CN115741812B - Tube cutting machine for slitting feeding and using method - Google Patents

Abstract

The invention discloses a tube cutting machine for slitting feeding and a use method, which are applied to the technical field of tube cutting machines.

Description

Tube cutting machine for slitting feeding and using method

Technical Field

The invention belongs to the technical field of tube cutting machines, and particularly relates to a tube cutting machine for slitting feeding and a use method thereof.

Background

According to the use scene and the working principle of the tube cutting machine, various conditions are met when the tube cutting machine is used for cutting the hose, but the tube cutting machine is not limited to the following one, when the hose is cut, the hose is firstly conveyed to the machine table and is contacted with the feeding press roller in front of the cutting structure, so that the structure can continuously convey the hose, and then the hose is cut through the reciprocating linear motion of the knife gate of the cutting structure;

and the bending degree of the hose can influence the cutting quality when cutting, if the hose is excessively bent when cutting, the hose section can be longer than the hose section that straight line sent in, and the structure of parting is not flexible enough in the prior art when the feeding is adjusted from quantity or interval, is difficult to inject the shape when the hose passes through, and if the hose surface has hole or split, damage position also can be by the section and complete material mix together, is difficult to sort.

In view of the above-mentioned two problems, we have found that it is difficult for the currently commercially available tube cutting machine to simultaneously avoid the above-mentioned problems, and even if the effect can be achieved, additional processes are required to be added, so that the effect required by us cannot be achieved, and therefore we propose a tube cutting machine which can remove the damaged portion of the hose before cutting and flexibly adjust the feeding and dividing bar structure.

Disclosure of Invention

The invention aims at the existing pipe cutting machine for feeding the materials in a splitting way and the using method, and has the advantages that damaged parts of a hose can be removed before cutting, and the feeding and splitting structure can be flexibly adjusted.

The technical aim of the invention is realized by the following technical scheme: the pipe cutting machine comprises a working machine table and a waste discharging system, wherein the front side and the rear side of the top of the working machine table are both bolted with first electric sliding rails, the inner side of each first electric sliding rail is connected with an adjusting bracket in a sliding manner, the bottom of each adjusting bracket is provided with a splitting assembly, the top of the working machine table is bolted with a secondary cutting assembly, and the right side of the working machine table is bolted with a pipe cutting structure;

the slitting assembly comprises a height-adjusting screw, the outer side of the height-adjusting screw is in threaded connection with an adjusting bracket, the bottom of the height-adjusting screw is rotationally connected with a cross rod, an adjusting rail is bolted to the outer side of the cross rod, a matching baffle is arranged at the bottom of the left side adjusting rail, and an assembling baffle is arranged at the bottom of the right side adjusting rail.

Adopt above-mentioned technical scheme, through setting up workstation cooperation cut out the pipe structure, be used for conveying and cutting hose material, the exhaust system of setting can be used for controlling and reject the damage hose position, the adjustment support of setting can be convenient for support the structure, first electronic slide rail can be convenient for carry out position adjustment to adjustment support and structure of installing above that, can be convenient for carry out the slitting feed to hose material through setting up the slitting subassembly, the vice subassembly of cutting that sets up is used for cooperating exhaust system and carries out the operation, the height of adjustment track can be convenient for to the screw rod cooperation horizontal pole of adjusting that sets up, in order to guarantee can laminate at the top of being processed the hose, inject its position, the cooperation baffle of setting cooperates with the equipment baffle, be used for spacing the both sides of hose material, can make hose material cut out when guaranteeing that its length of cutting is relatively neat after the adjustment.

The invention is further provided with: the inside sliding connection of adjustment track has the sliding mounting piece, the inboard threaded connection of sliding mounting piece has first fastening screw, spacing spout has been seted up at the top of workstation, the inboard and the adjustment support sliding connection of spacing spout, the bottom bolt of adjustment support has spacing telescopic link, the bottom and the horizontal pole bolt of spacing telescopic link.

By adopting the technical scheme, through setting up the sliding mounting block, can be nimble according to use the scene to select corresponding quantity to put into the adjustment track to can be convenient for adjust spaced length, screw first fastening screw in the inside of sliding mounting block can be in the position of the inside fixed sliding mounting block of adjustment track, the spacing telescopic link of setting can carry out spacingly to the vertical movement of horizontal pole, avoids it to take place to rotate.

The invention is further provided with: the inner wall of the first fastening screw is provided with a through hole, the inner side of the through hole is connected with a limiting slide rod in a sliding mode, the outer side of the limiting slide rod is provided with a compression spring, the bottom of the left limiting slide rod is bolted with a matched baffle, the bottom of the right limiting slide rod is bolted with an assembling baffle, and the inner side of the matched baffle is connected with the assembling baffle in a sliding mode.

By adopting the technical scheme, through the arrangement of the through holes, the matched limit sliding rod can conveniently install the matched baffle plate or the assembled baffle plate at the bottom of the sliding installation block, and the arranged compression spring can conveniently control the matched baffle plate or the assembled baffle plate at the bottom of the sliding installation block and resist against the surface of the workbench.

The invention is further provided with: the surface joint of left side limit slide bar has the sliding sleeve, the outside bolt of sliding sleeve has the shell, the inboard sliding connection of shell has the extension board, one side bolt that the extension board kept away from the sliding sleeve has detection ultrasonic probe, the inboard threaded connection of shell has the second fastening screw, one side that the second fastening screw is close to the extension board and extension board in close contact.

By adopting the technical scheme, through setting up the sliding sleeve, can be convenient for install the structure in the outside of spacing slide bar, the extension board of setting can be convenient for slide in the inside of shell, and the detection ultrasonic probe of setting can be convenient for detect the incomplete surface that detects through the hose, and the second fastening screw of setting can be convenient for fix the inside extension board's of shell position.

The invention is further provided with: the auxiliary cutting assembly comprises a top stand, a second electric sliding rail is bolted to the inner side of the top stand, a connecting sliding block is connected to the inner side of the second electric sliding rail in a sliding mode, a first electric telescopic rod is bolted to the bottom of the connecting sliding block, and a cutting assembly is bolted to the bottom of the first electric telescopic rod.

By adopting the technical scheme, through setting up the top grudging post, can be convenient for adorn the electronic slide rail of second, the connection slider of setting is in the inboard removal of electronic slide rail, can be convenient for remove simultaneously the position of connecting the first electronic telescopic link of slider bottom and cutting the subassembly, and the first electronic telescopic link of setting is used for driving and cuts the subassembly whereabouts to be convenient for intercept damaged part.

The invention is further provided with: the cutting assembly comprises a cutter rest, a blade is inserted into the inner side of the cutter rest, an installation screw is connected with the inner side of the cutter rest in a threaded mode, and the outer side of the installation screw penetrates through the blade.

By adopting the technical scheme, the cutter rest is arranged for being matched with the installation screw rod to install the blade, and the blade can be conveniently replaced.

The invention is further provided with: the bottom bolt of knife rest has the electronic telescopic link of second, the flexible end bolt of the electronic telescopic link of second has the supporting shoe, the stiff end of supporting shoe and the electronic telescopic link of second all bolt has the puncture awl.

By adopting the technical scheme, through setting up second electric telescopic handle cooperation supporting shoe, can be convenient for install two puncture awls respectively, first electric telescopic handle drives the puncture awl whereabouts and prick in the hose when using, and second electric telescopic handle stretches in order to apply reverse power to pricking the part to fix it, and then first electric telescopic handle is retracted and is moved out operating position, and second electric telescopic handle is retracted and can be made the hose of excision part drop.

The invention is further provided with: the waste discharge system comprises a central control module, wherein the input end of the central control module is electrically connected with a speed measuring module in a unidirectional manner, the input end of the central control module is electrically connected with a flaw detection module in a unidirectional manner, the output end of the central control module is electrically connected with a displacement module in a unidirectional manner, the output end of the central control module is electrically connected with a cutting module in a unidirectional manner, and the output end of the central control module is electrically connected with a waste removing module in a unidirectional manner.

By adopting the technical scheme, through setting up the module cooperation of testing a flaw module that tests the speed, can be convenient for detect the damage position of the speed and hose that pass through of hose, the displacement module of setting is used for adjusting the structure position, makes it be located the material top that needs to cut, and the module of cutting that sets up is used for cutting the damage part, and the waste material of setting is rejected the module and is used for rejecting the outside of structure with the pipe section after the excision.

The invention is further provided with: the speed measuring module is a speed measuring sensor, the flaw detecting module is an ultrasonic probe, the displacement module is a second electric sliding rail, the cutting module is a first electric telescopic rod, the waste removing module is a second electric telescopic rod, and the inner side of the front side of the top vertical frame is connected with a connecting groove in a clamping mode.

By adopting the technical scheme, through setting up the speed sensor, with cut out the blowing roller contact of pipe structure to detect the conveying speed to the material, the damage that the hose can effectively be surveyed to the ultrasonic probe of module of detecting a flaw, the second electronic slide rail can be convenient for carry out the control that removes to the bottom structure as displacement module, the second electronic telescopic link of setting is used the waste material to reject the module and can use the blade to intercept hose section when the extension of flexible end.

The application method of the tube cutting machine for slitting feeding comprises the following steps:

s1, respectively starting two electric sliding rails to enable an adjusting bracket to reach a position convenient for slitting, then adjusting the position of a height adjusting screw, putting a sliding mounting block into an adjusting rail according to the number of hoses cut simultaneously as required, screwing a first fastening screw into the sliding mounting block after adjusting the distance, fixing the position of the sliding mounting block in the adjusting rail, and adjusting and rotating the height adjusting screw according to the diameter of the hose to be cut to enable a cross rod and the adjusting rail to reach a position convenient for working;

s2, placing the hose on a workbench, penetrating through the bottom of the slitting assembly, and continuously conveying and cutting the hose through a pipe cutting structure;

s3, when the ultrasonic probe serving as the flaw detection module detects that the surface of the hose is damaged, the speed measurement module detects the transmission speed at that time, the position of the connecting sliding block in the second electric sliding rail is adjusted, the first electric telescopic rod stretches and cuts off the damaged pipe section through the cutting-off assembly, and the hose is taken out and put into the receiving groove through the puncture cone and the second electric telescopic rod.

In summary, the invention has the following beneficial effects:

through setting up workstation cooperation and cut out the pipe structure for convey and cut hose material, the waste discharge system of setting can be used for controlling and reject the damage hose position, the vice cutting assembly that sets up is used for cooperating waste discharge system and carries out the operation, the adjustment support that sets up can be convenient for support the structure, first electronic slide rail can be convenient for carry out the position adjustment to adjustment support and install the structure above that, can be convenient for carry out the slitting feed to hose material through setting up the slitting subassembly, the height of adjustment rail is convenient for be adjusted to the screw rod that adjusts that sets up, in order to guarantee can laminate at the top of being processed hose, prescribe a limit to its position, the cooperation baffle of setting cooperates with the equipment baffle for carry out spacingly to the both sides of hose material, can make hose material cut out when guaranteeing that its length of cutting is more neat after the adjustment.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

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

FIG. 3 is a schematic view of an adjustment track structure of the present invention;

FIG. 4 is a schematic view of an extension board structure of the present invention;

FIG. 5 is a schematic view of the outer shell structure of the present invention;

FIG. 6 is a schematic view of the mating baffle structure of the present invention;

FIG. 7 is a schematic view of the secondary cutting assembly of the present invention;

FIG. 8 is a schematic view of a truncated assembly of the present invention;

FIG. 9 is a schematic view of the tool post structure of the present invention;

FIG. 10 is an enlarged schematic view of the invention at A in FIG. 2;

FIG. 11 is a schematic diagram of a waste discharge system of the present invention;

FIG. 12 is a flow chart of a method of use of the present invention;

fig. 13 is an enlarged partial schematic view of a mating baffle of the present invention.

Reference numerals: 1. a working machine; 2. a first electric slide rail; 3. adjusting the bracket; 4. a slitting assembly; 401. height-adjusting screw rods; 402. a cross bar; 403. adjusting the track; 404. a baffle is matched; 405. assembling a baffle; 5. a secondary cutting assembly; 501. a top stand; 502. the second electric sliding rail; 503. the connecting slide block; 504. a first electric telescopic rod; 505. a truncation assembly; 5051. a tool holder; 5052. a blade; 5053. installing a screw; 6. a tube cutting structure; 7. a waste discharge system; 701. a central control module; 702. a speed measuring module; 703. a flaw detection module; 704. a displacement module; 705. a cutting module; 706. a waste material removing module; 8. a sliding mounting block; 9. a first fastening screw; 10. limiting sliding grooves; 11. a limiting telescopic rod; 12. a through hole; 13. a limit slide bar; 14. a compression spring; 15. a sliding sleeve; 16. an outer shell; 17. an extension plate; 18. an ultrasonic probe; 19. a second fastening screw; 20. a puncture cone; 21. a receiving groove; 22. a second electric telescopic rod; 23. and a supporting block.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example 1:

referring to fig. 1-6, a tube cutting machine for slitting feeding comprises a workbench 1, wherein a first electric sliding rail 2 is bolted to the front side and the rear side of the top of the workbench 1, an adjusting bracket 3 is connected to the inner side of the first electric sliding rail 2 in a sliding manner, and a slitting component 4 is arranged at the bottom of the adjusting bracket 3;

the slitting assembly 4 comprises a heightening screw 401, the outer side of the heightening screw 401 is in threaded connection with the adjusting bracket 3, the bottom of the heightening screw 401 is rotationally connected with a cross rod 402, an adjusting rail 403 is bolted to the outer side of the cross rod 402, a matching baffle 404 is installed at the bottom of the left adjusting rail 403, and an assembling baffle 405 is installed at the bottom of the right adjusting rail 403.

The adjustment support 3 that sets up can be convenient for support the structure, first electronic slide rail 2 can be convenient for adjust support 3 and install the structure above that and carry out position adjustment, can be convenient for carry out the slitting feed to hose material through setting up slitting subassembly 4, the vice cutting assembly 5 that sets up is used for cooperating waste discharge system 7 and carries out the operation, the height of adjustment track 403 can be convenient for be adjusted to the screw rod 401 that sets up cooperation horizontal pole 402, in order to guarantee can laminate at the top of being processed the hose, inject its position, the cooperation of cooperation baffle 404 and the equipment baffle 405 that sets up is used for spacing the both sides of hose material, can make the hose material cut in the time of guaranteeing that its length of cutting is relatively neat after the adjustment.

As shown in fig. 3, the inner side of the adjusting rail 403 is slidably connected with a sliding mounting block 8, the inner side of the sliding mounting block 8 is in threaded connection with a first fastening screw 9, a limiting chute 10 is formed in the top of the workbench 1, the inner side of the limiting chute 10 is slidably connected with the adjusting bracket 3, a limiting telescopic rod 11 is bolted to the bottom of the adjusting bracket 3, the bottom of the limiting telescopic rod 11 is bolted to a cross rod 402, the sliding mounting block 8 is arranged, the corresponding number of the sliding mounting blocks can be flexibly selected according to the use situation, the sliding mounting block 8 can be placed in the adjusting rail 403, the length of an interval can be conveniently adjusted, the first fastening screw 9 is screwed in the sliding mounting block 8, the position of the sliding mounting block 8 can be fixed in the adjusting rail 403, and the set limiting telescopic rod 11 can limit the vertical movement of the cross rod 402, so that the sliding mounting block is prevented from rotating.

As shown in fig. 3 and 6, the inner wall of the first fastening screw 9 is provided with a through hole 12, the inner side of the through hole 12 is slidably connected with a limit slide bar 13, the outer side of the limit slide bar 13 is provided with a compression spring 14, the bottom of the left limit slide bar 13 is bolted with a matching baffle 404, the bottom of the right limit slide bar 13 is bolted with an assembling baffle 405, the inner side of the matching baffle 404 is slidably connected with the assembling baffle 405, the matching limit slide bar 13 can facilitate the matching baffle 404 or the assembling baffle 405 to be mounted at the bottom of the sliding mounting block 8 by arranging the through hole 12, and the arranged compression spring 14 can facilitate the control of the position of the matching baffle 404 or the assembling baffle 405 at the bottom of the sliding mounting block 8 and can press the matching baffle 404 or the assembling baffle 405 against the surface of the workbench 1.

The use process is briefly described: the first electric slide rail 2 and the second electric slide rail 502 are started respectively to adjust the position of the bracket 3, then the height adjusting screw 401 is rotated to adjust the vertical height of the cross rod 402, the number of hoses cut simultaneously is adjusted according to the requirement, the sliding mounting block 8 is placed in the adjusting rail 403 and the distance is adjusted, then the first fastening screw 9 is screwed in the sliding mounting block 8 to fix the hoses in the adjusting rail 403, the hoses are placed on the workbench 1 and pass through the bottom of the slitting assembly 4, continuous pipe conveying and cutting are carried out through the pipe cutting structure 6, the matched limit slide bar 13 passes through the sliding mounting block 8 through the through holes 12, the matched baffle 404 or the assembled baffle 405 is mounted at the bottom of different sliding mounting blocks 8, specifically, the matched baffle 404 or the assembled baffle 405 is arranged at the bottom of the sliding mounting block 8, the top of the matched limit slide bar 13 passes through the through holes 12 in the sliding mounting block 8 and the first fastening screw 9 on the inner side of the sliding mounting block 8, the matched baffle 404 and the assembled baffle 405 are combined, the set compression spring 14 can be used for controlling the matched baffle 404 and the assembled baffle 405 to be conveniently inserted into the bottom of the workbench 1 at the bottom of the side of the sliding mounting block 8, and the bottom of the sliding mounting block 405 is convenient to be matched with the bottom of the workbench according to the requirements, and the bottom of the machine is convenient to be matched with the bottom of the baffle 405, and the bottom of the machine is set up on the side surface of the side of the machine has a flexible machine frame 404.

Example 2:

referring to fig. 1-12, a pipe cutting machine for slitting feeding comprises a workbench 1 and a waste discharging system 7, wherein an auxiliary cutting assembly 5 is bolted to the top of the workbench 1, the workbench 1 is matched with a pipe cutting structure 6 and used for conveying and cutting hose materials, the waste discharging system 7 can be used for controlling the position of a damaged hose to be removed, and the auxiliary cutting assembly 5 is used for being matched with the waste discharging system 7 to operate.

As shown in fig. 5, the sliding sleeve 15 is clamped on the surface of the left limit sliding rod 13, the outer side of the sliding sleeve 15 is bolted with the outer shell 16, the inner side of the outer shell 16 is slidably connected with the extension plate 17, one side, far away from the sliding sleeve 15, of the extension plate 17 is bolted with the detection ultrasonic probe 18, the inner side of the outer shell 16 is in threaded connection with the second fastening screw 19, one side, close to the extension plate 17, of the second fastening screw 19 is in close contact with the extension plate 17, the sliding sleeve 15 is arranged, the structure can be conveniently arranged on the outer side of the limit sliding rod 13, the arranged extension plate 17 can conveniently slide in the outer shell 16, the arranged detection ultrasonic probe 18 can conveniently detect surface defects of a hose, and the arranged second fastening screw 19 can conveniently fix the position of the extension plate 17 in the outer shell 16.

As shown in fig. 7, the auxiliary cutting assembly 5 includes a top stand 501, a second electric sliding rail 502 is bolted to the inner side of the top stand 501, a connecting sliding block 503 is slidably connected to the inner side of the second electric sliding rail 502, a first electric telescopic rod 504 is bolted to the bottom of the connecting sliding block 503, a cutting assembly 505 is bolted to the bottom of the first electric telescopic rod 504, the second electric sliding rail 502 can be conveniently assembled and supported by setting the top stand 501, so that the second electric sliding rail 502 can be located at the top of the working machine 1 for operation, the connecting sliding block 503 is arranged to move on the inner side of the electric sliding rail, the positions of the first electric telescopic rod 504 and the cutting assembly 505 at the bottom of the connecting sliding block 503 can be conveniently moved simultaneously, and the set first electric telescopic rod 504 is used for driving the cutting assembly 505 to fall, so as to cut out damaged parts.

As shown in fig. 8, the cutoff assembly 505 includes a blade holder 5051, a blade 5052 is inserted into the inner side of the blade holder 5051, a mounting screw 5053 is screwed into the inner side of the blade holder 5051, the outer side of the mounting screw 5053 penetrates through the blade 5052, the blade 5052 is mounted by being matched with the mounting screw 5051, and the blade 5052 can be replaced conveniently.

As shown in fig. 9, the bottom of the tool post 5051 is bolted with a second electric telescopic rod 22, the telescopic end of the second electric telescopic rod 22 is bolted with a supporting block 23, the supporting block 23 and the fixed end of the second electric telescopic rod 22 are both bolted with puncture cones 20, by arranging the second electric telescopic rod 22 to be matched with the supporting block 23, the two puncture cones 20 can be conveniently and respectively installed, when in use, the first electric telescopic rod 504 drives the puncture cones 20 to fall down and be pricked into a hose, the second electric telescopic rod 22 stretches, so that the puncture cones 20 at the bottom of the telescopic end are far away from the puncture cones 20 at the bottom of the fixed end, deformation is caused, and because of elastic hoops on the outer sides of the two puncture cones 20, then the first electric telescopic rod 504 retracts and moves out of a working position, and the second electric telescopic rod 22 retracts to enable the hose of a cut part to fall down.

As shown in fig. 11, the waste discharging system 7 includes a central control module 701, the input end of the central control module 701 is unidirectionally and electrically connected with a speed measuring module 702, the input end of the central control module 701 is unidirectionally and electrically connected with a flaw detecting module 703, the output end of the central control module 701 is unidirectionally and electrically connected with a displacement module 704, the output end of the central control module 701 is unidirectionally and electrically connected with a cutting module 705, the output end of the central control module 701 is unidirectionally and electrically connected with a waste removing module 706, the speed measuring module 702 is matched with the flaw detecting module 703 to facilitate detection of the passing speed of a hose and the damage position of the hose, the displacement module 704 is used for adjusting the structure position to be located above a material to be cut, the cutting module 705 is used for cutting the damaged portion, and the waste removing module 706 is used for removing the cut pipe section to the outside of the structure.

As shown in fig. 11, the speed measuring module 702 is a speed measuring sensor, the flaw detecting module 703 is an ultrasonic probe 18, the displacement module 704 is a second electric sliding rail 502, the cutting module 705 is a first electric telescopic rod 504, the waste material removing module 706 is a second electric telescopic rod 22, the inner side of the front side of the top stand 501 is clamped with the access groove 21, the speed measuring sensor is arranged to be in contact with a discharging roller of the cutting tube structure 6 so as to detect the conveying speed of materials, the ultrasonic probe 18 serving as the flaw detecting module 703 can effectively detect the damage of a hose, the second electric sliding rail 502 serves as the displacement module 704 to facilitate the control of the movement of the bottom structure, and the arranged second electric telescopic rod 22 serves as the waste material removing module 706 to cut out a hose section by using a blade 5052 when the telescopic end stretches.

The use process is briefly described: when the ultrasonic probe 18 serving as the flaw detection module 703 in the waste discharging system 7 detects the damage of the surface of the hose, the speed measurement module 702 detects the transmission speed at that time, the position of the connecting slide block 503 in the second electric slide rail 502 is adjusted, the first electric telescopic rod 504 is extended and the damaged pipe section is cut off through the cutting-off assembly 505, the hose is taken out and put into the receiving groove 21 through the puncture cone 20 and the second electric telescopic rod 22, the ultrasonic probe 18 serving as the flaw detection module 703 can effectively detect the damage of the hose, the second electric slide rail 502 serving as the displacement module 704 can facilitate the control of the movement of the bottom structure, the second electric telescopic rod 22 serving as the waste removal module 706 can intercept the hose section by using the blade 5052 when the telescopic end is extended, and the waste removal module 706 discharges the structure, the first electric telescopic rod 504 drives the puncture cone 20 to fall and is pricked into the hose, the second electric telescopic rod 22 is extended to apply reverse force to the pricking part to fix the same, then the first electric telescopic rod 504 is retracted and moves to the upper part of the receiving groove 21, the second electric telescopic rod 22 can retract to enable the retracting part to fall into the receiving groove 21, and the receiving groove 21 can be retracted by the retracting part is retracted by the waste removal part.

The present embodiment is only for explanation of the present invention and is not to be construed as limiting the present invention, and modifications to the present embodiment, which may not creatively contribute to the present invention as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present invention.

Claims (10)

1. The utility model provides a cut-parts machine of slitting feed, includes workstation (1) and exhaust system (7), its characterized in that: the front side and the rear side of the top of the workbench (1) are both bolted with a first electric sliding rail (2), the inner side of the first electric sliding rail (2) is connected with an adjusting bracket (3) in a sliding manner, the bottom of the adjusting bracket (3) is provided with a slitting assembly (4), the top of the workbench (1) is bolted with a secondary cutting assembly (5), and the right side of the workbench (1) is bolted with a cutting pipe structure (6);

the slitting assembly (4) comprises a heightening screw rod (401), the outer side of the heightening screw rod (401) is in threaded connection with an adjusting support (3), the bottom of the heightening screw rod (401) is rotationally connected with a cross rod (402), an adjusting rail (403) is bolted to the outer side of the cross rod (402), a matching baffle (404) is arranged at the bottom of the left adjusting rail (403), and an assembling baffle (405) is arranged at the bottom of the right adjusting rail (403).

2. A slitting feed tube cutter according to claim 1, wherein: the inside sliding connection of adjustment track (403) has sliding mounting piece (8), the inboard threaded connection of sliding mounting piece (8) has first fastening screw (9), spacing spout (10) have been seted up at the top of workstation (1), the inboard and the adjustment support (3) sliding connection of spacing spout (10), the bottom bolt of adjustment support (3) has spacing telescopic link (11), the bottom and the horizontal pole (402) bolt of spacing telescopic link (11).

3. A slitting feed tube cutter according to claim 2, wherein: the inner wall of first fastening screw (9) has seted up through-hole (12), the inboard sliding connection of through-hole (12) has spacing slide bar (13), the outside of spacing slide bar (13) is provided with compression spring (14), and the bottom of left side limit slide bar (13) is bolted with cooperation baffle (404), and the bottom of right side limit slide bar (13) is bolted with equipment baffle (405), and the inboard and the equipment baffle (405) sliding connection of cooperation baffle (404).

4. A slitting feed tube cutter according to claim 3, wherein: the surface joint of left side limit slide bar (13) has sliding sleeve (15), the outside bolt of sliding sleeve (15) has shell (16), the inboard sliding connection of shell (16) has extension board (17), one side bolt that extension board (17) kept away from sliding sleeve (15) has detection ultrasonic probe (18), the inboard threaded connection of shell (16) has second fastening screw (19), one side that second fastening screw (19) are close to extension board (17) and extension board (17) in close contact.

5. A slitting feed tube cutter according to claim 4, wherein: the auxiliary cutting assembly (5) comprises a top vertical frame (501), a second electric sliding rail (502) is bolted to the inner side of the top vertical frame (501), a connecting sliding block (503) is connected to the inner side of the second electric sliding rail (502) in a sliding mode, a first electric telescopic rod (504) is bolted to the bottom of the connecting sliding block (503), and a cutting assembly (505) is bolted to the bottom of the first electric telescopic rod (504).

6. A slitting feed tube cutter according to claim 5, wherein: the truncation assembly (505) comprises a knife rest (5051), a blade (5052) is inserted into the inner side of the knife rest (5051), a mounting screw (5053) is connected to the inner side of the knife rest (5051) in a threaded manner, and the outer side of the mounting screw (5053) penetrates through the blade (5052).

7. The slitter of claim 6, wherein: the bottom bolt of knife rest (5051) has second electric telescopic handle (22), the flexible end bolt of second electric telescopic handle (22) has supporting shoe (23), the stiff end bolt of supporting shoe (23) and second electric telescopic handle (22) has puncture awl (20).

8. A slitting feed tube cutter according to claim 7, wherein: the waste discharge system (7) comprises a central control module (701), wherein the input end of the central control module (701) is electrically connected with a speed measuring module (702) in a unidirectional manner, the input end of the central control module (701) is electrically connected with a flaw detection module (703) in a unidirectional manner, the output end of the central control module (701) is electrically connected with a displacement module (704) in a unidirectional manner, the output end of the central control module (701) is electrically connected with a cutting module (705) in a unidirectional manner, and the output end of the central control module (701) is electrically connected with a waste removing module (706) in a unidirectional manner.

9. A slitting feed tube cutter according to claim 8, wherein: the speed measuring module (702) is a speed measuring sensor, the flaw detecting module (703) is an ultrasonic probe (18), the displacement module (704) is a second electric sliding rail (502), the cutting module (705) is a first electric telescopic rod (504), the waste removing module (706) is a second electric telescopic rod (22), and the inner side of the front side of the top stand (501) is clamped with the access groove (21).

10. A slitting feed tube cutter according to claim 9, wherein: the application method of the tube cutting machine for slitting feeding comprises the following steps:

s1, respectively starting two electric sliding rails to enable an adjusting bracket (3) to reach a position convenient for slitting, then adjusting the position of a height adjusting screw (401), putting a sliding mounting block (8) into an adjusting rail (403) according to the number of hoses required to be cut simultaneously, screwing a first fastening screw (9) into the sliding mounting block (8) after adjusting the space, fixing the position of the sliding mounting block (8) in the adjusting rail (403), and adjusting and rotating the height adjusting screw (401) according to the diameter of the hose required to be cut to enable a cross rod (402) and the adjusting rail (403) to reach a position convenient for working;

s2, placing the hose on a workbench (1) and penetrating through the bottom of the slitting assembly (4), and continuously conveying and cutting the hose through a pipe cutting structure (6);

s3, when an ultrasonic probe (18) serving as a flaw detection module (703) detects damage to the surface of a hose, a speed measurement module (702) detects the transmission speed at that time, the position of a connecting sliding block (503) in a second electric sliding rail (502) is adjusted, a first electric telescopic rod (504) stretches and cuts off the damaged hose section through a cutting-off assembly (505), and the hose is taken out and put into a receiving groove (21) through a puncture cone (20) and a second electric telescopic rod (22).