CN204872248U - Diverging device is stabilized in feed bin unloading - Google Patents

Abstract

The utility model relates to a diverging device is stabilized in feed bin unloading, including feed bin, first unloading passageway, hopper and shunt, unloading passageway switch -on feed bin and hopper, the shunt sets up in feed bin and hopper, and the shunt includes barrel, first awl fill and deuteropyramid fill, first awl is fought and the deuteropyramid is fought is fixed in the barrel both ends respectively, and the shunt is fixed in feed bin and hopper inner wall, and all is provided with the unloading passageway between shunt and feed bin inner wall and the hopper inner wall. Setting up the shunt of olive form in feed bin and hopper, making the powder flow out from shunt and second unloading passageway between feed bin, shunt and the hopper, the shunt forms at feed bin and hopper middle part and packs on the one hand, and formation hourglass hopper -shaped low ebb among the distribution process is avoided in powder from shunt side circulation, on the other hand second unloading passageway is the even passageway of width, and the pressure of powder in second unloading passageway is impartial, the reposition of redundant personnel of powder equipartition, make the powder in feed bin and hopper at the uniform velocity, evenly, slow decline.

Description

Bin blanking stablizes part flow arrangement

Technical field

The utility model belongs to material blanking device technical field, particularly relates to a kind of bin blanking and stablizes part flow arrangement.

Background technology

At present, existing blanking device adopts flared feed bin structure, and powder is placed in funneling feed bin, and powder is carried downwards endlessly under the effect of natural gravity; Powder, in storage, homogenizing, batching, conveying, pressing process, delivers from godown through warehouse entry, and after circulation several times, powder particles distribution and inequality thereof, powder fluctuates into heave of the sea, very big to Influence of production.

Powder is at formation pinnacle of a pagoda, pan feeding place shape, and bulky grain four is circulated, in the middle of granule or powder accumulation; It is bucket-shaped that feed bin discharging forms a hourglass, and powder particles delivers from godown and just forms particle peak and particle low ebb, causes the problem that blanking is uneven, has an impact, affect product design to press pressing unfired brick.

Utility model content

The purpose of this utility model is to provide a kind ofly can not form pinnacle of a pagoda at feed bin pan feeding place, powder can not form particle peak and particle low ebb with blanking, the bin blanking of uniform blanking stablizes part flow arrangement.

Technical solution of the present utility model is: a kind of bin blanking stablizes part flow arrangement, comprise feed bin, the first blanking channel, hopper and diverter, described first blanking channel connects described feed bin and hopper, described diverter is arranged in described feed bin and hopper, and described diverter comprises cylindrical shell, the first cone bucket and the second cone bucket; Described first cone bucket and second is bored bucket and is individually fixed in described cylindrical shell two ends, and described diverter is fixed on described feed bin and hopper inwall, and described diverter and be provided with the second blanking channel between described feed bin inwall and hopper inwall.

As preferably: described diverter also comprises shunting support, and described cylinder body outer wall is fixed in described shunting support one end, and the other end is fixed on described feed bin inwall or hopper inwall.

As preferably: described shunting support comprises the first shunting support and the second shunting support, described first shunting Bracket setting is in described first cone bucket and cylindrical shell fixed connection place, and described second shunting Bracket setting is in described second cone bucket and cylindrical shell fixed connection place.

As preferably: described feed bin and hopper are provided with cone bucket portion, described first shunting support and the second shunting support arranged in parallel, and all perpendicular to described cone bucket portion.

As preferably: the cone angle of described cone bucket portion, the first cone bucket and the second cone bucket is 68 degree, and the angle between described first shunting support and cylindrical shell is 56 degree.

As preferably: described cylindrical shell surrounding is evenly provided with 6 first shunting supports and 6 second shunting supports.

As preferably: the cone bucket portion of described feed bin and hopper is provided with control cock.

Compared with prior art, the beneficial effects of the utility model:

(1) in feed bin and hopper during filling powder, powder forms pinnacle of a pagoda shape at pan feeding, and bulky grain four is circulated, in the middle of granule or powder accumulation; During feed bin discharging, to become a hourglass bucket-shaped in pinnacle of a pagoda, deliver from godown and form particle peak and low ebb, and olivary diverter is set in feed bin and hopper, powder is flowed out from diverter and feed bin, the second blanking channel between diverter and hopper, diverter forms filling in the middle part of lining storehouse and hopper on the one hand, powder, from the circulation of diverter side, is avoided forming funnel-form low ebb in circulation process; Second blanking channel is the passage of even width on the other hand, and the pressure of powder in the second blanking channel is impartial, and the uniform shunting of powder, makes powder at the uniform velocity, evenly, slowly decline in feed bin and hopper.

(2) shunting support is set and plays good fixed pedestal effect, diverter is fixed in the middle part of feed bin and hopper, and forms the second blanking channel of even width.

(3) control cock can control break-make and the blanking velocity of feed bin and hopper blanking, can regulate quickly and easily as required.

Accompanying drawing explanation

Fig. 1 is the integral structure schematic diagram that the utility model bin blanking stablizes part flow arrangement;

Fig. 2 is the diversion structure schematic diagram that the utility model bin blanking stablizes part flow arrangement;

Fig. 3 is another viewing angle constructions schematic diagram of Fig. 2.

Primary clustering nomenclature:

Feed bin 10, cone bucket portion 12, first blanking channel 20, hopper 30, diverter 40, cylindrical shell 42, the first cone bucket 44, second bores bucket 46, and shunting support 48, first is shunted support 482, second and shunted support 484, second blanking channel 50, control cock 60.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is further described:

Fig. 1, Fig. 2, Fig. 3 show first embodiment of the present utility model.

Refer to shown in Fig. 1, Fig. 2, Fig. 3, this bin blanking stablizes part flow arrangement, comprise feed bin 10, first blanking channel 20, hopper 30 and diverter 40, first blanking channel 20 connects feed bin 10 and hopper 30, diverter 40 is arranged in feed bin 10 and hopper 30, and diverter 40 comprises cylindrical shell 42, first and bores bucket 44 and the second cone bucket 46; First cone bucket 44 and the second cone bucket 46 are individually fixed in cylindrical shell 42 two ends, and diverter 40 is fixed on feed bin 10 and hopper 30 inwall, and diverter 40 and be provided with the second blanking channel 50 between feed bin 10 inwall and hopper 30 inwall.

In the present embodiment, diverter 40 also comprises shunting support 48, and cylindrical shell 42 outer wall is fixed in shunting support 48 one end, and the other end is fixed on feed bin 10 inwall or hopper 30 inwall.Shunting support 48 is set and plays good fixed pedestal effect, diverter 40 is fixed in the middle part of feed bin 10 and hopper 30, and forms the second blanking channel 50 of even width.

In the present embodiment, shunting support 48 comprises the first shunting support 482 and the second shunting support 484, first shunting support 482 is arranged at the first cone bucket 44 and cylindrical shell 42 fixed connection place, and the second shunting support 484 is arranged at the second cone bucket 46 and cylindrical shell 42 fixed connection place.

In the present embodiment, feed bin 10 and hopper 30 are provided with cone bucket portion 12, first and shunt support 482 and the second shunting support 484 is arranged in parallel, and all perpendicular to boring bucket portion 12.

In the present embodiment, the cone angle that cone bucket portion 12, first bores bucket 44 and the second cone bucket 46 is 68 degree, and the angle between the first shunting support 482 and cylindrical shell 42 is 56 degree.

In the present embodiment, cylindrical shell 42 surrounding is evenly provided with 6 first shunting supports 482 and 6 second shunting supports 484.

The second blanking channel 50 formed between feed bin 10 and diverter 40, between hopper 30 and diverter 40 is taper.

In the present embodiment, the cone bucket portion 12 of feed bin 10 and hopper 30 is provided with control cock 60.Control cock 60 can control break-make and the blanking velocity of feed bin 10 and hopper 30 blanking, can regulate quickly and easily as required.

Principle of work: in feed bin 10 and hopper 30 during filling powder, powder forms pinnacle of a pagoda shape at pan feeding, and bulky grain four is circulated, in the middle of granule or powder accumulation; During feed bin 10 discharging, to become a hourglass bucket-shaped in pinnacle of a pagoda, deliver from godown and form particle peak and low ebb, and olivary diverter 40 is set in feed bin 10 and hopper 30, powder is flowed out from diverter 40 and feed bin 10, the second blanking channel 50 between diverter 40 and hopper 30, diverter 40 forms filling in the middle part of lining storehouse 10 and hopper 30 on the one hand, powder, from the circulation of diverter 40 side, is avoided forming funnel-form low ebb in circulation process; The opposing party second blanking channel 50 is the passage of even width, and the pressure of powder in second blanking channel is impartial, and the uniform shunting of powder, makes powder at the uniform velocity, evenly, slowly decline in feed bin 10 and hopper 30.Finally be delivered in brick machine and suppress.

The foregoing is only preferred embodiment of the present utility model, all equalizations done according to the utility model right change and modify, and all should belong to the covering scope of the utility model claim.

Claims (7)

1. a bin blanking stablizes part flow arrangement, comprise feed bin, the first blanking channel, hopper and diverter, described first blanking channel connects described feed bin and hopper, described diverter is arranged in described feed bin and hopper, it is characterized in that, described diverter comprises cylindrical shell, the first cone bucket and the second cone bucket; Described first cone bucket and second is bored bucket and is individually fixed in described cylindrical shell two ends, and described diverter is fixed on described feed bin and hopper inwall, and described diverter and be provided with the second blanking channel between described feed bin inwall and hopper inwall.

2. bin blanking according to claim 1 stablizes part flow arrangement, it is characterized in that, described diverter also comprises shunting support, and described cylinder body outer wall is fixed in described shunting support one end, and the other end is fixed on described feed bin inwall or hopper inwall.

3. bin blanking according to claim 2 stablizes part flow arrangement, it is characterized in that, described shunting support comprises the first shunting support and the second shunting support, described first shunting Bracket setting is in described first cone bucket and cylindrical shell fixed connection place, and described second shunting Bracket setting is in described second cone bucket and cylindrical shell fixed connection place.

4. bin blanking according to claim 3 stablizes part flow arrangement, it is characterized in that, described feed bin and hopper are provided with cone bucket portion, and it is arranged in parallel that support shunted by described first shunting support and second, and all perpendicular to described cone bucket portion.

5. bin blanking according to claim 4 stablizes part flow arrangement, it is characterized in that, the cone angle that described cone bucket portion, the first cone bucket and the second cone struggle against is 68 degree, and the angle between described first shunting support and cylindrical shell is 56 degree.

6. bin blanking according to claim 5 stablizes part flow arrangement, it is characterized in that, described cylindrical shell surrounding is evenly provided with 6 first shunting supports and 6 second shunting supports.

7. bin blanking according to claim 6 stablizes part flow arrangement, it is characterized in that, the cone bucket portion of described feed bin and hopper is provided with control cock.