CN203421939U - Discharging device suitable for vertical kiln - Google Patents

Abstract

The utility model discloses a discharging device suitable for a vertical kiln. The discharging device is arranged under the vertical kiln (1), the discharging device is provided with a plurality of discharging pipes (2), the peripheries of the discharging pipes (2) are surrounded by a cooling water tank (3), and cooling water is added into the cooling water tank (3). The discharging device can be of four following structures at the outlet positions of the discharging pipes (2). The four structures are that a fixed combined type quantitative cabin (6) is matched with an upper pull plate (4) and a lower pull plate (5), the fixed combined type quantitative cabin (6) is matched with an upper rotating disk (10) and a lower rotating disk (11), a drawer combined type quantitative cabin (13) is matched with a fixed type discharging plate (14), and at least one rotary combined type quantitative cabin (15) is arranged at the outlet positions of the discharging pipes. The discharging device has the following advantages of being simple and reasonable in structure, convenient to operate, low in manufacturing and operating cost, capable of really achieving equal settlement of materials in the kiln on the same horizontal plane and widely applied to various kiln bodies and storage cabins requiring for first in first out of the materials.

Description

A kind of drawing mechanism that is applicable to shaft kiln

Technical field

The utility model relates to a kind of drawing mechanism that is applicable to shaft kiln.

Background technology

In smelting industry, often use shaft kiln or flat kiln to carry out roasting or satin burning to mineral.The material energy uniform settlement of requirement same level in kiln, current various drawing mechanism effects are all undesirable, and the slightly better equipment price of effect is too high, and operating cost is high.

Utility model content

The purpose of this utility model is to overcome the deficiencies in the prior art, provides a kind of interior material of shaft kiln that makes evenly to sink, and manufactures the cheap drawing mechanism that is applicable to shaft kiln of operating cost.

The purpose of this utility model realizes in the following manner:

Described drawing mechanism is arranged on the below of shaft kiln; Described drawing mechanism is mainly comprised of many discharge nozzles, upper arm-tie, lower pulling plate and the quantitative storehouse of fixed combination formula, the discharging opening of every discharge nozzle docking shaft kiln base plate, adjacent two discharging tube center distancees are 10-200 centimetre, upper arm-tie is positioned at the below of discharge nozzle, the quantitative position in storehouse of fixed combination formula is in the below of upper arm-tie, and lower pulling plate is positioned at the below in the quantitative storehouse of fixed combination formula; On described upper arm-tie and lower pulling plate, discharge opening is all set; Described fixed combination formula arranges demand chamber in quantitative storehouse, and the number of demand chamber and the number of discharge nozzle equate; Demand chamber in the quantitative storehouse of described fixed combination formula aligns with discharge nozzle separately all the time.

Any one in described discharge nozzle, upper arm-tie, lower pulling plate and the quantitative storehouse of fixed combination formula or multiple or be all sandwich arbitrarily, adds cooling water in sandwich; A cooling water tank is enclosed in the periphery of all discharge nozzles, adds cooling water in cooling water tank.

The both sides that described upper arm-tie is positioned at discharge opening arrange the straight line of ，Qie Yi limit, wing limit formation and the center line of upper arm-tie push-and-pull glide direction is parallel to each other.

The purpose of this utility model can also realize in the following manner:

Described drawing mechanism is arranged on the below of shaft kiln; Described drawing mechanism is mainly comprised of many discharge nozzles, top rotary table, lower rotary table, axle and the quantitative storehouse of fixed combination formula, the discharging opening of every discharge nozzle docking shaft kiln base plate, adjacent two discharging tube center distancees are 10-200 centimetre, top rotary table is positioned at the below of discharge nozzle, the quantitative position in storehouse of fixed combination formula is in the below of top rotary table, and lower rotary table is positioned at the below in the quantitative storehouse of fixed combination formula; Described top rotary table is connected by axle with lower rotary table; Described top rotary table and lower rotary table all arrange discharge opening; Described fixed combination formula arranges demand chamber in quantitative storehouse, and the number of demand chamber and the number of discharge nozzle equate; Demand chamber in the quantitative storehouse of described fixed combination formula aligns with discharge nozzle separately all the time.

Any one in described discharge nozzle, top rotary table, lower rotary table, axle and the quantitative storehouse of fixed combination formula or multiple or be all sandwich arbitrarily, adds cooling water in sandwich; A cooling water tank is enclosed in the periphery of all discharge nozzles, adds cooling water in cooling water tank.

The purpose of this utility model can also realize in the following manner:

Described drawing mechanism is arranged on the below of shaft kiln; Described drawing mechanism is mainly comprised of many discharge nozzles, drawer type combined basis weight storehouse and fixed reclaiming plate; The discharging opening of every discharge nozzle docking shaft kiln base plate, adjacent two discharging tube center distancees are 10-200 centimetre, and described drawer type combined basis weight position in storehouse is in the below of discharge nozzle, and fixed reclaiming plate is positioned at the below in drawer type combined basis weight storehouse; On described fixed reclaiming plate, discharge opening is set; Described drawer type combined basis weight arranges demand chamber in storehouse, and the number of demand chamber and the number of discharge nozzle equate.

Any one in described discharge nozzle, drawer type combined basis weight storehouse and fixed reclaiming plate or multiple or be all sandwich arbitrarily, adds cooling water in sandwich; A cooling water tank is enclosed in the periphery of all discharge nozzles, adds cooling water in cooling water tank.

The purpose of this utility model can also realize in the following manner:

Described drawing mechanism is arranged on the below of shaft kiln; Described drawing mechanism is mainly comprised of many discharge nozzles, at least one rotation combined quantitative storehouse; The discharging opening of every discharge nozzle docking shaft kiln base plate, adjacent discharge nozzle centre-to-centre spacing is 10-200 centimetre, the below of described discharge nozzle is installed and is rotated combined quantitative storehouse; Described rotation combined quantitative arranges demand chamber in storehouse.

Described discharge nozzle, rotate in combined quantitative storehouse any one or be all sandwich, in sandwich, add cooling water; A cooling water tank is enclosed in the periphery of all discharge nozzles, adds cooling water in cooling water tank.

Compared with prior art, the utlity model has following advantage: simple and reasonable, easy to operate, manufacture and operating cost are low, the material uniform settlement that can really realize same level in kiln, can be widely used in all kinds of kiln body and the storing bins that need material first in first out.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model one embodiment;

Fig. 2 is the upper pulling plate structure enlarged diagram of Fig. 1;

Fig. 3 is the structural representation of the utility model one embodiment;

Fig. 4 is the A-A sectional structure enlarged diagram of Fig. 3;

Fig. 5 is the B-B sectional structure enlarged diagram of Fig. 3;

Fig. 6 is the structural representation of the utility model one embodiment;

Fig. 7 is the structural representation of the utility model one embodiment;

In figure: 1-shaft kiln, 2-discharge nozzle, 3-cooling water tank, the upper arm-tie of 4-, 5-lower pulling plate, the quantitative storehouse of 6-fixed combination formula, 7-discharge opening, 8-demand chamber, 9-wing limit, 10-top rotary table, 11-lower rotary table, 12-axle, 13-drawer type combined basis weight storehouse, the fixed reclaiming plate of 14-, 15-rotates combined quantitative storehouse, 16-feed inlet and outlet.

Specific embodiment mode

Below in conjunction with drawings and Examples, the utility model is further described:

Referring to accompanying drawing 1-2: described drawing mechanism is arranged on the below of shaft kiln 1; Described drawing mechanism is mainly comprised of the quantitative storehouse 6 of many discharge nozzles 2, upper arm-tie 4, lower pulling plate 5 and fixed combination formula, the discharging opening of every discharge nozzle 2 docking shaft kiln 1 base plates, adjacent two discharge nozzle 2 centre-to-centre spacing are 10-200 centimetre, upper arm-tie 4 is positioned at the below of discharge nozzle 2, the quantitative storehouse 6 of fixed combination formula is positioned at the below of arm-tie 4, and lower pulling plate 5 is positioned at the below in the quantitative storehouse 6 of fixed combination formula; On described upper arm-tie 4 and lower pulling plate 5, discharge opening 7 is all set; Described fixed combination formula arranges demand chamber 8 in quantitative storehouse 6, and the number of demand chamber 8 equates with the number of discharge nozzle 2; Demand chamber 8 in the quantitative storehouse 6 of described fixed combination formula aligns with discharge nozzle 2 separately all the time.

Any one in the quantitative storehouse 6 of described discharge nozzle 2, upper arm-tie 4, lower pulling plate 5 and fixed combination formula or multiple or be all sandwich arbitrarily, adds cooling water in sandwich; A cooling water tank 3 is enclosed in the periphery of all discharge nozzles 2, in cooling water tank 3, adds cooling water.

The both sides that described upper arm-tie 4 is positioned at discharge opening 7 arrange wing limit 9, and the straight line that forms of wing limit 9 and the center line of upper arm-tie 4 push-and-pull glide directions are parallel to each other.

Referring to accompanying drawing 3-5: described drawing mechanism is arranged on the below of shaft kiln 1; Described drawing mechanism is mainly comprised of the quantitative storehouse 6 of many discharge nozzles 2, top rotary table 10, lower rotary table 11, axle 12 and fixed combination formula, the discharging opening of every discharge nozzle 2 docking shaft kiln 1 base plates, adjacent two discharge nozzle 2 centre-to-centre spacing are 10-200 centimetre, top rotary table 10 is positioned at the below of discharge nozzle 2, the quantitative storehouse 6 of fixed combination formula is positioned at the below of top rotary table 10, and lower rotary table 11 is positioned at the below in the quantitative storehouse 6 of fixed combination formula; Described top rotary table 10 is connected by axle 12 with lower rotary table 11; Described top rotary table 10 and lower rotary table 11 all arrange discharge opening 7; Described fixed combination formula arranges demand chamber 8 in quantitative storehouse 6, and the number of demand chamber 8 equates with the number of discharge nozzle 2; Demand chamber 8 in the quantitative storehouse 6 of described fixed combination formula aligns with discharge nozzle 2 separately all the time.

Any one in the quantitative storehouse 6 of described discharge nozzle 2, top rotary table 10, lower rotary table 11, axle 12 and fixed combination formula or multiple or be all sandwich arbitrarily, adds cooling water in sandwich; A cooling water tank 3 is enclosed in the periphery of all discharge nozzles 2, in cooling water tank 3, adds cooling water.

Referring to accompanying drawing 6: described drawing mechanism is arranged on the below of shaft kiln 1; Described drawing mechanism is mainly comprised of many discharge nozzles 2, drawer type combined basis weight storehouse 13 and fixed reclaiming plate 14; The discharging opening of every discharge nozzle 2 docking shaft kiln 1 base plates, adjacent two discharge nozzle 2 centre-to-centre spacing are 10-200 centimetre, and described drawer type combined basis weight storehouse 13 is positioned at the below of discharge nozzle 2, and fixed reclaiming plate 14 is positioned at the below in drawer type combined basis weight storehouse 13; On described fixed reclaiming plate 14, discharge opening 7 is set; In described drawer type combined basis weight storehouse 13, demand chamber 8 is set, and the number of demand chamber 8 equates with the number of discharge nozzle 2.

Any one in described discharge nozzle 2, drawer type combined basis weight storehouse 13 and fixed reclaiming plate 14 or multiple or be all sandwich arbitrarily, adds cooling water in sandwich; A cooling water tank 3 is enclosed in the periphery of all discharge nozzles 2, in cooling water tank 3, adds cooling water.

Referring to accompanying drawing 7: described drawing mechanism is arranged on the below of shaft kiln 1; Described drawing mechanism is mainly comprised of many discharge nozzles 2, at least one rotation combined quantitative storehouse 15; The discharging opening of every discharge nozzle 2 docking shaft kiln 1 base plates, adjacent discharge nozzle 2 centre-to-centre spacing are 10-200 centimetre, the below of described discharge nozzle 2 is installed and is rotated combined quantitative storehouse 15; In described rotation combined quantitative storehouse 15, demand chamber 8 is set.

Described discharge nozzle 2, rotate in combined quantitative storehouse 15 any one or be all sandwich, in sandwich, add cooling water; A cooling water tank 3 is enclosed in the periphery of all discharge nozzles 2, in cooling water tank 3, adds cooling water.

In described cooling water tank 3, adding cooling water is recirculated cooling water, and in sandwich, adding cooling water is also recirculated cooling water, is all for high-temperature material mobile in cooling discharging pipe 2.Cooling water tank 3 does not directly communicate with sandwich, and the recirculated cooling water of the recirculated cooling water in sandwich and cooling water tank 3 can be separate, can homology yet.

Described axle 12 is connected with power set.

Embodiment 1:

Drawing mechanism is arranged on below shaft kiln 1, mainly by the quantitative storehouse 6 of many discharge nozzles 2, upper arm-tie 4, lower pulling plate 5 and fixed combination formula, formed, upper arm-tie 4 is positioned at the below of discharge nozzle 2, the quantitative storehouse 6 of fixed combination formula is positioned at the below of arm-tie 4, and lower pulling plate 5 is positioned at the below in the quantitative storehouse 6 of fixed combination formula; On upper arm-tie 4 and lower pulling plate 5, discharge opening 7 is all set.Fixed combination formula arranges demand chamber 8 in quantitative storehouse 6, and the number of demand chamber 8 equates with the number of discharge nozzle 2.Demand chamber 8 in the quantitative storehouse 6 of fixed combination formula aligns with discharge nozzle 2 separately all the time.Discharge opening 7 on upper arm-tie 4 aligns with discharge nozzle 2, and the discharge opening on lower pulling plate 57 is when misplace completely with demand chamber 8, and demand chamber 8 is in feed state.On the contrary, when the discharge opening 7 on upper arm-tie 4 misplaces completely with discharge nozzle 2, when the discharge opening 7 on lower pulling plate 5 aligns with demand chamber 8 simultaneously, demand chamber 8 is in discharging state.

Embodiment 2:

On the basis of embodiment 1, by being all made into sandwich in the quantitative storehouse 6 of discharge nozzle 2, upper arm-tie 4, lower pulling plate 5 and fixed combination formula, in sandwich, add cooling water; A cooling water tank 3 is enclosed in the periphery of all discharge nozzles 2, in cooling water tank 3, adds cooling water.

Embodiment 3,4:

On the basis of embodiment 1,2, the both sides that are positioned at discharge opening 7 at upper arm-tie 4 arrange wing limit 9 respectively, and the straight line that forms of wing limit 9 and the center line of upper arm-tie 4 push-and-pull glide directions are parallel to each other.

Embodiment 5:

Drawing mechanism is arranged on below shaft kiln 1, mainly by many discharge nozzles 2, the quantitative storehouse 6 of fixed combination formula, top rotary table 10, lower rotary table 11 and power shaft 12, formed, top rotary table 10 is positioned at the below of discharge nozzle 2, the quantitative storehouse 6 of fixed combination formula is positioned at the below of top rotary table 10, lower rotary table 11 is positioned at the below in the quantitative storehouse 6 of fixed combination formula, and top rotary table 10 and the equal rigidity of lower rotary table 11 are arranged on power shaft 12; Top rotary table 10 and lower rotary table 11 all arrange discharge opening 7.Fixed combination formula arranges demand chamber 8 in quantitative storehouse 6, and the number of demand chamber 8 equates with the number of discharge nozzle 2.Demand chamber 8 in the quantitative storehouse 6 of fixed combination formula aligns with discharge nozzle 2 separately all the time.Discharge opening 7 mutual dislocation on top rotary table 10 and lower rotary table 11, do not have overlapping, and top rotary table 10 and lower rotary table 11 coaxial rotation.When the discharge opening 7 on top rotary table 10 aligns with discharge nozzle 2, the discharge opening 7 on lower rotary table 11 misplaces completely with demand chamber 8, and demand chamber 8 is in feed state.On the contrary, the discharge opening 7 on top rotary table 10 misplaces constantly completely with discharge nozzle 2, and the discharge opening 7 on lower rotary table 11 aligns with demand chamber 8, and demand chamber 8 is in discharging state.

Embodiment 6:

On the basis of embodiment 6, discharge nozzle 2, the quantitative storehouse 6 of fixed combination formula, top rotary table 10, lower rotary table 11 and power shaft 12 are all made into sandwich, in sandwich, add cooling water; A cooling water tank 3 is enclosed in the periphery of all discharge nozzles 2, in cooling water tank 3, adds cooling water.

Embodiment 7:

Drawing mechanism is arranged on below shaft kiln 1, mainly by many discharge nozzles 2, drawer combined quantitative storehouse 13 and fixed reclaiming plate 14, formed, drawer combined quantitative storehouse 13 is positioned at the below of discharge nozzle 2, and fixed reclaiming plate 14 is positioned at the below in drawer combined quantitative storehouse 13; On fixed reclaiming plate 14, discharge opening 7 is set.In drawer combined quantitative storehouse 13, demand chamber 8 is set, and the number of demand chamber 8 equates with the number of discharge nozzle 2.Discharge opening 7 on fixed reclaiming plate 14 misplaces with discharge nozzle 2 all the time, there is no overlapping interval.When the demand chamber 8 in drawer combined quantitative storehouse 13 aligns with discharge nozzle 2, discharge opening 7 dislocation of the demand chamber in drawer combined quantitative storehouse 13 8 and fixed reclaiming plate 14, do not have overlappingly, and demand chamber 8 is in feed state.On the contrary, demand chamber 8 is in feed state.

Embodiment 8:

On the basis of embodiment 7, discharge nozzle 2, drawer combined quantitative storehouse 13 and fixed reclaiming plate 14 are all made into sandwich, in sandwich, add cooling water; A cooling water tank 3 is enclosed in the periphery of all discharge nozzles 2, in cooling water tank 3, adds cooling water.

Embodiment 9:

Drawing mechanism is arranged on below shaft kiln 1, mainly many discharge nozzles 2 and rotation combined quantitative storehouse 15, consists of; Rotate in combined quantitative storehouse 15 demand chamber 8 is set, and the number of demand chamber 8 equates with the number of discharge nozzle 2, a feed inlet and outlet 16 is only set on each demand chamber 8.The demand chamber 8 that rotates combined quantitative storehouse 15 is revolving structure, and a feed inlet and outlet 16 is set, and it is enough, and when feed inlet and outlet 16 is aimed at discharge nozzle 2, demand chamber 8 is in feed state.On the contrary, when feed inlet and outlet 16 rotates 180 degree down away from discharge nozzle 2, demand chamber 8 is in feed state.

Embodiment 10:

On the basis of embodiment 9, discharge nozzle 2 and rotation combined quantitative storehouse 15 are all made into sandwich, in sandwich, add cooling water; A cooling water tank 3 is enclosed in the periphery of all discharge nozzles 2, in cooling water tank 3, adds cooling water.

Claims (9)

1. be applicable to a drawing mechanism for shaft kiln, described drawing mechanism is arranged on the below of shaft kiln (1); It is characterized in that: described drawing mechanism is mainly comprised of many discharge nozzles (2), upper arm-tie (4), lower pulling plate (5) and the quantitative storehouse of fixed combination formula (6), the discharging opening of every discharge nozzle (2) docking shaft kiln (1) base plate, adjacent two discharge nozzles (2) centre-to-centre spacing is 10-200 centimetre, upper arm-tie (4) is positioned at the below of discharge nozzle (2), the quantitative storehouse of fixed combination formula (6) is positioned at the below of arm-tie (4), and lower pulling plate (5) is positioned at the below in the quantitative storehouse of fixed combination formula (6); On described upper arm-tie (4) and lower pulling plate (5), discharge opening (7) is all set; Demand chamber (8) is set in the quantitative storehouse of described fixed combination formula (6), and the number of demand chamber (8) equates with the number of discharge nozzle (2); Demand chamber (8) in the quantitative storehouse of described fixed combination formula (6) aligns with discharge nozzle (2) separately all the time.

2. drawing mechanism according to claim 1, it is characterized in that: any one in described discharge nozzle (2), upper arm-tie (4), lower pulling plate (5) and the quantitative storehouse of fixed combination formula (6) or multiple or be all sandwich arbitrarily, adds cooling water in sandwich; A cooling water tank (3) is enclosed in the periphery of all discharge nozzles (2), and cooling water tank adds cooling water in (3).

3. drawing mechanism according to claim 1 and 2, is characterized in that: the both sides that described upper arm-tie (4) is positioned at discharge opening (7) arrange wing limit (9), and wing limit (9) straight line of forming and the center line of upper arm-tie (4) push-and-pull glide direction are parallel to each other.

4. be applicable to a drawing mechanism for shaft kiln, described drawing mechanism is arranged on the below of shaft kiln (1); It is characterized in that: described drawing mechanism is mainly comprised of many discharge nozzles (2), top rotary table (10), lower rotary table (11), axle (12) and the quantitative storehouse of fixed combination formula (6), the discharging opening of every discharge nozzle (2) docking shaft kiln (1) base plate, adjacent two discharge nozzles (2) centre-to-centre spacing is 10-200 centimetre, top rotary table (10) is positioned at the below of discharge nozzle (2), the quantitative storehouse of fixed combination formula (6) is positioned at the below of top rotary table (10), and lower rotary table (11) is positioned at the below in the quantitative storehouse of fixed combination formula (6); Described top rotary table (10) is connected by axle (12) with lower rotary table (11); Described top rotary table (10) and lower rotary table (11) all arrange discharge opening (7); Demand chamber (8) is set in the quantitative storehouse of described fixed combination formula (6), and the number of demand chamber (8) equates with the number of discharge nozzle (2); Demand chamber (8) in the quantitative storehouse of described fixed combination formula (6) aligns with discharge nozzle (2) separately all the time.

5. drawing mechanism according to claim 4, it is characterized in that: any one in described discharge nozzle (2), top rotary table (10), lower rotary table (11), axle (12) and the quantitative storehouse of fixed combination formula (6) or multiple or be all sandwich arbitrarily, adds cooling water in sandwich; A cooling water tank (3) is enclosed in the periphery of all discharge nozzles (2), and cooling water tank adds cooling water in (3).

6. be applicable to a drawing mechanism for shaft kiln, described drawing mechanism is arranged on the below of shaft kiln (1); It is characterized in that: described drawing mechanism is mainly comprised of many discharge nozzles (2), drawer type combined basis weight storehouse (13) and fixed reclaiming plate (14); The discharging opening of every discharge nozzle (2) docking shaft kiln (1) base plate, adjacent two discharge nozzles (2) centre-to-centre spacing is 10-200 centimetre, described drawer type combined basis weight storehouse (13) is positioned at the below of discharge nozzle (2), and fixed reclaiming plate (14) is positioned at the below in drawer type combined basis weight storehouse (13); Discharge opening (7) is set on described fixed reclaiming plate (14); Demand chamber (8) is set in described drawer type combined basis weight storehouse (13), and the number of demand chamber (8) equates with the number of discharge nozzle (2).

7. drawing mechanism according to claim 6, it is characterized in that: any one in described discharge nozzle (2), drawer type combined basis weight storehouse (13) and fixed reclaiming plate (14) or multiple or be all sandwich arbitrarily, adds cooling water in sandwich; A cooling water tank (3) is enclosed in the periphery of all discharge nozzles (2), and cooling water tank adds cooling water in (3).

8. be applicable to a drawing mechanism for shaft kiln, described drawing mechanism is arranged on the below of shaft kiln (1); It is characterized in that: described drawing mechanism is mainly comprised of many discharge nozzles (2), at least one rotation combined quantitative storehouse (15); The discharging opening of every discharge nozzle (2) docking shaft kiln (1) base plate, adjacent discharge nozzle (2) centre-to-centre spacing is 10-200 centimetre, the below of described discharge nozzle (2) is installed and is rotated combined quantitative storehouse (15); Demand chamber (8) is set in described rotation combined quantitative storehouse (15).

9. drawing mechanism according to claim 8, is characterized in that: described discharge nozzle (2), rotate in combined quantitative storehouse (15) any one or be all sandwich, in sandwich, add cooling water; A cooling water tank (3) is enclosed in the periphery of all discharge nozzles (2), and cooling water tank adds cooling water in (3).

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