CN204208351U - Titanium sponge production titanium tetrachloride filter and titanium sponge production equipment - Google Patents

Abstract

The utility model discloses a kind of titanium sponge production titanium tetrachloride filter and titanium sponge production equipment, this titanium sponge production titanium tetrachloride filter comprises: cylindrical shell, cover plate and filter screen.The top of cylindrical shell is opened wide, and the sidewall of cylindrical shell is formed with charging aperture, and the perisporium of cylindrical shell is provided with shell flange; Cover plate lid is located at the top of capping cylindrical shell on cylindrical shell, and cover plate is formed with discharging opening, and cover plate is removably connected with shell flange, and is provided with sealing ring between cover plate and shell flange; Filter screen is located at the top in cylindrical shell and is removably connected with cylindrical shell, and filter screen by charging aperture and discharging opening spaced apart.According to titanium sponge production titanium tetrachloride filter of the present utility model, charging aperture is arranged on the sidewall of cylindrical shell, discharging opening is arranged on the top of cylindrical shell, can conveniently impurity be stored in cylindrical shell, impurity is avoided to block filter screen, in addition, filter screen is removably located in cylindrical shell, can so that the cleaning of filter screen and cylindrical shell.

Description

Titanium sponge production titanium tetrachloride filter and titanium sponge production equipment

Technical field

The utility model relates to metal smelt technical field, particularly a kind of titanium sponge production titanium tetrachloride filter and have its titanium sponge production equipment.

Background technology

Refined titanic chloride in refined titanic chloride storage tank by Cemented filling, is transported to reactor with canned motor pump during production and carries out reinforced production by titanium sponge production refined titanic chloride again.Because argon pressure control in tank is improper during dnockout, part micro-air enters in storage tank, the floccule after being hydrolyzed is generated with titanium tetrachloride reaction, and there is a small amount of solid impurity and deposit seed thing in tank bottom, start canned motor pump conveying refined titanic chloride and will take away the above-mentioned impurity of part, thus have influence on titanium sponge quality.Solid impurity accumulates for a long time in pipeline, and cumulative final meeting blocking pipe, impact is normally produced, and adds the labour intensity of employee.Therefore on the titanium tetrachloride pipeline of stokehold, a titanic chloride filter must be installed, before titanium tetrachloride enters reaction in furnace, remove the impurity component contained, therefore removing the impurity suspension contained in refined titanic chloride is the key factor improving titanium sponge quality.

Utility model content

The utility model is intended to solve one of above-mentioned technical problem of the prior art at least to a certain extent.For this reason, the utility model is to propose a kind of titanium sponge production titanium tetrachloride filter, can filter the impurity in titanium tetrachloride.

The utility model also proposed a kind of titanium sponge production equipment with this titanium sponge production titanium tetrachloride filter.

According to titanium sponge production titanium tetrachloride filter of the present utility model, comprising: cylindrical shell, cover plate and filter screen.The top of described cylindrical shell is opened wide, and the sidewall of described cylindrical shell is formed with charging aperture, and the perisporium of described cylindrical shell is provided with shell flange; Described cover plate lid is located at the top of cylindrical shell described in capping on described cylindrical shell, and described cover plate is formed with discharging opening, and described cover plate is removably connected with described shell flange, and is provided with sealing ring between described cover plate and described shell flange; Described filter screen is located at the top in described cylindrical shell and is removably connected with described cylindrical shell, and described filter screen by described charging aperture and described discharging opening spaced apart.

According to titanium sponge production titanium tetrachloride filter of the present utility model, the top in cylindrical shell arranges dismountable filter screen.Thus can by the impurity in strainer filtering titanium tetrachloride, thus make discharging opening obtain purer titanium tetrachloride.And charging aperture is arranged on the sidewall of cylindrical shell, discharging opening is arranged on the top of cylindrical shell, can is conveniently stored in cylindrical shell by impurity, avoid impurity to block filter screen, in addition, filter screen be removably located in cylindrical shell, can so that the cleaning of filter screen and cylindrical shell.

In addition, the titanium sponge production titanium tetrachloride filter above-mentioned according to the utility model, can also have following additional technical characteristic:

Described shell flange is provided with the annular seal groove around described discharging opening, and described cover plate is provided with the annular briquetting corresponding with described annular seal groove, and described sealing ring to be located in described annular seal groove and to be compressed by described annular briquetting.

Described charging aperture is located at the position higher than described cylindrical shell inner bottom surface on described cylindrical shell.

The madial wall of described cylindrical shell is provided with the flange extended in described cylindrical shell, and described filter screen is removably fixed on described flange by screw.

This titanium tetrachloride filter also comprises feed pipe and described discharge nozzle, and the stiff end of described feed pipe is connected with described cylindrical shell and is communicated with described charging aperture, and the stiff end of described discharge nozzle is connected with described end cap and is communicated with described discharging opening.

The free end of described feed pipe is provided with feed pipe flange, and the free end of described discharge nozzle is provided with discharge nozzle flange.

Described feed pipe flange is formed around spaced apart multiple first bolt connecting hole of described feed pipe, and described discharge nozzle flange is formed with spaced apart multiple second bolt connecting hole of annular described discharge nozzle.

The end face of described feed pipe flange away from described feed pipe is formed around the ringwise first sealing ring locating slot of described feed pipe, the end face of described discharge nozzle flange away from described discharge nozzle is formed around the ringwise second sealing ring locating slot of described discharge nozzle.

Described feed pipe and described barrel soldering, and described discharge nozzle welds with described cover plate.

According to titanium sponge production equipment of the present utility model, comprise: reactor, titanium-tetrachloride storage tank and titanium tetrachloride filter, described titanium tetrachloride filter is according to the utility model aforesaid titanium sponge production titanium tetrachloride filter, the described charging aperture of described titanium tetrachloride filter is communicated with described titanium-tetrachloride storage tank, and the described discharging opening of described titanium tetrachloride filter is communicated with described reactor.Thus, the precision of titanium tetrachloride passing into the reactor producing titanium sponge can be improved, and this titanium tetrachloride filter apparatus configuration is simple, easy to assembly and production cost is low.

Described titanium tetrachloride filter also comprises feed pipe and discharge nozzle, described feed pipe is connected with described cylindrical shell and is communicated with described charging aperture, described discharge nozzle is connected with described cover plate and is communicated with described discharging opening, the end of described feed pipe is provided with feed pipe flange, the end of described discharge nozzle is provided with discharge nozzle flange, described titanium-tetrachloride storage tank has the first adpting flange be connected with described feed pipe flange bolt, described reactor has bolted second adpting flange with described discharge nozzle, one in described first adpting flange and described feed pipe flange is provided with the first locating slot and another is provided with and is provided with the second locating slot for of being pressed on by sealing ring in the first annular boss in described first locating slot and/or described second adpting flange and described discharge nozzle flange and another is provided with the second annular boss for being pressed on by sealing ring in described second locating slot.

Accompanying drawing explanation

Fig. 1 is the sectional view of the titanium sponge production titanium tetrachloride filter of the utility model embodiment.

Fig. 2 is the close-up schematic view that Fig. 1 centre circle shows A.

Fig. 3 is the partial schematic diagram of the titanium sponge production equipment of the utility model embodiment.

Reference numeral: titanium tetrachloride filter 100, cylindrical shell 1, cover plate 2, filter screen 3, sealing ring 4, feed pipe 5, discharge nozzle 6, charging aperture 101, discharging opening 102, shell flange 11, flange 12, screw 13, annular briquetting 21, feed pipe flange 51, discharge nozzle flange 61, first bolt connecting hole 501, second bolt connecting hole 601, first sealing ring locating slot 502, second sealing ring locating slot 602, titanium-tetrachloride storage tank 200, reactor 300, the first adpting flange 201, second adpting flange 301.

Detailed description of the invention

Be described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Be exemplary below by the embodiment be described with reference to the drawings, be intended to for explaining the utility model, and can not be interpreted as restriction of the present utility model.

In description of the present utility model, it will be appreciated that, term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end " " interior ", " outward ", " clockwise ", orientation or the position relationship of the instruction such as " counterclockwise " are based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.

In addition, term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristic.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise one or more these features.In description of the present utility model, the implication of " multiple " is two or more, unless otherwise expressly limited specifically.

In the utility model, unless otherwise clearly defined and limited, the term such as term " installation ", " being connected ", " connection ", " fixing " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or integral; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals or the interaction relationship of two elements.For the ordinary skill in the art, the concrete meaning of above-mentioned term in the utility model can be understood as the case may be.

In the utility model, unless otherwise clearly defined and limited, fisrt feature second feature it " on " or D score can comprise the first and second features and directly contact, also can comprise the first and second features and not be directly contact but by the other characterisation contact between them.And, fisrt feature second feature " on ", " top " and " above " comprise fisrt feature directly over second feature and oblique upper, or only represent that fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " below " and " below " comprise fisrt feature immediately below second feature and tiltedly below, or only represent that fisrt feature level height is less than second feature.

Describe the titanium sponge production titanium tetrachloride filter 100 of the utility model embodiment with reference to the accompanying drawings in detail.

As depicted in figs. 1 and 2, according to the titanium sponge production titanium tetrachloride filter 100 of the utility model embodiment, comprising: cylindrical shell 1, cover plate 2 and filter screen 3.

Specifically, the top of cylindrical shell 1 is opened wide, and the sidewall of cylindrical shell 1 is formed with charging aperture 101, and the perisporium of cylindrical shell 1 is provided with shell flange 11.Cover plate 2 lid is located at the top of capping cylindrical shell 1 on cylindrical shell 1, and cover plate 2 is formed with discharging opening 102, cover plate 2 is removably connected with shell flange 11, and is provided with sealing ring 4 between cover plate 2 and shell flange 11.Filter screen 3 is located at the top in cylindrical shell 1 and is removably connected with cylindrical shell 1, and filter screen 3 by charging aperture 101 and discharging opening 102 spaced apart.Material (titanium tetrachloride etc.) enters in cylindrical shell 1 from charging aperture 101, and after filtration after net filtration, the impurity in material is retained in cylindrical shell by strainer filtering, and the material after filtration after net filtration is discharged by discharging opening 102.

According to the titanium sponge production of the utility model embodiment titanium tetrachloride filter, the top in cylindrical shell arranges dismountable filter screen 3.Thus can by the impurity in strainer filtering titanium tetrachloride, thus make discharging opening obtain purer titanium tetrachloride.And charging aperture is arranged on the sidewall of cylindrical shell 1, discharging opening 102 is arranged on the top of cylindrical shell 1, can conveniently impurity is stored in cylindrical shell 1, impurity is avoided to block filter screen 3, in addition, filter screen 3 is removably located in cylindrical shell 1, can so that the cleaning of filter screen 3 and cylindrical shell 1.

Wherein, shell flange 11 can be located on the outer peripheral face of the upper end of cylindrical shell 1.And shell flange 11 can be welded on cylindrical shell 1, or shell flange 11 is integrally formed with cylindrical shell 1.

As shown in Figure 1, in embodiments more of the present utility model, shell flange 11 is provided with the annular seal groove around discharging opening 102, and cover plate 2 is provided with the annular briquetting 21 corresponding with annular seal groove, and sealing ring 4 to be located in described annular seal groove and to be compressed by annular briquetting 21.Thus the sealing property of cover plate 2 and shell flange 11 junction can be improved, avoid titanium tetrachloride to reveal, and avoid outside air to be entered in cylindrical shell 1 by the gap between shell flange 11 and the junction of cover plate 2, make titanium tetrachloride pure.

Advantageously, charging aperture 101 is located at the position higher than cylindrical shell 1 inner bottom surface on cylindrical shell 1.Therefore, the region that impurity stops can be set in the below of charging aperture 101, when passing into titanium tetrachloride by charging aperture 101 in cylindrical shell 1, the titanium tetrachloride passed in cylindrical shell 1 can be avoided to impact the impurity be positioned at bottom cylindrical shell 1, thus not only can improve the filter effect of titanium tetrachloride, but also the impurity that can block filter screen can be reduced.

Further, as depicted in figs. 1 and 2, the madial wall of cylindrical shell 1 is provided with the flange 12 extended in cylindrical shell 1, and filter screen 3 is removably fixed on flange 12 by screw 13.Therefore, can fix easily and dismantle filter screen, so that the installation of filter screen, dismounting, cleaning and replacing etc., but also can so that dismounting filter gauze cleaning cylindrical shell.

Flange 12 can be welded on the inner surface of cylindrical shell 1, or flange 12 is integrally formed with cylindrical shell.

Certainly, the spacing breach of annular also can be set on the inner surface of cylindrical shell 1, thus flange 12 is fixed in this spacing breach.

As shown in Figure 1, in described in more of the present utility model, this titanium tetrachloride filter 100 also comprises feed pipe 5 and discharge nozzle 6, the stiff end of feed pipe 5 (i.e. one end of feed pipe 5 connector drum 1 or the left end of feed pipe 5 as shown in Figure 1) is connected with cylindrical shell 1 and is communicated with charging aperture 101, and the stiff end of discharge nozzle 6 (namely feed pipe 5 connects one end of cover plate 2 or the lower end of feed pipe 5 as shown in Figure 1) is connected with end cap and is communicated with discharging opening 102.Thus, this titanium tetrachloride filter 100 can be facilitated to connect other element in titanium sponge production equipment.

As shown in Figure 3, in the titanium sponge production equipment with this titanium tetrachloride filter 100, the feed pipe 5 of titanium tetrachloride filter 100 is communicated with titanium-tetrachloride storage tank 200, and the discharge nozzle 6 of titanium tetrachloride filter 100 is communicated with reactor 300.

Further, as shown in Figure 1, the free end of feed pipe 5 (i.e. feed pipe 5 one end away from cylindrical shell 1 or the right-hand member of feed pipe 5 as shown in Figure 1) is provided with feed pipe flange 51, and the free end of discharge nozzle 6 (i.e. discharge nozzle 6 one end away from cover plate 2 or the upper end of discharge nozzle 6 as shown in Figure 1) is provided with discharge nozzle flange 61.Thus other element of feed pipe 5 and discharge nozzle 6 connection device can be convenient to further.

Preferentially, as shown in Figure 1, feed pipe flange 51 is formed around spaced apart multiple first bolt connecting hole 501 of feed pipe 5, and discharge nozzle flange 61 is formed with spaced apart multiple second bolt connecting hole 601 of annular discharge nozzle 6.Thus by bolt, this titanium tetrachloride filter can be connected together with other device in titanium sponge production equipment, thus the sealing of the titanium sponge production equipment with this titanium tetrachloride filter can be improved, but also can so that the dismounting of this titanium tetrachloride filter, cleaning and maintenance.

Preferentially, in titanium sponge production equipment, be connected with the first adpting flange bolt on titanium-tetrachloride storage tank by feed pipe flange 51, be connected with the second adpting flange bolt on reactor by discharge nozzle flange 61.

Advantageously, in order to improve sealing effectiveness, the end face of feed pipe flange 51 away from feed pipe 5 is formed around the ringwise first sealing ring locating slot 502 of feed pipe 5, the end face of discharge nozzle flange 61 away from discharge nozzle 6 is formed around the ringwise second sealing ring locating slot 602 of discharge nozzle 6.

Further, effectively can be simplified the production technology of this titanium tetrachloride filter by welding, but also the sealing property of this titanium tetrachloride filter 100 can be improved, therefore, feed pipe 5 of the present utility model welds with cylindrical shell 1, and discharge nozzle 6 welds with cover plate 2.

Wherein, feed pipe 5 can be welded on cylindrical shell, and the end of feed pipe 5 is stretched in charging aperture 101, and discharge nozzle 6 can be welded on cover plate 2, and the end of discharge nozzle 6 is stretched in discharge nozzle 102.

The purpose of this utility model removes the impurity component in raw material refined titanic chloride, avoids line clogging to affect manufacturing schedule, reduces maintenance frequency, reduces the labour intensity of employee, save production cost, and finally reaches the object improving titanium sponge quality.

The utility model is achieved through the following technical solutions: this utility model comprises cylindrical shell 1, cover plate 2, filter screen 3, feed pipe 5, discharge nozzle 6, shell flange 11, feed pipe flange 51 and discharge nozzle flange 52.Feed pipe 5 welds with cylindrical shell 1 and is communicated with, and the refined titanic chloride in titanium-tetrachloride storage tank 200 enters in cylindrical shell 1 by feed pipe 5, flows out directly to enter in reactor 300 react through the titanium tetrachloride of cylindrical shell 1 Inner filter net 3 from discharge nozzle 6.Wherein discharge nozzle 6 and cover plate 2 weld together, and cylindrical shell 1 and cover plate 2 are bolted fastening, adopt corrosion resistant sealing gasket to seal.When accumulating in titanium tetrachloride filter 100 that impurity is more affects charging material of titanium tetrachloride speed, cylindrical shell 1 can be disassembled, clean out inclusion particles, rinse cylindrical shell 1, filter screen 3, cylindrical shell 1 with water, air-dry rear assembling continues use.

The utility model effectively can remove the impurity such as suspended particulate, solid sediment in refined titanic chloride, thus indirectly improves titanium sponge quality.There is device structure simple, simple to operate, the features such as convenient maintenance, good purification.

As shown in Figure 1, titanium tetrachloride filter 100 comprises cylindrical shell 1, cover plate 2, filter screen 3, feed pipe 5, discharge nozzle 6, shell flange 11, feed pipe flange 51 and discharge nozzle flange 52.Discharging opening 102 is welded on the centre position of cover plate 2.Cylindrical shell 1 and cover plate 2 fastening bolt and sealing gasket are fixed together; Filter screen 3 is arranged on the top (getting close to discharging opening 102 place) of cylindrical shell 1.Feed pipe 5 is welded on middle and lower part, cylindrical shell 1 side.Feed pipe flange 51 and feed pipe 5 are fixed together.

As shown in Figure 1 to Figure 3, according to the titanium sponge production equipment of the utility model embodiment, comprise reactor 300, titanium-tetrachloride storage tank 200 and titanium tetrachloride filter 100, titanium tetrachloride filter 100 is according to the utility model aforesaid titanium sponge production titanium tetrachloride filter, the charging aperture 101 of titanium tetrachloride filter 100 is communicated with titanium-tetrachloride storage tank 200, and the discharging opening 102 of titanium tetrachloride filter 100 is communicated with reactor 300.Thus, the precision of titanium tetrachloride passing into the reactor producing titanium sponge can be improved, and this four chlorinations filter 100 structure is simple, easy to assembly and production cost is low.

Further, this titanium tetrachloride filter 100 also comprises feed pipe 5 and discharge nozzle 6, the stiff end of feed pipe 5 (i.e. one end of feed pipe 5 connector drum 1 or the left end of feed pipe 5 as shown in Figure 1) is connected with cylindrical shell 1 and is communicated with charging aperture 101, and the stiff end of discharge nozzle 6 (namely discharge nozzle 6 connects one end of cover plate 2 or the lower end of discharge nozzle 6 as shown in Figure 1) is connected with end cap and is communicated with discharging opening 102.

The free end of feed pipe 5 (i.e. feed pipe 5 one end away from cylindrical shell 1 or the right-hand member of feed pipe 5 as shown in Figure 1) is connected with titanium-tetrachloride storage tank 200, and the free end of discharge nozzle 6 (i.e. discharge nozzle 6 one end away from cover plate 2 or the upper end of discharge nozzle 6 as shown in Figure 1) is connected with reactor 300.

Preferentially, the free end of feed pipe 5 (i.e. feed pipe 5 one end away from cylindrical shell 1 or the right-hand member of feed pipe 5 as shown in Figure 1) is provided with feed pipe flange 51, and the free end of discharge nozzle 6 (i.e. discharge nozzle 6 one end away from cover plate 2 or the upper end of discharge nozzle 6 as shown in Figure 1) is provided with discharge nozzle flange 61.Feed pipe flange 51 is bolted with the first adpting flange 201 of titanium-tetrachloride storage tank 200, and discharge nozzle flange 61 is bolted with the second adpting flange 301 of reactor 300.

Wherein, sealing ring is equipped with between feed pipe flange 51 and the first adpting flange 201 and between discharge nozzle flange 61 and the second adpting flange 301.

Wherein, one in feed pipe flange 51 and the first adpting flange 201 is provided with the first locating slot, and another in feed pipe flange 51 and the first adpting flange 201 is provided with and is engaged at least partially in the first locating slot to prop up the first annular boss of sealing ring;

Or, one in discharge nozzle flange 61 and the second adpting flange 301 is provided with the second locating slot, and another in discharge nozzle flange 61 and the second adpting flange 301 is provided with and is engaged at least partially in the first locating slot to prop up the second annular boss of sealing ring;

Or, one in feed pipe flange 51 and the first adpting flange 201 is provided with the first locating slot, another in feed pipe flange 51 and the first adpting flange 201 is provided with and is engaged at least partially in the first locating slot to prop up the first annular boss of sealing ring, and in discharge nozzle flange 61 and the second adpting flange 301 one is provided with the second locating slot, another in discharge nozzle flange 61 and the second adpting flange 301 is provided with and is engaged at least partially in the first locating slot to prop up the second annular boss of sealing ring.

In the description of this description, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present utility model or example.In this manual, to the schematic representation of above-mentioned term not must for be identical embodiment or example.And the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.In addition, the different embodiment described in this description or example can carry out engaging and combining by those skilled in the art.

Although illustrate and described embodiment of the present utility model above, be understandable that, above-described embodiment is exemplary, can not be interpreted as restriction of the present utility model, those of ordinary skill in the art can change above-described embodiment, revises, replace and modification in scope of the present utility model.

Claims (10)

1. a titanium sponge production titanium tetrachloride filter, is characterized in that, comprising:

Cylindrical shell, the top of described cylindrical shell is opened wide, and the sidewall of described cylindrical shell is formed with charging aperture, and the perisporium of described cylindrical shell is provided with shell flange;

Cover plate, described cover plate lid is located at the top of cylindrical shell described in capping on described cylindrical shell, and described cover plate is formed with discharging opening, and described cover plate is removably connected with described shell flange, and is provided with sealing ring between described cover plate and described shell flange;

Filter screen, described filter screen is located at the top in described cylindrical shell and is removably connected with described cylindrical shell, and described filter screen by described charging aperture and described discharging opening spaced apart.

2. titanium sponge production titanium tetrachloride filter according to claim 1, it is characterized in that, described shell flange is provided with the annular seal groove around described discharging opening, and described cover plate is provided with the annular briquetting corresponding with described annular seal groove, described sealing ring to be located in described annular seal groove and to be compressed by described annular briquetting.

3. titanium sponge production titanium tetrachloride filter according to claim 1, is characterized in that, described charging aperture is located at the position higher than described cylindrical shell inner bottom surface on described cylindrical shell.

4. titanium sponge production titanium tetrachloride filter according to claim 1, is characterized in that, the madial wall of described cylindrical shell is provided with the flange extended in described cylindrical shell, and described filter screen is removably fixed on described flange by screw.

5. titanium sponge production titanium tetrachloride filter according to claim 1, it is characterized in that, also comprise feed pipe and described discharge nozzle, the stiff end of described feed pipe is connected with described cylindrical shell and is communicated with described charging aperture, and the stiff end of described discharge nozzle is connected with described end cap and is communicated with described discharging opening.

6. titanium sponge production titanium tetrachloride filter according to claim 5, is characterized in that, the free end of described feed pipe is provided with feed pipe flange, and the free end of described discharge nozzle is provided with discharge nozzle flange.

7. titanium sponge production titanium tetrachloride filter according to claim 6, it is characterized in that, described feed pipe flange is formed around spaced apart multiple first bolt connecting hole of described feed pipe, and described discharge nozzle flange is formed with spaced apart multiple second bolt connecting hole of annular described discharge nozzle.

8. titanium sponge production titanium tetrachloride filter according to claim 6, it is characterized in that, the end face of described feed pipe flange away from described feed pipe is formed around the ringwise first sealing ring locating slot of described feed pipe, the end face of described discharge nozzle flange away from described discharge nozzle is formed around the ringwise second sealing ring locating slot of described discharge nozzle.

9. a titanium sponge production equipment, is characterized in that, comprising:

Reactor and titanium-tetrachloride storage tank;

Titanium tetrachloride filter, described titanium tetrachloride filter is the titanium sponge production titanium tetrachloride filter according to any one of claim 1-8, the described charging aperture of described titanium tetrachloride filter is communicated with described titanium-tetrachloride storage tank, and the described discharging opening of described titanium tetrachloride filter is communicated with described reactor.

10. titanium sponge production equipment according to claim 9, it is characterized in that, described titanium tetrachloride filter also comprises feed pipe and discharge nozzle, described feed pipe is connected with described cylindrical shell and is communicated with described charging aperture, described discharge nozzle is connected with described cover plate and is communicated with described discharging opening, the end of described feed pipe is provided with feed pipe flange, the end of described discharge nozzle is provided with discharge nozzle flange, described titanium-tetrachloride storage tank has the first adpting flange be connected with described feed pipe flange bolt, described reactor has bolted second adpting flange with described discharge nozzle, one in described first adpting flange and described feed pipe flange is provided with the first locating slot and another is provided with and is provided with the second locating slot for of being pressed on by sealing ring in the first annular boss in described first locating slot and/or described second adpting flange and described discharge nozzle flange and another is provided with the second annular boss for being pressed on by sealing ring in described second locating slot.