CN112974990A

CN112974990A - Sawtooth machining device for hard alloy saw blade and implementation method thereof

Info

Publication number: CN112974990A
Application number: CN202110125629.9A
Authority: CN
Inventors: 吉胜杰; 黄秀珠
Original assignee: Hebei Bingchong Environmental Protection Technology Co ltd
Current assignee: Xiamen Tongnai Tungsten Steel Co ltd
Priority date: 2021-01-29
Filing date: 2021-01-29
Publication date: 2021-06-18
Anticipated expiration: 2041-01-29
Also published as: CN112974990B

Abstract

The invention discloses a sawtooth processing device for a hard alloy saw blade, which comprises a supporting mechanism, a connecting mechanism and an end body mechanism, wherein the supporting mechanism is arranged at one end of the connecting mechanism, the end body mechanism is arranged at the other end of the connecting mechanism, after the tooth punching is finished, a transverse block slides in a transverse groove through an electric push rod, and meanwhile, an electromagnetic cylinder is connected with a power supply to be accompanied with magnetism, so that scraps and fragments on the surface of a placing plate can be adsorbed and cleaned, and the scraps and residues on the surface of the placing plate can be cleaned more cleanly by utilizing a magnetic absorption type cleaning mode. The invention also discloses an implementation method for the hard alloy saw blade, two saw blades with different tooth pitches can be processed by adopting the two tooth punching modes, two saw blades with different specifications can be produced by utilizing the same processing device, the diversity of the whole functions is improved, the working strength and the working complexity of workers and people are indirectly reduced, and the cost is saved.

Description

Sawtooth machining device for hard alloy saw blade and implementation method thereof

Technical Field

The invention relates to the technical field of saw blade processing equipment, in particular to a sawtooth processing device for a hard alloy saw blade and an implementation method thereof.

Background

The saw blade is a steel sheet bar with tooth edges, the tooth edges are the main parts of the saw blade, the saw blade is divided into a bimetal saw blade, a carbonized sand saw blade, a high-speed steel saw blade and a carbon steel saw blade, the bimetal saw blade is formed by welding two metals, specifically, the saw blade consists of a carbon steel saw body and high-speed steel saw teeth, and is used for cutting pipe fittings, solid bodies, wood, plastics and all machinable metals. Compared with a single metal saw blade, the high-speed steel saw blade has higher heat resistance and abrasion resistance, longer service life and strong flexibility, can effectively avoid fracture and damage in the cutting process, is used for cutting glass, hardened steel, stranded optical fibers and ceramic tiles, has super-strong heat resistance and abrasion resistance, can cut all other saw blades or substances which can not be cut by the saw blades, is used for cutting pipe fittings, solid bodies, wood, plastics and all machinable metals, has higher hardness than other high-speed steel and strong flexibility, is very suitable for being matched with a saw frame with small tension, does not have hardening in the center of the back of the saw band, avoids fracture in the cutting process, is used for cutting pipe fittings, solid bodies, wood, plastics and all machinable metals, has low cost and is more universal, and needs to be subjected to tooth punching treatment when the saw blade is processed.

Present saw blade device of gulleting is comparatively simple and easy at the course of the work to concrete fixed, leads to the saw blade in the course of working, takes place the aversion phenomenon easily, and the article of scrapping of production is more, and simultaneously, every solitary gulleting device can only carry out the saw blade of a specification and gulleting, and the function is single.

Aiming at the problems, the prior device is improved, and the sawtooth processing device for the hard alloy saw blade and the implementation method thereof are provided.

Disclosure of Invention

The invention aims to provide a sawtooth processing device for a hard alloy saw blade and an implementation method thereof, the hard alloy saw blade is placed into a clamping mechanism, sliding blocks are close to each other through a telescopic rod, so that an extrusion block extrudes the hard alloy saw blade, meanwhile, a compression backing ring on one side of the extrusion block deforms, the hard alloy saw blade is enabled to be sunk into the compression backing ring, so that the hard alloy saw blade is difficult to shift, a hydraulic rod is utilized to enable a working box to generate downward displacement, a primary cutting knife is used for punching the hard alloy saw blade, or a secondary cutting knife is used for punching the hard alloy saw blade, the tooth pitch of the primary cutting knife is 0.9mm, the tooth pitch of the secondary cutting knife is 1.8mm, two saw blades with different tooth pitches can be processed, and the problem in the background technology is solved.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a sawtooth processingequipment for carbide saw blade, including supporting mechanism, coupling mechanism and end body mechanism, coupling mechanism's one end is provided with supporting mechanism, coupling mechanism's the other end is provided with end body mechanism, supporting mechanism includes the under casing and places the board, the upper end of under casing is provided with places the board, the upper surface of under casing is provided with coupling mechanism, coupling mechanism includes the backplate, connecting bolt and connecting lug, the one end fixed mounting of backplate has connecting bolt, the other end fixed mounting of backplate has connecting lug, the upper end of backplate is provided with end body mechanism, end body mechanism includes the end plate, hydraulic pump and work box, one side of end plate is provided with the hydraulic pump, the opposite side of end plate is provided with the work box.

Further, the under casing includes the transverse groove, the crossband, the lifter, electric putter, the horizontal pole, spread groove and T type groove, the both sides of under casing all are provided with the transverse groove, the inside of transverse groove is provided with the crossband, fixed mounting has the lifter on the surface of crossband, the inside of transverse groove is provided with electric putter, electric putter's one end is connected with the crossband, electric putter's the other end is connected with the transverse groove inner wall, one side of lifter is provided with the horizontal pole, the electromagnetism section of thick bamboo has been cup jointed on the surface of horizontal pole, spread groove and T type groove have been seted up to the upper surface of under casing, the under casing passes through spread groove and backplate swing joint.

Further, the placing plate comprises a workbench, a fixing rod, a T-shaped block and a clamping mechanism, the T-shaped block is fixedly mounted at the two ends of the fixing rod, the workbench is arranged at the upper end of the T-shaped block, the clamping mechanism is arranged at the upper end of the workbench, a table groove is formed in the upper surface of the workbench, and the clamping mechanism is movably connected with the workbench through the table groove.

Further, clamping mechanism includes telescopic link, sliding block and extrusion piece, and the equal fixed mounting in both ends of telescopic link has the sliding block, and the last fixed surface of sliding block installs the extrusion piece, and the sliding block passes through platform groove and workstation swing joint.

Furthermore, one side of the extrusion block is provided with a compression backing ring and a magnetic block, the compression backing ring is arranged around the magnetic block and is a component made of rubber material, and the extrusion block is magnetically connected with the saw blade through the magnetic block.

Further, one side of end plate is provided with connecting hole and end slot, and the inside in end slot is provided with the hydraulic stem, and the end plate passes through the hydraulic stem to be connected with the work box, and the one end of hydraulic stem is connected with the hydraulic pump, and the slotted hole has been seted up to one side of work box, and the inside of slotted hole is provided with the power piece, and the lower extreme of power piece is provided with rotating base, and one side fixed mounting of work box has the square slide bar, and power piece and rotating base all with work box swing joint, and the work box is connected with the backplate through the square slide bar.

Furthermore, the inside of work box is provided with two power pieces, is provided with the one-level cutting knife on the surface of one of them power piece, is provided with the second grade cutting knife on the surface of another power piece, and one-level cutting knife and second grade cutting knife all with power piece swing joint.

Furthermore, the end plate is movably connected with the back plate through the connecting hole, the back plate is movably connected with the bottom box through the connecting lug, a back groove is formed in the outer surface of the back plate, a connecting hinge is fixedly mounted on one side of the back plate, and the back plate is connected with the bottom box through the connecting hinge.

The invention provides another technical scheme that: the implementation method of the sawtooth processing device for the hard alloy saw blade comprises the following steps:

s1: the end plate is movably connected with the back plate through the connecting hole, the back plate is movably connected with the bottom box through the connecting lug, and the back plate is connected with the bottom box through the connecting hinge to complete the integral assembly;

s2: placing the hard alloy saw blade into a clamping mechanism, enabling the sliding blocks to be close to each other through a telescopic rod, so that the hard alloy saw blade is extruded by the extrusion block, and meanwhile, a compression backing ring on one side of the extrusion block deforms, so that the hard alloy saw blade is sunk into the compression backing ring;

s3: the hydraulic rod is utilized to enable the working box to generate downward displacement, the hard alloy saw blade is subjected to tooth punching through the primary cutting knife, or the hard alloy saw blade is subjected to tooth punching through the secondary cutting knife, the tooth pitch of the primary cutting knife is 0.9mm, the tooth pitch of the secondary cutting knife is 1.8mm, and meanwhile, the cutting angles of the primary cutting knife and the secondary cutting knife can be adjusted through the rotating base;

s4: after finishing the gulleting, the transverse block slides in the transverse groove through the electric push rod, and meanwhile, the electromagnetic cylinder is connected with the power supply to be attached with magnetism, so that scraps and fragments on the surface of the placing plate can be completely adsorbed, and all implementation methods are finished.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention provides a sawtooth processing device for a hard alloy saw blade and an implementation method thereof.A sliding block is fixedly arranged at each end of a telescopic rod, an extrusion block is fixedly arranged on the upper surface of the sliding block, the sliding block is movably connected with a workbench through a table groove, a compression backing ring and a magnetic block are arranged at one side of the extrusion block, the compression backing ring is arranged around the magnetic block and is a component made of rubber material, the extrusion block is magnetically connected with the saw blade through the magnetic block, the hard alloy saw blade is placed into a clamping mechanism, the sliding blocks are close to each other through the telescopic rod, so that the extrusion block extrudes the hard alloy saw blade, and meanwhile, the compression backing ring at one side of the extrusion block deforms, so that the hard alloy saw blade is sunk into the compression backing ring, the fixing firmness of the clamping mechanism to the hard alloy saw blade is improved, and the displacement phenomenon is.

2. The invention provides a sawtooth processing device for a hard alloy saw blade and an implementation method thereof, wherein one side of a working box is provided with a slotted hole, two groups of power blocks are arranged inside the slotted hole, a primary cutting knife is arranged on the outer surface of one power block, a secondary cutting knife is arranged on the outer surface of the other power block, the primary cutting knife and the secondary cutting knife are movably connected with the power block, the lower end of the power block is provided with a rotating base, one side of the working box is fixedly provided with a square sliding rod, the power block and the rotating base are movably connected with the working box, the working box is connected with a back plate through the square sliding rod, the working box generates downward displacement by using a hydraulic rod, tooth punching is carried out on the hard alloy saw blade through the primary cutting knife or the hard alloy saw blade through the secondary cutting knife, the tooth pitch of the primary cutting knife is 0.9mm, the tooth pitch of the secondary cutting knife is 1.8, can process out the saw blade of two kinds of different tooth pitches, improve the variety of overall function, can adjust the cutting angle of one-level cutting knife and second grade cutting knife through rotating base simultaneously, prevent to cut too much or too little problem, reduce the error.

3. The invention provides a sawtooth processing device for a hard alloy saw blade and an implementation method thereof.A transverse groove is formed in each of two sides of a bottom box, a transverse block is arranged in each transverse groove, a lifting rod is fixedly arranged on the outer surface of each transverse block, an electric push rod is arranged in each transverse groove, one end of each electric push rod is connected with each transverse block, the other end of each electric push rod is connected with the inner wall of each transverse groove, a transverse rod is arranged on one side of each lifting rod, an electromagnetic cylinder is sleeved on the outer surface of each transverse rod, after tooth punching is completed, each transverse block slides in each transverse groove through each electric push rod, and meanwhile, each electromagnetic cylinder is connected with a power supply to be magnetized, so that scraps and fragments on the surface of a placing plate can be adsorbed and cleaned, and the scraps on the surface of the placing plate can be cleaned more cleanly by.

Drawings

FIG. 1 is a schematic view of the overall structure of a saw tooth processing device for a cemented carbide saw blade according to the present invention;

FIG. 2 is a schematic structural diagram of an end body mechanism of the sawtooth processing device for the hard alloy saw blade of the invention;

FIG. 3 is a schematic structural diagram of an end body mechanism of the sawtooth processing device for the hard alloy saw blade in a working state;

FIG. 4 is a schematic structural view of a supporting mechanism of the saw tooth processing device for a cemented carbide saw blade according to the present invention;

FIG. 5 is a schematic view of the structure of the connecting mechanism of the sawtooth processing device for the carbide saw blade according to the present invention;

FIG. 6 is a schematic view of a mounting plate of the saw tooth machining device for a cemented carbide saw blade according to the present invention;

FIG. 7 is a schematic view of a clamping mechanism of the saw tooth machining device for a cemented carbide saw blade according to the present invention;

FIG. 8 is an enlarged view of the saw tooth machining apparatus for a cemented carbide saw blade of the present invention shown in FIG. 4A.

In the figure: 1. a support mechanism; 11. a bottom box; 111. a transverse groove; 112. a transverse block; 113. a lifting rod; 114. an electric push rod; 115. a cross bar; 1151. an electromagnetic cylinder; 116. connecting grooves; 117. a T-shaped groove; 12. placing the plate; 121. a work table; 1211. a platform groove; 122. fixing the rod; 123. a T-shaped block; 124. a clamping mechanism; 1241. a telescopic rod; 1242. a slider; 1243. extruding the block; 12431. compressing the backing ring; 12432. a magnetic block; 2. a connecting mechanism; 21. a back plate; 211. a back groove; 212. a connecting hinge; 22. a connecting bolt; 23. a connection bump; 3. an end body mechanism; 31. an end plate; 311. connecting holes; 312. an end slot; 3121. a hydraulic lever; 32. a hydraulic pump; 33. a work box; 331. a slot; 332. a power block; 3321. a primary cutting knife; 3322. a secondary cutter; 333. rotating the base; 334. a square sliding rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1, 2, 4, 5 and 6, a sawtooth processing device for a hard alloy saw blade, including supporting mechanism 1, coupling mechanism 2 and end body mechanism 3, the one end of coupling mechanism 2 is provided with supporting mechanism 1, the other end of coupling mechanism 2 is provided with end body mechanism 3, supporting mechanism 1 includes end box 11 and places board 12, the upper end of end box 11 is provided with places board 12, the upper surface of end box 11 is provided with coupling mechanism 2, coupling mechanism 2 includes backplate 21, connecting bolt 22 and connecting lug 23, the one end fixed mounting of backplate 21 has connecting bolt 22, the other end fixed mounting of backplate 21 has connecting lug 23, the upper end of backplate 21 is provided with end body mechanism 3, end body mechanism 3 includes end plate 31, hydraulic pump 32 and work box 33, one side of end plate 31 is provided with hydraulic pump 32, the opposite side of end plate 31 is provided with work box 33.

Referring to fig. 4 and 8, the bottom case 11 includes a transverse groove 111, a transverse block 112, a lifting rod 113, an electric push rod 114, a transverse rod 115, a connecting groove 116 and a T-shaped groove 117, the transverse groove 111 is disposed on both sides of the bottom case 11, the transverse block 112 is disposed inside the transverse groove 111, the lifting rod 113 is fixedly mounted on the outer surface of the transverse block 112, the electric push rod 114 is disposed inside the transverse groove 111, one end of the electric push rod 114 is connected with the transverse block 112, the other end of the electric push rod 114 is connected with the inner wall of the transverse groove 111, the transverse rod 115 is disposed on one side of the lifting rod 113, an electromagnetic cylinder 1151 is sleeved on the outer surface of the transverse rod 115, the connecting groove 116 and the T-shaped groove 117 are disposed on the upper surface of the bottom case 11.

Referring to fig. 6 and 7, the placing board 12 includes a working table 121, a fixing rod 122, a T-shaped block 123 and a clamping mechanism 124, the T-shaped block 123 is fixedly installed at both ends of the fixing rod 122, the working table 121 is installed at the upper end of the T-shaped block 123, the clamping mechanism 124 is installed at the upper end of the working table 121, a table slot 1211 is installed on the upper surface of the working table 121, the clamping mechanism 124 is movably connected with the working table 121 through the table slot 1211, the clamping mechanism 124 includes a telescopic rod 1241, a sliding block 1242 and a pressing block 1243, the sliding block 1242 is fixedly installed at both ends of the telescopic rod 1241, the pressing block 1243 is fixedly installed on the upper surface of the sliding block 1242, the sliding block 1242 is movably connected with the working table 121 through the table slot 1211, a compression cushion ring 12431 and a magnetic block 12432 are installed at one side of the pressing block 124, and the compression gasket 12431 is a rubber member, and the pressing block 1243 is magnetically connected to the saw blade through the magnet 12432.

Referring to fig. 2, 3 and 5, a compression backing ring 12431 and a magnet 12432 are disposed at one side of an extrusion block 1243, a compression backing ring 12431 is disposed around the magnet 12432, the compression backing ring 12431 is a member made of a rubber material, the extrusion block 1243 is magnetically connected to a saw blade through a magnet 12432, a connection hole 311 and an end groove 312 are disposed at one side of an end plate 31, a hydraulic rod 3121 is disposed inside the end groove 312, the end plate 31 is connected to a work box 33 through the hydraulic rod 3121, one end of the hydraulic rod 3121 is connected to the hydraulic pump 32, a slot 331 is disposed at one side of the work box 33, a power block 332 is disposed inside the slot 331, a rotating base 333 is disposed at a lower end of the power block 332, a square slide rod 334 is fixedly mounted at one side of the work box 33, the power block 332 and the rotating base 333 are both movably connected to the work box 33, the back plate 21 is connected to the work box 33 through the square slide rod 334, be provided with one-level cutting knife 3321 on the surface of one of them power piece 332, be provided with second grade cutting knife 3322 on the surface of another power piece 332, one-level cutting knife 3321 and second grade cutting knife 3322 all with power piece 332 swing joint, end plate 31 passes through connecting hole 311 and backplate 21 swing joint, backplate 21 is through connecting lug 23 and under casing 11 swing joint, back of the body groove 211 has been seted up on the surface of backplate 21, one side fixed mounting of backplate 21 has connection hinge 212, backplate 21 is connected with under casing 11 through connecting hinge 212.

To further better illustrate the above examples, the present invention also provides an embodiment of a method for implementing a saw tooth machining device for a cemented carbide saw blade, comprising the steps of:

the method comprises the following steps: movably connecting the end plate 31 with the back plate 21 through the connecting hole 311, movably connecting the back plate 21 with the bottom case 11 through the connecting bump 23, and connecting the back plate 21 with the bottom case 11 through the connecting hinge 212 to complete the integral assembly;

step two: putting the hard alloy saw blade into the clamping mechanism 124, enabling the sliding blocks 1242 to approach each other through the telescopic rods 1241, so that the extrusion block 1243 extrudes the hard alloy saw blade, and meanwhile, the compression backing ring 12431 on one side of the extrusion block 1243 deforms, so that the hard alloy saw blade sinks into the compression backing ring 12431;

step three: utilize hydraulic stem 3121 to make work box 33 produce decurrent displacement, set teeth to the carbide saw blade through one-level cutting knife 3321, the tooth pitch that one-level cutting knife 3321 was opened is 0.9mm, can adjust the cutting angle of one-level cutting knife 3321 and second grade cutting knife 3322 through rotating base 333 simultaneously, accomplish tooth pitch up to this point and be 0.9 mm.

Example II

step three: utilize hydraulic stem 3121 to make work box 33 produce decurrent displacement, set teeth to the carbide saw blade through second grade cutting knife 3322, the tooth pitch that second grade cutting knife 3322 set teeth is 1.8mm, can adjust the cutting angle of one-level cutting knife 3321 and second grade cutting knife 3322 through rotating base 333 simultaneously, accomplish tooth pitch up to this time and be 1.8 mm.

Adopt above-mentioned two kinds of tooth modes of gulleting, can process out the saw blade of two kinds of different tooth pitches, utilize same processingequipment, produce the saw blade of two kinds of different specifications, improve the variety of overall function, the work intensity and the work loaded down with trivial details degree of reduction worker people of indirectness practice thrift the cost.

EXAMPLE III

step three: utilize hydraulic stem 3121 to make work box 33 produce downward displacement, carry out the gulleting to the carbide saw blade through one-level cutting knife 3321, or carry out the gulleting to the carbide saw blade through second grade cutting knife 3322, the tooth pitch that one-level cutting knife 3321 opened is 0.9mm, the tooth pitch that second grade cutting knife 3322 opened is 1.8mm, can adjust the cutting angle of one-level cutting knife 3321 and second grade cutting knife 3322 through swivel base 333 simultaneously;

step four: after accomplishing the gullet, make horizontal piece 112 slide at horizontal groove 111 through electric putter 114, insert the power with electromagnetism section of thick bamboo 1151 simultaneously, make its subsidiary magnetism, can be with placing the sweeps and the piece adsorption of board 12 surface clean, compare with the tradition formula clearance mode of sweeping, magnetism is inhaled the formula clearance mode and can will be placed board 12 surface residue sweeps clearance cleaner, and the situation that the sweeps was inhaled the staff's respiratory track can not appear, and the danger coefficient is low.

In summary, the following steps: the invention provides a sawtooth processing device for a hard alloy saw blade and an implementation method thereof, wherein one end of a connecting mechanism 2 is provided with a supporting mechanism 1, the other end of the connecting mechanism 2 is provided with an end body mechanism 3, the upper end of a bottom box 11 is provided with a placing plate 12, the upper surface of the bottom box 11 is provided with the connecting mechanism 2, two sides of the bottom box 11 are respectively provided with a transverse groove 111, the inside of the transverse groove 111 is provided with a transverse block 112, the outer surface of the transverse block 112 is fixedly provided with a lifting rod 113, the inside of the transverse groove 111 is provided with an electric push rod 114, one end of the electric push rod 114 is connected with the transverse block 112, the other end of the electric push rod 114 is connected with the inner wall of the transverse groove 111, one side of the lifting rod 113 is provided with a transverse rod 115, the outer surface of the transverse rod 115 is sleeved with an electromagnetic cylinder 1151, after the tooth punching is finished, the transverse block, the magnetic type waste chip cleaning machine has the advantages that the magnetic type waste chip cleaning machine is provided with magnetism, waste chips and fragments on the surface of a placed plate 12 can be completely adsorbed, the magnetic type cleaning mode is utilized to clean the waste chips and residues on the surface of the placed plate 12, one end of a back plate 21 is fixedly provided with a connecting bolt 22, the other end of the back plate 21 is fixedly provided with a connecting lug 23, the upper end of the back plate 21 is provided with an end body mechanism 3, one side of an end plate 31 is provided with a hydraulic pump 32, the other side of the end plate 31 is provided with a working box 33, one side of the working box 33 is provided with a slotted hole 331, two groups of power blocks 332 are arranged inside the slotted hole 331, a primary cutting knife 3321 is arranged on the outer surface of one power block 332, a secondary cutting knife 3322 is arranged on the outer surface of the other power block 332, the primary cutting knife 3321 and the secondary cutting knife, power block 332 and rotating base 333 all with work box 33 swing joint, work box 33 is connected with backplate 21 through square slide bar 334, utilize hydraulic stem 3121 to make work box 33 produce decurrent displacement, carry out the gulleting to the carbide saw blade through one-level cutting knife 3321, or gullet is gullet to the carbide saw blade through second grade cutting knife 3322, the tooth pitch that one-level cutting knife 3321 was seted up is 0.9mm, the tooth pitch that second grade cutting knife 3322 was seted up is 1.8mm, can process the saw blade of two kinds of different tooth pitches, improve the variety of overall function, can adjust the cutting angle of one-level cutting knife 3321 and second grade cutting knife 3322 through rotating base 333 simultaneously, prevent the too much or too little problem of cutting, reduce the error.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides a sawtooth processingequipment for carbide saw blade, includes supporting mechanism (1), coupling mechanism (2) and end body mechanism (3), and the one end of coupling mechanism (2) is provided with supporting mechanism (1), and the other end of coupling mechanism (2) is provided with end body mechanism (3), its characterized in that: the supporting mechanism (1) comprises a bottom box (11) and a placing plate (12), the placing plate (12) is arranged at the upper end of the bottom box (11), and the connecting mechanism (2) is arranged on the upper surface of the bottom box (11);

the connecting mechanism (2) comprises a back plate (21), a connecting bolt (22) and a connecting lug (23), wherein the connecting bolt (22) is fixedly installed at one end of the back plate (21), the connecting lug (23) is fixedly installed at the other end of the back plate (21), and an end body mechanism (3) is arranged at the upper end of the back plate (21);

the end body mechanism (3) comprises an end plate (31), a hydraulic pump (32) and a working box (33), wherein the hydraulic pump (32) is arranged on one side of the end plate (31), and the working box (33) is arranged on the other side of the end plate (31).

2. The saw tooth machining device for a cemented carbide saw blade according to claim 1, wherein: the bottom box (11) comprises a transverse groove (111), a transverse block (112), a lifting rod (113), an electric push rod (114), a cross rod (115), a connecting groove (116) and a T-shaped groove (117), both sides of the bottom box (11) are provided with transverse grooves (111), transverse blocks (112) are arranged inside the transverse grooves (111), lifting rods (113) are fixedly mounted on the outer surfaces of the transverse blocks (112), electric push rods (114) are arranged inside the transverse grooves (111), one ends of the electric push rods (114) are connected with the transverse blocks (112), the other ends of the electric push rods (114) are connected with the inner walls of the transverse grooves (111), transverse rods (115) are arranged on one sides of the lifting rods (113), electromagnetic cylinders (1151) are sleeved on the outer surfaces of the transverse rods (115), connecting grooves (116) and T-shaped grooves (117) are formed in the upper surface of the bottom box (11), and the bottom box (11) is movably connected with the back plate (21) through the connecting grooves (116).

3. The saw tooth machining device for a cemented carbide saw blade according to claim 1, wherein: the placing plate (12) comprises a workbench (121), a fixing rod (122), T-shaped blocks (123) and clamping mechanisms (124), the T-shaped blocks (123) are fixedly mounted at two ends of the fixing rod (122), the workbench (121) is arranged at the upper end of each T-shaped block (123), the clamping mechanisms (124) are arranged at the upper end of the workbench (121), a workbench groove (1211) is formed in the upper surface of the workbench (121), and the clamping mechanisms (124) are movably connected with the workbench (121) through the workbench groove (1211).

4. The saw tooth machining device for a cemented carbide saw blade according to claim 3, wherein: clamping mechanism (124) includes telescopic link (1241), sliding block (1242) and extrusion piece (1243), and the equal fixed mounting in both ends of telescopic link (1241) has sliding block (1242), and the last fixed surface of sliding block (1242) installs extrusion piece (1243), and sliding block (1242) pass through platform groove (1211) and workstation (121) swing joint.

5. The saw tooth machining device for a cemented carbide saw blade according to claim 4, wherein: one side of the extrusion block (1243) is provided with a compression backing ring (12431) and a magnetic block (12432), the compression backing ring (12431) is arranged around the magnetic block (12432), the compression backing ring (12431) is a component made of rubber material, and the extrusion block (1243) is magnetically connected with the saw blade through the magnetic block (12432).

6. The saw tooth machining device for a cemented carbide saw blade according to claim 1, wherein: one side of the end plate (31) is provided with a connecting hole (311) and an end groove (312), a hydraulic rod (3121) is arranged inside the end groove (312), the end plate (31) is connected with the working box (33) through the hydraulic rod (3121), one end of the hydraulic rod (3121) is connected with the hydraulic pump (32), a slotted hole (331) is formed in one side of the working box (33), a power block (332) is arranged inside the slotted hole (331), the lower end of the power block (332) is provided with a rotating base (333), a square sliding rod (334) is fixedly installed on one side of the working box (33), the power block (332) and the rotating base (333) are both movably connected with the working box (33), and the working box (33) is connected with the back plate (21) through the square sliding rod (334).

7. The saw tooth machining device for a cemented carbide saw blade according to claim 1, wherein: two power blocks (332) are arranged inside the work box (33), a primary cutting knife (3321) is arranged on the outer surface of one power block (332), a secondary cutting knife (3322) is arranged on the outer surface of the other power block (332), and the primary cutting knife (3321) and the secondary cutting knife (3322) are both movably connected with the power blocks (332).

8. The saw tooth machining device for a cemented carbide saw blade according to claim 1, wherein: the end plate (31) is movably connected with the back plate (21) through the connecting hole (311), the back plate (21) is movably connected with the bottom box (11) through the connecting lug (23), a back groove (211) is formed in the outer surface of the back plate (21), a connecting hinge (212) is fixedly installed on one side of the back plate (21), and the back plate (21) is connected with the bottom box (11) through the connecting hinge (212).

9. The method of any one of claims 1 to 8, wherein: the method comprises the following steps:

s1: the end plate (31) is movably connected with the back plate (21) through the connecting hole (311), the back plate (21) is movably connected with the bottom box (11) through the connecting lug (23), and the back plate (21) is connected with the bottom box (11) through the connecting hinge (212) to complete the integral assembly;

s2: putting the hard alloy saw blade into a clamping mechanism (124), enabling the sliding blocks (1242) to be close to each other through a telescopic rod (1241), and accordingly enabling the extrusion block (1243) to extrude the hard alloy saw blade, and meanwhile enabling the compression backing ring (12431) on one side of the extrusion block (1243) to deform, so that the hard alloy saw blade is sunk into the compression backing ring (12431);

s3: utilize hydraulic stem (3121) to make work box (33) produce decurrent displacement, set tooth to the carbide saw blade through one-level cutting knife (3321), or set tooth to the carbide saw blade through second grade cutting knife (3322), the tooth pitch that one-level cutting knife (3321) was set out is 0.9mm, the tooth pitch that second grade cutting knife (3322) was set out is 1.8mm, can adjust the cutting angle of one-level cutting knife (3321) and second grade cutting knife (3322) through rotating base (333) simultaneously;

s4: after the slotting is finished, the transverse block (112) slides in the transverse groove (111) through the electric push rod (114), the electromagnetic cylinder (1151) is connected with a power supply to be attached with magnetism, and scraps and fragments on the surface of the placing plate (12) can be adsorbed and cleaned, so that all implementation methods are finished.