RU2324566C2 - Press hammer - Google Patents

Abstract

FIELD: mechanic.

SUBSTANCE: press hummer contains guiding tubes, a dropping weight, and a moving platform with cylindrical cavities and a lower stamp matrix. The cavities, in which plungers are placed, are filled with loose material to a height of 0.1 - 1000 mm. The press hummer is provided with conductor pipes filled with sand up to a height of 0.1 - 195.5 m. In the pipe cavities, plungers are located, supported by elastic elements, sand, and rock. The plungers in the cylindrical cavities of the platform are supported the loose material, which thrusts to their upper plane, for providing deformation of the sheet in the lower stamp matrix, while their lower plane thrusts to the plungers in the conductor pipes. The dropping weight is designed as a lower platform with an upper stamp matrix and cylindrical cavities filled with loose material to a height of 0.1 - 1000 mm. In the mentioned cavities, plungers are also installed. On the lower platform, the upper stamp matrix and the upper solid platform are placed and connected with it.

EFFECT: increases accuracy of part production; increases lifetime of process equipment and decreases noise and vibration.

2 cl, 1 dwg

Description

The invention relates to the field of pressure processing and can be used in the manufacture of technological machines for stamping operations.

Known press hammer containing a cylinder with a plunger and a column of liquid, guide tubes, falling load and table (SU 323181 A, 02.21.1972, B21J 11/00).

The disadvantages of the known press hammer are as follows:

- breakage and rapid wear of the stamp, which reduces the accuracy of manufacturing parts;

- high noise level and increased vibration of the press hammer and the premises and workshops.

The technical problem to which the claimed invention is directed is to increase the accuracy of manufacturing parts, increase the service life of steel dies, reduce vibration and noise.

To solve the problem, the press hammer contains guide tubes and a falling load, characterized in that it is equipped with a platform with movable cylindrical cavities filled with bulk material to a height of 0.1-1000 mm, located on the indicated platform with a lower die matrix, plungers installed in the cylindrical cavities of the platform, casing pipes with a length of 0.1-200 m, filled with sand to a height of 0.1-195.5 m, and plungers located in the cavities of the casing pipes supported by elastic elements, pesos and rock, the plungers installed in the cylindrical cavities of the platform are located with their upper plane resting on the bulk material to ensure deformation of the sheet in the lower die matrix, and the lower plane on the plungers located in the casing pipes, and the falling load is made in the form of a lower platform with cylindrical cavities filled with bulk material to a height of 0.1-1000 mm, located in the aforementioned cylindrical cavities of the lower platform of the plungers and installed on the lower platform and connected to it matrix of the upper die and the upper monolithic platform, equipped with hooks on both sides, the lower platform plungers are mounted with support from the upper side on bulk material in the cylindrical cavities of the lower platform to ensure deformation of the sheet in the matrix of the upper die and with the possibility of support from the lower side at the time of impact on the matrix bottom stamp.

As bulk material used small steel balls, or steel shot, or sand, or graphite powder.

The invention is illustrated in the drawing, which shows the press hammer.

The press hammer is equipped with a movable platform 1 with cylindrical cavities 2 filled with bulk material 0.1-1000 mm, located on the indicated platform with a lower die matrix 3, plungers 4 installed in the cylindrical cavities of the platform 1, casing 5 with a length of 0, 1-200 m, filled with sand to a height of 0.1-195.5 m, and plungers 6 located in the cavities of the casing 7 supported by elastic elements 8, sand and rock, the plungers 4 installed in the cylindrical cavities of the platform 1 are located with support the upper plane on the bulk material to ensure deformation of the sheet 9 in the matrix 3 of the lower stamp, and the lower plane on the plungers 6 located in the casing 5, and the falling load is made in the form of a lower platform 10 with cylindrical cavities 11 filled with bulk material to a height of 0 , 1-1000 mm, located in the aforementioned cylindrical cavities of the lower platform of the plungers 12 and mounted on the lower platform 10 and connected to it by a matrix 13 of the upper stamp and the upper monolithic platform 14, equipped with hooks 15 on both sides, the plunger gers 12 of the lower platform 11 are mounted with support from the upper side on the bulk material in the cylindrical cavities of the lower platform to ensure deformation of the sheet 16 in the matrix 13 of the upper stamp and with the possibility of support from the lower side at the time of impact on the matrix 3 of the lower stamp.

As bulk material used small steel balls, or steel shot, or sand, or graphite powder.

Press hammer works as follows.

Consider the operation of a press hammer using only bulk material.

Before starting the operation of the press hammer, the cavities of the 11 cylinders of the lower platform 10 of the falling load mounted on a special steel stand are filled with bulk material, for example, small steel balls or graphite powder. A deformable sheet 16, a matrix 13 of the upper stamp and the upper 14 monolithic platform are installed on the platform. The platforms 10, 14 and the matrix 13 are connected by bolts (not shown).

Then the cable loops are put on the hooks 15 of the falling load, and the cable hooks are inserted into the holes of the lower die matrix 3 (the loop, cable and hook are not shown in the drawing) and the matrix 3 and platform 1 with plungers 4 are lifted up and installed on the previously indicated steel stand.

After that, the matrix 3 of the lower stamp is disconnected from the platform 1 and lifted up by a lifting device.

The cavities of the 2 cylinders are filled with bulk material and a deformable sheet 9 and a matrix 3 are installed on the platform 1. The matrix 3 of the lower die is fixed with the platform 1 with bolts. Then, with a lifting device, the assembled elements are installed on the plungers 6 located in the cavities 7 of the casing 5 with support on the elastic elements 8, columns of compacted sand and rock.

Falling load 10, 14, matrix 13, bulk material and plungers 12 move down, the latter strike the matrix 3 of the lower stamp. Due to the inertial and gravity forces of all the elements of the falling load, pressure is created on the matrix 3, platform 1, fixed plungers 4 located in the cavities 2 of the lower platform, as well as on the fixed plungers 6, elastic elements 8, packed sand columns located in the cavities 7 casing pipe 5 and rock.

When the bodies collide, the matrix 3, platform 1 and the falling load 10, 14, 13 move downward relative to the axes of the cylinders of the lower platform 1, located on the side of the casing 5, and create pressure on the upper planes of the stationary plungers 4, bulk material enclosed in the cavities of 2 cylinders lower platform, while pressing the deformable sheet 9 into the cavity of the matrix 3 of the lower stamp.

And with a sharp braking of the plungers 12 of the lower 10 of the platform of the falling load and the matrix 13, the plungers and bulk material enclosed in the cylinders of the platform move upward, pressing the deformable sheet 16 into the cavity of the matrix 13 of the upper die.

The bulk material used in the dies allows you to raise the falling load to any height, and therefore, change the speed and energy of the falling load, increase the life of the matrix by replacing the punch with a plunger and a column of bulk material.

Under shock loads, the bulk material does not create high pressure on the cylinder walls, but basically the pressure is directed towards the deformable sheet.

Bulk material in combination with impacting elements of different stiffness allows to reduce the vibration of the press hammer and the premises of the workshop and the noise level by dispersing the initial kinetic energy of the falling load.

With constant energy, mass and speed of the falling load, the shape, amplitude and duration of the force pulse can be changed by reducing or increasing the column of bulk material. For a bulk material layer of 0.1-5 mm, the amplitude of the force pulse is maximum, and for a column of bulk material 200 m, the amplitude of the force pulse decreases to zero.

A column of bulk material 0.1-1000 mm, located in the cylindrical cavities of the platforms, is determined by the volume of the cavities of the matrices and the dimensions of the deformable sheets. In this case, for the deformation of the sheet, the main parameter is the mass of the falling load. The greater the height of the column of bulk material, the more the mass of the falling load is selected.

Claims (2)

1. A press hammer containing guide tubes and a falling load, characterized in that it is equipped with a movable platform with cylindrical cavities filled with bulk material to a height of 0.1-1000 mm, located on the specified platform with a lower die matrix, plungers, installed in the cylindrical cavities of the platform, casing pipes with a length of 0.1-200 m, filled with sand to a height of 0.1-195.5 m, and plungers located in the cavities of the casing pipes supported by elastic elements, sand and rock, plungers, installation located in the cylindrical cavities of the platform are located with their upper plane resting on the bulk material to ensure deformation of the sheet in the matrix of the lower die, and the lower plane on the plungers located in the casing, and the falling load is made in the form of a lower platform with cylindrical cavities filled with bulk material to a height of 0.1-1000 mm, located in the aforementioned cylindrical cavities of the lower platform of the plungers and installed on the lower platform and connected to it by the matrix of the upper stamp and the upper mono cast platform, equipped with hooks on both sides, the lower platform plungers are mounted with support from the upper side on the bulk material in the cylindrical cavities of the lower platform to ensure deformation of the sheet in the matrix of the upper stamp and with the possibility of support from the lower side at the time of impact on the matrix of the lower stamp. 2. A hammer press, characterized in that small steel balls, or steel shot, or sand, or graphite powder are used as bulk material.