CN210935905U - Vanadium-nitrogen alloy separation equipment - Google Patents
Vanadium-nitrogen alloy separation equipment Download PDFInfo
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- CN210935905U CN210935905U CN201921695014.4U CN201921695014U CN210935905U CN 210935905 U CN210935905 U CN 210935905U CN 201921695014 U CN201921695014 U CN 201921695014U CN 210935905 U CN210935905 U CN 210935905U
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- vanadium
- nitrogen alloy
- connecting rod
- plate
- sieve
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Abstract
The utility model discloses a vanadium nitrogen alloy splitter relates to vanadium nitrogen alloy's processing technology field, including a feeding section of thick bamboo and box, a feeding section of thick bamboo sets up directly over the box, all is provided with the sieve of symmetry in the upper surface both sides of box simultaneously, the sieve below that is in the homonymy is provided with the album cinder plate, and all incline the setting and have the vibrating mechanism who makes both trembles on sieve and the album cinder plate that corresponds, the bottom surface middle part fixedly connected with supporting seat of a feeding section of thick bamboo, a terminal surface of the bottom surface fixedly connected with pneumatic cylinder of supporting seat, and another terminal surface fixed connection of pneumatic cylinder is in the backup pad, and the backup pad is the one end of the slide bar that the surperficial both sides fixed connection symmetry set up of pneumatic cylinder dorsad, and the interior bottom surface that the. The vanadium-nitrogen alloy ball separation and impurity removal device has the advantages that the automatic separation and impurity removal process of the vanadium-nitrogen alloy ball is realized, the automatic discharge function of broken slag and dust is realized, the purpose of being convenient to recycle is achieved, and energy conservation and environmental protection are realized.
Description
Technical Field
The utility model relates to a processing technology field of vanadium nitrogen alloy specifically is a vanadium nitrogen alloy splitter.
Background
The vanadium-nitrogen alloy can be used as a novel steel additive to replace ferrovanadium for producing microalloyed steel, and can improve the comprehensive mechanical properties of the steel, such as strength, toughness, ductility, thermal fatigue resistance and the like, and ensure that the steel has good weldability when added to the steel; under the condition of achieving the same strength, the addition of the vanadium-nitrogen alloy can save 30-40% of vanadium compared with the addition of vanadium, thereby reducing the cost; vanadium-nitrogen alloy has been widely used by domestic and foreign steel mills, and the production process and production equipment thereof have been developed rapidly.
Vanadium-nitrogen alloy is generally processed and produced by adopting a ball making process, after the vanadium-nitrogen alloy is made into a spherical shape, the vanadium-nitrogen alloy needs to be sent into a high-temperature furnace for calcination, the sintered vanadium-nitrogen alloy balls are adhered together and need to be knocked and separated before being packaged, and the process can generate slag and dust, pollute the environment and influence the health of operators. The produced slag and dust also have great recycling value.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a vanadium nitrogen alloy splitter to solve the problem that proposes among the above-mentioned background art.
In order to achieve the above object, the utility model provides a following technical scheme:
the utility model provides a vanadium nitrogen alloy splitter, includes a feeding section of thick bamboo and box, a feeding section of thick bamboo sets up directly over the box, and the top of box is open structure, all is provided with the sieve of symmetry in the upper surface both sides of box simultaneously, is provided with the collection cinder plate below the sieve that is in the homonymy, and all inclines to set up and have the vibrating mechanism who makes both trembles on sieve and the collection cinder plate that corresponds, the bottom surface middle part of a feeding section of thick bamboo is connected with the supporting seat, and the bottom surface of supporting seat is connected with the terminal surface of pneumatic cylinder, and another terminal surface of pneumatic cylinder is connected in the backup pad, and the backup pad is connected the one end of the slide bar that the symmetry set up dorsad to the surperficial both.
As a further aspect of the present invention: the lower edges of the two sides of the feeding cylinder are connected with inclined discharging pipes, electromagnetic valves are installed on the discharging pipes, and a material rolling plate is connected below the inner cavity of the feeding cylinder.
As a further aspect of the present invention: the interior bottom surface of a feeding cylinder still is connected with the motor, and the output of motor passes through the one end of shaft coupling connection bull stick, and the other end of bull stick extends into the inner chamber of a feeding cylinder and the fixed cover is equipped with a plurality of stirring rods of crisscross arranging.
As a further aspect of the present invention: the vibrating mechanism comprises a lifting plate connected to the output end of the hydraulic cylinder, through holes for the sliding rods to penetrate through and be connected with the sliding rod in a sliding mode are formed in two sides of the surface of the lifting plate, one ends of the two lifting plates are connected with connecting rods C in a rotating mode through rotating shafts in a symmetrical mode, the other ends of the two connecting rods C are connected with one ends of moving blocks in a rotating mode upwards in a separated mode in an inclined mode, the top ends of the two connecting rods C are hinged to the other connecting rods C through the rotating shafts respectively, and the top ends of the two connecting rods C.
As a further aspect of the present invention: the movable block is far away from the one side upper and lower extreme of connecting rod C and rotates the one end of connecting rod B and connecting rod A through the pivot respectively, and connecting rod B and connecting rod A's the other end articulates respectively in the bottom surface middle part of sieve and the top surface middle part of collection sediment board, and the one end both sides face of keeping away from corresponding connecting rod B of sieve all seted up the locating hole and rotate the corresponding side top of connecting the box through the pivot, and the one side that connecting rod A was kept away from to collection sediment board rotates through the pivot and connects the opening that the box corresponds the side and offers.
As a further aspect of the present invention: and a sliding groove for the sliding connection of the baffle is formed in the corresponding side surface of the opening end of the sieve plate.
Compared with the prior art, the beneficial effects of the utility model are that:
the sieve plate is used for separating vanadium-nitrogen alloy balls from slag and dust mixed in the vanadium-nitrogen alloy balls, and the vibrating and shaken slag and dust fall onto the slag collecting plate and are discharged, so that the automatic separation and impurity removal process of the vanadium-nitrogen alloy balls is realized, the automatic discharge function of the slag and the dust is realized, the purpose of convenient recovery and reutilization is achieved, and the energy conservation and environmental protection are realized; after the vanadium-nitrogen alloy ball can be guaranteed to be fully shaken, the baffle is drawn out to complete the blanking process of the vanadium-nitrogen alloy ball, and the vanadium-nitrogen alloy ball is shaken off the slag collecting plate, so that the semi-automatic process is realized, and the production efficiency is improved.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a schematic structural view of the middle sieve plate of the present invention.
As shown in the figure: the device comprises a feeding barrel 1, a box body 2, a sieve plate 3, a baffle plate 4, a supporting seat 5, a slag collecting plate 6, a connecting rod A7, a hydraulic cylinder 8, a lifting plate 9, a sliding rod 10, a moving block 11, a rotating rod 12, a motor 13, an electromagnetic valve 14, a positioning hole 15, a connecting rod B16 and a connecting rod C17.
Detailed Description
The technical solution of the present patent will be described in further detail with reference to the following embodiments.
Please refer to fig. 1-2, in the embodiment of the utility model, a vanadium nitrogen alloy splitter, including a feeding section of thick bamboo 1 and box 2, a feeding section of thick bamboo 1 sets up directly over box 2, and the top of box 2 is open structure, all be provided with the sieve 3 of symmetry simultaneously in the upper surface both sides of box 2, be provided with album sediment board 6 below the sieve 3 that is in the homonymy, and sieve 3 and the corresponding collection sediment board 6 on all incline to set up and have the vibrating mechanism who makes both trembles, sieve 3 is used for the separation of vanadium nitrogen alloy ball and wherein the disintegrating slag that is mingled with and dust, and the disintegrating slag that shakes off through the vibration drops on album sediment board 6 with the dust and discharges, the automatic separation edulcoration process of vanadium nitrogen alloy ball has not only been realized, disintegrating slag and the automatic function of discharging of dust have still been realized, reach the purpose of being convenient for recovery reuse, energy-concerving and environment-protective.
The lower edges of two sides of the feeding cylinder 1 are fixedly connected with inclined discharging pipes, the discharging pipes are provided with electromagnetic valves 14, the lower part of the inner cavity of the feeding cylinder 1 is fixedly connected with a material rolling plate, so that the effect of guiding the vanadium-nitrogen alloy balls to the discharging pipes for discharging is achieved,
further, the interior bottom surface of a feeding section of thick bamboo 1 is fixedly connected with motor 13 still, and the output of motor 13 passes through the one end of coupling joint bull stick 12, and the other end of bull stick 12 extends into the inner chamber of a feeding section of thick bamboo 1 and fixed the cover is equipped with a plurality of stirring rods of arranging crisscross, stirs the vanadium nitrogen alloy ball of piling up in a feeding section of thick bamboo 1 through the stirring rod, avoids the mutual adhesion of vanadium nitrogen alloy ball to cause the condition of ejection of compact jam, guarantees the smooth and easy nature of discharging pipe row material.
The bottom surface middle part fixedly connected with supporting seat 5 of a feeding section of thick bamboo 1, the bottom surface fixedly connected with pneumatic cylinder 8's of supporting seat 5 a terminal surface, and another terminal surface fixed connection of pneumatic cylinder 8 is in the backup pad, and the backup pad is back to the one end of the slide bar 10 of pneumatic cylinder 8's surperficial both sides fixed connection symmetry setting, and the interior bottom surface that other end fixed connection box 2 of slide bar 10 corresponds.
Vibration mechanism includes fixed connection in the lifter plate 9 on the 8 output of pneumatic cylinder, the perforation that supplies slide bar 10 to run through and sliding connection is all seted up to the surperficial both sides of lifter plate 9, thereby pneumatic cylinder 8's output can drive lifter plate 9 and carry out reciprocating motion from top to bottom, and the both sides of lifter plate 9 all rotate the one end of connecting rod C17 through the pivot symmetry, the other end of two connecting rods C17 is from the slope up and rotate the one end of connection at movable block 11, and the top of two connecting rods C17 articulates other connecting rod C17 respectively through the pivot, and two connecting rod C17 tops that are in the upper portion rotate the corresponding side of connection supporting seat 5, thereby when lifter plate 9 when going up and down through connecting rod C17 group drive movable block 11 and remove.
The lower extreme rotates the one end of connecting rod B16 and connecting rod A7 through the pivot respectively on the side that connecting rod C17 is kept away from to movable block 11, and connecting rod B16 and connecting rod A7's the other end articulates in the middle part of the bottom surface of sieve 3 and the top surface middle part of collection sediment board 6 respectively, the locating hole 15 has all been seted up and has rotated the corresponding side top of connecting box 2 through the pivot to the one end both sides face that keeps away from corresponding connecting rod B16 of sieve 3, and the one side that connecting rod A7 was kept away from to collection sediment board 6 rotates the opening global of connecting box 2 corresponding side through the pivot and seting up, and then can drive connecting rod A7 and connecting rod B16 through the removal of movable block 11 and.
Further, the corresponding side of open end of sieve 3 is seted up and is supplied the spout of baffle 4 sliding connection, can guarantee that the vanadium nitrogen alloy ball carries out abundant shake back, then takes out baffle 4 and accomplishes the unloading process of vanadium nitrogen alloy ball, and shakes off slag collecting plate 6 to slag collecting plate 6 and shake gradually, has realized the semi-automatization process, has improved production efficiency.
In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.
Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.
Claims (6)
1. A vanadium-nitrogen alloy separation device comprises a feeding cylinder (1) and a box body (2), it is characterized in that the feeding cylinder (1) is arranged right above the box body (2), the top of the box body (2) is of an open structure, meanwhile, both sides of the upper surface of the box body (2) are provided with symmetrical sieve plates (3), a slag collecting plate (6) is arranged below the sieve plates (3) at the same side, the sieve plate (3) and the corresponding slag collecting plate (6) are both obliquely arranged and are provided with vibrating mechanisms which enable the sieve plate and the slag collecting plate to shake, the middle part of the bottom surface of the feeding cylinder (1) is connected with a supporting seat (5), the bottom surface of the supporting seat (5) is connected with one end surface of a hydraulic cylinder (8), the other end surface of the hydraulic cylinder (8) is connected on a supporting plate, and two sides of the surface of the supporting plate back to the hydraulic cylinder (8) are connected with one ends of symmetrically arranged slide bars (10), and the other end of the slide rod (10) is connected with the corresponding inner bottom surface of the box body (2).
2. The vanadium-nitrogen alloy separation equipment according to claim 1, wherein the lower edges of two sides of the feeding cylinder (1) are connected with inclined discharge pipes, the discharge pipes are provided with electromagnetic valves (14), and a rolling plate is connected below the inner cavity of the feeding cylinder (1).
3. The vanadium-nitrogen alloy separation equipment as claimed in claim 1, wherein the inner bottom surface of the feeding cylinder (1) is further connected with a motor (13), the output end of the motor (13) is connected with one end of a rotating rod (12) through a coupler, and the other end of the rotating rod (12) extends into the inner cavity of the feeding cylinder (1) and is fixedly sleeved with a plurality of stirring rods which are arranged in a staggered mode.
4. The vanadium-nitrogen alloy separation device according to claim 1, wherein the vibration mechanism comprises a lifting plate (9) connected to the output end of the hydraulic cylinder (8), both sides of the surface of the lifting plate (9) are provided with through holes for the sliding rod (10) to pass through and be slidably connected, both sides of the lifting plate (9) are rotatably connected to one end of the connecting rod C (17) through a rotating shaft, the other ends of the two connecting rods C (17) are obliquely upward and rotatably connected to one end of the moving block (11), the top ends of the two connecting rods C (17) are respectively hinged to the other connecting rod C (17) through a rotating shaft, and the top ends of the two connecting rods C (17) at the upper part are rotatably connected to the corresponding side surface of the support base (5).
5. The vanadium-nitrogen alloy separation device according to claim 4, wherein the upper end and the lower end of one side of the moving block (11) far away from the connecting rod C (17) are respectively rotatably connected with one end of the connecting rod B (16) and one end of the connecting rod A (7) through a rotating shaft, the other ends of the connecting rod B (16) and the connecting rod A (7) are respectively hinged with the middle of the bottom surface of the sieve plate (3) and the middle of the top surface of the slag collecting plate (6), two side surfaces of one end of the sieve plate (3) far away from the corresponding connecting rod B (16) are respectively provided with a positioning hole (15) and are rotatably connected with the top end of the corresponding side of the box body (2) through the rotating shaft, and one side of the slag collecting plate (6) far away from the connecting rod A (7) is.
6. The vanadium-nitrogen alloy separation equipment according to claim 1, wherein the side of the sieve plate (3) corresponding to the open end is provided with a chute for the sliding connection of the baffle (4).
Priority Applications (1)
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CN201921695014.4U CN210935905U (en) | 2019-10-11 | 2019-10-11 | Vanadium-nitrogen alloy separation equipment |
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CN201921695014.4U CN210935905U (en) | 2019-10-11 | 2019-10-11 | Vanadium-nitrogen alloy separation equipment |
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CN210935905U true CN210935905U (en) | 2020-07-07 |
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CN201921695014.4U Expired - Fee Related CN210935905U (en) | 2019-10-11 | 2019-10-11 | Vanadium-nitrogen alloy separation equipment |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114433466A (en) * | 2021-12-22 | 2022-05-06 | 浙江交投丽新矿业有限公司 | Pollution-free basalt ore dry-process production line |
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2019
- 2019-10-11 CN CN201921695014.4U patent/CN210935905U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114433466A (en) * | 2021-12-22 | 2022-05-06 | 浙江交投丽新矿业有限公司 | Pollution-free basalt ore dry-process production line |
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GR01 | Patent grant | ||
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CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20200707 Termination date: 20201011 |