CN220445185U - Metal material cutting equipment with locate function - Google Patents

Abstract

The utility model discloses a metal material cutting device with a positioning function, which relates to the technical field of metal processing, and comprises: a connecting frame in a shape of ; the measuring assembly is arranged on the connecting frame and is connected with the connecting frame through a spring; the measuring assembly comprises a connecting seat, a sliding piece is arranged at the top of the connecting seat, the sliding piece comprises a first side frame and a second side frame which are parallel to each other, a linkage belt is connected between the first side frame and the second side frame, and a plurality of blocking pins are uniformly inserted into the outer part of the linkage belt. According to the metal material cutting equipment with the positioning function, the linkage belt is adopted to move on the surface of the metal pipe, and the linkage belt stops after rotating to the specified position, so that the technical problem that the conventional metal material cutting equipment cannot perform distance measurement when in use is effectively solved, and further the length measurement and cutting collection of the metal pipeline are realized.

Description

Metal material cutting equipment with locate function

Technical Field

The utility model relates to the technical field of metal processing, in particular to metal material cutting equipment with a positioning function.

Background

Along with the development of the modern machining industry, the requirements on cutting quality and precision are continuously improved, and the requirements on improving production efficiency, reducing production cost and having a high intelligent automatic cutting function are also improved. The development of numerical control cutting machines must be adapted to the requirements of the development of the modern machining industry. The cutting machine is classified into a flame cutting machine, a plasma cutting machine, a laser cutting machine, a water cutting machine, etc. The laser cutting machine is the fastest in efficiency, the highest in cutting precision and the cutting thickness is generally smaller. The plasma cutting machine also has a fast cutting speed, and the cutting surface has a certain inclination. The flame cutting machine aims at carbon steel materials with larger thickness.

Currently, when the existing metal tube cutting device is used (such as patent number CN 113458849A), a cutting device with a protection function is disclosed, and the cutting device comprises a mounting frame, a threaded rod, an auxiliary wheel, a mounting rod, a cutting wheel and a protection mechanism; the cross section of the mounting frame is concave, and an auxiliary wheel is rotationally connected to the upper wall of the inner side of the mounting frame; the auxiliary wheels are connected through a transmission belt, and a mounting rod is arranged below the auxiliary wheels; the right end of the mounting rod is rotationally connected to the outer wall of the mounting frame, the inside of the left end of the mounting rod is rotationally connected with a cutting wheel, and the lower end of the mounting rod is contacted with a threaded rod; the metal tube and the cutting wheel are in differential motion in practice, and the rotating speed of the cutting wheel is far greater than that of the metal tube, so that the metal tube can automatically rotate when the metal tube is cut by the cutting wheel, and the cutting wheel is in uniform contact with the outer surface of the metal tube.

However, in the implementation process of the technical scheme, at least the following technical problems are found:

distance measurement cannot be performed: when the existing metal tube cutting device is used, the length of a pipeline to be cut needs to be measured firstly, after the measurement is completed, marks are drawn on the surface of the pipeline, then the cutting device is used for cutting along the mark dividing position, so that the metal tube with the specified length is cut, but the process needs to take a great deal of time and effort, the cutting is performed after the marks are made, the problem of cutting deviation often occurs due to incapability of timely cutting, and the stability and accuracy of the cutting are seriously affected.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the utility model provides metal material cutting equipment with a positioning function, and solves the technical problem that the conventional metal material cutting equipment cannot perform distance measurement when in use.

(II) technical scheme

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

the utility model provides a metal material cutting equipment with locate function, this cutting equipment includes the link that is used for cutting metal pipeline, and be used for measuring the measuring component of cutting length, when metal pipeline cuts, press the measuring component to the metal pipe on, and slide for the drive belt moves along the metal pipe surface, treat that the drive belt rotates after putting in place, the fender needle on the drive belt stops the drive belt and continues to move, the link just moves to the appointed position this moment, later cut can, thereby combine cutting and measurement:

the connecting frame is -shaped, two ends of the connecting frame are respectively connected with a cutting wheel and an extrusion head, the cutting wheels are opposite to the extrusion heads, when the metal pipe is cut, the extrusion heads move towards the direction of the metal pipe to extrude the metal pipe, and at the moment, the metal pipe is attached to the surface of the cutting wheels, so that the metal pipe is extruded and cut;

the measuring assembly is arranged on the connecting frame and connected with the connecting frame through a spring, when the connecting frame is not stressed, the cutting wheel and the extrusion head can be covered, the safety of the device is improved, and the measuring assembly is used for detecting the length of a metal material, so that length measurement and pipeline cutting are integrated;

the measuring assembly comprises a connecting seat, a side plate is arranged outside the connecting seat, the connecting seat is in sliding connection with the outer wall of the connecting frame through the side plate, the cutting wheel is protected, false touch is avoided, and the safety of the device is improved;

the slider is installed at the top of connecting seat, and the slider includes two first side bearer and the second side bearer that are parallel to each other, is connected with the interlock area between first side bearer and the second side bearer, and the outside of interlock area evenly peg graft has a plurality of fender needles, when keeping off the needle and stretching out the interlock area, can stop the removal of interlock area, consequently keep off the needle through pulling appointed position for keep off the needle and stop the removal of drive belt, thereby avoid the interlock area rotatory back continuation rotation in place, from this the cutting length of measuring the tubular metal resonator.

In some examples, a winding groove is formed in the top of the second side frame, and a winding roller is connected to the inside of the winding groove through a torsion spring;

the length of the winding groove is greater than that of the winding roller, the winding roller is located at the middle position of the winding groove, and winding or releasing of the linkage belt by the winding roller cannot be affected no matter the blocking needle moves to the side of the transmission belt.

In some examples, a reserved groove is formed in the top of the first side frame, and a driven roller is installed in the reserved groove;

the length of the reserved groove is greater than that of the driven roller, one end of the driven roller is attached to the inner wall of the reserved groove, and the blocking needle only needs to move on one side attached to the driven rod and the reserved groove, when the driving belt moves on the position where the reserved groove is located, the driving belt can be blocked from moving, so that the movement of the driving belt is limited, and the measurement of the size is completed.

In some examples, the linkage belt comprises two layers of mutually adhered driving belts, and the blocking needle is inserted between the two layers of driving belts, so that the blocking needle can move left and right in the driving belts, and as shown in fig. 6, the blocking needle can move to the left side or the right side of the driving belts;

the outer part of the linkage belt is uniformly provided with scales, so that the moving distance of the transmission belt is conveniently displayed, and the blocking needles at different positions are conveniently adjusted.

In some examples, a sleeve is connected to one end of the connecting frame away from the cutting wheel, a screw rod is connected to the interior of the sleeve through threads, and one end of the screw rod is connected with the rear end of the extrusion head through a bearing;

the other end of the screw rod is connected with a handle, so that the screw rod drives the extrusion head to move forwards (or backwards) under the action of threads between the screw rod and the sleeve by rotating the handle, and the position of the extrusion head is adjusted.

In some examples, two extrusion heads are arranged on one side of the extrusion head facing the cutting wheel, and rubber rings are adhered to the outer parts of the extrusion heads, so that the fit degree between the extrusion head and the metal pipeline is improved;

the pulley is installed to the bottom of extrusion head, and the extrusion head passes through pulley and link's inner wall sliding connection to reduce the frictional force between extrusion head and the link.

In some examples, the opposite interface is formed on one side of the connecting seat facing the extrusion head, and the sliding piece is installed in the opposite interface, so that collision between the connecting seat and the extrusion head is avoided when the connecting seat moves.

In some examples, a guide plate is mounted at the bending part of the connecting frame, and the extrusion head is in sliding connection with the guide plate through a pulley, so that the extrusion head slides along the guide plate;

wherein, when connecting seat and deflector laminating, the top laminating of linkage area and deflector to avoid the drive belt to influence the removal of extrusion head.

(III) beneficial effects

Because the linkage belt is adopted to move on the surface of the metal tube, and after the linkage belt rotates to a specified position, the needle is blocked to limit the position of the transmission belt, so that the technical problem that the conventional metal material cutting equipment cannot perform distance measurement when in use is effectively solved, and further, the measurement of the cutting length of the metal tube is realized, so that the length measurement and the cutting are integrated, the cutting stability of the metal tube can be ensured, and the metal tube cutting device is convenient to reuse.

Drawings

The foregoing description is only an overview of the present utility model, and is intended to provide a better understanding of the present utility model, as it is embodied in the following description, with reference to the preferred embodiments of the present utility model and the accompanying drawings.

FIG. 1 is one of the overall block diagrams of an embodiment of the present utility model;

FIG. 2 is a second overall block diagram of an embodiment of the present utility model;

FIG. 3 is an exploded view of a connector and measurement assembly in accordance with an embodiment of the present utility model;

FIG. 4 is a block diagram of a measurement assembly in an embodiment of the utility model;

FIG. 5 is an exploded view of a measurement assembly in accordance with an embodiment of the present utility model;

FIG. 6 is a block diagram of a side frame and belt in accordance with an embodiment of the present utility model.

Legend description: 1. a connecting frame; 2. a cutting wheel; 3. an extrusion head; 4. a sleeve; 51. a connecting seat; 52. a side plate; 53. a slider; 531. a first side frame; 532. a second side frame; 533. a linkage belt; 534. a blocking needle; 6. a screw rod; 7. a handle.

Detailed Description

According to the metal material cutting equipment with the positioning function, the technical problem that distance measurement cannot be conducted when the existing metal material cutting equipment is used is effectively solved, when the metal material cutting equipment is used, due to the fact that the linkage belt is adopted to move on the surface of the metal pipe, after the linkage belt rotates to a specified position, the position of the transmission belt is limited by the needle blocking, further measurement of the cutting length of the metal pipe is achieved, length measurement and cutting collection can be achieved, meanwhile stability of metal pipe cutting can be guaranteed, and repeated use is convenient.

Examples

The technical scheme in this application embodiment is for effectively solving current metal material cutting equipment when using, can't carry out distance measurement's technical problem, and the overall thinking is as follows:

in view of the problems existing in the prior art, the present utility model provides a metal material cutting apparatus with a positioning function, the cutting apparatus includes a connection frame 1 for cutting a metal pipe, and a measuring assembly for measuring a cutting length, when the metal pipe is cut, the measuring assembly is pressed onto the metal pipe and slid, so that a linkage belt 533 moves along the surface of the metal pipe, after the linkage belt 533 rotates in place, a blocking needle 534 on the linkage belt 533 blocks the linkage belt 533 from moving continuously, at this time, the connection frame 1 moves to a designated position, and then cutting is performed, thereby combining cutting and measuring:

the connecting frame 1 in a shape of is respectively connected with a cutting wheel 2 and an extrusion head 3 at two ends, and the cutting wheel 2 and the extrusion head 3 are opposite in position, so that when a metal pipe is cut, the extrusion head 3 moves towards the direction of the metal pipe to extrude the metal pipe, and the metal pipe is attached to the surface of the cutting wheel 2 at the moment, so that the metal pipe is extruded and cut;

the measuring component is arranged on the connecting frame 1 and is connected with the connecting frame 1 through a spring, when the connecting frame 1 is not stressed, the cutting wheel 2 and the extrusion head 3 can be covered, the safety of the device is improved, and the measuring component is used for detecting the length of a metal material, so that length measurement and pipeline cutting are integrated;

the measuring assembly comprises a connecting seat 51, a side plate 52 is arranged outside the connecting seat 51, the connecting seat 51 is in sliding connection with the outer wall of the connecting frame 1 through the side plate 52, the cutting wheel 2 is protected, false touch is avoided, and the safety of the device is improved;

the slider 53 is installed at the top of the connection base 51, and the slider 53 includes two first side frames 531 and second side frames 532 that are parallel to each other, a link belt 533 is connected between the first side frames 531 and the second side frames 532, and a plurality of blocking pins 534 are uniformly inserted in the outside of the link belt 533, and when the blocking pins 534 protrude from the link belt 533, the movement of the link belt 533 can be blocked, so that the blocking pins 534 block the movement of the link belt 533 by pulling the blocking pins 534 at a designated position, thereby avoiding the link belt 533 from continuing to rotate after rotating in place, and thus the cutting length of the metal pipe is measured.

In some examples, a wrap slot is opened at the top of the second side frame 532, and a wrap roller is connected to the interior of the wrap slot through a torsion spring;

the length of the winding groove is greater than that of the winding roller, and the winding roller is located at the middle position of the winding groove, as shown in fig. 6, no matter what side of the linkage belt 533 the blocking needle 534 moves to, the winding or the releasing of the linkage belt 533 by the winding roller is not affected.

In some examples, a reserved groove is formed at the top of the first side frame 531, and a driven roller is installed inside the reserved groove;

the length of the reserved slot is greater than that of the driven roller, and one end of the driven roller is attached to the inner wall of the reserved slot, as shown in fig. 6, at this time, the blocking needle 534 can block the movement of the linkage belt 533 when the linkage belt 533 moves at the position where the reserved slot is located as long as moving the side where the driven rod is attached to the reserved slot, thereby limiting the movement of the linkage belt 533 and completing the measurement of the size.

In some examples, the linkage belt 533 comprises two layers of belts adhered to each other, and the blocking needle 534 is inserted between the two layers of belts, so that the blocking needle 534 can move left and right in the belts, as shown in fig. 6, and the blocking needle 534 can move to the left or right of the linkage belt 533;

wherein, the outside of interlock area 533 evenly is provided with the scale, conveniently shows the distance that interlock area 533 moved, conveniently adjusts the fender needle 534 of different positions.

In some examples, the end of the connecting frame 1 far away from the cutting wheel 2 is connected with a sleeve 4, the interior of the sleeve 4 is connected with a screw rod 6 through threads, and one end of the screw rod 6 is connected with the rear end of the extrusion head 3 through a bearing;

the other end of the screw rod 6 is connected with a handle 7, so that the screw rod 6 drives the extrusion head 3 to move forwards (or backwards) under the action of threads between the screw rod 6 and the sleeve 4 by rotating the handle 7, thereby adjusting the position of the extrusion head 3.

In some examples, two extrusion heads 3 are mounted on the side of the extrusion head 3 facing the cutting wheel 2, and rubber rings are bonded on the outer parts of the extrusion heads 3, so that the fit degree between the extrusion heads 3 and the metal pipeline is improved;

wherein, the pulley is installed to the bottom of extrusion head 3, and extrusion head 3 passes through pulley and link 1's inner wall sliding connection to reduce the frictional force between extrusion head 3 and link 1.

In some examples, the opposite interface is formed on the side of the connection base 51 facing the extrusion head 3, and the sliding member 53 is installed in the opposite interface, so as to avoid the collision between the connection base 51 and the extrusion head 3 when the connection base 51 moves.

In some examples, a guide plate is mounted at the bending part of the connecting frame 1, and the extrusion head 3 is slidably connected with the guide plate through a pulley, so that the extrusion head 3 slides along the guide plate;

wherein, when connecting seat 51 is laminated with the deflector, interlock area 533 is laminated with the top of deflector to avoid the drive belt to influence the removal of extrusion head 3.

In a specific implementation process, the connecting frame 1 is placed on a metal pipeline to be cut, then the connecting frame 1 is pushed, so that the linkage belt 533 at the top of the connecting frame 1 is attached to the surface of the metal pipe, after the connecting frame 1 moves to a specified position, pushing the connecting frame 1 is stopped, the linkage belt 533 is pressed, and the blocking needle 534 of the linkage belt 533 close to the position of the first side frame 531 is pushed to the other side, as shown in fig. 6.

Because the length of the reserved groove is greater than that of the driven roller, and one end of the driven roller is attached to the inner wall of the reserved groove, as shown in fig. 6, at this time, the blocking needle 534 can block the movement of the linkage belt 533 when the linkage belt 533 moves at the position where the reserved groove is located, so that the movement of the linkage belt 533 is limited, the measurement of the size is completed, and then, the screw rod 6 is driven to move forwards (or backwards) under the action of the screw thread between the screw rod 6 and the sleeve 4 by rotating the handle 7, so that the position of the extrusion head 3 is adjusted, the extrusion head 3 moves towards the metal pipe to extrude the metal pipe, and at this time, the metal pipe is attached to the surface of the cutting wheel 2, and the cutting wheel 2 rotates to cut around the surface of the metal pipe.

Finally, it should be noted that: it is apparent that the above examples are only illustrative of the present utility model and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present utility model.

Claims (8)

1. A metallic material cutting apparatus having a positioning function, characterized in that the cutting apparatus comprises:

the connecting frame (1) is in a shape of , two ends of the connecting frame are respectively connected with a cutting wheel (2) and an extrusion head (3), and the cutting wheel (2) and the extrusion head (3) are opposite in front-back direction;

the measuring assembly is arranged on the connecting frame (1) and is connected with the connecting frame (1) through a spring, and the measuring assembly is used for detecting the length of the metal material;

the measuring assembly comprises a connecting seat (51), a side plate (52) is arranged outside the connecting seat (51), and the connecting seat (51) is connected with the outer wall of the connecting frame (1) in a sliding manner through the side plate (52);

the top of connecting seat (51) is installed slider (53), and slider (53) are including two first side bearer (531) and second side bearer (532) that are parallel to each other, be connected with interlock area (533) between first side bearer (531) and second side bearer (532), and the outside of interlock area (533) has evenly pegged graft a plurality of fender needles (534).

2. A metallic material cutting apparatus having a positioning function as recited in claim 1, wherein: a winding groove is formed in the top of the second side frame (532), and a winding roller is connected to the inside of the winding groove through a torsion spring;

the length of the winding groove is greater than that of the winding roller, and the winding roller is located in the middle of the winding groove.

3. A metallic material cutting apparatus having a positioning function as recited in claim 1, wherein: a reserved groove is formed in the top of the first side frame (531), and a driven roller is arranged in the reserved groove;

the length of the reserved groove is greater than that of the driven roller, and one end of the driven roller is attached to the inner wall of the reserved groove.

4. A metallic material cutting apparatus having a positioning function as recited in claim 1, wherein: the linkage belt (533) comprises two layers of mutually bonded transmission belts, and the blocking needle (534) is inserted between the two layers of transmission belts;

wherein, the outside of interlock area (533) evenly is provided with the scale.

5. A metallic material cutting apparatus having a positioning function as recited in claim 1, wherein: one end of the connecting frame (1) far away from the cutting wheel (2) is connected with a sleeve (4), the inside of the sleeve (4) is connected with a screw rod (6) through threads, and one end of the screw rod (6) is connected with the rear end of the extrusion head (3) through a bearing;

wherein the other end of the screw rod (6) is connected with a handle (7).

6. A metallic material cutting apparatus having a positioning function as recited in claim 1, wherein: two extrusion heads are arranged on one side of the extrusion head (3) facing the cutting wheel (2), and rubber rings are adhered to the outer parts of the extrusion heads;

the pulley is installed at the bottom of the extrusion head (3), and the extrusion head (3) is in sliding connection with the inner wall of the connecting frame (1) through the pulley.

7. A metallic material cutting apparatus having a positioning function as recited in claim 1, wherein: the connecting seat (51) is provided with an opposite interface towards one side of the extrusion head (3), and the sliding piece (53) is arranged in the opposite interface.

8. A metallic material cutting apparatus having a positioning function as recited in claim 6, wherein: a guide plate is arranged at the bending part of the connecting frame (1), and the extrusion head (3) is connected with the guide plate in a sliding way through a pulley;

wherein, when the connecting seat (51) is attached to the guide plate, the linkage belt (533) is attached to the top of the guide plate.