CN214537406U - Loading attachment is used in vanadium nitrogen alloy production - Google Patents

Abstract

The utility model belongs to the technical field of vanadium nitrogen alloy preparation, a loading attachment is used in vanadium nitrogen alloy production is disclosed, its technical essential is: including two sets of bottom plates, the common fixed mounting of lateral wall that the bottom plate deviates from the supporting leg has the mounting panel of two sets of relative rectangular shapes of placing, two sets of the relative both sides wall of mounting panel rotates jointly and installs the axis of rotation, the common sliding connection in circumference surface of two sets of axis of rotation has the drive belt, the relative both sides wall of two sets of mounting panels rotates jointly and installs the dwang that the multiunit is located drive belt one side, the circumference fixed surface of dwang installs and cleans the roller, clean roller surface mounting have evenly distributed with drive belt surface contact's soft brush, annular conveyer belt internally mounted has the vibration subassembly that is located between two sets of mounting panels, install jointly between the relative both sides wall of two sets of mounting panels and clean the subassembly that sweeps of roller interval distribution.

Description

Loading attachment is used in vanadium nitrogen alloy production

Technical Field

The utility model relates to a vanadium nitrogen alloy preparation technical field specifically is a loading attachment is used in vanadium nitrogen alloy production.

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.

After the vanadium-nitrogen alloy is processed into a cylindrical shape, the vanadium-nitrogen alloy needs to be sent into a high-temperature furnace for calcination, and due to the influence of factors such as pressure in the forming process, powder on a part of vanadium-nitrogen alloy columns can fall off in the feeding process to generate certain impurities, and the fallen powder has recovery value.

The existing vanadium-nitrogen alloy can not effectively remove impurities attached to the surface of the vanadium-nitrogen alloy and can not recover the cleaned impurities in the feeding process.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a loading attachment is used in vanadium nitrogen alloy production to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a feeding device for vanadium-nitrogen alloy production comprises two groups of bottom plates, wherein the bottoms of the two groups of bottom plates are respectively and fixedly provided with supporting legs, the side walls of the bottom plates, which are far away from the supporting legs, are jointly and fixedly provided with two groups of oppositely-arranged strip-shaped mounting plates, the opposite side walls of the two groups of mounting plates are jointly and fixedly provided with a feeding barrel, the opposite two side walls of the two groups of mounting plates are jointly and rotatably provided with two groups of rotating shafts positioned on one side of the feeding barrel, the circumferential surfaces of the two groups of rotating shafts are jointly and slidably connected with a driving belt, the surface of the driving belt is fixedly provided with a plurality of groups of uniformly-distributed stop rods, one end of each rotating shaft extends out of the mounting plates and is connected with a motor fixed on the side wall of the mounting plate, the opposite two side walls of the two groups of mounting plates are jointly and rotatably provided with a plurality of rotating rods positioned on one side of the driving belt, the circumferential surface of the rotating rods is fixedly provided with cleaning rollers, the surfaces of the cleaning rollers are provided with uniformly-distributed soft brushes in surface contact with the driving belt, the one end of dwang extends the mounting panel and is connected with the motor, and annular conveyer belt internally mounted has the vibration subassembly that is located between two sets of mounting panels, installs jointly between the relative both sides wall of two sets of mounting panels and cleans the roller interval distribution's the subassembly that sweeps.

As a further aspect of the present invention: the blowing component comprises a plurality of groups of blowpipes, wherein the blowpipes are fixedly installed on two opposite side walls of the two groups of installation plates, a plurality of groups of blowholes are formed in the side walls of the blowpipes facing the cleaning roller, a fan is fixedly installed between the two groups of installation plates, and the fan is connected with a guide pipe communicated with the plurality of groups of blowpipes.

As a further aspect of the present invention: the vibration subassembly is including the fixed plate that is located conveyer belt inside of the common fixed mounting of the two sets of relative both sides wall of mounting panel, the fixed plate has multiunit reset spring towards the lateral wall fixed mounting who cleans the roller, the common fixedly connected with vibration board of one end of fixed plate is kept away from to reset spring, the transmission shaft that is located between fixed plate and the vibration board is installed in the common rotation of the two sets of relative both sides wall of mounting panel, fixed mounting has the multiunit to hug closely the cam of vibration board lateral wall on the transmission shaft, the one end of transmission shaft extends the mounting panel and is connected with the motor.

As a further aspect of the present invention: and the surface of the conveying belt is provided with uniformly distributed filter meshes.

As a further aspect of the present invention: and the two groups of mounting plates are fixedly provided with a material collecting funnel matched with the conveying belt.

Compared with the prior art, the beneficial effects of the utility model are that: through the arrangement of the vibration assembly consisting of the fixing plate, the return spring, the vibration plate, the transmission shaft and the cam and the mutual cooperation of the cleaning roller, the vanadium-nitrogen alloy columns can be cleaned one by one, and impurities on the surface can be effectively removed; through filtering the mesh with conveyer belt surface setting to the setting is swept the subassembly and is mutually supported with the funnel that gathers materials, can effectively retrieve the impurity that cleans.

Drawings

FIG. 1 is a schematic structural diagram of a feeding device for vanadium-nitrogen alloy production.

FIG. 2 is a schematic diagram of a conveyor belt in a feeding device for vanadium-nitrogen alloy production and a connection structure thereof.

Fig. 3 is an enlarged schematic view of a in fig. 1.

Wherein: the device comprises a bottom plate 1, supporting legs 2, a mounting plate 3, a feeding barrel 4, a rotating shaft 5, a conveying belt 6, a stop lever 7, a limiting plate 8, a rotating rod 9, a cleaning roller 10, a vibration assembly 11, a fixing plate 111, a return spring 112, a vibration plate 113, a transmission shaft 114, a cam 115, a purging assembly 12, a blowing pipe 121, a guide pipe 122, a fan 123 and an aggregate funnel 13.

Detailed Description

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

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.

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Example one

Referring to fig. 1 and 2, a feeding device for vanadium-nitrogen alloy production comprises two groups of bottom plates 1, wherein the bottoms of the two groups of bottom plates 1 are respectively and fixedly provided with supporting legs 2, the side walls of the bottom plates 1, which are far away from the supporting legs 2, are jointly and fixedly provided with two groups of oppositely-arranged strip-shaped mounting plates 3, the opposite side walls of the two groups of mounting plates 3 are jointly and fixedly provided with a feeding barrel 4, the opposite two side walls of the two groups of mounting plates 3 are jointly and rotatably provided with two groups of rotating shafts 5 positioned on one side of the feeding barrel 4, the circumferential surfaces of the two groups of rotating shafts 5 are jointly and slidably connected with a driving belt 6, the surface of the driving belt 6 is fixedly provided with a plurality of groups of uniformly-distributed stop rods 7, one end of the rotating shaft 5 extends out of the mounting plates 3 and is connected with a motor fixed on the side walls of the mounting plates 3, the opposite two side walls of the two groups of mounting plates 3 are jointly and rotatably provided with a plurality of rotating rods 9 positioned on one side of the driving belt 6, and the circumferential surface of the rotating rods 9 is fixedly provided with a cleaning roller 10, clean roller 10 surface mounting have evenly distributed with the soft brush of 6 surface contact of drive belt, the one end of dwang 9 extends mounting panel 3 and is connected with the motor, 6 internally mounted of annular conveyer belt has the vibration subassembly 11 that is located between two sets of mounting panels 3, install jointly between the two sets of 3 relative both sides walls of mounting panel and sweep subassembly 12 with cleaning roller 10 interval distribution, further carry out gas to the impurity on vanadium nitrogen alloy post surface through sweeping subassembly 12 and sweep, at the material loading in-process, axis of rotation 5 rotates and drives conveyer belt 6 and rotate and then mutually support the taking out and the transportation of vanadium nitrogen alloy post one by one in with in the feed bucket 4 through multiunit pin 7, in transit, mutually support with vibration subassembly 11 through cleaning roller 10, can effectually clean vanadium nitrogen alloy post surface adhesion's impurity, improve the quality of vanadium nitrogen alloy post.

Example two

On the basis of the first embodiment, referring to fig. 1, the purging assembly 12 includes a plurality of groups of blowing pipes 121 fixedly mounted on two opposite side walls of two groups of mounting plates 3, a plurality of groups of blowing ports are formed in the side walls of the blowing pipes 121 facing the cleaning roller 10, a fan 123 is fixedly mounted between the two groups of mounting plates 3, the fan 123 is connected to a conduit 122 communicated with the plurality of groups of blowing pipes 121, and the fan 123 is started to efficiently purge the vanadium-nitrogen alloy columns on the conveyor belt 6 through the conduit 122 and the blowing pipes 121.

Referring to fig. 3, the vibration assembly 11 includes a fixing plate 111 disposed inside the conveyor belt 6 and having two opposite side walls of two sets of mounting plates 3, a plurality of sets of return springs 112 are fixedly disposed on the side wall of the fixing plate 111 facing the cleaning roller 10, one end of each return spring 112 away from the fixing plate 111 is fixedly connected to a vibration plate 113, two opposite side walls of two sets of mounting plates 3 are rotatably disposed with a transmission shaft 114 disposed between the fixing plate 111 and the vibration plate 113, a plurality of sets of cams 115 tightly attached to the side walls of the vibration plate 113 are fixedly disposed on the transmission shaft 114, and one end of the transmission shaft 114 extends out of the mounting plates 3 and is connected to a motor.

Referring to fig. 2, the surface of the conveyor belt 6 is provided with uniformly distributed filter meshes, and impurities cleaned from the surface of the vanadium-nitrogen alloy column can be conveniently filtered through the filter meshes.

Referring to fig. 1, a collecting hopper 13 matched with the conveyor belt 6 is fixedly installed between the two sets of mounting plates 3, and the cleaned impurities can be recycled through the collecting hopper 13.

The utility model discloses a theory of operation is: further carry out gas to the impurity on vanadium nitrogen alloy post surface through sweeping subassembly 12 and sweep, at the material loading in-process, axis of rotation 5 rotates and drives conveyer belt 6 and rotate and then cooperate each other through multiunit pin 7 and take out and the transportation one by one with the vanadium nitrogen alloy post in the feed bucket 4, on the way in the transportation, through cleaning roller 10 and vibration component 11 and mutually supporting, can effectually clean the adnexed impurity in vanadium nitrogen alloy post surface, improve the quality of vanadium nitrogen alloy post.

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 (5)

1. A feeding device for vanadium-nitrogen alloy production comprises two groups of bottom plates, wherein the bottoms of the two groups of bottom plates are respectively and fixedly provided with supporting legs, the side walls of the bottom plates, which are far away from the supporting legs, are jointly and fixedly provided with two groups of oppositely-arranged strip-shaped mounting plates, and the opposite side walls of the two groups of mounting plates are jointly and fixedly provided with a feeding barrel, the feeding device is characterized in that the two groups of opposite side walls of the mounting plates are jointly and rotatably provided with two groups of rotating shafts positioned on one side of the feeding barrel, the circumferential surfaces of the two groups of rotating shafts are jointly and slidably connected with a driving belt, the surface of the driving belt is fixedly provided with a plurality of groups of uniformly-distributed stop rods, one end of each rotating shaft extends out of the mounting plates and is connected with a motor fixed on the side wall of the mounting plate, the opposite side walls of the two groups of mounting plates are jointly and rotatably provided with a plurality of rotating rods positioned on one side of the driving belt, the circumferential surface of the rotating rods is fixedly provided with cleaning rollers, the surface of which is provided with uniformly-distributed soft brushes in surface contact with the driving belt, the one end of dwang extends the mounting panel and is connected with the motor, and annular conveyer belt internally mounted has the vibration subassembly that is located between two sets of mounting panels, installs jointly between the relative both sides wall of two sets of mounting panels and cleans the roller interval distribution's the subassembly that sweeps.

2. The feeding device for vanadium-nitrogen alloy production according to claim 1, wherein the blowing component comprises a plurality of groups of blowing pipes fixedly mounted on two opposite side walls of two groups of mounting plates together, a plurality of groups of blowing openings are formed in the side walls of the blowing pipes facing the cleaning roller, a fan is fixedly mounted between the two groups of mounting plates together, and the fan is connected with a guide pipe communicated with the plurality of groups of blowing pipes.

3. The feeding device for vanadium-nitrogen alloy production according to claim 1, wherein the vibrating assembly comprises two sets of fixing plates which are fixedly mounted on two opposite side walls of the mounting plate and are positioned inside the conveying belt, a plurality of sets of return springs are fixedly mounted on the side wall of the fixing plate facing the cleaning roller, one ends of the return springs, which are far away from the fixing plate, are fixedly connected with the vibrating plate, two opposite side walls of the two sets of mounting plates are rotatably mounted with the transmission shaft between the fixing plate and the vibrating plate, a plurality of sets of cams which are tightly attached to the side wall of the vibrating plate are fixedly mounted on the transmission shaft, and one end of the transmission shaft extends out of the mounting plate and is connected with the motor.

4. The feeding device for producing the vanadium-nitrogen alloy as claimed in claim 1, wherein the surface of the conveyor belt is provided with uniformly distributed filter meshes.

5. A feeding device for vanadium-nitrogen alloy production according to any one of claims 1 to 4, wherein a collecting hopper which is matched with the conveying belt is fixedly arranged between the two groups of mounting plates.

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