CN212684186U - Novel square foaming material trimming machine - Google Patents

Abstract

The utility model relates to the technical field of foam material production equipment, and provides a novel square foam material edge cutting machine which comprises a PLC controller, a plurality of sensors, a frame, a feeding mechanism arranged on the frame, a first cutting mechanism and a second cutting mechanism, the first pressing and conveying mechanism, the second pressing and conveying mechanism, the multiple groups of blocking wheels and the first positioning mechanism are arranged on the rack along the feeding direction to the discharging direction and are positioned on two sides of the feeding mechanism respectively in an interval-adjustable manner, the first cutting mechanism, the first positioning mechanism, the first pressing and conveying mechanism, the second cutting mechanism and the second pressing and conveying mechanism are sequentially arranged on the rack along the feeding direction to the discharging direction of the feeding mechanism and are positioned above the feeding mechanism, the first positioning mechanism is positioned at the discharging end of the first cutting mechanism and presses materials conveyed on the feeding mechanism to be cut by the first cutting mechanism, and the second cutting mechanism is positioned on two sides above the feeding mechanism and transversely cuts the materials conveyed by the feeding mechanism. The utility model provides a current foaming material trimming machine cut problem that efficiency is low.

Description

Novel square foaming material trimming machine

Technical Field

The utility model relates to a expanded material production facility technical field, in particular to novel square expanded material cutting edge machine.

Background

The EVA rubber-plastic product is a novel environment-friendly plastic foaming material, has the advantages of good buffering, shock resistance, heat insulation, moisture resistance, chemical corrosion resistance and the like, is nontoxic and does not absorb water, so the EVA rubber-plastic product is widely applied to manufacturing refrigerator guide pipes, gas pipes, civil engineering plates, containers, daily necessities and the like, can also be used for manufacturing films, gaskets and medical equipment for packaging, and can also be used as a hot melt adhesive, a cable insulating layer and the like. Currently, EVA is also used in the solar cell industry as a bonding material for cell sheets in crystalline silicon cells, surface photovoltaic glass and cell back sheets. The production of the EVA foaming material mainly comprises the steps of raw material mixing and banburying, open milling and tabletting, cold sheet slicing, pressurizing and heating foaming, sheet cutting, sheet splicing and edge cutting, laminating and embossing, punching and forming, packaging and warehousing and the like, wherein the cold sheet step is usually finished on an edge cutting machine. However, according to the characteristics of EVA, the existing edge cutting machine often deviates, so that the production efficiency is reduced and certain raw materials are wasted, and the quality of the product is seriously reduced and great economic loss is caused. Meanwhile, the cutting of foaming materials such as EVA and the like by the existing edge cutting machine needs to be repeated for feeding and discharging for many times to form the required material size, and the processing efficiency is low.

SUMMERY OF THE UTILITY MODEL

Therefore, to foretell problem, the utility model provides a but novel square expanded material trimming machine of required square size material is tailor to rational in infrastructure novelty, machining efficiency height, convenient to use fast and stable.

In order to solve the technical problem, the utility model discloses take following scheme: a novel square edge cutting machine for foam materials comprises a PLC (programmable logic controller), a plurality of sensors, a rack, a feeding mechanism, a first cutting mechanism, a second cutting mechanism, a first pressing mechanism, a second pressing mechanism, a plurality of groups of baffle wheels and a first positioning mechanism, wherein the feeding mechanism, the first cutting mechanism, the second cutting mechanism, the first pressing mechanism, the second cutting mechanism, the plurality of groups of baffle wheels and the first positioning mechanism are arranged on the rack along the feeding-discharging direction and are respectively arranged on two sides of the feeding mechanism in an interval-adjustable manner, the first cutting mechanism, the first positioning mechanism, the first pressing mechanism, the second cutting mechanism and the second pressing mechanism are sequentially arranged on the rack along the feeding-discharging direction of the feeding mechanism and are arranged above the feeding mechanism, the first cutting mechanism is arranged above the feeding end of the feeding mechanism and is used for longitudinally cutting materials conveyed by the feeding mechanism, the first positioning mechanism is arranged at the discharging end of the first cutting mechanism and is used for pressing the materials conveyed, the second cutting mechanism is located on two sides above the feeding mechanism and used for transversely cutting the material conveyed by the feeding mechanism to cut the material at two sides, the first pressure feeding mechanism and the second pressure feeding mechanism are located on two feeding and discharging ends of the second cutting mechanism and used for clamping and conveying the material, the sensors are respectively and uniformly distributed on the frame and used for detecting the conveying length of the material, the sensors are connected with the input end of the PLC, and the feeding mechanism, the first cutting mechanism, the second cutting mechanism, the first pressure feeding mechanism, the second pressure feeding mechanism and the first positioning mechanism are all connected and controlled by the PLC.

The material feeding mechanism is arranged on the frame, the second positioning mechanism is arranged between the third cutting mechanism and the second pressure feeding mechanism, the material fed on the feeding mechanism is pressed, and the material is fed to the third cutting mechanism, and the third cutting mechanism and the second positioning mechanism are connected and controlled by the PLC.

In a further improvement, the first cutting mechanism and the third cutting mechanism comprise a support, a traveling mechanism arranged on the support and a cutter driven by the traveling mechanism to longitudinally move on the rack.

In a further improvement, the second cutting mechanism comprises a second support and two groups of cutters which are arranged on two sides of the second support and can adjust the distance.

The material feeding mechanism is arranged on the frame and is positioned at the feeding end of the feeding mechanism to clamp and convey the cut material to storage.

The improved structure comprises the following steps that in the further improvement, each group of blocking wheels comprises two blocking wheels and two fixing seats, the frame is longitudinally provided with a clamping groove, the bottoms of the two fixing seats are respectively provided with a buckle matched with the clamping groove in the frame, the two blocking wheels are respectively arranged on the upper portions of the two fixing seats, and the blocking wheels are arranged on the clamping grooves of the frame in an adjustable mode through the fixing seats.

By adopting the technical scheme, the beneficial effects of the utility model are that: through setting up the first mechanism that cuts of first positioning mechanism cooperation first and cut the mechanism and carry out the vertical cutting after the cutting and carrying the fixed length of initial end, carry out the centre gripping through first forced lubrication mechanism and second forced lubrication mechanism to the material and carry the cooperation second to cut the mechanism and cut the both sides that carry the material and set for the width size and cut, detect material transport length by the sensor, PLC controller intelligence is controlled and is cut the front end to the direction of feeding to the ejection of compact to material continuouslying, cut both sides and cut the rear end, it all can set up directly to cut out the material as required to realize length and width, rational in infrastructure novelty, high machining efficiency, high durability and convenient use, can cut out required square size material fast and stably, can realize the fast cutting of fixed length square material through setting up the third and cut mechanism and the cooperation of second positioning mechanism, can extensively popularize and apply.

Drawings

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

Detailed Description

The present invention will now be further described with reference to the following detailed description.

Referring to fig. 1, preferably the utility model discloses a novel square foaming material trimming machine, including the PLC controller, a plurality of sensors, frame 1, locate feeding mechanism 2 in frame 1, first cutting mechanism 3, second cutting mechanism 4, third cutting mechanism 5, first pressure feed mechanism 6, second pressure feed mechanism 7, third pressure feed mechanism 8, the multiunit keeps off wheel 9, first positioning mechanism 10 and second positioning mechanism 11, each group keeps off wheel 9 and locates in feeding mechanism 2 both sides on frame 1 along feeding to ejection of compact direction adjustable interval respectively, every group keeps off wheel 9 and includes two fender wheels and two fixing bases, frame 1 is along vertically being equipped with the draw-in groove, two fixing base bottoms are equipped with the buckle with draw-in groove looks adaptation on frame 1 respectively, two fender wheels are located two fixing base upper portions respectively, the fender wheel is located on the draw-in groove of frame 1 through fixing base adjustable, first cutting mechanism 3 that cuts, a plurality of sensors, frame 1, the feeding mechanism 2, the multiunit is located on frame 1, each group keeps, The first positioning mechanism 10, the first pressing and conveying mechanism 6, the second cutting mechanism 4, the second pressing and conveying mechanism 7, the second positioning mechanism 11, the third cutting mechanism 5 and the third pressing and conveying mechanism 8 are sequentially arranged on the rack 1 along the feeding-to-discharging direction of the feeding mechanism 2 and are positioned above the feeding mechanism 2, the first cutting mechanism 3 and the third cutting mechanism 5 respectively comprise a support, a travelling mechanism arranged on the support and a cutter driven by the travelling mechanism to longitudinally move on the rack, the second cutting mechanism 4 comprises a second support and two groups of cutters arranged on two sides of the second support and capable of adjusting the spacing, the first cutting mechanism 3 is positioned above the feeding end of the feeding mechanism 2 to longitudinally cut materials conveyed by the feeding mechanism 2, the first positioning mechanism 10 is positioned at the discharging end of the first cutting mechanism 3 to press the materials conveyed by the feeding mechanism 2 for the first cutting mechanism 3 to cut the materials, the second cutting mechanism 4 is positioned at two sides above the feeding mechanism 2 and used for transversely cutting and bilaterally cutting the material conveyed by the feeding mechanism 2, the first pressure feeding mechanism 6 and the second pressure feeding mechanism 7 are positioned at two feeding and discharging ends of the second cutting mechanism 4 and used for clamping and conveying the material, each sensor is respectively and uniformly arranged on the frame 1 for detecting the conveying length of the material and is connected with the input end of a PLC (programmable logic controller), the third cutting mechanism 5 is arranged on the frame 1 and used for longitudinally cutting the material output by the discharging end of the feeding mechanism 2, the second positioning mechanism 11 is arranged between the third cutting mechanism 5 and the second pressure feeding mechanism 7 for pressing the material conveyed by the feeding mechanism 2 for the third cutting mechanism 5 to cut, the third pressure feeding mechanism 8 is arranged on the frame 1 and used for clamping and conveying the cut material to the storage after the cutting is finished by the discharging end of the feeding mechanism 2, the driving devices of the feeding mechanism 2, the first cutting mechanism 3, the second cutting mechanism 4, the third cutting mechanism 5, the first pressure feeding mechanism 6, the second pressure feeding mechanism 7 and the third pressure feeding mechanism 8 are all driven by servo motors, and the feeding mechanism 2, the first cutting mechanism 3, the second cutting mechanism 4, the third cutting mechanism 5, the first pressure feeding mechanism 6, the second pressure feeding mechanism 7, the third pressure feeding mechanism 8, the first positioning mechanism 10 and the second positioning mechanism 11 are all connected and controlled by a PLC (programmable logic controller).

The utility model discloses well sensor can be infrared detector, displacement sensor, any one in the sensor that can be used to detect material transport length such as distance sensor, first forced lubrication mechanism, second forced lubrication mechanism and third forced lubrication mechanism are the drive roll and accomplish the centre gripping with the cooperation of driven roll and carry, wherein the drive roll can be rotated by the servo motor drive, preferably drive roll and driven roll can adopt the rubber roller, first positioning mechanism and second positioning mechanism all include actuating mechanism drive clamp plate go up and down to realize pushing down the location of material or loosen and make the material pass through the transport, actuating mechanism can be power device such as hydro-cylinder or cylinder, first mechanism of cutting, second cut the servo motor that mechanism and third cut the mechanism and drive the cutter rotation to cut and drive the servo motor combination of cutter longitudinal back and forth movement in the frame for current cutter cooperation and form.

The utility model discloses a set up the first mechanism that cuts of first positioning mechanism cooperation and carry out the initial end cut out and carry vertical cutting after the fixed length, carry out the centre gripping through first forced lubrication mechanism and second forced lubrication mechanism to the material and carry the second to cut the mechanism and cut the both sides that the mechanism cut the transported substance material and set for the width size and cut, carry length by sensor detection material, PLC controller intelligence is controlled and is carried out the front end of cutting to the direction of ejection of compact material according to the feeding successively, cut both sides and cut the rear end, it all can set up directly to cut out the material as required to realize length and width, and is rational in infrastructure novel, high machining efficiency, high durability and convenient use, can cut out required square size material fast and stably, cut the mechanism and the second positioning mechanism cooperation can realize the fast cutting of fixed length square material through setting up the third, and can extensively popularize and apply.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (6)

1. The utility model provides a novel square expanded material trimming machine, includes PLC controller, a plurality of sensor, frame, locates feeding mechanism in the frame, first mechanism, the second of cutting cuts mechanism, first forced lubrication mechanism, second forced lubrication mechanism, multiunit fender wheel and first positioning mechanism, its characterized in that: each group of baffle wheels are respectively arranged on the rack along the feeding direction to the discharging direction and are positioned on two sides of the feeding mechanism at intervals, the first cutting mechanism, the first positioning mechanism, the first pressure feeding mechanism, the second cutting mechanism and the second pressure feeding mechanism are sequentially arranged on the rack along the feeding direction to the discharging direction of the feeding mechanism and are positioned above the feeding mechanism, the first cutting mechanism is positioned above the feeding end of the feeding mechanism and longitudinally cuts materials conveyed by the feeding mechanism, the first positioning mechanism is positioned at the discharging end of the first cutting mechanism and presses the materials conveyed by the feeding mechanism for the first cutting mechanism to cut the materials, the second cutting mechanism is positioned on two sides above the feeding mechanism and transversely cuts the materials conveyed by the feeding mechanism, the first pressure feeding mechanism and the second pressure feeding mechanism are positioned at the feeding end and the discharging end of the second cutting mechanism to clamp and convey the materials, all sensors are respectively and uniformly distributed on the rack to detect the conveying length of the materials, and all the sensors are conveyed by the PLC controller The feeding mechanism, the first cutting mechanism, the second cutting mechanism, the first pressure feeding mechanism, the second pressure feeding mechanism and the first positioning mechanism are connected and controlled by a PLC controller.

2. The novel square foam material edge cutting machine according to claim 1, characterized in that: the material cutting machine is characterized by further comprising a third cutting mechanism and a second positioning mechanism, wherein the third cutting mechanism is arranged on the rack and located at the discharge end of the feeding mechanism to longitudinally cut the output material, the second positioning mechanism is arranged between the third cutting mechanism and the second pressure feeding mechanism to press the material conveyed on the feeding mechanism to be cut by the third cutting mechanism, and the third cutting mechanism and the second positioning mechanism are connected and controlled by a PLC (programmable logic controller).

3. The novel square foam material edge cutting machine according to claim 2, characterized in that: the first cutting mechanism and the third cutting mechanism comprise a support, and a traveling mechanism and a cutter, wherein the traveling mechanism and the cutter are arranged on the support, and the cutter is driven by the traveling mechanism to longitudinally move on the rack.

4. The novel square foam material edge cutting machine according to claim 1, characterized in that: the second cutting mechanism comprises a second support and two groups of cutters which are arranged on two sides of the second support and have adjustable intervals.

5. The novel square foam material edge cutting machine according to claim 1, characterized in that: the third pressure feeding mechanism is arranged on the machine frame and positioned at the discharge end of the feeding mechanism to clamp and convey the cut materials to storage.

6. The novel square foam material edge cutting machine according to claim 1, characterized in that: each group of blocking wheels comprises two blocking wheels and two fixing seats, a clamping groove is longitudinally formed in the rack, the bottoms of the two fixing seats are respectively provided with a buckle matched with the clamping groove in the rack, the two blocking wheels are respectively arranged on the upper portions of the two fixing seats, and the blocking wheels are arranged on the clamping groove in the rack in a way that the fixing seats are adjustable.

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