CN110481873B

CN110481873B - Intelligent production line for foam packaging and forming processing

Info

Publication number: CN110481873B
Application number: CN201910780536.2A
Authority: CN
Inventors: 季明; 陈立神; 章松才; 何国斌; 叶明灿
Original assignee: Zhejiang Changcheng Packaging Building Materials Co ltd
Current assignee: Zhejiang Changcheng Packaging Building Materials Co ltd
Priority date: 2019-08-22
Filing date: 2019-08-22
Publication date: 2020-06-16
Anticipated expiration: 2039-08-22
Also published as: CN110481873A

Abstract

The invention discloses an intelligent production line for foam package forming processing, which comprises a die pressing unit, a die pressing unit and a control unit, wherein the die pressing unit is used for hot-pressing foam of particles to form a foam package with a shape; the device comprises a pressing plate device, a plurality of die cavities matched with the pressing plate device, a driving device used for adjusting different die cavities to be matched with the pressing plate device, and a discharging device used for realizing the separation of molded foam packages from the die cavities; the material arranging device is arranged at the lower part of the die cavity and is used for orderly arranging the materials discharged from the die cavity; and the material bundling device is used for bundling the materials which are orderly arranged. According to the invention, the operations of hot pressing, cooling discharging, material arrangement and bundling are all simultaneously realized on one production line, and automatic processing is adopted, so that the investment cost of equipment is greatly reduced, the automation degree of the processing process is improved, and the working efficiency is improved.

Description

Intelligent production line for foam packaging and forming processing

Technical Field

The invention belongs to the technical field of foam packaging, and particularly relates to an intelligent production line for foam packaging molding processing.

Background

The foam package is a package made of foam, and mainly refers to a package product made of Expandable Polystyrene (EPS) through hot processing by a mold, and the manufactured package product is commonly called as 'foam'. Under the condition of high load, the material achieves the effects of buffering and shock absorption through deformation, energy absorption, energy decomposition and the like, and has the functions of heat preservation and heat insulation. The foam package is manufactured through a plurality of operations of raw material foaming, hot pressing, cooling discharging, material sorting, bundling, drying and the like, the operations are all carried out in different devices, the device input cost is extremely high, the operations of material sorting, bundling, drying and the like are basically manual operations, and the working efficiency is low.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the intelligent production line for foam packaging and forming processing, which has high working efficiency and low equipment investment cost.

In order to achieve the purpose, the invention adopts the following technical scheme: an intelligent production line for foam package forming processing comprises

A molding unit for hot-pressing the foam of particles into a foam package having a shape; the device comprises a pressing plate device, a plurality of die cavities matched with the pressing plate device, a driving device used for adjusting different die cavities to be matched with the pressing plate device, and a discharging device used for realizing the separation of molded foam packages from the die cavities;

the material arranging device is arranged at the lower part of the die cavity and is used for orderly arranging the materials discharged from the die cavity;

the material bundling device is used for bundling the materials which are arranged in order;

the material pushing device is used for driving the neatly arranged materials to move to the position of the material bundling device in the process that the driving device adjusts different die cavities to be matched with the pressing plate device;

and the stacking device is used for stacking the bundled materials in the height direction and transferring the bundled materials to the cart.

According to the invention, the operations of hot pressing, cooling discharging, material arrangement and bundling are all simultaneously realized on one production line, and automatic processing is adopted, so that the investment cost of equipment is greatly reduced, the automation degree of the processing process is improved, and the working efficiency is improved; by arranging the pressing plate and the plurality of die cavities, the discharging of the front group of materials and the hot pressing of the rear group of materials can be simultaneously carried out, and the processing efficiency of the equipment is further improved; secondly, owing to set up a plurality of die cavitys for the die cavity can carry out the ejection of compact with the opening state down, thereby realizes neatly arranging under the operation of material all in one piece device after making the foam after the compression molding can neat whereabouts, and the later stage need not to arrange in order through the manual work again, directly ties up the operation, and work efficiency is high, and the material is arranged neatly, ties up effectually.

The die cavities are arranged into at least four groups, and each group of die cavities respectively comprises a bottom plate, a plurality of die holders distributed at intervals along the length direction of the bottom plate and cavities arranged in the die holders; the driving device comprises a rotatable rotating shaft, a plurality of connecting arms arranged on the rotating shaft and connected with the bottom plate, and a motor connected with the rotating shaft; the discharging device comprises an air channel arranged in the rotating shaft, a through groove arranged in the connecting arm and communicated with the air channel, a piston capable of moving back and forth and arranged in the through groove, a push rod arranged in the piston and capable of penetrating into the cavity and an air pump connected with the air channel; under the structure, the die cavity is only a cavity, the material injection and cooling are both arranged on the pressing plate device, and only the pressing plate device is driven to move, and the die cavity only rotates, so that the operation is simple and convenient, and the energy consumption is low; the ejection mode is adopted to realize the material discharge, the speed is high, and the material ejection is complete; and the jacking of the materials in the die cavities is realized by adopting the same air pump, so that the investment of a power source is small and the energy consumption is low.

The material sorting device comprises a blanking frame, a plurality of material separating plates arranged in the blanking frame, a blanking cavity formed between adjacent material separating plates, a material sorting cavity formed at the lower part of the blanking frame, and a discharge hole arranged on the side wall of the material sorting cavity; the pushing device comprises a pushing plate which can move back and forth and is arranged opposite to the discharge port, a gear arranged on the rotating shaft, a driven gear in transmission connection with the gear through a synchronous belt, a concentric gear coaxially arranged with the driven gear, a transmission gear in rotation connection with the concentric gear through the synchronous belt, a connecting rod eccentrically arranged on the transmission gear and a push rod connected with the pushing plate; one end of the connecting rod is movably connected with the transmission gear, and the other end of the connecting rod is movably connected with the push rod; the blanking cavity can guide materials falling downwards, the situation that the materials are shifted or turned over when falling downwards is effectively avoided, the materials are ensured to fall into the material arranging cavity in a state that all the front faces face upwards or all the front faces face downwards, and the regularity of the materials is ensured; under the structure, the material pushing plate can be driven to move and push materials through the rotation of the rotating shaft, and the material pushing plate is not required to be pushed by an additional power source, so that the equipment investment cost is low and the energy consumption is low; when the next die cavity group rotates to the position above the blanking cavity, the previous material group in the material arranging cavity is just pushed out, so that the action interval of pushing materials is always kept consistent with the time interval of blanking, and the situation that materials are stacked is avoided; and the push rod is driven to reciprocate by the mode that the connecting rod is eccentrically arranged on the transmission gear, and when the transmission gear rotates for a circle, the push rod can just reciprocate once, so that the push rod is restored to the original position after pushing is completed, a structure for resetting the push plate is not required to be additionally arranged, the number of parts is small, and the failure rate is low.

The material bundling device comprises a bundling table arranged on the side part of the blanking frame and a bundling machine arranged on the bundling table.

The stacking device comprises a discharge port arranged on the side part of the bundling table, a material supporting plate capable of moving up and down and arranged at the discharge port, a material supporting seat positioned on the lower part of the moving plate, a touch switch arranged on the material supporting seat, a first transmission part used for driving the material supporting plate to move downwards when the material pushing plate pushes the material, and a second transmission part used for driving the material to be transferred from the material supporting seat to the trolley when the material supporting plate moves downwards to a position where the material supporting plate is collided with the touch switch; under the structure, the material pushing plate can directly drive the material supporting plate to move and transfer materials through the movement of the material pushing plate, so that the energy consumption of equipment is further reduced, the consistency of action intervals among all parts is ensured, the stable conveying of the materials is realized, and the failure rate is reduced; through the arrangement of the touch switch, the processed packaging foam can be firstly stacked on the material supporting seat to a certain height and quantity, and then is transferred to the trolley under the action of the second transmission part, so that more materials are sorted at a time, and the processing efficiency is high; the second transmission part has the advantages of less action times, low damage rate and long service life of equipment.

The first transmission part comprises a rack fixedly arranged at the lower part of the material pushing plate, a sliding chute arranged at the bottom of the material preparing cavity and used for the rack to move back and forth, a connecting seat arranged on the side part of the material supporting plate, a plurality of convex teeth arranged on the connecting seat, a limiting frame fixedly arranged on the material supporting seat, a strip-shaped opening arranged on the limiting frame, a toothed belt partially penetrating through the strip-shaped opening, a driving wheel connected with the gear, two driving wheels coaxially arranged with the driving wheel and a transmission toothed belt sleeved on the two driving wheels, wherein the convex teeth on the rack are ratchets, and the rack pushes the transmission toothed belt to rotate when the material pushing plate moves towards the discharge opening; the driving toothed belt keeps a static state in the process that the material pushing plate moves from the material outlet to the material arranging cavity; the transmission is realized by matching parts such as a rack, a gear, a toothed belt and the like, the structure is simple, the matching is stable, the slipping or derailing condition is not easy to occur, the stable operation of the equipment is realized, and the failure rate of the equipment is reduced; the rack adopts the ratchet to drive the toothed belt to rotate in a single direction, so that the rack is guaranteed not to drive the toothed belt to move in the moving back process, and the retainer plate is guaranteed not to move upwards before materials are stacked to the retainer plate and are collided with the touch switch.

The second transmission part comprises two slide rail seats fixedly arranged on the side part of the material supporting seat, a slide rail arranged on the slide rail seats, an electric rail arranged in the slide rail, a moving rod matched with the electric rail, a push plate connected with the moving rod, a cross rod arranged at the upper end of the moving rod, and a plurality of one-way ratchets arranged on the cross rod, wherein the one-way ratchets can be meshed with the transmission toothed belt; the one-way drive of the toothed belt is realized through the arrangement of the one-way ratchets, when the push plate moves outwards, the drive toothed belt cannot be driven to move, and when the push plate returns backwards, the one-way ratchets can drive the drive toothed belt to move backwards to drive the retainer plate to reset to the initial position, so that energy conservation and consumption reduction are realized; under the structure, the material on the material supporting plate is guaranteed to move upwards after being pushed to the cart by the push plate, and the situation that the material supporting plate moves upwards when the material on the material supporting plate is not completely discharged is effectively avoided.

The lower part of the connecting seat extends downwards to form an extending convex part which can be abutted against the touch switch; the switch is contacted through the extrusion of the extension convex part, so that the contact area is not easy to be started by mistake or to be started by leakage compared with the whole plate, and the operation stability of the equipment is further ensured.

A material baffle is arranged at the side part of the discharge port and is connected with the bundling table through an extension rod, and a column groove for the extension rod to pass through is arranged on the bundling table; this striker plate can carry out the position to the packing foam spacing and arrangement, and can not cause the influence to the ejection of compact of material when the push pedal promotes, guarantees that the material enters into drying equipment with orderly state, promotes the drying efficiency and the stoving effect in later stage.

According to the invention, the operations of hot pressing, cooling discharging, material arrangement and bundling are all simultaneously realized on one production line, and automatic processing is adopted, so that the investment cost of equipment is greatly reduced, the automation degree of the processing process is improved, and the working efficiency is improved.

Drawings

Fig. 1 is a first structural schematic diagram of the present invention.

Fig. 2 is a side view of the present invention.

Fig. 3 is a second structural schematic diagram of the present invention.

Fig. 4 is a perspective cross-sectional view of the present invention.

Fig. 5 is an enlarged view of a portion a in fig. 4.

Fig. 6 is an enlarged view at C in fig. 4.

Fig. 7 is an enlarged view at B in fig. 4.

Fig. 8 is an enlarged view at D in fig. 4.

Detailed Description

As shown in fig. 1 to 8, an intelligent production line for foam package forming processing comprises a die pressing unit, a material arranging device, a material bundling device, a material pushing device and a material stacking device, wherein the die pressing unit is used for hot-pressing granular foam into foam packages with shapes; the device specifically comprises a pressing plate device, a plurality of die cavities 1 matched with the pressing plate device, a driving device used for adjusting different die cavities to be matched with the pressing plate device, and a discharging device used for realizing the separation of molded foam packages from the die cavities 1; the die cavities 1 are at least arranged into four groups, in this embodiment, each group of die cavities 1 respectively comprises a bottom plate 11, a plurality of die holders 12 distributed at intervals along the length direction of the bottom plate, and cavities 13 arranged in the die holders, wherein the bottom plate and the die holders are made of metal; the driving device comprises a rotatable rotating shaft 21, a plurality of connecting arms 22 arranged on the rotating shaft and connected with the bottom plate, and a motor connected with the rotating shaft; the pressing plate device comprises a pressing plate 14, an air cylinder 15 connected with the pressing plate, a material injection cavity 16 arranged on the pressing plate, a material injection port 17 connected with the material injection cavity and an air outlet 18 arranged on the pressing plate, and the air outlet is communicated with the material injection cavity; and after the connecting material pipe is removed from the injection port, the injection port can be connected with a water pipe and used for cooling an injection molded product.

Further, discharging device is including locating the gas channel 31 in the pivot, locating the logical groove that is linked together with this gas channel in the linking arm, can the back and forth action locate logical inslot piston 33, locate in the piston can penetrate to ejector pin 34 in the cavity and with the air pump that gas channel links to each other, this air pump is the air pump that directly purchases on the market and obtain, and the piston passes through sealing washer and leads to the sealed cooperation of inslot wall, and when the air pump started and ventilate to leading to the inslot, the ejector pin can be pushed up, and the ejector pin can be ejecting from the die cavity with the material.

The material arranging device is arranged at the lower part of the die cavity and is used for orderly arranging materials discharged from the die cavity; the material arranging device comprises a blanking frame 41, a plurality of material separating plates 42 arranged in the blanking frame, a blanking cavity 43 formed between adjacent material separating plates, a material arranging cavity 44 formed at the lower part of the blanking frame, and a material outlet 45 arranged on the side wall of the material arranging cavity; the material bundling device is used for bundling up the materials which are orderly arranged, and comprises a bundling table 61 arranged on the side part of the blanking frame and a bundling machine 62 arranged on the bundling table, wherein the bundling machine is directly purchased in the market, and the structure is not repeated.

The blanking frame is a hollow metal cylinder, the material separating plate is a metal plate, and the material separating plate is fixedly connected inside the blanking frame through welding; the material pushing device is used for driving the neatly arranged materials to move to the position of the material bundling device in the process that the driving device adjusts different die cavities to be matched with the pressing plate device; specifically, the pushing device comprises a pushing plate 51 which can move back and forth and is arranged opposite to the discharge hole, a gear 52 arranged on the rotating shaft, a driven gear 53 connected with the gear through a synchronous belt in a transmission manner, a concentric gear 54 coaxially arranged with the driven gear, a transmission gear 55 rotationally connected with the concentric gear through a synchronous belt, a connecting rod 56 eccentrically arranged on the transmission gear, and a push rod 57 connected with the pushing plate; one end of the connecting rod 56 is movably connected with the transmission gear, and the other end is movably connected with the push rod 57; wherein, the gear, the driven gear, the concentric gear and the transmission gear are all metal gears directly purchased in the market.

The stacking device is used for stacking the bundled materials in the height direction and transferring the bundled materials to a trolley; the stacking device comprises a discharge hole 71 arranged on the side part of the bundling table, a material supporting plate 72 capable of moving up and down and arranged at the discharge hole, a material supporting seat 73 positioned on the lower part of the moving plate, a touch switch 74 arranged on the material supporting seat, a first transmission part used for driving the material supporting plate to move downwards when the material pushing plate pushes the material, and a second transmission part used for driving the material to be transferred from the material supporting seat to the trolley when the material supporting plate moves downwards to a position where the material supporting plate is collided with the touch switch; wherein, the touch switch is a micro switch purchased in the market.

The first transmission part comprises a rack 81 fixedly arranged at the lower part of the material pushing plate, a sliding chute 82 arranged at the bottom of the material finishing cavity and used for the rack to move back and forth, a connecting seat 83 arranged on the side part of the material supporting plate, a plurality of convex teeth arranged on the connecting seat, a limiting frame 85 fixedly arranged on the material supporting seat, a strip-shaped opening 86 arranged on the limiting frame, a toothed belt 87 partially penetrating through the strip-shaped opening, a driving wheel 88 connected with the gear, two driving wheels 89 coaxially arranged with the driving wheel and a transmission toothed belt 810 sleeved on the two driving wheels, wherein the convex teeth on the rack 81 are ratchets, and the rack 81 pushes the transmission toothed belt 810 to rotate in the moving process of the material pushing plate 51 towards the discharge opening; the driving toothed belt 810 keeps in a static state in the process that the material pushing plate 51 moves from the material outlet to the material distribution cavity; preferably, an extension convex 831 capable of abutting against the abutting switch is formed by extending downward on the lower portion of the connection seat 83.

The second transmission part comprises two slide rail seats 91 fixedly arranged on the side position of the material supporting seat, a slide rail 92 arranged on the slide rail seats, an electric rail arranged in the slide rail, a moving rod 94 matched with the electric rail, a push plate 95 connected with the moving rod, a cross rod 96 arranged at the upper end of the moving rod, and a plurality of one-way ratchets 97 arranged on the cross rod, wherein the one-way ratchets 97 can be meshed with the transmission toothed belt 810; the electric track is obtained by direct purchase on the market, and the structure is not repeated; furthermore, a material baffle 711 is arranged at the side position of the discharge port 71, the material baffle 711 is connected with the bundling table through an extension rod 712, and a column groove for the extension rod 712 to pass through is arranged on the bundling table.

The specific working principle is that a mould pressing plate is pushed by an air cylinder to be matched with one mould cavity, then materials are injected for hot pressing, and after the mould pressing is finished, the mould is opened; then the motor drives the rotating shaft to rotate, and drives the die cavity with the material to rotate for 90 degrees until the opening faces downwards; when the rotating shaft rotates, the material pushing plate moves forwards, and after the upper group of die cavities discharge materials, the materials placed in the material arranging cavities are pushed outwards to the binding machine; when the material pushing plate moves forwards, the previous group of bundled materials are pushed to the material supporting plate, and meanwhile, the ratchets on the rack are meshed with the transmission toothed belt to drive the material supporting plate to drive the materials to move downwards; then the material pushing plate returns backwards, after the material pushing plate returns to the original position, the air pump is started, the ejector rod is started to eject the material in the die cavity, and the material stays at the material finishing cavity after falling down along the blanking cavity; after the reciprocating operation is carried out for a plurality of times, the retainer plate moves to the lowest position, the extending convex part is abutted to the touch switch, the electric track starts to drive the push plate to move outwards, and the material on the retainer plate is pushed to the trolley.

Claims

1. The utility model provides an intelligent production line of foam packing contour machining which characterized in that: comprises that

A molding unit for hot-pressing the foam of particles into a foam package having a shape; the device comprises a pressing plate device, a plurality of die cavities (1) matched with the pressing plate device, a driving device used for adjusting different die cavities to be matched with the pressing plate device, and a discharging device used for realizing the separation of molded foam packages from the die cavities (1);

the stacking device is used for stacking the bundled materials in the height direction and transferring the bundled materials to a trolley;

the die cavities (1) are at least arranged into four groups, and each group of die cavities (1) respectively comprises a bottom plate (11), a plurality of die holders (12) which are distributed at intervals along the length direction of the bottom plate and cavities (13) arranged in the die holders; the driving device comprises a rotatable rotating shaft (21), a plurality of connecting arms (22) arranged on the rotating shaft and connected with the bottom plate, and a motor connected with the rotating shaft; the discharging device comprises an air channel (31) arranged in the rotating shaft, a through groove arranged in the connecting arm and communicated with the air channel, a piston (33) capable of moving back and forth and arranged in the through groove, a push rod (34) arranged in the piston and capable of penetrating into the cavity and an air pump connected with the air channel;

the material arranging device comprises a blanking frame (41), a plurality of material separating plates (42) arranged in the blanking frame, a blanking cavity (43) formed between adjacent material separating plates, a material arranging cavity (44) formed at the lower part of the blanking frame, and a material outlet (45) arranged on the side wall of the material arranging cavity; the material pushing device comprises a material pushing plate (51) which can move back and forth and is arranged opposite to the material outlet, a gear (52) arranged on the rotating shaft, a driven gear (53) connected with the gear through synchronous belt transmission, a concentric gear (54) coaxially arranged with the driven gear, a transmission gear (55) rotationally connected with the concentric gear through a synchronous belt, a connecting rod (56) eccentrically arranged on the transmission gear and a push rod (57) connected with the material pushing plate; one end of the connecting rod (56) is movably connected with the transmission gear, and the other end is movably connected with the push rod (57).

2. The intelligent production line for foam packaging and forming processing according to claim 1, wherein: the material bundling device comprises a bundling table (61) arranged on the side part of the blanking frame and a bundling machine (62) arranged on the bundling table.

3. The intelligent production line for foam packaging and forming processing according to claim 1, wherein: the stacking device comprises a discharge hole (71) arranged on the side part of the bundling table, a material supporting plate (72) capable of moving up and down and arranged at the discharge hole, a material supporting seat (73) positioned at the lower part of the moving plate, a touch switch (74) arranged on the material supporting seat, a first transmission part used for driving the material supporting plate to move downwards when the material pushing plate pushes the material, and a second transmission part used for driving the material to be transferred to the cart from the material supporting seat when the material supporting plate moves downwards to the position where the touch switch is touched.

4. The intelligent production line for foam packaging and forming processing according to claim 3, wherein: the first transmission part comprises a rack (81) fixedly arranged at the lower part of the material pushing plate, a sliding chute (82) arranged at the bottom of the material arranging cavity and used for the rack to move back and forth, a connecting seat (83) arranged on the side part of the material supporting plate, a plurality of convex teeth arranged on the connecting seat, a limiting frame (85) fixedly arranged on the material supporting seat, a strip-shaped opening (86) arranged on the limiting frame, a toothed belt (87) partially penetrating through the strip-shaped opening, a driving wheel (88) connected with the gear, two transmission wheels (89) coaxially arranged with the driving wheel and a transmission toothed belt (810) sleeved on the two transmission wheels, wherein the convex teeth on the rack (81) are ratchets, and the rack (81) pushes the transmission toothed belt (810) to rotate in the process that the material pushing plate (51) moves towards the discharge; and in the process that the material pushing plate (51) moves from the discharge port to the material distributing cavity, the driving toothed belt (810) keeps a static state.

5. The intelligent production line for foam packaging and forming according to claim 4, wherein: the second transmission part comprises two slide rail seats (91) fixedly arranged on the side portions of the material supporting seats, a sliding track (92) arranged on the slide rail seats, an electric track arranged in the sliding track, a moving rod (94) matched with the electric track, a push plate (95) connected with the moving rod, a cross rod (96) arranged at the upper end of the moving rod, and a plurality of one-way ratchets (97) arranged on the cross rod, wherein the one-way ratchets (97) can be meshed with the transmission toothed belts (810).

6. The intelligent production line for foam packaging and forming according to claim 5, wherein: an extension convex part (831) which can be abutted against the touch switch is formed by extending downwards the lower part of the connecting seat (83).

7. The intelligent production line for foam packaging and forming according to claim 5, wherein: the discharge port (71) is provided with a material baffle (711) at the side part, the material baffle (711) is connected with the bundling table through an extension rod (712), and the bundling table is provided with a column groove for the extension rod (712) to pass through.