CN219986821U - Adjustable steel plate beveling machine - Google Patents

Abstract

The utility model discloses an adjustable steel plate beveling machine which comprises a shell and a cutter arranged on the shell, wherein a conveying part for conveying a steel plate to be processed is arranged below the shell corresponding to the cutter, a sliding part for clamping the steel plate to be processed in a matched mode with the conveying part is arranged above the shell corresponding to the cutter, the sliding part comprises a plurality of springs for enabling the sliding part to reset after being pressed and a plurality of pulleys in rolling contact with the steel plate to be processed, swing arms matched with the shell for sliding/swinging up and down are arranged on two sides of the shell, the conveying part is arranged between the two swing arms and is matched with the swing arms for supporting, the device can adjust the position of the steel plate and can adjust the placement angle of the steel plate, and the stability is good.

Description

Adjustable steel plate beveling machine

Technical Field

The utility model relates to the field of steel plate groove processing, in particular to an adjustable steel plate groove machine.

Background

The beveling machine mainly uses the principle of rolling milling to mill the edge of a steel plate according to a required angle so as to obtain a bevel required by welding, and is suitable for materials such as steel, cast iron, hard plastic, nonferrous metal and the like, and when the beveling machine cuts a plate. The automatic chamfering machine comprises a driven wheel, a machine body and a driving wheel, wherein a driven wheel shaft is arranged on the driven wheel, an air inlet is formed below the driving wheel, a conveyor belt is connected to the driving wheel, a fan shaft is arranged above the conveyor belt, a driving motor is connected to the right side of the driving wheel, a motor frame is fixed on the driving motor, a switch button is arranged below the driving motor, and a power supply is connected to the right side of the driving motor.

The patent discloses an automatic moving beveling machine, because the beveling machine can generate a certain degree of vibration during cutting, the size of the vibration easily influences the cutting precision, the beveling machine can fix a steel plate, but the fixing stability is poor, and the vibration generated during cutting easily has a larger influence on the fixing stability; in addition, the cutting angle of the existing beveling machine is smaller/cannot be changed, certain requirements are met on the thickness of the steel plate, and the applicability is narrower.

Because the cutter head position of part beveling machine can not be applicable to the steel sheet of thickness difference, and adjust the position of beveling machine cutter head and be more time-consuming, consequently need cooperate the cutter head cutting through the position of adjusting the steel sheet, and this kind of beveling machine can't adjust the place position of steel sheet, uses inconveniently.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides an adjustable steel plate beveling machine, which can adjust the position of a steel plate, adjust the placement angle of the steel plate, and has good stability, and the steel plate is not easily affected by cutting after being adjusted.

In order to achieve the above purpose, the utility model provides an adjustable steel plate beveling machine, which comprises a shell and a cutter arranged on the shell, wherein a conveying part for conveying a steel plate to be processed is arranged below the shell corresponding to the cutter, a sliding part for clamping the steel plate to be processed in a matched manner is arranged above the shell corresponding to the cutter, the sliding part comprises a plurality of springs for resetting the sliding part after being pressed and a plurality of pulleys in rolling contact with the steel plate to be processed, swing arms matched with the shell for sliding/swinging up and down are arranged on two sides of the shell, and the conveying part is arranged between the two swing arms and is matched with the swing arms for supporting.

The effect that adopts above-mentioned technical scheme can produce is: because the steel sheet is when processing on the cutterbar, the steel sheet need be through removing the change cutting length, the conveyer that the cutterbar below set up can be used for carrying the steel sheet that is being processed, the slider that the cutterbar top set up can slide on the steel sheet, and cooperate the conveyer of below to press from both sides the steel sheet, make the steel sheet can shake the range when cutting and reduce, after the steel sheet finishes processing, the conveyer that the slider can cooperate the below shifts out the steel sheet from the conveyer, adopt the slider can make the steel sheet reduce the sliding friction of steel sheet when deviating from the conveyer, the slider can slide from top to bottom when the pulley cooperation conveyer presss from both sides the steel sheet of different width, reset spring can reset the slider after the steel sheet processing is accomplished, adopt the swing arm can support the conveyer, and the swing arm can change the position and the angle of conveyer through the swing, be adapted to the processing of different sizes steel sheet and different inclination's groove.

The utility model further provides that: the two sides of the shell are respectively provided with a guide groove corresponding to the positions of the swing arms, one ends, connected with the shell, of the two swing arms are respectively provided with a sliding block used for sliding in a matched mode with the shell, and the sliding blocks are arranged in the guide grooves and are matched with the guide grooves for sliding and positioning.

The effect that adopts above-mentioned technical scheme can produce is: the sliding block can slide up and down in the guide groove, so that the swing arm moves up and down, the guide groove can enable the sliding block to slide according to a set track, the swing arm always keeps a certain distance with a tool bit of the beveling machine, and machining accuracy and safety are guaranteed.

The utility model further provides that: the swing arm is provided with a fixing piece corresponding to the position of the sliding block, the fixing piece comprises a bolt, a plurality of fixing holes which are used for being in threaded connection with the bolt are arranged in the guide groove, the fixing holes are uniformly distributed along the length direction of the guide groove, the sliding block is provided with a positioning hole corresponding to the position of the fixing hole, and the bolt is arranged on the positioning hole in a penetrating mode and is in threaded connection with the fixing hole in a matching mode, so that the sliding block is locked and fixed between the bolt and the shell.

The effect that adopts above-mentioned technical scheme can produce is: the adoption mounting can make the swing arm make it fixed after the certain range of swing, adopts a plurality of fixed orifices to adjust the distance of conveyer and top slider, when the steel sheet of different width need carry out the groove, can directly fix the swing arm on different fixed orifices and change the relative distance of conveyer and slider to make the steel sheet correspond with the tool bit position of beveling machine, easy operation, the fixed orifices sets up the position of adjustment swing arm that can be even along guide slot length direction equipartition.

The utility model further provides that: the fixing piece further comprises a first gasket and a second gasket, a plurality of protruding teeth are arranged at one corresponding axial end of the first gasket and one corresponding axial end of the second gasket in the circumferential direction, the protruding teeth are of annular tooth-shaped structures, the protruding teeth of the first gasket are matched with the protruding teeth of the second gasket in a clamping mode, when the first gasket and the second gasket rotate relatively, the protruding teeth of the first gasket are matched with the protruding teeth of the second gasket to enable the first gasket and the second gasket to move away from each other, and the bolts penetrate through the axle center positions of the first gasket and the second gasket.

The effect that adopts above-mentioned technical scheme can produce is: when the bolt is affected by vibration, the first gasket and the second gasket can generate a force which enables the first gasket and the second gasket to be far away from each other, a certain axial distance can be generated between the two gaskets by the aid of the far away force, when the bolt is adopted for tightening, the convex teeth of the first gasket and the convex teeth of the second gasket are clamped and matched with each other, the distance of axial movement of the gaskets is limited, the two gaskets cannot be far away from each other, and therefore the bolt is not easy to loosen, and the anti-loosening effect of the gasket with the convex teeth is better than that of the conventional common gasket without the convex teeth.

The utility model further provides that: the axial other end of the first gasket, which is contacted with the shell, and the axial other end of the second gasket, which is contacted with the bolt, are both provided with insections.

The effect that adopts above-mentioned technical scheme can produce is: the friction force can be bigger when the terminal surface with the insection contacts with bolt and casing, and vibrations that produce when the beveling machine cuts the steel sheet are difficult to make it become flexible, and stability is stronger, and when first gasket and second gasket moved to the direction of keeping away from, through with insection cooperation, can further improve friction force.

The utility model further provides that: the sliding piece comprises a sliding plate arranged at the upper end of the pulley, a guide rod used for penetrating and installing a spring is arranged on the sliding plate, and the spring is abutted between the sliding plate and the top wall of the sliding groove.

The effect that adopts above-mentioned technical scheme can produce is: the sliding plate on the pulley can slide in the chute, the spring butt can be so that the sliding plate can be when upwards moving to produce pressure to the spring between sliding plate and the chute roof, the spring can produce a reverse thrust with the chute roof butt, this reverse thrust can be applied to the steel sheet of waiting to process to cooperate the conveyer to press from both sides tight location of steel sheet on the conveyer, the guide arm that wears to establish on the spring can be when the spring is pressed with the chute roof counterbalance, avoids the spring to excessively receive to press and causes the elastic force to weaken.

The utility model further provides that: the conveying piece comprises rotating shafts arranged at the other ends of the swing arms on two sides, and a conveying belt is laid between the two rotating shafts, wherein the rotating shafts are in transmission fit with a motor, and the motor is arranged on one of the swing arms.

The effect that adopts above-mentioned technical scheme can produce is: the swing arms on two sides are provided with a rotating shaft, one rotating shaft is connected with a motor, the motor drives the rotating shaft to rotate so that a conveying belt on the rotating shaft rotates, and the rotating of one rotating shaft can drive the other rotating shaft to rotate through the conveying belt, so that the structure is simple.

The utility model further provides that: the sliding block is rotatably arranged in the guide groove.

The effect that adopts above-mentioned technical scheme can produce is: the sliding block can adjust the angle of the swing arm through rotation, and then the angle of the conveying piece can be adjusted.

The utility model further provides that: the peripheral wall of the pulley is provided with a circular arc-shaped contact surface.

The effect that adopts above-mentioned technical scheme can produce is: the pulley adopts the convex contact surface can be more applicable to the steel sheet of waiting to process that different angles placed.

Drawings

FIG. 1 is a perspective view of an embodiment of the present utility model;

FIG. 2 is a side view of an embodiment of the present utility model;

FIG. 3 is a cross-sectional view of a portion of the structure of an embodiment of the present utility model;

FIG. 4 is a perspective view of a conveyor according to an embodiment of the utility model;

FIG. 5 is an exploded view of a fastener according to an embodiment of the present utility model;

fig. 6 is a front view of a slider according to an embodiment of the present utility model.

Detailed Description

The embodiment of the utility model is shown in fig. 1-6, which comprises a shell 1 and a cutter 2 arranged on the shell 1, wherein a conveying piece 3 for conveying a steel plate to be processed is arranged below the corresponding cutter 2 of the shell 1, a sliding piece 4 for clamping the steel plate to be processed by matching with the conveying piece 3 is arranged above the corresponding cutter 2 of the shell 1, the sliding piece 4 comprises a plurality of springs 43 for enabling the sliding piece 4 to reset after being pressed and a plurality of pulleys 42 in rolling contact with the steel plate to be processed, two sides of the shell 1 are respectively provided with a swinging arm 36 which slides up and down with the shell 1, in other embodiments, a plurality of swinging arms 36 are arranged on two sides of the swinging arms 36, the conveying piece 3 is arranged between the two swinging arms 36 and is matched with the swinging arms 36, and the steel plate is required to change the cutting length by moving, the conveying piece 3 arranged below the cutter 2 can be used for resetting the steel plate 2 after being pressed and the steel plate is matched with the sliding piece 3, the sliding piece 4 can be clamped by matching with the sliding piece 4 after the sliding piece 3 is matched with the sliding piece 4, and the sliding piece 4 can be clamped by matching the sliding piece 3 with the sliding piece 4 is not matched with the sliding piece 4 by the sliding piece 4; guide grooves 31 are formed in the two sides of the shell 1 and correspond to the positions of the swing arms 36, sliding blocks 32 used for sliding in a matched mode with the shell 1 are arranged at the ends, connected with the shell 1, of the two swing arms 36, the sliding blocks 32 are arranged in the guide grooves 31 and are positioned in a matched mode with the guide grooves 31 in a sliding mode, the sliding blocks 32 can slide up and down in the guide grooves 31, accordingly the swing arms 36 move up and down, and the guide grooves 31 can enable the sliding blocks 32 to slide according to set tracks; the fixing piece 5 is arranged on the swing arm 36 corresponding to the position of the sliding block 32, the fixing piece 5 comprises a bolt 51, a plurality of fixing holes 52 which are used for being in threaded connection with the bolt 51 are arranged in the guide groove 31, the plurality of fixing holes 52 are uniformly distributed along the length direction of the guide groove 31, positioning holes 53 are arranged on the positions of the sliding block 32 corresponding to the fixing holes 52, the bolt 51 is arranged on the positioning holes 53 in a penetrating mode and is in threaded connection with the fixing holes 52 in a matching mode, the sliding block 32 is locked and fixed between the bolt 51 and the shell 1, the fixing piece 5 can enable the swing arm 36 to be fixed after the swing arm is swung by a certain amplitude, the plurality of fixing holes 52 can adjust the distance between the conveying piece 3 and the upper sliding piece 4, when steel plates with different widths need to be beveled, the swing arm 36 can be directly fixed on the different fixing holes 52 to change the relative distance between the conveying piece 3 and the sliding piece 4, and the steel plates correspond to the cutter head position of a beveling machine; the fixing piece 5 further comprises a first gasket 54 and a second gasket 55, a plurality of protruding teeth 56 are circumferentially arranged at one axial end of the first gasket 54 and one axial end of the second gasket 55, the protruding teeth 56 of the first gasket 54 and the protruding teeth 56 of the second gasket 55 are in an annular tooth-shaped structure, the protruding teeth 56 of the first gasket 54 and the protruding teeth 56 of the second gasket 55 are in clamping fit, when the first gasket 54 and the second gasket 55 rotate relatively, the protruding teeth 56 of the first gasket 54 and the protruding teeth 56 of the second gasket 55 can enable the first gasket 54 and the second gasket 55 to move away from each other, the bolt 51 penetrates through the axial positions of the first gasket 54 and the second gasket 55, when the bolt 51 is affected by vibration, the first gasket 54 and the second gasket 55 can generate a force enabling the first gasket 54 and the second gasket to move away from each other, a certain axial distance can be generated between the two gaskets, when the bolt 51 is adopted for screwing, the protruding teeth 56 of the first gasket 54 and the second gasket 55 are in clamping fit with each other, and the distance of the gaskets can not be easily loosened due to the fact that the bolt 51 cannot be easily moved away from each other; the other axial end of the first gasket 54, which is in contact with the shell 1, and the other axial end of the second gasket 55, which is in contact with the bolt 51, are both provided with insections 57, the friction force of the end surface with the insections 57 is larger when the end surface is in contact with the bolt 51 and the shell 1, the first gasket 54 and the second gasket 55 are not easy to loosen due to vibration generated when a beveling machine cuts steel sheets, and the stability is higher, and when the first gasket 54 and the second gasket 55 move in a far direction, the friction force can be further improved through being matched with the insections 57; the shell 1 is provided with the sliding groove 41, the sliding piece 4 comprises a sliding plate 45 arranged at the upper end of the pulley 42, a guide rod 44 used for penetrating and installing the spring 43 is arranged on the sliding plate 45, the spring 43 is abutted between the sliding plate 45 and the top wall of the sliding groove 41, the sliding plate 45 on the pulley 42 can slide in the sliding groove 41, the spring 43 is abutted between the sliding plate 45 and the top wall of the sliding groove 41, when the sliding plate 45 moves upwards to generate pressure on the spring 43, the spring 43 and the top wall of the sliding groove 41 are abutted to generate a reverse thrust force, the reverse thrust force can be applied to a steel plate to be processed, the steel plate is clamped and positioned on the conveying piece 3 in cooperation with the conveying piece 3, and the guide rod 44 penetrated on the spring 43 can be abutted against the top wall of the sliding groove 41 when the spring 43 is compressed, so that the elastic force is prevented from weakening due to excessive compression of the spring 43; the conveying member 3 comprises a rotating shaft 33 arranged at the other end of each of two swing arms 36, a conveying belt 34 is laid between the two rotating shafts 33, wherein the rotating shaft 33 is in transmission fit with a motor 35, the motor 35 is arranged on one of the swing arms 36, one of the rotating shafts 33 is connected with the motor 35, the motor 35 drives the rotating shaft 33 to rotate so that the conveying belt 34 on the rotating shaft 33 rotates, the rotation of one rotating shaft 33 can drive the other rotating shaft 33 to rotate through the conveying belt 34, in the embodiment, one motor 35 is arranged on one swing arm 36, in other embodiments, one motor 35 is arranged on each of the two swing arms 36, or a plurality of motors 35 are arranged on one swing arm 36; the sliding block 32 is rotatably arranged in the guide groove 31, and the sliding block 32 can adjust the angle of the swing arm 36 through rotation, so that the angle of the conveying piece 3 can be adjusted; the outer peripheral wall of the pulley 42 is provided with an arc-shaped contact surface, and the pulley 42 can be more suitable for steel plates to be processed which are placed at different angles by adopting the arc-shaped contact surface.

While the basic principles and main features of the present utility model and advantages of the present utility model have been shown and described, it will be understood by those skilled in the art that the present utility model is not limited by the foregoing embodiments, which are described in the foregoing specification merely illustrate the principles of the present utility model, and various changes and modifications may be made therein without departing from the spirit and scope of the utility model, which is defined in the appended claims and their equivalents.

Claims (9)

1. An adjustable steel sheet beveling machine which characterized in that: including casing and the cutterbar of setting on the casing, the casing corresponds the below of cutterbar and is provided with the conveyer that is used for conveying the steel sheet that waits to process, the casing corresponds the top of cutterbar and is provided with the slider that is used for pressing from both sides tight steel sheet that waits to process with the cooperation of conveyer, the slider includes a plurality of spring that makes it reset after the pressurized and a plurality of and the pulley of waiting to process steel sheet rolling contact, the casing both sides all are equipped with casing cooperation upper and lower slip/wobbling swing arm, the conveyer sets up between two swing arms and supports with the swing arm cooperation.

2. The adjustable steel plate beveling machine of claim 1 wherein: the two sides of the shell are respectively provided with a guide groove corresponding to the positions of the swing arms, one ends, connected with the shell, of the two swing arms are respectively provided with a sliding block used for sliding in a matched mode with the shell, and the sliding blocks are arranged in the guide grooves and are matched with the guide grooves for sliding and positioning.

3. The adjustable steel plate beveling machine of claim 2 wherein: the swing arm is provided with a fixing piece corresponding to the position of the sliding block, the fixing piece comprises a bolt, a plurality of fixing holes which are used for being in threaded connection with the bolt are arranged in the guide groove, the fixing holes are uniformly distributed along the length direction of the guide groove, the sliding block is provided with a positioning hole corresponding to the position of the fixing hole, and the bolt is arranged on the positioning hole in a penetrating mode and is in threaded connection with the fixing hole in a matching mode, so that the sliding block is locked and fixed between the bolt and the shell.

4. An adjustable steel plate beveling machine according to claim 3, wherein: the fixing piece further comprises a first gasket and a second gasket, a plurality of protruding teeth are arranged at one corresponding axial end of the first gasket and one corresponding axial end of the second gasket in the circumferential direction, the protruding teeth are of annular tooth-shaped structures, the protruding teeth of the first gasket are matched with the protruding teeth of the second gasket in a clamping mode, when the first gasket and the second gasket rotate relatively, the protruding teeth of the first gasket are matched with the protruding teeth of the second gasket to enable the first gasket and the second gasket to move away from each other, and the bolts penetrate through the axle center positions of the first gasket and the second gasket.

5. The adjustable steel plate beveling machine of claim 4 wherein: the axial other end of the first gasket, which is contacted with the shell, and the axial other end of the second gasket, which is contacted with the bolt, are both provided with insections.

6. The adjustable steel plate beveling machine of claim 1 wherein: the sliding piece comprises a sliding plate arranged at the upper end of the pulley, a guide rod used for penetrating and installing a spring is arranged on the sliding plate, and the spring is abutted between the sliding plate and the top wall of the sliding groove.

7. The adjustable steel plate beveling machine of claim 1 wherein: the conveying piece comprises rotating shafts arranged at the other ends of the swing arms on two sides, and a conveying belt is laid between the two rotating shafts, wherein the rotating shafts are in transmission fit with a motor, and the motor is arranged on one of the swing arms.

8. The adjustable steel plate beveling machine of claim 2 wherein: the sliding block is rotatably arranged in the guide groove.

9. The adjustable steel plate beveling machine of claim 1 wherein: the peripheral wall of the pulley is provided with a circular arc-shaped contact surface.