CN216729806U - Three-clamping pipe cutting machine - Google Patents

Abstract

The utility model provides a three-clamp pipe cutting machine, which comprises: the three-card cutting mechanism is arranged on the automatic feeding mechanism at one side of the three-card cutting mechanism; the automatic feeding mechanism comprises a clamping part arranged on one side of the three-card cutting mechanism, a conveying part arranged on one side of the clamping part and a storing part arranged on one side of the conveying part; when the steel pipe body is placed on the material storage part, the material storage part is driven, and the steel pipe body can be clamped by the clamping part along the conveying part; when the steel pipe body is processed, all steel pipes to be processed can be placed in the automatic feeding mechanism, and then the effect of uninterrupted feeding can be realized under the action of the automatic feeding mechanism; when this integument of steel pipe was transmitted to three calories of cutting mechanism in, three calories of cutting mechanism can press from both sides the steel pipe body and get, and then realize the effect of processing.

Description

Three-clamping pipe cutting machine

Technical Field

The utility model relates to cutting equipment, in particular to a three-clamp pipe cutting machine.

Background

With the continuous development of the society and the continuous progress of science and technology, various requirements are also met for processing steel pipes in various fields, so that a steel pipe cutting machine is needed for processing the steel pipes so as to meet the daily use;

however, in the process of processing the steel pipe, the steel pipe is often put in manually, and not only is the labor consumed by the mode, but also certain potential safety hazards are generated, so that the automatic feeding effect can be realized through the automatic feeding mechanism, and the production efficiency is improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a three-clamp pipe cutting machine to solve the problems.

In order to achieve the above object, an embodiment of the present invention provides a three-card pipe cutting machine, including: the three-card cutting mechanism is arranged on the automatic feeding mechanism at one side of the three-card cutting mechanism; the automatic feeding mechanism comprises a clamping part arranged on one side of the three-card cutting mechanism, a conveying part arranged on one side of the clamping part and a material storage part arranged on one side of the conveying part; wherein the steel pipe body is placed when the storage portion goes up, the drive the storage portion, the steel pipe body can along the transmission portion quilt the portion clamp of getting is got.

Further, the material storage part comprises two groups of bottom plates arranged at the bottom end of one side of the transmission part, inclined long plates arranged at one sides of the two groups of bottom plates, long idler wheels rotatably connected to the outer walls of the inclined long plates, inclined short plates arranged at the other sides of the two groups of bottom plates, and short idler wheels rotatably connected to the outer walls of the inclined short plates; the long idler wheel is connected with the short idler wheel through a belt; the steel pipe body is suitable for being stored on a belt between the long roller and the short roller.

Further, the transmission part comprises four groups of transmission slide rails arranged on one side of the inclined short plate; wherein the long idler wheels are driven, and the steel pipe body can be transmitted to four groups of transmission slide rails.

Furthermore, the transmission part also comprises a limiting block arranged on the outer wall of the transmission slide rail, which is close to the short inclined plate, and a limiting cylinder arranged in the middle position inside the limiting block; wherein the steel pipe body transmits to four groups back on the transmission slide rail, spacing cylinder can follow the stopper is inside to be stretched out to prevent the steel pipe body drops.

Furthermore, the clamping part comprises a control column arranged at the top end of the transmission slide rail, three groups of first slide bars arranged at the bottom end of the outer wall of the control column, and a U-shaped shifting piece arranged at one side of the three groups of first slide bars; the U-shaped shifting piece is driven and can be used for shifting the steel pipe body, so that the steel pipe body can roll along the transmission sliding rail.

Further, the first sliding rod drives the u-shaped plectrum through a belt-shaped structure; the U-shaped shifting piece is driven reversely, and the U-shaped shifting piece can shift the redundant steel pipe body back to the belt between the long roller and the short roller.

Furthermore, the clamping part also comprises a second slide bar arranged on one side of each group of the first slide bars and a manipulator arranged on one side of the second slide bars; when the steel pipe body rolls to the top of the transmission slide rail, the manipulator can clamp the steel pipe body to the three-clamp cutting mechanism, so that the steel pipe body can be cut.

Furthermore, the three-clamp cutting mechanism comprises a control console arranged on one side of the four groups of transmission slide rails, three-way clamping rods arranged on the outer wall of the control console at equal intervals, and chucks arranged at the tops of two sides of the control console; the three-way clamping rod is suitable for clamping the steel pipe body, so that the steel pipe body can extend into the chuck.

Furthermore, a lifting guide rail is arranged at the bottom end of the three-way clamping rod, and the lifting guide rail is arranged in the console at equal intervals; wherein drive lift guide rail, on the three-way clamping bar the steel pipe body can with the chuck is parallel.

Further, the three-card cutting mechanism further comprises a cutting box arranged in the middle of the control console, and the control console can penetrate through the cutting box.

Compared with the prior art, the embodiment of the utility model has the following beneficial effects: when the steel pipe body is processed, all steel pipes to be processed can be placed in the automatic feeding mechanism, and then the effect of uninterrupted feeding can be realized under the action of the automatic feeding mechanism;

when this integument of steel pipe was transmitted to three calories of cutting mechanism in, three calories of cutting mechanism can press from both sides the steel pipe body and get, and then realize the effect of processing.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

FIG. 1 illustrates a first state perspective view of a three-card pipe cutter of the present invention;

FIG. 2 shows an enlarged view of the structure of FIG. 1 at A in accordance with the present invention;

FIG. 3 illustrates a second state perspective view of the three-card pipe cutter of the present invention;

FIG. 4 shows a three-way clamping bar of the present invention in perspective;

FIG. 5 shows a perspective view of the U-shaped paddle of the present invention.

In the drawings

An automatic feeding mechanism 1;

a storage part 11, a bottom plate 111, an inclined long plate 112, a long roller 113, an inclined short plate 114 and a short roller 115;

the transmission part 12, a transmission slide rail 121, a limiting block 122 and a limiting cylinder 123;

the clamping part 13, a control column 131, a first slide bar 132, a U-shaped shifting piece 133, a second slide bar 134 and a manipulator 135;

a three-card cutting mechanism 2;

a console 21, a three-way clamping rod 22, a lifting guide rail 221, a chuck 23 and a cutting box 24.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

Referring to fig. 1-5, a three-card pipe cutting machine includes: the three-clamp cutting mechanism 2 and the automatic feeding mechanism 1 are arranged, wherein the automatic feeding mechanism 1 comprises a clamping part 13 arranged on one side of the three-clamp cutting mechanism 2, a transmission part 12 arranged on one side of the clamping part 13 and a storage part 11 arranged on one side of the transmission part 12, when a steel pipe body is machined, all steel pipes to be machined can be placed in the automatic feeding mechanism 1, then the effect of uninterrupted feeding can be realized under the action of the automatic feeding mechanism 1, and when the steel pipe body is transmitted into the three-clamp cutting mechanism 2, the three-clamp cutting mechanism 2 can clamp the steel pipe body, so that the machining effect is realized; the above components are described in detail below.

Steel pipe body

The steel pipe body is usually by cylindrical design, through placing the steel pipe body on three calories of pipe cutters, can realize the effect to steel pipe body processing, and at the in-process of actual production and use, the shape of steel pipe body itself does not receive this kind of cylindrical shape restriction, also can place the steel pipe body or hollow steel pipe body that the cross section is the square on three calories of pipe cutters, also can realize the effect of quick material loading and processing.

Automatic feeding mechanism 1

The automatic feeding mechanism 1 is by the storage portion 11 itself, the portion 13 is constituteed with pressing from both sides to the transmission portion 12, leave the steel pipe body of treating processing in the storage portion 11 through pressing from both sides, then drive storage portion 11, carry the steel pipe body to the transmission portion 12 one by one on, press from both sides portion 13 and clip the steel pipe body immediately, with the effect of realization to the steel pipe body pay-off, through the aforesaid, can make the steel pipe body in the in-process efficiency of processing higher, realize unmanned control, improve the security performance greatly.

Storage part 11

The material storage part 11 is connected through a belt, two ends of the belt are fixed on parts corresponding to the material storage part 11, the middle part of the belt is drooped under the action of gravity, the whole part of the belt is arc-shaped (not shown in the figure), and when a steel pipe body needs to be processed, the steel pipe body needing to be processed can be completely placed on the belt, so that the effect of automatic feeding is realized;

the structure of the magazine portion 11 will be described specifically below, and the magazine portion 11 includes: the two groups of bottom plates 111 arranged at the bottom end of one side of the transmission part 12, the inclined long plate 112 arranged at one side of the two groups of bottom plates 111, the long roller 113 connected to the outer wall of the inclined long plate 112 in a rotating manner, the inclined short plate 114 arranged at the other side of the two groups of bottom plates 111, the short roller 115 connected to the outer wall of the inclined short plate 114 in a rotating manner, the long roller 113 and the short roller 115 are connected through a belt, through the design, when the steel pipe body is processed, the long roller 113 on the inclined long plate 112 can be directly driven, the rotation of the long roller 113 at the moment enables the belt to be contracted, the lowest point of the contracted belt continuously rises, when the lowest end of the belt rises to the highest point slightly higher than the inclined short plate 114, the steel pipe body on the belt can directly roll into the transmission part 12, and the feeding effect is achieved.

Transmission section 12

The transmission part 12 is a main body of the automatic feeding mechanism 1, and the transmission part itself serves as a transfer station in the automatic feeding mechanism 1, when the steel pipe body is conveyed to the top of the transmission part 12, the transmission part 12 has an effect of supporting the steel pipe body, and then the transmission part and the clamping part 13 are mutually matched to realize the effect of transferring the steel pipe body 3;

the structure of the transmission unit 12 will be described in detail below, and the transmission unit 12 includes: four groups of transmission slide rails 121 that set up in slope short slab 114 one side, through the long gyro wheel 113 on the long slab 112 of drive slope, long gyro wheel 113 can leave the steel pipe body on the belt temporarily on four groups of transmission slide rails 121, transmission portion 12 is still including setting up the stopper 122 on transmission slide rail 121 is close to slope short slab 114 outer wall, and set up the spacing cylinder 123 of the inside intermediate position department of stopper 122, when the steel pipe body is deposited on four groups of transmission slide rails 121, in order to prevent that the steel pipe body from dropping to the belt again, spacing cylinder 123 in the stopper 122 can directly stretch out and play spacing effect this moment, prevent that the steel pipe body from taking place the phenomenon that drops.

Gripping part 13

The clamping part 13 is arranged on the transmission slide rail 121, and can clamp the steel pipe bodies to positions to be processed one by one in sequence to realize the effect of processing the steel pipes, and in order to prevent a plurality of steel pipe bodies from being arranged on the transmission slide rail 121, the phenomenon that the plurality of steel pipe bodies are clamped at one time for processing can be avoided, the clamping part 13 can be driven reversely, and the redundant steel pipe bodies can be pushed out to the transmission slide rail 121 to drop into the belt again;

the structure of the gripping section 13 will be described in detail below, and the gripping section 13 includes: the steel pipe conveying device comprises a control column 131 arranged at the top end of a conveying slide rail 121, three groups of first slide bars 132 arranged at the bottom end of the outer wall of the control column 131, and a U-shaped shifting piece 133 arranged on one side of the three groups of first slide bars 132, wherein the first slide bars 132 drive the U-shaped shifting piece 133 through a belt-shaped structure, when a plurality of steel pipe bodies on a belt simultaneously enter the conveying slide rail 121, in order to prevent processing faults, the first slide bars 132 need to be driven reversely, so that the first slide bars 132 can drive the U-shaped shifting piece 133 to move towards the direction of an inclined short plate 114, and when the outer side wall of the U-shaped shifting piece 133 is contacted with redundant steel pipe bodies, the first slide bars 132 are continuously driven, and the redundant steel pipe bodies can be shifted into the belt again through the U-shaped shifting piece 133, and through the design, a steel pipe body can be ensured to be always kept on the conveying slide rail 121, so as to prevent accidents from occurring when the steel pipe bodies are processed;

it should be noted that: when only one steel pipe body exists on the transmission slide rail 121, the steel pipe body can be shifted to the topmost end of the transmission slide rail 121 through the U-shaped shifting piece 133 with the U-shaped design, and in the shifting process, the hollow groove in the middle of the U-shaped shifting piece 133 can wrap the steel pipe body, so that a more stable effect can be achieved in the shifting process;

the gripping unit 13 further includes a second slide bar 134 disposed on one side of each group of the first slide bars 132, and a manipulator 135 disposed on one side of the second slide bar 134, and when the steel pipe body 3 is pushed to the top end of the transmission slide rail 121, the second slide bar 134 can be directly driven, so that the manipulator 135 on the second slide bar 134 can directly grip the steel pipe body, and then convey the steel pipe body to the three-card cutting mechanism 2, so as to achieve the processing effect.

Three-card cutting mechanism 2

A three-clamp pipe cutting machine is formed between the three-clamp cutting mechanism 2 and the automatic feeding mechanism 1, and when the automatic feeding mechanism 1 conveys the steel pipe body to the three-clamp cutting mechanism 2, the three-clamp cutting mechanism 2 can clamp the steel pipe body in time so as to realize a more stable effect in the processing process;

the structure of the three-card cutting mechanism 2 is described in detail below, and the three-card cutting mechanism 2 includes: the control table 21 is arranged on one side of the four groups of transmission slide rails 121, the three-way clamping rods 22 are arranged on the outer wall of the control table 21 at equal intervals, and the chucks 23 are arranged at the tops of two sides of the control table 21, when the second slide bar 134 drives the mechanical hand 135 to clamp and convey the steel pipe body to the three-way clamping rods 22, three groups of rollers in the three-way clamping rods 22 can effectively clamp the steel pipe body, in the clamping process, the contact surface between the rollers on the three-way clamping rods 22 and the steel pipe body is always arc-to-arc, so that the steel pipe body is not deformed, and the integrity of the steel pipe body before cutting in the transportation process is effectively guaranteed;

the bottom end of the three-way clamping rod 22 is provided with a lifting guide rail 221, the lifting guide rails 221 are arranged in the console 21 at equal intervals, after the steel pipe body is clamped by the three-way clamping rod 22, the lifting guide rail 221 can be driven, the lifting guide rail 221 can drive the three-way clamping rod 22 to ascend, when the steel pipe body ascended to the three-way clamping rod 22 is parallel to the chuck 23, the chuck 23 can horizontally move until the steel pipe body stretches into the chuck 23, and the effect of preparing processing and clamping on the steel pipe body is achieved;

it should be noted that: the three-clamp cutting mechanism 2 further comprises a cutting box 24 arranged in the middle of the control console 21, the control console 21 can penetrate through the cutting box 24, and due to the fact that a cutting assembly (not shown in the drawing) is arranged inside the cutting box 24, the cutting assembly can directly process the clamped steel pipe body, and the machining accuracy can be guaranteed by the aid of the mode.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A three-card pipe cutting machine, comprising: the three-card cutting mechanism (2) is arranged on the automatic feeding mechanism (1) at one side of the three-card cutting mechanism (2);

the automatic feeding mechanism (1) comprises a clamping part (13) arranged on one side of the three-card cutting mechanism (2), a conveying part (12) arranged on one side of the clamping part (13), and a storing part (11) arranged on one side of the conveying part (12); wherein

When the steel pipe body is placed on the storing part (11), the storing part (11) is driven, and the steel pipe body can be clamped by the clamping part (13) along the conveying part (12).

2. The three-card pipe cutting machine of claim 1,

the material storage part (11) comprises two groups of bottom plates (111) arranged at the bottom end of one side of the conveying part (12), inclined long plates (112) arranged at one side of the two groups of bottom plates (111), long rollers (113) rotatably connected to the outer wall of the inclined long plates (112), inclined short plates (114) arranged at the other sides of the two groups of bottom plates (111), and short rollers (115) rotatably connected to the outer walls of the inclined short plates (114);

the long roller (113) is connected with the short roller (115) through a belt; wherein

The steel pipe body is suitable for being stored on the belt between the long roller (113) and the short roller (115).

3. The three-card pipe cutting machine of claim 2,

the transmission part (12) comprises four groups of transmission slide rails (121) arranged on one side of the inclined short plate (114); wherein

The long rollers (113) are driven, and the steel pipe body can be transmitted to the four groups of transmission sliding rails (121).

4. A three-jaw pipe cutting machine as claimed in claim 3,

the transmission part (12) further comprises a limiting block (122) arranged on the outer wall of the transmission slide rail (121) close to the inclined short plate (114), and a limiting cylinder (123) arranged in the middle of the inside of the limiting block (122); wherein

After the steel pipe body is transmitted to the four groups of transmission slide rails (121), the limiting cylinder (123) can extend out of the limiting block (122) to prevent the steel pipe body from falling.

5. A three-card pipe cutting machine as claimed in claim 4,

the clamping part (13) comprises a control column (131) arranged at the top end of the transmission slide rail (121), three groups of first slide bars (132) arranged at the bottom end of the outer wall of the control column (131), and a U-shaped shifting sheet (133) arranged on one side of the three groups of first slide bars (132); wherein

The U-shaped shifting piece (133) is driven, and the U-shaped shifting piece (133) can shift the steel pipe body, so that the steel pipe body can roll along the transmission sliding rail (121).

6. A three-card pipe cutting machine as claimed in claim 5,

the first slide bar (132) drives the u-shaped paddle (133) through a belt-like structure; wherein

And the u-shaped poking sheet (133) is driven reversely, and the u-shaped poking sheet (133) can poke the redundant steel pipe body back to the belt between the long roller (113) and the short roller (115).

7. The three-card pipe cutting machine of claim 6,

the gripping part (13) further comprises a second slide bar (134) arranged on one side of each group of the first slide bars (132), and a manipulator (135) arranged on one side of the second slide bar (134); wherein

When the steel pipe body rolls to the top of the transmission slide rail (121), the manipulator (135) can clamp the steel pipe body onto the three-clamp cutting mechanism (2), so that the steel pipe body can be cut.

8. The three-card pipe cutting machine of claim 7,

the three-clamp cutting mechanism (2) comprises a control console (21) arranged on one side of the four groups of transmission slide rails (121), three-way clamping rods (22) arranged on the outer wall of the control console (21) at equal intervals, and chucks (23) arranged at the tops of two sides of the control console (21); wherein

The three-way clamping rod (22) is suitable for clamping the steel pipe body, so that the steel pipe body can extend into the chuck (23).

9. The three-card pipe cutting machine of claim 8,

the bottom end of the three-way clamping rod (22) is provided with a lifting guide rail (221), and the lifting guide rail (221) is arranged in the console (21) at equal intervals; wherein

The lifting guide rail (221) is driven, and the steel pipe body on the three-way clamping rod (22) can be parallel to the chuck (23).

10. The three-card pipe cutting machine of claim 9,

the three-card cutting mechanism (2) further comprises a cutting box (24) arranged in the middle of the control console (21), and the control console (21) can penetrate through the cutting box (24).

Images