CN113579209B - Tool bit capable of preventing extruded surface objects from being scratched and manufacturing device - Google Patents

Abstract

The invention relates to a tool bit capable of not scratching extruded surface objects and a manufacturing device, comprising an equipment shell and an alloy casting assembly, wherein a belt conveyor and a first electric sliding rail are sequentially arranged at the lower end of the inside of the equipment shell from left to right, a tool is arranged at the upper end of the belt conveyor, the alloy casting assembly is arranged at the upper end of the first electric sliding rail, the alloy casting assembly comprises a casting groove, a diversion groove and a mirror surface layer, the diversion grooves are arranged at the left side and the right side of the casting groove, and the mirror surface layer is arranged inside the casting groove. The beneficial effects of the invention are as follows: this tool bit and manufacturing installation that does not fish tail extrude surface thing can directly cast smooth tool bit to can make the tool bit can not scratch the surface of extrudate when using, use the mode of counter weight to make the cutter keep vertical simultaneously, the equipment of being convenient for melts cast the tool bit, the dish of polishing of equipment also can be in close contact with the cutter by a large scale, the equipment of being convenient for polishes the cutter surface.

Description

Tool bit capable of preventing extruded surface objects from being scratched and manufacturing device

Technical Field

The invention relates to the technical field of manufacturing, in particular to a cutter head capable of preventing extruded surface objects from being scratched and a manufacturing device.

Background

The extruded road is cut by a cutter head in the plastic processing process, and the cutter head can be processed and manufactured by manufacturing equipment aiming at the cutter head in the processing process.

When the surface of the cutter head is fused and cast by the existing manufacturing device, the smoothness of the surface of the die is insufficient, so that the cutter head machined by the equipment is easy to scratch plastics when in use.

It is therefore desirable to design a tool bit and manufacturing apparatus that does not scratch the extruded surface.

Disclosure of Invention

The invention aims to provide a tool bit and a manufacturing device which do not scratch extruded surface objects, and aims to solve the problem that in the prior art, when the surface of the tool bit is fused and cast by the manufacturing device, the smoothness of the surface of a die is insufficient, so that plastic is easy to scratch when the tool bit machined by equipment is used.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a tool bit and manufacturing installation of surface thing are extruded to no fish tail, includes equipment casing and alloy casting subassembly, the inside lower extreme of equipment casing has set gradually band conveyer and first electronic slide rail from a left side to the right side, and band conveyer's upper end is provided with the cutter, the upper end of first electronic slide rail is provided with alloy casting subassembly, alloy casting subassembly includes casting groove, guiding gutter and mirror surface layer, and the left and right sides of casting groove is provided with the guiding gutter, the inside of casting groove is provided with the mirror surface layer.

Preferably, the diversion trench is symmetrical about the central axis of the casting trench, and the mirror layer is connected with the casting trench in an inlaid manner.

Preferably, the first motor is installed to the upper end of equipment casing, and the inside upper wall of equipment casing has set gradually clamping assembly and installation cover from a left side to the right side, the lower extreme of installation cover is connected with left frame subassembly, and installs right frame subassembly in one side of left frame subassembly, the lower extreme of right frame subassembly is provided with adjusting part.

Preferably, the clamping assembly comprises a second electric sliding rail, a first multi-section hydraulic cylinder, a connecting pin, a connecting frame, a cylinder and a counterweight chain, wherein the first multi-section hydraulic cylinder is installed at the lower end of the second electric sliding rail, the lower end of the first multi-section hydraulic cylinder is connected with the connecting frame through the connecting pin, the cylinder is installed at the lower end of the connecting frame, and the counterweight chain is arranged at the left side and the right side of the connecting frame.

Preferably, the cylinder and the counterweight chain are symmetrical about the central axis of the connecting frame, and the connecting frame forms a movable structure with the first multi-section hydraulic cylinder through the connecting pin.

Preferably, the left side frame subassembly includes second multisection pneumatic cylinder, left L frame, first electro-magnet, second electro-magnet and vaulting pole, and the lower extreme of second multisection pneumatic cylinder is provided with left L frame, the right side of left L frame has set gradually first electro-magnet and vaulting pole from lower supreme, and the internally mounted of left L frame has the second electro-magnet.

Preferably, the right frame assembly comprises a right L frame, a third electromagnet, a spring, a guide rod and a loop bar, wherein the third electromagnet and the spring are sequentially arranged on the left side of the right L frame from top to bottom, one end of the spring is connected with the loop bar, and the guide rod is arranged on the upper side and the lower side of the loop bar.

Preferably, an elastic structure is formed between the loop bar and the right L frame through a spring, and a sliding structure is formed between the loop bar and the right L frame through a guide rod.

Preferably, the adjusting part comprises a threaded rod, a second motor, a thread bush, a third electric slide rail, a spherical connecting block, a movable bush, a third motor and a polishing disc, wherein the lower end of the threaded rod is connected with the second motor, the threaded rod is externally connected with the thread bush, the left side of the thread bush is connected with the third electric slide rail, the left side of the third electric slide rail is connected with the spherical connecting block, the left side of the spherical connecting block is connected with the movable bush, the third motor is arranged in the movable bush, and the left side of the third motor is connected with the polishing disc.

Preferably, the spherical connecting block is movably connected with the movable sleeve, and the polishing disc forms a rotary structure with the movable sleeve through a third motor.

Compared with the prior art, the invention has the beneficial effects that: the equipment can directly cast a smooth cutter head, so that the cutter head can not scratch the surface of an extrudate when in use, meanwhile, the cutter is kept vertical by using a counterweight mode, the equipment is convenient for casting the cutter head, the polishing disc of the equipment can be in close contact with the cutter in a large area, and the equipment is convenient for polishing the surface of the cutter.

1. The mirror surface layer is embedded in the casting groove, the mirror surface layer is smooth enough, so that an alloy solution in the casting groove has good smoothness after solidification, the smoothness of a cutter processed by equipment is high enough, and therefore the cutter can be prevented from scraping products when in use, and meanwhile, the left side and the right side of the casting groove are provided with the diversion grooves, the alloy flowing out of the casting groove in an unnecessary mode can be diverted, and the alloy is prevented from dripping on a first electric sliding rail and damaging the first electric sliding rail.

2. The surface of the cutter processed by the method has enough smoothness, so that the cutter can not scratch the surface of the extrudate in the use process, and the cutter can be better applied to the processing of plastics.

3. The left side and the right side of the connecting frame are provided with the counterweight chains, so that the connecting frame which forms a rotary structure between the connecting pin and the first multi-section hydraulic cylinder is kept horizontal by means of the gravity of the counterweight chains, and therefore the cutter clamped by the cylinder is in a vertical state, and the equipment is convenient for casting alloy by the cutter.

4. According to the invention, the adjusting component can be continuously pushed by virtue of the sleeve rod through the elastic telescopic structure formed between the guide rod and the spring and the right L-shaped frame, so that the polishing disc can be in close contact with the cutter, and the cutter can be polished conveniently by the polishing disc.

5. According to the invention, through the movable structure formed between the movable sleeve and the spherical connecting block, the movable sleeve can rotate at any angle, so that the contact area of the polishing disc and the cutter is maximized for polishing, and meanwhile, the stay bar can position and guide the movement of the right frame assembly, so that the left L frame and the right L frame can keep relative horizontal, and the polishing disc is convenient for polishing the cutter.

Drawings

FIG. 1 is a schematic elevational view of a tool tip and manufacturing apparatus for use in the present invention without scratching extruded surfaces;

FIG. 2 is a schematic view of a perspective and partial structure of an alloy casting assembly of the present invention without scratching the extruded surface;

FIG. 3 is an enlarged cross-sectional view of a tool tip and a right frame assembly of a manufacturing apparatus for use in the present invention without scratching extruded surfaces;

FIG. 4 is an enlarged schematic view of the tool tip and apparatus for producing extruded surfaces of the present invention shown in FIG. 3 at A;

fig. 5 is a schematic view showing a three-dimensional enlarged structure of a cutter head and a cutter for a manufacturing apparatus of the present invention which does not scratch an extruded surface object.

In the figure: 1. an equipment housing; 2. a belt conveyor; 3. a first electric slide rail; 4. a cutter; 5. an alloy casting assembly; 501. a casting groove; 502. a diversion trench; 503. a mirror layer; 6. a first motor; 7. a clamping assembly; 701. the second electric sliding rail; 702. a first multi-section hydraulic cylinder; 703. a connecting pin; 704. a connecting frame; 705. a cylinder; 706. a counterweight chain; 8. a mounting sleeve; 9. a left frame assembly; 901. a second multi-section hydraulic cylinder; 902. a left L-shaped frame; 903. a first electromagnet; 904. a second electromagnet; 905. a brace rod; 10. a right frame assembly; 1001. a right L frame; 1002. a third electromagnet; 1003. a spring; 1004. a guide rod; 1005. a loop bar; 11. an adjustment assembly; 1101. a threaded rod; 1102. a second motor; 1103. a thread sleeve; 1104. the third electric sliding rail; 1105. a spherical connecting block; 1106. a movable sleeve; 1107. a third motor; 1108. polishing disc.

Detailed Description

As shown in fig. 1 to 5, the present invention provides a technical solution: the utility model provides a tool bit and manufacturing installation of surface thing is extruded to no fish tail, including equipment housing 1 and alloy casting subassembly 5, equipment housing 1's inside lower extreme has set gradually belt conveyor 2 and first electronic slide rail 3 from left to right, and belt conveyor 2's upper end is provided with cutter 4, first electronic slide rail 3's upper end is provided with alloy casting subassembly 5, alloy casting subassembly 5 includes casting groove 501, guiding gutter 502 and mirror layer 503, and casting groove 501's left and right sides is provided with guiding gutter 502, casting groove 501's inside is provided with mirror layer 503, guiding gutter 502 is symmetrical about casting groove 501's axis, and be inlayed and connect between mirror layer 503 and the casting groove 501, equipment housing 1's upper end installs first motor 6, and equipment housing 1's inside upper wall has set gradually clamping assembly 7 and installation cover 8 from left to right, installation cover 8's lower extreme is connected with left frame subassembly 9, and right frame subassembly 10 is installed to one side of left frame subassembly 9, right frame subassembly 10's lower extreme is provided with adjusting part 11;

the concrete operation is as follows, the inside of casting groove 501 is inlayed and is had mirror surface layer 503, mirror surface layer 503 is smooth enough, thereby can make inside alloy solution have better smoothness after solidifying, make the cutter 4 smoothness that equipment was processed high enough, thereby can avoid cutter 4 to scrape the flower product when using, the left and right sides of casting groove 501 is provided with guiding gutter 502 simultaneously, can be to the unnecessary alloy drainage that flows in the casting groove 501, the cutter 4 surface that processes out has sufficient smoothness, thereby make cutter 4 can not scratch the surface of extrudate in the use, thereby make in the processing of plastics that this cutter 4 can be better be applied to, equipment casing 1 can protect equipment internals for equipment, belt conveyor 2 can carry cutter 4, first electronic slide rail 3 can drive alloy casting subassembly 5 and remove, first motor 6 can drive installation cover 8 rotation control left frame subassembly 9 and carry out reverse polishing, clamping assembly 7 can carry out the centre gripping location to cutter 4, left frame subassembly 9, right frame subassembly 10 and adjusting part cooperation 11 can polish cutter 4.

As shown in fig. 1, the clamping assembly 7 comprises a second electric sliding rail 701, a first multi-section hydraulic cylinder 702, a connecting pin 703, a connecting frame 704, an air cylinder 705 and a counterweight chain 706, wherein the first multi-section hydraulic cylinder 702 is installed at the lower end of the second electric sliding rail 701, the lower end of the first multi-section hydraulic cylinder 702 is connected with the connecting frame 704 through the connecting pin 703, the air cylinder 705 is installed at the lower end of the connecting frame 704, the counterweight chain 706 is arranged at the left side and the right side of the connecting frame 704, the air cylinder 705 and the counterweight chain 706 are symmetrical relative to the central axis of the connecting frame 704, and the connecting frame 704 and the first multi-section hydraulic cylinder 702 form a movable structure through the connecting pin 703;

the left and right sides of the connecting frame 704 are provided with counterweight chains 706, so that the connecting frame 704 which forms a rotary structure with the first multi-section hydraulic cylinder 702 through the connecting pin 703 is kept horizontal by means of the gravity of the counterweight chains 706, the cutter 4 clamped by the air cylinder 705 is in a vertical state, the equipment is convenient for melting and casting the cutter 4, and the second electric sliding rail 701 provides power for the movement of the first multi-section hydraulic cylinder 702.

As shown in fig. 3, the left frame assembly 9 includes a second multi-section hydraulic cylinder 901, a left L frame 902, a first electromagnet 903, a second electromagnet 904 and a supporting rod 905, wherein the lower end of the second multi-section hydraulic cylinder 901 is provided with the left L frame 902, the right side of the left L frame 902 is provided with the first electromagnet 903 and the supporting rod 905 in sequence from bottom to top, and the second electromagnet 904 is installed in the left L frame 902;

the stay bar 905 can position and guide the movement of the right frame assembly 10, so that the left L frame 902 and the right L frame 1001 can keep relative horizontal, the second multi-section hydraulic cylinder 901 can control the left L frame 902 to lift, the first electromagnet 903 can adsorb and fix the cutter 4, and the third electromagnet 1002 and the second electromagnet 904 can control the polishing disc 1108 to be close to and far away from the cutter 4 in a matching manner.

As shown in fig. 3, the right frame assembly 10 includes a right L frame 1001, a third electromagnet 1002, a spring 1003, a guide rod 1004 and a sleeve rod 1005, wherein the third electromagnet 1002 and the spring 1003 are sequentially arranged on the left side of the right L frame 1001 from top to bottom, one end of the spring 1003 is connected with the sleeve rod 1005, the guide rods 1004 are arranged on the upper and lower sides of the sleeve rod 1005, the sleeve rod 1005 forms an elastic structure with the right L frame 1001 through the spring 1003, and the sleeve rod 1005 forms a sliding structure with the right L frame 1001 through the guide rods 1004;

the adjusting component 11 can be continuously pushed by means of the sleeve rod 1005 through the elastic telescopic structure formed between the guide rod 1004 and the spring 1003 and the right L-shaped frame 1001, so that the polishing disc 1108 can be in close contact with the cutter 4, the cutter 4 can be polished conveniently by the polishing disc 1108, and the polishing disc 1108 can be controlled to be close to or far away from the cutter 4 by matching the third electromagnet 1002 with the second electromagnet 904.

As shown in fig. 4, the adjusting component 11 includes a threaded rod 1101, a second motor 1102, a threaded sleeve 1103, a third electric sliding rail 1104, a ball connecting block 1105, a movable sleeve 1106, a third motor 1107 and a polishing disc 1108, wherein the lower end of the threaded rod 1101 is connected with the second motor 1102, the exterior of the threaded rod 1101 is connected with the threaded sleeve 1103, the left side of the threaded sleeve 1103 is connected with the third electric sliding rail 1104, the left side of the third electric sliding rail 1104 is connected with the ball connecting block 1105, the left side of the ball connecting block 1105 is connected with the movable sleeve 1106, the third motor 1107 is installed inside the movable sleeve 1106, the left side of the third motor 1107 is connected with the polishing disc 1108, the ball connecting block 1105 is movably connected with the movable sleeve 1106, and the polishing disc 1108 forms a rotating structure with the movable sleeve 1106 through the third motor 1107;

through the movable structure that constitutes between movable sleeve 1106 and the ball connecting block 1105 to can make movable sleeve 1106 carry out arbitrary angle rotation, make the area of contact maximize of polishing dish 1108 and cutter 4 polish, second motor 1102 can drive threaded rod 1101 rotation and make threaded sleeve 1103 reciprocate, third electronic slide rail 1104 can drive polishing dish 1108 back and forth movement, swing joint between movable sleeve 1106 and the ball connecting block 1105 is convenient for polishing dish 1108 and cutter 4 contact, third motor 1107 drives polishing dish 1108 rotation and works.

Working principle: firstly, conveying a cutter 4 through a belt conveyor 2, then driving a connecting frame 704 to be close to the cutter 4 through a second electric sliding rail 701 and a first multi-section hydraulic cylinder 702, then clamping the cutter 4 through an air cylinder 705, arranging counterweight chains 706 on the left side and the right side of the connecting frame 704, enabling the connecting frame 704 which forms a rotary structure between a connecting pin 703 and the first multi-section hydraulic cylinder 702 to be kept horizontal by means of the gravity of the counterweight chains 706, so that the cutter 4 is in a vertical state, then manually pouring a certain amount of alloy solution into the interior of a casting tank 501, then placing the cutter 4 into the casting tank 501, enabling the redundant alloy solution to flow out along a guide groove 502, enabling a mirror surface layer 503 to be smoother after the alloy solution is solidified, driving an alloy casting assembly 5 to move through the first electric sliding rail 3 after the alloy solution is solidified, and then driving a left frame assembly 9 to descend through a mounting sleeve 8, the first electromagnet 903 is used for adsorbing the cutter 4, the cutter 4 is taken out of the alloy casting assembly 5, the second electromagnet 904 and the third electromagnet 1002 generate heteropolarity magnetism to attract each other, so that the right L frame 1001 is butted with the left L frame 902, the supporting rod 905 has a guiding function on the movement of the right L frame 1001, the second motor 1102 drives the threaded rod 1101 to rotate, the threaded sleeve 1103 moves up and down, the third electric sliding rail 1104 can drive the polishing disc 1108 to move back and forth, so that the polishing disc 1108 can move in all directions to polish the cutter 4, the movable connection between the movable sleeve 1106 and the spherical connecting block 1105 is convenient for the polishing disc 1108 to contact with the cutter 4, the third motor 1107 drives the polishing disc 1108 to rotate to operate, the polishing disc 1108 can be tightly contacted with the cutter 4 by virtue of the elastic telescopic structure formed between the sleeve 1005 and the right L frame 1001 through the guide rod 1004 and the spring 1003, when the equipment finishes polishing one surface of the cutter 4, the cutter 4 is put back into the alloy casting assembly 5, and then the first motor 6 drives the installation sleeve 8 to rotate, so that the left frame assembly 9, the right frame assembly 10 and the adjusting assembly 11 polish the other surface of the cutter 4, and then a worker takes down the polished cutter 4, so that the cutter 4 is processed.

Claims (2)

1. The manufacturing device of the tool bit capable of preventing the surface object from being scratched is characterized by comprising an equipment shell (1) and an alloy casting component (5), wherein a belt conveyor (2) and a first electric sliding rail (3) are sequentially arranged at the lower end of the inside of the equipment shell (1) from left to right, a cutter (4) is arranged at the upper end of the belt conveyor (2), the alloy casting component (5) is arranged at the upper end of the first electric sliding rail (3), the alloy casting component (5) comprises a casting groove (501), a guide groove (502) and a mirror surface layer (503), the guide grooves (502) are arranged at the left side and the right side of the casting groove (501), the inside of casting groove (501) is provided with mirror layer (503), first motor (6) are installed to the upper end of equipment casing (1), and inside upper wall of equipment casing (1) has set gradually clamping assembly (7) and installation cover (8) from a left side to the right side, the lower extreme of installation cover (8) is connected with left frame subassembly (9), and installs right frame subassembly (10) in one side of left frame subassembly (9), the lower extreme of right frame subassembly (10) is provided with adjusting part (11), clamping assembly (7) are including second electronic slide rail (701), first multisection pneumatic cylinder (702), connecting pin (703), link (704), the cylinder (705) and the counterweight chain (706), and the lower extreme of second electronic slide rail (701) installs first multisection pneumatic cylinder (702), the lower extreme of first multisection pneumatic cylinder (702) is connected with link (704) through connecting pin (703), and the lower extreme of link (704) is installed cylinder (705), the left and right sides of link (704) is provided with counterweight chain (706), the axis symmetry about link (704) of cylinder (705) and counterweight chain (706), and link (704) pass through between connecting pin (703) and the first multisection pneumatic cylinder (702) and constitute the movable structure, left side frame subassembly (9) are including second multisection pneumatic cylinder (901), left L frame (902), first electro-magnet (903), second electro-magnet (904) and vaulting pole (905), and the lower extreme of second multisection pneumatic cylinder (901) is provided with left L frame (902), the right side of left L frame (902) is provided with first electro-magnet (903) and vaulting pole (905) from the lower supreme axis that is provided with in proper order, and inside frame (1002), the second electro-magnet (1002), right side frame (1005) are installed to the inside of spring assembly (1002), and the left side of right L frame (1001) has set gradually third electro-magnet (1002) and spring (1003) from top to bottom, the one end of spring (1003) is connected with loop bar (1005), and the upper and lower both sides of loop bar (1005) are provided with guide arm (1004), loop bar (1005) constitutes elastic structure through between spring (1003) and right L frame (1001), and loop bar (1005) constitutes sliding structure through between guide arm (1004) and right L frame (1001), adjusting component (11) include threaded rod (1101), second motor (1102), screw thread cover (1103), third electronic slide rail (1104), ball connecting block (1105), movable sleeve (1106), third motor (1107) and polishing dish (1108), and the lower extreme of threaded rod (1101) is connected with second motor (1102), the external connection of threaded rod (1101) has thread cover (1103), and the left side of thread cover (1103) is connected with third electronic slide rail (1104), the left side of third electronic slide rail (1005) is connected with ball motor (1105), and the left side of ball connecting block (1105) is connected with ball connecting block (1106), the inside of movable sleeve (1107) is connected with third connecting block (1106), the spherical connecting block (1105) is movably connected with the movable sleeve (1106), and the polishing disc (1108) forms a rotary structure with the movable sleeve (1106) through a third motor (1107).

2. The device for manufacturing the tool bit without scratching the extruded surface object according to claim 1, wherein the diversion trench (502) is symmetrical with respect to the central axis of the casting trench (501), and the mirror surface layer (503) is connected with the casting trench (501) in a mosaic manner.