CN115255944B - Rectangular steel pipe machining device with rated depth cutting function - Google Patents

Abstract

The application discloses a rectangular steel pipe machining device with a rated depth cutting function, and relates to the technical field of hardware machining. The rectangular steel pipe machining device with the rated depth cutting function comprises a base main body, wherein a cutting device is fixed at the top end of the base main body and comprises a bracket rod and a linear motor, and a shell is fixed at the bottom movable shaft of the linear motor. This rectangle steel pipe processingequipment with rated depth cutting function, through linear motor control shell circulation removal, make cutting machine one with cutting machine two cut the rectangle steel pipe in turn, produce a triangle-shaped opening that runs through on the messenger rectangle steel pipe, make things convenient for follow-up folding and welding operation, through cutting machine one with cutting machine two in turn cutting operation, can realize unifying all steel pipe cutting depth and cutting angle, avoided the possibility that manual operation has the error to produce.

Description

Rectangular steel pipe machining device with rated depth cutting function

Technical Field

The application relates to the technical field of hardware processing, in particular to a rectangular steel pipe processing device with a rated depth cutting function.

Background

The rectangular steel pipe is a hollow square thin-wall steel pipe, is generally used for supporting pieces of structures, and has long length when being produced, so that the rectangular steel pipe needs to be cut or bent when being used, and has wider application range.

In the process of processing the rectangular steel pipe, the steel pipe needs to be cut and bent according to different conditions, and the existing processing treatment generally adopts a manual control cutting machine to carry out cutting operation, so that cutting errors can be generated in the process of manual operation control, and subsequent bending or welding and other operations are affected.

Disclosure of Invention

Aiming at the defects of the prior art, the application provides a rectangular steel pipe machining device with a rated depth cutting function, and solves the problems in the background art. In order to achieve the above purpose, the application is realized by the following technical scheme: the utility model provides a rectangle steel pipe processingequipment with rated depth cutting function, includes the base main part, the upper surface left side of base main part is fixed with the fixer, the top of base main part is fixed with cutting device, cutting device includes cradling piece, linear motor, cradling piece is total two, two the cradling piece is fixed respectively in the both sides of base main part, linear motor fixes the top at two cradling pieces, linear motor's bottom removes the axle department and is fixed with the shell, the left side and the right side of shell are sliding connection respectively have cutting machine one, cutting machine two, the inside rotation of shell is connected with bilateral elastic telescopic handle, bilateral elastic telescopic handle's left side is connected with cutting machine one rotation, bilateral elastic telescopic handle's right side is connected with cutting machine two rotations.

Preferably, two opposite ends of the support rods are respectively fixed with a triangular inserting rod, the two triangular inserting rods are positioned at the same height, the triangular inserting rods on the left side are close to the second cutting machine, and the triangular inserting rods on the right side are close to the first cutting machine.

Preferably, the front end and the back of the shell are provided with two penetrating openings, and the top end and the bottom of the shell are both fixed with magnetic attraction stones.

Preferably, the inside right side of base main part is provided with folding device, folding device includes folding plate, montant, limiting plate, the inside at the base main part is fixed to the montant, the rotation of folding plate is connected at the front end of montant, the upper surface rotation of folding plate is connected with the rotating plate, the inside of folding plate is provided with aggregate unit, the roof left side of folding plate has built in the colloid sucking disc, the inside piston sliding connection of colloid sucking disc has the piston rod, the limiting plate has two altogether, two be provided with gasbag one between the limiting plate, two the top of limiting plate is fixed with the baroceptor one, the one end sliding connection of baroceptor one has baroceptor one, and baroceptor one is fixed with folding plate bottom, the other end and the gasbag one of baroceptor one communicate.

Preferably, the linkage device comprises a second air pressure bin, an air pressure rod II is connected to the left side of the inside of the second air pressure bin in a sliding mode, two air pressure rods III are connected to the right side of the inside of the second air pressure bin in a sliding mode, and an air bag II is fixed to one end, close to the vertical rod, of the inside of the second air pressure bin.

Preferably, two sliding connection has L type push pedal between the limiting plate, the right side of L type push pedal is located the outside of base main part, and is provided with shell fragment one between the right side of L type push pedal and the base main part, the bottom of piston rod passes through elastic cord and is connected with the base main part.

Preferably, the top of the second pneumatic rod is fixed with the rotating plate, and the third pneumatic rod is positioned at the lower end of the inner part of the colloid sucker.

Preferably, the inside middle-end of base main part is provided with recovery unit, recovery unit is connected with the stripper plate through the dwang rotation including the left side wall of collecting the storehouse, the back of collecting the storehouse is fixed with the atmospheric pressure storehouse III, the one end sliding connection in atmospheric pressure storehouse III has the cylinder depression bar, the other end sliding connection in atmospheric pressure storehouse III has the atmospheric pressure pole IV, and the atmospheric pressure pole IV is fixed with the stripper plate.

Preferably, the outer wall front end of the rotary rod is fixed with a rectangular plate, the front end of the collecting bin is fixed with a sloping plate, and a second spring plate is arranged between the sloping plate and the rectangular plate.

Preferably, one side of the extrusion plate far away from the fourth pneumatic rod is provided with a plurality of groups of extrusion blocks, and the cylindrical compression rod penetrates through and is in sliding connection with the inside of the support rod.

The application provides a rectangular steel pipe machining device with a rated depth cutting function. The beneficial effects are as follows:

(1) This rectangle steel pipe processingequipment with rated depth cutting function, through linear motor control shell circulation removal, make cutting machine one with cutting machine two cut the rectangle steel pipe in turn, make produce a triangle-shaped opening that runs through on the rectangle steel pipe, make things convenient for follow-up folding and welding operation, through cutting machine one with cutting machine two in turn cutting operation, can realize unifying all steel pipe cutting depth and cutting angle, avoided the possibility that manual operation has the error to produce.

(2) This rectangle steel pipe processingequipment with rated depth cutting function through setting up folding device and folding rectangle steel pipe after the cutting, extrudees gasbag one through removing L type push pedal, makes its inside gas get into in the atmospheric pressure storehouse one, promotes folding plate anticlockwise rotation through atmospheric pressure pole one, pulls the piston rod through elastic cord at pivoted in-process and removes, makes and forms negative pressure in the colloid sucking disc, promotes the adsorption effect on colloid sucking disc and rectangle steel pipe surface, overturns the rectangle steel pipe on cutting opening right side through folding plate, connects through modes such as workman's welding afterwards.

(3) According to the rectangular steel pipe machining device with the rated depth cutting function, the linkage device is arranged to lift the bending angle of the rectangular steel pipe, and the bending angle of the folding plate cannot reach ninety degrees to be folded, so that after the back surface of the folding plate is contacted with the vertical plate, the air bag II is extruded through the vertical plate, the rotating plate is pushed to rotate through the air pressure rod II, the bending angle of the rectangular steel pipe reaches the vertical state, and the use universality of the rectangular steel pipe machining device is improved.

(4) This rectangle steel pipe processingequipment with rated depth cutting function retrieves and compresses the waste material that produces after the cutting through setting up recovery unit, and the waste material that the cutting produced can drop to collect in the storehouse, and when linear motor control shell moved to the marginal, the shell can extrude the cylinder depression bar, makes four drive the stripper plate clockwise rotation of gas depression bar, extrudees and compresses the waste material of collecting in the storehouse through the stripper plate, not only promotes the collection quantity of collecting the storehouse, and convenient subsequent collection and the processing of waste material after the compression moreover.

Drawings

FIG. 1 is a schematic view of the overall three-dimensional structure of the present application;

FIG. 2 is a schematic three-dimensional structure of a cutting device according to the present application;

FIG. 3 is a schematic view of the three-dimensional structure of the housing and its interior according to the present application;

FIG. 4 is a schematic three-dimensional structure of the folding device of the present application;

FIG. 5 is a schematic three-dimensional view of a linkage of the present application;

FIG. 6 is a schematic three-dimensional structure of the recycling apparatus of the present application.

In the figure: 1. a base body; 2. a holder; 3. a cutting device; 31. a bracket rod; 32. a linear motor; 33. a housing; 34. a first cutting machine; 35. a second cutting machine; 36. a bilateral elastic telescopic rod; 37. triangle inserted link; 4. a folding device; 41. a folding plate; 42. a vertical rod; 43. a limiting plate; 44. a rotating plate; 45. a linkage; 451. an air pressure bin II; 452. a second pneumatic rod; 453. an air bag II; 454. a third pneumatic rod; 46. a colloid sucker; 47. a piston rod; 48. an air pressure bin I; 49. an air bag I; 410. an L-shaped push plate; 5. a recovery device; 51. a collecting bin; 52. a rotating rod; 53. an extrusion plate; 54. a rectangular plate; 55. an air pressure bin III; 56. a cylindrical compression bar; 57. and a pneumatic rod IV.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments.

Referring to fig. 1-6, the present application provides a technical solution: the utility model provides a rectangle steel pipe processingequipment with rated depth cutting function, including base main part 1, the upper surface left side of base main part 1 is fixed with fixer 2, the top of base main part 1 is fixed with cutting device 3, cutting device 3 includes cradling piece 31, linear motor 32, cradling piece 31 is total two, two cradling pieces 31 are fixed respectively in the both sides of base main part 1, linear motor 32 is fixed in the top of two cradling pieces 31, linear motor 32's bottom removes the axle department and is fixed with shell 33, two openings that run through have been seted up with the back to the front end of shell 33, and the top and the bottom of shell 33 all are fixed with magnetism stone, the left side and the right side of shell 33 are sliding connection respectively have cutting machine one 34, cutting machine two 35, the inside rotation of shell 33 is connected with bilateral elastic telescoping rod 36, bilateral elastic telescoping rod 36's left side and cutting machine one 34 rotate and are connected, two support piece 31 opposite one end all is fixed with triangle-shaped inserted bar 37, two triangle-shaped inserted bar 37 are in same height, left side triangle-shaped inserted bar 37 is close to cutting machine two triangle-shaped inserted bar 37. The linear motor 32 controls the shell 33 to circularly move, so that the first cutting machine 34 and the second cutting machine 35 alternately cut rectangular steel pipes, a penetrating triangular opening is formed in the rectangular steel pipes, subsequent folding and welding operations are facilitated, unification of cutting depths and cutting angles of all the steel pipes can be achieved through the alternate cutting operations of the first cutting machine 34 and the second cutting machine 35, and the possibility that errors occur in manual operation is avoided.

Further, the right side of the inside of the base body 1 is provided with a folding device 4, the folding device 4 comprises a folding plate 41, a vertical rod 42 and limiting plates 43, the vertical rod 42 is fixed in the base body 1, the folding plate 41 is rotationally connected to the front end of the vertical rod 42, the upper surface of the folding plate 41 is rotationally connected with a rotating plate 44, the inside of the folding plate 41 is provided with a linkage 45, the left side of a top plate of the folding plate 41 is fixedly embedded with a colloid sucker 46, an inner piston of the colloid sucker 46 is slidingly connected with a piston rod 47, the limiting plates 43 are totally two, an air bag I49 is arranged between the two limiting plates 43, the top ends of the two limiting plates 43 are fixedly provided with an air pressure cabin I48, one end of the air pressure cabin I48 is slidingly connected with an air pressure rod I, the air pressure rod I is fixedly arranged at the bottom of the folding plate 41, the other end of the air pressure cabin I48 is communicated with the air pressure cabin I49, an L-shaped push plate 410 is slidingly connected between the two limiting plates 43, the right side of the L-shaped push plate 410 is positioned outside the base body 1, and a right side of the L-shaped push plate 410 is fixedly connected with the base body 1 through an elastic piece 47. The rectangular steel pipe after being folded and cut is arranged by the folding device 4, the air bag I49 is extruded by the L-shaped push plate 410, the air in the rectangular steel pipe enters the air pressure cabin I48, the folding plate 41 is pushed to rotate anticlockwise by the air pressure rod I, the piston rod 47 is pulled to move by the elastic thread rope in the rotating process, negative pressure is formed in the colloid sucker 46, the adsorption effect of the colloid sucker 46 and the surface of the rectangular steel pipe is improved, the rectangular steel pipe on the right side of a cutting opening is overturned by the folding plate 41, and then the rectangular steel pipe is connected by means of welding of workers and the like.

Further, the linkage device 45 includes a second pneumatic bin 451, a second pneumatic rod 452 is slidingly connected to the left side of the second pneumatic bin 451, a third pneumatic rod 454 is slidingly connected to the right side of the second pneumatic bin 451, a second air bag 453 is fixed to one end of the second pneumatic bin 451, which is close to the vertical rod 42, the top end of the second pneumatic rod 452 is fixed to the rotating plate 44, and the third pneumatic rods 454 are both located at the lower end of the colloid sucker 46. The linkage device 45 is arranged to lift the bending angle of the rectangular steel pipe, and the bending angle of the folding plate 41 cannot reach ninety-degree folding, so that after the back surface of the folding plate 41 is contacted with the vertical rod 42, the air bag II 453 is extruded by the vertical rod 42, the rotating plate 44 is pushed to rotate by the air pressure rod II 452, the bending angle of the rectangular steel pipe reaches a vertical state, and the use universality of the application is promoted.

Notably, the inside middle-end of base main part 1 is provided with recovery unit 5, recovery unit 5 is including collecting the left side wall of storehouse 51 and rotate through rotatory pole 52 and be connected with stripper plate 53, the back of collecting the storehouse 51 is fixed with pneumatic storehouse three 55, the one end sliding connection of pneumatic storehouse three 55 has cylinder depression bar 56, the other end sliding connection of pneumatic storehouse three 55 has pneumatic pole four 57, and pneumatic pole four 57 is fixed with stripper plate 53, the outer wall front end of rotatory pole 52 is fixed with rectangular plate 54, the front end of collecting the storehouse 51 is fixed with the swash plate, and be provided with the shell fragment second between swash plate and the rectangular plate 54, the one side of keeping away from pneumatic pole four 57 of stripper plate 53 is provided with multiunit extrusion piece, cylinder depression bar 56 runs through and sliding connection is in the inside of support pole 31. The waste generated after cutting is recovered and compressed by the recovery device 5, the waste generated after cutting falls into the collection bin 51, when the linear motor 32 controls the shell 33 to move to the extreme edge, the shell 33 can extrude the cylindrical compression rod 56, the air pressure rod four 57 drives the extrusion plate 53 to rotate clockwise, the waste in the collection bin 51 is extruded and compressed by the extrusion plate 53, the collection quantity of the collection bin 51 is improved, and the compressed waste is convenient for subsequent collection and treatment.

When the rectangular steel tube cutting machine is used, firstly, a rectangular steel tube is fixed through the fixer 2, then, a first cutting machine 34 and a second cutting machine 35 are started, then, a linear motor 32 is started to control a shell 33 to circularly move left and right, the first cutting machine 34 is used for cutting the rectangular steel tube in the moving process of the shell 33 because the initial position of the first cutting machine 34 is lower than that of the second cutting machine 35, when the shell 33 moves to be contacted with a front end support rod 31, a triangular inserting rod 37 fixed on the front end support rod 31 is used for pressing a bilateral elastic telescopic rod 36, so that the first cutting machine 34 moves obliquely upwards, meanwhile, the second cutting machine 35 moves downwards obliquely downwards, and in the reverse moving process of the shell 33, the second cutting machine 35 is used for cutting the rectangular steel tube, and when the shell 33 is restored to the initial state, a triangular opening is formed in the rectangular steel tube, and therefore, the effect of unified cutting specification is achieved;

after cutting, the air bag I49 is extruded by moving the L-shaped push plate 410, so that the air in the air bag I49 enters the air pressure bin I48, the air bag II 453 is pushed by the air pressure rod I, the piston rod 47 is pulled to move by the elastic thread rope in the rotating process, negative pressure is formed in the colloid sucker 46, the right side surface of the rectangular steel pipe is contacted with the colloid sucker 46, so that after the negative pressure is formed in the colloid sucker 46, the adsorption effect of the colloid sucker 46 and the surface of the rectangular steel pipe can be improved, the rectangular steel pipe on the right side of a cutting opening is overturned by the folding plate 41, and then the rectangular steel pipe is connected by means of welding and the like, meanwhile, the bending angle of the folding plate 41 cannot reach ninety degrees, the air bag II 453 is pushed by the vertical rod 42 after the back surface of the folding plate 41 contacts with the vertical rod 42, the rotating plate 44 is pushed by the air pressure rod II 452, and at the same time, the piston rod 47 is pushed to move upwards by the two air pressure rods III 454, the adsorption effect of the colloid sucker 46 is relieved, and the rectangular steel pipe is rotated by the rotating plate 44, so that the bending angle of the rectangular steel pipe reaches a vertical state, and the usability of the application is improved;

the waste material that the cutting produced drops to collect in storehouse 51 through manual operation, and when linear motor 32 control shell 33 moved to the edge, shell 33 can extrude cylinder depression bar 56, makes pneumatic rod four 57 drive stripper plate 53 clockwise rotation, extrudees and compresses the waste material in collecting storehouse 51 through stripper plate 53, not only promotes the collection quantity of collecting storehouse 51, and the waste material after the compression is convenient subsequent collection and processing moreover.

The foregoing is only a preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art, who is within the scope of the present application, should make equivalent substitutions or modifications according to the technical scheme of the present application and the inventive concept thereof, and should be covered by the scope of the present application.

Claims (2)

1. Rectangular steel pipe processingequipment with rated depth cutting function, including base main part (1), its characterized in that: the novel cutting device comprises a base body (1), wherein a fixer (2) is fixed on the left side of the upper surface of the base body (1), a cutting device (3) is fixed on the top end of the base body (1), the cutting device (3) comprises a bracket rod (31) and a linear motor (32), the two bracket rods (31) are respectively fixed on two sides of the base body (1), the linear motor (32) is fixed on the top ends of the two bracket rods (31), a shell (33) is fixed at the bottom moving shaft of the linear motor (32), a first cutting machine (34) and a second cutting machine (35) are respectively and slidably connected on the left side and the right side of the shell (33), a bilateral elastic telescopic rod (36) is rotatably connected inside the shell (33), and the left side of the elastic telescopic rod (36) is rotatably connected with the first cutting machine (34), and the right side of the bilateral elastic telescopic rod (36) is rotatably connected with the second cutting machine (35).

One ends of the two support rods (31) which are opposite are fixed with triangular inserting rods (37), the two triangular inserting rods (37) are positioned at the same height, the triangular inserting rods (37) on the left side are close to the second cutting machine (35), and the triangular inserting rods (37) on the right side are close to the first cutting machine (34);

two penetrating openings are formed in the front end and the back surface of the shell (33), and magnetic attraction stones are fixed at the top end and the bottom of the shell (33);

the folding device comprises a folding plate (41), a vertical rod (42) and limiting plates (43), wherein the vertical rod (42) is fixed inside the base body (1), the folding plate (41) is rotationally connected to the front end of the vertical rod (42), the rotating plate (44) is rotationally connected to the upper surface of the folding plate (41), a linkage device (45) is arranged inside the folding plate (41), a colloid sucker (46) is fixedly embedded in the left side of a top plate of the folding plate (41), piston rods (47) are slidably connected to the inner pistons of the colloid sucker (46), two limiting plates (43) are arranged between the two limiting plates (43), an air pressure bin I (48) is fixed to the top end of each limiting plate (43), an air pressure rod I is slidably connected to one end of each air pressure bin I (48), the air pressure rod I is fixed to the bottom of the folding plate (41), and the other end of each air pressure bin I (48) is communicated with the air pressure bin I (49);

the linkage device (45) comprises a pneumatic bin II (451), wherein a pneumatic rod II (452) is connected to the left side of the inside of the pneumatic bin II (451) in a sliding manner, two pneumatic rods III (454) are connected to the right side of the inside of the pneumatic bin II (451) in a sliding manner, and an air bag II (453) is fixed at one end, close to the vertical rod (42), of the inside of the pneumatic bin II (451);

an L-shaped push plate (410) is slidably connected between the two limiting plates (43), the right side of the L-shaped push plate (410) is positioned outside the base main body (1), a first elastic sheet is arranged between the right side of the L-shaped push plate (410) and the base main body (1), and the bottom of the piston rod (47) is connected with the base main body (1) through an elastic rope;

the top ends of the second pneumatic rods (452) are fixed with the rotating plate (44), and the third pneumatic rods (454) are positioned at the lower end of the inside of the colloid sucker (46);

the novel multifunctional pressure-reducing base is characterized in that a recovery device (5) is arranged at the middle end of the inside of the base main body (1), the recovery device (5) comprises a left side wall of a collecting bin (51), an extruding plate (53) is rotatably connected to the left side wall of the collecting bin through a rotary rod (52), a third air pressure bin (55) is fixed to the back of the collecting bin (51), a cylindrical pressing rod (56) is slidably connected to one end of the third air pressure bin (55), a fourth air pressure rod (57) is slidably connected to the other end of the third air pressure bin (55), and the fourth air pressure rod (57) is fixed to the extruding plate (53);

a rectangular plate (54) is fixed at the front end of the outer wall of the rotary rod (52), an inclined plate is fixed at the front end of the collecting bin (51), and a second elastic sheet is arranged between the inclined plate and the rectangular plate (54);

when the rectangular steel tube cutting device is used, firstly, the rectangular steel tube is fixed through the fixing device 2, then the first cutting machine (34) and the second cutting machine (35) are started, then the linear motor (32) is started to control the shell (33) to move horizontally, and the first cutting machine (34) is lower than the second cutting machine (35) in initial position, so that the rectangular steel tube is cut through the first cutting machine (34) in the moving process of the shell (33), when the shell (33) moves to be in contact with the front support rod (31), the triangular inserting rod (37) fixed on the front support rod (31) presses the bilateral elastic telescopic rod (36), so that the first cutting machine (34) moves obliquely upwards, meanwhile, the second cutting machine (35) moves obliquely downwards, and in the reverse moving process of the shell (33), the rectangular steel tube is cut through the second cutting machine (35), and when the shell (33) is restored to the initial state, a triangular opening is formed in the rectangular steel tube, and the uniform cutting specification is achieved;

after cutting, the air bag I (49) is extruded by moving the L-shaped push plate (410), so that gas in the air bag I enters the air pressure bin I (48), the air bag I pushes the folding plate (41) to rotate anticlockwise, the piston rod (47) is pulled to move through an elastic rope in the rotating process, negative pressure is formed in the colloid suction plate (46), the right side surface of the rectangular steel pipe is contacted with the colloid suction plate (46), after the negative pressure is formed in the colloid suction plate (46), the adsorption effect of the colloid suction plate (46) and the surface of the rectangular steel pipe can be improved, the rectangular steel pipe on the right side of a cutting opening is overturned through the folding plate (41), and then the rectangular steel pipe is connected through modes of welding and the like, meanwhile, the bending angle of the folding plate (41) cannot reach ninety degrees, after the back surface of the folding plate (41) is contacted with the vertical rod (42), the air bag II (453) is pushed through the vertical rod (42), the rotating plate (44) is pushed to rotate through the air pressure rod II (452), and meanwhile, the piston rod III (47) is pushed to move upwards, so that the adsorption effect of the colloid suction plate (46) can be relieved, and the bending angle of the rectangular steel pipe (44) can reach a vertical state through the mode; the waste material that the cutting produced drops through manual operation in collecting bin (51), when linear motor (32) control shell (33) moved to the edge, shell (33) can extrude cylinder depression bar (56), makes pneumatic lever four (57) drive stripper plate (53) clockwise rotation, extrudees and compresses the waste material of collecting in bin (51) through stripper plate (53), not only promotes the collection quantity of collecting bin (51), and the convenient subsequent collection and the processing of waste material after the compression.

2. A rectangular steel pipe machining apparatus having a rated depth cutting function according to claim 1, wherein: and a plurality of groups of extrusion blocks are arranged on one side, far away from the air compression rod IV (57), of the extrusion plate (53), and the cylindrical compression rod (56) penetrates through and is in sliding connection with the inside of the support rod (31).