CN203093057U - Punch driven by linear motor - Google Patents

Abstract

The utility model discloses a punch driven by a linear motor. The punch comprises a rack, the linear motor, at least one reinforcement hinge rod mechanism, at least one synchronous mechanism and at least one punch device. The punch utilizes the linear motor as a driving element, omits an intermediate conversion mechanism, and is high in operating efficiency; the punch further utilizes the length effect of a constant reinforcement lever and the angle effect between the hinge rods for amplification of an output force, and is suitable for occasions requiring for amplification of the output force of a punch pin.

Description

A stamping machine driven by a linear motor

technical field

The utility model relates to a stamping machine, in particular to a stamping machine driven by a linear motor.

Background technique

At present, punching machines are mainly driven by pneumatic components and hydraulic components, while pneumatic components have the disadvantage of small output force, and hydraulic components have the disadvantage of polluting the surrounding environment. Linear motor has the advantages of no contact, no wear, low noise, high precision, etc. It is a novel motor that directly converts electrical energy into linear motion without any intermediate conversion mechanism. It is equivalent to an independent drive element and is a This kind of "green" transmission technology has broad application and development prospects. At present, people's research on linear motors mainly focuses on the calculation of its control analysis mechanism, while the application in processing and manufacturing is less involved.

Utility model content

The technical problem to be solved by the utility model is to provide a stamping machine driven by a linear motor, which uses the linear motor as the driving element, omits the intermediate conversion mechanism, and has high work efficiency. The output force is amplified by the angle effect of the punch, which is suitable for occasions where the output force of the punch is required to be amplified.

In order to solve the above technical problems, the technical solution of the present invention is: a stamping machine driven by a linear motor, including a frame, including:

A linear motor, the linear motor includes a secondary mover and two primary three-phase windings respectively arranged on both sides of the secondary mover, the primary three-phase winding is fixedly installed on the frame, the secondary The extension direction of the stage mover and the primary three-phase winding is consistent with the punching direction of the punching machine;

At least one booster hinge mechanism, the booster hinge mechanism includes a booster hinge with one end hinged to the secondary mover, the other end of the booster hinge is hinged with a constant booster lever, and the constant booster lever The other end of the other end is hinged with the frame, the constant boost lever is hinged with a connecting rod, and the hinge point of the constant boost lever and the connecting rod is close to the hinge point of the constant boost lever and the frame;

At least one synchronization mechanism, the synchronization mechanism includes an upper synchronization rod and a lower synchronization rod, one end of the upper synchronization rod and one end of the lower synchronization rod are jointly hingedly mounted on the connecting rod, and the other end of the upper synchronization rod is connected to the The frame is hinged;

At least one punching device, the punching device includes a punch base and a punch slideway fixedly installed on the frame, the punch slideway is arranged above the punch base, and inside the punch slideway A punch is slidably installed, and the punch is hinged to the other end of the lower synchronizing rod.

Preferably, there are two force-increasing hinge lever mechanisms and they are respectively arranged on both sides of the secondary mover, each of the force-increasing hinge lever mechanisms is connected to two synchronization mechanisms, and each of the synchronization mechanisms is connected to There is a stamping device.

Preferably, the booster hinge mechanism, synchronization mechanism and stamping device are all arranged symmetrically with the secondary mover as the axis.

Preferably, the upper synchronizing rod and the lower synchronizing rod of the synchronizing mechanism located on the same side of the secondary mover are arranged in parallel.

Adopting the above-mentioned technical scheme, the beneficial effects of the utility model are: the punching machine uses a linear motor as the drive element, which is green and environmentally friendly, and is ingeniously symmetrically combined with the synchronous mechanism and the booster mechanism, which overcomes the small output force of the pneumatic components and the hydraulic components. The disadvantage of pollution has the advantages of obvious force amplification effect, good rigidity, and high space utilization rate, and the punching machine can flexibly increase or decrease the number of punches according to the size of the workpiece, and can also modify the form of the hinge rod to meet different processing requirements .

Compared with the hydraulic transmission press, the utility model has no pollution; compared with the general rotary motor transmission mechanism, it has no conversion elements and has a compact structure; compared with the general rigid cylinder press, it does not need additional accessories, and has low noise and high working efficiency.

Description of drawings

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

Fig. 2 is a schematic diagram of the structure of the stamping return state of the embodiment of the present invention;

Among them: 1. Secondary mover; 2. Primary three-phase winding; 3. Booster hinge rod; 4. Constant booster lever; 5. Connecting rod; 6. Upper synchronous rod; 7. Lower synchronous rod; 8. Chong Head base; 9, punch slideway; 10, punch.

Detailed ways

Below in conjunction with accompanying drawing and embodiment the utility model is further described.

As shown in Figure 1 and Figure 2 together, a stamping machine driven by a linear motor includes a frame (not shown in the figure), including: a linear motor, a booster hinge mechanism, a synchronous mechanism and a stamping device.

The linear motor includes a secondary mover 1 and two primary three-phase windings 2 respectively arranged on both sides of the secondary mover 1. The primary three-phase winding 2 is fixedly installed on the frame, and the secondary mover 1 and the primary three-phase winding The extension direction of 2 is consistent with the punching direction of the punching machine;

The booster hinge mechanism includes a booster hinge 3 hinged at one end with the secondary mover 1, the other end of the booster hinge 3 is hinged with a constant booster lever 4, and the other end of the constant booster lever 4 is hinged with the frame, and the constant booster lever 4 is hinged with the frame. Power lever 4 is hinged with connecting rod 5, and the hinge point of constant boosting lever 4 and connecting rod 5 is close to the hinge point of constant boosting lever 4 and frame;

The synchronization mechanism includes an upper synchronization rod 6 and a lower synchronization rod 7, one end of the upper synchronization rod 6 and one end of the lower synchronization rod 7 are jointly hingedly mounted on the connecting rod 5, and the other end of the upper synchronization rod 6 is hinged with the frame;

The stamping device comprises a punch base 8 and a punch slide 9 fixedly installed on the frame, the punch slide 9 is arranged above the punch base 8, and a punch 10 is slidably installed in the punch slide 9, and the punch 10 is hinged with the other end of lower synchronizing lever 7.

In this embodiment, the utility model adopts an overall symmetrical layout structure. The specific structure is: there are two force-increasing hinge rod mechanisms and they are respectively arranged on both sides of the secondary mover 1, and each force-increasing hinge rod mechanism is connected with two a synchronous mechanism, and each synchronous mechanism is connected with a stamping device. The force-increasing hinge mechanism, synchronous mechanism and stamping device are all arranged symmetrically with the secondary mover 1 as the axis. The upper synchronous rod 6 and the lower synchronous rod 7 of the synchronous mechanism on the same side of the secondary mover 1 are arranged parallel to each other.

Its specific working process is as follows:

When the primary three-phase winding 2 of the linear motor is fed with a three-phase sinusoidal current, under the action of electromagnetic thrust, the secondary mover 1 moves downward in a straight line, driving the booster hinge rod 3 and the constant booster lever 4 to both sides. Movement, the electromagnetic force is amplified twice by the booster hinge rod 3 and the constant booster lever 4, and then transmitted to the synchronous mechanism, and then amplified by it, and finally the output force is applied by the punch 10 to punch out the required workpiece. After the stamping process is completed, after switching the power lines of any two phases of the linear motor through the control switch, the secondary mover 1 will move upward in a reverse straight line, and the punch will be driven by the booster hinge rod 3 and the constant booster lever 4 10 Return, loosen the workpiece, and replace the new workpiece at the same time, so the reciprocating automatic work.

The punching machine uses a linear motor as the driving element, which is green and environmentally friendly. It is ingeniously symmetrically combined with the synchronous mechanism and the booster mechanism, which overcomes the shortcomings of small output force of pneumatic components and pollution of hydraulic components. It has obvious force amplification effect, good rigidity, and space. The advantages of high utilization rate, and the punching machine can flexibly increase or decrease the number of punches 10 according to the size of the workpiece, and can also modify the form of the hinge rod to meet different processing requirements.

Compared with the hydraulic transmission press, the utility model has no pollution; compared with the general rotary motor transmission mechanism, it has no conversion elements and has a compact structure; compared with the general rigid cylinder press, it does not need additional accessories, and has low noise and high working efficiency.

The utility model is not limited to the above-mentioned specific implementation manners, and various transformations made by those skilled in the art starting from the above-mentioned ideas without creative work all fall within the protection scope of the utility model.

Claims (4)

1. the motor-driven stamping machine of applicable line comprises frame, it is characterized in that, comprising:

Linear electric motors, described linear electric motors comprise secondary mover and two elementary three phase windings that are arranged at described secondary mover both sides respectively, described elementary three phase windings are fixedly installed on the described frame, and the bearing of trend of described secondary mover and elementary three phase windings and the pressing direction of described stamping machine are consistent;

At least one reinforcement toggle mechanism, described reinforcement toggle mechanism comprises an end and the hinged reinforcement toggle of described secondary mover, the hinged persevering boosting lever of the other end of described reinforcement toggle, the other end of described permanent boosting lever and described frame are hinged, described permanent boosting lever is hinged with connecting rod, and the pin joint of described permanent boosting lever and connecting rod is near the pin joint of described permanent boosting lever and frame;

At least one lazy-tongs, described lazy-tongs comprise synchronizing bar and following synchronizing bar, a described end and common hinged being installed on the described connecting rod of an end of following synchronizing bar of going up synchronizing bar, and the other end and the described frame of described upward synchronizing bar are hinged;

At least one decompressor, described decompressor comprises drift base and the drift slideway that is fixedly installed on the described frame, described drift slideway is arranged at the top of described drift base, is slidingly fitted with drift in the described drift slideway, and the other end of described drift and described synchronizing bar down is hinged.

2. the motor-driven stamping machine of a kind of applicable line as claimed in claim 1, it is characterized in that, described reinforcement toggle mechanism has two and be arranged at the both sides of described secondary mover respectively, each described reinforcement toggle mechanism all is connected with two lazy-tongs, and each described lazy-tongs all is connected with a decompressor.

3. the motor-driven stamping machine of a kind of applicable line as claimed in claim 2 is characterized in that, described reinforcement toggle mechanism, lazy-tongs and decompressor are that axis is symmetrical arranged with described secondary mover all.

4. the motor-driven stamping machine of a kind of applicable line as claimed in claim 3 is characterized in that, the last synchronizing bar that is positioned at the described lazy-tongs of described secondary mover homonymy be arranged in parallel in twos with following synchronizing bar.

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