RU2045408C1 - Pressing device - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: device has slide 4, tool holder 2 and wedges 5,6 mounted between slide and tool holder and driven by drive 7. When slide 4 effectuates return stroke wedges 5,6 are moved by drive 7 and tool holder working stroke is increased in step-by-step mode. EFFECT: increased efficiency, simplified construction and enhanced reliability in operation. 9 dwg

Description

 The invention relates to press devices and can be used in various industries.

 A press device [1] is known comprising a tool holder installed in the base rails and connected to the power drive by means of a wedge, as well as a return mechanism in the form of an additional wedge mounted parallel to the main wedge and directed in the opposite direction.

The disadvantage of this design is that the movement of the tool in both directions occurs only when exposed to wedges force directed at an angle of ⁹⁰ ° to the direction of movement of the tool holder, and to overcome the frictional force expended considerable part of the drive power and there is intensive wear of the rubbing surfaces of the slider and the tool holder .

 A press device [2] is known that contains a tool holder and a slider associated with the press drive, two parallel, connected to each other and equipped with a displacement drive in the direction perpendicular to the longitudinal axis of the press, wedges, the first of which is installed between supporting the surfaces of the slider and tool holder, and the second is associated with an additional supporting surface of the tool holder, as well as the return mechanism of the tool holder.

 This design when jamming the tool during the reverse stroke of the slide requires significant power of the tool holder return mechanism, while the return mechanism has a complex structure, and the power of the power drive, which exceeds the power of the return mechanism, is not involved.

 The purpose of the invention is the use of the reciprocating movement of the power drive as an amplifier of the mechanism of the return stroke of the tool holder while simplifying the design.

 To this end, the tool holder return mechanism is made in the form of the said second wedge, and the wedges are mounted with the possibility of movement together with the slider, the slider is made with an additional supporting surface, the second wedge is arranged to interact with the additional supporting surface of the slider, additional supporting surfaces of the slide and tool holder are located with opposite to the first wedge, the sides of the second wedge, and the wedges are made oppositely directed.

 In Fig.1 shows a frontal section aa of the press unit, in Fig. 2; in Fig.2 and Fig.3 horizontal sections BB and BB in Fig.1; figure 4, 5, 6 and 7 cross-sections GG, DD, EE and FJ in figure 3; in Fig.8 and 9 section II, fragments with a Z-shaped wedge.

 The press device comprises a tool holder 2 located in the guides of the base 1 (Fig. 1) and a slider 4 connected to the drive 3 of the press. Two parallel wedges, one of which 5 is installed between the supporting surfaces K of the slider 4 and L of the tool holder 2, and the second 6 is paired with additional the surfaces M of the tool holder 2 and H of the slider 4. The wedge 6 is connected to the wedge 5 and connected to the drive of the return mechanism 7. When the wedges 5 and 6 are installed separately (FIGS. 1-7), the slider 4 and the tool holder 2 are made Z-shaped. In the case of the formation of Z-shaped wedges (Figs. 8-9), the sliders and tool holder 2 are made with a corresponding groove covering the corresponding wedge. For example, the punch of the punch stamp 9 is taken as a tool 8, and a crank mechanism as a power drive.

 Installation works as follows. The slider 4 from the actuator 3 performs a reciprocating motion. If wedges 5 and 6 are in place, then the tool holder is in place.

 When the forward drive of the return mechanism 7 is turned on during the reverse stroke of the slider 4, a wedge 5 is fed into the formed gap (2e), and a wedge 6 is output, after which the slider 4, wedge 5 and tool holder 2 make a working stroke by the amount of 2e. During the reverse stroke of the slider 4, the wedge 5 is again fed, etc. before the tool makes the desired move. During idling of the tool, as well as at low resistance forces, the tool holder 2 moves with greater speed under the action of a wedge 5 or 6 connected to the working drive of the return mechanism 7. When large resistance forces appear, when the power of the drive of the return mechanism 7 is not enough, the tool holder begins to move with stops and jogging in 2e. The same thing happens when you turn on the reverse drive of the return mechanism.

 In addition to the simplicity of the design, this technical solution can significantly reduce the installation capacity of the press, which allows to reduce the cost of its maintenance and reduce its cost.

Claims (1)

 A PRESS DEVICE containing a tool holder located in the base guides and a slider connected to the press drive, two parallel motionlessly connected to each other and equipped with a displacement drive in the direction perpendicular to the longitudinal axis of the press, wedges, the first of which is installed between the supporting surfaces of the slider facing one another and tool holder, and the second is paired with an additional supporting surface of the tool holder, as well as a tool holder return mechanism, characterized the fact that the tool holder return mechanism is made in the form of the said second wedge, and the wedges are mounted with the possibility of joint movement with the slider, the slider is made with an additional supporting surface, the second wedge is arranged to interact with the additional supporting surface of the slider, additional supporting surfaces of the slide and tool holder are located with opposite to the first wedge, the sides of the second wedge, and the wedges are made oppositely directed.