CN113042816A - Processing system and processing method for protective fence - Google Patents

Abstract

The invention relates to the technical field of guard rail processing, in particular to a guard rail processing system and a processing method, wherein the processing method of the guard rail processing system comprises the following steps: firstly, adjusting the distance between two cutting saws I according to the width of a processed protective guard, fixing a threaded sleeve by using four fixing screws, rotating a transmission worm to drive a lifting sliding plate to slide up and down through two lifting screw rods according to the rear end of the processed protective guard, and adjusting the height of a cutting saw II; step two, the main material is cut by the two rotating cutting saws I in the transverse direction, and the main material is cut by the rotating cutting saws II in the longitudinal direction; step three, the upper end of the processed protective fence can be contacted with a plurality of upper rotating rollers, preservative can be brushed on the upper end of the protective fence, the lower part of the protective fence can be contacted with a plurality of lower rotating rollers, and the preservative is smeared below the protective fence; and step four, taking out the protective guard coated with the preservative and putting the protective guard in sequence.

Description

Processing system and processing method for protective fence

Technical Field

The invention relates to the technical field of guard rail processing, in particular to a guard rail processing system and a guard rail processing method.

Background

The protective fence is an industrial protective fence or crash-proof protective fence, and is mainly used for protection and protection occasions of equipment and facilities in factories, workshops and warehouses. Usually made of steel, such as round steel pipe, square steel pipe or profiled steel sheet. The surface treatment process comprises the following steps: full-automatic electrostatic powder spraying or paint spraying. The raw materials used for the surface treatment of the outdoor crash barrier are waterproof materials. The manufactured anti-collision guardrail has beautiful appearance and is not easy to rust. The upright post of the anti-collision guardrail is fixed with the ground through an expansion bolt. Are usually installed on the sides of logistics channels, the periphery of production equipment, building corners, the sides of doors and the edges of cargo beds, etc. When the protective guard is processed in the prior art, the protective guard needs to be coated with the preservative in a follow-up manner, so that the processing effect is seriously influenced.

Disclosure of Invention

The invention aims to provide a protective guard processing system and a processing method, which can directly coat a preservative on a processed protective guard, saves time and labor and does not need post processing.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a rail guard system of processing, is including supporting processing table device, cutting power device, flexible adjusting device, horizontal cutting device, vertical cutting device, height adjustment device, upper end oiling device and intercommunication storage device, support processing table device on fixedly connected with cutting power device, cutting power device on be connected with flexible adjusting device, cutting power device on fixedly connected with horizontal cutting device, horizontal cutting device be connected with flexible adjusting device transmission, support processing table device on be connected with vertical cutting device and height adjustment device, vertical cutting device and height adjustment device pass through screw thread transmission and connect, support processing table device on fixedly connected with upper end oiling device, upper end oiling device on fixedly connected with intercommunication storage device.

Support processing table device including processing desktop, supporting leg, end commentaries on classics rod and bin I, the equal fixedly connected with supporting leg in four corners department of processing desktop below, the left end of processing desktop rotates and is connected with a plurality of end commentaries on classics rods, bin I fixed connection is in the below of processing desktop left end, a plurality of end commentaries on classics rods all are located bin I, are provided with the drain pipe of taking the valve on the bin I.

Cutting power device include fixed frame, motor I, driving sprocket I, spacing traveller and protrusion extension board, fixed frame fixed connection is in the below of processing desktop right-hand member, fixedly connected with motor I on the fixed frame, fixedly connected with driving sprocket I on motor I's the output shaft, two spacing travelers of fixedly connected with on the fixed frame, fixedly connected with protrusion extension board on the fixed frame.

The telescopic adjusting device comprises a transverse moving lead screw, a linkage rod and transmission racks, the transverse moving lead screw is rotatably connected with the protruding support plate, the transverse moving lead screw is fixedly connected with the two transmission racks on the linkage rod through threads, and the two transmission racks are respectively in sliding connection with the two limiting sliding columns.

The transverse cutting device comprises two adapter plates, two transmission support rods, a linkage shaft, a transmission gear II, fixing grooves, threaded sleeves, a cutting saw I and fixing screws, wherein the two adapter plates are fixedly connected to the fixing frame, the transmission support rods are rotatably connected to the two adapter plates, the lower parts of the two transmission support rods are respectively in meshing transmission connection with the two transmission racks, the linkage shaft is rotatably connected above the two transmission support rods, the transmission gear II is fixedly connected to the linkage shaft, the transmission gear II is connected with the transmission chain wheel I through transmission chain transmission, a plurality of fixing grooves are respectively arranged at two ends of the linkage shaft, the two threaded sleeves are respectively in threaded connection with two ends of the linkage shaft, the cutting saw I is fixedly connected to the two threaded sleeves, and the two threaded sleeves are respectively in threaded connection with the two fixing screws, four set screws all are located the fixed slot.

Vertical cutting device include arch frame, lift slide, motor II, slitting saw II, arch frame fixed connection is in the top of processing desktop, sliding connection has lift slide in the arch frame, fixedly connected with motor II on the lift slide, the below fixedly connected with slitting saw II of motor II output shaft.

The height adjusting device comprises bearing plates, a transmission worm, a bearing seat and lifting screws, wherein the two bearing plates are respectively fixedly connected to the front end and the rear end of the processing desktop, the two ends of the transmission worm are respectively rotatably connected with the two bearing plates, the middle end of the transmission worm is rotatably connected with the bearing seat, the bearing seat is fixedly connected with the processing desktop, the lifting screws are provided with two lifting screws, the two lifting screws are respectively rotatably connected with the processing desktop and respectively connected with the two ends of the lifting sliding plate through threads, and the two lifting screws are all in transmission connection with the transmission worm.

Upper end device of applying oil including erecting traveller, extension spring, horizontal layer board, go up rotary rod and horizontal siphunculus, perpendicular traveller be provided with four, four erect equal fixed connection of traveller on the processing desktop, four erect traveller divide into the front and back two sets ofly, four erect all to overlap on the traveller and be equipped with the extension spring, four extension springs all with processing desktop fixed connection, equal sliding connection has horizontal layer board on two sets of perpendicular travellers, the top of four extension springs respectively with the both ends fixed connection of two horizontal layer boards, rotate between two horizontal layer boards and be connected with a plurality of rotary rod that go up, all be provided with the through-hole on a plurality of rotary rod, and a plurality of surfaces of turning up the rotary rod are provided with the brush housing, a plurality of equal fixedly connected with horizontal siphun.

Intercommunication storage device include bin II and fixed leg, four fixed legs of bin II's below fixedly connected with, four fixed legs are fixed connection respectively at the both ends of two horizontal layer boards, two horizontal siphunculus all with bin II fixed connection and intercommunication.

The method for processing the protective fence processing system comprises the following steps:

the method comprises the following steps: adjusting the distance between the two cutting saws I according to the width of the processed guard rail, fixing the threaded sleeve by using four fixing screws, rotating the transmission worm to drive the lifting slide plate to slide up and down through the two lifting screw rods according to the rear end of the processed guard rail, and adjusting the height of the cutting saw II;

step two: the main material is pushed to move towards the device, the transverse direction of the main material is cut by the two rotating cutting saws I, and the longitudinal direction of the main material is cut by the rotating cutting saws II;

step three: the upper end of the processed protective guard can be contacted with a plurality of upper rotating rollers, preservative can be brushed on the upper end of the protective guard, and the lower part of the protective guard can be contacted with a plurality of lower rotating rollers, so that the preservative is coated below the protective guard;

step four: and taking out the protective guard coated with the preservative and putting the protective guard in sequence.

The invention has the following beneficial effects:

the device can process guard rails with different widths and thicknesses, and can paint protective agents on two ends of the guard rails, so that the guard rails processed by the device do not need secondary processing, and have better corrosion resistance, and time and labor are saved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the present invention supporting a processing table assembly;

FIG. 3 is a schematic view of the cutting power assembly and the telescoping adjustment assembly of the present invention;

FIG. 4 is a schematic view of the cross cutting apparatus of the present invention;

FIG. 5 is a schematic view of the longitudinal cutting apparatus of the present invention;

FIG. 6 is a schematic view of the height adjustment mechanism of the present invention;

FIG. 7 is a schematic structural view of an upper-end oiling device according to the present invention;

FIG. 8 is a schematic view of a communicating storage device according to the present invention.

In the figure: supporting the processing table device 1; processing a desktop 1-1; support legs 1-2; 1-3 of a bottom rotating rod; storage bin I1-4; a cutting power device 2; a fixed frame 2-1; motor I2-2; a transmission chain wheel I2-3; 2-4 of a limiting sliding column; 2-5 of a convex support plate; a telescopic adjustment device 3; traversing a screw rod 3-1; a linkage rod 3-2; a transmission rack 3-3; a transverse cutting device 4; 4-1 of an adapter plate; a transmission support rod 4-2; 4-3 of a linkage shaft; a transmission gear II 4-4; 4-5 of a fixed groove; 4-6 of a threaded sleeve; cutting saw I4-7; 4-8 of a fixing screw; a longitudinal cutting device 5; 5-1 of an arch frame; 5-2 of a lifting sliding plate; motor II 5-3; cutting saw II 5-4; a height adjusting device 6; bearing plate 6-1; a transmission worm 6-2; 6-3 of a bearing seat; 6-4 of a lifting screw rod; an upper end oil smearing device 7; 7-1 of a vertical sliding column; a tension spring 7-2; 7-3 of a horizontal supporting plate; 7-4 parts of upper rotary rod; 7-5 of a transverse pipe; the storage device 8 is communicated; storage bin II 8-1; and a fixed leg 8-2.

Detailed Description

The invention is described in further detail below with reference to figures 1-8.

The first embodiment is as follows:

as shown in fig. 1-8, a guard rail processing system comprises a supporting processing table device 1, a cutting power device 2, a telescopic adjusting device 3, a transverse cutting device 4, a longitudinal cutting device 5, a height adjusting device 6, an upper end oiling device 7 and a communicating storage device 8, wherein the supporting processing table device 1 is fixedly connected with the cutting power device 2, the cutting power device 2 is connected with the telescopic adjusting device 3, the cutting power device 2 is fixedly connected with the transverse cutting device 4, the transverse cutting device 4 is in transmission connection with the telescopic adjusting device 3, the supporting processing table device 1 is connected with the longitudinal cutting device 5 and the height adjusting device 6, the longitudinal cutting device 5 is in transmission connection with the height adjusting device 6 through threads, the supporting processing table device 1 is fixedly connected with the upper end oiling device 7, the upper end oiling device 7 is fixedly connected with a communicating and storing device 8.

The second embodiment is as follows:

as shown in fig. 1-8, the supporting processing table device 1 comprises a processing table top 1-1, supporting legs 1-2, bottom turning rods 1-3 and a storage box I1-4, wherein the supporting legs 1-2 are fixedly connected at four corners below the processing table top 1-1, the left end of the processing table top 1-1 is rotatably connected with a plurality of bottom turning rods 1-3, the storage box I1-4 is fixedly connected below the left end of the processing table top 1-1, the bottom turning rods 1-3 are all positioned in the storage box I1-4, and a drain pipe with a valve is arranged on the storage box I1-4;

the processing table top 1-1 plays a role in bearing connection, a fixed space is provided for the whole device, the processing table top 1-1 is supported and fixed through the four supporting legs 1-2, when the processed protective fence continues to slide, the processed protective fence can be in contact with the plurality of bottom rotating rods 1-3 and drive the bottom rotating rods to rotate, the plurality of rotating bottom rotating rods 1-3 can be in contact with the protective agent stored in the storage box I1-4 and drive the preservative to move so as to be in contact with the protective fence, and the preservative is coated on the lower section of the protective fence.

The third concrete implementation mode:

as shown in fig. 1-8, the cutting power device 2 comprises a fixed frame 2-1, a motor I2-2, a transmission chain wheel I2-3, a limit sliding column 2-4 and a protruding support plate 2-5, wherein the fixed frame 2-1 is fixedly connected below the right end of a processing table top 1-1, the fixed frame 2-1 is fixedly connected with the motor I2-2, an output shaft of the motor I2-2 is fixedly connected with the transmission chain wheel I2-3, the fixed frame 2-1 is fixedly connected with the two limit sliding columns 2-4, and the fixed frame 2-1 is fixedly connected with the protruding support plate 2-5;

the fixing frame 2-1 plays a role in supporting, the starting motor I2-2 can drive the transmission chain wheel I2-3, the transmission chain wheel I2-3 can drive the transmission gear II4-4 to rotate, the two limiting sliding columns 2-4 are used for limiting the two transmission racks 3-3, the two transmission racks can only slide, and the protruding support plates 2-5 can provide a rotating space for the transverse moving lead screw 3-1.

The fourth concrete implementation mode:

as shown in fig. 1-8, the telescopic adjusting device 3 comprises a traverse screw 3-1, a linkage rod 3-2 and transmission racks 3-3, the traverse screw 3-1 is rotatably connected with a protruding support plate 2-5, the traverse screw 3-1 is fixedly connected with the two transmission racks 3-3 on the linkage rod 3-2 through threads, and the two transmission racks 3-3 are respectively connected with two limit sliding columns 2-4 in a sliding manner;

the rotating transverse screw rod 3-1 can drive the linkage rod 3-2 to slide, the sliding linkage rod 3-2 can drive the two transmission racks 3-3 to move, when the two transmission racks 3-3 move, the transmission support rod 4-2 can be driven to rotate, and the angle of the two transmission support rods 4-2 can be properly adjusted according to the thickness of the processed protective guard.

The fifth concrete implementation mode:

as shown in figures 1-8, the transverse cutting device 4 comprises adapter plates 4-1, transmission support rods 4-2, a linkage shaft 4-3, transmission gears II4-4, fixing grooves 4-5, thread sleeves 4-6, a cutting saw I4-7 and fixing screws 4-8, wherein the number of the adapter plates 4-1 is two, the two adapter plates 4-1 are fixedly connected to the fixing frame 2-1, the transmission support rods 4-2 are rotatably connected to the two adapter plates 4-1, the lower parts of the two transmission support rods 4-2 are respectively engaged and in transmission connection with the two transmission racks 3-3, the linkage shaft 4-3 is rotatably connected to the upper parts of the two transmission support rods 4-2, the transmission gears II4-4 are fixedly connected to the linkage shaft 4-3, the transmission gears II4-4 are in transmission connection with the transmission chain wheels I2-3 through transmission chain transmission, a plurality of fixing grooves 4-5 are formed in two ends of the linkage shaft 4-3, two threaded sleeves 4-6 are arranged, the two threaded sleeves 4-6 are connected to two ends of the linkage shaft 4-3 through threads respectively, a cutting saw I4-7 is fixedly connected to each of the two threaded sleeves 4-6, two fixing screws 4-8 are connected to each of the two threaded sleeves 4-6 through threads, and the four fixing screws 4-8 are located in the fixing grooves 4-5;

the adapter plate 4-1 can provide a rotating space for the transmission support rod 4-2, gears are arranged below the two transmission support rods 4-2, the axes of the two gears and the axis of the transmission chain wheel I2-3 are positioned on the same straight line, so that no matter how the two transmission support rods 4-2 rotate, the distance between the transmission chain wheel I2-3 and the transmission gear II4-4 cannot be changed, the transmission gear II4-4 can drive the linkage shaft 4-3 to rotate, the rotating linkage shaft 4-3 can drive the two thread sleeves 4-6 to rotate, the two cutting saws I4-7 can be driven to move after the two thread sleeves 4-6 are rotated, the distance between the two cutting saws I4-7 can be adjusted, guard railings with different widths can be conveniently machined, and the two thread sleeves 4-6 are threaded by positioning four fixing screws 4-8 in the fixing grooves 4-5 And 4-6, fixing the sleeve.

The sixth specific implementation mode:

as shown in fig. 1-8, the longitudinal cutting device 5 comprises an arched frame 5-1, a lifting sliding plate 5-2, a motor II5-3 and a cutting saw II5-4, wherein the arched frame 5-1 is fixedly connected above the processing table top 1-1, the arched frame 5-1 is slidably connected with the lifting sliding plate 5-2, the lifting sliding plate 5-2 is fixedly connected with the motor II5-3, and the cutting saw II5-4 is fixedly connected below an output shaft of the motor II 5-3;

the arched frame 5-1 plays a role of bearing and supporting, the height of the motor II5-3 is adjusted by the lifting of the lifting sliding plate 5-2, the motor II5-3 is started to drive the cutting saw II5-4 to rotate, and the rotating cutting saw II5-4 can cut the upper end of the main material.

The seventh embodiment:

as shown in fig. 1-8, the height adjusting device 6 comprises a bearing plate 6-1, a transmission worm 6-2, a bearing seat 6-3 and a lifting screw 6-4, the two bearing plates 6-1 are respectively and fixedly connected with the front end and the rear end of the processing tabletop 1-1, the two ends of the transmission worm 6-2 are respectively and rotatably connected with the two bearing plates 6-1, the middle end of the transmission worm 6-2 is rotatably connected with the bearing seat 6-3, the bearing seat 6-3 is fixedly connected with the processing tabletop 1-1, the two lifting screw rods 6-4 are arranged, the two lifting screw rods 6-4 are rotatably connected with the processing tabletop 1-1 and are respectively in threaded connection with two ends of the lifting sliding plate 5-2, and the two lifting screw rods 6-4 are in transmission connection with the transmission worm 6-2;

the two bearing plates 6-1 can provide rotating spaces for the two ends of the transmission worm 6-2, the transmission worm 6-2 can rotate stably after the bearing seat 6-3 is arranged, when the height of the cutting saw II5-4 needs to be adjusted, the transmission worm 6-2 is rotated to drive the two lifting screw rods 6-4 to rotate, the two rotating lifting screw rods 6-4 can drive the lifting sliding plate 5-2 to lift, the adjustment of the height of the cutting saw II5-4 is completed, and guard rails with different thicknesses can be cut.

The specific implementation mode is eight:

as shown in fig. 1-8, the upper oil smearing device 7 comprises four vertical sliding columns 7-1, four tension springs 7-2, a horizontal supporting plate 7-3, upper rotating rollers 7-4 and a horizontal through pipe 7-5, wherein the four vertical sliding columns 7-1 are fixedly connected to a processing table top 1-1, the four vertical sliding columns 7-1 are divided into a front group and a rear group, the four vertical sliding columns 7-1 are respectively sleeved with the tension springs 7-2, the four tension springs 7-2 are respectively fixedly connected with the processing table top 1-1, the two groups of vertical sliding columns 7-1 are respectively slidably connected with the horizontal supporting plate 7-3, the upper parts of the four tension springs 7-2 are respectively fixedly connected with two ends of the two horizontal supporting plates 7-3, the two horizontal supporting plates 7-3 are rotatably connected with the upper rotating rollers 7-4, the plurality of upper rotary rods 7-4 are provided with through holes, the outer surfaces of the plurality of upper rotary rods 7-4 are provided with brush sleeves, and the two ends of the plurality of upper rotary rods 7-4 are fixedly connected with and communicated with the transverse through pipes 7-5;

the two groups of vertical sliding columns 7-1 can provide sliding space for the two transverse supporting plates 7-3, four tension springs 7-2 are utilized to generate tension force to drive the two transverse supporting plates 7-3 to move downwards, so that the plurality of upper rotary rods 7-4 are in contact with the processed protective guard to paint the preservative above the protective guard, the upper rotary rods 7-4 are designed to be hollow structures and are convenient to store the preservative, the preservative in the upper rotary rods 7-4 can be discharged through holes in the upper rotary rods 7-4, brush sleeves are arranged at the outer ends of the upper rotary rods 7-4 and are convenient to uniformly paint the flowing preservative on the protective guard, the preservative can firstly enter the two transverse through pipes 7-5, the preservative can enter the plurality of upper rotary rods 7-4, valves are arranged on the two transverse through pipes 7-5, and only when the preservative needs to be painted on the protective guard, the valve will be opened.

The specific implementation method nine:

as shown in fig. 1-8, the communicating storage device 8 comprises a storage box II8-1 and fixing legs 8-2, four fixing legs 8-2 are fixedly connected below the storage box II8-1, the four fixing legs 8-2 are respectively and fixedly connected to two ends of two cross support plates 7-3, and two cross pipes 7-5 are both fixedly connected and communicated with the storage box II 8-1;

preservative is stored in the storage box II8-1, the preservative in the storage box II8-1 can enter the two cross tubes 7-5, and the four fixing legs 8-2 play a role in supporting and fixing.

The detailed implementation mode is ten:

as shown in fig. 1 to 8, the method for processing a guard rail processing system includes the steps of:

the method comprises the following steps: adjusting the distance between two cutting saws I4-7 according to the width of the processed guard rail, fixing a threaded sleeve 4-6 by using four fixing screws 4-8, rotating a transmission worm 6-2 to drive a lifting sliding plate 5-2 to slide up and down through two lifting screw rods 6-4 according to the rear end of the processed guard rail, and adjusting the height of a cutting saw II 5-4;

step two: the main timber is pushed to move towards the device, the transverse direction of the main timber is cut by the two rotating cutting saws I4-7, and the longitudinal direction of the main timber is cut by the rotating cutting saw II 5-4;

step three: the upper end of the processed protective guard can be contacted with a plurality of upper rotary rods 7-4, preservative can be brushed on the upper end of the protective guard, and the lower part of the protective guard can be contacted with a plurality of lower rotary rods 1-3, and the preservative is coated on the lower part of the protective guard;

step four: and taking out the protective guard coated with the preservative and putting the protective guard in sequence.

The invention relates to a guard rail processing system and a processing method, which have the use principle that:

the processing table top 1-1 plays a role in bearing connection, a fixed space is provided for the whole device, the processing table top 1-1 is supported and fixed by four supporting legs 1-2, when the processed protective guard slides continuously, the protective guard can be contacted with a plurality of bottom rotating rollers 1-3 and driven to rotate, the plurality of rotating bottom rotating rollers 1-3 can be contacted with a protective agent stored in a storage box I1-4 and drive the preservative to move so as to be contacted with the protective guard, the preservative coating on the lower section of the protective guard is completed, the fixing frame 2-1 plays a role in supporting, a starting motor I2-2 can drive a transmission chain wheel I2-3, the transmission chain wheel I2-3 can drive a transmission gear II4-4 to rotate, two limiting sliding columns 2-4 are used for limiting two transmission racks 3-3, the two-gear guard fence can only slide, the protruded support plate 2-5 can provide a rotating space for the transverse screw rod 3-1, the rotating transverse screw rod 3-1 can drive the linkage rod 3-2 to slide, the sliding linkage rod 3-2 can drive the two transmission racks 3-3 to move, when the two transmission racks 3-3 move, the transmission support rod 4-2 can be driven to rotate, the angle of the two transmission support rods 4-2 can be properly adjusted according to the thickness of the guard fence to be processed, the adapter plate 4-1 can provide a rotating space for the transmission support rod 4-2, the lower parts of the two transmission support rods 4-2 are designed as gears, the axes of the two gears and the axis of the transmission chain wheel I2-3 are positioned on the same straight line, so no matter how the two transmission support rods 4-2 rotate, the distance between the transmission chain wheel I2-3 and the transmission gear II4-4 cannot be changed, the transmission gear II4-4 can drive the linkage shaft 4-3 to rotate, the rotating linkage shaft 4-3 can drive the two thread sleeves 4-6 to rotate, the two cutting saws I4-7 can be driven to move after the two thread sleeves 4-6 are rotated, so that the distance between the two cutting saws I4-7 can be adjusted, guard rails with different widths can be conveniently machined, the two thread sleeves 4-6 and the two thread sleeves 4-6 can be fixed by utilizing four fixing screws 4-8 positioned in the fixing grooves 4-5, the arch frame 5-1 plays a role of bearing and supporting, the height of the motor II5-3 is adjusted by utilizing the lifting of the lifting sliding plate 5-2, the starting motor II5-3 can drive the cutting saws II5-4 to rotate, the rotary cutting saw II5-4 can cut the upper end of a main material, the two bearing plates 6-1 can provide rotating space for the two ends of the transmission worm 6-2, the transmission worm 6-2 can stably rotate after the bearing seat 6-3 is arranged, when the height of the cutting saw II5-4 needs to be adjusted, the transmission worm 6-2 is rotated to drive the two lifting lead screws 6-4 to rotate, the two rotating lifting lead screws 6-4 can drive the lifting sliding plate 5-2 to lift, the adjustment of the height of the cutting saw II5-4 is completed, protective guards with different thicknesses can be cut, the two groups of vertical sliding columns 7-1 can provide sliding space for the two transverse supporting plates 7-3, the four tension springs 7-2 are used for generating tension, the two transverse supporting plates 7-3 are driven to generate a downward movement trend, the plurality of upper rotary rods 7-4 are contacted with the processed protective guard to coat the preservative above the protective guard, the upper rotary rods 7-4 are designed to be hollow structures, the preservative is convenient to store, the preservative in the upper rotary rods 7-4 can be discharged through the through holes on the upper rotary rods 7-4, and the outer end of the upper rotary rod 7-4 is provided with a brush sleeve, so that the flowing preservative can be conveniently and uniformly coated on the protective guard, the preservative can firstly enter the two transverse through pipes 7-5, when the preservative enters the plurality of upper rotary rods 7-4, the two cross through pipes 7-5 are provided with valves, and only when the preservative is required to be smeared on the protective guard, the valve is opened, preservative is stored in the storage box II8-1, the preservative in the storage box II8-1 can enter the two cross pipes 7-5, and the four fixing legs 8-2 play a role in supporting and fixing.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (10)

1. The utility model provides a rail guard system of processing, is including supporting processing table device (1), cutting power device (2), flexible adjusting device (3), horizontal cutting device (4), vertical cutting device (5), height adjusting device (6), upper end oiling device (7) and intercommunication storage device (8), its characterized in that: support processing table device (1) on fixedly connected with cutting power device (2), cutting power device (2) on be connected with flexible adjusting device (3), cutting power device (2) on transversely cut device (4) of fixedly connected with, transversely cut device (4) be connected with flexible adjusting device (3) transmission, prop processing table device (1) on be connected with vertical cutting device (5) and height adjusting device (6), vertical cutting device (5) and height adjusting device (6) connect through screw thread transmission, support processing table device (1) on fixedly connected with upper end device (7) of wiping oil, upper end device (7) on fixedly connected with intercommunication storage device (8).

2. The guard rail processing system according to claim 1, wherein: the supporting and processing table device (1) comprises a processing table top (1-1), supporting legs (1-2), bottom turning rods (1-3) and a storage box I (1-4), wherein the supporting legs (1-2) are fixedly connected to four corners below the processing table top (1-1), the left end of the processing table top (1-1) is rotatably connected with a plurality of bottom turning rods (1-3), the storage box I (1-4) is fixedly connected below the left end of the processing table top (1-1), the plurality of bottom turning rods (1-3) are located in the storage box I (1-4), and a drain pipe with a valve is arranged on the storage box I (1-4).

3. A guard rail processing system according to claim 2, wherein: the cutting power device (2) comprises a fixed frame (2-1), a motor I (2-2), a transmission chain wheel I (2-3), limiting sliding columns (2-4) and protruding support plates (2-5), wherein the fixed frame (2-1) is fixedly connected below the right end of the processing desktop (1-1), the motor I (2-2) is fixedly connected onto the fixed frame (2-1), the transmission chain wheel I (2-3) is fixedly connected onto an output shaft of the motor I (2-2), the two limiting sliding columns (2-4) are fixedly connected onto the fixed frame (2-1), and the protruding support plates (2-5) are fixedly connected onto the fixed frame (2-1).

4. A guard rail processing system according to claim 3, wherein: the telescopic adjusting device (3) comprises a transverse screw (3-1), a linkage rod (3-2) and transmission racks (3-3), the transverse screw (3-1) is rotatably connected with the protruding support plate (2-5), the transverse screw (3-1) is fixedly connected with the two transmission racks (3-3) on the linkage rod (3-2) through threads, and the two transmission racks (3-3) are respectively in sliding connection with the two limiting sliding columns (2-4).

5. The guard rail processing system according to claim 4, wherein: the transverse cutting device (4) comprises adapter plates (4-1), transmission supporting rods (4-2), a linkage shaft (4-3), transmission gears II (4-4), fixing grooves (4-5), thread sleeves (4-6), a cutting saw I (4-7) and fixing screws (4-8), wherein two adapter plates (4-1) are arranged, the two adapter plates (4-1) are fixedly connected to the fixing frame (2-1), the two adapter plates (4-1) are rotatably connected with the transmission supporting rods (4-2), the lower parts of the two transmission supporting rods (4-2) are respectively in meshing transmission connection with the two transmission racks (3-3), the linkage shaft (4-3) is rotatably connected above the two transmission supporting rods (4-2), the universal driving device is characterized in that a transmission gear II (4-4) is fixedly connected to the linkage shaft (4-3), the transmission gear II (4-4) is connected with the transmission chain wheel I (2-3) through transmission chain, a plurality of fixing grooves (4-5) are formed in the two ends of the linkage shaft (4-3), two thread sleeves (4-6) are arranged, the two thread sleeves (4-6) are connected to the two ends of the linkage shaft (4-3) through threads respectively, a cutting saw I (4-7) is fixedly connected to the two thread sleeves (4-6), two fixing screws (4-8) are connected to the two thread sleeves (4-6) through threads, and the four fixing screws (4-8) are located in the fixing grooves (4-5).

6. The guard rail processing system according to claim 5, wherein: the longitudinal cutting device (5) comprises an arch frame (5-1), a lifting sliding plate (5-2), a motor II (5-3) and a cutting saw II (5-4), the arch frame (5-1) is fixedly connected above the processing table top (1-1), the lifting sliding plate (5-2) is connected in the arch frame (5-1) in a sliding mode, the motor II (5-3) is fixedly connected to the lifting sliding plate (5-2), and the cutting saw II (5-4) is fixedly connected below an output shaft of the motor II (5-3).

7. The guard rail processing system according to claim 6, wherein: the height adjusting device (6) comprises two bearing plates (6-1), two transmission worms (6-2), two bearing seats (6-3) and two lifting screws (6-4), wherein the two bearing plates (6-1) are respectively and fixedly connected with the front end and the rear end of the processing table top (1-1), the two ends of the transmission worm (6-2) are respectively and rotatably connected with the two bearing plates (6-1), the middle end of the transmission worm (6-2) is rotatably connected with the bearing seats (6-3), the bearing seats (6-3) are fixedly connected with the processing table top (1-1), the two lifting screws (6-4) are respectively and rotatably connected with the processing table top (1-1) and are respectively and rotatably connected with the two ends of a lifting sliding plate (5-2) through threads, the two lifting screw rods (6-4) are in transmission connection with the transmission worm (6-2).

8. The guard rail processing system according to claim 7, wherein: the upper end oiling device (7) comprises four vertical sliding columns (7-1), tension springs (7-2), transverse supporting plates (7-3), upper rotating rollers (7-4) and transverse through pipes (7-5), the four vertical sliding columns (7-1) are fixedly connected to the processing table top (1-1), the four vertical sliding columns (7-1) are divided into a front group and a rear group, the tension springs (7-2) are sleeved on the four vertical sliding columns (7-1), the four tension springs (7-2) are fixedly connected with the processing table top (1-1), the transverse supporting plates (7-3) are slidably connected to the two groups of vertical sliding columns (7-1), the tops of the four tension springs (7-2) are fixedly connected with the two ends of the two transverse supporting plates (7-3) respectively, a plurality of upper rotating rods (7-4) are rotatably connected between the two transverse supporting plates (7-3), through holes are formed in the plurality of upper rotating rods (7-4), brush sleeves are arranged on the outer surfaces of the plurality of upper rotating rods (7-4), and the two ends of the plurality of upper rotating rods (7-4) are fixedly connected with transverse through pipes (7-5) and communicated.

9. The guard rail processing system according to claim 8, wherein: the communicated storage device (8) comprises a storage box II (8-1) and fixing legs (8-2), four fixing legs (8-2) are fixedly connected to the lower portion of the storage box II (8-1), the four fixing legs (8-2) are respectively and fixedly connected to the two ends of the two transverse supporting plates (7-3), and the two transverse through pipes (7-5) are fixedly connected and communicated with the storage box II (8-1).

10. A method of processing a guard rail processing system as claimed in claim 9, wherein: the method comprises the following steps:

the method comprises the following steps: adjusting the distance between two cutting saws I (4-7) according to the width of the processed guard rail, fixing a threaded sleeve (4-6) by using four fixing screws (4-8), rotating a transmission worm (6-2) to drive a lifting sliding plate (5-2) to slide up and down through two lifting screw rods (6-4) according to the rear end of the processed guard rail, and adjusting the height of a cutting saw II (5-4);

step two: the main material is pushed to move towards the device, the transverse direction of the main material is cut by the two rotating cutting saws I (4-7), and the longitudinal direction of the main material is cut by the rotating cutting saws II (5-4);

step three: the upper end of the processed protective guard can be contacted with a plurality of upper rotating rollers (7-4), preservative can be brushed on the upper end of the protective guard, and the lower part of the protective guard can be contacted with a plurality of lower rotating rollers (1-3) to coat the preservative below the protective guard;

step four: and taking out the protective guard coated with the preservative and putting the protective guard in sequence.

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