CN110744308A

CN110744308A - Metal pipeline bending cutting machine

Info

Publication number: CN110744308A
Application number: CN201911128168.XA
Authority: CN
Inventors: 鲍雪尔
Original assignee: Jiaozhou Ougui Metal Products Co Ltd
Current assignee: Jiaozhou Ougui Metal Products Co Ltd
Priority date: 2019-11-18
Filing date: 2019-11-18
Publication date: 2020-02-04
Also published as: JP2021079530A; JP6859532B1

Abstract

The invention discloses a metal pipeline bending cutting machine, which comprises a machine tool base, wherein main motor cavities are symmetrically arranged in the machine tool base in the center, a main motor is fixedly arranged in the lower wall of the main motor cavity, a main power shaft is arranged on the main motor in a power connection mode, a first bevel gear is fixedly arranged on the main power shaft, and a second bevel gear is arranged on the first bevel gear in a meshing connection mode.

Description

Metal pipeline bending cutting machine

Technical Field

The invention relates to the field of metal pipeline processing, in particular to a metal pipeline bending cutting machine.

Background

When the metal pipeline is produced, the metal pipeline needs to be bent and cut sometimes to meet the actual use requirement, the conventional processing method is to firstly place the metal steel pipe on a bending processing machine tool for bending, and then place the bent metal pipeline on a cutting machine tool for cutting, the processing mode is time-consuming and labor-consuming, the production efficiency is low, a large amount of physical power of workers needs to be consumed, and therefore a machine capable of simultaneously bending and cutting the metal pipeline needs to be developed to meet the actual production requirement.

Disclosure of Invention

The technical problem is as follows: the traditional processing mode wastes time and energy, has low production efficiency and needs to consume a large amount of physical power of workers.

In order to solve the problems, the present embodiment designs a metal pipeline bending cutting machine, which comprises a machine tool base, wherein main motor cavities are arranged in the machine tool base in a centrosymmetric manner, a main motor is fixedly arranged in the lower wall of the main motor cavity, a main power shaft is arranged on the main motor in a power connection manner, a first bevel gear is fixedly arranged on the main power shaft, a second bevel gear is arranged on the first bevel gear in a meshing connection manner, a transmission shaft is fixedly arranged at one end of the second bevel gear, which is close to the longitudinal symmetry axis of the device, a transmission cavity 400 is arranged at one end of the transmission shaft, which is close to the longitudinal symmetry axis of the device, a transmission shaft 16 extends into the transmission cavity 400, a slide seat control mechanism is arranged in the transmission cavity 400, a sliding seat sliding shaft capable of sliding is arranged in the slide seat control mechanism, the sliding shaft can be connected with the transmission shaft through splines, and a sliding seat, the device is characterized in that a rack is arranged on the sliding seat, a rotatable sliding control gear is arranged in the sliding seat control mechanism, the sliding control gear is meshed with the rack on the sliding seat and can drive the sliding seat to slide up and down, a group of sliding rails are symmetrically arranged on the sliding seat, a group of slidable clamping plates are arranged on the sliding rails, a metal pipeline to be processed can be clamped between the clamping plates, fastening screws are symmetrically arranged between the clamping plates up and down, a stamping rod cavity is arranged at one end, close to a transverse symmetrical shaft of the device, of the main power shaft, a stamping rod control mechanism is arranged in the stamping rod cavity, a slidable hollow spline shaft is arranged in the stamping rod control mechanism, the hollow spline shaft is connected with the main power shaft through a spline, the power of the main motor can be transmitted to the stamping rod control mechanism, and a rotatable, the straight-teeth gear is close to the meshing of the horizontal symmetry axis one end of device and is connected and be equipped with big pinion rack, big pinion rack is close to device center one end and has set firmly the stamping rod, the stamping rod can extrude the metal pipeline, and then makes the pipeline crooked, central symmetry is equipped with the cutting machine device on the lathe seat, the cutting machine device can cut the metal pipeline.

Wherein, slide control mechanism includes rotatable locating first locating shaft in the transmission chamber 400, the cover is equipped with the slide-shaft on the first locating shaft, the slide-shaft with first locating shaft passes through splined connection, the slide-shaft is close to slide control gear one end has set firmly big magnetic path, big magnetic path is close to slide control gear one end elastic connection is equipped with big spring, big spring is close to slide control gear one end has set firmly big electro-magnet, first locating shaft is close to slide control gear one end has set firmly first drive gear, the meshing connection is equipped with second drive gear on the first drive gear, second drive gear axle center has set firmly the second locating shaft, set firmly on the second locating shaft slide control gear, slide control gear is located second drive gear rear end.

The stamping rod control mechanism comprises a rotatable hollow spline shaft, a small magnetic block is fixedly arranged at one end, close to the main power shaft, of the hollow spline shaft, a small spring is elastically connected and arranged at one end, close to the main motor, of the small magnetic block, and a small electromagnet is fixedly arranged at one end, close to the main motor, of the small spring.

Beneficially, a rotatable connecting shaft is arranged on one side wall, close to the transverse symmetrical shaft, of the stamping rod cavity, a first gear is fixedly arranged at one end, away from the transverse symmetrical shaft, of the connecting shaft, a second gear is arranged on the first gear in a meshed connection mode, a rotating shaft is fixedly arranged at the axle center of the second gear, a straight gear is fixedly arranged on the rotating shaft, and the straight gear is located at the rear end of the second gear.

The cutting machine device comprises a cutting machine sliding seat which is centrosymmetric and can be arranged on the machine tool seat in a sliding mode, a high-speed transmission cavity is formed in the cutting machine sliding seat, a high-speed motor is fixedly arranged in the high-speed transmission cavity, a high-speed shaft is arranged on the high-speed motor in a power connection mode, one end, close to the transverse symmetric shaft, of the high-speed shaft is fixedly provided with a cutting flying disc, and the cutting flying disc can cut a metal pipeline;

beneficially, the high-speed shaft is fixedly provided with a first belt wheel, the first belt wheel is provided with a belt in a connected mode, one end, away from the longitudinal symmetry axis, of the belt is connected with a second belt wheel, the axis of the second belt wheel is fixedly provided with a first synchronizing shaft, one end, close to the transverse symmetry axis, of the first synchronizing shaft is fixedly provided with a first reduction gear, the first reduction gear is connected with a second reduction gear in a meshed mode, the axis of the second reduction gear is fixedly provided with a low-speed shaft, the low-speed shaft is fixedly provided with a slide gear, the slide gear is located at the rear end of the second reduction gear, one end, close to the transverse symmetry axis, of the slide gear is connected with a rack plate, and the rack plate is fixedly arranged on the machine tool seat.

The invention has the beneficial effects that: the device has the advantages of simple structure, convenient maintenance and convenient use, can automatically carry out bending and stamping on the metal pipeline through the stamping mechanism, and can be internally provided with the high-speed cutting device, so that the metal pipeline can be cut and processed after the bending processing is finished, the processing speed is further increased, the production efficiency is greatly improved, the work burden of workers is reduced, and the production cost of enterprises is saved.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the overall structure of a metal pipe bending cutter according to the present invention;

FIG. 2 is an enlarged schematic view of the "A" structure of FIG. 1;

FIG. 3 is an enlarged schematic view of the "B" structure of FIG. 1;

fig. 4 is an enlarged schematic view of the "C" structure of fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a metal pipeline bending cutting machine, which is mainly applied to the field of metal pipeline processing, and the invention is further explained by combining the attached drawings of the invention:

the invention relates to a metal pipeline bending cutting machine, which comprises a machine tool base 11, wherein a main motor cavity 100 is arranged in the machine tool base 11 in a central symmetry manner, a main motor 12 is fixedly arranged in the lower wall of the main motor cavity 100, a main power shaft 13 is arranged on the main motor 12 in a power connection manner, a first bevel gear 14 is fixedly arranged on the main power shaft 13, a second bevel gear 15 is arranged on the first bevel gear 14 in a meshing connection manner, a transmission shaft 16 is fixedly arranged at one end, close to a longitudinal symmetry axis of the device, of the second bevel gear 15, a transmission shaft 16 is fixedly arranged at one end, close to the longitudinal symmetry axis of the device, of the transmission shaft 16, a transmission cavity 400 is arranged at one end, close to the longitudinal symmetry axis of the device, of the transmission shaft 16 extends into the transmission cavity 400, a sliding seat control mechanism 101 is arranged in the transmission cavity 400, a sliding seat 36 capable of sliding is arranged in the sliding seat, a rack is arranged on the sliding seat 22, a rotatable sliding control gear 26 is arranged in the sliding seat control mechanism 101, the sliding control gear 26 is meshed with the rack on the sliding seat 22 and can drive the sliding seat 22 to slide up and down, a group of sliding rails 24 are symmetrically arranged on the sliding seat 22, a group of slidable clamping plates 23 are arranged on the sliding rails 24, a metal pipeline to be processed can be clamped between the clamping plates 23, fastening screws 25 are symmetrically arranged between the clamping plates 23 up and down, a stamping rod cavity 200 is arranged at one end of the main power shaft 13 close to the transverse symmetrical axis of the device, a stamping rod control mechanism 201 is arranged in the stamping rod cavity 200, a slidable hollow spline shaft 55 is arranged in the stamping rod control mechanism 201, the hollow spline shaft 55 is connected with the main power shaft 13 through a spline, and the power of the main motor 12 can be transmitted to the stamping rod control mechanism 201, be equipped with rotatable spur gear 61 in the ram rod control mechanism 201, spur gear 61 is close to the meshing of the horizontal symmetry axis one end of device and connects and is equipped with big pinion rack 17, big pinion rack 17 is close to device center one end and has set firmly ram rod 18, ram rod 18 can extrude the metal pipeline, and then makes the pipeline crooked, central symmetry is equipped with cutting machine device 301 on the machine tool seat 11, cutting machine device 301 can cut the metal pipeline.

According to the embodiment, the slider control mechanism 101 is described in detail below, the slider control mechanism 101 includes a first positioning shaft 32 rotatably disposed in the transmission cavity 400, a sliding shaft 36 is sleeved on the first positioning shaft 32, the sliding shaft 36 is connected to the first positioning shaft 32 through a spline, a large magnetic block 35 is fixedly disposed at one end of the sliding shaft 36 close to the sliding control gear 26, a large spring 34 is elastically connected to one end of the large magnetic block 35 close to the sliding control gear 26, a large electromagnet 33 is fixedly disposed at one end of the large spring 34 close to the sliding control gear 26, a first transmission gear 31 is fixedly disposed at one end of the first positioning shaft 32 close to the sliding control gear 26, a second transmission gear 27 is engaged and connected to the first transmission gear 31, a second positioning shaft 29 is fixedly disposed at the axis of the second transmission gear 27, the sliding control gear 26 is fixedly disposed on the second positioning shaft 29, the slide control gear 26 is located at the rear end of the second transmission gear 27.

According to an embodiment, the details of the pressing lever control mechanism 201 are described below, the pressing lever control mechanism 201 includes the hollow spline shaft 55 capable of rotating, a small magnetic block 54 is fixedly arranged at one end of the hollow spline shaft 55 close to the main power shaft 13, a small spring 53 is elastically connected to one end of the small magnetic block 54 close to the main motor 12, and a small electromagnet 52 is fixedly arranged at one end of the small spring 53 close to the main motor 12.

Advantageously, a rotatable connecting shaft 56 is arranged on one side wall of the stamping rod cavity 200 close to the transverse symmetry axis, a first gear 57 is fixedly arranged at one end of the connecting shaft 56 far away from the transverse symmetry axis, a second gear 59 is arranged on the first gear 57 in a meshing connection mode, a rotating shaft 58 is fixedly arranged at the axis of the second gear 59, the straight gear 61 is fixedly arranged on the rotating shaft 58, and the straight gear 61 is located at the rear end of the second gear 59.

According to an embodiment, the cutting machine device 301 is described in detail below, where the cutting machine device 301 includes a cutting machine sliding base 38 that is centrosymmetric and slidably disposed on the machine base 11, a high-speed transmission cavity 41 is disposed in the cutting machine sliding base 38, a high-speed motor 39 is fixedly disposed in the high-speed transmission cavity 41, a high-speed shaft 19 is dynamically connected to the high-speed motor 39, a cutting flying disc 21 is fixedly disposed at one end of the high-speed shaft 19, which is close to a transverse symmetry axis, and the cutting flying disc 21 can cut a metal pipe;

beneficially, a first belt pulley 42 is fixedly arranged on the high-speed shaft 19, a belt 43 is connected to the first belt pulley 42, a second belt pulley 44 is connected to one end, away from the longitudinal symmetry axis, of the belt 43, a first synchronizing shaft 45 is fixedly arranged at the axis of the second belt pulley 44, a first reduction gear 46 is fixedly arranged at one end, close to the transverse symmetry axis, of the first synchronizing shaft 45, a second reduction gear 48 is connected to the first reduction gear 46 in a meshing manner, a low-speed shaft 49 is fixedly arranged at the axis of the second reduction gear 48, a slide gear 47 is fixedly arranged on the low-speed shaft 49, the slide gear 47 is located at the rear end of the second reduction gear 48, a rack plate 51 is fixedly arranged at one end, close to the transverse symmetry axis, of the slide gear 47 in a meshing manner, and the rack plate 51 is fixedly arranged on the machine base 11.

The following will describe in detail the use steps of a metal pipe bending cutter in conjunction with fig. 1 to 4: in the initial state, the main motor 12 and the high-speed motor 39 are not operated, the large electromagnet 33 and the small electromagnet 52 are not electrified, the hollow spline shaft 55 is separated from the connecting shaft 56, the sliding shaft 36 is separated from the transmission shaft 16, and the whole device is not operated;

when the device is operated, firstly, a metal pipeline is placed between the clamping plates 23, then the fastening screw 25 is manually rotated, so that the clamping plates 23 clamp the metal pipeline, then the main motor 12 is started, the main motor 12 drives the main power shaft 13 to rotate, the main power shaft 13 drives the hollow spline shaft 55 to rotate, at this time, the small electromagnet 52 is electrified, the small electromagnet 52 generates magnetism to repel the small magnetic block 54, so that the small magnetic block 54 slides upwards, the small magnetic block 54 drives the hollow spline shaft 55 to be meshed with the connecting shaft 56, so that the main power shaft 13 drives the connecting shaft 56 to rotate through the hollow spline shaft 55, the connecting shaft 56 drives the rotating shaft 58 to rotate through the first gear 57 and the second gear 59, and the rotating shaft 58 drives the large toothed plate 17 to slide towards one side close to a symmetric center through the straight gear 61, so that the large toothed plate 17 presses the metal pipe to bend the metal pipe, then the small electromagnet 52 is powered off, so that the hollow spline shaft 55 is separated from the connecting shaft 56, at this time, the large electromagnet 33 is powered on, the large electromagnet 33 repels the large magnetic block 35, so that the large magnetic block 35 drives the sliding shaft 36 to start sliding, so that the sliding shaft 36 is meshed with the transmission shaft 16, so that the transmission shaft 16 drives the first positioning shaft 32 to rotate through the sliding shaft 36, the first positioning shaft 32 drives the second positioning shaft 29 to rotate through the first transmission gear 31 and the second transmission gear 27, the second positioning shaft 29 drives the sliding control gear 26 to rotate, the sliding control gear 26 further drives the sliding base 22 to slide, so that the cutting position adjusted by the sliding base 22 is achieved, then the large electromagnet 33 is powered off, so that the transmission shaft 16 is separated from the sliding shaft 36, then, the main motor 12 is turned off, the high-speed motor 39 is started, the high-speed shaft 19 is driven to rotate, the high-speed shaft 19 drives the cutting flying disc 21 to rotate, meanwhile, the high-speed shaft 19 drives the first synchronous shaft 45 to rotate through the first belt wheel 42, the belt 43 and the second belt wheel 44, the first synchronous shaft 45 drives the low-speed shaft 49 to rotate through the first reduction gear 46 and the second reduction gear 48, and the low-speed shaft 49 further drives the cutter slide 38 to slide through the slide gear 47, so that the cutting flying disc 21 starts to cut a metal pipe.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. The invention relates to a metal pipeline bending cutting machine, which comprises a machine tool base, wherein main motor cavities are arranged in the machine tool base in a centrosymmetric manner, a main motor is fixedly arranged in the lower wall of each main motor cavity, a main power shaft is arranged on the main motor in a power connection manner, a first bevel gear is fixedly arranged on the main power shaft, a second bevel gear is arranged on the first bevel gear in a meshing connection manner, a transmission shaft is fixedly arranged at one end, close to a longitudinal symmetry axis of the device, of the second bevel gear, a transmission cavity 400 is arranged at one end, close to the longitudinal symmetry axis of the device, of the transmission shaft, a transmission shaft 16 extends into the transmission cavity 400, a sliding seat control mechanism is arranged in the transmission cavity 400, a slidable sliding shaft is arranged in the sliding seat control mechanism, and the sliding;

a sliding seat is arranged at one end, close to a longitudinal symmetry axis of the device, of the sliding seat control mechanism, a rack is arranged on the sliding seat, a rotatable sliding control gear is arranged in the sliding seat control mechanism, and the sliding control gear is meshed with the rack on the sliding seat and is connected with the rack on the sliding seat, so that the sliding seat can be driven to slide up and down;

a group of sliding rails are symmetrically arranged on the sliding seat, a group of slidable clamping plates are arranged on the sliding rails, a metal pipeline to be processed can be clamped between the clamping plates, and fastening screws are symmetrically arranged between the clamping plates from top to bottom;

a stamping rod cavity is formed in one end, close to the transverse symmetrical shaft, of the main power shaft, a stamping rod control mechanism is arranged in the stamping rod cavity, a slidable hollow spline shaft is arranged in the stamping rod control mechanism, the hollow spline shaft is connected with the main power shaft through a spline, and therefore the power of the main motor can be transmitted to the stamping rod control mechanism;

the punching press is characterized in that a rotatable straight gear is arranged in the punching press rod control mechanism, a large toothed plate is connected and arranged at one end, close to the transverse symmetry axis of the device, of the straight gear, a punching press rod is fixedly arranged at one end, close to the center of the device, of the large toothed plate, the punching press rod can extrude a metal pipeline and further enables the pipeline to be bent, a cutting machine device is symmetrically arranged on the machine tool base, and the cutting machine device can cut the metal pipeline.

2. A metal pipe bending cutter according to claim 1, wherein: slide control mechanism includes rotatable locating first locating shaft in the transmission chamber 400, the cover is equipped with the smooth axle on the first locating shaft, the smooth axle with first locating shaft passes through splined connection, the smooth axle is close to slip control gear one end has set firmly big magnetic path, big magnetic path is close to slip control gear one end elastic connection is equipped with big spring, big spring is close to slip control gear one end has set firmly big electro-magnet, first locating shaft is close to slip control gear one end has set firmly first drive gear, the meshing connection is equipped with second drive gear on the first drive gear, second drive gear axle center has set firmly the second locating shaft, the epaxial slip control gear that has set firmly of second locating shaft, the slip control gear is located second drive gear rear end.

3. A metal pipe bending cutter according to claim 2, wherein: the stamping rod control mechanism comprises a rotatable hollow spline shaft, a small magnetic block is fixedly arranged at one end, close to the main power shaft, of the hollow spline shaft, a small spring is elastically connected and arranged at one end, close to the main motor, of the small magnetic block, and a small electromagnet is fixedly arranged at one end, close to the main motor, of the small spring.

4. A metal pipe bending cutter according to claim 3, wherein: the stamping device is characterized in that a rotatable connecting shaft is arranged on one side wall, close to the transverse symmetrical shaft, of the stamping rod cavity, a first gear is fixedly arranged at one end, away from the transverse symmetrical shaft, of the connecting shaft, a second gear is arranged on the first gear in a meshed connection mode, the center of the second gear is fixedly provided with a rotating shaft, a straight gear is fixedly arranged on the rotating shaft, and the straight gear is located at the rear end of the second gear.

5. A metal pipe bending cutter according to claim 1, wherein: the cutting machine device comprises a cutting machine sliding seat which is arranged on the machine tool seat in a centrosymmetric and slidable mode, a high-speed transmission cavity is arranged in the cutting machine sliding seat, a high-speed motor is fixedly arranged in the high-speed transmission cavity, a high-speed shaft is arranged on the high-speed motor in a power connection mode, one end, close to a transverse symmetric shaft, of the high-speed shaft is fixedly provided with a cutting flying disc, and the cutting flying disc can cut a metal pipeline.

6. A metal pipe bending cutter according to claim 5, wherein: the utility model discloses a machine tool seat, including machine tool seat, high-speed shaft, horizontal symmetry axle, first synchronous shaft, first reduction gear, rack plate, slide gear, rack plate, the last first band pulley that has set firmly of high-speed shaft, connect on the first band pulley and be equipped with the belt, the belt is kept away from vertical symmetry axle one end and is connected and be equipped with the second band pulley, second band pulley axle center has set firmly first synchronizing shaft, first synchronizing shaft is close to horizontal symmetry axle one end and has set firmly first reduction gear, the meshing is connected on the first reduction gear and is equipped with second reduction gear, second reduction gear axle center has set firmly the low-speed shaft, the epaxial slide gear that has set firmly of low-speed, the slide gear is located second reduction gear rear end.