CN213005887U - A stirring hydration plant that is used for titanium gypsum to prepare cement - Google Patents

Abstract

The utility model provides a stirring hydration device for titanium gypsum prepares cement relates to cement stirring technical field, including a jar body and breaker, the three support of bottom fixedly connected with of jar body, three support evenly distributed is in the bottom of jar body, and the position that jar internal portion is close to its upper end is equipped with breaker, and breaker includes the mounting bracket, the port of mounting bracket and the inner wall fixed connection of the jar body. The utility model discloses, through setting up breaker, keep away from the solid and put into inside the feeder hopper, utilize second driving motor to drive the gear and rotate, thereby make and drive the head stone rotation with gear engagement's tooth, the head stone rotates with the help of bearing and feeder hopper, the inside solid material of feeder hopper gets into the head stone and utilizes the head stone to rotate at head stone mountain end down between the two with lower mill, thereby extrude the breakage to solid material, thereby broken material has solved and has been difficult to the stirring when partial raw materials nodulizing stirring and has leaded to the reaction rate greatly reduced problem between head stone and the lower mill through the head stone.

Description

A stirring hydration plant that is used for titanium gypsum to prepare cement

Technical Field

The utility model relates to a cement stirring technical field especially relates to a stirring hydration device that is used for titanium gypsum to prepare cement.

Background

The cement is a powdery hydraulic inorganic cementing material, is added with water and stirred to form slurry, can be hardened in air or water, and can firmly bond materials such as sand, stone and the like together.

The existing method for preparing cement by using titanium gypsum as a raw material is to mix and stir the titanium gypsum and other materials together for hydration reaction to generate the cement, and because the reaction rate of the materials between solid and solid is related to the contact area of the materials, the materials are difficult to stir uniformly when part of the raw materials are pelletized and stirred, so that the reaction speed is greatly reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects in the prior art and providing a stirring hydration device for preparing cement by titanium gypsum.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a stirring hydration device for preparing cement from titanium gypsum comprises a tank body and a crushing device, wherein three supports are fixedly connected to the bottom end of the tank body, the three supports are uniformly distributed at the bottom end of the tank body, the crushing device is arranged at a position, close to the upper end of the tank body, in the tank body, and comprises a mounting frame, the port of the mounting frame is fixedly connected with the inner wall of the tank body, four cylinders are uniformly and fixedly connected to the upper end of the mounting frame and are perpendicular to the mounting frame, slide rods are slidably connected to the inner walls of the four cylinders, one ends, far away from the mounting frame, of the slide rods are fixedly connected with a lower grinding disc, springs are fixedly connected to the bottom end of the lower grinding disc, one ends, far away from the lower grinding disc, of the springs are fixedly connected with the mounting frame, an upper grinding disc is arranged at the upper end of the lower, the surface fixed connection of feeder hopper has spacing, and the port of spacing and the inner wall fixed connection of the jar body, the even fixedly connected with tooth in lateral wall surface of last mill, and jar body surface has seted up the hole for the position of tooth.

Preferably, the surface of the tank body is fixedly connected with a second driving motor, an output rotating shaft of the second driving motor is fixedly connected with a gear, the second driving motor is meshed with teeth by means of the gear, a placing plate is fixedly connected to the bottom end of the second driving motor, and a port of the placing plate is fixedly connected with the tank body.

Preferably, the lower grinding disc is of a circular truncated cone-shaped structure, the top end of the lower grinding disc faces the upper grinding disc, and a groove matched with the lower grinding disc is formed in the bottom end of the upper grinding disc.

Preferably, the surface fixed connection of feeder hopper has the bearing, the bottom and the upper millstone fixed connection of bearing, the feeder hopper rotates with the help of bearing and upper millstone and connects.

Preferably, the bottom fixedly connected with link of the jar body, the first driving motor of upper end fixedly connected with of link, first driving motor's output shaft runs through the diapire of the jar body, the inside of the jar body is equipped with agitating unit, agitating unit is including linking the axle, the port fixedly connected with that first driving motor output shaft is located jar internal portion links the axle.

Preferably, the fixed surface of even axle is connected with the stirring frame, the strong triangle-shaped structure of stability is constituteed with even axle to the stirring frame, the position fixedly connected with puddler of the surface of even axle for the internal diapire of jar.

Compared with the prior art, the utility model has the advantages and positive effects that,

1. in the utility model, the solid is kept away and put into the feed hopper by arranging the crushing device, the second driving motor is utilized to drive the gear to rotate, thereby leading the teeth meshed with the gear to drive the upper millstone to rotate, leading the upper millstone to rotate by virtue of the bearing and the feed hopper, leading the solid material in the feed hopper to enter between the upper millstone and the lower millstone and utilizing the upper millstone to rotate at the mountain end of the lower millstone, thereby extruding and crushing the solid material, when the solid material is contacted with something which can not be crushed, the upper millstone extrudes the lower millstone, so that the lower millstone extrudes the spring downwards for transportation, and the lower millstone slides on the inner wall of the cylinder by means of the slide rod, thereby make the gap grow between lower mill and the last mill to leak down unable broken object, thereby solved through broken material between last mill and the lower mill and be difficult to the stirring when partial raw materials balling up stirring and lead to the reaction rate greatly reduced problem.

2. The utility model discloses in, through setting up agitating unit, utilize first motor to drive even axle and rotate, the puddler that links the surface stirs the powder of jar internal portion and accelerates to mix the effect between the powder, utilizes the puddler that is located jar internal diapire upper end to follow even axle and rotates, avoids jar internal diapire to appear the problem that the powder hardens, and jar body diapire has been seted up the discharge gate and has been responsible for emitting the material that reacts.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of a mixing hydration device for preparing cement from titanium gypsum according to the present invention;

FIG. 2 is a schematic structural view of a crushing device in a stirring and hydrating device for preparing cement from titanium gypsum according to the present invention;

FIG. 3 is a schematic structural view of a stirring device in a stirring and hydrating device for preparing cement from titanium gypsum according to the present invention;

fig. 4 is the utility model provides a A department's schematic structure view of fig. 1 in a stirring hydration plant for titanium gypsum is prepared cement.

Illustration of the drawings: 1. a support; 2. a tank body; 3. a connecting frame; 4. a first drive motor; 5. placing the plate; 6. a second drive motor; 7. a crushing device; 71. a mounting frame; 72. a cylinder; 73. a slide rod; 74. a spring; 75. a lower grinding disc; 76. teeth; 77. an upper grinding disc; 78. a bearing; 79. a feed hopper; 8. a stirring device; 81. a connecting shaft; 82. a stirring frame; 83. a stirring rod.

Detailed Description

In order to make the above objects, features and advantages of the present invention more clearly understood, the present invention will be further described with reference to the accompanying drawings and examples. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the present invention is not limited to the limitations of the specific embodiments of the present disclosure.

Embodiment 1, as shown in fig. 1-4, the utility model provides a stirring hydration device for titanium gypsum prepares cement, including jar body 2 and breaker 7, the three support 1 of the bottom fixedly connected with of jar body 2, three support 1 evenly distributed is in the bottom of jar body 2, the inside position that is close to its upper end of jar body 2 is equipped with breaker 7, the fixed surface of jar body 2 is connected with second driving motor 6, the output pivot fixedly connected with gear of second driving motor 6, second driving motor 6 is with the help of gear and the meshing of tooth 76, the bottom fixedly connected with of second driving motor 6 places board 5, places the port of board 5 and jar body 2 fixed connection.

The specific arrangement and function of the crushing means 7 and the stirring means 8 will be described in detail below.

As shown in fig. 2 and 4, the crushing device 7 includes a mounting frame 71, a port of the mounting frame 71 is fixedly connected with an inner wall of the tank body 2, four cylinders 72 are uniformly and fixedly connected with an upper end of the mounting frame 71, the four cylinders 72 are arranged perpendicular to the mounting frame 71, inner walls of the four cylinders 72 are all slidably connected with a sliding rod 73, one end of the sliding rod 73 far away from the mounting frame 71 is fixedly connected with a lower grinding disc 75, a bottom end of the lower grinding disc 75 is fixedly connected with a spring 74, one end of the spring 74 far away from the lower grinding disc 75 is fixedly connected with the mounting frame 71, an upper grinding disc 77 is arranged at an upper end of the lower grinding disc 75, a feeding hopper 79 is vertically inserted at an upper end of the upper grinding disc 77, a surface of the feeding hopper 79 is rotatably connected with the upper grinding disc 77, a bearing 78 is fixedly connected with a surface of the feeding hopper 79, a, the end opening of the limiting frame is fixedly connected with the inner wall of the tank body 2, the side wall surface of the upper grinding disc 77 is uniformly and fixedly connected with teeth 76, holes are formed in the surface of the tank body 2 corresponding to the teeth 76, the lower grinding disc 75 is in a circular truncated cone-shaped structure, the top end of the lower grinding disc 75 faces the upper grinding disc 77, and a groove matched with the lower grinding disc 75 is formed in the bottom end of the upper grinding disc 77.

The whole crushing device 7 achieves the effects that the crushing device 7 is arranged, solids are far away from and put into the feeding hopper 79, the second driving motor 6 is utilized to drive the gear to rotate, so that the teeth 76 engaged with the gear drive the upper grinding disc 77 to rotate, the upper grinding disc 77 rotates by means of the bearing 78 and the feed hopper 79, the solid material in the inner part of the feed hopper 79 enters between the upper grinding disc 77 and the lower grinding disc 75 and rotates at the mountain end of the lower grinding disc 75 by means of the upper grinding disc 77, thereby crushing the solid material, when the solid material meets something which cannot be crushed, the upper grinding disc 77 presses the lower grinding disc 75, so that the lower grinding disc 75 is transported downwards to press the spring 74, and the lower grinding disc is slid on the inner wall of the cylinder 72 by the slide rod 73, so that the gap between the lower grinding disc 75 and the upper grinding disc 77 is enlarged, thereby leaking objects which cannot be crushed, the problem that the reaction speed is greatly reduced because the materials are difficult to stir uniformly when part of the raw materials are nodulized and stirred is solved by crushing the materials between the upper grinding disc 77 and the lower grinding disc 75.

As shown in fig. 1 and 3, the bottom fixedly connected with link 3 of the jar body 2, the first driving motor 4 of upper end fixedly connected with of link 3, the output shaft of first driving motor 4 runs through the diapire of the jar body 2, the inside of the jar body 2 is equipped with agitating unit 8, agitating unit 8 is including linking axle 81, first driving motor 4 output shaft is located jar internal port fixedly connected with of body 81, the surperficial fixedly connected with stirring frame 82 of linking axle 81, stirring frame 82 and linking axle 81 constitute the strong triangle-shaped structure of stability, the surperficial fixedly connected with puddler 83 of linking axle 81 for jar internal diapire.

The effect that its whole agitating unit 8 reaches does, through setting up agitating unit 8, utilizes first motor to drive even axle 81 and rotates, and the puddler 83 that links the axle 81 surface stirs the powder of jar internal portion and accelerates mixing effect between the powder, utilizes the puddler 83 that is located jar body 2 inner bottom wall upper end to follow even axle 81 and rotates, avoids the problem that powder hardens to appear in jar body 2 inner bottom wall, and jar body 2 diapire has been seted up the discharge gate and has been responsible for emitting the material that reacts.

The whole working principle is that solids are far away and placed into a feed hopper 79, a second driving motor 6 is utilized to drive a gear to rotate, so that a tooth 76 meshed with the gear drives an upper grinding disc 77 to rotate, the upper grinding disc 77 rotates by means of a bearing 78 and the feed hopper 79, solid materials in the feed hopper 79 enter between the upper grinding disc 77 and a lower grinding disc 75 and rotate at the mountain end of the lower grinding disc 75 by means of the upper grinding disc 77, so that the solid materials are extruded and crushed, when some things which cannot be crushed are met, the upper grinding disc 77 extrudes the lower grinding disc 75, so that the lower grinding disc 75 extrudes a spring 74 downwards for transportation, the solid materials slide on the inner wall of a cylinder 72 by means of a sliding rod 73, so that a gap between the lower grinding disc 75 and the upper grinding disc 77 is enlarged, objects which cannot be crushed can be leaked down, and the problem that the reaction speed is greatly reduced due to the fact that the materials are difficult to stir, utilize first motor to drive even axle 81 and rotate, even the puddler 83 on axle 81 surface stirs the powder of jar body 2 inside and accelerates the mixing effect between the powder, utilizes the puddler 83 that is located jar body 2 inner bottom wall upper end to follow even axle 81 and rotates, avoids the problem that powder hardens to appear in jar body 2 inner bottom wall, and jar body 2 diapire has been seted up the discharge gate and has been responsible for emitting the material that reacts well.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in other forms, and any person skilled in the art may use the above-mentioned technical contents to change or modify the equivalent embodiment into equivalent changes and apply to other fields, but any simple modification, equivalent change and modification made to the above embodiments according to the technical matters of the present invention will still fall within the protection scope of the technical solution of the present invention.

Claims (6)

1. The utility model provides a stirring hydration plant for titanium gypsum prepares cement, includes jar body (2) and breaker (7), its characterized in that: the bottom fixedly connected with three supports (1) of the jar body (2), three support (1) evenly distributed is in the bottom of the jar body (2), the jar body (2) is inside to be close to its upper end's position and is equipped with breaker (7), breaker (7) include mounting bracket (71), the port of mounting bracket (71) and the inner wall fixed connection of the jar body (2), the even fixedly connected with four drum (72) of upper end of mounting bracket (71), four drum (72) are perpendicular to mounting bracket (71) and set up, four inner wall of drum (72) all sliding connection has litter (73), the one end fixedly connected with lower mill (75) of mounting bracket (71) is kept away from to litter (73), the bottom fixedly connected with spring (74) of lower mill (75), the one end and mounting bracket (71) fixed connection of lower mill (75) are kept away from to spring (74), lower mill (75) upper end is equipped with runner stone (77), the upper end of runner stone (77) is vertical to be inserted and is equipped with feeder hopper (79), the surface and runner stone (77) of feeder hopper (79) rotate the connection, the fixed surface of feeder hopper (79) is connected with the spacing, and the port of spacing and the inner wall fixed connection of the jar body (2), the even fixedly connected with tooth (76) in lateral wall surface of runner stone (77), and the hole has been seted up for the position of tooth (76) on the jar body (2) surface.

2. The stirring hydration device for titanium gypsum formulated cement according to claim 1, characterized in that: the surface of the tank body (2) is fixedly connected with a second driving motor (6), an output rotating shaft of the second driving motor (6) is fixedly connected with a gear, the second driving motor (6) is meshed with the teeth (76) through the gear, a placing plate (5) is fixedly connected to the bottom end of the second driving motor (6), and a port of the placing plate (5) is fixedly connected with the tank body (2).

3. The stirring hydration device for titanium gypsum formulated cement according to claim 1, characterized in that: lower mill (75) are round platform column structure, and the top of lower mill (75) is towards mill (77), the recess with lower mill (75) looks adaptation is seted up to the bottom of mill (77).

4. The stirring hydration device for titanium gypsum formulated cement according to claim 1, characterized in that: the surface fixed connection of feeder hopper (79) has bearing (78), the bottom and the last mill (77) fixed connection of bearing (78), feeder hopper (79) are connected with last mill (77) rotation by means of bearing (78).

5. The stirring hydration device for titanium gypsum formulated cement according to claim 1, characterized in that: the utility model discloses a jar body, including jar body (2), the bottom fixedly connected with link (3) of the body, the first driving motor (4) of upper end fixedly connected with of link (3), the output shaft of first driving motor (4) runs through the diapire of the body of jar (2), the inside of the body of jar (2) is equipped with agitating unit (8), agitating unit (8) are including linking axle (81), first driving motor (4) output shaft is located the port fixedly connected with of the body of jar (2) inside and links axle (81).

6. The stirring hydration device for titanium gypsum formulated cement according to claim 5, characterized in that: the fixed surface of even axle (81) is connected with stirring frame (82), the strong triangle-shaped structure of stability is constituteed with even axle (81) to stirring frame (82), the position fixedly connected with puddler (83) of diapire in the surface of even axle (81) for jar body (2).

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