RO102041B1 - Thin polyethylene bags manufacturing machine - Google Patents

Abstract

4) Machine for making thin sacks of foil polyethylene

Description

The invention relates to a machine for making thin bags made of polyethylene foil with a cycle controlled by a programmer with a diagnostics circuit and is part of the field of material processing machines. plastic. . '

The machine for making thin bags processes polyethylene film, printed or unprinted, and performs the roll of the film on the coil, • advance of the film, driving the sheet in the phase of advance, correlating the speed of advance with the one of the roll, heat-welding and cutting of the bag from the foil, the control of the location of the cliché printed on the surface of the bag, the automatic control by programmer of all the phases of the cycle, including in the reproduction of the working cycle.

There are known machines for making thin bags of polyethylene sheet, in which the adjustment of the length and the advance movement of the foil is done by two separate kinematic chains, and the conducting of the foil when passing over the lower electrode in the feed phase is made by blowing compressed air, which , by means of a series of nozzles directed towards the surface of the foil, raises the foil over the lower electrode, thus preventing its foil from sticking, the machine functions being coman. data provided by a programmer with mechanical switches with mechanical contact, both at the actuation of the rod and at the closing of the electrical circuit.

These machines have the following disadvantages: the advance of the film and the adjustment of the length of the bag are realized through two kinetic chains, which complicates the machine constructively; reduced programmer's operational safety and service life; programmer speed limited to a maximum of 120 rpm; the transmission of the electrical control signal is performed: by mechanical contact, which produces ^: vibrations when establishing the contact; <high cost price; 'the advance of the film in the movement ·. ·. ·· of advance is achieved by the insufflation. of the air, requiring an electromagnetic control circuit and an air consumption; the jet ^; of air that is inhaled for driving

30.

the foil cools the electrode, increasing the energy consumption required to maintain the operating temperature. . ':

The object of the invention is to increase the working speed and operating life, reducing the cost price and energy consumption, operating safety of the machine without vibration and mechanical contacts in motion.

The technical problem that the invention solves is the regulation of the length of the bag and the movement of the film's advance by a single kinematic chain; the realization of the correlated control of the functions of a programmer with magnetic circuit and the management of the sheet in advance movement through a simple mechanical system.

The machine for making thin bags of polyethylene foil, according to the invention, comprises a rolling mechanism, a compensation mechanism, a welding-cutting mechanism, a mechanism with an optical system for controlling the location of the printed clip, a foil feed mechanism and adjusting the length of the bag consisting of a kinematic chain, a programmer with magnetic circuit for performing the correlated control of the functions and a simple mechanical system for the management of the film and the movement of advance.

In the following, an embodiment of the invention is given, in connection with FIG. 1 ... 11, which represents:

FIG. 1, the general sketch of the machine;

- fig. 2, section A-A of fig.

- fig.3, section B-B of fig.l;

- fig. 4, section C-C of fig.

- Fig. 5, section D-D of Fig. 1;

- Fig. 6, detail G of Fig. 5;

- Fig. 7, section F-F of Fig. 6;

. FIG. 8, the detail drawing of the magnetic switch;

- fig.9, a cycle for the adjustment of the programmer;

. FIG. 10, section H-H of FIG.

- fig. i l, section J-J of fig. 10.

The machine for making thin bags of polyethylene foil, according to the invention, is composed of the following main parts: from a rolling mechanism for a foil 1, composed of a motorized gear 50 · '4 tor 2, which, by means of a pair of rollers by firing 3, it drives the sheet 1 _: in a continuous movement, realizing the unfolding of this on a coil; a compensation mechanism composed of a row of rolls 4 arranged superiorly and a row of rollers 5 mounted on an oscillating arm 6 whose angle of oscillation is taken over by a translator of position 7, which transmits a control signal for controlling the engine speed 2, depending on the quantity of foil 1 consumed in a cycle, maintaining a balance between the quantity of rolled film and that consumed in the following phases; a foil feed mechanism, consisting of a pair of pull rolls 8, driven, through a chain with short spools and rollers 9, by a pair of feed rollers 10, identical to 8, the transmission ratio between the two pairs of rollers being 1: 1. The pair of rollers 10 is driven, by means of an electromagnetic coupling 11 (fig. 3), by a gear of multiplication of the speed, composed of three gears 12,

13, 14 and a gear shaft 15, stopping the pair of rollers 10 in a fixed position. being realized by actuating an electromagnetic brake 16, mounted at the opposite end of the roller. The toothed shaft 15 is driven by. a kinematic chain, consisting of a connecting rod and a rack 17, mounted in a slide stone 18, a rotating slide 19 and a adjusting screw 20. By rotating the end of the screw 20, the slide stone 18 is moved into the rotating slide 19, realizing the eccentricity E, which determines the length of the bag 'according to the relation L = K x E, where L = the length of the bag, and K = the calculated multiplication coefficient - from the transmission ratio of the kinematic chain. The rotating slide 19 is rigidly mounted on a shaft 21 driven by an electric motor with adjustable speed 22, via a trapezoidal belt 23 and a speed reducer

24. The advance mechanism, consisting of the marks 8 -; 24 trains the sheet 1 in a movement of failure ^; intermittently, so that, in a complete cycle, the foil 1 advances a length equal to the length of the bag, the travel time of the foil 1 being equal to the length of one half. cycle and is accomplished by rotating the connecting rod 17 from the top dead point ¹ to the lower one with the 180 ° angle, while in the car the electromagnetic coupling 11 couples the pair of rollers 5 and through the chain 9 the synchronous train and the pair. of rollers 8. When the rack rod 17 has reached the lower deadlock, the electromagnetic coupling is disengaged and the electromagnetic wire 16 is engaged by stopping the pair of rollers and the gear wheels. 12, 13, 14 and the toothed shaft 15 will rotate in the opposite direction and upon reaching the upper deadlock, the cycle will resume. in the empty phase of the advance mechanism,. foil 1, in the interval between the two pairs of rolls 8 and 10, will be at rest and in this phase it takes place the cutting and the thermal welding of the bottom of the bag.

A complete work cycle corresponds to a complete rotation made by the shaft 21, together with the rotating slide 18, during which time a bag is produced.

A welding-cutting mechanism (fig.3), composed of some eccentric lifting cams 26 and 27 in number of two, having the identical active profile, some identical loops

28, in number of two, to which are connected, with joint, some identical rods 29, in number of two, on which is mounted the electrode-knife assembly 25, which performs the thermal welding and cutting of the bag. The eccentric lift cams 26 and 27 are rigidly mounted on the shaft 21, at a rotation of the shaft executing a cycle of lifting-lowering of the electrode assembly 25, so that at each descent the welding and cutting of the bag takes place and during the lifting the advance foil and inserting it under the electrode.

An assembly for controlling the distance between the printed clutch and the bottom of the bag, consisting of ό pair of free rollers 30, a photocell 31, a pair of fixed position rollers 32 and a height-adjustable roller 33 and an adjusting device 34, through which . · the height of the roller 33 and, implicitly, and the length of the film 1 between the photovoltaic axis 31 of the photocell 31 and the electrode 25. The possibility of adjusting the length of the film is necessary for the proper placement of the clip printed on the surface of the bag.

The printed film is processed in 5, working mode with the photocell. In this case, the length of the bag is slightly larger than the length of the clamp printed on the foil.

In this regime, the electromagnetic coupling 10. 11 is actuated at the upper dead end of the pin 17 and is disconnected

- upon the notification by the photocell 31 of the sign on the cliché, so before the connecting rod 17 reaches the lower dead point 15. In this way, bags are made. the exact length of the cliche.

The machine also includes a programmer for control, correlated of all functions, which is driven by the shaft 20 21, by means of a 'chain wheel, a chain with chains and short rollers 36 and a chain wheel 38, having a ratio of 1: 1 transmission, the programmer being composed of a chain wheel 38, a bearing 25 bearing 39 made of non-magnetic material, a plate 40 made of steel, a shaft composed of a section 41, made of brass, and a section 42 with flange, made of steel, 30 permanent magnet 43 axially magnetized annular shape, some spacers 44, some. intermediate supports 45, one support, end

46, made of steel, a bearing cap

47, made of non-magnetic material 35, seven magnetic field concentrators 45 in number (figs. 6, 7), made of steel, switches with magnetic sensor 50 in seven, positioning parts 51 , made - 40 waves of non-magnetic material, some insulation plates 52 in number of seven, made of electrically insulating material, some screws 48 made of brass, some cams 53 made of 45, steel, each composed of two semicames in the angle. 180 ° hole, assembled by two, screws 56 (fig.5), some rings

.. spacers 54, made of steel · 'and nuts 55 made of steel. 50. The marks 38, 41, 42, .53, 54, 55, 56 constitute the rotating part of the programmer 35, and the rest of the marks the fixed part. The programmer 35, is driven by the shaft 21, by means of a chain wheel 37, a chain with short chains and reels 36 and a chain wheel 38, having a transmission ratio of 1: 1. .

between the permanent magnet 43 and the flange of the section of the shaft 42 there was provided a clearance b = 0.2 ... 0.33 mm, and between the cam 53 and the magnetic field concentrator 49, a clearance a = 0.3 ... 0.4 mm.

The magnetic field created by the permanent magnet 43 (fig.4) is closed by the shaft section 42, the camshaft area 53, the field concentrator 49, which concentrates and drives the magnetic field in the sensitive area S of the switch with the magnetic sensor 50, continuing through the support 45 , the spacer 44 and the plate 40.

Under the action of the magnetic field, the switch with the magnetic sensor 50 closes an electrical control circuit, and when passing in front of the magnetic field concentrator 49 of the hollow zone, the magnetic circuit is interrupted, the switch 50 interrupts. the control circuit.

A duty cycle corresponds to a complete rotation of the cam 53, and the duration of the gap in front of the hub 49 corresponds to the duration of the transmission of the control signal, by the interruption of the magnetic circuit and, therefore, the interruption of the electrical circuit by the switch 50, this signal being transmitted to the control cabinet. it is controlled by means of coductors 57, where it is processed and transmitted to the ordered organs.

The angle of the hollow of the cam 53 (fig.5), which determines the duration of the control signal and, implicitly, and the execution time of the commanded function, is adjustable, and the angle of phase is also adjustable. β, the angle formed between the hollow of the cam and the passing beam; through the center of switch 50, considered a reference point 0 °. ί. '··

The programmer 35 (fig.4) 'has seven control modules designated to P.R.T.U.V.Z.X,

7 'Ț ·' A TE ;. ' Y 8 each commanding a distinct function of the machine, as follows:

- - the module P controls, by means of the electromagnetic coupling 11 and the electromagnetic brake; 16, the period and duration of 5 actuation of pairs of rollers 10 and 8, <. which advances the foil 1; Y .. · ....'- · .. ·.? - the R module controls the dynamic tuning of the motor 22, before stopping A 'thereof, so that the stopping takes place in 10 'the moment when the electrode 25 reaches the upper dead point; ⁷ . '' - mode T controls the stopping of the motor 22 when the electrode 25 reaches the upper dead point; 15 '- module U controls the timing: blocking of the foil feed when the machine is started, so that the foil feed will start only after the electrode reaches a properly adjusted position; 20

- module V controls the withdrawal of the end of the foil from the hot area of the electrode 25, so that during the stops the end of the foil does not melt under the action of heat, and when starting the machine it commands the return of the end of the foil;

- module Z controls the counting of the bags, the control signal emitted is taken over by the bag counter;

- Module X controls the validation period of the photocell 31, determining the duration during which the photocell 31 can detect the controlled sign on the printed film. Photocell 31 at the moment of its appearance in the field of view of the sign acts 35 on the electromagnetic brake 16, controlling the moment when the brake is triggered.

- The angles a and β in the seven modules will be adjusted according to the cyclograph in Fig. 9. 40

- The reference position 0 ° corresponds to the value of the angle of the slide 19, γ = 60 ° to the vertical.

- In addition, the machine also includes a device for driving the film (fig.10, 45

11), which consists of a fixed comb whose teeth are passed through the channels: a roller, driven, 57 and which has the role of A to prevent the adhesion of the sheet 1 on the surface of the roller 57 and a movable comb 58 of 50

To those teeth are passed through the channels of an advancing coach rail 59 and executing a swinging movement around the axis of the tooth holder, this movement in a sense is - provided by a rod 60, rigidly mounted 'on the movable electrode 25, which, at the end of the lowering stroke of the electrode 25, actuates: an arm 61, rigidly mounted on the shaft, of the tooth holder, so that, by rotating the movable comb 58 with a certain orientation, the lowering of the end of its teeth is realized, with the adjustable distance, foil 1 reaching on. the surface, upper of a fixed lower electrode 62, over which the electrode 25 descends, performing the thermal welding and cutting of the bottom of the bag. '

When the electrode 25 is lifted, the comb comb 58 and the lift from. new of the sheet 1 over the lower electrode 62 is provided by an arc-53, which rests on a fixed support 64 and acts an arm 65, rigidly connected to the movable comb 58 and to an eccentric cam 66, through which the angle of adjustment is adjusted. rotating the movable comb 59 and, implicitly, the lifting height of the foil h. Lifting the foil 1 on the fixed lower electrode 62 is necessary to prevent the adhesion of the foil from the heated body of the electrode 62, in the advance phase of the foil 1, in which a quantity of foil equal to a bag length passes between the heated electrodes 25 and 62, being necessary during the stopping of the machine.

The invention has the following advantages:

- simplified construction: the advance of the film and the adjustment of the length of the bag is realized through a single cinematic chain;

- lack of mechanical contacts, so elimination of vibrations when establishing contacts;

- increased service life and safety;

- it can increase the speed of the machine (with the programmer);

- reduction of electricity consumption;

/ - the leading of the film in the advance movement does not require separate control and actuation; _:

- low cost price.

Claims (8)

claims 1. Machine for making thin bags made of polyethylene foil with a cycle; · controlled by a programmer with a mag- netic circuit, composed of a mechanism - winding, a compensation mechanism, a, welding-cutting mechanism, a mechanic- ^: with an optical system for controlling the location of the printed cliché, characterized by the fact that, in order to increase ΐ the working speed and the operating time, allowing the adjustment of the length of the bag and the movement of the foil advance, it also has a film feed mechanism 15 and bag length adjustment, consisting of a kinematic chain, a magnetic circuit programmer for performing the correlated control of the functions and a simple mechanical system for driving the film 20 and the movement of the feed. : 2. A machine according to claim 1, characterized in that the advance of the film is made by means of pairs of rollers (8 and 10), connected by which- 25. rigid matrix between them by a chain (9), by a drive multiplier mechanism by an electromagnetic coupling (11) and an electromagnetic brake (16), formed by the gear wheels (12, 13, 14) and a gear shaft 30 (15), driven by a connecting rod (17), hinged mounted on a backstage (18), which, in turn, is mounted in a rotating slide (19), by means of the screw (20). ), so that, by rotating the screw (20), the eccentricity quota (E) is changed, by which the length of the produced bag is adjusted. Machine, according to claims 1 and 2, characterized in that the slide 40: rotary (19) is rigidly mounted on a shaft (21), being driven by a motor (22), by means of a belt (23) and to a reducer (24), the shaft (21) ) also trains the welding - cutting mechanism. 45 _: 4. Machine according to claims 1 and „· <3, characterized in that, for the“ command of its functions it is provided? with a programmer (35) with a magnetic circuit, which carries out the electrical controls 50 and without mechanical contact, by the action of a magnetic field created by a permanent magnet (43); controlled, by means of rotating cams (53), field concentrators (49) and the external magnetic circuit (40, 44, ... 45) on some switches, with -sensor. : r .i-rriș, integrated magnet (50). 5. The machine according to claims 1 .... .ri.fcj · 4, characterized in that the shaft of the programmer (35) consists of two sections of which one. section (41); . made of brass and the second section (42) of steel, and the cams (53) are composed of two semi-cams assembled, by means of screws (56), and the spacer rings (54) of steel and the nuts (55) also of steel ' constitutes the rotating part of the programmer (35), and the rest of the component parts are fixed, the camshaft operating angle (53) and the relative position of the camshafts being adjustable. The machine according to claims 1 and 5, characterized in that the field concentrator (49) directs the magnetic flux through the sensitive area of the magnetic sensor switch, and the leakage flow of a flow path travels the magnetic sensor switch of the adjacent path in the opposite direction to the actuator. 7. The machine according to claims 1 ... 6, characterized in that the conducting of the foil (1) in the forward movement, when passing over the lower electrode, is achieved by means of a fixed comb (56) whose teeth are crossed through the circular channels of a chain (57) and of a movable comb (58) whose teeth pass through the channels of a drive roller (59) and which execute an oscillation movement, driven being lowered by the upper electrode (25). and an arm (61), rigidly mounted on the shaft of the movable comb (58). 8.: Machine for making thin bags according to claims 1 ... 7, characterized in that the return of the movable comb (58) and the lifting of the foil (1) with the distance Λ above the lower electrode (62), in view. to prevent the film from sticking? (61) of the electrode, is made of a spring (63), which rests on a fixed support (64) and 'v' and actuates an arm (65); rigidly fixed to 11 ..., 7 '.? ) .. '? .12 the shaft of the movable comb (58), the return of the adjusting bracket is achieved by adjusting the bushing (65) until it is reached; the height Λ, during the breaks of the mentioning adjusting cam (66), and by turning it does not reach the elevated position.