UA48309C2 - Mechanical press without rod - Google Patents

Abstract

An invention relates to the metal by pressure treatment field, i.e., to the forge-pressing machine building and may be used in mechanical presses, used in the die-stamping production. The mechanical press without rod contains a bed 1, a crosshead 3 with the spring elements 7, disposed in the bed guides, an eccentrically shaft 4, encompassed by a round connecting rod 5 of cylindrical form with a center which is displaced relative to the eccentric shaft axes, and also a fixing element 8 and power switching on unit 9. Between the crosshead and the connecting rod an eccentric sleeve 6 is disposed, a center of external surface of which coincide with a longitudinal axes of eccentric shaft 4 rotation, and on the end surface a fixing element 8 is installed with a mobile fixing and a possibility of alternative connection to the eccentric sleeve with the crosshead 3, and with the eccentric shaft 4. Furthermore, the external cylindrical surface of the eccentric sleeve 6 is connected by a hinge with a hole in the crosshead 3, and the internal - with the external surface of the round connecting rod 5. The fixing element 8 may be made as a sliding crosshead, which has a mobile connection to the power switching on unit 9 and to the two springs with different spring rate. In the base of the invention the task to simplify the design and increase the operational reliability is put.

Description

Description of the invention

The invention relates to the field of metal processing by pressure, namely to forging and press engineering and 2 can be applied in mechanical presses used in stamping production.

Widely known mechanical rodless presses with a crank-wheel executive mechanism, which usually consist of a bed placed in the guides of the bed slider with an internal hole, where a wheel connecting rod is installed, which covers an eccentric shaft installed in the thrust bearings of the bed, as well as an electric drive and a friction switch-on clutches |1). They are used in forging and stamping 70 production to perform distribution operations, mainly cutting - punching sheet material.

The disadvantage of known mechanical connecting rod presses is the presence of a friction clutch of complex design and considerable cost. This reduces the reliability of the presses, as the clutch heats up during operation, requires frequent replacement of friction elements and is characterized by increased noise when compressed air is released into the atmosphere. In addition, the products of the operation of the friction elements, which include 72 environmentally harmful asbestos, enter the air, worsen the working conditions of the stampers and the state of the environment.

The well-known connecting rodless press, which is accepted as a prototype, has a bed, a slider with elastic elements placed in the guides of the bed, an eccentric shaft, which is covered by a cylindrical element inserted in the slider with a center offset relative to the axis of the eccentric shaft, a retainer, a stop, a lever, a cam and a power assembly in the form of three pneumatic cylinders (21.

The disadvantage of the prototype is the complexity of the design and, as a result, insufficient reliability in operation. The well-known switching system contains a large number of parts, for example, a lever and a stop and a cam and a lock with double-sided self-locking bevels, which are difficult to put one against the other during the oscillating movement of the stage, as well as three pneumatic cylinders, the work of which must occur in a strictly defined sequence. with

The lack of rigidity of the known design due to the presence in the center of the cylindrical rocker of a through longitudinal hole for moving the rocker stone to the left and right should also be attributed to the disadvantage.

The nature of the improvement, as can be seen from the claims of the invention, consists in placing between the slider and the cylindrical element with the center offset relative to the axis of the eccentric shaft, which in connecting rodless presses is called a wheel connecting rod, an additional eccentric bushing, on the end surface of which is movably mounted on a fixing element with the possibility of alternating connection of an eccentric sleeve with a slider or with an eccentric shaft. In this case, the outer cylindrical surface of the eccentric sleeve is hinged with the hole in the slider, and its center coincides with the longitudinal axis of rotation of the eccentric shaft. The inner cylindrical surface of the eccentric sleeve is hinged with the outer the surface of the wheel connecting rod. Ge)

The fixing element can be made, for example, in the form of a sliding slider, which is movably connected to the switching power unit, for example, to an electromagnet, pneumatic or hydraulic cylinder, and to two M elastic elements of different stiffness. The combination of features proposed in the formula of the invention provides a new, previously unknown effect in the form of a new design of a mechanical connecting rod and clutchless press. "

Thus, the known press has a complex and insufficiently reliable design of the switching system and low C 70 rigidity of the executive mechanism with a through hole, which reduces the accuracy of stamping, c The invention is based on the task of simplifying the design and increasing reliability in operation. z" The task is achieved by the fact that in a known press, which consists of a slider with elastic elements placed in the guides of the bed, an eccentric shaft, which is covered by a circular connecting rod installed in the slider, a cylindrical shape with a center offset relative to the axis of the eccentric shaft, a locking element and a power assembly , an eccentric sleeve is placed between the slider and the wheel connecting rod, the center of the outer surface of which coincides with the longitudinal axis of rotation of the eccentric shaft, and on its end

Ge | a movably fixed fixing element is installed on the surface with the possibility of alternating connection of the eccentric sleeve with the slider or with the eccentric shaft. The outer cylindrical surface of the eccentric sleeve is hinged with the hole in the inner slider - with the outer surface of the wheel connecting rod. The fixing element can 20 be made in the form of a sliding slider, which is movably connected to the switching power unit and to two elastic elements of different stiffness. c The technical result of the invention is to increase the reliability of the press due to the simplification of the clutchless system of turning on the slider during the working stroke and to increase the accuracy of stamping due to the increase in the rigidity of the main executive mechanism of the press, which is several annular eccentric elements inserted 25 inside the hollow slider.

GF) The invention is explained by drawings, where Fig. 1 shows the proposed mechanical clutchless press when it is idle, and Fig. 2 shows the sliding press when it is working. Fig. 3 shows a longitudinal section A-A about Fig. 1.

The mechanical connecting rodless press consists of a bed 1, in the guide elements 2 of which a slider of the Z 60 frame type with an internal hole is installed, an eccentric shaft 4, a wheel connecting rod 5, an eccentric sleeve 6, elastic elements 7, placed between the bed 1 and the slider 3. The outer cylindrical surface eccentric sleeve 6 is hinged with the hole in the slider Z, and the inner surface is connected to the outer surface of the circular connecting rod 5. The center of the outer surface of the eccentric sleeve b coincides with the longitudinal axis of rotation of the eccentric shaft 4. In the diagrams shown in Fig. 1 and Fig. 2, point A is the center of the outer surface of the eccentric shaft 4, point B is the center of the outer surface of the wheel connecting rod 5, point O is the longitudinal axis of rotation of the eccentric shaft 4 and the center of the outer surface of the eccentric sleeve 6. Then the eccentricity of the latter is

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On the end surface of the eccentric sleeve b, a locking element 8 of the slider, rotary or rocking type is movably fixed with the possibility of alternate connection of the sleeve 6 with the slider З or with the eccentric shaft 4 and the wheel connecting rod 5. The fixing element 8 is movably connected to the slider З power unit of switching on 9, made in the form of a pneumatic cylinder, an electromagnet, a hydraulic cylinder, etc.

For example, when performing the fixing element 8 in the form of a sliding slider, the latter has the possibility of 7/0 translational movement in the guide elements 10 attached to the end surface of the eccentric sleeve 6. The sliding slider is connected to an elastic element 11 of low stiffness, for example, with a compression spring, the force the action of which is directed in the direction of slider 3. Stop 12 is installed on slider C, stop 13 on the end surface of eccentric shaft 4, and stop 14 on the end surface of wheel connecting rod 5. Shock absorbers 15 in the form of rubber, polyurethane pads are attached to the working surfaces of the stops or other elastic materials or elements, such as springs. The thickness of the slider Z exceeds the thickness of the eccentric sleeve 6, the wheel connecting rod 5 and the eccentric of the shaft 4 by at least half the height of the sliding slider 8, under which a groove 16 is made in the body of the slider opposite the power unit of inclusion 9. The width of the groove is equal to the width of the slider 8, taking into account the gap for moving the latter.

When the switching power assembly 9 is made in the form of a pneumatic cylinder, its rod 17 is in constant contact, for example through the heel 18 (not shown conventionally in Figs. 1 and 2), with the end surface of the sliding slider 8. Above the piston 19 of the pneumatic cylinder is placed an elastic element 20 of great stiffness, for example a compression spring, the force of which is greater than the force of the elastic element 11 and is directed in the direction of the eccentric shaft 4. The latter is installed in the support bearing 21 and is rigidly connected to the flywheel 22, for example by means of a key. with

A mechanical connecting rodless press with a clutchless system for switching the slider to the working stroke works as follows.

In the absence of an energy carrier (compressed air, electricity, high-pressure fluid, etc.) being supplied to the switching power unit 9, the locking element 8 connects the eccentric bushing 6 with the eccentric shaft 4 and the circular connecting rod 5. When the eccentric shaft 4 rotates together with the latter, the circular b z connecting rod 5 and eccentric sleeve 6. These three parts together form a single cylindrical body that rotates inside the cylindrical hole in the slider Z around the center O, which coincides with the axis of rotation o of the eccentric shaft 4. The slider Z remains stationary and is held in the extreme to the upper position with the help of elastic elements 7.

When the energy carrier is brought to the power unit of switching on 9, the fixing element 8 is transferred to the second so

From the position and connects the eccentric sleeve b with the slider Z, which leads to its braking and stopping. With further rotation of the eccentric shaft 4, the wheel connecting rod 5 begins to swing around the middle position, and the slider Z performs a translational working stroke down, carries out the technological operation of stamping and returns to the initial upper position. Then the cycle repeats.

If the energy carrier is turned off or its supply to the power unit is stopped in an emergency, the locking element 8 again connects the eccentric sleeve b with the eccentric shaft 4 and the circular connecting rod 5, which leads to their common idle rotation around the center O inside the hollow slider C, which stops and is held in the upper position by elastic elements 7. ;" In the case of performing a fixing element, for example, in the form of a sliding slider and using a pneumatic cylinder as a power unit, the peculiarities of their operation are as follows.

In idle mode, the sliding slider 8 is in the lower position (see Fig. 1) and connects the 5" eccentric sleeve 6 with the eccentric shaft 4 and the wheel connecting rod 5. When transferring rotation from the drive (not shown in the diagrams) to the flywheel 22 and the eccentric shaft 4 together with the latter rotate the connecting rod 5 and the eccentric sleeve b. Slider C remains stationary in the uppermost 2) position under the action of elastic elements 7.

If it is necessary to switch to the working mode, compressed air is supplied to the rod cavity of the pneumatic cylinder 9. Piston 19 together with rod 17 and heel 18 rises up and compresses spring 20. Sliding

Ge) the slider 8 under the action of the pre-compressed spring 11 moves up, comes out of contact with the stops 13 and 14 on the eccentric shaft 4 and the wheel connecting rod 5, and comes into contact with the stop 12 on the slider 3. When the slider 8 rests on the stop 12, it brakes together with the eccentric sleeve 4 due to compression of the shock absorber 15 and ov Stops. Thus, the eccentric sleeve 4 is connected to the slider C (see Fig. 2), becomes immobile and, when manufactured, for example, from bronze, plays the role of a sliding bearing. The eccentric shaft 4 continues (F) to rotate, the wheel connecting rod 5 begins to make a rocking movement to the left - to the right, and the slider Z moves down, performs a working stroke and returns to the upper position.

If it is necessary to switch to idle mode, compressed air is released from the rod cavity of the pneumatic cylinder 9. Under the action of the spring 20, the piston 19 with the rod 17 and heel 18 is lowered. Since the force developed by the stiffer spring 20 is much greater than the force required to compress the less stiff spring 11, the sliding slider 8 also moves down. After lowering the latter, the stops 13 and 14 of the movable eccentric shaft 4 and the wheel connecting rod 5 rest against it . The impact impulse that occurs in this case is extinguished due to the compression of the damping elements 15. When the sliding slider 8 has connected the eccentric sleeve 65 with the eccentric shaft 4 and the circular connecting rod 5, they all begin to rotate together around the center

O inside slider 3.

The outer cylindrical surface of these three co-rotating parts slides relative to the cylindrical surface of the inner hole in the slider 3. The latter stops and is held in the uppermost position by the elastic elements 7, and the press goes to idle mode when the drive together with the flywheel and the eccentric shaft continuously rotates, and the slider remains stationary.

The use of the stated mechanical connecting rodless press provides the following advantages: - increased reliability of work due to the simplification of the design of the press and reduction of the number of parts in the proposed clutchless switching system; 70 - increasing the service life of the press, reducing maintenance and repair costs, improving its operating conditions; - high stamping accuracy due to increased rigidity of the main executive mechanism of the press; - reduction of energy consumption for turning on and off the driven parts of the press.

The combination of the main features proposed in the formula of the invention provides a qualitatively new design of a mechanical /5 connecting rodless press with a clutchless switching system, which is unattainable with a traditional solution.

The design of the press is not obvious to specialists and introduces new possibilities into the design process of modern cranking equipment.

The listed distinctive essential features characterize the novelty of the declared technical solution and provide a positive effect in the form of simplifying the design and increasing reliability in work, as well as stamping accuracy.

The claimed invention can find use in forging and press equipment as a new clutchless design of specialized punching presses with a wheel connecting rod,

The technical and economic advantages of the proposed clutchless press consist in simplifying the design and increasing reliability. high school

References: 1. Crank forging and press machines!: Theory and design / V.I. Vlasov, A.Ya. Borzkin, I.K. and)

Bukin-Batgrev and others / Ed. YOU. Vlasova, -- M.: Mashinostroenie, 1982, p. 400, fig. 15.4, 2. Author's certificate Mo 1400892. Besshatunny press, M.Kl. VZOV 1/26, 1986. (at)

Claims (3)

30 The formula of the invention is , , (ze) 1. A mechanical connecting rodless press, consisting of a slider with elastic elements placed in the guides of the bed, an eccentric shaft, which is covered by a circular connecting rod of a cylindrical so 35 shape installed in the slider with a center offset relative to the axis of the eccentric shaft, a fixing element and a power assembly, "which differs in that an eccentric sleeve is placed between the slider and the wheel connecting rod, the center of the outer surface of which coincides with the longitudinal axis of rotation of the eccentric shaft, and a fixing element is movably installed on its end surface with the possibility of alternately connecting the eccentric sleeve with the slider or with the eccentric shaft. " 2. A mechanical connecting rod press according to claim 1, which differs in that the outer cylindrical surface of the eccentric sleeve is hinged with the hole in the slider, and the inner one is connected to the outer surface of the wheel connecting rod. and - - - . . . - and 3. A mechanical connecting rod press according to claim 1, which is characterized by the fact that the fixing element is made in the form of a sliding slider, which is movably connected to the power switching unit and to two elastic elements of different stiffness. Choir sh" (ee) (95) («c) 3e) ime) 60 b5