CN113172301A

CN113172301A - Flame cutting machine capable of automatically processing machining chips

Info

Publication number: CN113172301A
Application number: CN202110538225.2A
Authority: CN
Inventors: 邓奇
Original assignee: Jiaxing Yunqie Supply Chain Management Co ltd
Current assignee: Jiaxing Yunqie Supply Chain Management Co ltd
Priority date: 2021-05-18
Filing date: 2021-05-18
Publication date: 2021-07-27

Abstract

The invention belongs to the technical field of cutting machines, and provides a flame cutting machine for automatically processing machining chips, which comprises: the cutting table and the sliding top cover are arranged, a through discharge port II is formed in the middle of the sliding top cover, and a discharging channel with the top end connected to the bottom of the cutting table is rotatably connected to one side, facing the cutting table, of the discharge port II; the supporting base is rotatably connected to the bottom of the sliding top cover, a second discharge port concentric with the second discharge port is formed in the center of the supporting base, an equal-polygonal sliding groove with the number of edges larger than two is formed in the top of the supporting base, sliding blocks with the number equal to that of the edges of the sliding groove are connected inside the sliding groove in a sliding mode at equal intervals, triangular stop blocks are fixedly installed at the top ends of the sliding blocks, and the side walls of the triangular stop blocks are in contact connection; the sliding stop lever is fixedly arranged on the triangular stop block which is far away from one side of the center of the discharge port II, a sliding chute which is convenient for the sliding stop lever to slide is arranged on the sliding top cover corresponding to the position of the sliding stop lever, and the sliding stop lever is elastically connected with a reset piece towards the side wall of the center of the discharge port II.

Description

Flame cutting machine capable of automatically processing machining chips

Technical Field

The invention belongs to the technical field of cutting machines, and particularly relates to a flame cutting machine capable of automatically processing machining chips.

Background

With the rapid development of the steel structure manufacturing industry, in particular to the field manufacturing of round holes on heavy industry enterprises such as high-rise buildings, petrochemical industry and the like and large-scale members, the requirements of vertical position, horizontal position and multidirectional hole making operation with an inclined angle are more and more extensive, and new challenges are provided for the improvement of the manufacturing and mounting processes of the steel structure.

The existing flame cutting method generally adopts a simple manual control clearing mode for some impurities generated by cutting when cutting, cannot clear the impurities timely, easily causes influence on cutting, and has danger during manual operation, so that a cutting machine capable of automatically clearing the impurities during cutting is required to be designed.

Disclosure of Invention

The embodiment of the invention aims to provide a flame cutting machine for automatically processing machining chips, and aims to solve the problem of automatic impurity cleaning.

The present invention is achieved in such a way that,

the cutting table is used for supporting the object to be cut;

the sliding top cover is arranged at the bottom of the cutting table, a through discharge port II is formed in the middle of the sliding top cover, and a discharging channel with the top end connected to the bottom of the cutting table is rotatably connected to one side, facing the cutting table, of the discharge port II;

the supporting base is rotatably connected to the bottom of the sliding top cover, a second discharge port concentric with the second discharge port is formed in the center of the supporting base, an equal-polygonal sliding groove with the number of edges larger than two is formed in the top of the supporting base, sliding blocks with the number equal to that of the edges of the sliding groove are connected inside the sliding groove in a sliding mode at equal intervals, triangular stop blocks are fixedly installed at the top ends of the sliding blocks, and the side walls of the triangular stop blocks are in contact connection;

when the sliding block moves in the sliding groove, the side walls of the triangular stop blocks are driven to slide mutually, and opening and closing of the discharge hole II are blocked;

the sliding stop lever is fixedly arranged on the triangular stop block at one side far away from the center of the discharge port II, a sliding chute convenient for the sliding stop lever to slide is formed in the sliding top cover corresponding to the position of the sliding stop lever, and a reset piece is elastically connected to the side wall of the sliding stop lever, facing the center of the discharge port II;

the elastic action of the reset piece drives the sliding stop lever to move away from the center of the second discharge port, drives the end part of the triangular stop block towards the direction of the second discharge port to separate, and opens the second discharge port and the second discharge port;

the power mechanism is arranged on one side of the top of the cutting table, and a flame cutting machine is arranged on one side of the power mechanism, which is close to the blanking channel;

the driving piece is connected to one side of the power mechanism and used for driving the sliding top cover to drive the sliding stop lever to move towards the radial direction of the center line of the discharge hole II;

wherein, the piece carries the top of slip top cap through unloading passageway, power unit downstream, it removes towards the direction at two centers of discharge gate to drive driving piece drive slip pin, contact cooperation moves towards the center of discharge gate two between the triangle dog, it is closed with it to shelter from discharge gate two, power unit upward movement, it keeps away from the slip top cap to drive the driving piece, under the elasticity promotion of the inside piece that resets of every spout, promote the triangle dog and remove to the center of keeping away from discharge gate two, the triangle dog loses the sheltering from discharge gate two this moment, discharge gate two is opened, the piece is exported along discharge gate two and discharge gate two, power unit has been realized descending, the closed piece output that stops of discharge gate two, power unit rises, discharge gate two opens, the piece starts the automatic discharging function of the ejection of compact.

The invention provides a flame cutting machine for automatically processing chips, a power mechanism drives the flame cutting machine to cut the objects on a cutting table downwards, the chips generated by cutting are downwards input to a sliding top cover through the cutting table, at the moment, the driving piece applies pressure to the sliding top cover to enable the sliding top cover to rotate due to the downward movement of the flame cutting machine, then a sliding stop lever in a sliding groove is driven to move towards the direction of the center of a discharge port II, then the side walls of triangular stop blocks are in mutual contact sliding, the end parts of the triangular stop blocks close the discharge port II, so that the chips on the sliding top cover during cutting are prevented from being output, when the power mechanism drives a transverse moving device to rise upwards, the pressure on the driving piece is lost, at the moment, under the elastic action of a reset piece in each sliding groove, the triangular stop blocks slide away from the discharge port II, at, therefore, the automatic output of the fragments can be realized by following the lifting of the flame cutting machine, so that the trouble and danger of manually removing the fragments are saved, and the automatic discharging is realized.

Drawings

FIG. 1 is a schematic front view of a torch cutting machine for automatically processing machining chips.

FIG. 2 is a schematic view showing the structure of a slide cover and a support base assembled in a torch cutting machine for automatically processing machining chips.

FIG. 3 is a schematic view showing the structure of a sliding top cover in a torch cutting machine for automatically processing machining chips.

FIG. 4 is a schematic view of a support base of a torch cutting machine for automatically processing machining chips;

FIG. 5 is an enlarged schematic view of A1 in FIG. 1;

in the drawings: the device comprises a support 10, a cutting table 11, a blanking channel 12, an impurity processing bin 13, a flame cutting machine 14, a transverse moving device 15, a connecting frame 16, a lifter 17, an upper pressing block 18, an exhaust hole 19, a fan 20, an air box 21, a sliding top cover 22, a supporting base 23, a lower pressing block 24, a second discharge hole 25, a sliding groove 26, a triangular stop block 27, a sliding stop rod 28, a sliding block 29, a sliding groove 30, a resetting piece 32 and a second discharge hole 33.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1 to 4, a flame cutting machine for automatically processing machining chips according to an embodiment of the present invention includes:

a cutting table 11 for supporting the object to be cut;

the sliding top cover 22 is arranged at the bottom of the cutting table 11, a through second discharge port 33 is formed in the middle of the sliding top cover 22, and the second discharge port 33 is rotatably connected with the blanking channel 12 with the top end connected to the bottom of the cutting table 11 towards one side of the cutting table 11;

the supporting base 23 is rotatably connected to the bottom of the sliding top cover 22, a second discharge port 25 concentric with the second discharge port 33 is formed in the center of the supporting base 23, an equal-polygonal sliding groove 26 with the number of sides larger than two is formed in the top of the supporting base 23, sliding blocks 29 with the number equal to the number of the sides of the sliding groove 26 are connected inside the sliding groove 26 in a sliding mode at equal intervals, triangular stop blocks 27 are fixedly installed at the top ends of the sliding blocks 29, and the triangular stop blocks 27 are in contact connection with the side walls of the sliding grooves;

when the sliding block 29 moves in the sliding groove 26, the side walls of the triangular stop block 27 are driven to slide mutually, so that the opening and closing of the second discharge hole 25 are blocked;

the sliding stop lever 28 is fixedly arranged on the triangular stop block 27 on one side far away from the center of the second discharge hole 25, a sliding chute 30 convenient for the sliding stop lever 28 to slide is formed in the sliding top cover 22 corresponding to the position of the sliding stop lever 28, and a reset piece 32 is elastically connected to the side wall, facing the center of the second discharge hole 33, of the sliding stop lever 28;

the elastic action of the reset piece 32 drives the sliding stop lever 28 to move away from the center of the second discharge hole 33, drives the end part of the triangular stop block 27 towards the second discharge hole 25 to separate, and opens the second discharge hole 25 and the second discharge hole 33;

the power mechanism is arranged on one side of the top of the cutting table 11, and a flame cutting machine 14 is arranged on one side of the power mechanism, which is close to the blanking channel 12;

the driving piece is connected to one side of the power mechanism and is used for driving the sliding top cover 22 to drive the sliding stop lever 28 to move towards the radial direction of the center line of the second discharge hole 33;

wherein, the scraps are conveyed to the top of the sliding top cover 22 through the blanking channel 12, the power mechanism moves downwards to drive the driving piece to drive the sliding stop lever 28 to move towards the center of the second discharge port 33, the triangular stop blocks 27 move towards the center of the second discharge port 33 in a contact and matching manner to shield the second discharge port 33 to close the second discharge port, the power mechanism moves upwards to drive the driving piece to be far away from the sliding top cover 22, under the elastic pushing of the inside piece 32 that resets of every spout 30, promote triangle dog 27 and move to the center of keeping away from two 33 of discharge gates, triangle dog 27 loses the sheltering from two 33 of discharge gates this moment, two 33 of discharge gates open, the piece is along two 33 of discharge gates and two 25 outputs of discharge gates, realized that power unit descends, two 33 closure of discharge gates stop the piece output, power unit rises, two 33 of discharge gates open, the piece starts the automatic discharging function of ejection of compact.

In the embodiment of the invention, the power mechanism drives the torch cutting machine 14 to cut the object on the cutting table 11 downwards, the chips generated by cutting are input to the sliding top cover 22 through the cutting table 11 downwards, at this time, as the torch cutting machine 14 moves downwards, the driving member applies pressure to the sliding top cover 22 to rotate the sliding top cover, then the sliding stop lever 28 inside the sliding chute 30 is driven to move towards the center of the second discharge outlet 33, then the side walls of the triangular stop blocks 27 slide in contact with each other, the end parts of the triangular stop blocks close the second discharge outlet 33, so that the chips on the sliding top cover 22 during cutting are prevented from being output, when the power mechanism drives the transverse moving device 15 to move upwards, the pressure on the driving member is lost, at this time, under the elastic action of the reset member 32 inside each sliding chute 30, the triangular stop blocks 27 slide away from the second discharge outlet 33, at this time, the second discharge outlet 33 is opened, and then the chips are output through the second discharge outlet 25 on the lower side, therefore, the automatic output of the chips can be realized by following the lifting of the flame cutting machine 14, so that the trouble and danger of manually removing the chips are saved, and the automatic discharging is realized.

In a preferred embodiment of the invention, the bottom of the second discharge hole 25 is communicated with a group of impurity processing bins 13 for collecting and processing the output scraps.

As a preferred embodiment of the present invention, the restoring member 32 may be provided as a spring or the like.

As a preferred embodiment of the present invention, the power mechanism comprises a lifter 17, one side of the lifter 17 is fixedly supported by the bracket 10, the output end of the lifter 17 is connected with a connecting frame 16, one side of the connecting frame 16 facing the cutting table 11 is fixedly connected with a transverse moving device 15 for driving the flame cutting machine 14 to move in a plane, and the flame cutting machine 14 is arranged on the transverse moving device 15;

wherein, start lift 17 drive link 16 and go up and down, drive the flame cutting machine 14 lift of lateral shifting device 15 bottom to and drive flame cutting machine 14 through the operation of lateral shifting device 15 and carry out plane movement, and then cut when realizing the all direction movement of flame cutting machine 14.

As a preferred embodiment of the invention, the driving member comprises two contact fit type lower push blocks 24 and upper push blocks 18, the contact side surfaces of the upper push blocks 18 and the lower push blocks 24 are arranged as inclined surfaces, the lower push blocks 24 are fixed on the circumferential side wall of the sliding top cover 22, the upper push blocks 18 are connected to the connecting frame 16 through 34, the lifter 17 drives the connecting frame 16 to lift, adjusts the sliding fit of the upper push blocks 18 and the lower push blocks 24, and drives the sliding top cover 22 to rotate.

As shown in FIG. 5, as another preferred embodiment of the present invention, two air boxes 21 are symmetrically arranged on both sides of the interior of the blanking channel 12, a fan 20 with an output end facing the center line of the blanking channel 12 is fixedly arranged in the air boxes 21, air exhaust holes 19 are arranged at the communication part of the air boxes 21 and the blanking channel 12, the air exhaust holes 19 are arranged to promote the gas in the air boxes 21 to be input into the blanking channel 12 and simultaneously prevent the scraps in the blanking channel 12 from falling into the air boxes 21, and the gas is conveyed into the blanking channel 12, so that the temperature of the scraps can be reduced, and the subsequent treatment is facilitated.

In a preferred embodiment of the present invention, the feeding channel 12 is provided with a conical structure, so that the falling chips in the feeding channel 12 can be intensively conveyed to the sliding top cover 22.

The invention provides a flame cutting machine for automatically processing chips, which comprises a cutting table 11, a lifter 17 and a transverse moving device 15 which are controlled by a power mechanism to operate, a flame cutting machine 14 is driven to cut the chips on the cutting table 11, the flame cutting machine 14 drives an upper pressing block 18 to be matched with a lower pressing block 24 downwards under the connection of a connector 34 when moving downwards, a sliding top cover 22 is driven to rotate, a sliding stop rod 28 is driven to move towards the center of a discharge port II 33 when the sliding top cover 22 rotates, a plurality of groups of triangular stop blocks 27 are driven to close the discharge port II 33, the chips generated by cutting on the cutting table 11 are conveyed by the cutting table 11 and are concentrated on the sliding top cover 22, and the upper pressing block 18 is separated from the lower pressing block 24 when the flame cutting machine 14 moves upwards, then the pressure of the sliding top cover 22 is removed, the sliding stop rod 28 is far away from the second discharge port 33 under the elastic action of the resetting piece 32 in the sliding groove 30, then the triangular stop block 27 is far away from the movement, so that the second discharge port 33 is opened, and further, the concentrated chips are downwards input into the impurity processing bin 13 through the second discharge port 25 for processing, and the function of automatically discharging the chips in the cutting machine along with the lifting of the flame cutting machine 14 is realized; by arranging the air box 21 in the blanking channel 12, the temperature of the output chippings can be conveniently reduced, so that the damage to parts is reduced, the subsequent processing is facilitated, and the self-protection capability and the chippings processing capability of the invention are improved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. A torch cutting machine for automatically processing machining chips, comprising: the method comprises the following steps:

the cutting table is used for supporting the object to be cut;

wherein, the piece carries the top of slip top cap through the unloading passageway, power unit moves down, it removes towards the direction at two centers of discharge gate to drive driving piece drive slip pin, contact cooperation moves towards the center of discharge gate two between the triangle dog, it is closed with it to shelter from discharge gate two, power unit upward movement, it keeps away from the slip top cap to drive the driving piece, under the elasticity promotion of the inside piece that resets of every spout, promote the triangle dog and remove to the center of keeping away from discharge gate two, the triangle dog loses the sheltering from discharge gate two, discharge gate two is opened, the piece is exported along discharge gate two and discharge gate two, power unit has been realized descending, the closed piece output that stops of discharge gate two, power unit rises, discharge gate two opens, the piece starts the automatic discharging function of the ejection of compact.

2. The flame cutting machine for automatically processing the processing chips as claimed in claim 1, wherein a group of impurity processing bins for collecting and processing the output chips are communicated with the bottom of the second discharge port.

3. The torch cutting machine for automatically processing machining chips as set forth in claim 1, wherein said returning member is provided as a spring.

4. The torch cutting machine for automatically processing the processing scraps as claimed in claim 1, wherein the power mechanism comprises a lifter, one side of the lifter is fixedly supported by a support, the output end of the lifter is connected with a connecting frame, one side of the connecting frame facing the cutting table is fixedly connected with a transverse moving device for driving the torch cutting machine to move in a plane, and the torch cutting machine is arranged on the transverse moving device;

wherein, start the lift drive link and go up and down, drive the flame cutting machine lift of lateral shifting device bottom to and the operation through lateral shifting device drives the flame cutting machine and carries out plane movement, and then cuts when realizing the all direction movement of flame cutting machine.

5. The flame cutting machine for automatically processing the machining chips as claimed in claim 1, wherein the driving member comprises two contact-fitting type lower pushing blocks and upper pressing blocks, the contact side surfaces of the upper pressing blocks and the lower pushing blocks are arranged to be inclined surfaces, the lower pushing blocks are fixed on the circumferential side wall of the sliding top cover, and the upper pressing blocks are connected to the connecting frame.

6. The torch cutting machine for automatically processing the machining chips as claimed in claim 1, wherein two air boxes are symmetrically arranged on two sides of the interior of the blanking channel, a fan with an output end facing to the central line of the blanking channel is fixedly arranged in each air box, and an air exhaust hole is formed in the communication part of each air box and the blanking channel.

7. The torch cutting machine for automatically processing the machining chips as claimed in claim 1 or 6, wherein the blanking passage is provided in a tapered structure.