CN218425619U - Atomizing powder process equipment is used in alloy powder production - Google Patents

Abstract

The utility model discloses an alloy powder production is with atomizing powder process equipment, include: the base, first support is installed on the top of base, the mounting panel is installed respectively at the top and the middle part of first support, is located the top the atomizing storehouse is installed to the inboard of mounting panel, is located the middle part the atomizing storehouse is installed down to the inboard of mounting panel, go up the outer wall of atomizing storehouse and relative department in lower atomizing storehouse and install first shell, the second support is installed on the top right side of base, the second shell is installed on the top of second support, and the second shell with first shell links to each other, the motor is installed on the top of second shell. This alloy powder production is with atomizing powder process equipment, in the in-service use, can glue the alloy dust of hanging by automatic cleaning equipment inner wall at any time, avoid the dust to glue the material loss that hangs and cause, the cleaning equipment of being convenient for simultaneously can also filter the dust of output, can reject not atomizing substandard product when avoiding the caking.

Description

Alloy powder production is with atomizing powder process equipment

Technical Field

The utility model relates to a metal powder process equipment technical field specifically is an alloy powder production is with atomizing powder process equipment.

Background

The atomization method is a method of directly crushing liquid metal or alloy into fine liquid drops under the action of external force and quickly condensing to prepare powder, and compared with a mechanical crushing method, the atomization method is a simpler and more convenient and economical powder production method, and the alloy in a molten state is prepared into powder by using atomization equipment, so that products such as D printing powder and the like can be produced; alloy atomizing powder process equipment that uses at present stage utilizes the air current after with the melting alloy atomizing, can directly concentrate at the equipment discharge gate and collect, nevertheless atomize into powdered alloy because the effect of air current stands very easily and hangs at the equipment inner wall at the in-process of whereabouts, unfavorable worker with collect, based on above-mentioned problem, now provide an alloy powder production with atomizing powder process equipment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an alloy powder production is with atomizing powder process equipment to the in-process of the alloy powder whereabouts that provides in solving above-mentioned background art is stood very easily and is hung at equipment inner wall, is unfavorable for the problem of collecting.

In order to achieve the above object, the utility model provides a following technical scheme: an alloy powder production is with atomizing powder process equipment, includes: a pedestal, first support is installed on the top of base, the mounting panel is installed respectively at the top and the middle part of first support, is located the top the atomizing storehouse is installed to the inboard of mounting panel, is located the middle part the atomizing storehouse is installed down to the inboard of mounting panel, go up the outer wall of atomizing storehouse and relative department in lower atomizing storehouse and install first shell, the second support is installed on the top right side of base, the second shell is installed on the top of second support, and the second shell with first shell links to each other, the motor is installed on the top of second shell, and the output of motor extends into the inner chamber in second shell, the gear is installed through the shaft coupling to the output of motor, the rotatable ring gear of installing of the inner chamber of first shell, and the ring gear with gear intermeshing, the one end of two brushes is installed to the inner wall symmetry of ring, and the other end of brush extends into go up the inner chamber in atomizing storehouse and lower atomizing storehouse, the aircraft nose is installed on the top of base, the metal flow tube is installed to the bottom of aircraft nose, and the bottom that the metal flow tube extends into the inner chamber in lower atomizing storehouse, the bottom of aircraft nose still installs the tuber pipe, the inner chamber of lower atomizing storehouse.

Preferably, the bottom of going up the atomizing storehouse and the top outer wall of lower atomizing storehouse all are equipped with the rubber pad.

Preferably, the two air ducts are arranged in bilateral symmetry relative to the metal flow duct.

Preferably, the screen cloth is installed to the inner chamber bottom in lower atomizing storehouse, vibrating motor is installed to the bottom of screen cloth.

Preferably, the screen is arranged in a conical shape.

Compared with the prior art, the beneficial effects of the utility model are that: this alloy powder production is with atomizing powder process equipment, it is rotatory through motor drive gear, and then it is rotatory to order about the ring gear and drive the brush, inner wall to atomizing storehouse down clears up, it glues the powder of hanging to order about the inner wall and drops, drive screen cloth vibration through vibrating motor, make the quick sieve of dust on screen cloth top fall, in-service use, can be at any time automatic cleaning equipment inner wall glue the alloy dust of hanging, avoid the dust to glue the material loss that the hanging caused, the cleaning equipment of being convenient for simultaneously, can also filter the dust of production, can reject not atomizing substandard product when avoiding the caking.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a top view of the gear of the present invention.

Fig. 3 is a front view sectional view of the lower atomization bin of the present invention.

Fig. 4 is a front sectional view of the screen of the present invention.

In the figure: 1. the device comprises a base, 2, a first support, 3, a mounting plate, 4, an upper atomization bin, 5, a lower atomization bin, 6, a first shell, 7, a second support, 8, a second shell, 9, a motor, 10, a gear, 11, a toothed ring, 12, a brush, 13, a machine head, 14, a metal flow pipe, 15, an air pipe, 16, a hopper, 17, a screen, 18 and a vibrating motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: an atomizing powder-making device for producing alloy powder comprises: the atomizing device comprises a base 1, a first support 2, a mounting plate 3, an upper atomizing chamber 4, a lower atomizing chamber 5, a first shell 6, a second support 7, a second shell 8, a motor 9, a gear 10, a toothed ring 11, a brush 12, a machine head 13, a metal flow pipe 14, an air pipe 15 and a hopper 16, wherein the first support 2 is installed at the top end of the base 1, the mounting plate 3 is installed at the top end and the middle part of the first support 2 respectively, the upper atomizing chamber 4 is installed at the inner side of the mounting plate 3 at the top end, the lower atomizing chamber 5 is installed at the inner side of the mounting plate 3 at the middle part, the first shell 6 is installed on the outer wall at the position opposite to the upper atomizing chamber 4 and the lower atomizing chamber 5, the second support 7 is installed on the right side of the top end of the base 1, the second shell 8 is installed at the top end of the second support 7, the second shell 8 is connected with the first shell 6, the motor 9 is installed at the top end of the second shell 8, and the output end of the motor 9 extends into the inner cavity of the second shell 8, the output end of the motor 9 is provided with a gear 10 through a coupler, the gear 10 can be driven to rotate by starting the motor 9, the inner cavity of the first shell 6 is rotatably provided with a toothed ring 11, the toothed ring 11 and the gear 10 are meshed with each other, when the gear 10 rotates, the toothed ring 11 can synchronously rotate, one ends of two hairbrushes 12 are symmetrically arranged on the inner wall of the toothed ring 11, the other ends of the hairbrushes 12 extend into the inner cavities of the upper atomization bin 4 and the lower atomization bin 5, the hairbrushes 12 are attached to the inner wall of the lower atomization bin 5 and can sweep dust during movement, the top end of the base 1 is provided with a machine head 13, the bottom end of the machine head 13 is provided with a metal flow pipe 14, the extended bottom end of the metal flow pipe 14 enters the inner cavity of the lower atomization bin 5, the bottom end of the machine head 13 is also provided with two air pipes 15, the bottom end of the air pipe 15 extends into the inner cavity of the lower atomization bin 5, when liquid metal flows out from the metal flow pipe 14, the metal is atomized by the air blown out by the air pipe 15, and the bottom end of the lower atomization bin 5 is provided with a hopper 16.

As a preferred scheme, furthermore, rubber pads are arranged on the bottom end of the upper atomization bin 4 and the outer wall of the top end of the lower atomization bin 5, so that good sealing performance is ensured, and dust is prevented from overflowing.

Preferably, the two air ducts 15 are symmetrically arranged left and right relative to the metal flow duct 14, so as to ensure stable air flow and complete and stable atomization.

Preferably, a screen 17 is installed at the bottom end of the inner cavity of the lower atomization bin 5, a vibration motor 18 is installed at the bottom end of the screen 17, dust can fall through the pores of the screen 17, and the vibration motor 18 is started to enable the screen 17 to vibrate at high frequency, so that the dust accumulated at the top end of the screen 17 can be quickly screened off, and large particles are prevented from passing through.

Preferably, the screen 17 is conical to facilitate the falling of the dust.

The detailed connection means is a known technology in the art, and a person in the art connects all the electrical components in the present case with a power supply adapted to the electrical components through a lead, and should select a suitable controller according to actual conditions to meet control requirements, and the detailed connection and control sequence should be described in the following working principle, in which the electrical components are electrically connected in sequence.

When in use: the metal or alloy in a molten state flows out through the metal flow pipe 14, meanwhile, the two air pipes 15 output high-speed airflow to enable the flowing liquid metal to be instantly atomized and finally become powder to fall, the gear 10 is driven to rotate by starting the motor 9 at the moment, as the gear 10 is meshed with the toothed ring 11, the toothed ring 11 can synchronously rotate when the gear 10 rotates, and further the brush 12 is driven to rotate, the alloy powder hung on the inner wall of the lower atomization bin 5 is scraped off and is convenient to collect, the vibration motor 18 is simultaneously started, the powder at the top end of the screen 17 is forced to quickly shake off by the vibration of the vibration motor 18 to avoid accumulation, meanwhile, the alloy powder which does not reach the standard is left at the top end of the screen 17, so that the subsequent uniform collection is facilitated, in practical use, the qualified dust can be quickly screened and collected, the large particles which do not reach the standard are eliminated, the alloy dust stuck on the inner wall of the equipment can be automatically cleaned, the material loss caused by the sticking of the dust is avoided, the operation of workers is convenient, and the time and the procedure for cleaning the inner wall of the equipment is saved.

In the description of the present invention, it is to be understood that the terms "bottom", "one end", "top", "center position", "the other end", "up", "one side", "top", "inside", "front", "center", "both ends", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation; also, unless expressly stated or limited otherwise, the terms "snap-fit," "plug-in," "weld," "mount," "set," "interference fit," "screw-on," "pin-on," and the like are to be construed broadly, e.g., as a fixed connection, a removable connection, or an integral whole; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides an alloy powder production is with atomizing powder process equipment which characterized in that includes: base (1), first support (2) is installed on the top of base (1), mounting panel (3) are installed respectively to the top and the middle part of first support (2), be located the top the inboard of mounting panel (3) is installed and is atomized storehouse (4), be located the middle part the inboard of mounting panel (3) is installed down atomized storehouse (5), go up atomized storehouse (4) and the outer wall of lower atomized storehouse (5) relative department installs first shell (6), second support (7) are installed on the top right side of base (1), second shell (8) are installed on the top of second support (7), and second shell (8) with first shell (6) link to each other, motor (9) are installed on the top of second shell (8), and the output of motor (9) extends into the inner chamber of second shell (8), gear (10) are installed through the shaft coupling to the output of motor (9), rotatable ring gear (11) is installed to the inner chamber of first shell (6), and ring gear (11) with gear (10) mesh each other end, inner wall (12) that the atomizing storehouse (4) and atomizing storehouse (5) were installed to the other end, atomizing storehouse (12) and atomizing storehouse (12) are gone up and extend into to the other end, aircraft nose (13) are installed on the top of base (1), metal flow tube (14) are installed to the bottom of aircraft nose (13), and the bottom that metal flow tube (14) extend advances the inner chamber of lower atomization bin (5), two tuber pipes (15) are still installed to the bottom of aircraft nose (13), and the bottom of tuber pipe (15) extends into the inner chamber of lower atomization bin (5), hopper (16) are installed to the bottom in lower atomization bin (5).

2. The atomizing powder-making equipment for producing alloy powder of claim 1, characterized in that: and rubber pads are arranged at the bottom end of the upper atomization bin (4) and the outer wall of the top end of the lower atomization bin (5).

3. The atomizing powder-making equipment for producing alloy powder of claim 1, characterized in that: the two air pipes (15) are arranged in bilateral symmetry relative to the metal flow pipe (14).

4. The atomizing powder manufacturing device for producing the alloy powder of claim 1, wherein: screen cloth (17) are installed to the inner chamber bottom in lower atomizing storehouse (5), vibrating motor (18) are installed to the bottom of screen cloth (17).

5. The atomizing powder manufacturing device for producing the alloy powder of claim 4, wherein: the screen (17) is arranged in a conical shape.

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