SU1613357A1 - Double-action screw press - Google Patents

Abstract

The invention relates to mechanical engineering, in particular to the structures of screw presses. The purpose of the invention is to increase the productivity and reliability of the press. An external slide 2 is mounted in the guides of the press stand 1, in the cavity of which an internal slide 3 is mounted. The housing 6 of the nut 7 has a hollow screw 5 connected by a thread with the nut 4 of the internal slide 3. The nut 7 is articulated with a screw with screw 8. Connection of the external slide 2 with the housing 6 is made in the form of a screw pair with a screw on the housing 6 and a nut 12 in the slider 2. When the screw 8 rotates, the nut 7 is fixed. Slides 2 and 3 are moved down. An additional cross bar 20, mounted in the guides 19 between the slider 2 and the cross bar 17, by the stops 21 acts on the stops 26 and stops. Cross member 17 compresses elastic stops 25, acting on nut 15. Direction of threads nut 15 - body 6 and nut 12 - body 6 opposite to the direction of thread nut 7 - screw 8. From the action of the moments in the threads, body 6 with nut 7 begin to rotate. The slider 2 slows down, closing the tool without impact. For reverse, the flywheel is reversed. It is easy to adjust the positions of the cross member 17 with the nut 15 in the housing 16 and the additional cross member 20 with screws 22, which reduces press downtime. 1 il.

Description

The invention relates to mechanical engineering, namely to the design of screw presses.

The purpose of the invention is to increase the productivity and reliability of the press.

The drawing shows a press, General view, section.

The press contains a frame 1, in the guides of which an external slider 2 is installed, in the inner cavity of which there is an internal slider 3 with a nut 4 rigidly mounted in it, interacting with a hollow screw 5, which is rigidly connected with the housing 6 of the nut 7, interacting with the screw 8, on the upper end of which is equipped with a flywheel 9. The screw 8 is mounted in the frame 1 with the possibility of rotation in the thrust bearing 10 and the bearing 11. The hollow screw 5 and the housing 6 are installed in the outer slider 2 and connected with it by a screw pair in the form of a screw on the housing 6 and nut 12, tightly closed insulated in the housing 13, which is attached to the outer slider 2 through the spacer 14. Another screw thread on the housing 6 interacts with a nut 15, rigidly fixed to the housing 16, mounted in the cross member 17 with the possibility of rotation during commissioning and fixed by the stopper 18 during operation. The cross member 17 can move in the guides 19 located on the frame 1 or in the guides of the external slide (not shown). An additional cross member 20 with stops 21 and adjusting screws? Whether 22, on which elastic stops 25 are mounted with screws 23 and washers 24, is also installed in the guides 19. An additional cross member 20 is located between the cross member 17 and the rigid stops 26 mounted on the bed 1. Additional the cross member 20, as well as the cross member 17, can be moved in the guides of the outer slide (not shown). The direction of the threads of the screw pairs of the housing 6 with the nuts 15 and 12 is opposite to the direction of the thread of the screw pair of the nut 7 - screw 8.

On the inner slider 3, the outer slider 2 and the bed table 1, a working tool 27, 28, 29 and 30 is fixed.

Press works as follows.

Before starting the operation of the press, the outer slider 2 and the associated structural elements of the press are raised to their highest position. The inner slider 3 occupies an extreme upper position relative to the outer slider 2, while the highlanders of the screws 22 abut against the housing 13.

When the press drive (not shown) is turned on, the flywheel 9 and the screw 8 connected thereto begin to rotate rapidly and the screw 8 makes the nut 7, moving down the housing 6, the hollow screw 5, the outer 2 and the inner 3 of the sliders. The nut 7 and the housing 6 during the acceleration down do not rotate, so the cross member 17 and the additional cross member 20 are moved down together with the outer slider 2.

The joint movement of the outer slider 2 of the cross member 17 and the additional cross member 20 occurs until the contact of the stops 21 and 26, after which the additional cross member 20 stops, and the outer slider 2 continues to move down.

, The adjusting screws 22 and nut 15 to 1.0 are constructed in such a way that when the external slider 2 is not reached to the extreme lower position of the stop 2! additional cross member 20 rests on the stops 26, mounted on the frame I. In this case, a vertical force P arises from the elastic stops 25, which prevents the downward movement of the cross member 17 with the body 16 and nut 15 installed in it and connected to the latter through the screw thread of the case 6 of the nut 7 , hollow screw 5, outer 2 and inner 3 20 sliders. Under the action of the force P in the screw pairs, the nut 15 - the housing 6 and the nut 7 - the screw 8 produces torques Μι and M-2 - directed in the direction of rotation of the screw 8.

Under the action of the total torque ° M = Mi-j-M2, the housing 6 and the nut 7 begin to rotate rapidly in the direction of rotation of the screw 8.

The speed of movement of the outer slider 2 decreases and is determined by the expression _υΛ = ( _ωι - _ω2 ) ^ _- _ω2 . ^, (I) where ωι is the angular velocity of rotation of the screw 8; ω ₂ is the angular velocity of rotation of the nut Ί · hi is the threading of screw 8 and nut 7;

h-2 - thread stroke of the housing 6 and nut 12.

The housing 6 of the nut 7 moves downward and through the nut 15 in the housing 16 and the cross member 17 and the washer 24 compresses the elastic limiters 25, which accumulate the potential energy of elastic deformation of the limiters.

⁴⁰ The magnitude of the braking stroke of the outer slider 2 and the deformation of the elastic stops 25 are chosen so that the closing speed of the die matrices is zero. Based on this condition according to (I) receive

O) 2 = tO | · -. (2)

Λι-Ηζ

At the end of the braking stroke of the outer slider 2 ω ₂ = ωι and its speed is equal to zero, and the cross member 17 comes out of contact with the washers 24 and freely moves up to a stop in the lowermost position of the inner slider 3.

Thus, shockless closing of the working tool 28 and 29 occurs.

At the moment of closing of the working tool, the speed of movement of the internal slider S is equal to υ _β = (ωι —ω ₂ ) · ^ + ω ₂ · ^, (3) where Лз is the thread stroke of the hollow screw 5.

When the working tool 27 meets the workpiece (not shown), the deformation progresses until the energies of the moving parts completely transfer to the work of deforming the workpiece, while the press design provides a ratio of the pressing force P _n to the deformation force £

D _ / r ₃ —L, / a Λι4 ~ Λ ₂

To return the moving parts to their original upper position, the drive is reversed, the flywheel 9 and the screw 8 rotate in the opposite direction and rotate the nut 7 and the housing 6 until the cross member 17 is in contact with the washers 24, after which the housing 6 and the nut 7 stop and the movable parts rise to the extreme upper position. When the moving parts approach the upper position, the drive is turned off and the flywheel brake is applied (not shown), and the stamped workpiece is removed from the working tool 29 by the ejector 30. The cycle is completed.

The proposed technical solution allows you to adjust the course of the deformation of the elastic limiter in a wide range depending on the range of forgings, has a more technologically advanced in manufacture and reliable in operation threaded connection of the external slide with the body of the hollow screw - the nut of the external slide. The economic effect is ensured by increasing the productivity of the press, reducing the readjustment time and eliminating downtime.

Claims (1)

Claim 5 " Double-acting screw press, comprising an external slider mounted in the guides of the bed and an internal slider located in its cavity, an enclosure connected to the outer slider with nut ^{1 (3} , articulated thread with a screw mounted for rotation in the bed and rigidly connected to the drive flywheel, a hollow screw rigidly connected to the nut body, jointed by a thread with an internal slider, as well as a cross member with a nut, jointed by a thread with a nut body, while the direction of thread of the cross member nut is opposite to the direction for screw thread, elastic stops and stops mounted on the bed, characterized in that, in order to increase productivity and reliability, it is equipped with an additional cross member, the connection of the outer slider with the nut body is made in the form of a screw pair of screws on the body 2 ₅ and nuts on the outer slider, the cross member is installed with the possibility of adjustment relative to the nut body, the additional cross member is installed with the possibility of adjustment relative to the outer slider and is placed between the cross member and the supports of the mills otherwise, and elastic stops are located between the main and additional cross-members, and the thread direction of the screw pair of the connection of the outer slide with the nut body is opposite to the thread direction of the screw nut.