CN209101779U - A kind of new zinc alloy vacuum separation furnace - Google Patents

Abstract

The utility model discloses a kind of new zinc alloy vacuum separation furnaces, including separating furnace main body, end cap is installed at the top of the separation furnace main body, and inner casing is installed in the inner cavity of the separation furnace main body, the inner wall of the inner casing is equipped with several fractionation disks, and the outer wall of the inner casing is provided with sealed condensating cover, the outer wall of the sealed condensating cover is fixedly connected with the inner wall of separation furnace main body, the bottom opening of the separation furnace main body is equipped with several electrodes, each electrode is equipped with sealing ring with the junction for separating furnace main body, and fever housing is fixedly connected at the top of each electrode, the fever housing is mounted on the inner wall of separation furnace main body, and graphite heater is installed above the fever housing, this kirsite chamber furnaced is compact-sized, it is easily operated, stability is good, it ensure that the stabilization of temperature, prevent thermal energy The advantages of dissipating outside, improving energy use, energy continuous production and efficiently separate kirsite.

Description

A kind of new zinc alloy vacuum separation furnace

Technical field

The utility model relates to kirsite processing technique field, specially a kind of new zinc alloy vacuum separation furnace.

Background technique

Chamber furnaced is mainly used for being carried out continuously alloy separation, and METAL HEATING PROCESS is first generated escaping gas by heating device, Its condensing unit makes escaping gas high-efficiency condensation in furnace body achieve the purpose that separation alloy at liquid again.Existing zinc closes The feeding manner of golden vacuum separation furnace is divided into feeding-in solid body and two kinds of liquid feedstock, for the object handled using feeding-in solid body mode Material can not achieve continuous production, heat using uneven, low boiling point and be difficult to the problem of efficiently separating, and existing chamber furnaced Energy consumption is higher, and structure is not compact enough.

Utility model content

The technical issues of the utility model solves is that the kirsite of the prior art is overcome to be unable to continuous production and be difficult to height Isolated defect is imitated, a kind of new zinc alloy vacuum separation furnace is provided.A kind of new zinc alloy vacuum separation stove has place Reason higher boiling kirsite and realization can continuous production kirsite and the characteristics of efficiently separating.

To achieve the above object, the utility model provides the following technical solutions: a kind of new zinc alloy vacuum separation furnace, packet Separation furnace main body is included, end cap is installed at the top of the separation furnace main body, and is equipped in the inner cavity of the separation furnace main body interior Shell, the inner wall of the inner casing is equipped with several fractionation disks, and the outer wall of the inner casing is provided with sealed condensating cover, the sealing The outer wall of condensing cover is fixedly connected with the inner wall of separation furnace main body, and the bottom opening of the separation furnace main body is equipped with several electricity Pole, each electrode are equipped with sealing ring, and the fixed company in the top of each electrode with the junction for separating furnace main body The hot housing of sending and receiving, the fever housing is mounted on the inner wall of separation furnace main body, and is equipped with graphite above the fever housing Heater.

Preferably, the graphite heater includes graphite plate, the rounded setting of graphite plate, and the top of the graphite plate Portion offers several guide grooves, and the center of the graphite plate is equipped with star-like connection point, and electrode company is provided on the graphite plate Connect hole.

Preferably, each guide groove is arc-shaped setting, and the electrode connecting hole is annular centered on star-like connection point Equal part installs three.

Preferably, the fractionation disk is arranged in a crossed manner in the inner wall of inner casing, and one end far from inner casing is to tilt down 20 degree of settings.

Preferably, the junction of the sealed condensating cover and inner casing is equipped with condensing cover with holes.

Preferably, the outer wall of the separation furnace main body is equipped with insulating layer.

Compared with prior art, the utility model has the beneficial effects that

1, by the way that condensing cover close to fractionation disk setting, can be built in vacuum distillation metallurgy separation furnace body, this zinc closes Golden chamber furnaced is compact-sized, easily operated, stability is good, low energy consumption.

2, by the setting of two layers of insulation cover and insulating layer, condensing zone is separated, heat insulation is more preferable, not only ensure that temperature The stabilization of degree also prevents thermal energy from dissipating outside, improves energy use, the design of equipment becomes simple and is compact, easy to operate.

3, energy saving and ensure that condensation so that this vacuum separation stove heating is uniform by the setting of graphite heater Effect.

4, it is tilted by being fractionated the intersection of disk, kirsite is allowed continuous production, and at the same time carrying out kirsite The work efficiently separated.

Detailed description of the invention

Fig. 1 is the internal structure chart of the utility model；

Fig. 2 is the structure chart of the flat graphite heater of the utility model.

Figure label: 1, furnace main body is separated；2, sealed condensating cover；3, inner casing；4, graphite heater；5, it is fractionated disk；6, it protects Warm layer；7, electrode；8, sealing ring；9, end cap；10, condensing cover with holes；11, fever housing；41, graphite plate；42, star-like connection Point；43, guide groove；44, electrode connecting hole.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

The utility model provides a kind of technical solution referring to FIG. 1-2: a kind of new zinc alloy vacuum separation furnace, including Furnace main body 1 is separated, the outer wall of separation furnace main body 1 is equipped with insulating layer 6, high-temperature-resistant thermal-insulation material, separation are filled in insulating layer 6 The top of furnace main body 1 is equipped with end cap 9, and is equipped with inner casing 3 in the inner cavity of separation furnace main body 1, if the inner wall of inner casing 3 is equipped with Dry fractionation disk 5, fractionation disk 5 are arranged in a crossed manner in the inner wall of inner casing 3, and one end far from inner casing 3 is to tilt down 20 degree Setting, the intersection by being fractionated disk 5 tilt, and allow continuous production kirsite, and at the same time it is efficient to carry out kirsite Isolated work, the outer wall of inner casing 3 are provided with sealed condensating cover 2, by sealed condensating cover 2 close to fractionation disk 5 be arranged, can within It sets in vacuum distillation metallurgy separation furnace body, this kirsite chamber furnaced is compact-sized, easily operated, stability is good, low energy consumption, close The junction of envelope condensing cover 2 and inner casing 3 is equipped with condensing cover 10 with holes, passes through condensing cover 10 with holes, sealed condensating cover 2 and heat preservation The setting of layer 6, condensing zone is separated, and heat insulation is more preferable, not only ensure that the stabilization of temperature, is also prevented from dissipating outside thermal energy, be improved Energy use, the design of equipment become simple and are compact, easy to operate, and the outer wall of sealed condensating cover 2 is fixedly connected with chamber furnaced The bottom opening of the inner wall of main body 1, separation furnace main body 1 is equipped with several electrodes 7, each electrode 7 and the company for separating furnace main body 1 The place of connecing is equipped with sealing ring 8, and the top of each electrode 7 is fixedly connected with fever housing 11, and fever housing 11 is mounted on separation The inner wall of furnace main body 1, and the top for housing 11 of generating heat is equipped with graphite heater 4, graphite heater 4 includes graphite plate 41, stone The rounded setting of black plate 41, and the top of graphite plate 41 offers several guide grooves 43, the center of graphite plate 41 is equipped with star Tie point 42 is provided with electrode connecting hole 44 on graphite plate 41, and each guide groove 43 is arc-shaped setting, and electrode connecting hole 44 is with star Annular etc. point installation three, passes through electrode connecting hole 44,42 and of star-like connection point in graphite heater 4 centered on shape tie point 42 The setting of guide groove 43, it is energy saving and ensure that condensation effect so that this vacuum separation stove heating is uniform.

Working principle, when the utility model kirsite is separated in separating furnace main body 1, graphite heater 4 includes stone Black plate 41, the star-like connection point 42 positioned at 41 center of graphite plate, and the electrode connecting hole 44 being located on graphite plate 41, graphite plate 41 are divided into three-phase from star-like connection point 42, and the guide groove 43 in every phase disk forms resistance loop, and electrode connecting hole 44 is set In the end of every phase, graphite heater 4 is connected by fever housing 11 with the electrode 7 for being located at furnace bottom bottom, is installed on support ring In cavity, graphite heater 4 directly acts on the bottom surface of entire chamber furnaced, and the bottom of chamber furnaced is made to fully enter graphite heater 4 radiation scopes；Fractionation disk 5 is arranged in a crossed manner in the inner wall of inner casing 3, and the intersection by being fractionated disk 5 is obliquely installed, Ke Yishi Existing continuous production kirsite, so that the work that kirsite is efficiently separated, and at the same time cold by condensing cover 10 with holes, sealing The setting of solidifying cover 2 and insulating layer 6, heat insulation is more preferable, not only ensure that the stabilization of temperature, also prevents from dissipating outside thermal energy, improve The energy uses.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (6)

1. a kind of new zinc alloy vacuum separation furnace, including separation furnace main body (1), it is characterised in that: the separation furnace main body (1) Top be equipped with end cap (9), and it is described separation furnace main body (1) inner cavity in be equipped with inner casing (3), the inner casing (3) it is interior Wall is equipped with several fractionation disk (5), and the outer wall of the inner casing (3) is provided with sealed condensating cover (2), the sealed condensating cover (2) outer wall is fixedly connected with the inner wall of separation furnace main body (1), and the bottom opening of separation furnace main body (1) is equipped with several Electrode (7), each electrode (7) is equipped with sealing ring (8) with the junction for separating furnace main body (1), and each electrode (7) fever housing (11) is fixedly connected at the top of, fever housing (11) is mounted on the inner wall of separation furnace main body (1), and Graphite heater (4) are installed above the fever housing (11).

2. a kind of new zinc alloy vacuum separation furnace according to claim 1, it is characterised in that: the graphite heater It (4) include graphite plate (41), the rounded setting of the graphite plate (41), and several are offered at the top of the graphite plate (41) Guide groove (43), the center of the graphite plate (41) are equipped with star-like connection point (42), are provided with electrode on the graphite plate (41) Connecting hole (44).

3. a kind of new zinc alloy vacuum separation furnace according to claim 2, it is characterised in that: each guide groove (43) It is arc-shaped setting, the electrode connecting hole (44) annular equal minute installation three centered on star-like connection point (42).

4. a kind of new zinc alloy vacuum separation furnace according to claim 1, it is characterised in that: the fractionation disk (5) exists It is arranged in a crossed manner in the inner wall of inner casing (3), and one end far from inner casing (3) is to tilt down 20 degree of settings.

5. a kind of new zinc alloy vacuum separation furnace according to claim 1, it is characterised in that: the sealed condensating cover (2) condensing cover with holes (10) are installed with the junction of inner casing (3).

6. a kind of new zinc alloy vacuum separation furnace according to claim 1, it is characterised in that: the separation furnace main body (1) outer wall is equipped with insulating layer (6).