CN210718451U - Nickel protoxide elemental nickel separation equipment convenient for heat recycling - Google Patents

Abstract

The utility model discloses a nickelous oxide simple substance nickel splitter convenient to heat recycle, including supporting jar, servo motor, electric heating element and air exhauster, servo motor is installed to the upper end of supporting jar, and servo motor's output fixedly connected with holding jar to the holding jar is connected with the internal surface that supports the jar, the feed inlet has been seted up to the up end of holding jar, and the surface mounting of holding jar has the pulley to the pulley is connected with the internal surface that supports the jar, the internal surface at the supporting jar is installed to electric heating element bolt, and the surface that supports the jar is to having the installation piece, the internal surface of installation piece is provided with the gas collecting channel. This nickel protoxide simple substance nickel splitter convenient to heat recovery utilizes through the good heat-conduction performance of copper product matter, will support jar unnecessary heat absorption to the inside of gas collecting pipe in the heating process to carry out secondary stoving heating work to the material through air exhauster conduction to the stoving chamber.

Description

Nickel protoxide elemental nickel separation equipment convenient for heat recycling

Technical Field

The utility model relates to a nickel protoxide technical field specifically is a nickel protoxide simple substance nickel splitter convenient to heat recovery utilizes.

Background

Nickel protoxide is a common inorganic compound, and the life is used extensively, but it is harmful to human health, need pay attention to the protection when contacting, and nickel protoxide need pass through a plurality of processing steps when extracting simple substance nickel, because the moisture that contains in the nickel protoxide powder is too much, consequently need heat to the moisture and dry the separation processing, and current nickel protoxide simple substance nickel splitter still has certain use defect:

current nickel protoxide simple substance nickel splitter can produce a large amount of heats when heating the separation work, and these heats are direct to be spread under most circumstances and pass to the air in, and current splitter can't let the convenient heat of carrying on recycle of user, and then has certain energy loss phenomenon, and current separator is not high enough to the thermal separation efficiency of nickel protoxide simple substance nickel simultaneously, and it is not high-efficient enough to the evaporation quality of moisture.

In order to solve the problems, innovative design is urgently needed on the basis of the structure of the original separation equipment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a nickel protoxide simple substance nickel splitter convenient to heat recovery utilizes to what provide can't let the user convenient among the above-mentioned background art carries out recycle to the heat, and then has certain energy loss phenomenon, and thermal separation efficiency is not high enough, its evaporation quality efficient problem inadequately to moisture.

In order to achieve the above object, the utility model provides a following technical scheme: a nickelous oxide elemental nickel separation device convenient for heat recycling comprises a supporting tank, a servo motor, an electric heating assembly and an exhaust fan, wherein the servo motor is installed at the upper end of the supporting tank, the output end of the servo motor is fixedly connected with an accommodating tank, the accommodating tank is connected with the inner surface of the supporting tank, a feed inlet is formed in the upper end face of the accommodating tank, a pulley is installed on the outer surface of the accommodating tank and connected with the inner surface of the supporting tank, the electric heating assembly is installed on the inner surface of the supporting tank through bolts, an installation block is butted on the outer surface of the supporting tank, a gas collecting pipeline is arranged on the inner surface of the installation block, a reset spring is fixedly connected with the inner surface of the reset spring, a limit block is fixedly connected with the inner surface of the installation block, and a connecting pipe is welded on the outer surface of the installation, and the air exhauster is installed to the lower extreme surface bolt of installation piece to the output of air exhauster is connected with the connecting pipe, the lower extreme of holding jar is provided with the feed opening, and the feed opening is connected with the supporting tank, the lower extreme surface mounting of supporting tank has the valve that opens and shuts, and the lower extreme internal surface of supporting tank has seted up the stoving chamber, the isolation stratum reticulare is installed in the outside in stoving chamber, and the isolation stratum reticulare connected with the end of connecting pipe.

Preferably, the containing tank and the inner surface of the supporting tank form a sliding structure through a pulley, and the lower end of the containing tank and the inner surface of the supporting tank form a rotating structure through a feed opening.

Preferably, the electric heating assembly is symmetrically provided with 3 about the central point of the supporting tank, the electric heating assembly is of an arc-shaped structure, and the outer surface of the electric heating assembly is attached to the outer surface of the accommodating tank.

Preferably, the number of the mounting blocks is 2 symmetrically arranged about the central point of the support tank, the 2 mounting blocks are all in a circular ring structure, and the mounting blocks are connected with the outer surface of the support tank in a nested manner.

Preferably, the stopper evenly distributed is at the internal surface of installation piece, and the stopper is the copper product to the stopper passes through reset spring and constitutes extending structure with the internal surface of installation piece, and the outer end of stopper is laminated with the support jar external surface mutually simultaneously.

Preferably, the connecting pipe is of an L-shaped structure, the connecting pipe is communicated with the gas collecting pipeline through the mounting block, and the connecting pipe and the drying cavity form a clamping structure through the isolation net layer.

Compared with the prior art, the beneficial effects of the utility model are that: the nickel protoxide simple substance nickel separation equipment convenient for heat recycling;

1. the copper material limiting blocks are uniformly distributed, redundant heat in the heating process of the supporting tank can be absorbed into the gas collecting pipeline through the good heat conduction performance of the copper material by the copper material limiting blocks attached to the outer surface of the supporting tank, and the redundant heat is conducted to the drying cavity through the exhaust fan to perform secondary drying and heating work on the material, so that the redundant heat is used for improving the drying efficiency of the material while the heat is recycled;

2. be provided with mobilizable holding jar, the holding jar will be through the stable internal surface along supporting the jar of drive of motor rotate, and then make its stable laminating the electrical heating component surface and carry out the heating work to let the even stable processing of being heated of the inside material of supporting jar, make the heat separation efficiency of its cooperation air exhauster conduction's waste heat guaranteed nickel protoxide simple substance nickel, let the device obtain the guarantee to the evaporation effect of moisture.

Drawings

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

FIG. 2 is a schematic cross-sectional structural view of the support tank of the present invention;

FIG. 3 is a schematic view of a sectional structure of the accommodating tank;

fig. 4 is the utility model discloses the installation piece structural schematic diagram of bowing in section.

In the figure: 1. a support tank; 2. a servo motor; 3. an accommodating tank; 4. a feed inlet; 5. a pulley; 6. an electrical heating assembly; 7. mounting blocks; 8. a gas collection conduit; 9. a return spring; 10. a limiting block; 11. a connecting pipe; 12. an exhaust fan; 13. a feeding port; 14. an opening and closing valve; 15. a drying cavity; 16. and isolating the net layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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: a nickelous oxide simple substance nickel separation device convenient for heat recycling comprises a supporting tank 1, a servo motor 2, a containing tank 3, a feed inlet 4, a pulley 5, an electric heating component 6, an installation block 7, a gas collection pipeline 8, a reset spring 9, a limiting block 10, a connecting pipe 11, an exhaust fan 12, a feed opening 13, an opening and closing valve 14, a drying cavity 15 and an isolation net layer 16, wherein the servo motor 2 is installed at the upper end of the supporting tank 1, the output end of the servo motor 2 is fixedly connected with the containing tank 3, and the containing tank 3 is connected with the inner surface of the supporting tank 1, the containing tank 3 and the inner surface of the supporting tank 1 form a sliding structure through a pulley 5, the lower end of the accommodating tank 3 and the inner surface of the supporting tank 1 form a rotating structure through the feed opening 13, so that the accommodating tank 3 can stably rotate along the inner surface of the supporting tank 1 through the pulley 5, and evaporated steam can be discharged along 2 feed openings 4 on the upper end surface of the accommodating tank;

the upper end surface of the accommodating tank 3 is provided with a feeding hole 4, the outer surface of the accommodating tank 3 is provided with a pulley 5, the pulley 5 is connected with the inner surface of the supporting tank 1, the electric heating component 6 is installed on the inner surface of the supporting tank 1 through bolts, the outer surface of the supporting tank 1 is butted with an installation block 7, 3 electric heating components 6 are symmetrically arranged about the central point of the supporting tank 1, the electric heating components 6 are of arc-shaped structures, the outer surface of the electric heating components 6 is attached to the outer surface of the accommodating tank 3, the accommodating tank 3 attached to the electric heating components can be stably heated through the 3 arc-shaped electric heating components 6, and the uniform heat receiving performance of materials in the accommodating tank is guaranteed;

the inner surface of the mounting block 7 is provided with a gas collecting pipeline 8, the inner surface of the mounting block 7 is fixedly connected with a return spring 9, 2 mounting blocks 7 are symmetrically arranged about the central point of the supporting tank 1, the 2 mounting blocks 7 are all in a circular ring structure, the mounting block 7 is in nested connection with the outer surface of the supporting tank 1, and the 2 mounting blocks 7 can stably and uniformly absorb heat emitted from the outer surface of the supporting tank 1, so that the heat transfer effect is realized;

the inner surface of the reset spring 9 is fixedly connected with a limiting block 10, the limiting block 10 is connected with the inner surface of the mounting block 7, the outer surface of the mounting block 7 is welded with a connecting pipe 11, an exhaust fan 12 is bolted on the outer surface of the lower end of the mounting block 7, the output end of the exhaust fan 12 is connected with the connecting pipe 11, the lower end of the containing tank 3 is provided with a feed opening 13, the feed opening 13 is connected with the supporting tank 1, the outer surface of the lower end of the supporting tank 1 is provided with an opening and closing valve 14, the inner surface of the lower end of the supporting tank 1 is provided with a drying cavity 15, the outer side of the drying cavity 15 is provided with an isolation mesh layer 16, the isolation mesh layer 16 is connected with the tail end of the connecting pipe 11, the limiting block 10 is uniformly distributed on the inner surface of the mounting block 7, the limiting block 10 is made of copper material, the, connecting pipe 11 is "L" type structure, and connecting pipe 11 switches on with gas collecting channel 8 through installation piece 7 mutually to connecting pipe 11 constitutes the block structure through isolation stratum reticulare 16 and stoving chamber 15, through stopper 10 of copper material can be stable with support jar 1 external surface contact, and then through the good conducting properties stability of copper material to its heat conduction work that carries on.

The working principle is as follows: when the nickel protoxide simple substance nickel separation equipment convenient for heat recovery and utilization is used, according to the graph shown in fig. 1-3, the device is firstly placed at a position needing to work, then a nickel protoxide raw material is poured into the containing tank 3 along the arc-shaped feed inlet 4 through the feed pipe at the upper end of the supporting tank 1, then the device is powered on, at the moment, the servo motor 2 drives the containing tank 3 at the output end to rotate, the material rotates along the inside of the supporting tank 1 through the pulleys 5 uniformly distributed on the outer surface, the containing tank 3 drives the material in the containing tank to be attached to the outer surfaces of the 3 arc-shaped electric heating components 6 to rotate, the material in the containing tank is further uniformly and effectively heated, meanwhile, the evaporated steam can be discharged along the 2 feed inlets 4 on the upper end surface, and then the moisture in the nickel protoxide raw material is heated, dried and separated, after a period of time, a user can discharge the primarily separated materials into the drying cavity 15 through the opening and closing valve 14 to be processed;

according to fig. 1, fig. 2 and fig. 4, when supporting jar 1 and carrying out heating work through electric heating element 6, install 2 installation pieces 7 at supporting jar 1 surface and will carry out the heat absorption in step and handle, laminate at the copper material stopper 10 of supporting jar 1 surface through evenly distributed, it will pass through the good heat conductivility of copper material, will support jar 1 in-process unnecessary heat absorption transmission to the inside of gas collecting pipeline 8, and the user passes through being connected between air exhauster 12 and connecting pipe 11, can be with the inside steam conduction of gas collecting pipeline 8 to the stoving chamber 15 inside and carry out secondary stoving heating work to the material, be used for improving the drying efficiency of material with unnecessary heat when realizing heat recovery and utilizing, whole practicality has been increased.

Those not described in detail in this specification are within the skill of the art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that 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 (6)

1. The utility model provides a nickelous oxide elementary substance nickel splitter convenient to heat recovery utilizes, includes support jar (1), servo motor (2), electric heating element (6) and air exhauster (12), its characterized in that: the upper end of the supporting tank (1) is provided with the servo motor (2), the output end of the servo motor (2) is fixedly connected with the accommodating tank (3), the accommodating tank (3) is connected with the inner surface of the supporting tank (1), the upper end surface of the accommodating tank (3) is provided with the feed inlet (4), the outer surface of the accommodating tank (3) is provided with the pulley (5), the pulley (5) is connected with the inner surface of the supporting tank (1), the electric heating component (6) is installed on the inner surface of the supporting tank (1) through bolts, the outer surface of the supporting tank (1) is in butt joint with the mounting block (7), the inner surface of the mounting block (7) is provided with the gas collecting pipeline (8), the inner surface of the mounting block (7) is fixedly connected with the reset spring (9), the inner surface of the reset spring (9) is fixedly connected with the limiting block (10), and the limiting block (10) is connected with the, the outer surface welded mounting of installation piece (7) has connecting pipe (11), and the lower extreme surface bolt mounting of installation piece (7) has air exhauster (12) to the output of air exhauster (12) is connected with connecting pipe (11), the lower extreme of holding jar (3) is provided with feed opening (13), and feed opening (13) are connected with supporting jar (1), the lower extreme surface mounted of supporting jar (1) has opening and shutting valve (14), and supports the lower extreme internal surface of jar (1) and seted up stoving chamber (15), keep apart stratum reticulare (16) are installed in the outside in stoving chamber (15), and keep apart stratum reticulare (16) and the end of connecting pipe (11) is connected.

2. The apparatus for separating nickel protoxide elementary nickel convenient for heat recovery according to claim 1, characterized in that: the inner surface that holding jar (3) passed through pulley (5) and support jar (1) constitutes sliding construction, and the lower extreme of holding jar (3) passes through feed opening (13) and supports jar (1) inner surface constitution rotating-structure.

3. The apparatus for separating nickel protoxide elementary nickel convenient for heat recovery according to claim 1, characterized in that: the electric heating assembly (6) is symmetrically provided with 3 about the central point of the supporting tank (1), the electric heating assembly (6) is of an arc-shaped structure, and the outer surface of the electric heating assembly (6) is attached to the outer surface of the accommodating tank (3).

4. The apparatus for separating nickel protoxide elementary nickel convenient for heat recovery according to claim 1, characterized in that: the installation piece (7) are provided with 2 about the central point symmetry of supporting jar (1), and 2 installation pieces (7) all are the ring structure to the surface of installation piece (7) and supporting jar (1) is nested connection.

5. The apparatus for separating nickel protoxide elementary nickel convenient for heat recovery according to claim 1, characterized in that: stopper (10) evenly distributed is at the internal surface of installation piece (7), and stopper (10) are the copper product to stopper (10) constitute extending structure through reset spring (9) and the internal surface of installation piece (7), and the outer end and the support jar (1) surface of stopper (10) laminate mutually simultaneously.

6. The apparatus for separating nickel protoxide elementary nickel convenient for heat recovery according to claim 1, characterized in that: the connecting pipe (11) is of an L-shaped structure, the connecting pipe (11) is communicated with the gas collecting pipeline (8) through the mounting block (7), and the connecting pipe (11) and the drying cavity (15) form a clamping structure through the isolating net layer (16).

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