CN112159126B

CN112159126B - Portland cement preparation process

Info

Publication number: CN112159126B
Application number: CN202011051803.1A
Authority: CN
Inventors: 梁亮; 陶川
Original assignee: Tianrui Group Zhoukou Cement Co ltd
Current assignee: Tianrui group Zhoukou Cement Co.,Ltd.
Priority date: 2020-09-29
Filing date: 2020-09-29
Publication date: 2021-05-11
Anticipated expiration: 2040-09-29
Also published as: CN112159126A

Abstract

The invention relates to a preparation process of portland cement, which mainly comprises the following steps: the invention discloses a portland cement stirring device, which comprises an installation substrate, a material placing kit and a stirring kit, wherein the material placing kit is installed on the installation substrate, and the stirring kit is arranged at the upper end of the material placing kit, so that the following problems existing in the stirring treatment of the existing portland cement slurry can be solved: a: the existing silicate cement slurry can be agglomerated into blocks when being placed in the outside for too long time, a large amount of block-shaped substances are generated when clinker is prepared, and the block-shaped substances need to be broken manually, so that the workload of staff is greatly increased, and the manpower is wasted; b: after the existing silicate cement slurry is discharged, a large amount of silicate cement slurry can be remained on the inner wall of the storage container, and the silicate cement slurry is not cleaned in time, so that the coagulation condition is easy to occur, the silicate cement slurry is wasted, and the cost is wasted.

Description

Portland cement preparation process

Technical Field

The invention relates to the technical field of portland cement preparation, in particular to a portland cement preparation process.

Background

Portland cement is a hydraulic cementing material prepared by grinding calcium silicate as a main material, less than 5 percent of limestone or granulated blast furnace slag and a proper amount of gypsum, and is called Portland cement internationally, and the Portland cement has the advantages of quick setting and hardening, high early strength and later strength, good frost resistance, good carbonization resistance, small dry shrinkage and good wear resistance, so the Portland cement is frequently used in large quantities, and is produced in large quantities in order to meet the use requirements.

The prior silicate cement slurry has the following problems in the stirring treatment: a: the existing silicate cement slurry is often caked when being placed in the outside for too long time, so that a large amount of caked materials are generated during clinker preparation, the caked materials need to be broken manually, the workload of staff is greatly increased, and the manpower is wasted; b: after the existing silicate cement slurry is discharged, a large amount of silicate cement slurry is usually remained on the inner wall of the storage container, and if the silicate cement slurry is not cleaned in time, the coagulation condition is easy to occur, so that the silicate cement slurry is wasted, and the cost is wasted.

Disclosure of Invention

In order to solve the above problems, the present invention provides a portland cement manufacturing process using a portland cement mixing device, which can solve the above-mentioned problems of portland cement slurries during mixing.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: a preparation process of portland cement mainly comprises the following steps:

the method comprises the following steps: equipment inspection: before the portland cement stirring device is started to stir portland cement, the operation of the equipment is checked;

step two: manual feeding: manually pulling the sliding pulling plate open, and pouring the silicate cement slurry to be added into the stirring barrel, thereby achieving the purpose of manually adding the materials;

step three: stirring materials: after the manual feeding operation in the second step is completed, the second motor works to drive the stirring frame to rotate, so that the silicate cement slurry in the stirring barrel is stirred, and the aim of stirring the materials is fulfilled;

step four: collecting materials: after the material stirring operation in the third step is completed, manually opening the closing plate, then operating a first motor to drive the jacking cam to work and jack the stirring barrel, so that the stirring barrel is inclined, the silicate cement slurry in the stirring barrel is conveniently discharged, and the purpose of collecting the material is achieved;

the portland cement stirring device used in the above steps comprises a mounting substrate, a material placing sleeve and a stirring sleeve, wherein the material placing sleeve is mounted on the mounting substrate, and the stirring sleeve is arranged at the upper end of the material placing sleeve.

The material placing kit comprises a supporting plate, a jacking plate, a first motor, a jacking cam, a material placing frame, a rotating block and a rotating shaft rod, wherein the supporting plate is arranged on a mounting base plate in a welding mode, the jacking plate is arranged on the outer side of the supporting plate and is arranged on the mounting base plate in a welding mode, the first motor is arranged on a motor base on the outer side of the jacking plate, the jacking cam is arranged on an output shaft of the first motor, the upper end of the jacking cam is abutted against the material placing frame, the rotating block is arranged at the lower end of the material placing frame and is arranged on the rotating shaft rod, the rotating shaft rod is arranged on the supporting plate in a rotating connection mode, and when the, the material placing frame works to fix the stirring sleeve, the first motor works outside the jacking plate to drive the jacking cam to jack the material placing frame, thereby drive stirring external member and turning block and rotate on the pivot pole, thereby reach the purpose of slope stirring external member, make things convenient for the blanking.

The stirring external member includes the agitator, slide the arm-tie, No. two motors, stirring frame and closing plate, the agitator is installed on putting the work or material rest, install through sliding connection's mode on the agitator and slide the arm-tie, install No. two motors on the agitator lateral wall motor cabinet, install the stirring frame on the output shaft of No. two motors, the stirring frame is located inside the agitator, install the closing plate through bolted connection's mode on the agitator, central point department of putting is provided with through-hole A on the closing plate, in operation, the closing plate is opened to the manual work, later the manual work will need stir the processing silicate cement thick liquids and pour into to the agitator, later No. two motor work drive stirring frame and rotate, thereby reach the purpose of stirring silicate cement thick liquids.

As a preferred technical scheme, the material placing frame comprises an arc-shaped bottom plate, a connecting block, rotating slats, locking bolts, sliding blocks and sliding pull rods, the arc-shaped bottom plate is fixedly installed on the rotating blocks, the connecting block is arranged at the lower end of the arc-shaped bottom plate and abuts against a jacking cam, the rotating slats are evenly arranged on the arc-shaped bottom plate in a rotating connection mode, the rotating slats are of an arc-shaped structure, the locking bolts are evenly arranged on the rotating slats and are connected with the surface of a stirring barrel in a threaded connection mode, the sliding blocks are symmetrically installed on the lower end face of the arc-shaped bottom plate in a sliding connection mode, the sliding pull rods are installed on the sliding blocks in a rotating connection mode, and the sliding pull rods are installed on the inner wall of the jacking plate in a sliding connection mode.

As a preferred technical scheme of the invention, the arc-shaped bottom plate is uniformly provided with the movable sliding rods in a rotary connection mode, the springs are connected between the movable sliding rods and the arc-shaped bottom plate, the movable sliding rods are provided with the inner clamping plates in a rotary connection mode, the inner clamping plates are of arc-shaped structures, and the inner walls of the inner clamping plates are wrapped with rubber layers.

According to a preferable technical scheme, rotating wheels are uniformly arranged on the inner wall of the stirring barrel in a rotating connection mode, a pulling rope is arranged on each rotating wheel, a sliding pulling block is connected to each pulling rope, an inner scraping plate is arranged on each sliding pulling block, each inner scraping plate is of an arc-shaped structure, and a hand pulling ring is arranged on each pulling rope.

As a preferred technical scheme, the stirring frame comprises a rotating shaft rod, a material shifting sheet plate, a hand pull rod, a circular table block and a sliding pull plate, the rotating shaft rod is fixedly installed on an output shaft of a second motor, the material shifting sheet plate is evenly arranged on the rotating shaft rod along the axial direction of the rotating shaft rod, through holes B are evenly formed in the material shifting sheet plate, the hand pull rod which is matched with the through holes A for use is installed inside the rotating shaft rod in a sliding connection mode, the hand pull rod penetrates through a sealing plate, the circular table block is evenly arranged on the hand pull rod, the sliding pull plate is evenly abutted to the outer side of the circular table block, and the sliding pull plate is installed on the material shifting sheet plate in a sliding connection mode.

As a preferred technical scheme of the invention, the sliding pulling plate comprises sliding side plates, partition plates and cutting wires, the sliding side plates are arranged on the inner wall of the material shifting sheet plate in a sliding connection mode, the partition plates which are matched with the through holes B for use are uniformly arranged on the inner sides of the sliding side plates in a spring connection mode, and the cutting wires are uniformly arranged in gaps among the partition plates.

Compared with the prior art, the invention has the following advantages:

1. the invention can solve the following problems of the prior silicate cement slurry during stirring treatment: a: the existing silicate cement slurry is often caked when being placed in the outside for too long time, so that a large amount of caked materials are generated during clinker preparation, the caked materials need to be broken manually, the workload of staff is greatly increased, and the manpower is wasted; b: after the existing silicate cement slurry is discharged, a large amount of silicate cement slurry is usually remained on the inner wall of the storage container, and if the silicate cement slurry is not cleaned in time, the coagulation condition is easy to occur, so that the silicate cement slurry is wasted, and the cost is wasted.

2. According to the invention, the stirring external member is designed, the closing plate is manually opened, silicate cement slurry needing stirring treatment is poured into the stirring barrel, then the second motor works to drive the stirring frame to move, so that silicate cement slurry is stirred, the hand lever is manually pulled in the stirring process to drive the circular table block to move, the sliding pull plate is enabled to move on the stirring sheet plate through the left and right of the circular table block, so that a gap is formed on the stirring sheet plate, and therefore, in the stirring process, the aim of scattering massive silicate cement slurry can be achieved through the gap on the stirring sheet plate, the purpose of condensing and forming silicate cement slurry is greatly avoided, the stirring effect of equipment is improved, the condition of condensing silicate cement slurry is avoided, and the workload of staff is reduced.

3. According to the invention, the stirring barrel is designed, the closing plate is manually dismantled, then the hand pull ring is manually pulled, so that the traction rope moves through the rotating wheel, the inner scraper is driven by the sliding pull plate to slide on the inner wall of the stirring barrel, the purpose of cleaning the silicate cement slurry on the inner wall of the stirring barrel is achieved, the condition that the silicate cement slurry is condensed on the inner wall of the stirring barrel to cause waste is greatly avoided, and the cost is saved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a flow chart of the operation of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a side view of a schematic of the structure of the present invention;

FIG. 4 is a schematic cross-sectional view A-A of FIG. 3 of the present invention;

FIG. 5 is a schematic cross-sectional view B-B of FIG. 3 of the present invention;

FIG. 6 is a cross-sectional schematic view of C-C of FIG. 5 of the present invention;

fig. 7 is an enlarged schematic view of region D of fig. 5 of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 7, a portland cement preparation process mainly includes the following steps:

step two: manual feeding: manually pulling the sliding pulling plate 32 open, and pouring the silicate cement slurry to be added into the stirring barrel 31, thereby achieving the purpose of manually adding the materials;

step three: stirring materials: after the manual feeding operation in the second step is completed, the second motor works to drive the stirring frame 33 to rotate, so that the silicate cement slurry in the stirring barrel 31 is stirred, and the purpose of stirring the materials is achieved;

step four: collecting materials: after the material stirring operation in the third step is completed, the closing plate 34 is manually opened, then the first motor works to drive the jacking cam 23 to work to jack the stirring barrel 31, so that the stirring barrel 31 is inclined, the silicate cement slurry in the stirring barrel is conveniently discharged, and the purpose of collecting the material is achieved;

chemical powder adds auxiliary agent grinder that uses in the above-mentioned step includes mounting substrate 1, puts material external member 2 and stirring external member 3, installs on mounting substrate 1 and puts material external member 2, puts the material external member 2 upper end and is provided with stirring external member 3.

The material placing sleeve 2 comprises a supporting plate 21, a jacking plate 22, a motor, a jacking cam 23, a material placing frame 24, a rotating block 25 and a rotating shaft rod 26, wherein the supporting plate 21 is installed on the installation base plate 1 in a welding mode, the jacking plate 22 is arranged on the outer side of the supporting plate 21, the jacking plate 22 is installed on the installation base plate 1 in a welding mode, the motor is installed on a motor base on the outer side of the jacking plate 22, the jacking cam 23 is installed on an output shaft of the motor, the upper end of the jacking cam 23 abuts against the material placing frame 24, the rotating block 25 is installed at the lower end of the material placing frame 24, the rotating block 25 is installed on the rotating shaft rod 26, the rotating shaft rod 26 is installed on the supporting plate 21 in a rotating connection mode, during specific work, the material placing frame 24 works to fix the stirring sleeve 3, then the motor works to drive the jacking cam 23 to rotate, so that the material placing frame 24 rotates on the rotating shaft rod 26 along with the, thereby achieving the purpose of conveniently taking materials.

The material placing frame 24 comprises an arc-shaped bottom plate 241, a connecting block 242, a rotating strip plate 243, a locking bolt 244, a sliding block 245 and a sliding pull rod 246, the arc-shaped bottom plate 241 is fixedly installed on a rotating block 25, the lower end of the arc-shaped bottom plate 241 is provided with the connecting block 242, the connecting block 242 abuts against the jacking cam 23, the arc-shaped bottom plate 241 is uniformly provided with the rotating strip plate 243 in a rotating connection mode, the rotating strip plate 243 is of an arc-shaped structure, the locking bolt 244 is uniformly arranged on the rotating strip plate 243, the locking bolt 244 is connected with the surface of the stirring barrel 31 in a threaded connection mode, the lower end face of the arc-shaped bottom plate 241 is symmetrically provided with the sliding block 245 in a sliding connection mode, the sliding pull rod 246 is installed on the sliding block 245 in a rotating connection mode, the sliding pull rod 246 is installed on the inner wall of the jacking plate 22 in, afterwards, the rotating strip plate 243 and the stirring sleeve member are manually connected together through the locking bolt 244, when the first motor acts, the jacking cam 23 is driven to rotate, the material placing frame 24 is driven to move through the action of the jacking cam 23, so that the stirring sleeve member 3 is driven to rotate, and when the stirring sleeve member 3 rotates, the sliding block 245 and the sliding pull rod 246 act, so that the stability of the stirring sleeve member 3 in rotation is ensured.

Move slide bar 2411 through the mode evenly installing that rotates the connection on the arc bottom plate 241, it is connected with the spring to move between slide bar 2411 and the arc bottom plate 241, move and install inner splint 2412 through the mode of rotating the connection on the slide bar 2411, inner splint 2412 is the circular arc type structure, the parcel has the rubber layer on the inner wall of inner splint 2412, concrete during operation, when stirring external member 3 is located arc bottom plate 241, it is because of spring action to move slide bar 2411, it wraps the bottom of this stirring external member 3 all the time to drive inner splint 2412, thereby reach the purpose of connecting stirring external member 3.

Stirring external member 3 includes agitator 31, slide arm-tie 32, No. two motors, stirring frame 33 and closing plate 34, agitator 31 installs on putting work or material rest 24, slide arm-tie 32 is installed through sliding connection's mode on agitator 31, install No. two motors on the agitator 31 lateral wall motor cabinet, install stirring frame 33 on the output shaft of No. two motors, stirring frame 33 is located agitator 31 inside, install closing plate 34 through bolted connection's mode on agitator 31, central point department is provided with through-hole A on closing plate 34, in concrete during operation, manual opening closing plate 34, the silicate cement thick liquids that will carry out the stirring processing are poured into to agitator 31, No. two motors work afterwards, drive stirring frame 33 and move, thereby reach the purpose of stirring silicate cement thick liquids.

Rotating wheel 311 is evenly installed through the mode of rotating the connection on the agitator 31 inner wall, be provided with pulling rope 312 on rotating wheel 311, be connected with slip pull block 313 on the pulling rope 312, install interior scraper blade 314 on the slip pull block 313, interior scraper blade 314 is the arc structure, install hand power ring 315 on the pulling rope 312, concrete during operation, the manual work is demolishd the closure plate 34, later manual work pulling hand power ring 315, make pulling rope 312 move through rotating wheel 311, thereby it slides on agitator 31's inner wall to drive interior scraper blade 314 through slip pull plate 313, thereby reach the purpose of the silicate cement thick liquids of clearance on the agitator 31 inner wall, the very big extravagant condition of silicate cement thick liquids of having avoided takes place, and the cost is saved.

The stirring frame 33 comprises a rotating shaft rod 331, a stirring sheet plate 332, a hand lever 333, a circular truncated cone block 334 and a sliding pull plate 335, the rotating shaft rod 331 is fixedly arranged on an output shaft of a second motor, the stirring sheet plate 332 is uniformly arranged on the rotating shaft rod 331 along the axial direction of the rotating shaft rod 331, through holes B are uniformly arranged on the stirring sheet plate 332, the hand lever 333 which is matched with the through holes A for use is arranged in the rotating shaft rod 331 in a sliding connection mode, the hand lever 333 penetrates through the closing plate 34, the circular truncated cone block 334 is uniformly arranged on the hand lever 333, the outer side of the circular truncated cone block 334 is uniformly abutted against the sliding pull plate 335, the sliding pull plate 335 is arranged on the stirring sheet plate 332 in a sliding connection mode, during specific work, the stirring shaft rod 33 rotates under the action of the second motor, the stirring sheet 331 is rotated to drive the stirring sheet plate 331 to move, silicate cement slurry in the stirring barrel 31 is stirred, and the occurrence of coagulation caused by long-time placement of, in the stirring, the hand lever 333 is pulled manually to drive the circular table block 334 to move, the sliding pulling plate 335 is moved on the material shifting sheet plate 332 through the left and right of the circular table block 334, so that a gap appears on the material shifting sheet plate 332, and in the stirring process, the scattering purpose of the massive silicate cement slurry can be realized through the gap on the material shifting sheet plate 332, the condensation forming purpose of the silicate cement slurry is greatly avoided, and the stirring effect of the equipment is improved.

The sliding pulling plate 335 comprises a sliding side plate 3351, a partition plate 3352 and cutting wires 3353, the sliding side plate 3351 is installed on the inner wall of the material shifting plate 332 in a sliding connection mode, the inner side of the sliding side plate 3351 is evenly installed with a partition plate 3352 matched with a through hole B in a spring connection mode, the cutting wires 3353 are evenly arranged in a gap between the partition plates 3352, and during specific work, when the sliding pulling plate 335 moves due to the action of the circular table block 334, the sliding side plate 3351 is driven to move inside the material shifting plate 332, so that the partition plate 3352 enters the material shifting plate 332, the cutting wires 3353 are exposed, the cutting wires 3353 act in the stirring process, the silicate cement slurry is crushed, the stirring effect is greatly increased, and the condition of agglomeration of the silicate cement slurry is avoided.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a portland cement preparation technology, it has used a portland cement agitating unit, and this portland cement agitating unit includes mounting substrate (1), puts material external member (2) and stirring external member (3), its characterized in that: the concrete method for stirring the portland cement by adopting the portland cement stirring device comprises the following steps:

step two: manual feeding: manually pulling the sliding pulling plate (32) open, and pouring the silicate cement slurry to be added into the stirring barrel (31), thereby achieving the purpose of manually adding the materials;

step three: stirring materials: after the manual feeding operation in the second step is completed, the second motor works to drive the stirring frame (33) to rotate, so that the silicate cement slurry in the stirring barrel (31) is stirred, and the aim of stirring the materials is fulfilled;

step four: collecting materials: after the material stirring operation in the third step is completed, manually opening the closing plate (34), then operating a first motor to drive the jacking cam (23) to operate, jacking the stirring barrel (31), so that the stirring barrel (31) is inclined, the silicate cement slurry in the stirring barrel is conveniently discharged, and the purpose of collecting the material is achieved;

a material placing sleeve (2) is arranged on the mounting substrate (1), and a stirring sleeve (3) is arranged at the upper end of the material placing sleeve (2);

the material placing kit (2) comprises a supporting plate (21), a jacking plate (22), a motor, a jacking cam (23), a material placing frame (24), a rotating block (25) and a rotating shaft rod (26), wherein the supporting plate (21) is installed on an installation base plate (1) in a welding mode, the jacking plate (22) is arranged on the outer side of the supporting plate (21), the jacking plate (22) is installed on the installation base plate (1) in a welding mode, the motor is installed on a motor base on the outer side of the jacking plate (22), the jacking cam (23) is installed on an output shaft of the motor, the upper end of the jacking cam (23) abuts against the material placing frame (24), the rotating block (25) is installed at the lower end of the material placing frame (24), the rotating block (25) is installed on the rotating shaft rod (26), and the rotating shaft rod (26) is installed on the supporting plate (21) in a rotating connection mode;

the stirring kit (3) comprises a stirring barrel (31), a sliding pull plate (32), a second motor, a stirring frame (33) and a closing plate (34), wherein the stirring barrel (31) is installed on the material placing frame (24), the sliding pull plate (32) is installed on the stirring barrel (31) in a sliding connection mode, the second motor is installed on a motor base on the side wall of the stirring barrel (31), the stirring frame (33) is installed on an output shaft of the second motor, the stirring frame (33) is located inside the stirring barrel (31), the closing plate (34) is installed on the stirring barrel (31) in a bolt connection mode, and a through hole A is formed in the center of the closing plate (34);

the stirring frame (33) comprises a rotating shaft rod (331), a material shifting plate (332), a hand lever (333), a circular truncated cone block (334) and a sliding pulling plate (335), the rotating shaft rod (331) is fixedly installed on an output shaft of a second motor, the material shifting plate (332) is evenly arranged on the rotating shaft rod (331) along the axial direction of the rotating shaft rod (331), through holes B are evenly formed in the material shifting plate (332), the hand lever (333) which is matched with the through holes A for use is installed inside the rotating shaft rod (331) in a sliding connection mode, the hand lever (333) penetrates through a closing plate (34), the circular truncated cone block (334) is evenly arranged on the hand lever (333), the sliding pulling plate (335) is evenly abutted to the outer side of the circular truncated cone block (334), and the sliding pulling plate (335) is installed on the material shifting plate (332) in a sliding connection mode.

2. A portland cement manufacturing process according to claim 1, wherein: the material placing frame (24) comprises an arc-shaped bottom plate (241), a connecting block (242), a rotating strip plate (243), locking bolts (244), a sliding block (245) and a sliding pull rod (246), the arc-shaped bottom plate (241) is fixedly installed on the rotating block (25), the connecting block (242) is arranged at the lower end of the arc-shaped bottom plate (241), the connecting block (242) abuts against a jacking cam (23), the rotating strip plate (243) is evenly arranged on the arc-shaped bottom plate (241) in a rotating connection mode, the rotating strip plate (243) is of an arc-shaped structure, the locking bolts (244) are evenly arranged on the rotating strip plate (243), the locking bolts (244) are connected with the surface of the stirring barrel (31) in a threaded connection mode, the sliding blocks (245) are symmetrically installed on the lower end face of the arc-shaped bottom plate (241) in a sliding connection mode, the sliding pull rod (246) is, the sliding pull rod (246) is installed on the inner wall of the jacking plate (22) in a sliding connection mode.

3. A portland cement manufacturing process according to claim 2, wherein: the movable sliding rod (2411) is uniformly installed on the arc-shaped bottom plate (241) in a rotating connection mode, a spring is connected between the movable sliding rod (2411) and the arc-shaped bottom plate (241), an inner clamping plate (2412) is installed on the movable sliding rod (2411) in a rotating connection mode, the inner clamping plate (2412) is of an arc-shaped structure, and a rubber layer is wrapped on the inner wall of the inner clamping plate (2412).

4. A portland cement manufacturing process according to claim 1, wherein: rotating wheels (311) are evenly installed on the inner wall of the stirring barrel (31) in a rotating connection mode, a pulling rope (312) is arranged on the rotating wheels (311), a sliding pulling block (313) is connected onto the pulling rope (312), an inner scraping plate (314) is installed on the sliding pulling block (313), the inner scraping plate (314) is of an arc-shaped structure, and a hand pulling ring (315) is installed on the pulling rope (312).

5. A portland cement manufacturing process according to claim 1, wherein: sliding pull plate (335) are including sliding side plate (3351), partition panel (3352) and blank silk (3353), and sliding side plate (3351) are installed on group's tablet board (332) inner wall through sliding connection's mode, and sliding side plate (3351) inboard evenly installs partition panel (3352) that mutually supports the use with through-hole B through spring coupling's mode, evenly is provided with blank silk (3353) in the space between partition panel (3352).