RU3246U1 - HYDROPULSATION PRESS WITH GEAR MECHANISM - Google Patents

Abstract

1. A hydraulic pulsation press with a gear mechanism, comprising a screw-mounted reversible drive for moving the matrix and a hydraulic pulse drive of the punch with a cylinder, characterized in that the helical reverse drive of the matrix consists of two pairs of parallel mounted gears, one of which has an overrunning clutch, and in the second, a clutch, both drives having a common motor. 2. Press according to claim 1, characterized in that tangentially springs are installed in one of the gears of the matrix displacement drive. The press according to claim 1, characterized in that the coupler has a hydraulic cylinder controlled by limit switches mounted on the bed of the press.

Description

HYDROPULSATION PRESS WITH GEAR MECHANISM

The proposed utility model relates to hydraulic pulp and paper presses intended for both industrial and handicraft industries.

A hydro-pulsation press is known in which the step-by-step mechanism deforms the workpiece by a screw mechanism with a manual, crank-knee or wedge drive (I). But these mechanisms have a small, limited working stroke.

Closest to the proposed one is coyotruction of the press with a step-by-step mechanism, consisting of separate hydro-pulsator drives and a gear mechanism of the matrix step-by-step movement (2). This press has a complex construction and has limitations on the size of the stroke.

This model solves the problem of creating an economical universal press with a simpler design.

This goal is achieved by the fact that in a press containing a screw mounted reversible drive of the matrix travel and a hydraulic sump, one drive with a reversible gear mechanism is used.

This mechanism consists of two pairs of gears installed in parallel, one of which contains an overrunning clutch, and the second a clutch.

In one of the gears of the first pair, tangentially mounted springs are used as the elastic link.

In FIG. I shows a longitudinal section of the press; in FIG. 2 - transverse section along BB; in FIG. 3 is a section along BB.

Fez consists of a power and chassis.

and the other with a gear 4. The power part was installed in the lower part of the U-shaped bed 5 with a tank 6. A vibrating punch 8 is connected to the piston of the hydraulic piston 7. The hydraulic pulsator 3 installed in the tank 6 is connected to the cavity of the hydraulic cylinder 7 (not shown).

On the shaft of the gearbox 4 there is a two-gear gear with gears 9 and 10 with a shank II located in the hole of the rack 12 of the bed 5. In the upper part of the bed, above the table. 12, the matrix drive mechanism is located 14. It consists of a screw 15 with a nut 16, a reversing drive. The screw 15 has a support flange 17, supported on a plate 18, mounted on the frame 5 by transverse bolts 19. A disk 20 is mounted on the shaft of the screw 15, through the springs 21 interacting with the gear 22 mounted on the disk. The springs 21 are mounted tangentially in the recesses of the gear 22 m. Between the stops of the gear and the disk.

On the surface of the disk 20, the working surface of the freewheel clutch with rollers 23 is made, interacting with the corresponding surfaces of the gear 22 coupled to the gear ring 9 of the gear 4. The disk 20 has a support bearing 24. The gear ring 10 is through an intermediate gear 25 mounted on the rack axis 26 12 is engaged with gear 27 having friction discs 28 of the clutch. Interacting discs 29 with spline connection 30 are coupled to the shaft of screw 15. These discs have a piston 31 located in cylinder 32 with an opening 33 for connection to a hydraulic control system :.

The press works as follows:

When the motor shaft I rotates, a hydro-pulsator 7 acts and a gear with gears 9 and 10 rotates through the gear 4. The reciprocating force of the punch 8 and the counter motion of the matrix 14 will be realized. The screw 15 is self-braking and the counter movement of the matrix 14 can

proceed with the return stroke of the punch 8.

The step shaping of the stamped product takes place during the stop of rotation of the screw 15 and the nut 16 is stationary. The step feed of the matrix 14 for the next shaping takes place when the screw 15 is rotated, the shaft of which with the disk 20 bypass rollers 23 is engaged with the gear 22,

When the screw 15 is stopped, the rotation of the gear 22 will cause the spring to compress. 21. If there is no load on the self-locking screw 15, the spring is rotated by turning the screw 15 and causing the matrix to move step 14. After the stroke has been made, the end switch is actuated and the discs are engaged with the piston 31 28 and 29 couplings.

The rotation of the gear 27 with the disks 28 through the intermediate gear 25 occurs in the opposite direction with an accelerated speed, which will cause the disks 20 and gear 22 to disengage.

The reverse movement of the matrix 14 will stop under the action of the second end switch, which controls the action of the hydraulic cylinder 32. The shaft of the screw 15 will be disengaged from the gear 27 rotating in the opposite direction. By the rollers 23, the shaft of the screw 15 will be engaged with the gear 22 and the next working step of shaping the product will be carried out.

The use of the proposed technical solutions will simplify the design of the hydro-pulsad press and allow the press to be used when working on any necessary working strokes, causing

universality of equipment.

Claims (3)

1. A hydraulic pulsation press with a gear mechanism, comprising a screw-mounted reversible drive for moving the matrix and a hydraulic pulse drive of the punch with a cylinder, characterized in that the helical reverse drive of the matrix consists of two pairs of parallel mounted gears, one of which has an overrunning clutch, and in the second, a clutch, both drives having a common motor.  2. Press according to claim 1, characterized in that tangentially springs are installed in one of the gears of the matrix displacement drive.  3. The press according to claim 1, characterized in that the coupler has a hydraulic cylinder controlled by limit switches mounted on the press frame.