input belt 127 transmissions, allow this axostylus axostyle 123 along with this input belt pulley 125 rotates, this output belt pulley 126 of while interlock, via this output belt 128, drive this flywheel 113 to continue to rotate, now, if this clutch 114 is when a clamped position, the rotational power of this flywheel 113 can be passed to this bent axle 112 via this clutch 114, make this bent axle 112 drive Forgingother mechanism to carry out charging, cut off, pinch, impact forging and ejecting ... Deng processing procedure, if this clutch 114 is when a separation point position again, the rotational power of this flywheel 113 just can not be passed to this bent axle 112, and time-out processing procedure.

Although these power set 12 of above-mentioned forging press 1 can be supplied with this forging apparatus 11 power, yet it has following disappearance using and keep in repair:

One, consume energy higher: after this motor 122 starts, will drive this powered pulley 124, this inputs belt 127, this inputs belt pulley 125, this axostylus axostyle 123, this exports belt pulley 126, this exports belt 128, and a series of member continuous running such as this flywheel 113, vertical control at last makes this clutch 114 move to this separation point position, and when wish does not drive this bent axle 112, the described member that is connected to this flywheel 113 by this powered pulley 124, still can constantly rotate, thus, this motor 122 is born heavier load by need, the driving force of required supply is also larger, and need to expend the more energy.

Two, maintenance trouble: the shell of the board 111 of this forging apparatus 11 is huge, in assembling and dismantling, be not easy, and this clutch 114 is to be installed in this board 111, so when wanting to safeguard, when overhauling or changing this clutch 114, must first take the shell of this board 111 apart bothersomely, so keeping in repair and replacing with comparatively trouble inconvenience, and this forging apparatus 11 normally installs this clutch 114 additional again in these flywheel 113 outsides, thus, often cause these board 111 profiles obviously outstanding in this position, not only more irregular attractive in appearance, and can take up room, affecting operating personnel walks about or stands.

Three, vulnerable to pollution: because board 111 and the upper forging mechanism thereof of this forging apparatus 11 are numerous and jumbled, and this bent axle 112 and the back and forth constantly start of described forging mechanism needs, so whole forging apparatus 11 must add a large amount of lubricating oil, and this clutch 114 is to be positioned at this forging apparatus 11, so be easily subject to greasy dirt and oil vapour pollution, cause also can relatively shorten its service life.

Summary of the invention

The object of the present invention is to provide a kind of power consumption, for ease of maintenaince and the disengaging type forging press reduce polluting of reducing.

Disengaging type forging press of the present invention, comprise: a forging apparatus, and power set that are positioned at a side of this forging apparatus and this forging apparatus power is provided, this forging apparatus comprises a board, a bent axle that is rotatably installed on this board, and one end that is connected in this bent axle and the flywheel that can this bent axle of interlock rotates, these power set comprise the motor of an exportable rotational power, and an axostylus axostyle that rotatably drives this flywheel; It is characterized in that: these power set also comprise that is installed on a clutch that whether is passed to this axostylus axostyle between this motor and this axostylus axostyle to control the rotational power of this motor.

Disengaging type forging press of the present invention, the motor of these power set has the line shaft of an exportable rotational power, these power set also comprise one be installed on the power wheel of the line shaft of this motor, the wheel for inputting of an end that is sheathed on rotationally this axostylus axostyle, snare connect the input driving member of this power wheel and this wheel for inputting, the other end that is installed on this axostylus axostyle and with the output wheel of this axostylus axostyle interlock, and snare connects the output driving member of this output wheel and this flywheel, this clutch is connected between this wheel for inputting and this axostylus axostyle.

Disengaging type forging press of the present invention, the diameter of this wheel for inputting is greater than the diameter of this power wheel, is also greater than the diameter of this output wheel.

Disengaging type forging press of the present invention, this power wheel, this wheel for inputting, this output wheel and this flywheel are all belt pulleys, and this input driving member and this output driving member are all circle belts.

Disengaging type forging press of the present invention, these power set also comprise a side of a board that is arranged at this forging apparatus and the shell block of hollow, this motor is installed on this shell block, this axostylus axostyle is to be arranged at rotationally this shell block, and this wheel for inputting and this output wheel lay respectively at the both sides that this axostylus axostyle stretches out this shell block.

Beneficial effect of the present invention is: the present invention is arranged on this clutch between this motor and this axostylus axostyle, is not only convenient to maintenance, avoids being subject to oil pollution, can also reduce power consumption and can increase the service life.

Accompanying drawing explanation

Fig. 1 is that an a kind of part of existing forging press is overlooked cross-sectional schematic;

Fig. 2 is a front elevational schematic of Fig. 1 forging press;

Fig. 3 is the schematic diagram of power set of Fig. 1 forging press;

Fig. 4 is that a part for a preferred embodiment of disengaging type forging press of the present invention is overlooked cross-sectional schematic;

Fig. 5 is a front elevational schematic of this preferred embodiment; And

Fig. 6 is the schematic diagram of power set of this preferred embodiment.

The specific embodiment

Below in conjunction with drawings and Examples, the present invention is described in detail:

Consult Fig. 4, Fig. 5 and Fig. 6, a preferred embodiment of disengaging type forging press of the present invention, comprises: a forging apparatus 2, and power set 3 that are positioned at a side of this forging apparatus 2 and these forging apparatus 2 power are provided.

This forging apparatus 2 comprises a board 21, a bent axle 22 that is rotatably installed on this board 21, and one end that is connected in this bent axle 22 and the flywheel 23 that can this bent axle 22 of interlock rotates.Certainly this forging apparatus 2 also comprises the unshowned Forgingother of some figure mechanism, and this bent axle 22 can drive described forging mechanism start, carrying out charging, cut off, pinch, impact forging and the processing procedure such as eject, precisely because emphasis of the present invention not, so no longer illustrate at this.As for 23 energy of this flywheel in rotatablely moving for storing rotation function, and while being applied in this forging apparatus 2 intermittent transmission, this flywheel 23 can reduce the fluctuation of rotating speed, makes to rotatablely move more smooth-going.This flywheel 23 of the present embodiment is a belt pulley.

These power set 3 comprise the side of board 21 and the shell block 31 for hollow that are arranged at this forging apparatus 2, a motor 32 that is installed on these shell block 31 tops and there is the line shaft 321 of an exportable rotational power, a power wheel 33 that is installed on the line shaft 321 of this motor 32, an axostylus axostyle 34 that is arranged at rotationally this shell block 31, a wheel for inputting 35 that is sheathed on rotationally an end of this axostylus axostyle 34, the other end that is installed on this axostylus axostyle 34 and with the output wheel 36 of these axostylus axostyle 34 interlocks, a snare connects the input driving member 37 of this power wheel 33 and this wheel for inputting 35, a snare connects the output driving member 38 of this output wheel 36 and this flywheel 23, and one be installed on this motor 32 and 34 clutches 39 that whether are passed to this axostylus axostyle to control the rotational power of this motor of this axostylus axostyle.In the present embodiment, this clutch 39 is connected in 34 of this wheel for inputting 35 and this axostylus axostyles.This wheel for inputting 35 and this output wheel 36 lay respectively at the both sides of this shell block 31, the diameter of this wheel for inputting 35 is greater than the diameter of this power wheel 33, also be greater than the diameter of this output wheel 36, the rotational power of this motor 32 can be slowed down and transfers to this forging apparatus 2, be equivalent to the design of a decelerator.In the present embodiment, this power wheel 33, this wheel for inputting 35 and this output wheel 36 are all belt pulleys, and this input driving member 37 and this output driving member 38 be all a circle belt, certainly on the implementation not as limit.This clutch 39 can be controlled and make the rotational power of this wheel for inputting 35 be passed to this axostylus axostyle 34 to drive the clamped position of this flywheel 23 at one, and rotational power that does not make this wheel for inputting 35 is passed to this axostylus axostyle 34 and does not drive between the separation point position of this flywheel 23 and changes.As for the detail structure of this clutch 39, be not emphasis of the present invention, so no longer illustrate at this.

During use, start this motor 32 and drive this power wheel 33, via this this wheel for inputting 35 of input driving member 37 transmissions, continue to rotate, now, if this clutch 39 is when this clamped position, the rotational power of this wheel for inputting 35 can be passed to this axostylus axostyle 34 via this clutch 39, this axostylus axostyle 34 can this output wheel 36 of interlock, via this output driving member 38, drive this flywheel 23, with this bent axle 22 of interlock, drive Forgingother mechanism to carry out charging, cut off, pinch, impact forging and ejecting ... Deng processing procedure, if this clutch 39 is when this separation point position again, the rotational power of this wheel for inputting 35 just can not be passed to this axostylus axostyle 34 via this clutch 39, so this axostylus axostyle 34, this output wheel 36, this output driving member 38 and this flywheel 23 can not rotate, can suspend processing procedure.

From illustrating above, the present invention has following preferably advantage:

One, reduce power consumption: the present invention in design, it is mainly the setting position that changes this clutch 39, be to be installed in these power set 3 away from this forging apparatus 2, and be to be connected in 34 of this wheel for inputting 35 and this axostylus axostyles, so when this clutch 39 moves to this separation point position, and when wish does not drive this bent axle 22, only has this power wheel 33 being driven by this motor 32, and connected this input driving member 37, these wheel for inputting 35 meeting continuous runnings, as for the described member that is connected to this bent axle 22 by this axostylus axostyle 34, will stop operating, thus, can alleviate the driving force of the required load of bearing of this motor 32 and required supply, so can reduce expending of the energy, and also more freely smooth and easy in running.

Two, for ease of maintenaince: this clutch 39 is to be installed on this power set 3, so when wanting to safeguard, overhaul or change this clutch 39, as long as take simply more small-sized and simple this shell block 31 of member apart, so keeping in repair and replacing with comparatively easy and convenient, also can not have influence on this forging apparatus 2, and these board 21 lateral margins are comparatively neatly straight, do not have obviously outstanding position, can not take up room, and can handled easily personnel walk about or stand yet.

Three, reduce and pollute: because this clutch 39 is to be installed in these power set 3 away from these forging apparatus 2 ground, can be away from greasy dirt and oil vapour pollution, so can extend its service life.

Claims (5)

1. a disengaging type forging press, comprise: a forging apparatus, and power set that are positioned at a side of this forging apparatus and this forging apparatus power is provided, this forging apparatus comprises a board, a bent axle that is rotatably installed on this board, and one end that is connected in this bent axle and the flywheel that can this bent axle of interlock rotates, these power set comprise the motor of an exportable rotational power, and an axostylus axostyle that rotatably drives this flywheel; It is characterized in that: these power set also comprise that is installed on a clutch that whether is passed to this axostylus axostyle between this motor and this axostylus axostyle to control the rotational power of this motor.

2. disengaging type forging press as claimed in claim 1, it is characterized in that: the motor of these power set has the line shaft of an exportable rotational power, these power set also comprise a power wheel that is installed on the line shaft of this motor, a wheel for inputting that is sheathed on rotationally an end of this axostylus axostyle, a snare connects the input driving member of this power wheel and this wheel for inputting, the other end that is installed on this axostylus axostyle and with the output wheel of this axostylus axostyle interlock, and snare connects the output driving member of this output wheel and this flywheel, this clutch is connected between this wheel for inputting and this axostylus axostyle.

3. disengaging type forging press as claimed in claim 2, is characterized in that: the diameter of this wheel for inputting is greater than the diameter of this power wheel, is also greater than the diameter of this output wheel.

4. disengaging type forging press as claimed in claim 2, is characterized in that: this power wheel, this wheel for inputting, this output wheel and this flywheel are all belt pulleys, and this input driving member and this output driving member are all circle belts.

5. disengaging type forging press as claimed in claim 2, it is characterized in that: these power set also comprise a side of a board that is arranged at this forging apparatus and the shell block of hollow, this motor is installed on this shell block, this axostylus axostyle is to be arranged at rotationally this shell block, and this wheel for inputting and this output wheel lay respectively at the both sides that this axostylus axostyle stretches out this shell block.