CN116329667A

CN116329667A - Building stainless steel slotting equipment

Info

Publication number: CN116329667A
Application number: CN202310625769.1A
Authority: CN
Inventors: 仲小俊; 崔春华; 崔建
Original assignee: Taizhou Junyu Stainless Steel Material Co ltd
Current assignee: Taizhou Junyu Stainless Steel Material Co ltd
Priority date: 2023-05-30
Filing date: 2023-05-30
Publication date: 2023-06-27
Anticipated expiration: 2043-05-30
Also published as: CN116329667B

Abstract

The invention belongs to the technical field of stainless steel processing, in particular to a building stainless steel grooving device, which comprises a workbench, wherein a supporting piece is arranged on the top surface of the workbench, a clamp structure is movably arranged on the end surface of the supporting piece, the end part of the clamp structure is connected with an output end of an output motor, a tool rest is arranged on the top surface of the workbench, and a tool is arranged on the tool rest; according to the building stainless steel grooving equipment, the supporting disc is arranged, the magnetic plate is arranged on the supporting disc and absorbs the rolling scraps, the cutting knife cuts off the rolling scraps, the magnetic plate continuously receives the rolling scraps in the whole scraps breaking process, the cutting knife continuously cuts off the rolling scraps, the process of setting the cutting scraps by a technician is not needed, the same purpose of cutting scraps can be achieved, the time of setting the program by the technician is saved, the labor capacity of the technician is reduced, the continuous grooving process of stainless steel elements with various sizes is facilitated, and the grooving efficiency of the stainless steel elements is ensured.

Description

Building stainless steel slotting equipment

Technical Field

The invention belongs to the technical field of stainless steel processing, and particularly relates to a building stainless steel grooving device.

Background

Stainless steel, also called acid resistant stainless steel, is commonly referred to as stainless steel when containing alloying elements such as nickel-chromium-molybdenum-tungsten in metallurgy, and currently stainless steel products are used in different fields, such as building industry, different workpieces such as reinforcing ribs, stair handrails and the like need to be manufactured by stainless steel, and when manufacturing building stainless steel workpieces, stainless steel elements need to be grooved under specific requirements to meet different requirements.

At present, when the open-loop groove of the columnar stainless steel original piece is needed, the stainless steel original piece is firstly cut into the specified length and fixed through the clamp, then the clamp drives the original piece to rotate, the cutter on the grooving equipment is gradually fed to cut the original piece, and coil scraps can be generated during grooving, so that the coil scraps are prevented from winding on the original piece and the cutter, the cutter feeding program is needed to be set to control the feeding of the cutter to realize the purpose of cutting scraps, however, for stainless steel original pieces with different sizes, technicians need to set different cutter feeding programs, the program setting needs to consume time and energy of the technicians, and the grooving efficiency of the stainless steel original piece is affected to a certain extent.

To this end, the invention provides a construction stainless steel grooving apparatus.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, at least one technical problem presented in the background art is solved.

The technical scheme adopted for solving the technical problems is as follows: the invention relates to a building stainless steel grooving device which comprises a workbench, wherein a supporting piece is arranged on the top surface of the workbench, a clamp structure is movably arranged on the end surface of the supporting piece, the end part of the clamp structure is connected with an output end of an output motor, a tool rest is arranged on the top surface of the workbench, and a tool is arranged on the tool rest; the annular peripheral surface of the clamp structure is sleeved with a receiving disc, the diameter of the ring center of the receiving disc is larger than the diameter of a stainless steel original clamped by the clamp structure, a hydraulic cylinder is arranged between the receiving disc and the receiving piece, a mounting notch is formed in the surface of the receiving disc, two pairs of electric telescopic rods are mounted in the mounting notch, a connecting frame is arranged on the annular peripheral surface of each electric telescopic rod, a cutter is mounted at the end part of each connecting frame, a magnetic plate is arranged in each mounting notch, the two cutters are symmetrical based on the magnetic plates, slide on the surface of the magnetic plate when the cutters move, and the operating position of each cutter on the stainless steel original is between the upper end part and the lower end part of the magnetic plate; when using, pass through the fixture structure centre gripping with the stainless steel original paper fixedly, afterwards start the output motor that fixture structure connects, fixture structure drives the stainless steel original paper and rotates, afterwards drive the cutter through the knife rest and feed and remove, carry out fluting when contacting with pivoted original paper, the contact point of cutter and original paper can produce the stainless steel coil bits, simultaneously the pneumatic cylinder drive is accepted the dish and is close to, the magnet board in the installation breach is close to cutter and original paper contact point on the accepting dish, and the cutter is highly between magnet board upper and lower tip to the operation position of stainless steel original paper, the stainless steel coil bits that so produce receive the magnetic force effect and adsorb the surface of magnet board, electric telescopic handle starts and passes through the link and drives cutter at magnet board surface reciprocating motion, two cutters contact time cut off the absorptive coil bits of magnet board, along with the coil bits constantly produce, the cutter constantly cuts off the coil bits of magnet board absorption, the whole process magnet board of cutting off, need not set for the procedure through the technician and cut off the bits, and can realize the same purpose of cutting off bits, the time of having saved the technician and set for the procedure, reduce the technological personnel, be favorable to the continuous stainless steel original paper of grooving of various sizes, the continuous stainless steel original paper of slotting.

Preferably, a plurality of receiving grooves are uniformly formed in one surface of the magnetic plate facing the cutter, a driving roller is arranged in each receiving groove, the end part of each driving roller is connected with the output end of a driving motor, a through hole is formed in the inner wall of each mounting notch, the output end of each driving motor penetrates through the through hole, and the driving motor is arranged at the end part of each receiving disc; when the magnetic plate rolling machine is used, the driving roller is driven to rotate through the driving motor connected with the end part, when the driving roller rotates, part of the driving roller is positioned outside the notch of the receiving groove, the rolling scraps adsorbed by the magnetic plate squeeze the surface of the driving roller, and the rotating driving roller drives the rolling scraps to move on the magnetic plate through friction between the surface and the rolling scraps.

Preferably, the annular peripheral surface of the driving roller is provided with a plurality of reserved grooves, an elastic rod is inserted into each reserved groove, a connecting spring is arranged between each elastic rod and each reserved groove, and when the driving roller drives the elastic rod to rotate, the elastic rod is extruded by the inner wall of the receiving groove and is retracted into each reserved groove; when the magnetic plate rolling device is used, the driving roller rotates, the elastic rod synchronously rotates, the elastic rod further fluctuates the rolling scraps on the magnetic plate to move, and the moving effect of the rolling scraps on the surface of the magnetic plate is improved.

Preferably, one end of the receiving disc, which is far away from the cutter, is provided with an arc-shaped rack, the meshing surface of the arc-shaped rack is connected with a fluted disc in a meshing way, a stepping motor is arranged between the fluted disc and the receiving piece, the connecting surface of the receiving disc and the hydraulic cylinder is provided with a plurality of arc-shaped grooves, and the end part of the output end of the hydraulic cylinder is movably arranged in the arc-shaped grooves; when the automatic cutting machine is used, the stepping motor is started, the stepping motor drives the fluted disc to rotate by a certain angle and to rotate reciprocally, the output end of the hydraulic cylinder moves in the arc-shaped groove, the fluted disc drives the receiving disc to rotate along a certain angle through meshing with the arc-shaped rack, the magnetic plates synchronously rotate, chips adsorbed on the surfaces and cut off are thrown out through centrifugal force, and the phenomenon that the chips on the magnetic plates excessively affect cutting of the coiled chips is avoided.

Preferably, a baffle is arranged at one end of the receiving disc, which is symmetrical to the arc-shaped rack; the baffle can block the piece that throws away when piece is thrown away on the magnetic plate, later drops, splashes the inconvenience that causes the clearance to other regions when avoiding the piece to be thrown away.

Preferably, the end face of the baffle is provided with a moving notch, a movable piece is inserted into the moving notch, and the distance between the upper port and the lower port of the moving notch is the same as the thickness of the cutter; when the cutter is close to the receiving disc, the movable sheet is extruded firstly, the movable sheet moves in the moving notch when being extruded, and then the movable sheet can be inserted into the moving notch, so that the cutter is prevented from being clamped by the baffle, and the function of blocking flying chips by the baffle is maintained.

Preferably, a plurality of receiving rods are uniformly arranged on one surface of the magnetic plate facing the cutter, an air injection piece is arranged on one side of the cutter, which is far away from the receiving disc, a nozzle of the air injection piece points to an operation point of the cutter on the stainless steel original, a hose is connected with the top surface of the air injection piece in a penetrating way, one end of the hose, which is far away from the air injection piece, is communicated with the air pump, and a gooseneck is arranged between the air injection piece and the receiving piece; when using, to the stainless steel original paper that does not take magnetism, for example type stainless steel, the volume bits that produce do not have magnetism, start hose end connection's air pump this moment, the hose is to aerifing in the jet-propelled spare, jet-propelled spare blowout air current effect is in volume bits production position, when the volume bits receive the air current effect, the volume bits can be attached on the magnetic plate surface, afterwards the volume bits are accepted by the receiving pole, it removes to drive the volume bits through the driving roller, the cutter can cut off the volume bits, realize the chip breaking to the stainless steel that does not take magnetism, improve the application scope of this scheme, it is pointed out that jet-propelled air current can lead to cutting the piece to splash, consequently, need set up the blocking cover plate on equipment, it is comparatively inconvenient, the staff can select this kind of scheme according to whether actual stainless steel takes magnetism, perfect the application scope of this embodiment.

Preferably, a plurality of through holes are formed in one surface of the magnetic plate facing the cutter, the material receiving rod penetrates through the through holes, the end part of the material receiving rod is positioned outside the through holes, a fixing frame is arranged on one surface of the magnetic plate facing away from the cutter, and a buffer spring is arranged between the fixing frame and the material receiving rod; when the cutter is used, when the position of the cutter is adjusted, the cutter can be extruded to the material receiving rod, the material receiving rod moves in the through hole when being extruded, the position of the cutter can not be blocked by the material receiving rod through the limiting position of the buffer spring and the fixing frame, the end part continuously abuts against the surface of the cutter, the rolling scraps can be further prevented from falling off from the end part of the material receiving rod, and the cutting of the rolling scraps is facilitated.

Preferably, the receiving disc comprises a first connecting piece and a second connecting piece, an assembly is arranged between the first connecting piece and the second connecting piece, and the assembly is detachable; when in use, when an original is installed on the clamp structure, the bearing plate is split into the first connecting piece and the second connecting piece through the assembly, the first connecting piece and the second connecting piece are combined into the bearing plate through the assembly during installation, and the bearing plate can be disassembled into two halves, so that the clamping and the taking-down processes of the bearing plate during the assembly and the disassembly of the stainless steel original are facilitated.

Preferably, the assembly is specifically a distance-adjusting telescopic rod; through the output of adjusting the roll adjustment telescopic link, the position of adjustable first connecting piece makes the magnetic plate on its surface be applicable to the position that the stainless steel original paper fluting process of equidimension not needed, needs the mounted position of pneumatic cylinder when adjusting the position.

The beneficial effects of the invention are as follows:

1. according to the building stainless steel grooving equipment, the supporting disc is arranged, the magnetic plate is arranged on the supporting disc and absorbs the rolling scraps, the cutting knife cuts off the rolling scraps, the magnetic plate continuously receives the rolling scraps in the whole scraps breaking process, the cutting knife continuously cuts off the rolling scraps, the process of setting the cutting scraps by a technician is not needed, the same purpose of cutting scraps can be achieved, the time of setting the program by the technician is saved, the labor capacity of the technician is reduced, the continuous grooving process of stainless steel elements with various sizes is facilitated, and the grooving efficiency of the stainless steel elements is ensured.

2. According to the building stainless steel slotting equipment, the air injection piece is arranged, the generated rolling scraps are not magnetic for stainless steel original pieces without magnetism, the air pump connected with the end part of the hose is started at the moment, the hose is inflated into the air injection piece, the air flow sprayed by the air injection piece acts on the rolling scraps generation position, when the rolling scraps are acted by the air flow, the rolling scraps can be attached to the surface of the magnetic plate, then the rolling scraps are accepted by the receiving rod, the rolling scraps are driven to move by the driving roller, the rolling scraps can be cut off by the cutter, the cutting of the stainless steel without magnetism is realized, the application range of the scheme is improved, the fact that the cutting scraps are splashed by the air flow sprayed by the air injection piece is needed is pointed out, therefore, a blocking cover plate is needed to be arranged on the equipment, the scheme is inconvenient, and staff can select the scheme according to whether the actual stainless steel is magnetic or not, and the application range of the embodiment is perfected.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a schematic view of the structure of the receiving tray of the present invention;

FIG. 3 is an enlarged schematic view of portion A of FIG. 2 in accordance with the present invention;

FIG. 4 is a schematic diagram of the structure on a magnetic plate of the present invention;

FIG. 5 is an exploded view of the tray of the present invention;

fig. 6 is an enlarged schematic view of portion B of fig. 5 in accordance with the present invention.

In the figure: 1. a work table; 11. a receiving member; 12. a clamp structure; 13. a tool holder; 2. a receiving tray; 201. a first connector; 202. a second connector; 21. a hydraulic cylinder; 22. a mounting notch; 23. an electric telescopic rod; 24. a cutter; 25. a magnetic plate; 26. a receiving groove; 27. a driving roller; 28. an elastic rod; 3. an arc-shaped rack; 31. fluted disc; 32. a stepping motor; 33. an arc-shaped groove; 4. a baffle; 41. a movable plate; 5. a receiving rod; 51. an air jet member; 52. a gooseneck; 6. a buffer spring; 61. and a fixing frame.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Embodiment one: as shown in fig. 1 to 3, the building stainless steel grooving equipment of the embodiment of the invention comprises a workbench 1, wherein a supporting piece 11 is arranged on the top surface of the workbench 1, a clamp structure 12 is movably arranged on the end surface of the supporting piece 11, the end part of the clamp structure 12 is connected with an output end of an output motor, a tool rest 13 is arranged on the top surface of the workbench 1, and a tool is arranged on the tool rest 13; the annular peripheral surface of the clamp structure 12 is sleeved with a bearing disc 2, the diameter of the annular center of the bearing disc 2 is larger than that of a stainless steel original clamped by the clamp structure 12, a hydraulic cylinder 21 is arranged between the bearing disc 2 and a bearing piece 11, the surface of the bearing disc 2 is provided with a mounting notch 22, two pairs of electric telescopic rods 23 are arranged in the mounting notch 22, the annular peripheral surface of each electric telescopic rod 23 is provided with a supporting connecting frame, the end part of each connecting frame is provided with a cutter 24, a magnetic plate 25 is arranged in each mounting notch 22, the two cutters 24 are symmetrical based on the magnetic plate 25, the cutters 24 slide on the surface of the magnetic plate 25 when moving, and the operating position of each cutter on the stainless steel original is between the upper end part and the lower end part of the magnetic plate 25; at present, when a cylindrical stainless steel original is subjected to open-loop groove, the stainless steel original is required to be cut into a specified length and fixed by a clamp, then the clamp drives the original to rotate, a cutter on grooving equipment is fed gradually, cutting operation is performed on the original, rolling scraps can be generated during grooving, in order to prevent the rolling scraps from being wound on the original and the cutter, a cutter feeding program is required to be set to control the feeding of the cutter, the purpose of cutting scraps is realized, however, for stainless steel original with different sizes, technicians are required to set different cutter feeding programs, the program setting is required to consume time and energy of the technicians, and the grooving efficiency of the stainless steel original is affected to a certain extent; when the stainless steel original is used, the stainless steel original is clamped and fixed through the clamp structure 12, then the output motor connected with the clamp structure 12 is started, the clamp structure 12 drives the stainless steel original to rotate, then the cutter is driven to move in a feeding way through the cutter rest 13, slotting is carried out when the cutter contacts the rotating original, stainless steel coil scraps are generated at the contact point of the cutter and the original, meanwhile, the hydraulic cylinder 21 drives the receiving disc 2 to approach, the magnetic plate 25 in the mounting notch 22 on the receiving disc 2 approaches to the contact point of the cutter, the working position of the cutter for the stainless steel original is between the upper end and the lower end of the magnetic plate 25, so that the generated stainless steel coil scraps are adsorbed to the surface of the magnetic plate 25 under the action of magnetic force, meanwhile, the electric telescopic rod 23 drives the cutter 24 to reciprocate on the surface of the magnetic plate 25 through the connecting frame, the cutter 24 cuts off the coil scraps adsorbed by the magnetic plate 25 when the two cutters are contacted, the cutter 24 continuously cuts off the coil scraps adsorbed by the magnetic plate 25 along with the continuous production of the coil scraps, the whole chip cutting process magnetic plate 25 continuously draws the coil scraps, the coil scraps are continuously cut off, the coil scraps do not need to be set to be broken by a technical staff, the same size and the time of the stainless steel original can be reduced, and the slotting process can be realized; it should be noted that the building stainless steel has two kinds of magnetic and non-magnetic, the scheme is applied to the magnetic stainless steel, such as 430 type stainless steel, 430 type stainless steel is widely applied, and the scheme has universality.

A plurality of receiving grooves 26 are uniformly formed in one surface of the magnetic plate 25 facing the cutter, a driving roller 27 is arranged in each receiving groove 26, the end part of each driving roller 27 is connected with the output end of a driving motor, a through hole is formed in the inner wall of each mounting notch 22, the output end of the driving motor penetrates through the through hole, and the driving motor is arranged at the end part of each receiving disc 2; when the magnetic plate rolling machine is used, the driving roller 27 is driven to rotate through the driving motor connected with the end part, when the driving roller 27 rotates, part of the driving roller 27 is positioned outside the notch of the receiving groove 26, rolling scraps adsorbed by the magnetic plate 25 squeeze the surface of the driving roller 27, and the rotating driving roller 27 drives the rolling scraps to move on the magnetic plate 25 through friction force between the surface and the rolling scraps, so that the rolling scraps are prevented from falling off due to overlarge weight caused by accumulation on the magnetic plate 25 at too high production speed.

As shown in fig. 4, the annular circumferential surface of the driving roller 27 is provided with a plurality of reserved grooves, an elastic rod 28 is inserted into each reserved groove, a connecting spring is arranged between the elastic rod 28 and each reserved groove, and when the driving roller 27 drives the elastic rod 28 to rotate, the elastic rod 28 is extruded by the inner wall of the receiving groove 26 and is retracted into each reserved groove; when the magnetic plate 25 is used, the driving roller 27 rotates, the elastic rod 28 synchronously rotates, and the elastic rod 28 further fluctuates the rolling scraps on the magnetic plate 25 to move, so that the moving effect of the rolling scraps on the surface of the magnetic plate 25 is improved.

As shown in fig. 2, one end of the receiving plate 2 far away from the cutter is provided with an arc-shaped rack 3, a meshing surface of the arc-shaped rack 3 is in meshing connection with a fluted disc 31, a stepping motor 32 is arranged between the fluted disc 31 and the receiving piece 11, a plurality of arc-shaped grooves 33 are formed in the connecting surface of the receiving plate 2 and the hydraulic cylinder 21, and the end part of the output end of the hydraulic cylinder 21 is movably arranged in the arc-shaped grooves 33; when the automatic rolling machine is used, the stepping motor 32 is started, the stepping motor 32 drives the fluted disc 31 to rotate for a certain angle and to rotate reciprocally, the output end of the hydraulic cylinder 21 moves in the arc-shaped groove 33, the fluted disc 31 drives the receiving disc 2 to rotate along a certain angle through meshing with the arc-shaped rack 3, the magnetic plates 25 synchronously rotate, and the chips adsorbed on the surfaces and cut off are thrown out through centrifugal force, so that the cutting of the rolling chips is prevented from being influenced by excessive chips on the magnetic plates 25.

A baffle 4 is arranged at one end of the receiving disc 2 symmetrical to the arc-shaped rack 3; the baffle 4 can block the piece that throws away when the piece is thrown away on the magnetic plate 25, later drops, and the piece is splashed to other areas when being thrown away and causes the inconvenience of clearance.

The end face of the baffle 4 is provided with a moving notch, a movable piece 41 is inserted into the moving notch, and the distance between the upper port and the lower port of the moving notch is the same as the thickness of the cutter; when the cutter approaches the receiving disc 2, the movable piece 41 is extruded firstly, the movable piece 41 moves in the moving notch when being extruded, and then the movable piece 41 can be inserted into the moving notch, so that the cutter is prevented from being clamped by the baffle 4, and the function of blocking flying chips by the baffle 4 is maintained.

As shown in fig. 1 and 3, a plurality of receiving rods 5 are uniformly arranged on one surface of the magnetic plate 25 facing the cutter, an air injection piece 51 is arranged on one side of the cutter away from the receiving disc 2, the nozzle of the air injection piece 51 points to the working point of the cutter on the stainless steel original, a hose is connected with the top surface of the air injection piece 51 in a penetrating way, one end of the hose away from the air injection piece 51 is communicated with the air pump, and a gooseneck 52 is arranged between the air injection piece 51 and the receiving piece 11; when the stainless steel cutting machine is used, for stainless steel original pieces without magnetism, such as 316 type stainless steel, generated cutting scraps are not provided with magnetism, at the moment, an air pump connected with the end of the hose is started, the hose is inflated into the air injection piece 51, the air injection piece 51 sprays air flow to act on the cutting scraps at the generating position, when the cutting scraps are acted on by the air flow, the cutting scraps can be attached to the surface of the magnetic plate 25, then the cutting scraps are received by the receiving rod 5, the cutting knife 24 drives the cutting scraps to move, the cutting knife 24 can cut off the cutting scraps without magnetism, the cutting scraps are realized, the application range of the scheme is improved, and the fact that the cutting scraps are splashed by the air flow sprayed out by the air injection piece 51 is needed is pointed out, so that a blocking cover plate is needed to be arranged on equipment, the scheme is inconvenient, and staff can select whether the scheme is provided with magnetism according to actual stainless steel or not, so that the application range of the embodiment is perfected.

As shown in fig. 5 to 6, a plurality of through holes are formed in one surface of the magnetic plate 25 facing the cutter, the material receiving rod 5 passes through the through holes, the end part of the material receiving rod is positioned outside the through holes, a fixing frame 61 is arranged on one surface of the magnetic plate 25 facing away from the cutter, and a buffer spring 6 is arranged between the fixing frame 61 and the material receiving rod 5; when in use, when the position of the cutter is adjusted, the cutter can be extruded to the material receiving rod 5, the material receiving rod 5 moves in the through hole when being extruded, the position of the cutter can not be blocked by the material receiving rod 5 through the limiting position of the buffer spring 6 and the fixing frame 61, and the end part continuously abuts against the surface of the cutter, so that the rolling scraps can be further prevented from falling off from the end part of the material receiving rod 5, and the cutting of the rolling scraps is facilitated.

Embodiment two: comparative example one, wherein another embodiment of the present invention is: as shown in fig. 5, the tray 2 includes a first connector 201 and a second connector 202, and an assembly is disposed between the first connector 201 and the second connector 202, and the assembly is detachable; when in use, when an original is mounted on the clamp structure 12, the bearing plate 2 is split into the first connecting piece 201 and the second connecting piece 202 through the assembly, the first connecting piece 201 and the second connecting piece 202 are combined into the bearing plate 2 through the assembly during mounting, and the bearing plate 2 can be disassembled into two halves, so that the clamping and removing processes of the bearing plate 2 during the loading and unloading of the stainless steel original are facilitated.

The assembly is specifically a distance-adjusting telescopic rod; the position of the first connecting piece 201 can be adjusted by adjusting the output quantity of the distance adjusting telescopic rod, so that the magnetic plate 25 on the surface of the first connecting piece is suitable for positions required by the grooving process of stainless steel elements with different sizes, and the installation position of the hydraulic cylinder 21 is required when the positions are adjusted.

During operation, when the stainless steel original is clamped and fixed through the clamp structure 12, the output motor connected with the clamp structure 12 is started, the clamp structure 12 drives the stainless steel original to rotate, then the cutter is driven to move in a feeding way through the cutter rest 13, slotting is carried out when the cutter contacts the rotating original, stainless steel coil scraps are generated at the contact point of the cutter and the original, meanwhile, the hydraulic cylinder 21 drives the receiving disc 2 to approach, the magnetic plate 25 in the mounting notch 22 on the receiving disc 2 approaches to the contact point of the cutter and the original, the working position of the cutter for the stainless steel original is positioned between the upper end and the lower end of the magnetic plate 25, so that the generated stainless steel scraps are adsorbed to the surface of the magnetic plate 25 under the action of magnetic force, meanwhile, the electric telescopic rod 23 drives the cutter 24 to reciprocate on the surface of the magnetic plate 25 through the connecting frame, the two cutters 24 cut off the scraps adsorbed by the magnetic plate 25 when contacting, the cutters 24 continuously generate the scraps, the scraps adsorbed by the magnetic plate 25 continuously cut off along with the continuous production of the scraps, the whole scraps cutting process, the scraps continuously cut off the scraps, the scraps continuously need of the scraps, the scraps by the cutting process, the scraps are not required to be set by a technical staff, the cutting process can be realized, the same size can be reduced, and the stainless steel can be saved, and the slotting time can be saved, and the time can be reduced; it should be noted that, the building stainless steel has two kinds of magnetic and non-magnetic, the scheme is applied to the magnetic stainless steel, such as 430 type stainless steel, 430 type stainless steel is widely used, and the scheme has universality; when in use, the driving roller 27 is driven to rotate by a driving motor connected with the end part, when the driving roller 27 rotates, part of the driving roller 27 is positioned outside the notch of the receiving groove 26, the rolling scraps absorbed by the magnetic plate 25 squeeze the surface of the driving roller 27, and the rotating driving roller 27 drives the rolling scraps to move on the magnetic plate 25 through friction force between the surface and the rolling scraps; wherein in use, when the driving roller 27 rotates, the elastic rod 28 rotates synchronously, and the elastic rod 28 further fluctuates the rolling scraps on the magnetic plate 25 to move.

When the device is used, the stepping motor 32 is started, the stepping motor 32 drives the fluted disc 31 to rotate for a certain angle and to rotate reciprocally, the output end of the hydraulic cylinder 21 moves in the arc-shaped groove 33, the fluted disc 31 drives the receiving disc 2 to rotate along a certain angle through meshing with the arc-shaped rack 3, the magnetic plate 25 rotates synchronously, and the chips adsorbed on the surface and cut off are thrown out through centrifugal force; wherein the baffle 4 blocks the thrown scraps when the scraps on the magnetic plate 25 are thrown out, and then falls off; when the cutter approaches the receiving disc 2, the movable piece 41 is extruded firstly, the movable piece 41 moves in the moving notch when being extruded and can be inserted into the moving notch, so that the cutter is prevented from being clamped by the baffle 4, and the function of blocking flying chips by the baffle 4 is maintained; when the stainless steel cutting machine is used, for stainless steel original pieces without magnetism, such as 316 type stainless steel, generated cutting scraps are not provided with magnetism, at the moment, an air pump connected with the end of a hose is started, the hose is inflated into an air injection piece 51, air injection piece 51 sprays air flow to act on the cutting scraps at the generation position, when the cutting scraps are acted on by the air flow, the cutting scraps can be attached to the surface of a magnetic plate 25, then the cutting scraps are received by a receiving rod 5, the cutting knife 24 can cut off the cutting scraps, cutting scraps of the stainless steel without magnetism are realized, the application range of the scheme is improved, the fact that the cutting scraps are splashed by the air flow sprayed by the air injection piece 51 is needed, therefore, a blocking cover plate is needed to be arranged on equipment, and the scheme is inconvenient, and staff can select according to whether the actual stainless steel is provided with magnetism or not.

When the cutter is used, the cutter can be extruded to the material receiving rod 5 when the position of the cutter is adjusted, the material receiving rod 5 moves in the through hole when being extruded, the position of the cutter is not blocked by the material receiving rod 5 through the limiting position of the buffer spring 6 and the fixing frame 61, and the end part is continuously pressed on the surface of the cutter, so that the rolling scraps can be further prevented from falling off from the end part of the material receiving rod 5, and the cutting of the rolling scraps is facilitated; when the original is mounted on the clamp structure 12, the first connecting piece 201 and the second connecting piece 202 are separated from the bearing plate 2 through the assembly, the first connecting piece 201 and the second connecting piece 202 are assembled into the bearing plate 2 through the assembly during mounting, the bearing plate 2 can be disassembled into two halves, and the clamping and the removing processes of the bearing plate 2 during the loading and unloading of the stainless steel original are facilitated; the position of the first connecting piece 201 can be adjusted by adjusting the output quantity of the distance adjusting telescopic rod, so that the magnetic plate 25 on the surface of the first connecting piece is suitable for positions required by the grooving process of stainless steel elements with different sizes, and the installation position of the hydraulic cylinder 21 is required when the positions are adjusted.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A building stainless steel slotting device, characterized in that: the automatic cutting machine comprises a workbench (1), wherein a supporting piece (11) is arranged on the top surface of the workbench (1), a clamp structure (12) is movably arranged on the end surface of the supporting piece (11), the end part of the clamp structure (12) is connected with an output end of an output motor, a tool rest (13) is arranged on the top surface of the workbench (1), and a tool is arranged on the tool rest (13); the stainless steel cutting tool is characterized in that a bearing disc (2) is sleeved on the annular peripheral surface of the clamp structure (12), the diameter of the ring center of the bearing disc (2) is larger than that of a stainless steel original clamped by the clamp structure (12), a hydraulic cylinder (21) is arranged between the bearing disc (2) and the bearing piece (11), a mounting notch (22) is formed in the surface of the bearing disc (2), two pairs of electric telescopic rods (23) are mounted in the mounting notch (22), a connecting frame is arranged on the annular peripheral surface of the electric telescopic rods (23), a cutter (24) is mounted at the end of the connecting frame, a magnetic plate (25) is arranged in the mounting notch (22), the two cutters (24) are symmetrical based on the magnetic plate (25), and when the cutters (24) move, the surfaces of the magnetic plate (25) slide, and the operating position of the cutters on the stainless steel original is located between the upper end and the lower end of the magnetic plate (25).

2. A construction stainless steel grooving apparatus according to claim 1, characterized in that: a plurality of receiving grooves (26) are uniformly formed in one face, facing the cutter, of the magnetic plate (25), driving rollers (27) are mounted in the receiving grooves (26), the end portions of the driving rollers (27) are connected with output ends of driving motors, through holes are formed in the inner walls of the mounting notches (22), the output ends of the driving motors penetrate through the through holes, and the driving motors are mounted at the end portions of the receiving plates (2).

3. A construction stainless steel grooving apparatus according to claim 2, characterized in that: the annular peripheral surface of the driving roller (27) is provided with a plurality of reserved grooves, an elastic rod (28) is inserted into each reserved groove, a connecting spring is arranged between each elastic rod (28) and each reserved groove, and when the driving roller (27) drives the elastic rod (28) to rotate, the elastic rod (28) is extruded by the inner wall of the receiving groove (26) to retract into each reserved groove.

4. A construction stainless steel grooving apparatus according to claim 1, characterized in that: the one end that holds dish (2) and keep away from the cutter is provided with arc rack (3), the engagement face meshing of arc rack (3) is connected with fluted disc (31), be provided with step motor (32) between fluted disc (31) and the receiver (11), a plurality of arc grooves (33) have been seted up to the junction surface of holding dish (2) and pneumatic cylinder (21), the output tip movable mounting of pneumatic cylinder (21) is in arc groove (33).

5. A construction stainless steel slotting device according to claim 4, wherein: one end of the receiving disc (2) symmetrical to the arc-shaped rack (3) is provided with a baffle plate (4).

6. A construction stainless steel slotting device according to claim 5, wherein: the end face of the baffle (4) is provided with a moving notch, a movable piece (41) is inserted into the moving notch, and the distance between the upper port and the lower port of the moving notch is the same as the thickness of the cutter.

7. A construction stainless steel grooving apparatus according to claim 2, characterized in that: the utility model discloses a stainless steel original paper, including magnetic plate (25), jet-propelled piece (51), hose, air pump, jet-propelled piece (51) and support piece (11) are provided with one side that magnetic plate (25) face cutter evenly installs a plurality of material poles (5), and one side that the cutter kept away from support dish (2) is provided with jet-propelled piece (51), jet-propelled piece (51) spout is directional the operating point of cutter to the stainless steel original paper, and jet-propelled piece (51) top surface link up and is connected with the hose, and the hose is kept away from one end and the air pump intercommunication of jet-propelled piece (51), be provided with gooseneck (52) between jet-propelled piece (51) and the support piece (11).

8. A construction stainless steel slotting device according to claim 7, wherein: the one side that magnetic plate (25) faced the cutter has seted up a plurality of through-holes, connect material pole (5) to pass through the through-hole, and the tip is located outside the through-hole, the one side that magnetic plate (25) was facing away from the cutter is provided with mount (61), be provided with buffer spring (6) between mount (61) and the material pole (5).

9. A construction stainless steel grooving apparatus according to claim 1, characterized in that: the bearing plate (2) comprises a first connecting piece (201) and a second connecting piece (202), an assembly is arranged between the first connecting piece (201) and the second connecting piece (202), and the assembly is detachable.

10. A construction stainless steel slotting device according to claim 9, wherein: the assembly is specifically a distance-adjusting telescopic rod.