CN109279378B - Sagger turning device and automatic discharging system for vanadium-nitrogen alloy production - Google Patents

Abstract

The invention discloses a casket-like bowl turning device and an automatic discharging system for vanadium-nitrogen alloy production, wherein the device comprises a rotating main body, a roller group, a clamping mechanism and a pressing protection mechanism, the rotating main body comprises a rotating main shaft and two turntables penetrating through the rotating main shaft, the roller group is arranged between the two turntables and is used for bearing and rotating a casket-like bowl, the clamping mechanism comprises two clamping components, the clamping components comprise a clamping plate and a clamping plate driving mechanism for driving the clamping plate to horizontally move, the two clamping plate driving mechanisms are respectively arranged on the two turntables, the two clamping plates are symmetrically arranged between the two turntables and positioned above the roller group, the pressing protection mechanism comprises two pressing components, each pressing component comprises a pressing plate and a pressing plate lifting drive for driving the pressing plate to lift, and the two pressing plate lifting drives are respectively arranged on the inner side walls of the two turntables. The system comprises a support, a turnover motor, a receiving hopper and the sagger turnover device, so that the labor production cost is reduced, and the production efficiency is improved.

Description

Sagger turning device and automatic discharging system for vanadium-nitrogen alloy production

Technical Field

The invention relates to vanadium-nitrogen alloy production equipment, in particular to a casket-like bowl turning device and an automatic discharging system for vanadium-nitrogen alloy production.

Background

The vanadium-nitrogen alloy is prepared by adopting a graphite sagger container to bear blocky raw materials and carrying out continuous sintering through a high-temperature nitrogen atmosphere protection push plate kiln to prepare a finished product. At present, all domestic manufacturers producing vanadium-nitrogen alloys can only realize the functions of automatically feeding and discharging graphite saggers for loading materials into and out of a kiln and automatically circularly conveying the graphite saggers in the process of preparing the vanadium-nitrogen alloys. Only a small number of manufacturers use automatic loading devices on the production line of vanadium-nitrogen alloy, but no manufacturers have automatic unloading devices of vanadium-nitrogen alloy, and all the manufacturers carry the vanadium-nitrogen alloy by manpower. Therefore, the production line of the vanadium-nitrogen alloy cannot achieve full automation, and the automatic discharging device becomes a main bottleneck, so that the development of the automatic production line of the vanadium-nitrogen alloy is severely restricted. The main reasons why no automatic discharging device for vanadium-nitrogen alloy is developed are: the vanadium-nitrogen alloy raw material is prepared into irregular blocky adhesive after being sintered by a high-temperature nitrogen atmosphere protection push plate furnace, the volume of the irregular adhesive bonded by the vanadium-nitrogen alloy is large, the mass of the irregular adhesive is heavy, and some blocky particles which are not bonded together are scattered in a graphite sagger sometimes, so that any clamp cannot be developed to take the material out of the graphite sagger, and the material can be completely taken out without any expectation.

In recent years, due to the rapid development of new energy lithium battery materials, the application of automation equipment in the thermal engineering field to the lithium battery material production industry has been gradually developed, and related automation equipment such as an automatic pot loading machine and an automatic discharging machine has appeared for the automation equipment in the lithium battery material production and preparation field. However, the development of the application of the thermal automation equipment in the vanadium-nitrogen alloy production industry is laggard, so that the simple cycle of the sagger can be realized, and all other operations need to be manually participated. Because the severe environmental conditions such as high environmental temperature, large dust and the like of a vanadium-nitrogen alloy production site are not suitable for long-time work of personnel on the site, and the prepared vanadium-nitrogen alloy has large volume, heavy mass and high labor intensity, the automation development of the vanadium-nitrogen alloy production industry is urgent, but the discharge device is not successfully developed due to the limitation of the process requirement of the vanadium-nitrogen alloy, so the vanadium-nitrogen alloy production site becomes the bottleneck of the full-automatic equipment development of the industry.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a sagger overturning device which is simple in structure, can quickly pour materials and is stable and reliable in operation, and an automatic discharging system for vanadium-nitrogen alloy production, which greatly reduces the manual production cost of vanadium-nitrogen alloy and improves the production efficiency.

In order to solve the technical problems, the invention adopts the following technical scheme:

a casket-like bowl turning device, which comprises a rotating main body, a roller group, a clamping mechanism and a pressing protection mechanism, the rotating main body comprises a rotating main shaft and two turntables fixedly arranged on the rotating main shaft in a penetrating way, the two turntables are oppositely arranged at intervals, the roller group is arranged between the two turntables and is used for bearing and rotating saggars, the clamping mechanism comprises two clamping components, the clamping components comprise a clamping plate and a clamping plate driving mechanism for driving the clamping plate to horizontally move, the two clamping plate driving mechanisms are respectively arranged on the two turntables, the two clamping plates are symmetrically arranged between the two turntables and are positioned above the roller group, the pressing protection mechanism comprises two pressing components, the pressing components comprise pressing plates and pressing plate lifting drives for driving the pressing plates to lift, the pressing plate lifting drives are arranged on the inner side walls of the two turntables respectively, and the pressing plates are located above the clamping plates.

As a further improvement of the above technical solution:

each pressing plate is provided with a sagger side wall protection plate which can descend along with the pressing plate and is inserted into the sagger, and the sagger side wall protection plate is of a U-shaped structure.

The sagger overturning device further comprises a limiting and blocking mechanism, the limiting and blocking mechanism comprises a baffle, a rotating shaft and a driving cylinder, the two ends of the rotating shaft are respectively arranged on the two turnplates in a penetrating mode, the baffle is fixed on the rotating shaft, the driving cylinder is used for driving the rotating shaft to rotate, and the baffle is located below the roller set and can upwards extend out of the roller set along with the rotation of the rotating shaft.

The clamping assembly further comprises a clamping guide support, the clamping guide support comprises a connecting rod and two clamping guide rods, the connecting rod is connected to one end of each of the two clamping guide rods, the clamping plate is connected to the other end of each of the two clamping guide rods, the connecting rod is located on the outer side of the turntable, the clamping guide rods are slidably arranged on the turntable in a penetrating mode, a sliding sleeve is arranged between the clamping guide rods and the turntable, the clamping plate driving mechanism is a clamping plate cylinder, the fixed end of the clamping plate cylinder is fixed to the turntable, and the extending end of the clamping plate cylinder is.

The pressing assembly further comprises a pressing guide support, the pressing guide support comprises two pressing guide rods, a linear guide sleeve is arranged on the inner side wall of the rotary table, the pressing guide rods penetrate through the linear guide sleeve, the pressing plate is connected to the upper ends of the two pressing guide rods, the pressing plate is driven to lift and is a pressing plate cylinder, the fixed end of the pressing plate cylinder is fixed on the rotary table, and the extending end of the pressing plate cylinder is connected with the pressing plate.

And shock absorption pads are arranged on the surfaces of the clamping plates and the pressing plates, which are in contact with the saggar.

Be equipped with sagger direction subassembly on the inside wall of every carousel, sagger direction subassembly includes the extension board and locates one row of guide roller on the extension board, one row of guide roller sets up along the sagger direction of motion.

The roller set comprises a driving roller and a plurality of driven rollers which are parallel to each other and arranged in a row, the two ends of the driving roller and the two ends of the driven rollers are respectively installed on the turntables, the driving roller and the driven rollers are in chain transmission, the driving roller is connected with a driving motor, at least two rows of driving rollers are respectively fixedly sleeved on the driving roller and the driven rollers, and the sagger is located on the driving rollers.

The utility model provides an automatic discharge system of vanadium nitrogen alloy production, includes support, upset motor, connects hopper and foretell casket-like bowl turning device, casket-like bowl turning device installs on the support through rotatory main shaft both ends, the upset motor is connected with rotatory main shaft, it is located casket-like bowl turning device's below to connect the hopper.

As a further improvement of the above technical solution:

the support is provided with a supporting roller below the turntable, and the supporting roller is in rolling contact with the periphery of the turntable.

Compared with the prior art, the invention has the advantages that:

(1) the sagger overturning device is provided with the clamping mechanism and the pressing mechanism, so that the vibration of the graphite sagger during pouring of materials can be reduced, the graphite sagger is effectively protected, the service life of the graphite sagger is prolonged, meanwhile, the materials in the graphite sagger can be completely poured out quickly, no residual reservation is left, the pouring process is finished, the device is simple in structure, stable and reliable in operation, and the production efficiency is improved.

(2) The sagger overturning device provided by the invention firstly proposes a scheme of adopting a sagger side wall protection plate for vanadium-nitrogen alloy production, can effectively avoid the influence of the vanadium-nitrogen alloy on the graphite sagger side wall in the unloading process, and ensures the service life of the graphite sagger.

(3) The automatic discharging system for vanadium-nitrogen alloy production is a special discharging device developed for the vanadium-nitrogen alloy production industry, has the advantages of strong pertinence, simple structure and stable and reliable operation, can break the development bottleneck of vanadium-nitrogen alloy automatic equipment, improves the overall automation level of the industry, greatly reduces the manual production cost of vanadium-nitrogen alloy, and improves the production efficiency.

Drawings

Fig. 1 is a schematic perspective view (a) of embodiment 1 of the present invention.

Fig. 2 is a schematic perspective view of embodiment 1 of the present invention (ii).

Fig. 3 is a schematic structural view of a blocking mechanism in embodiment 1 of the present invention.

Fig. 4 is a schematic structural diagram of embodiment 2 of the present invention.

The reference numerals in the figures denote:

100. a rotating body; 110. rotating the main shaft; 120. a turntable; 130, 130; a support shaft; 200. a roller set; 210. a drive roll; 220. a driven roller; 230. a drive motor; 240. driving the roller; 300. a clamping assembly; 310. a splint; 320. a splint driving mechanism; 330. clamping the guide bracket; 331. a connecting rod; 332. clamping the guide rod; 334. a sliding sleeve; 400. a compression assembly; 410. pressing a plate; 420. the pressing plate is driven to lift; 430. pressing the guide bracket; 431. compressing the guide rod; 432. a linear guide sleeve; 440. a sagger side wall protection plate; 500. a blocking mechanism; 510. a baffle plate; 520. a rotating shaft; 530. blocking the driving cylinder; 600. a shock pad; 700. a sagger guide assembly; 710. a support plate; 720. a guide roller; 810. a support; 811. a support roller; 820. turning over a motor; 830. a receiving hopper.

Detailed Description

The invention is described in further detail below with reference to the figures and specific examples of the specification.

Example 1

As shown in fig. 1 to 3, the sagger turning device of the present embodiment includes a rotating body 100, a roller set 200, a clamping mechanism and a pressing protection mechanism, wherein the rotating body 100 includes a rotating main shaft 110 and two rotating discs 120 fixedly disposed on the rotating main shaft 110, the two rotating discs 120 are oppositely disposed at an interval, the roller set 200 is mounted between the two rotating discs 120 for rotating a sagger (not shown in the figure), the clamping mechanism includes two clamping assemblies 300, the clamping assemblies 300 include a clamping plate 310 and a clamping plate driving mechanism 320 for driving the clamping plate 310 to move horizontally, the two clamping plate driving mechanisms 320 are respectively disposed on the two rotating discs 120, the two clamping plates 310 are symmetrically disposed between the two rotating discs 120 and above the roller set 200, the pressing protection mechanism includes two pressing assemblies 400, the pressing assemblies 400 include a pressing plate 410 and a pressing plate lifting driver 420 for driving the pressing plate 410 to lift, the two pressing plate lifting drivers 420 are respectively disposed on inner sidewalls of, the platen 410 is positioned above the clamping plate 310.

When the saggar is conveyed by the roller set 200 and is not poured, the two clamping plates 310 are in a retraction state, the two pressing plates 410 are in a lifting position appointed state and are positioned above the saggar, when the saggar reaches a pouring position, the two clamping components 300 are started, the two clamping plates 310 move oppositely to clamp the bottom of the saggar, meanwhile, the two pressing plates 410 descend to be tightly pressed on two sides of the top of the saggar, then the rotating main shaft 110 is started to rotate, the rotating disc 120 drives the roller set 200 and the saggar to rotate, the saggar is tightly clamped and tightly pressed on the roller set 200 and cannot fall down, the vanadium-nitrogen alloy material in the saggar falls in, and the material receiving device is used for receiving the material. The clamping plate 310 clamps the bottom of the sagger because the side wall of the sagger is oxidized and thinned when the sagger passes through several continuous production processes, so the side wall can not be clamped to avoid breaking the side wall of the sagger. The device design has clamping mechanism and hold-down mechanism, can reduce the graphite sagger and reduce vibrations when empting the material, the effectual graphite sagger that has protected has prolonged graphite sagger life, and the material with in the graphite sagger that also can be quick simultaneously is whole to be poured, can not leave any remaining reservation, has accomplished the pouring process, and the device simple structure, operation are reliable and stable, have improved production efficiency.

In this embodiment, in order to increase the strength between the two turntables 120, a plurality of support shafts 130 are provided therebetween for supporting.

In this embodiment, each pressing plate 410 is provided with a saggar side wall protection plate 440 which can descend along with the pressing plate 410 and is inserted into the saggar, the saggar side wall protection plate 440 is of a U-shaped structure, the U-shaped structures on the two sides form a frame with only four side faces, the frame is inserted into the saggar in the descending process, the four side faces protect the four side walls of the saggar, materials can be protected from impacting the graphite saggar side wall in the overturning and discharging process, and the graphite saggar is effectively protected. The device can effectively avoid vanadium nitrogen alloy to the influence that the in-process led to the fact graphite sagger lateral wall of unloading, has guaranteed graphite sagger's life. The vanadium-nitrogen alloy raw material becomes an irregular large-scale block-shaped structure after being sintered and prepared by a high-temperature nitrogen atmosphere protection push plate furnace, and is accompanied with shrinkage, so that a small gap is formed between the vanadium-nitrogen alloy material and the saggar side wall, and the gap is enough for the saggar side wall protection plate 440 to be easily inserted.

In this embodiment, the roller set 200 includes a driving roller 210 and a plurality of driven rollers 220 arranged in parallel in a row, two ends of the driving roller 210 and the driven rollers 220 are respectively installed on the turntables 120, the driving roller 210 and the driven rollers 220 are driven by a chain, the driving roller 210 is connected with a driving motor 230 (a speed reducer is arranged between the driving roller 210 and the driven rollers), specifically, a driving sprocket is arranged on the driving roller 210, a driven sprocket is arranged on each driven roller 220, and the driving sprocket and the driven sprocket are driven by a chain. Two rows of driving rollers 240 are respectively fixedly sleeved on the driving roller 210 and the driven roller 220, and the saggar is positioned on the driving rollers 240, so that the abrasion between the saggar and the driving roller 210 or the driven roller 220 is reduced. The sagger guide assembly 700 is arranged on the inner side wall of each rotary table 120, the sagger guide assembly 700 comprises a support plate 710 and a row of guide rollers 720 arranged on the support plate 710, the row of guide rollers 720 is arranged along the movement direction of the sagger, and the sagger guide assemblies 700 on two sides guide the advancing of the sagger to prevent the deflection of the sagger.

In addition to this embodiment, the number of cards driven by the drive roller 240 may be three or four, depending primarily on the length of the drive roller 210.

In this embodiment, the sagger turning device further comprises a limiting blocking mechanism 500, the limiting blocking mechanism 500 includes a baffle 510, a rotating shaft 520 and a driving blocking cylinder 530, two ends of the rotating shaft are respectively penetrated through the two rotating discs 120, the baffle 510 is fixed on the rotating shaft 520, the driving blocking cylinder 530 is fixed on one of the rotating discs 120 and is used for driving the rotating shaft 520 to rotate, the baffle 510 is located below the roller set 200, the baffle 510 can extend upwards out of the roller set 200 along with the rotation of the rotating shaft 520 in a gap between two adjacent driven rollers 220 and is used for blocking an advancing sagger and positioning the sagger on the roller set 200 during material pouring, and the baffle 510 can also position the sagger on the roller set 200 towards the lower roller set 200 so that the sagger after material pouring can continue.

In this embodiment, the clamping assembly 300 further includes a clamping guide bracket 330, the clamping guide bracket 330 includes a connecting rod 331 and two clamping guide rods 332, the connecting rod 331 is connected to one end of the two clamping guide rods 332, the clamping plate 310 is connected to the other end of the two clamping guide rods 332, the connecting rod 331 is located outside the rotary table 120, the clamping guide rods 332 are slidably disposed on the rotary table 120, a sliding sleeve 334 is disposed between the two clamping guide rods and the rotary table, the clamping plate driving mechanism 320 is a clamping plate cylinder, a fixed end of the clamping plate cylinder is fixed on the rotary table 120, and an extending end of the clamping plate cylinder. The surfaces of the clamping plate 310 and the pressing plate 410, which are in contact with the saggar, are provided with shock-absorbing pads 600, so that the effect of buffering during clamping is achieved, and the saggar is prevented from being damaged by the clamps. The two clamp plate cylinders extend towards each other to drive the two clamp plates 310 to clamp the bottom of the sagger.

The pressing assembly 400 further comprises a pressing guide support 430, the pressing guide support 430 comprises two pressing guide rods 431, a linear guide sleeve 432 is arranged on the inner side wall of the rotary table 120, the pressing guide rods 431 penetrate through the linear guide sleeve 432, the pressing plate 410 is connected to the upper ends of the two pressing guide rods 431, the lower ends of the two pressing guide rods 431 are fixed on the support plate 710, the pressing plate lifting drive 420 is a pressing plate cylinder, the fixed end of the pressing plate cylinder is fixed on the rotary table 120, and the extending end of the pressing plate cylinder is connected with the pressing plate 410. The surface of the pressure plate 410 contacting the saggar is provided with a shock pad 600. The pressing plate cylinder drives the pressing plate 410 to ascend and descend, and the pressing guide rod 431 ascends and descends in the linear guide sleeve 432.

Example 2

As shown in fig. 4, the automatic discharging system for vanadium-nitrogen alloy production according to this embodiment includes a bracket 810, a turning motor 820, a receiving hopper 830, and the sagger turning device according to embodiment 1, the sagger turning device is mounted on the bracket 810 through two ends of the rotating spindle 110, the turning motor 820 is connected to the rotating spindle 110, and the receiving hopper 830 is located below the sagger turning device. The turnover motor 820 is connected with the rotating main shaft 110 through a speed reducer and a coupler.

In this embodiment, a support roller 811 is provided below the turntable 120 on the holder 810, and the support roller 811 is in rolling contact with the outer periphery of the turntable 120. The support roller 811 serves to support the turntable 120, thereby improving the overall stability.

The automatic discharging system is a special discharging device developed for the vanadium-nitrogen alloy production industry, has strong pertinence, simple structure and stable and reliable operation, can break the development bottleneck of vanadium-nitrogen alloy automatic equipment, promotes the overall automation level of the industry, greatly reduces the manpower production cost of vanadium-nitrogen alloy, and improves the production efficiency.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to be limited thereto. Those skilled in the art can make numerous possible variations and modifications to the present invention, or modify equivalent embodiments to equivalent variations, without departing from the scope of the invention, using the teachings disclosed above. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention should fall within the protection scope of the technical scheme of the present invention, unless the technical spirit of the present invention departs from the content of the technical scheme of the present invention.

Claims (9)

1. The utility model provides a casket-like bowl turning device which characterized in that: comprises a rotating main body (100), a roller group (200), a clamping mechanism and a pressing protection mechanism, wherein the rotating main body (100) comprises a rotating main shaft (110) and two turntables (120) fixedly arranged on the rotating main shaft (110) in a penetrating way, the two turntables (120) are arranged at intervals relatively, the roller group (200) is arranged between the two turntables (120) and is used for bearing and rotating a saggar, the clamping mechanism comprises two clamping components (300), the clamping components (300) comprise clamping plates (310) and clamping plate driving mechanisms (320) driving the clamping plates (310) to move horizontally, the two clamping plate driving mechanisms (320) are respectively arranged on the two turntables (120), the two clamping plates (310) are symmetrically arranged between the two turntables (120) and are positioned above the roller saggar group (200), the two clamping plates (310) are used for clamping the bottom of the saggar, the pressing protection mechanism comprises two pressing components (400), compress tightly subassembly (400) and include clamp plate lift drive (420) that clamp plate (410) and drive clamp plate (410) go up and down, two clamp plate lift drive (420) are located respectively on the inside wall of two carousel (120), clamp plate (410) are located the top of splint (310), are equipped with on every clamp plate (410) and can descend along with clamp plate (410) and insert casket-like bowl lateral wall protection shield (440) in the casket-like bowl, casket-like bowl lateral wall protection shield (440) are the U-shaped structure.

2. The sagger turning device according to claim 1, wherein: the sagger overturning device further comprises a limiting and blocking mechanism (500), the limiting and blocking mechanism (500) comprises a baffle (510), a rotating shaft (520) and a blocking driving cylinder (530), two ends of the rotating shaft (520) are respectively arranged on the two turntables (120) in a penetrating mode, the baffle (510) is fixed on the rotating shaft (520), the blocking driving cylinder (530) is used for driving the rotating shaft (520) to rotate, and the baffle (510) is located below the roller group (200) and can upwards extend out of the roller group (200) along with the rotation of the rotating shaft (520).

3. Sagger overturning device according to claim 1 or 2, characterized in that: clamping assembly (300) is still including pressing from both sides tight guide bracket (330), press from both sides tight guide bracket (330) including connecting rod (331) and two tight guide bars (332) of clamp, connecting rod (331) are connected in the one end that two tight guide bars (332) of clamp, splint (310) are connected in the other end that two tight guide bars (332) of clamp, connecting rod (331) are located the outside of carousel (120), it wears to locate carousel (120) and is equipped with sliding sleeve (334) between the two to press from both sides tight guide bar (332) and slide, splint actuating mechanism (320) are the splint cylinder, splint cylinder stiff end is fixed on carousel (120), stretches out the end and is connected with splint (310).

4. The sagger turning device according to claim 3, wherein: compress tightly subassembly (400) still including compressing tightly guide bracket (430), compress tightly guide bracket (430) and include that two compress tightly guide bar (431), be equipped with sharp guide pin bushing (432) on carousel (120) inside wall, compress tightly guide bar (431) and wear to locate on sharp guide pin bushing (432), clamp plate (410) are connected in the upper end that two compress tightly guide bar (431), clamp plate lift drive (420) are the clamp plate cylinder, clamp plate cylinder stiff end is fixed on carousel (120), and the end that stretches out is connected with clamp plate (410).

5. The sagger turning device according to claim 4, wherein: shock absorption pads (600) are arranged on the surfaces, in contact with the saggars, of the clamping plate (310) and the pressing plate (410).

6. Sagger overturning device according to claim 1 or 2, characterized in that: the sagger guide assembly (700) is arranged on the inner side wall of each rotary table (120), the sagger guide assembly (700) comprises a support plate (710) and a row of guide rollers (720) arranged on the support plate (710), and the row of guide rollers (720) are arranged along the movement direction of the sagger.

7. Sagger overturning device according to claim 1 or 2, characterized in that: the roller set (200) comprises a driving roller (210) and a plurality of driven rollers (220) which are arranged in a row in parallel, two ends of the driving roller (210) and two ends of the driven rollers (220) are respectively installed on the turntables (120), the driving roller (210) and the driven rollers (220) are in chain transmission, the driving roller (210) is connected with a driving motor (230), at least two rows of driving rollers (240) are respectively and fixedly sleeved on the driving roller (210) and the driven rollers (220), and the saggars are located on the driving rollers (240).

8. The utility model provides an automatic discharge system of vanadium nitrogen alloy production which characterized in that: comprises a bracket (810), a turning motor (820), a receiving hopper (830) and the sagger turning device of any claim 1 to 7, wherein the sagger turning device is arranged on the bracket (810) through two ends of a rotating main shaft (110), the turning motor (820) is connected with the rotating main shaft (110), and the receiving hopper (830) is positioned below the sagger turning device.

9. The automatic discharging system for vanadium-nitrogen alloy production according to claim 8, characterized in that: supporting rollers (811) are arranged below the rotary table (120) on the support (810), and the supporting rollers (811) are in rolling contact with the periphery of the rotary table (120).

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