CN212469598U - Clutch brake control mechanism of roll forging machine for forging automobile engine connecting rod - Google Patents

Abstract

The utility model relates to an automobile engine connecting rod forges with roll forging machine clutch brake control mechanism, include: motor, high-speed shaft, flywheel, clutch, gear wheel, long tooth gear, two forge rolls and stopper, and clutch and stopper carry out simultaneous action through electric valve control mechanism, and the clutch is used for breaking off high-speed shaft and forges the roll, and the clutch includes: the idle friction disc, the clutch piston cover, the clutch piston, the positioning bolt, the adjusting bolt and the spring; the stopper is used for braking roll forging machine stop work, and the stopper includes: friction disk, stopper piston shell, stopper piston, spring, clamping ring, pressure cover, the utility model has the advantages that: the clutch and the brake are matched with each other to accurately control the parking position of the flywheel, so that the braking position can be stopped at 239-265 degrees each time, the service life of equipment is prolonged, a forging blank with better quality can be obtained when the equipment is applied to production, and the operation safety is ensured.

Description

Clutch brake control mechanism of roll forging machine for forging automobile engine connecting rod

Technical Field

The utility model relates to an engine connecting rod technical field, concretely relates to automobile engine connecting rod forges with roll forging machine clutch brake control mechanism.

Background

The most important process for producing the engine connecting rod is roll forging, and the purpose of the roll forging is to obtain a desired shape, change the structure of metal and improve the mechanical property of the metal. The current commercial roll forging machine (fig. 1) consists of a roll forging machine body 101, an accessory feeder 102, a buffer 103, a robot arm 104 and a foundation 105. In the roll forging process, it is important to control the position of the forging roll. The control range of the brake angle of the roll forging machine is +/-5 degrees, and the forging roll must be accurately stopped in a set area. However, as the forging roller is driven by a flywheel of approximately 1 ton to run at a high speed of 80 rpm, a large inertia force is generated when the forging roller is suddenly started or stopped in the moving process, and the impact on the machine body is large.

SUMMERY OF THE UTILITY MODEL

In view of the above problem, the utility model aims at providing an automobile engine connecting rod forges with roll forging machine clutch brake control mechanism for increase control accuracy obtains the forging blank of better quality and improve equipment's life, in order to overcome above-mentioned prior art not enough.

The utility model provides a roll forging machine clutch brake control mechanism is used in forging of automobile engine connecting rod, include: the forging device comprises a motor, a high-speed shaft, a flywheel, a clutch, a gearwheel, a long-tooth gear, two forging rollers and a brake, wherein the two forging rollers which are arranged up and down are used for fixing a roll forging die, the forging rollers are arranged in sliding bearings at two ends of a cast steel upright post, the two forging rollers are meshed through the two long-tooth gears, the motor drives the flywheel through a triangular belt, the flywheel and the clutch arranged on one side of the flywheel are arranged in a rolling bearing on the high-speed shaft, the brake is arranged on the high-speed shaft on the other side of the flywheel, the high-speed shaft is transmitted to the upper forging roller through the gearwheel, and the upper forging roller and the lower forging roller are connected with each other through the two gears with the same transmission ratio; the clutch and the brake are simultaneously actuated through an electric valve control mechanism, and the rotary motion of the two forging rollers is transmitted to a high-speed shaft with the released brake through the clutch on the flywheel;

wherein, the clutch is used for breaking off high-speed axle and forging the roller, the clutch is the single-disk friction clutch of electricity-gas control, the clutch is installed on the flywheel, the flywheel is installed on the epaxial roller bearing of flywheel, the clutch includes: the idle friction disc, the clutch piston cover, the clutch piston, the positioning bolt, the adjusting bolt and the spring; the idle friction disc is mounted on a high-speed shaft and transmits torque through a friction block, the clutch piston is mounted on a clutch piston cover and is arranged opposite to the idle friction disc, the clutch piston is sleeved on a bolt and reciprocates along the length direction of the bolt, the inner ring of the clutch piston cover is mounted on the flywheel through the positioning bolt, the outer ring of the clutch piston cover is mounted on the flywheel through the adjusting bolt, the adjusting bolt is mounted on the clutch piston cover along the horizontal direction, the spring is sleeved on the adjusting bolt, one end of the spring is supported against the edge position of the clutch piston, the clutch needs 5.5-6 ba air pressure, and compressed air is supplied through an air joint supported by a roller bearing;

wherein, the stopper is installed on the flywheel and is located the opposite side of clutch, the stopper is used for braking roll forging machine stop work, the stopper is single-disc brake, the stopper includes: the friction disc is fixed on a high-speed shaft through an expansion sleeve, a friction block is arranged on the friction disc and arranged along the axis direction of the friction disc, the brake piston shell is arranged on the flywheel through a tightening bolt, the brake piston is arranged in the brake piston shell, the spring is sleeved on the tightening bolt, one end of the spring is propped against the pressing ring, the pressing ring is arranged between the brake piston and the spring, the other end of the spring is propped against the pressing sleeve arranged between the tightening bolt and a fastening nut, and the adjusting bolt is arranged between the brake piston and the pressing ring;

the electric valve control mechanism includes: the pneumatic two-way valve is connected with the air storage tank, the air storage tank is connected with the brake through the two-position two-way valve A, the air storage tank is connected with the clutch through the two-position two-way valve B, and the rotary joint is arranged between the two-position two-way valve B and the clutch.

Preferably, the pneumatic double-piece is electrified to control the inflation pressure of the air storage tank to reach 5.5bar, the two-position two-way valve B is electrified, and the clutch is controlled to be disengaged through the rotary joint.

Preferably, the pneumatic dual-part is electrified, the inflation pressure of the air storage tank is controlled to reach 5.5bar, the two-position two-way valve B is controlled to be electrified for 0.2 second, then the two-position two-way valve A is controlled to be electrified for 0.2 second, and then the brake acts.

Preferably, a safety ring is mounted on the tightening bolt.

Preferably, the lower forging roll is supported in two toothed eccentric sleeves, two gears mounted on an adjusting shaft are engaged with the eccentric sleeves, the distance between the upper forging roll and the lower forging roll can be changed by rotating the adjusting shaft, and the adjusted distance can be read on a scale.

Preferably, a backlash compensator is mounted at a position of the two long-tooth gears connecting the upper forging roll and the lower forging roll.

Preferably, the volume of air between the brake piston housing and the brake piston remains constant, and the volume of air between the clutch piston cover and the clutch piston remains constant.

The utility model has the advantages and positive effects that:

1. the utility model discloses a clutch and stopper mutually support and carry out accurate control to flywheel parking position, not only can make the brake position stop at every turn between 239-265, still improve equipment's life uses in production, can obtain the forging blank of better quality, has still ensured operational safety.

2. The utility model discloses well clutch's idle running friction disc passes through the clutch blocks transmission moment of torsion, and idle running friction disc is fixed on the high-speed shaft. The opposite piston is fitted over and slides on the bolt. The bolt also transmits 1/2 torque of the flywheel and couples the flywheel and the piston cover together, and the piston is pressed to one side by the action of the spring, so that a clearance is formed between the piston and the friction block and no friction energy loss is generated.

3. The utility model discloses a make the clutch combine fast to reach rated torque in the shortest time, the air volume between piston cap and the piston "should be as little as possible and keep unchanged, for this reason, sets up adjusting screw on the piston cap.

4. The utility model discloses when the friction block that inlays in the friction disk wearing and tearing seriously, can no longer transmit torque through the friction disk at this moment. The single-disk friction clutch simultaneously acts as an overload safety device for the machine. The pressure of the piston determines the maximum torque that can be transmitted. When the torque is exceeded, the piston begins to slip, the flywheel energy can be completely absorbed in a few seconds through disc friction, and the machine stops running. The pads must not be allowed to lubricate and the newly installed spare parts must remain completely dry because the friction coefficient of the pads drops drastically with oil.

5. The utility model discloses a friction disk is fixed on the high-speed shaft with an expansion sleeve, and the friction disk is equipped with the clutch blocks, and these clutch blocks can move along friction disk hole axis direction. The braking force is directly transmitted to the friction disc by the spring through the pressing ring and the piston shell, and the piston of the single-disc clutch act simultaneously. When the piston acts, the pressing ring can be opened. To avoid unnecessary travel of the annular piston, the spring is provided with a pressure sleeve. The press sleeve is dimensioned to ensure a stroke of the annular piston of 1 mm. That is, dimension "X" is guaranteed to be (0.8-1) mm at the time of assembly, and dimension X can be readjusted by tightening the nut on the bolt and correspondingly loosening the adjusting screw.

6. The utility model discloses a rubbing block wearing and tearing back, the clamping ring leans on with piston shell mutually, and this is exactly can no longer pass through disc transmission torque. When the springs and discs are removed, the pads can be easily replaced, the pads never being allowed to lubricate, and must remain completely dry when replacement parts are replaced. Since the friction coefficient of these pads under oil friction decreases drastically.

7. The safety ring of the utility model ensures that once the screw is broken under the tension action of the spring, the safety ring can be bolted (cannot fly out).

8. The utility model discloses a forge the roller under and support in two eccentric sleeves that take the tooth, dress two epaxial gears of adjustment mesh mutually with eccentric sleeves, can change the roller of forging and forge the roller interval down through rotatory this adjustment axle, adjust the centre-to-centre spacing that can forge the roller under the fixed range changes, solved if through long-time operation, roll forging mould causes the diameter to diminish through the coping, at this moment forge the problem that the interval of roller must correspondingly reduce.

9. The utility model discloses a can change and forge distance between the roller, two gears of forging the roller about connecting are long tooth gear, because the centre-to-centre spacing changes and removes the increase to make the side between the long tooth, so the position installation tooth clearance compensator of two long tooth gears of forging the roller under and connecting the roller to all important lubricating points are all through electronic grease pump self-feeding lubricating oil.

Drawings

Other objects and results of the invention will be more apparent and readily appreciated by reference to the following description taken in conjunction with the accompanying drawings, and as the invention is more fully understood. In the drawings:

fig. 1 is a schematic view of a structure according to the prior art.

Fig. 2 is a schematic overall structure diagram according to an embodiment of the present invention.

Fig. 3 is a cross-sectional view of a clutch structure according to an embodiment of the present invention.

Fig. 4 is a cross-sectional view of a clutch structure according to an embodiment of the present invention.

Fig. 5 is an electrical appliance working principle diagram according to the embodiment of the present invention.

Wherein the reference numerals include: the brake comprises a motor 2, a high-speed shaft 3, a flywheel 4, a clutch 5, an idle friction disc 501, a clutch piston cover 502, a clutch piston 503, a positioning bolt 504, an adjusting bolt 505, a spring 506, a gearwheel 6, a long-tooth gear 7, an upper forging roller 8, a lower forging roller 9, a brake 10, a friction disc 1001, a brake piston shell 1002, a brake piston 1003, a spring 1004, a pressing ring 1005, a pressing sleeve 1006, an adjusting screw 1007, a tightening bolt 1008, a safety ring 1009, a pneumatic two-way connector 11, a rotary joint 12, an air storage tank 13, a two-position two-way valve A and a two-position two-way valve B.

Detailed Description

In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of one or more embodiments. It may be evident, however, that such embodiment(s) may be practiced without these specific details. In other instances, well-known structures and devices are shown in block diagram form in order to facilitate describing one or more embodiments.

Fig. 1-5 show the overall structure schematic according to an embodiment of the present invention.

As shown in FIG. 1, the embodiment of the utility model provides an automobile engine connecting rod forges uses roll forging machine clutch brake control mechanism, include: the forging device comprises a motor 2, a high-speed shaft 3, a flywheel 4, a clutch 5, a large gear 6, a long-tooth gear 7, an upper forging roller 8, a lower forging roller 9 and a brake 10, wherein the two upper forging roller 8 and the lower forging roller 9 which are arranged up and down are used for fixing a roll forging die, the upper forging roller 8 and the lower forging roller 9 are arranged in sliding bearings at two ends of a cast steel upright post, the upper forging roller 8 and the lower forging roller 9 are meshed through the two long-tooth gears 7, the motor 2 drives the flywheel 4 through a triangular belt, the flywheel 4 and the clutch 5 arranged on one side of the flywheel 4 are arranged in a rolling bearing on the high-speed shaft 3, the brake 10 is arranged on the high-speed shaft 3 on the other side of the flywheel 4, the high-speed shaft with the brake 10 loosened is driven by the flywheel 4 through the clutch 5 combined with the flywheel 4 through the rotary motion of the upper forging roller 8 and the lower forging roller 9, the high-, the upper forging roll 8 and the lower forging roll 9 are connected to each other through two gears having a 1:1 gear ratio, and the clutch 5 and the brake 10 are simultaneously operated by an electric valve control mechanism.

The clutch 5 in this embodiment is used for disconnecting a high-speed shaft and a forging roll, the clutch 5 is an electrically-pneumatically controlled single-disc friction clutch, the clutch 5 is installed on a flywheel 4, the flywheel 4 is installed on a roll bearing on a flywheel shaft, and the clutch 5 includes: an idle friction disc 501, a clutch piston cover 502, a clutch piston 503, a set bolt 504, an adjustment bolt 505, and a spring 506; said idle friction disc 501 is mounted on the high speed shaft 3 and transmits torque through the friction blocks, said clutch piston 503 is mounted on the clutch piston cover 502 and is located opposite to the idle friction disc 501, the clutch piston 503 is fitted over the set bolt 504 and reciprocates along the length of the set bolt 504, the inner race of the clutch piston cover 502 is mounted on the flywheel 4 by the set bolt 504, the outer race of the clutch piston cover 502 is mounted on the flywheel 4 by the adjuster bolt 505, the adjusting bolt 505 is horizontally installed on the clutch piston cover 502, the spring 506 is sleeved on the adjusting bolt 505, one end of the spring 506 is supported against the edge of the clutch piston 503, and the clutch 5 needs 5.5-6 ba of air pressure and is supplied with compressed air through an air connector supported by a roller bearing.

The brake 10 in this embodiment is mounted on the flywheel 4 and located on the opposite side of the clutch 5, the brake 10 is used for braking the roll forging machine to stop working, the brake 10 is a single-disc brake, and the brake 10 includes: the brake comprises a friction disc 1001, a brake piston housing 1002, a brake piston 1003, a spring 1004, a pressing ring 1005, a pressing sleeve 1006, an adjusting screw 1007 and a tightening bolt 1008, wherein the friction disc 1001 is fixed on a high-speed shaft 3 through an expansion sleeve, the friction block is mounted on the friction disc 1001 and moves along the axial direction of the friction disc 1001, the brake piston housing 1002 is mounted on the flywheel 4 through the tightening bolt 1008, the brake piston 1003 is mounted in the brake piston housing 1002, the spring 1004 is sleeved on the tightening bolt 1008, one end of the spring 1004 is supported on the pressing ring 1005, the pressing ring 1005 is arranged between the brake piston 1003 and the spring 1004, the other end of the spring 1004 is supported on the pressing sleeve 1006 arranged between the tightening bolt 1008 and a tightening nut, and the adjusting screw 1007 is mounted between the brake piston 1003 and the pressing ring 1005; a safety ring 1009 is mounted on the tightening bolt 1008.

The electric valve control mechanism in the present embodiment includes: pneumatic two antithetical couplet piece (model PAL600)11, two-position two-way valve (model D2776B4011) A, two-position two-way valve (model D2776B4011) B, rotary joint (model P25.4-11B)12 and gas holder (model 26L)13, gas holder 13 is used for the blowdown, guarantees that atmospheric pressure is steady, pneumatic two antithetical couplet piece 11 is connected with gas holder 13, gas holder 13 is connected with stopper 10 through two-position two-way valve A, gas holder 13 is connected with clutch 5 through two-position two-way valve B, rotary joint 12 is installed between two-position two-way valve B and clutch 5, and rotary joint 12 is used for connecting clutch 5. And the pneumatic two-way connector 11 is electrified to control the inflation pressure of the air storage tank 13 to reach 5.5bar, control the two-position two-way valve B to be electrified and control the clutch 5 to be disconnected through the rotary joint 12. And the pneumatic two-way connector 11 is electrified to control the inflation pressure of the air storage tank 13 to reach 5.5bar, the two-position two-way valve B is electrified for 0.2 second, the two-position two-way valve A is electrified for 0.2 second, and then the brake 10 acts.

In the embodiment, if the roll forging die is repaired and reduced in diameter after long-time operation, the distance between the upper forging roll 8 and the lower forging roll 9 must be correspondingly reduced, and the distance between the upper forging roll and the lower forging roll can be changed within a fixed range through the center distance adjusting device. For this purpose, the lower roll 9 is supported in two toothed eccentric sleeves, with which two toothed wheels mounted on an adjusting shaft engage, and by rotating this adjusting shaft the distance between the upper roll 8 and the lower roll 9 can be varied, and the adjusted distance can be read on a scale.

In this embodiment, in order to change the distance between the upper forging roll 8 and the lower forging roll 9, the two gears connecting the upper forging roll 8 and the lower forging roll 9 are long-tooth gears 7, and the center distance is changed to increase the side between the long teeth, so that backlash compensators are installed at the positions of the two long-tooth gears connecting the upper forging roll 8 and the lower forging roll 9.

The volume of air between the brake piston housing 1002 and the brake piston 1003 in this embodiment should be as small and constant as possible, and the volume of air between the clutch piston cover 502 and the clutch piston 503 should be as small and constant as possible.

The working principle is as follows: the clutch 5 and the brake 10 control the flywheel 4 to accurately control the position thereof, so that the braking position is stopped between 239-265 degrees each time. The operating principle of the clutch 5: the pneumatic duplex piece 11 is electrified, the inflation pressure of the air storage tank 13 is controlled to reach 5.5bar, the two-position two-way valve B is controlled to be electrified, and the clutch 5 is controlled to be disengaged through the rotary joint 12. The working principle of the brake 10 is as follows: and the pneumatic two-way connector 11 is electrified to control the inflation pressure of the air storage tank 13 to reach 5.5bar, the two-position two-way valve B is electrified for 0.2 second, the two-position two-way valve A is electrified for 0.2 second, and then the brake 10 acts.

The above embodiments are only specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of changes or substitutions within the technical scope of the present invention, and all should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (7)

1. A roll forging machine clutch brake control mechanism for forging an automobile engine connecting rod comprises: the forging device comprises a motor, a high-speed shaft, a flywheel, a clutch, a gearwheel, a long-tooth gear, two forging rollers and a brake, wherein the two forging rollers which are arranged up and down are used for fixing a roll forging die, the forging rollers are arranged in sliding bearings at two ends of a cast steel upright post, the two forging rollers are meshed through the two long-tooth gears, the motor drives the flywheel through a triangular belt, the flywheel and the clutch arranged on one side of the flywheel are arranged in a rolling bearing on the high-speed shaft, the brake is arranged on the high-speed shaft on the other side of the flywheel, the high-speed shaft is transmitted to the upper forging roller through the gearwheel, and the upper forging roller and the lower forging roller are connected with each other through the two gears with the same transmission ratio; the clutch and the brake are simultaneously actuated through an electric valve control mechanism, and the rotary motion of the two forging rollers is transmitted to a high-speed shaft with the released brake through the clutch on the flywheel;

wherein, the clutch is used for breaking off high-speed axle and forging the roller, the clutch is the single-disk friction clutch of electricity-gas control, the clutch is installed on the flywheel, the flywheel is installed on the epaxial roller bearing of flywheel, the clutch includes: the idle friction disc, the clutch piston cover, the clutch piston, the positioning bolt, the adjusting bolt and the spring; the idle friction disc is mounted on a high-speed shaft and transmits torque through a friction block, the clutch piston is mounted on a clutch piston cover and is arranged opposite to the idle friction disc, the clutch piston is sleeved on a bolt and reciprocates along the length direction of the bolt, the inner ring of the clutch piston cover is mounted on the flywheel through the positioning bolt, the outer ring of the clutch piston cover is mounted on the flywheel through the adjusting bolt, the adjusting bolt is mounted on the clutch piston cover along the horizontal direction, the spring is sleeved on the adjusting bolt, one end of the spring is supported against the edge position of the clutch piston, the clutch needs 5.5-6 ba air pressure, and compressed air is supplied through an air joint supported by a roller bearing;

wherein, the stopper is installed on the flywheel and is located the opposite side of clutch, the stopper is used for braking roll forging machine stop work, the stopper is single-disc brake, the stopper includes: the friction disc is fixed on a high-speed shaft through an expansion sleeve, a friction block is arranged on the friction disc and arranged along the axis direction of the friction disc, the brake piston shell is arranged on the flywheel through a tightening bolt, the brake piston is arranged in the brake piston shell, the spring is sleeved on the tightening bolt, one end of the spring is propped against the pressing ring, the pressing ring is arranged between the brake piston and the spring, the other end of the spring is propped against the pressing sleeve arranged between the tightening bolt and a fastening nut, and the adjusting bolt is arranged between the brake piston and the pressing ring;

the electric valve control mechanism includes: the pneumatic two-way valve is connected with the air storage tank, the air storage tank is connected with the brake through the two-position two-way valve A, the air storage tank is connected with the clutch through the two-position two-way valve B, and the rotary joint is arranged between the two-position two-way valve B and the clutch.

2. The control mechanism of clutch brake of roll forging machine for forging automobile engine connecting rod as claimed in claim 1, wherein said pneumatic coupling is energized to control the inflation pressure of said air tank to 5.5bar, and said two-position two-way valve B is energized to control the clutch to be disengaged via the rotary joint.

3. The control mechanism of the clutch brake of the roll forging machine for forging the connecting rod of the automobile engine as claimed in claim 1, wherein the pneumatic coupling is energized to control the inflation pressure of the air storage tank to 5.5bar, the two-position two-way valve B is energized for 0.2 second, then the two-position two-way valve A is energized for 0.2 second, and then the brake is actuated.

4. The control mechanism for the clutch brake of the roll forging machine for forging the connecting rod of the automobile engine as claimed in claim 1, wherein a safety ring is installed on the tightening bolt.

5. A clutch brake control mechanism for a roll forging machine for forging an automobile engine connecting rod as set forth in claim 1, wherein said lower roll is supported in two toothed eccentric sleeves, two gears mounted on an adjusting shaft are engaged with the eccentric sleeves, the distance between the upper roll and the lower roll can be changed by rotating the adjusting shaft, and the adjusted distance can be read on a scale.

6. The clutch brake control mechanism for a roll forging machine used for forging an automobile engine connecting rod as claimed in claim 1, wherein a backlash compensator is installed at a position of two long-toothed gears connecting the upper forging roll and the lower forging roll.

7. The clutch brake control mechanism for the roll forging machine for forging the connecting rod of the automobile engine as claimed in claim 1, wherein the volume of air between the brake piston housing and the brake piston is kept constant, and the volume of air between the clutch piston cover and the clutch piston is kept constant.

Images