CN216441833U - Energy-concerving and environment-protective steel-pipe tower processing equipment - Google Patents

Abstract

The utility model discloses energy-saving and environment-friendly steel pipe tower processing equipment which comprises a rack, a fixed column arranged on the rack, a sliding rod arranged on the rack, a baffle mechanism arranged on the rack, a fixed mechanism arranged on the rack, a cutting mechanism arranged on the fixed mechanism and a dust collection mechanism arranged on the rack, wherein the baffle mechanism is arranged on the rack; the fixing mechanism comprises a limiting groove, a sliding plate arranged on the sliding rod, a pressing plate arranged on the sliding plate, a pressing groove arranged on the sliding plate, a pressing plate spring arranged on the pressing plate, a compression assembly arranged on the pressing plate and an anti-skid assembly arranged on the pressing plate.

Description

Energy-concerving and environment-protective steel-pipe tower processing equipment

Technical Field

The utility model belongs to the technical field of steel pipe tower processing, and particularly relates to energy-saving and environment-friendly steel pipe tower processing equipment.

Background

The plasma cutting is a processing method which utilizes the heat of a high-temperature plasma arc to partially melt metal at a workpiece notch and utilizes the momentum of high-speed plasma to remove the molten metal to form the notch.

SUMMERY OF THE UTILITY MODEL

The utility model provides energy-saving and environment-friendly steel pipe tower processing equipment capable of accurately cutting in order to overcome the defects of the prior art.

In order to achieve the purpose, the utility model adopts the following technical scheme: an energy-saving and environment-friendly steel pipe tower processing device comprises a rack, a fixed column arranged on the rack, a sliding rod arranged on the rack, a baffle mechanism arranged on the rack, a fixing mechanism arranged on the rack, a cutting mechanism arranged on the fixing mechanism and a dust collection mechanism arranged on the rack; the fixing mechanism comprises a limiting groove, a sliding plate arranged on the sliding rod, a pressing plate arranged on the sliding plate, a pressing groove arranged on the sliding plate, a pressing plate spring arranged on the pressing plate, a compression assembly arranged on the pressing plate and an anti-skid assembly arranged on the pressing plate; placing the steel pipe on a frame, and limiting the position of the end part of the steel pipe through a baffle mechanism; the cutting mechanism is fixed at the rear end of the fixing mechanism, the pressing plate can be clamped in the limiting groove, and the sliding plate is slid to enable the pressing plate to be clamped in the limiting groove to limit the cutting position of the steel pipe; the steel pipe is pressed by the compression assembly, and the anti-slip assembly prevents the steel pipe from rotating in the cutting process; the dust collection mechanism filters the scraps generated by cutting the steel pipe by the cutting mechanism, and the scraps are cleaned.

Furthermore, the compression assembly comprises a pull rod, a pressure rod arranged on the pull rod, a support table arranged on the sliding plate and a rotating shaft arranged on the support table; the outer end of the pressing rod is pressed downwards, so that the pressing rod drives the other end of the pull rod to tilt, the pressing plate retracts into the pressing groove, and the sliding plate is slid to a required position to be loosened and fixed.

Further, the anti-skid assembly comprises a fixed rod, a fixed shaft arranged on the fixed rod, an anti-skid shaft arranged on the fixed shaft and a rubber roller arranged on the anti-skid shaft; the rubber roller can rotate on the anti-skidding shaft, and the steel pipe can be prevented from rotating to influence the cutting rate through the inclined plane of the rubber roller.

Further, the baffle mechanism comprises a baffle, a baffle shaft arranged on the rack and a torsion spring arranged on the baffle; the baffle can block the end part of the steel pipe, and the cutting length can be calculated; the steel pipe after the cutting, the extrusion of accessible rear end transports the baffle from vertical state to the state of being parallel.

Further, the cutting mechanism comprises a fixed block, a cutter arranged on the fixed block, a screw rod arranged on the cutter, a thread sleeve arranged on the rack, a driving wheel arranged on the fixed block, a driven wheel arranged on the screw rod and a motor arranged on the fixed block; the motor drives the driving wheel to rotate, the driving wheel is meshed with the driven wheel, the threaded sleeve is made to rotate, and the screw rod is driven to move linearly to cut the steel pipe.

Further, the dust suction mechanism comprises a fan, a first air suction pipe arranged on the fan, a filter plate arranged on the first air suction pipe, a second air suction pipe arranged on the first air suction pipe, a chute arranged on the cutter, a third air suction pipe arranged on the second air suction pipe, a front wind shielding plate arranged on the second air suction pipe, a rear wind shielding plate arranged on the second air suction pipe, an extrusion spring arranged on the front wind shielding plate, a sliding strip arranged on the third air suction pipe, an air outlet pipe arranged on the fan and an absorption assembly arranged on the air outlet pipe; the third air suction pipe can move back and forth along with the sliding plate, scraps generated by cutting are sucked through the third air suction pipe, and the front wind shielding plate and the rear wind shielding plate can prevent outside air from being sucked into the fan, so that the working efficiency of dust removal is improved; the filter plate can filter out larger impurities. Prevent that great impurity from influencing fan work.

Further, the absorption assembly comprises an absorption pipe, a valve arranged on the absorption pipe and a filtering part arranged on the absorption pipe; when the absorption liquid reaches a saturated state, the valve is opened, so that the waste chips directly enter the other end of the absorption tube through the air outlet tube and are filtered through the filtering part.

Further, the filtering component comprises a filtering frame, a first filtering net arranged on the filtering frame, a second filtering net arranged on the filtering frame and a third filtering net arranged on the filtering frame; the aperture of first filter screen, second filter screen and third filter screen increases from the top down in proper order, can filter the sweeps, and the air escape who will filter at last.

In conclusion, the steel pipe can be fixed through the arrangement of the fixing mechanism, marking is not needed during cutting, and the working efficiency is improved; due to the arrangement of the dust collection mechanism, the influence of scraps on the precision in the cutting process can be avoided; meanwhile, the damage of black smoke to the human body is prevented.

Drawings

FIG. 1 is a schematic view of the present invention.

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

Fig. 3 is a cross-sectional view taken at a-a of fig. 2.

Fig. 4 is an enlarged view of fig. 3 at D.

Fig. 5 is a sectional view taken at B-B of fig. 2.

Fig. 6 is a front view of the present invention.

Fig. 7 is a sectional view at C-C of fig. 6.

Detailed Description

As shown in fig. 1-7, an energy-saving and environment-friendly steel pipe tower processing device comprises a frame 1, a fixed column 10, a slide bar 11, a baffle mechanism, a fixed mechanism, a cutting mechanism and a dust suction mechanism; the fixed column 10 is positioned on the top surface of the frame 1; the sliding rod 11 is fixedly connected to the middle upper part of the fixed column 10; the baffle mechanism is positioned at the end part of the frame 1; the fixing mechanism is positioned on the frame 1; the cutting mechanism is positioned behind the fixing mechanism; the dust suction mechanism is positioned above the machine frame 1.

Specifically, the fixing mechanism comprises a limiting groove 12, a sliding plate 2, a pressing plate 20, a pressing groove 21, a pressing plate spring 22, a compression assembly and an anti-skidding assembly; the limiting grooves 12 are uniformly arranged at the upper boundary of the rack 1; the sliding plate 2 can slide on the sliding rod 11; the pressure plate 20 can slide in a pressure groove 21 on the sliding plate 2; one end of the pressure plate spring 22 is fixedly connected to the upper top surface of the pressure plate 20, and the other end is fixedly connected to the upper top surface of the pressure groove 21.

Specifically, the compression assembly comprises a pull rod 23, a compression rod 24, a support platform 25 and a rotating shaft 26; the pull rod 23 is fixedly connected to the middle position of the top surface of the pressure plate 20; one end of the pressure lever 24 can rotate at the upper end of the pull rod 23; the lever 24 from the pivot end 1/3 is rotatable in a pivot 26 at the upper end of the support platform 25.

Specifically, the anti-slip assembly comprises a fixing rod 27, a fixing shaft 28, an anti-slip shaft 29 and a rubber roller 291; the fixing rod 27 is fixedly connected to the pressure plate 20; the fixed shaft 28 is located at the end of the fixed rod 27; the anti-slip shaft 29 is rotatable on the fixed shaft 28; the rubber roller 291 is rotatable on the anti-slip shaft 29.

Specifically, the baffle mechanism comprises a baffle 6, a baffle shaft 60 and a torsion spring 61; the baffle 6 can rotate on a baffle shaft 60 on the frame 1; torsional spring 61 one end fixed connection is on baffle 6, and other end fixed connection is on the notched side of frame 1.

Specifically, the cutting mechanism comprises a fixed block 3, a cutter 30, a screw rod 31, a thread bush 32, a driving wheel 33, a driven wheel 34 and a motor 35; the fixed block 3 is fixedly connected to the sliding plate 2 and can rotate on the sliding rod 11; the cutter 30 is fixedly connected with the end part of the screw 31, and the screw 31 is in threaded connection with the threaded sleeve 32; the threaded sleeve 32 can rotate in the fixed block 3; the driving wheel 33 can rotate on the fixed block 3, and the driven wheel 34 is fixedly connected to the threaded sleeve 32; the motor 35 is fixedly connected to the fixed block 3.

Specifically, the dust suction mechanism comprises a fan 4, a first air suction pipe 40, a filter plate 41, a second air suction pipe 42, a chute 43, a third air suction pipe 44, a front wind shielding plate 45, a rear wind shielding plate 46, an extrusion spring 47, a slide bar 48, an air outlet pipe 49 and an absorption assembly; the fan 4 is fixedly connected to the side edge of the frame 1; the first air suction pipe 40 is fixedly connected with the upper end of the fan 4; the filter plate 41 can be fixed above the end of the first suction duct 40; the second air suction pipe 42 is fixedly connected to the other end of the first air suction pipe 40; the chute 43 is positioned at the bottom of the second air suction pipe 42; the third air suction pipe 44 can slide in the sliding groove 43 on the second air suction pipe 42; the wind-shielding front plate 45 can slide in the sliding groove 43; the wind shielding rear plate 46 can slide in the sliding groove 43; one end of the extrusion spring 47 is fixedly connected to the turned edge at one end of the wind shielding front plate 45, and the other end is fixedly connected to the sliding groove 43; the slide bar 48 is fixedly connected to each small air duct side of the third air suction pipe 44; the air outlet pipe 49 is fixedly connected to the fan 4.

Specifically, the absorption assembly comprises an absorption pipe 5, a valve 50 and a filtering part; the absorption tube 5 is fixedly connected with the side edge of the frame 1 and is fixedly connected with the air outlet tube 49; the valve 50 is located at the middle of the absorber pipe 5.

Specifically, the filter part includes a filter frame 51, a first filter 52, a second filter 53 and a third filter 54; the filter frame 51 is screwed at the opening end of the absorption tube 5; the first filter screen 52, the second filter screen 53 and the third filter screen 54 are uniformly positioned on the filter frame 51; the apertures of first filter 52 are larger than the apertures of second filter 53; the apertures of second filter 53 are larger than the apertures of third filter 54.

The working principle is as follows: placing a steel pipe on the frame 1, and limiting the position of the end part of the steel pipe through a baffle 6; the cutter 30 is fixed at the rear end of the sliding plate 2, the pressure plate 20 can be clamped in the limiting groove 12, and the position for cutting the steel pipe is limited by clamping the pressure plate 20 in the limiting groove 12 through sliding the sliding plate 2; the outer end of the pressure lever 24 is pressed downwards, so that the pressure lever 24 drives the other end of the pull rod 23 to tilt, the pressure plate 20 retracts into the pressure groove 21, the sliding plate 2 is slid to a required position, hands are loosened, the steel pipe can be fixed and pressed, and the steel pipe is prevented from rotating in the cutting process through the rubber roller 291; the cutter 30 is started, the motor 4 rotates to drive the driving wheel 33 to rotate, the driven wheel 34 is meshed with the driving wheel 33 to rotate, the threaded sleeve 32 rotates, and the screw rod 31 moves linearly to cut the steel pipe; the absorption liquid in the absorption pipe 5 filters waste scraps generated by cutting the steel pipe by the cutting mechanism, and the waste scraps are cleaned; when the absorption liquid reaches a saturated state, the valve 50 is opened, so that the waste chips directly enter the other end of the absorption tube 5 through the air outlet tube 49, the hole diameters of the first filter screen 52, the second filter screen 53 and the third filter screen 54 are sequentially increased from top to bottom, the waste chips can be filtered, and finally the filtered air is discharged.

Claims (8)

1. An energy-saving and environment-friendly steel pipe tower processing device comprises a rack (1), a fixed column (10) arranged on the rack, a sliding rod (11) arranged on the rack, a baffle mechanism arranged on the rack, a fixed mechanism arranged on the rack, a cutting mechanism arranged on the fixed mechanism and a dust collection mechanism arranged on the rack; the method is characterized in that: the fixing mechanism comprises a limiting groove (12), a sliding plate (2) arranged on the sliding rod, a pressing plate (20) arranged on the sliding plate, a pressing groove (21) arranged on the sliding plate, a pressing plate spring (22) arranged on the pressing plate, a compression assembly arranged on the pressing plate and an anti-skidding assembly arranged on the pressing plate.

2. The energy-saving and environment-friendly steel tube tower processing equipment as claimed in claim 1, is characterized in that: the compression assembly comprises a pull rod (23), a pressure rod (24) arranged on the pull rod, a support platform (25) arranged on the sliding plate and a rotating shaft (26) arranged on the support platform.

3. The energy-saving and environment-friendly steel tube tower processing equipment as claimed in claim 1, is characterized in that: the anti-slip assembly comprises a fixing rod (27), a fixing shaft (28) arranged on the fixing rod, an anti-slip shaft (29) arranged on the fixing shaft and a rubber roller (291) arranged on the anti-slip shaft.

4. The energy-saving and environment-friendly steel tube tower processing equipment as claimed in claim 1, is characterized in that: the baffle mechanism comprises a baffle (6), a baffle shaft (60) arranged on the rack and a torsion spring (61) arranged on the baffle.

5. The energy-saving and environment-friendly steel tube tower processing equipment as claimed in claim 1, is characterized in that: the cutting mechanism comprises a fixed block (3), a cutter (30) arranged on the fixed block, a screw rod (31) arranged on the cutter, a thread sleeve (32) arranged on the rack, a driving wheel (33) arranged on the fixed block, a driven wheel (34) arranged on the screw rod and a motor (35) arranged on the fixed block.

6. The energy-saving and environment-friendly steel tube tower processing equipment as claimed in claim 5, is characterized in that: dust absorption mechanism includes fan (4), locates first aspiration channel (40) on the fan, locates filter (41) on the first aspiration channel, locates second aspiration channel (42) on the first aspiration channel, locate spout (43) on the cutterbar, locate third aspiration channel (44) on the second aspiration channel, locate keep out wind front bezel (45) on the second aspiration channel, locate keep out wind rear bezel (46) on the second aspiration channel, locate extrusion spring (47) on the front bezel keeps out the wind, locate draw runner (48) on the third aspiration channel, locate outlet duct (49) on the fan and locate absorption assembly on the outlet duct.

7. The energy-saving and environment-friendly steel tube tower processing equipment as claimed in claim 6, is characterized in that: the absorption assembly comprises an absorption pipe (5), a valve (50) arranged on the absorption pipe and a filtering component arranged on the absorption pipe.

8. The energy-saving and environment-friendly steel tube tower processing equipment as claimed in claim 7, is characterized in that: the filter component comprises a filter frame (51), a first filter screen (52) arranged on the filter frame, a second filter screen (53) arranged on the filter frame and a third filter screen (54) arranged on the filter frame.

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