CN112705716B - Discharging mechanism of vanadium-nitrogen alloy processing equipment - Google Patents

Abstract

The invention relates to a discharging mechanism of vanadium-nitrogen alloy processing equipment, which comprises a processing bed body, wherein a processing pedestal is installed at the top end of the processing bed body, a chuck is arranged at the top of the processing pedestal, a discharging transposition mechanism is installed between the chuck and the processing pedestal, a discharging lubricating mechanism is arranged inside the discharging transposition mechanism, a discharging down-regulation mechanism is installed at the top of the discharging transposition mechanism, a discharging resetting mechanism is installed inside the chuck, and a twisting head is arranged inside the discharging down-regulation mechanism. After the grinding finishes, then the staff can twist the head earlier and move, makes to make the third transmission shaft rotate, makes to make the worm wheel that meets drive the worm and rotate to make the bearing platform carry out the decline through the fly leaf and move, then make the bearing platform and be equipped with the box of placing of raw materials separately, thereby effectual convenience and the work of unloading on next step, then the effectual portability of unloading that improves this vanadium nitrogen alloy processing equipment.

Description

Discharge mechanism of vanadium nitrogen alloy processing equipment

Technical Field

The invention relates to a discharging mechanism of vanadium-nitrogen alloy processing equipment, and belongs to the technical field of vanadium-nitrogen alloy processing.

Background

The vanadium-nitrogen alloy is a novel alloy additive, can replace ferrovanadium to be used for producing microalloyed steel, and the vanadium nitride is added into the steel to improve the comprehensive mechanical properties of the steel, such as strength, toughness, ductility, thermal fatigue resistance and the like, so that the steel has good weldability, and under the condition of reaching the same strength, the vanadium nitride is added to save the vanadium addition by 30-40 percent, thereby reducing the cost.

When current vanadium nitrogen alloy processing equipment production processing was used, though can grind into powder some vanadium nitrogen alloys, nevertheless need the manual work to carry out inside when unloading and take, touch the grinding rod easily when taking and scald, and the inconvenient circumstances of unloading in the staff, to this we design a vanadium nitrogen alloy processing equipment's shedding mechanism.

Disclosure of Invention

The invention aims to solve the problems that when the existing vanadium-nitrogen alloy processing equipment is used for production and processing, although some vanadium-nitrogen alloys can be ground into powder, the vanadium-nitrogen alloys need to be taken manually during unloading, the grinding rods are easy to touch for scalding during taking, and the unloading is inconvenient for workers.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a vanadium nitrogen alloy processing equipment's shedding mechanism, includes the processing bed body, the processing pedestal is installed on the top of the processing bed body, and the top of processing pedestal is provided with the chuck, install the transposition mechanism of unloading between chuck and the processing pedestal, and the inside of the transposition mechanism of unloading is provided with the lubricated mechanism of unloading, the mechanism of unloading is installed at the top of the transposition mechanism of unloading, the internally mounted of chuck has the canceling release mechanical system of unloading, the mechanism of unloading is inside including twisting the head, and the right-hand member surface connection of twisting the head has the third transmission shaft, the maintenance lantern ring is installed in the outside of third transmission shaft, and the outside of third transmission shaft is provided with the turbine, the outside of turbine is provided with the worm, and the top of worm is connected with the anticreep board, the outside threaded connection of worm has the fly leaf, and the top of fly leaf installs the bearing platform, first slider is installed in the outside of fly leaf, and the outside of first slider is provided with first spout, the outside of first slider is provided with the mount pad.

Furthermore, the movable plate forms a sliding structure with the mounting base through the first sliding block, the first sliding groove, and the first sliding block is symmetrical with respect to the central axis of the movable plate.

Further, the inside first change wheel that is included of transposition mechanism of unloading, and the top of first change wheel installs first transmission shaft, the outside of first transmission shaft is provided with first guide way, and the outside threaded connection of first transmission shaft has the movable table, the second guide way has been seted up to the inside of movable table, and the internal connection of second guide way has the solid piece, the internal thread connection of solid piece has the second transmission shaft, and the outside of second transmission shaft is connected with the maintenance bearing, the right-hand member surface of second transmission shaft is established and is installed the second and rotate the wheel.

Furthermore, the movable table and the processing table seat form a movable structure through the second guide groove, and the movable table and the first rotating wheel form a transmission structure through the first transmission shaft.

Further, the inside oiling import that is included of lubricated mechanism of unloading, and the top of oiling import is installed and is closed the lid, the left end surface connection that closes the lid has the hinge, and the right-hand member surface mounting who closes the lid has first connecting block, the bottom of first connecting block is provided with the second connecting block, and the internal connection of second connecting block has the location bolt, the bottom that the oiling was imported is provided with the oiling export, and the bottom that the oiling exported installs an oil collecting box, the inside that the oiling exported is provided with the governing valve.

Furthermore, the cover and the oil injection inlet form a movable structure through a hinge, and the cover and the second connecting block form a fixed structure through the first connecting block and the positioning bolt.

Further, the inside counterpoint board that is included of canceling release mechanical system of unloading, and the slipmat is installed in the outside of counterpoint board, the top of counterpoint board is connected with first connecting piece, and the outside of first connecting piece installs the rotation down tube, the external connection that rotates the down tube has the second connecting piece, and the outside of second connecting piece installs the second slider, the outside of second slider is provided with the second spout, and the internally mounted of second spout has reset spring, the outside of counterpoint board is provided with the top piece.

Furthermore, the rotating diagonal rod and the aligning plate form a rotating structure through the first connecting piece, and the rotating diagonal rod is symmetrical about the central axis of the aligning plate.

Furthermore, the second sliding block and the chuck form a sliding structure through a second sliding groove, and the second sliding block and the second sliding groove form an elastic structure through a return spring.

The invention has the technical effects and advantages that:

1. according to the invention, the discharging mechanism of the vanadium-nitrogen alloy processing equipment comprises a processing bed body, a processing pedestal, a chuck and other components, when a user needs to process and grind vanadium-nitrogen alloy to be processed into powder, the placing box and the chuck of the device can be fixed, and then the powder is processed into powder through the grinding rod, so that the operation of the user is facilitated, and the portability of the processing equipment is effectively improved.

2. In the invention, after grinding is finished, a worker can firstly screw the screw head to enable the third transmission shaft to rotate, and then the connected worm wheel drives the worm to rotate, so that the bearing platform descends and moves through the movable plate, the bearing platform is separated from the placing box filled with raw materials, the next unloading operation is effectively facilitated, and the unloading portability of the vanadium-nitrogen alloy processing equipment is effectively improved.

3. According to the invention, when a user descends the supporting platform, the first rotating wheel can be rotated, so that the position of the movable platform is shifted, the movable platform is separated from the inside of the machine tool, the user can quickly and conveniently operate the placing box fixed by the chuck, the condition that the user carries out internal construction operation is effectively avoided, and the use safety of the user and the unloading portability of the vanadium-nitrogen alloy processing equipment are effectively improved.

4. According to the invention, after the movable table is moved out by a user, the chuck can be loosened, wherein the chuck is an electric chuck, so that the user can conveniently perform clamping and loosening operations.

5. In the invention, the oil injection inlet and the oil injection outlet are formed in the bearing of the vanadium-nitrogen alloy processing equipment, so that a user can open the closed cover when lubricating the inside of the bearing, and quickly perform oil injection and lubrication functions on the inside of the bearing, wherein the oil collecting box connected with the oil injection outlet can effectively collect redundant lubricating oil, thereby effectively avoiding resource waste, reducing maintenance cost, and further expanding the portability and effectiveness of the discharging of the vanadium-nitrogen alloy processing equipment through the lubrication function.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

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

FIG. 2 is a schematic view of the discharge index mechanism of the present invention;

FIG. 3 is a schematic view of the discharge lubrication mechanism of the present invention;

FIG. 4 is a schematic view of the discharge reset mechanism of the present invention;

FIG. 5 is a partially complementary view of the discharge reset mechanism of the present invention;

FIG. 6 is a schematic view of the discharge downregulating mechanism of the present invention;

fig. 7 is an enlarged schematic view at a of the present invention.

Reference numbers in the figures: 1. processing a bed body; 2. processing a pedestal; 3. a chuck; 4. a discharging transposition mechanism; 401. a first rotating wheel; 402. a first drive shaft; 403. a first guide groove; 404. a movable stage; 405. a second guide groove; 406. a retention block; 407. a second transmission shaft; 408. a fixed bearing; 409. a second rotating wheel; 5. a discharge down-regulation mechanism; 501. screwing the head; 502. a third drive shaft; 503. a retention collar; 504. a turbine; 505. a worm; 506. an anti-drop plate; 507. a movable plate; 508. a support platform; 509. a first slider; 510. a first chute; 511. a mounting seat; 6. a discharging lubricating mechanism; 601. an oiling inlet; 602. closing the cover; 603. a hinge; 604. a first connection block; 605. a second connecting block; 606. positioning a bolt; 607. an oil injection outlet; 608. an oil collecting box; 609. adjusting a valve; 7. a discharging reset mechanism; 701. a positioning plate; 702. a non-slip mat; 703. a first connecting member; 704. rotating the diagonal rod; 705. a second connecting member; 706. a second slider; 707. a second chute; 708. a return spring; 709. and a top bit block.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it should be understood that they are presented herein only to illustrate and explain the present invention and not to limit the present invention.

As shown in fig. 1-7, a discharging mechanism of a vanadium-nitrogen alloy processing apparatus comprises a processing bed 1, a processing table base 2, a chuck 3, a discharging transposition mechanism 4, a first rotating wheel 401, a first driving shaft 402, a first guide groove 403, a movable table 404, a second guide groove 405, a retaining block 406, a second driving shaft 407, a retaining bearing 408, a second rotating wheel 409, a discharging downward-adjusting mechanism 5, a screw head 501, a third driving shaft 502, a retaining collar 503, a turbine 504, a worm 505, an anti-drop plate 506, a movable plate 507, a supporting table 508, a first sliding block 510, a first sliding groove 510, a mounting seat 511, a discharging lubrication mechanism 6, an oil inlet 601, a closing cover 602, a hinge 603, a first connecting block 604, a second connecting block 605, a positioning pin 606, an oil outlet 607, an oil collecting box 608, a regulating valve 609, a discharging return mechanism 7, an alignment plate 701, an anti-slip pad 702, a first connecting piece 704, a rotating inclined rod 704, a second connecting piece 706, a second sliding block 707, a return spring 708, and an ejector 709, the top end of the processing bed body 1 is provided with a processing pedestal 2, the top of the processing pedestal 2 is provided with a chuck 3, an unloading transposition mechanism 4 is arranged between the chuck 3 and the processing pedestal 2, an unloading lubrication mechanism 6 is arranged inside the unloading transposition mechanism 4, an unloading down-regulation mechanism 5 is arranged on the top of the unloading transposition mechanism 4, an unloading reset mechanism 7 is arranged inside the chuck 3, the unloading down-regulation mechanism 5 comprises a screw head 501, the right end surface of the screw head 501 is connected with a third transmission shaft 502, the outer side of the third transmission shaft 502 is provided with a retaining lantern ring 503, the outer side of the third transmission shaft 502 is provided with a turbine 504, the outer side of the turbine 504 is provided with a worm 505, the top end of the worm 505 is connected with an anti-falling plate 506, and the outer thread of the worm 505 is connected with a movable plate 507, and the top of activity board 507 installs bearing platform 508, the outside of activity board 507 installs first slider 509, and the outside of first slider 509 is provided with first spout 510, the outside of first slider 509 is provided with mount pad 511, wherein after finishing grinding, then the staff can twist head 501 earlier and move, make third transmission shaft 502 rotate, make the worm wheel 504 that makes to meet drive worm 505 and rotate, thereby make bearing platform 508 through activity board 507 go on the decline removal, make bearing platform 508 with be equipped with the box of placing of raw materials separately, thereby effectual convenience and next unloading work.

As shown in fig. 6, the movable plate 507 forms a sliding structure with the mounting seat 511 via the first slider 509, the first sliding groove 510, and the first slider 509 is symmetrical with respect to the central axis of the movable plate 507, wherein a threaded groove is preset inside the movable plate 507 to connect with the worm 505, so that when the worm 505 rotates, the movable plate 507 is effectively shifted via the first slider 509.

As shown in fig. 2, the discharging and indexing mechanism 4 includes a first rotating wheel 401 inside, a first transmission shaft 402 is installed at the top end of the first rotating wheel 401, a first guide groove 403 is arranged outside the first transmission shaft 402, a movable table 404 is connected to the outside of the first transmission shaft 402 through a thread, a second guide groove 405 is opened inside the movable table 404, a fixing block 406 is connected inside the second guide groove 405, a second transmission shaft 407 is connected to the fixing block 406 through a thread, a fixing bearing 408 is connected to the outside of the second transmission shaft 407, and a second rotating wheel 409 is installed on the right end surface of the second transmission shaft 407, wherein a thread groove is preset inside the bottom end of the movable table 404 and connected to the first transmission shaft 402, so that when the first transmission shaft 402 rotates, the movable table 404 is effectively displaced.

As shown in fig. 2, the movable table 404 and the processing base 2 form a movable structure through the second guide groove 405, and the movable table 404 and the first rotating wheel 401 form a transmission structure through the first transmission shaft 402, wherein when the user lowers the supporting table 508, the first rotating wheel 401 can be rotated to shift the position of the movable table 404, so that the movable table 404 is separated from the inside of the machine tool, and the user can quickly and conveniently handle the placing box fixed to the chuck 3.

As shown in fig. 3 and 7, the discharging lubrication mechanism 6 includes an oil injection inlet 601 inside, a cover 602 is installed at the top end of the oil injection inlet 601, a hinge 603 is connected to the left end surface of the cover 602, a first connecting block 604 is installed on the right end surface of the cover 602, a second connecting block 605 is arranged at the bottom of the first connecting block 604, a positioning pin 606 is connected inside the second connecting block 605, an oil injection outlet 607 is arranged at the bottom of the oil injection inlet 601, an oil collection box 608 is installed at the bottom of the oil injection outlet 607, and an adjusting valve 609 is arranged inside the oil injection outlet 607, wherein the oil injection inlet 601 and the oil injection outlet 607 are arranged inside a bearing of the vanadium-nitrogen alloy processing equipment, so that a user can open the cover 602 when lubricating the inside of the bearing, and perform oil injection lubrication on the inside of the vanadium-nitrogen alloy processing equipment.

As shown in fig. 3 and 7, the closing cover 602 forms a movable structure with the oil filling inlet 601 through the hinge 603, and the closing cover 602 forms a fixed structure with the second connecting block 605 through the first connecting block 604 and the positioning pin 606, wherein the oil collecting box 608 connected with the oil filling outlet 607 can effectively collect the redundant lubricating oil, thereby effectively avoiding resource waste and reducing maintenance cost.

As shown in fig. 4 and 5, the discharging reset mechanism 7 includes an aligning plate 701 inside, a non-slip mat 702 is installed on the outer side of the aligning plate 701, the top end of the aligning plate 701 is connected with a first connecting piece 703, a rotating inclined rod 704 is installed on the outer side of the first connecting piece 703, a second connecting piece 705 is connected to the outer side of the rotating inclined rod 704, a second sliding block 706 is installed on the outer side of the second connecting piece 705, a second sliding groove 707 is arranged on the outer side of the second sliding block 706, a reset spring 708 is installed inside the second sliding groove 707, a jacking block 709 is arranged outside the aligning plate 701, and the collet 3 is an electric collet 3, so that the clamping and releasing operations can be conveniently performed by a user.

As shown in fig. 4 and 5, the rotating slanting rod 704 forms a rotating structure with the alignment plate 701 through the first connecting member 703, and the rotating slanting rod 704 is symmetrical with respect to the central axis of the alignment plate 701, wherein through the abutting block 709, when the chuck 3 is clamped, the alignment plate 701 can be effectively positioned, so as to effectively position the processing placing box.

As shown in fig. 4 and 5, the second sliding block 706 forms a sliding structure with the cartridge 3 through the second sliding groove 707, and the second sliding block 706 forms an elastic structure with the second sliding groove 707 through the return spring 708, wherein after the cartridge 3 is loosened, the internal aligning plate 701 is elastically reset through the return spring 708, so that the position where the cartridge is placed is effectively jacked up, and the use of the cartridge is facilitated.

For the convenience of understanding the technical solutions of the present invention, the following detailed description will be made on the working principle or the operation mode of the present invention in the practical process.

The working principle of the invention is as follows: the discharging mechanism of the vanadium-nitrogen alloy processing equipment comprises a processing bed body 1, a processing pedestal 2, a chuck 3 and other parts, when a user needs to process and grind vanadium-nitrogen alloy to be processed into powder, a placing box and the chuck 3 of the device can be fixed, then the powder is processed into powder through a grinding rod, so that the operation of the user is facilitated, the portability of the processing equipment is effectively improved, after the grinding is finished, a worker can firstly screw a screwing head 501, so that a third transmission shaft 502 rotates, so that a connected worm wheel 504 drives a worm 505 to rotate, so that a bearing platform 508 descends and moves through a movable plate 507, the bearing platform 508 is separated from the placing box containing raw materials, the next discharging operation is effectively facilitated, and the discharging portability of the vanadium-nitrogen alloy processing equipment is effectively improved, when a user descends the supporting platform 508, the first rotating wheel 401 can be rotated, so that the position of the movable platform 404 is shifted, the movable platform 404 is separated from the inside of the machine tool, the user can quickly and conveniently operate the placing box fixed by the chuck 3, the situation of internal construction operation is effectively avoided, the use safety of the user and the unloading portability of the vanadium-nitrogen alloy processing equipment are effectively improved, after the user moves out the movable platform 404, the chuck 3 can be loosened, wherein the chuck 3 adopts the electric chuck 3, so that the user can conveniently operate, clamp and release operations, after the chuck 3 is loosened, the internal aligning plate 701 is elastically reset through the reset spring 708, the position of the placing box is effectively jacked, and the placing box is conveniently taken and used, thereby further improved this vanadium nitrogen alloy processing equipment's portability of unloading, oiling import 601 and oiling export 607 have been seted up to inside bearing at this vanadium nitrogen alloy processing equipment, the user is when lubricating inside the bearing, then can open closing lid 602, to its inside quick oiling lubrication action that carries on, wherein can effectually collect unnecessary lubricating oil through the oily collection box 608 that oiling export 607 meets, thereby the effectual wasting of resources that avoids, reduce the maintenance cost, through the lubrication action, thereby further enlarged this vanadium nitrogen alloy processing equipment's portability and validity of unloading.

The above embodiments are preferred embodiments of the present invention, and those skilled in the art can make variations and modifications to the above embodiments, therefore, the present invention is not limited to the above embodiments, and any obvious improvements, substitutions or modifications made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (4)

1. The utility model provides a discharge mechanism of vanadium nitrogen alloy processing equipment, includes the processing bed body (1), its characterized in that: the processing bed is characterized in that a processing pedestal (2) is installed at the top end of the processing bed body (1), a chuck (3) is arranged at the top of the processing pedestal (2), an unloading transposition mechanism (4) is installed between the chuck (3) and the processing pedestal (2), an unloading lubricating mechanism (6) is arranged inside the unloading transposition mechanism (4), an unloading down-regulation mechanism (5) is installed at the top of the unloading transposition mechanism (4), an unloading resetting mechanism (7) is installed inside the chuck (3), the unloading down-regulation mechanism (5) is internally provided with a screwing head (501), the surface of the right end of the screwing head (501) is connected with a third transmission shaft (502), a retaining sleeve ring (503) is installed outside the third transmission shaft (502), a turbine (504) is arranged outside the third transmission shaft (502), a worm (505) is arranged outside the turbine (504), the top end of the worm (505) is connected with a third movable plate (506), the external thread of the worm (505) is connected with a movable plate (507), a supporting platform (508) is installed at the top end of the movable plate (507), a first sliding block (509) is arranged outside the movable plate (511), and a first sliding block (511) is arranged outside the movable plate (511), the unloading and reversing mechanism (4) is internally provided with a first rotating wheel (401), the top end of the first rotating wheel (401) is provided with a first transmission shaft (402), the outer side of the first transmission shaft (402) is provided with a first guide groove (403), the outer part of the first transmission shaft (402) is in threaded connection with a movable table (404), the inner part of the movable table (404) is provided with a second guide groove (405), the inner part of the second guide groove (405) is connected with a fixing block (406), the inner part of the fixing block (406) is in threaded connection with a second transmission shaft (407), the outer side of the second transmission shaft (407) is connected with a fixing bearing (408), the surface of the right end of the second transmission shaft (407) is provided with a second rotating wheel (405), the unloading and reversing mechanism (7) is internally provided with a reversing plate (701), the outer side of the reversing plate (701) is provided with a second transmission pad (702), the top end of the reversing plate (701) is connected with a first connecting piece (703), the outer side of the first connecting piece (703) is provided with a rotating diagonal rod (705), the outer side of the second connecting piece (706) is provided with a second sliding groove (706), and a second sliding block (706) is provided with a second connecting piece (707), and a second sliding groove (706), and a top position block (709) is arranged outside the alignment plate (701).

2. The discharging mechanism of vanadium-nitrogen alloy processing equipment according to claim 1, characterized in that: the movable plate (507) forms a sliding structure through the first sliding block (509), the first sliding groove (510) and the mounting seat (511), and the first sliding block (509) is symmetrical about the central axis of the movable plate (507).

3. The discharging mechanism of vanadium-nitrogen alloy processing equipment according to claim 1, characterized in that: the movable table (404) and the processing pedestal (2) form a movable structure through a second guide groove (405), and the movable table (404) and the first rotating wheel (401) form a transmission structure through a first transmission shaft (402).

4. The discharging mechanism of vanadium-nitrogen alloy processing equipment according to claim 1, characterized in that: the lubricating mechanism (6) of unloading is inside including oiling import (601), and the top of oiling import (601) is installed and is closed lid (602), the left end surface that closes lid (602) is connected with hinge (603), and closes the right-hand member surface mounting who covers (602) and have first connecting block (604), the bottom of first connecting block (604) is provided with second connecting block (605), and the internal connection of second connecting block (605) has location bolt (606), the bottom of oiling import (601) is provided with oiling export (607), and the bottom of oiling export (607) installs an oil collecting box (608), the inside of oiling export (607) is provided with governing valve (609).

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