CN115871315A - Production method of high-strength sliding plate - Google Patents

Abstract

The invention discloses a method for preparing a compound of S1: selecting a plate produced by the sliding plate, and cutting the plate into plates with the same thickness through equipment after the plate is selected; s2: after the selection is accomplished, polish through the polisher to panel show and polish, polish smoothly with the two sides of panel, after polishing, through the spreading machine to the surface rubber coating of panel, place the crisscross line of rubber coating or panel for form the crisscross line of cross between the panel, bond the panel of placing together through the wood glue, bond into two panels through the wood glue with panel simultaneously. And because the tensile strength of carbon fiber pipe is high, intensity is six to twelve times of steel for the intensity of slide is higher, through crisscross formation cross line of placing of panel, makes the atress intensity of slide higher, makes the slight of slide higher, through selecting the panel that growth is comparatively slow or because weather reason grows slowly, the distance of annual ring on the panel is nearer, makes the wooden more tough inseparable of panel of selection, makes the intensity of slide higher.

Description

Production method of high-strength sliding plate

Technical Field

The invention relates to the technical field of slide plate production, in particular to a production method of a high-strength slide plate.

Background

The skateboard sports is one of board sports, is a device for athletes to step on and slide, and finishes various complex skills sports with difficult actions such as sliding, jumping, rotating, overturning and the like under the rhythm of music on different terrains, grounds and specific facilities, and the board surface of the skateboard is generally formed by pressing five layers, seven layers or nine layers of wood boards with high pressure.

In order to show the skill of the skateboard, athletes need to finish various complex actions such as sliding, jumping, rotating, billowing and the like in the using process of the skateboard, so that the strength of the skateboard used needs to be high-strength skateboards, the skateboard is easy to break in the using process due to low strength, and the physical safety of users is not influenced when the skateboard breaks seriously.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a production method of a high-strength sliding plate.

The production method of the high-strength sliding plate comprises the following steps:

s1: selecting a plate produced by the sliding plate, and cutting the plate into plates with the same thickness by equipment after the plate is selected;

s2: after the selection is finished, polishing and grinding the surface of the plate by a grinding machine, grinding the two surfaces of the plate smoothly, gluing the surface of the plate by a gluing machine after grinding, placing the glued plates in a staggered mode to form crisscross grains between the plates, bonding the placed plates together by wood glue, and bonding the plates into two plates by the wood glue;

s3: putting the plates coated with the wood glue into a punch press, applying pressure to the bonded plates through the punch press, enabling the plates coated with the wood glue to be in closer contact, enabling the plates to be bonded more compactly through the wood glue, after the wood glue for bonding the plates is solidified, grooving the top of one of the two plates through a grooving machine, putting the carbon fiber tube into the formed groove, adding the wood glue into the groove, fixing the carbon fiber tube into the groove through the wood glue, coating the wood glue on the bottom of the plate without the carbon fiber tube, coating the wood glue on the top of the plate with the carbon fiber tube, putting the two plates together, bonding the two plates through the wood glue, putting the bonded two plates into the punch press, applying pressure again through the punch press, and bonding the two plates together to form a finished plate;

s4: placing the bonded plate into a gang drill machine, drilling the surface of the plate by the gang drill machine, fixing the plate on a cutting table of a sample plate cutter through a hole drilled by the gang drill machine, cutting the plate into the shape of a sliding plate pedal by a cutting tool on the sample plate cutter, taking out the sliding plate pedal formed by cutting from the sample plate cutter after cutting, starting an oil pressure type sand drum, polishing the surface of the sliding plate pedal by the oil pressure type sand drum, and removing burrs generated by cutting;

s5: after polishing the completion, carry out dampproofing processing to the slide footboard, through spraying equipment, with polymer coating spraying on slide footboard surface, make slide footboard surface form one deck polymer coating, print out the pattern that needs on the polypropylene film through the printing plate, the polypropylene film that will print the pattern places on the slide footboard, put into the heating cylinder machine with the polypropylene film that prints the pattern with the slide footboard, on rendition the slide footboard through the heating cylinder, the hole of seting up on the rethread panel is installed the hardware, install the pulley on the hardware.

Preferably, the standard of selecting the plate is to select the plate which grows slowly or slowly due to climate reasons, and the distances between the annual rings on the plate are close, so that the selected plate is more tough and compact in wood.

Preferably, the pattern on the polypropylene film is transferred to the skateboard deck by a heating roller, and the pattern ink printed on the polypropylene film is impregnated into the wood fiber by the pressure of the heating roller.

Preferably, the pulley is made of an aluminum die, and the pulley is made of polyurethane plastic.

According to the production method of the high-strength sliding plate, the carbon fiber tubes are added into the pedal of the sliding plate, the carbon fiber tubes have high tensile strength which is six to twelve times that of steel, so that the strength of the sliding plate is higher, the plates are placed in a staggered mode to form the cross-shaped grains, the stress strength of the sliding plate is higher, the lightness of the sliding plate is higher, the plates which grow slowly or grow slowly due to weather are selected, the distances between annual rings on the plates are closer, the selected plates are more tough and compact in wood, and the strength of the sliding plate is higher.

Drawings

FIG. 1 is a flow chart of the method for producing a high-strength skateboard of the present invention

Detailed Description

The invention will be further illustrated with reference to specific examples.

The invention provides a production method of a high-strength sliding plate, which comprises the following steps:

s1: selecting a plate produced by the sliding plate, and cutting the plate into plates with the same thickness by equipment after the plate is selected;

s2: after the selection is finished, polishing and grinding the surface of the plate by a grinding machine, grinding the two surfaces of the plate smoothly, gluing the surface of the plate by a gluing machine after grinding, placing the glued plates in a staggered mode to form crisscross grains between the plates, bonding the placed plates together by wood glue, and bonding the plates into two plates by the wood glue;

s3: putting the plates coated with the wood glue into a punch press, applying pressure to the bonded plates through the punch press, enabling the plates coated with the wood glue to be in closer contact, enabling the plates to be bonded more compactly through the wood glue, after the wood glue for bonding the plates is solidified, grooving the top of one of the two plates through a grooving machine, putting the carbon fiber tube into the formed groove, adding the wood glue into the groove, fixing the carbon fiber tube into the groove through the wood glue, coating the wood glue on the bottom of the plate without the carbon fiber tube, coating the wood glue on the top of the plate with the carbon fiber tube, putting the two plates together, bonding the two plates through the wood glue, putting the bonded two plates into the punch press, applying pressure again through the punch press, and bonding the two plates together to form a finished plate;

s4: placing the bonded plates into a gang drill machine, drilling the surfaces of the plates through the gang drill machine, fixing the plates on a cutting table of a sample plate cutter through holes drilled by the gang drill machine, cutting the plates into the shape of a slide plate pedal through a cutting tool on the sample plate cutter, taking out the cut slide plate pedal from the sample plate cutter after cutting, starting an oil pressure type sand drum, polishing the surface of the slide plate pedal through the oil pressure type sand drum, and removing burrs generated by cutting;

s5: after polishing the completion, carry out dampproofing processing to the slide footboard, through spraying equipment, with polymer coating spraying on slide footboard surface, make slide footboard surface form one deck polymer coating, print out the pattern that needs on the polypropylene film through the printing plate, the polypropylene film that will print the pattern places on the slide footboard, put into the heating cylinder machine with the polypropylene film that prints the pattern with the slide footboard, on rendition the slide footboard through the heating cylinder, the hole of seting up on the rethread panel is installed the hardware, install the pulley on the hardware.

The standard of selecting the plate in the step 1 is to select a plate which grows slowly or slowly because of climate reasons, and the distance between the annual rings on the plate is short, so that the selected plate is more tough and compact in wood.

In the step 5, the pattern on the polypropylene film is transferred to the skateboard pedal through the heating roller, and the pattern ink printed on the polypropylene film permeates into the wood fiber through the pressure of the heating roller.

Wherein, the pulley in the step 5 is made of an aluminum mould, and the pulley is made of polyurethane plastic

According to the production method of the high-strength sliding plate, the carbon fiber tubes are added into the pedal of the sliding plate, the carbon fiber tubes have high tensile strength which is six to twelve times that of steel, so that the strength of the sliding plate is higher, the plates are placed in a staggered mode to form the cross-shaped grains, the stress strength of the sliding plate is higher, the lightness of the sliding plate is higher, the plates which grow slowly or grow slowly due to weather are selected, the distances between annual rings on the plates are closer, the selected plates are more tough and compact in wood, and the strength of the sliding plate is higher.

The working principle is as follows: selecting a plate produced by a sliding plate, cutting the plate into plates with the same thickness by equipment after the plate is selected, polishing and grinding the surface of the plate by a grinding machine after the plate is selected, grinding two surfaces of the plate smoothly, coating glue on the surface of the plate by a glue coating machine after grinding, placing the coated plates in a staggered way to form crisscross grains between the plates, simultaneously bonding the plates into two plates by wood glue, placing the plates coated with the wood glue into a punch press, applying pressure to the bonded plates by the punch press to enable the bonding between the plates to be tighter, slotting the top of one of the two plates by a slotting machine, placing a carbon fiber tube into a slot, adding the wood glue into the slot, fixing the carbon fiber tube in the slot by the wood glue, coating the wood glue on the bottom of the plate without the carbon fiber tube, coating wood glue on the top of a plate provided with a carbon fiber tube, placing the two plates together, bonding the two plates through the wood glue, placing the bonded two plates into a punch, applying pressure again through the punch to bond the two plates together to form a finished plate, placing the bonded plate into a gang drill, drilling the surface of the plate through the gang drill, drilling holes through the gang drill, fixing the plate on a sample plate cutter, cutting the plate into the shape of a skateboard pedal through the sample plate cutter, polishing the surface of the skateboard pedal through an oil pressure type sand drum after cutting, removing burrs generated by cutting, performing moisture-proof treatment on the skateboard pedal after polishing, flatly spraying a layer of polymer coating on the surface of the skateboard pedal through spraying equipment, and printing a required pattern on a polypropylene film through a printing plate, the polypropylene film printed with patterns is placed on the sliding plate pedal, the heating roller transfers the patterns to the sliding plate pedal, and the hardware is installed through the holes formed in the plate, so that the pulleys are installed on the hardware.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (4)

1. The production method of the high-strength sliding plate is characterized by comprising the following steps of:

s1: selecting a plate produced by the sliding plate, and cutting the plate into plates with the same thickness by equipment after the plate is selected;

s2: after the selection is finished, polishing and grinding the surface of the plate by a grinding machine, grinding two surfaces of the plate smoothly, gluing the surface of the plate by a gluing machine after grinding, placing the glued plates in a staggered mode to form crisscross grains between the plates, bonding the placed plates together by wood glue, and bonding the plates into two plates by the wood glue;

s3: putting the plates coated with the wood glue into a punch press, applying pressure to the bonded plates through the punch press, enabling the plates coated with the wood glue to be in closer contact, enabling the plates to be bonded more compactly through the wood glue, after the wood glue for bonding the plates is solidified, grooving the top of one of the two plates through a grooving machine, putting the carbon fiber tube into the formed groove, adding the wood glue into the groove, fixing the carbon fiber tube into the groove through the wood glue, coating the wood glue on the bottom of the plate without the carbon fiber tube, coating the wood glue on the top of the plate with the carbon fiber tube, putting the two plates together, bonding the two plates through the wood glue, putting the bonded two plates into the punch press, applying pressure again through the punch press, and bonding the two plates together to form a finished plate;

s4: placing the bonded plate into a gang drill machine, drilling the surface of the plate by the gang drill machine, fixing the plate on a cutting table of a sample plate cutter through a hole drilled by the gang drill machine, cutting the plate into the shape of a sliding plate pedal by a cutting tool on the sample plate cutter, taking out the sliding plate pedal formed by cutting from the sample plate cutter after cutting, starting an oil pressure type sand drum, polishing the surface of the sliding plate pedal by the oil pressure type sand drum, and removing burrs generated by cutting;

s5: after polishing the completion, carry out dampproofing processing to the slide footboard, through spraying equipment, with polymer coating spraying on the slide footboard surface, make slide footboard surface form one deck polymer coating, print out the pattern that needs on the polypropylene film through the galley, place the polypropylene film that prints the pattern on the slide footboard, put into the heating cylinder built-in with the polypropylene film that prints the pattern with the slide footboard, through on the heating cylinder rendition slide footboard, the hole of seting up on the rethread panel is installed the hardware, install the pulley on the hardware.

2. The method for producing the high-strength skateboard according to claim 1, wherein the plate is selected in the step 1 according to the criterion that the plate grows slowly or slowly due to climate, and the distance between the annual rings on the plate is short, so that the selected plate is more tough and compact in wood.

3. The method for producing a high-strength skateboard as claimed in claim 1, wherein the step 5 transfers the pattern on the polypropylene film to the skateboard deck by means of a heated roller, and the pattern ink printed on the polypropylene film is impregnated into the wood fiber by means of pressure of the heated roller.

4. The method for producing a high-strength skateboard according to claim 1, wherein the pulley in the step 5 is made of an aluminum mold, and the pulley is made of polyurethane plastic.

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