CN107379201B - Energy-saving type face line attaching machining system - Google Patents

Abstract

The invention provides an energy-saving type face line processing system, which comprises a side line processing device and a top line processing device; the side line processing device is provided with a feeding mechanism, a corner cutting mechanism and a discharging mechanism, wherein an inlet of the feeding mechanism is communicated with a blank supplying device, the blank supplying device sends side line blanks into the feeding mechanism, an outlet of the feeding mechanism is communicated with the corner cutting mechanism, the feeding mechanism sends the side line blanks into the corner cutting mechanism for corner cutting treatment, an outlet of the corner cutting mechanism is communicated with the discharging mechanism, and the corner cutting mechanism sends the side line subjected to corner cutting to the discharging mechanism for discharging; the top side line processing device is provided with a positioning mechanism, a cutting mechanism and a conveying mechanism, wherein an inlet of the positioning mechanism is communicated with a blank supply device, the top side line blank is conveyed to the positioning mechanism by the blank supply device, the positioning mechanism is arranged on the conveying mechanism, the conveying mechanism is positioned below the cutting mechanism, and the positioning mechanism and the top side line blank are conveyed to the cutting mechanism by the conveying mechanism.

Description

Energy-saving type face line processing system

Technical Field

The invention relates to wooden door processing equipment, in particular to an energy-saving type facing line processing system.

Background

In the course of working of a door leaf subsides face line, because the specification of each lines is different with the processing requirement, often need use different equipment to carry out processing respectively, the integrated level of processing equipment is not high, and the process flow is difficult to control, causes equipment, place extravagant to break down easily, bring adverse effect for production efficiency's promotion, and influence the product quality of lines.

Therefore, there is a need to optimize the processing system of the facing line to overcome the above-mentioned drawbacks.

Disclosure of Invention

The invention aims to provide an energy-saving type facing line processing system to improve the processing efficiency and reduce the energy consumption.

The technical scheme adopted by the invention for solving the technical problem is as follows:

an energy-saving type facing line processing system comprises a side edge line processing device and a top edge line processing device; the side line processing device is provided with a feeding mechanism, a corner cutting mechanism and a discharging mechanism, wherein an inlet of the feeding mechanism is communicated with a blank supplying device, the blank supplying device sends side line blanks into the feeding mechanism, an outlet of the feeding mechanism is communicated with the corner cutting mechanism, the feeding mechanism sends the side line blanks into the corner cutting mechanism for corner cutting treatment, an outlet of the corner cutting mechanism is communicated with the discharging mechanism, and the corner cutting mechanism sends the side line subjected to corner cutting to the discharging mechanism for discharging; topside lines processingequipment has positioning mechanism, cuts mechanism and conveying mechanism, and positioning mechanism's entry and blank supply equipment intercommunication are delivered to positioning mechanism with topside lines blank by blank supply equipment, are fixed a position topside lines blank by positioning mechanism, and on conveying mechanism was located to the positioning mechanism dress, conveying mechanism was located and is cut the mechanism below, is delivered to the mechanism that cuts with positioning mechanism and topside lines blank by conveying mechanism, is cut the processing to topside lines blank by cutting the mechanism, wherein:

the feeding mechanism comprises a conveying frame, at least one pair of transmission chains are arranged on the conveying frame, the transmission chains are parallel to each other and extend along the length direction of the conveying frame, the conveying frame penetrates through the lower part of the corner cutting mechanism, the tail end of the device is communicated with a discharging mechanism, a transmission chain is connected with a power motor, the power motor drives the transmission chain to run, a group of chucks are arranged on the transmission chain, the chucks are sequentially arranged along the length direction of the transmission chain, the chucks are provided with clamping jaws capable of fixing side line blanks, a positioning frame is arranged below the transmission chain, a group of guide rails are arranged on the positioning frame, the guide rails are mutually parallel, the guide rail is provided with a caster matched with the guide rail, the caster is connected with a limiting motor, the limiting motor drives the caster to move on the guide rail, the top of the caster is provided with a limiting block, and the limiting block props against the end part of the side line blank to adjust the position of the side line blank on the clamping jaws;

the angle cutting mechanism comprises a rack, a group of beam rods are arranged at the top of the rack, the beam rods are sequentially arranged on the rack, the beam rods are parallel to each other, cross over the transmission chain and are perpendicular to the transmission chain, cutting saws are respectively arranged at two ends of each beam rod, groove rails are respectively arranged on the beam rods, sliders adaptive to the groove rails are arranged on the side portions of the cutting saws, lead screws are arranged on the outer sides of the beam rods, the lead screws are parallel to the beam rods, nuts adaptive to the lead screws are arranged on the side portions of the cutting saws, a position adjusting motor is arranged on the rack, a power shaft of the position adjusting motor is connected with the lead screws, the lead screws are driven by the position adjusting motor to run, the cutting saws move along the groove rails, an included angle between a saw blade of each cutting saw and the beam rods is 45 degrees, saw blades of adjacent cutting saws are perpendicular to each other, and side line blanks are sent to the lower portions of the cutting saws by the transmission chain to be subjected to angle cutting treatment;

the discharging mechanism comprises a supporting frame, a switching end plate is arranged at one end of the supporting frame, the supporting frame is fixedly connected with the rack through the switching end plate, traveling wheels are arranged at the bottom of the supporting frame, a lifting table is arranged on the supporting frame, a pair of first discharging belts are arranged on the lifting table, the first discharging belts are parallel to each other and extend along the length direction of the lifting table, the first discharging belts are respectively arranged at two sides of the transmission chain, the lowest position of the lifting table is lower than the height of the transmission chain, the highest position of the lifting table is higher than the height of the transmission chain, and when the lifting table ascends, the first discharging belts output side line blanks on the transmission chain;

the conveying mechanism comprises a group of stand columns, a pair of rail rods are fixed on the stand columns and are parallel to each other, the rail rods penetrate through the lower portion of the cutting mechanism, the rail rods are matched with the positioning mechanism, the positioning mechanism can move along the rail rods, a pair of second discharging belts are arranged at the tail ends of the rail rods, the second discharging belts are located between the rail rods and extend along the length direction of the rail rods, the tail ends of the second discharging belts extend out of the cutting mechanism, a lifting structure is arranged at the bottom of each second discharging belt, the height of each second discharging belt is changed through the lifting structure, the maximum height of each second discharging belt is larger than the height of the rail rods, and the minimum height of each second discharging belt is smaller than the height of the rail rods;

the positioning mechanism comprises a sliding frame, a supporting wheel matched with a rail rod is arranged at the bottom of the sliding frame, a walking motor is arranged in the sliding frame, a power shaft of the walking motor is connected with the supporting wheel, the supporting wheel is driven by the walking motor to operate, so that the sliding frame moves along the rail rod, at least one pair of guide rods are arranged on the sliding frame, the guide rods are parallel to each other and are perpendicular to the rail rod, an adjusting screw rod is arranged between the guide rods, the adjusting screw rod is parallel to the guide rods, an adjusting motor is arranged on the sliding frame, the power shaft of the adjusting motor is connected with the adjusting screw rod, the adjusting screw rod is driven by the adjusting motor to operate, a positioning head is further arranged on the sliding frame, a nut matched with the adjusting screw rod is arranged at the bottom of the positioning head, a sliding block matched with the guide rods is arranged at the bottom of the positioning head, so that the positioning head moves along the guide rods, an embedding opening used for fixing top side line blanks is arranged on the positioning head, and the positioning head drives the top side line blanks to adjust the positions;

the cutting mechanism comprises a frame body, a group of trusses are arranged on the frame body, the trusses are located above the rail rods and are perpendicular to the rail rods, the trusses are sequentially arranged along the length direction of the rail rods, cutting machines are arranged at the bottoms of the trusses and are respectively arranged on two sides of the rail rods, and top side line blanks moving along the rail rods are cut by the cutting machines.

The waste discharging mechanism is arranged below the corner cutting mechanism and comprises a guide plate and a material conveying groove, the guide plate is located below the cutting saw and is respectively arranged on two sides of the material conveying groove, the guide plate is obliquely arranged, the bottom edge of the guide plate extends into the material conveying groove, and waste generated during operation of the cutting saw is guided into the material conveying groove by the guide plate and is discharged from the material conveying groove.

The lower part of the cutting mechanism is provided with a waste recovery mechanism, the waste recovery mechanism comprises a group of recovery belts, each recovery belt is parallel to the truss rod and is positioned below the cutting machine, and waste generated by the cutting machine is discharged by the recovery belts.

The invention has the advantages that:

this facing line system of processing comprises side lines processingequipment and topside lines processingequipment, and side lines processingequipment's feed mechanism, corner cut mechanism, discharge mechanism and topside lines processingequipment's positioning mechanism, cutting mechanism and conveying mechanism link up closely each other, can carry out continuous processing according to different specifications and processing requirement, make the course of working smooth incessant, reduce equipment idle time to promote machining efficiency, reduce energy consumption.

Drawings

Fig. 1 is a schematic structural diagram of a side line processing device of an energy-saving type facing line processing system provided by the invention;

fig. 2 is a schematic structural view of a top side line processing device of the facing line processing system.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the invention is further described with reference to the figures and the specific embodiments.

As shown in fig. 1 and 2, the energy-saving type facing line processing system provided by the invention comprises a side line processing device and a top line processing device; the side line processing device is provided with a feeding mechanism, a corner cutting mechanism and a discharging mechanism, wherein an inlet of the feeding mechanism is communicated with a blank supplying device, the blank supplying device sends side line blanks into the feeding mechanism, an outlet of the feeding mechanism is communicated with the corner cutting mechanism, the feeding mechanism sends the side line blanks into the corner cutting mechanism for corner cutting treatment, an outlet of the corner cutting mechanism is communicated with the discharging mechanism, and the corner cutting mechanism sends the side line subjected to corner cutting to the discharging mechanism for discharging; the top side line processing device is provided with a positioning mechanism, a cutting mechanism and a conveying mechanism, wherein an inlet of the positioning mechanism is communicated with a blank supply device, the blank supply device conveys top side line blanks to the positioning mechanism, the positioning mechanism positions the top side line blanks, the positioning mechanism is arranged on the conveying mechanism, the conveying mechanism is positioned below the cutting mechanism, the conveying mechanism conveys the positioning mechanism and the top side line blanks to the cutting mechanism, and the cutting mechanism cuts the top side line blanks; the feeding mechanism comprises a conveying frame, at least one pair of transmission chains 1 are arranged on the conveying frame, the transmission chains are parallel to each other and extend along the length direction of the conveying frame, the conveying frame penetrates through the lower part of the corner cutting mechanism, the tail end of the device is communicated with a discharging mechanism, a transmission chain is connected with a power motor, the power motor drives the transmission chain to run, a group of chucks 2 are arranged on the transmission chain, the chucks are sequentially arranged along the length direction of the transmission chain, the chucks are provided with clamping jaws capable of fixing side line blanks, a positioning frame 3 is arranged below the transmission chain, a group of guide rails 4 are arranged on the positioning frame, the guide rails are parallel to each other, the guide rail is provided with a caster matched with the guide rail, the caster is connected with a limiting motor, the limiting motor drives the caster to move on the guide rail, the top of the caster is provided with a limiting block 5, the limiting block props against the end part of the side line blank, and the position of the side line blank on the clamping jaw is adjusted; the angle cutting mechanism comprises a rack 6, a group of beam rods 7 are arranged at the top of the rack, the beam rods are sequentially arranged on the rack, the beam rods are parallel to each other, cross over a transmission chain and are perpendicular to the transmission chain, cutting saws 8 are arranged at two ends of each beam rod respectively, groove rails 9 are arranged on the beam rods respectively, sliders 10 matched with the groove rails are arranged on the side portions of the cutting saws, lead screws 11 are arranged on the outer sides of the beam rods and are parallel to the beam rods, nuts matched with the lead screws are arranged on the side portions of the cutting saws, a positioning motor is arranged on the rack, a power shaft of the positioning motor is connected with the lead screws, the lead screws are driven by the positioning motor to operate, the cutting saws are enabled to move along the groove rails, included angles between saw blades of the cutting saws and the beam rods are 45 degrees, saw blades of adjacent cutting saws are perpendicular to each other, and side edge line blanks are sent to the lower portions of the cutting saws by the transmission chain to be subjected to angle cutting treatment; the discharging mechanism comprises a supporting frame 12, a switching end plate 13 is arranged at one end of the supporting frame, the supporting frame is fixedly connected with the rack through the switching end plate, traveling wheels are arranged at the bottom of the supporting frame, a lifting table 14 is arranged on the supporting frame, a pair of first discharging belts 15 are arranged on the lifting table, the first discharging belts are parallel to each other and extend along the length direction of the lifting table, the first discharging belts are respectively arranged at two sides of the transmission chain, the lowest position of the lifting table is lower than the height of the transmission chain, the highest position of the lifting table is higher than the height of the transmission chain, and when the lifting table ascends, the first discharging belts output side line blanks on the transmission chain; the conveying mechanism comprises a group of upright posts 16, a pair of rail rods 17 are fixed on the upright posts and are parallel to each other, the rail rods penetrate through the lower portion of the cutting mechanism, the rail rods are matched with the positioning mechanism, the positioning mechanism can move along the rail rods, a pair of second discharging belts 18 are arranged at the tail ends of the rail rods, the second discharging belts are located between the rail rods and extend along the length direction of the rail rods, the tail ends of the second discharging belts extend out of the cutting mechanism, a lifting structure 19 is arranged at the bottom of each second discharging belt, the height of each second discharging belt is changed through the lifting structure, the maximum height of each second discharging belt is larger than the height of the rail rods, and the minimum height of each second discharging belt is smaller than the height of the rail rods; the positioning mechanism comprises a sliding frame 20, a supporting wheel matched with the rail rod is arranged at the bottom of the sliding frame, a walking motor 21 is arranged in the sliding frame, a power shaft of the walking motor is connected with the supporting wheel, the supporting wheel is driven by the walking motor to run, so that the sliding frame moves along the rail rod, at least one pair of guide rods 22 are arranged on the sliding frame, the guide rods are parallel to each other, the positioning head is provided with a sliding block matched with the guide rod, so that the positioning head moves along the guide rod, the positioning head is provided with an embedding opening for fixing top side line blanks, and the positioning head drives the top side line blanks to adjust the position; the cutting mechanism comprises a frame body 26, a group of trusses 27 are arranged on the frame body, the trusses are located above the rail rods and are perpendicular to the rail rods, the trusses are sequentially arranged along the length direction of the rail rods, cutting machines 28 are arranged at the bottoms of the trusses and are respectively arranged on two sides of the rail rods, and the cutting machines are used for cutting top side line blanks moving along the rail rods. The waste discharging mechanism is arranged below the corner cutting mechanism and comprises a guide plate and a material conveying groove 29, the guide plate is positioned below the cutting saw and is respectively arranged on two sides of the material conveying groove, the guide plate is obliquely arranged, the bottom edge of the guide plate extends into the material conveying groove, and waste generated during operation of the cutting saw is guided to the material conveying groove by the guide plate and is discharged from the material conveying groove. The lower part of the cutting mechanism is provided with a waste recovery mechanism, the waste recovery mechanism comprises a group of recovery belts 30, each recovery belt is parallel to the truss rod and is positioned below the cutting machine, and waste generated by the cutting machine is discharged by the recovery belts. This facing line system of processing comprises side lines processingequipment and topside lines processingequipment, and side lines processingequipment's feed mechanism, corner cut mechanism, discharge mechanism and topside lines processingequipment's positioning mechanism, cutting mechanism and conveying mechanism link up closely each other, can carry out continuous processing according to different specifications and processing requirement, make the course of working smooth incessant, reduce equipment idle time to promote machining efficiency, reduce energy consumption.

The above embodiments are merely illustrative of the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the content of the present invention and implement the present invention, and not to limit the scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered by the scope of the present invention.

Claims (1)

1. An energy-saving type face line processing system comprises a side line processing device and a top line processing device; the side line processing device is provided with a feeding mechanism, a corner cutting mechanism and a discharging mechanism, wherein an inlet of the feeding mechanism is communicated with a blank supply device, the blank supply device sends side line blanks into the feeding mechanism, an outlet of the feeding mechanism is communicated with the corner cutting mechanism, the feeding mechanism sends the side line blanks into the corner cutting mechanism for corner cutting treatment, an outlet of the corner cutting mechanism is communicated with the discharging mechanism, and the corner cutting mechanism sends the side line after corner cutting to the discharging mechanism for discharging; topside lines processingequipment has positioning mechanism, cut mechanism and conveying mechanism, positioning mechanism's entry and blank supply equipment intercommunication, send topside lines blank to positioning mechanism by blank supply equipment, fix a position topside lines blank by positioning mechanism, positioning mechanism installs on conveying mechanism, conveying mechanism is located and cuts the mechanism below, send positioning mechanism and topside lines blank to cutting mechanism by conveying mechanism, cut the mechanism and cut its characterized in that to topside lines blank by cutting:

the feeding mechanism comprises a conveying frame, at least one pair of transmission chains are arranged on the conveying frame, the transmission chains are parallel to each other and extend along the length direction of the conveying frame, the conveying frame penetrates through the lower part of the corner cutting mechanism, the tail end of the device is communicated with a discharging mechanism, a transmission chain is connected with a power motor, the power motor drives the transmission chain to run, a group of chucks are arranged on the transmission chain, the chucks are sequentially arranged along the length direction of the transmission chain, the chucks are provided with clamping jaws capable of fixing side line blanks, a positioning frame is arranged below the transmission chain, a group of guide rails are arranged on the positioning frame, the guide rails are mutually parallel, the guide rail is provided with a caster matched with the guide rail, the caster is connected with a limiting motor, the limiting motor drives the caster to move on the guide rail, the top of the caster is provided with a limiting block, and the limiting block props against the end part of the side line blank to adjust the position of the side line blank on the clamping jaws;

the angle cutting mechanism comprises a rack, a group of beam rods are arranged at the top of the rack, the beam rods are sequentially arranged on the rack, the beam rods are parallel to each other, cross over the transmission chain and are perpendicular to the transmission chain, cutting saws are respectively arranged at two ends of each beam rod, groove rails are respectively arranged on the beam rods, sliders adaptive to the groove rails are arranged on the side portions of the cutting saws, lead screws are arranged on the outer sides of the beam rods, the lead screws are parallel to the beam rods, nuts adaptive to the lead screws are arranged on the side portions of the cutting saws, a position adjusting motor is arranged on the rack, a power shaft of the position adjusting motor is connected with the lead screws, the lead screws are driven by the position adjusting motor to run, the cutting saws move along the groove rails, an included angle between a saw blade of each cutting saw and the beam rods is 45 degrees, saw blades of adjacent cutting saws are perpendicular to each other, and side line blanks are sent to the lower portions of the cutting saws by the transmission chain to be subjected to angle cutting treatment;

the discharging mechanism comprises a supporting frame, a switching end plate is arranged at one end of the supporting frame, the supporting frame is fixedly connected with the rack through the switching end plate, traveling wheels are arranged at the bottom of the supporting frame, a lifting table is arranged on the supporting frame, a pair of first discharging belts are arranged on the lifting table, the first discharging belts are parallel to each other and extend along the length direction of the lifting table, the first discharging belts are respectively arranged at two sides of the transmission chain, the lowest position of the lifting table is lower than the height of the transmission chain, the highest position of the lifting table is higher than the height of the transmission chain, and when the lifting table ascends, the first discharging belts output side line blanks on the transmission chain;

the conveying mechanism comprises a group of stand columns, a pair of rail rods are fixed on the stand columns, the rail rods are parallel to each other, pass through the lower portion of the cutting mechanism and are matched with the positioning mechanism, the positioning mechanism can move along the rail rods, a pair of second discharging belts are arranged at the tail ends of the rail rods, are positioned between the rail rods and extend along the length direction of the rail rods, the tail ends of the second discharging belts extend out of the cutting mechanism, a lifting structure is arranged at the bottom of each second discharging belt, the height of each second discharging belt is changed through the lifting structure, the maximum height of each second discharging belt is larger than the height of the rail rods, and the minimum height of each second discharging belt is smaller than the height of the rail rods;

the positioning mechanism comprises a sliding frame, a supporting wheel matched with a rail rod is arranged at the bottom of the sliding frame, a walking motor is arranged in the sliding frame, a power shaft of the walking motor is connected with the supporting wheel, the supporting wheel is driven by the walking motor to run, so that the sliding frame moves along the rail rod, at least one pair of guide rods are arranged on the sliding frame, the guide rods are parallel to each other and are perpendicular to the rail rod, an adjusting screw rod is arranged between the guide rods, the adjusting screw rod is parallel to the guide rods, an adjusting motor is arranged on the sliding frame, the power shaft of the adjusting motor is connected with the adjusting screw rod, the adjusting screw rod is driven by the adjusting motor to run, a positioning head is further arranged on the sliding frame, a nut matched with the adjusting screw rod is arranged at the bottom of the positioning head, a sliding block matched with the guide rods is arranged at the bottom of the positioning head, so that the positioning head moves along the guide rods, an embedding opening for fixing top side line blanks is arranged on the positioning head, and the positioning head drives the top side line blanks to adjust the positions;

the cutting mechanism comprises a frame body, a group of trusses are arranged on the frame body, the trusses are located above the rail rods and are perpendicular to the rail rods, the trusses are sequentially arranged along the length direction of the rail rods, cutting tools are arranged at the bottoms of the trusses, the cutting tools are respectively arranged on two sides of the rail rods, and the cutting tools are used for cutting top edge line blanks moving along the rail rods;

a waste discharging mechanism is arranged below the corner cutting mechanism, the waste discharging mechanism comprises a guide plate and a material conveying groove, the guide plate is positioned below the cutting saw and is respectively arranged at two sides of the material conveying groove, the guide plate is obliquely arranged, the bottom edge of the guide plate extends into the material conveying groove, and waste generated during operation of the cutting saw is guided into the material conveying groove by the guide plate and is discharged from the material conveying groove;

the lower part of the cutting mechanism is provided with a waste recovery mechanism, the waste recovery mechanism comprises a group of recovery belts, each recovery belt is parallel to the truss rod and is positioned below the cutting machine, and waste generated by the cutting machine is discharged by the recovery belts.

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