阅读说明：本技术 一种水泥制造方法 (Cement manufacturing method ) 是由 何金龙 于 2021-09-02 设计创作，主要内容包括：本发明涉及水泥制造领域,更具体的说是一种水泥制造方法,该方法包括以下步骤：步骤一：组个添加水泥原料；步骤二：对多种原料进行混合；步骤三：针对原料的重量,调节搅拌范围和下料速度；步骤四：对制造出的水泥进行收集。具有能够调节混合水泥原料的搅拌范围的优点。(The invention relates to the field of cement manufacturing, in particular to a cement manufacturing method, which comprises the following steps: the method comprises the following steps: adding cement raw materials in a group; step two: mixing a plurality of raw materials; step three: adjusting the stirring range and the blanking speed according to the weight of the raw materials; step four: the manufactured cement is collected. Has the advantage of being capable of adjusting the stirring range of the mixed cement raw materials.)

1. A cement manufacturing method is characterized in that: the method comprises the following steps:

the method comprises the following steps: adding the cement raw materials one by one;

step two: mixing a plurality of raw materials;

step three: adjusting the stirring range and the blanking speed according to the weight of the raw materials;

step four: the manufactured cement is collected.

2. The cement manufacturing method according to claim 1, characterized in that: the cement manufacturing method relates to a cement manufacturing device which comprises side rods (11), an arc-shaped frame (12) and a mixing barrel (21), wherein the side rods (11) are fixedly connected to two ends of the arc-shaped frame (12), and one side rod (11) rotates on the mixing barrel (21).

3. The cement manufacturing method according to claim 2, characterized in that: the arc frame (12) can be plastically deformed.

4. The cement manufacturing method according to claim 2, characterized in that: the device also comprises a plurality of crushing rods (22), and the inner wall of the mixing barrel (21) is provided with the crushing rods (22).

5. The cement manufacturing method according to claim 4, characterized in that: the device still includes adjust cylinder (23), and the rigid coupling has two adjust cylinder (23) on another side lever (11), and the homonymy switching of blending tank (21) has the curb plate, and the equal rigid coupling of cylinder pole of two adjust cylinder (23) is on the curb plate.

6. The method for producing cement according to claim 5, characterized in that: the device also comprises a conveying shaft (31), a conveying impeller (32), a guide impeller (33) and a discharge pipe (34), wherein the discharge pipe (34) is fixedly connected to the mixing barrel (21), the conveying shaft (31) rotates on the side lever (11), and the conveying shaft (31) is provided with the conveying impeller (32) and the guide impeller (33).

7. The method for producing cement according to claim 6, characterized in that: the device also comprises an expansion link (14) and a sensor (15), the expansion link (14) is fixedly connected to the other side lever (11), and the sensor (15) for detecting the pressure of the mixing barrel (21) is arranged on the expansion link (14).

8. The method for producing cement according to claim 7, characterized in that: the device still includes ring gear (13), mounting panel (61) and hybrid gear (62), rotates side lever (11) rigid coupling on blending tank (21) and has ring gear (13), and the rigid coupling has mounting panel (61) on blending tank (21), and mounting panel (61) rotate and have hybrid gear (62), and hybrid gear (62) and ring gear (13) meshing transmission.

9. The method for producing cement according to claim 8, characterized in that: the device still includes sliding sleeve (41), connecting rod (42), slide bar (43), chassis (51) and cam (52), sliding sleeve (41) have all slided on two side levers (11), connecting rod (42) have all rotated on two sliding sleeve (41), equal rigid coupling has slide bar (43) on two connecting rod (42), two slide bar (43) all slide on chassis (51), chassis (51) go up to have connect two cam (52), two cam (52) respectively with two connecting rod (42) line contact.

10. The method for producing cement according to claim 9, characterized in that: the rotational speeds of the two cams (52) are different.

Technical Field

The invention relates to the field of cement manufacturing, in particular to a cement manufacturing method.

Background

Cement, powdered hydraulic inorganic cementing material. The cement is added with water and stirred to form slurry which can be hardened in the air or in water and can firmly bond materials such as sand, stone and the like together, and the cement is widely applied to engineering such as civil construction, water conservancy, national defense and the like as an important cementing material.

Disclosure of Invention

The invention aims to provide a cement manufacturing method which has the advantage that the stirring range of mixed cement raw materials can be adjusted.

The purpose of the invention is realized by the following technical scheme:

a method of manufacturing cement, the method comprising the steps of:

the method comprises the following steps: adding the cement raw materials one by one;

step two: mixing a plurality of raw materials;

step three: adjusting the stirring range and the blanking speed according to the weight of the raw materials;

step four: the manufactured cement is collected.

The cement manufacturing method relates to a cement manufacturing device which comprises side rods, an arc-shaped frame and a mixing barrel, wherein the side rods are fixedly connected to two ends of the arc-shaped frame, and one side rod rotates on the mixing barrel.

Preferably, the arc frame is capable of plastic deformation.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a flow chart of a method of cement manufacture;

FIG. 2 is a schematic structural view of a blended cement raw material;

FIG. 3 is a schematic view of a half-section of the mixing barrel;

FIG. 4 is an assembled view of the structure shown in FIGS. 2 and 3;

FIG. 5 is a schematic structural view of the transport cement;

FIG. 6 is a positional relationship diagram of the structure shown in FIGS. 4 and 5;

FIG. 7 is a schematic view of the components supporting the structure of FIG. 3;

FIG. 8 is a schematic view of the position adjustment of FIG. 3;

FIG. 9 is a schematic view of the structure shown in FIG. 2 driven for rotation;

fig. 10 is a schematic view of the structure of an apparatus for manufacturing cement.

Detailed Description

Referring to fig. 1, a flow chart of a method for manufacturing cement is illustrated in detail:

a method of manufacturing cement, the method comprising the steps of:

the method comprises the following steps: adding cement raw materials in a group;

step two: mixing a plurality of raw materials;

step three: adjusting the stirring range and the blanking speed according to the weight of the raw materials;

step four: the manufactured cement is collected.

In combination with the above embodiments, the following functions may also be implemented:

referring to fig. 2, 3 and 4, the implementation of the hybrid manufacturing of cement is detailed:

the cement manufacturing method relates to a cement manufacturing device, which comprises a mixing barrel 21, wherein a side rod 11 is rotatably connected on the mixing barrel 21, an arc-shaped frame 12 is fixedly connected on the side rod 11, the arc-shaped frame 12 is used for stirring cement raw materials added into the mixing barrel 21, the other end of the arc-shaped frame 12 is fixedly connected with another side rod 11, a structure for collecting prepared cement is arranged in the middle of the arc-shaped frame 12, the arc-shaped frame 12 is as an oval as a whole and is hollow, a plurality of grooves are processed on the arc-shaped frame 12 and are communicated with the inside of the arc-shaped frame 12, the outer part of the mixing barrel 21 is oval, the inside of the mixing barrel is hollow and is used for mixing the cement raw materials with the arc-shaped frame 12, the plurality of grooves on the arc-shaped frame 12 can enable the cement raw materials to pass through, the raw materials which cannot pass through the plurality of grooves have too large volume, the cement manufacturing can be satisfied after the raw materials are crushed again, and then a plurality of cement can be collected in the middle of the arc-shaped frame 12, after a plurality of grooves are processed on the arc-shaped frame 12, the arc-shaped frame 12 is changed into an arc-shaped plate with a spacing interval in the middle, the two ends of the arc-shaped frame are fixedly connected with the arc-shaped plates completely, when the side lever 11 connected in a rotating mode rotates around the axis of the side lever 11, the side lever 11 drives the arc-shaped frame 12 to rotate, the arc-shaped frame 12 drives cement raw materials in the mixing barrel 21 to mix, and cement manufacturing is achieved.

In combination with the above embodiments, the following functions may also be implemented:

referring to fig. 2, the implementation of the stirring range adjustment is detailed:

plastic deformation can take place for arc frame 12, when side lever 11 on the right side slides along self axis, the interval of two side levers 11 diminishes, the both ends interval of arc frame 12 diminishes, plastic deformation outwards arches takes place for a plurality of arcs of centre, the groove grow of processing on arc frame 12, the hybrid range grow of arc frame 12, can stir more cement raw materials, and the groove grow of processing on arc frame 12, just can allow bulky raw materials to pass through, carry out quick stirring, the cement that produces also can be quick leads out the unloading box and collect, accelerate the manufacturing speed of cement.

In combination with the above embodiments, the following functions may also be implemented:

referring to fig. 3, the implementation of crushing a bulky cement raw material is described in detail:

fixedly connected with a plurality of crushing poles 22 on the inner wall of tempering tank 21, when the arc frame 12 rotates fast and drives cement raw materials and stir the mixture, bulky cement raw materials move between the inner wall of arc frame 12 and tempering tank 21, the rotation of arc frame 12 drives bulky cement raw materials to rotate fast, and bulky cement raw materials smash on a plurality of crushing poles 22 on tempering tank 21's inner wall because centrifugal force striking in the quick motion process, when the volume diminishes after striking is smashed, if can pass the groove of processing on the arc frame 12 then directly participate in the manufacturing of cement, if can not then continue the motion, continuously strike a plurality of crushing poles 22 in the motion and smash, transport after accomplishing until can participating in the manufacturing of cement and accomplish, and transport and collect after accomplishing the intensive mixing.

In combination with the above embodiments, the following functions may also be implemented:

referring to fig. 4, the implementation process of adjusting the stirring range of the arc-shaped frame is described in detail:

two adjusting cylinders 23 of non-rotation fixedly connected with on the side lever 11 on the blending barrel 21, the homonymy of the blending barrel 21 that corresponds moves and is connected with the curb plate, the equal fixed connection of the cylinder pole of two adjusting cylinders 23 is on the curb plate on the blending barrel 21, when starting two adjusting cylinders 23, the cylinder pole of two adjusting cylinders 23 is flexible, the terminal surface of the side lever 11 of adjusting cylinder 23 rigid coupling and the terminal surface distance of the blending barrel 21 of homonymy change, the distance between the side lever 11 of this motion and the pivoted side lever 11 changes, then the mixing range of arc frame 12 changes, can carry out the regulation of the mixing range of arc frame 12 according to how much of cement raw materials, and then realize the rapid manufacturing of cement.

In combination with the above embodiments, the following functions may also be implemented:

referring to fig. 5 and 6, the implementation of the cement output produced is detailed:

discharging pipe 34 fixed connection is on blending tank 21, transportation axle 31 rotates to be connected on side lever 11, transportation axle 31 fixed connection is on gear motor I's output shaft, gear motor I fixed connection is on the side lever 11 that corresponds, fixedly connected with transportation impeller 32 and direction impeller 33 on the transportation axle 31, the excircle of direction impeller 33 is greater than the excircle of transportation impeller 32, when the cement raw materials that mix need carry out the unloading, start gear motor I, gear motor I drives transportation axle 31 and rotates, transportation axle 31 drives transportation impeller 32 and direction impeller 33 and rotates, direction impeller 33 rotates the cement transportation that will keep away from discharging pipe 34 to the one end that is close to discharging pipe 34, and pivoted transportation impeller 32 discharges cement from discharging pipe 34, carry out the unloading after the cement is made, directly collect discharged cement in discharging pipe 34 department.

In combination with the above embodiments, the following functions may also be implemented:

referring to fig. 2 and 6, the implementation process of the cement blanking speed adjustment is explained in detail:

the telescopic rod 14 is fixedly connected to a side rod 11 on the mixing barrel 21 in a non-rotating mode, the telescopic rod 14 comprises a fixed rod, a sliding rod and a spring, the fixed rod is in sliding connection with the sliding rod, the spring is arranged between the fixed rod and the sliding rod, the sensor 15 is fixedly connected to the telescopic rod 14, the sensor 15 is in contact with the corresponding mixing barrel 21, when cylinder rods of two adjusting cylinders 23 stretch, the extension amount of the spring in the telescopic rod 14 changes, the pressure applied to the sensor 15 changes accordingly, the larger the pressure applied to the sensor 15 is, the larger the mixing range of the arc-shaped frame 12 is, the larger the groove on the arc-shaped frame 12 is, more cement raw materials pass through, the more rapid cement blanking needs to be achieved, the acceleration can be achieved through a program control speed reduction motor I, the rotating speed of the transportation impeller 32 and the guide impeller 33 is increased, and the rapid manufactured cement blanking can be achieved and collected more rapidly, when the pressure that sensor 15 received reduces, reduces the hybrid range of arc frame 12, through control gear motor I speed reduction, realizes the slow unloading of the cement of making, carries out long-term mixture, reaches the effect of cement raw materials intensive mixing.

In combination with the above embodiments, the following functions may also be implemented:

referring to fig. 9 and 10, the implementation process of driving the arc-shaped frame to mix the cement raw materials is described in detail:

the side lever 11 rotating on the mixing barrel 21 is fixedly connected with a gear ring 13, the mixing barrel 21 is fixedly connected with a mounting plate 61, the mounting plate 61 is rotatably connected with a mixing gear 62, the mixing gear 62 and the gear ring 13 are in meshing transmission, the mixing gear 62 is fixedly connected on an output shaft of a speed reducing motor II, the speed reducing motor II is fixedly connected on the mounting plate 61, when the speed reducing motor II is started, the speed reducing motor II drives the mixing gear 62, the mixing gear 62 is meshed with the gear ring 13 to drive the gear ring 13 to continue to rotate, the gear ring 13 drives the side lever 11 fixedly connected with the gear ring 13 to rotate, the side lever 11 drives the arc-shaped frame 12 to rotate, the reference circle diameter of the gear ring 13 is larger than the reference circle diameter of the mixing gear 62, the mixing gear 62 and the gear ring 13 are in meshing transmission to reduce the speed of the power output by the speed reducing motor II again, further realize speed reduction and torque increase of the output shaft of the speed reducing motor II and increase the power of the rotation of the arc-shaped frame 12, can have sufficient power to complete the mixing and stirring of the cement raw materials.

In combination with the above embodiments, the following functions may also be implemented:

referring to fig. 7, 8 and 10, the implementation of adjusting the positions of the two ends of the mixing tub is explained in detail:

sliding sleeves 41 are slidably connected to the two side rods 11, connecting rods 42 are rotatably connected to the two sliding sleeves 41, sliding rods 43 are fixedly connected to the two connecting rods 42, the two sliding rods 43 are slidably connected to the bottom frame 51, two cams 52 are rotatably connected to the bottom frame 51, the two cams 52 are respectively in line contact with the two connecting rods 42, the two cams 52 are respectively fixedly connected to output shafts of two speed reducing motors III, the two speed reducing motors III are respectively fixedly connected to the bottom frame 51, when the two speed reducing motors III are started, the two speed reducing motors III drive the two cams 52 to rotate, the major diameters and minor diameters of the two cams 52 are gradually in contact with the two connecting rods 42, so that the two connecting rods 42 are lifted, the major diameters of the two cams 52 are not overlapped, therefore, the lifting heights of the two connecting rods 42 are different, the two connecting rods 42 drive the two sliding sleeves 41 to lift, and the two sliding sleeves 41 drive the two ends of the mixing barrel 21 to lift, realize the swing of blending drum 21, be convenient for carry out the mixture of the left and right sides to the cement raw materials in the blending drum 21, prevent that cement raw materials from piling up one side, and simultaneously, the swing of blending drum 21 also is favorable to making the cement of accomplishing and inclines to one side of discharging pipe 34, make the cement flow that makes to discharging pipe 34 ground direction, be convenient for guide impeller 33 with cement guide to transportation impeller 32 ground position, discharge cement from discharging pipe 34 by transportation impeller 32 again, and collect cement.

In combination with the above embodiments, the following functions may also be implemented:

with reference to fig. 8 and 10, the implementation of the oscillation of the mixing tub is described in detail:

the rotating speeds of the two cams 52 are different, the rotating speeds of the two reducing motors III are controlled, so that the rotating speeds of the two cams 52 are different, the rising and falling of the two ends of the mixing barrel 21 cannot be synchronously performed, the speed of the reducing motor III close to one side of the discharge pipe 34 is higher, the lifting frequency of the connecting rod 42 on the side is higher, cement flows to the side more easily in the cement manufacturing process, and cement discharging is realized more easily in the subsequent discharging process.