阅读说明：本技术 一种用于建筑混凝土搅拌的搅拌设备 (A agitated vessel for building concrete mixing ) 是由 油运升 于 2020-06-23 设计创作，主要内容包括：本发明公开了一种用于建筑混凝土搅拌的搅拌设备,包括机身,所述机身内设有转动腔一,所述转动腔一内转动设有能够顺势针转动从动搅拌箱,所述搅拌箱内设有用于水泥搅拌的搅拌腔,所述转动腔一左侧壁体内设有转动腔二,所述转动腔二内转动设有与所述搅拌箱固定安装的齿轮箱,本发明设有供水装置,能够使设备再缺水下,进行建筑施工,从而间接的提到了工作效率；本发明设有齿轮组,能够通过齿轮一、齿轮四和齿轮箱之间的行星齿轮连接对第一搅拌装置和第二搅拌装置进行纵向搅拌和横向搅拌控制,还能够使搅拌箱进行翻转,从而使水泥进行充分全面的搅拌,从而有效的提高了搅拌效率。(The invention discloses a stirring device for stirring building concrete, which comprises a machine body, wherein a first rotating cavity is arranged in the machine body, a driven stirring box capable of rotating along with a potential needle is arranged in the first rotating cavity in a rotating mode, a stirring cavity for stirring cement is arranged in the stirring box, a second rotating cavity is arranged in the left side wall body of the first rotating cavity, and a gear box fixedly installed with the stirring box is arranged in the second rotating cavity in a rotating mode; the invention is provided with the gear set, can control the longitudinal stirring and the transverse stirring of the first stirring device and the second stirring device through the connection of the first gear, the fourth gear and the planetary gear between the gear box, and can also turn over the stirring box, thereby fully and comprehensively stirring cement, and effectively improving the stirring efficiency.)

1. A mixing apparatus for the mixing of building concrete, comprising a body, characterized in that: the machine body is internally provided with a first rotating cavity, a driven stirring box capable of rotating along with a potential needle is arranged in the first rotating cavity in a rotating manner, a stirring cavity for stirring cement is arranged in the stirring box, a second rotating cavity is arranged in the wall body on the left side of the first rotating cavity, a gear box fixedly installed with the stirring box is arranged in the second rotating cavity in a rotating manner, a belt wheel cavity is arranged on the left side of the gear box, a water supply device for supplying water in the stirring cavity is arranged on the upper side of the belt wheel cavity, a forward and reverse rotating motor for driving is fixedly arranged in the wall body on the left side of the belt wheel cavity, a connecting block is fixedly arranged on a power output shaft of the forward and reverse rotating motor, a rotating wheel is fixedly arranged on the connecting block, a first rotating shaft rotatably arranged on the right side of the rotating wheel is arranged between the belt wheel cavity and, the utility model discloses a concrete mixer, including gear chamber one with stir between the chamber rotate be equipped with the axis of rotation of a pivot rotation installation, stir the intracavity be equipped with the first agitating unit that is used for concrete mixing in the axis of rotation, stir the intracavity the axis of rotation outside is equipped with the second agitating unit that is used for concrete mixing, the internal smooth chamber of arc that is equipped with of lateral wall about the agitator tank, the smooth intracavity of arc slides and is equipped with the cement that the sliding door was used for accomplishing the stirring and flows.

2. A mixing apparatus for the mixing of building concrete according to claim 1, characterised in that: water supply installation including set up in the left water tank that is used for water supply in band pulley chamber, the water tank can carry out the supply of water in the inconvenient area of water, the water tank right side is equipped with water pipe one, a water pipe right side is used for the water pump that supplies water, the agitator tank is equipped with electric switch on the lateral wall body, the electric switch upside is equipped with the feeding chamber that is used for the feeding, the water pump right side be equipped with the water pipe two of feeding chamber intercommunication, the water pump downside is equipped with gear chamber two, the band pulley intracavity rotate in the pivot one and be equipped with band pulley one, the rack has set firmly on the inboard wall body of band pulley, the internal slip chamber that is equipped with of runner lateral wall, the slip intracavity slip is equipped with trapezoidal slider, the inboard diapire of slip chamber with be equipped with expanding spring one between the trapezoidal slider, trapezoidal slider right side has set firmly L shape connecting rod, the runner right side be equipped with The cavity, the pulley cavity with rotate between the gear cavity two and be equipped with pivot two, the pulley intracavity the pivot two is gone up and is set firmly band pulley two, band pulley two with be equipped with the belt between the band pulley one, gear cavity two with it is equipped with pivot three to rotate between the water pump, the gear cavity is two in the pivot three set firmly with the bevel gear two that the bevel gear meshing that sets firmly on the pivot two is connected.

3. A mixing apparatus for the mixing of building concrete according to claim 1, characterised in that: the water pump includes water pipe one with the hydraulic pressure chamber that is equipped with between the water pipe two, in the hydraulic pressure chamber the supplementary piece has set firmly in the pivot three, with pivot three is central the spring chamber has been seted up with annular array in the supplementary piece outside, the spring intracavity slide be equipped with the sliding block of hydraulic pressure intracavity wall contact all the time, the sliding block be close to in three one sides of pivot with be equipped with expanding spring two between the spring chamber diapire.

4. A mixing apparatus for the mixing of building concrete according to claim 1, characterised in that: the gear train including fixed set up in the gear chamber one the epaxial gear of pivot is one, in the gear chamber one the gear two has set firmly in the axis of rotation, keep away from in pivot one side the rotation is equipped with the pivot four of symmetry on the wall body of a gear chamber right side, set firmly in the pivot four with gear three that two meshing of gears are connected, gear three left set firmly in the pivot four with gear four that a gear meshing is connected, gear four with the gear box inboard side wall body meshing is connected.

5. A mixing apparatus for the mixing of building concrete according to claim 1, characterised in that: first agitating unit including set up in the axis of rotation of stirring intracavity, the axis of rotation outside sets firmly the puddler of arranging with the array, the puddler can with rotate chamber one and carry out opposite direction and rotate.

6. A mixing apparatus for the mixing of building concrete according to claim 1, characterised in that: the second stirring device comprises a first rotating shaft, the rotating shaft in the stirring cavity is rotatably mounted with a first rotating shaft, a third gear cavity is formed between the rotating shaft and the first rotating shaft, a fifth rotating shaft which extends into the stirring cavity through the stirring rod is arranged in the third gear cavity, a transverse rotating impeller used for transverse rotating and stirring is fixedly arranged on the fifth rotating shaft, and a fourth bevel gear which is meshed with the third bevel gear and is fixedly arranged on the first rotating shaft in the third gear cavity is fixedly arranged on the first rotating shaft.

Technical Field

The invention relates to the technical field related to building concrete mixing, in particular to a mixing device for building concrete mixing.

Background

Concrete mixing is an operation method for uniformly mixing cement, lime, water and other materials. The traditional building coagulation stirring equipment is generally supplied with water by an external water source, so that a place where a secondary water source is lacked cannot be used for stirring cement, and the construction engineering cannot be implemented; the stirring impeller of a common stirring machine is single, and the problems of non-uniform cement stirring, low stirring efficiency and the like exist in the stirring process.

Disclosure of Invention

The object of the present invention is to provide a mixing plant for mixing building concrete, which overcomes the above-mentioned drawbacks of the prior art.

According to the invention, the stirring equipment for stirring the building concrete comprises a machine body, wherein a first rotating cavity is arranged in the machine body, a driven stirring box capable of rotating along with a potential needle is arranged in the first rotating cavity, a stirring cavity for stirring cement is arranged in the stirring box, a second rotating cavity is arranged in the left side wall body of the first rotating cavity, a gear box fixedly arranged with the stirring box is arranged in the second rotating cavity, a belt wheel cavity is arranged at the left side of the gear box, a water supply device for supplying water in the stirring cavity is arranged at the upper side of the belt wheel cavity, a forward and reverse rotating motor for driving is fixedly arranged in the left side wall body of the belt wheel cavity, a connecting block is fixedly arranged on a power output shaft of the forward and reverse rotating motor, a rotating wheel is fixedly arranged on the connecting block, a first rotating shaft rotationally arranged with the right side of the rotating wheel is arranged between the belt wheel cavity and the stirring cavity, and, be equipped with gear chamber one in the gear box, gear chamber one with rotate between the stirring chamber be equipped with the axis of rotation of a pivot rotation installation, the stirring intracavity be equipped with the first agitating unit that is used for concrete mixing in the axis of rotation, the stirring intracavity the axis of rotation outside is equipped with the second agitating unit that is used for concrete mixing, the internal arc sliding chamber that is equipped with of lateral wall about the agitator tank, the arc slides the intracavity and is equipped with the cement that the sliding door was used for accomplishing the stirring and flows.

On the basis of the technical scheme, the water supply device comprises a water tank which is arranged on the left side of the belt wheel cavity and used for supplying water, the water tank can supply water in an area where water is inconvenient to use, a water pipe I is arranged on the right side of the water tank, a water pump used for supplying water is arranged on the right side of the water pipe I, an electric switch is arranged on the wall body on the upper side of the stirring box, a feeding cavity used for feeding is arranged on the upper side of the electric switch, a water pipe II communicated with the feeding cavity is arranged on the right side of the water pump, a gear cavity II is arranged on the lower side of the water pump, a belt wheel I is rotatably arranged on the rotating shaft I in the belt wheel cavity, a rack is fixedly arranged on the inner side wall body of the belt wheel I, a sliding cavity is internally arranged in the outer side wall body of the rotating wheel, the outer side wall body of the first rotating shaft on the right side of the rotating wheel is internally provided with a sliding cavity which can be in sliding fit with the L-shaped connecting rod, a second rotating shaft is arranged between the second belt wheel cavity and the second gear cavity in a rotating mode, a second belt wheel is fixedly arranged on the second rotating shaft in the second belt wheel cavity, a belt is arranged between the second belt wheel and the first belt wheel, a third rotating shaft is arranged between the second gear cavity and the water pump in a rotating mode, and a second bevel gear which is meshed with the first bevel gear fixedly arranged on the second rotating shaft is fixedly arranged on the third rotating shaft in the second gear cavity.

On the basis of the technical scheme, the water pump includes water pipe one with the hydraulic pressure chamber that is equipped with between the water pipe two, in the hydraulic pressure chamber the pivot three is gone up and has been set firmly supplementary piece, with pivot three is central the spring chamber has been seted up with annular array in the supplementary piece outside, the spring intracavity slide be equipped with the sliding block of hydraulic pressure intracavity wall contact all the time, the sliding block be close to in three one side of pivot with be equipped with expanding spring two between the spring chamber diapire.

On the basis of the technical scheme, the gear train including fixed set up in the gear chamber one the epaxial gear of pivot is one, in the gear chamber one the axis of rotation has set firmly gear two, keep away from in one side of pivot rotate on the wall body of a gear chamber right side and be equipped with the pivot four of symmetry, set firmly in the pivot four with gear two meshes the gear three of connecting, gear three left set firmly in the pivot four with gear four that a gear meshing is connected, gear four with the wall body meshing is connected in the gear box.

On the basis of the technical scheme, the first stirring device comprises a rotating shaft arranged in the stirring cavity, stirring rods arranged in an array are fixedly arranged on the outer side of the rotating shaft, and the stirring rods can rotate in the opposite direction of the first rotating cavity.

On the basis of the technical scheme, the second stirring device comprises a first rotating shaft, the rotating shaft in the stirring cavity is rotatably installed with a first rotating shaft, a third gear cavity is formed between the rotating shaft and the first rotating shaft, a fifth rotating shaft extending into the stirring cavity through the stirring rod is arranged in the third gear cavity, a transverse rotating impeller used for transverse rotating stirring is fixedly arranged on the fifth rotating shaft, and a fourth bevel gear meshed with the third bevel gear fixedly arranged on the first rotating shaft is fixedly arranged in the third gear cavity.

The invention has the beneficial effects that: the water supply device is arranged, the belt wheel is driven to rotate through the anticlockwise device of the rotating wheel, so that the water pump is driven to start to pump water in the water tank, the equipment is provided with the water tank, water can be stored under the condition that water is short of water, and therefore the construction engineering can be continuously carried out without stopping, and the working efficiency is indirectly improved;

the invention is provided with the gear set, can control the longitudinal stirring and the transverse stirring of the first stirring device and the second stirring device through the connection of the first gear, the fourth gear and the planetary gear between the gear box, and can also turn over the stirring box, thereby fully and comprehensively stirring cement, and effectively improving the stirring efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic view showing the overall construction of a mixing apparatus for mixing concrete for construction;

FIG. 2 is an enlarged view of a portion of the invention at A in FIG. 1;

FIG. 3 is a cross-sectional view taken at "B-B" of FIG. 2 in accordance with the present invention;

FIG. 4 is an enlarged view of a portion of the invention at C in FIG. 1;

FIG. 5 is a cross-sectional view taken at "D-D" of FIG. 1 in accordance with the present invention;

FIG. 6 is a cross-sectional view taken at "E-E" of FIG. 1 in accordance with the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1 to 6, a mixing apparatus for mixing building concrete according to an embodiment of the present invention includes a body 10, a first rotating cavity 55 is provided in the body 10, a driven mixing box 25 capable of rotating along a potential needle is provided in the first rotating cavity 55, a mixing cavity 35 for mixing cement is provided in the mixing box 25, a second rotating cavity 56 is provided in a left wall body of the first rotating cavity 55, a gear box 44 fixedly installed with the mixing box 25 is provided in the second rotating cavity 56, a pulley cavity 13 is provided on a left side of the gear box 44, a water supply device 901 for supplying water to the mixing cavity 35 is provided on an upper side of the pulley cavity 13, a forward and reverse motor 33 for driving is fixedly provided in a left wall body of the pulley cavity 13, a connecting block 60 is fixedly provided on a power output shaft of the forward and reverse motor 33, a rotating wheel 43 is fixedly provided on the connecting block 60, belt wheel chamber 13 with rotate between the stirring chamber 35 be equipped with a pivot 49 that runner 43 right side rotation was equipped with, be equipped with in the gear box 44 and be used for stirring driven gear train 902, be equipped with a gear chamber 52 in the gear box 44, a gear chamber 52 with rotate between the stirring chamber 35 be equipped with a pivot 49 rotates the axis of rotation 50 of installation, in the stirring chamber 35 be equipped with the first agitating unit 903 that is used for the concrete mixing on the axis of rotation 50, in the stirring chamber 35 the 50 outsides of axis of rotation are equipped with the second agitating unit 904 that is used for the concrete mixing, the internal smooth chamber 27 that is equipped with of arc about the lateral wall of agitator tank 25, it is equipped with the cement that sliding door 36 is used for accomplishing the stirring and flows to slide in the smooth intracavity of arc 27.

In addition, in one embodiment, the water supply device 901 includes a water tank 11 for supplying water, which is disposed on the left side of the pulley cavity 13, the water tank 11 can supply water in an area where water is inconvenient to use, a first water pipe 12 is disposed on the right side of the water tank 11, a second water pipe 57 for supplying water is disposed on the right side of the first water pipe 12, a motor switch 54 is disposed on the upper side wall of the stirring tank 25, a feeding cavity 24 for feeding is disposed on the upper side of the motor switch 54, a second water pipe 53 communicated with the feeding cavity 24 is disposed on the right side of the water pump 57, a second gear cavity 15 is disposed on the lower side of the water pump 57, a first pulley 38 is rotatably disposed on the first rotating shaft 49 in the pulley cavity 13, a rack 41 is fixedly disposed on the inner side wall of the first pulley 38, a sliding cavity 42 is disposed in the outer side wall of the rotating wheel 43, a trapezoidal slider 39 is slidably disposed in the sliding, an L-shaped connecting rod 58 is fixedly arranged on the right side of the trapezoidal sliding block 39, a sliding cavity 59 which can be in sliding fit with the L-shaped connecting rod 58 is arranged in the outer side wall body of the first rotating shaft 49 on the right side of the rotating wheel 43, a second rotating shaft 62 is rotatably arranged between the pulley cavity 13 and the second gear cavity 15, a second pulley 14 is fixedly arranged on the second rotating shaft 62 in the pulley cavity 13, a belt 37 is arranged between the second pulley 14 and the first pulley 38, a third rotating shaft 19 is rotatably arranged between the second gear cavity 15 and the water pump 57, a second bevel gear 22 which is meshed and connected with a first bevel gear 23 fixedly arranged on the second rotating shaft 62 is fixedly arranged on the third rotating shaft 19 in the second gear cavity 15, when the forward and reverse rotating motor 33 rotates anticlockwise, the connecting block 60 is driven to rotate, the rotating wheel 43 rotates to drive the trapezoidal sliding block 39 to rotate, and the trapezoidal sliding block 39 rotates to drive, the rack 41 rotates to drive the first belt wheel 38 to rotate, the first belt wheel 38 rotates to drive the belt 37 to rotate, the belt 37 rotates to drive the second belt wheel 14 to rotate, the second belt wheel 14 rotates to drive the second rotating shaft 62 to rotate, the second rotating shaft 62 rotates to drive the first bevel gear 23 to rotate, the first bevel gear 23 rotates to drive the second bevel gear 22 to rotate, the third bevel gear 22 rotates to drive the third rotating shaft 19 to rotate, the third rotating shaft 19 rotates to drive the water pump 57 to start, so that water in the water tank 11 is pumped, the water enters the first water pipe 12 from the water tank 11 and then flows into the second water pipe 53 through the water pump 57, the water enters the stirring cavity 35 to be mixed with cement, the equipment is provided with the water tank, the water can be stored under the condition that the water is short of the water, the construction engineering can be continuously carried.

In addition, in an embodiment, the water pump 57 includes a hydraulic cavity 17 disposed between the first water pipe 12 and the second water pipe 53, an auxiliary block 21 is fixedly disposed on the third rotating shaft 19 in the hydraulic cavity 17, a spring cavity 18 is disposed on the outer side of the auxiliary block 21 centering on the third rotating shaft 19 in an annular array, a sliding block 16 constantly contacting with the inner wall of the hydraulic cavity 17 is slidably disposed in the spring cavity 18, a second extension spring 20 is disposed between one side of the sliding block 16 close to the third rotating shaft 19 and the bottom wall of the spring cavity 18, when the third rotating shaft 19 rotates, the auxiliary block 21 rotates to drive the sliding block 16 to rotate, so that high and low water pressures are formed inside the hydraulic cavity 17, and water in the water tank 11 is extracted.

In addition, in one embodiment, the gear set 902 includes a first gear 48 fixedly disposed on the first rotating shaft 49 in the first gear cavity 52, a second gear 51 is fixedly disposed on the rotating shaft 50 in the first gear cavity 52, a symmetrical fourth rotating shaft 47 is rotatably disposed on a right side wall body of the first gear cavity 52 far away from the first rotating shaft 49, a third gear 46 engaged with the second gear 51 is fixedly disposed on the fourth rotating shaft 47 on the left side of the third gear 46, a fourth gear 45 engaged with the first gear 48 is fixedly disposed on the fourth rotating shaft 47 on the left side of the third gear 46, the fourth gear 45 is engaged with an inner side wall body of the gear box 44, when the first rotating shaft 49 rotates, the first gear 48 is driven to rotate, the first gear 48 rotates, the fourth gear 45 rotates, the gear 44 rotates, and thereby the stirring box 25 and the first rotating shaft 49 are driven to rotate in opposite directions to turn over the cement, meanwhile, the gear four 45 rotates to drive the rotating shaft four 47 to rotate, the rotating shaft four 47 rotates to drive the gear three 46 to rotate, the gear three 46 rotates to drive the gear two 51 to rotate, the gear two 51 rotates to drive the rotating shaft 50 to rotate, and the rotating speed of the rotating shaft one 49 is higher than that of the rotating shaft 50.

In addition, in one embodiment, the first stirring device 903 includes a rotating shaft 50 disposed in the stirring cavity 35, the stirring rods 28 arranged in an array are fixedly disposed outside the rotating shaft 50, the stirring rods 28 can rotate in the opposite direction to the rotating cavity one 55, when the stirring rods 28 rotate, cement in the stirring cavity 35 is longitudinally stirred, and when the rotating cavity one 55 rotates, cement in the stirring cavity 35 is turned over, so that the cement in the stirring cavity 35 is stirred more uniformly.

In addition, in one embodiment, the second stirring device 904 includes the first rotating shaft 49, the rotating shaft 50 in the stirring cavity 35 is rotatably installed with the first rotating shaft 49, a third gear cavity 31 is provided between the rotating shaft 50 and the first rotating shaft 49, a fifth rotating shaft 29 extending into the stirring cavity 35 through the stirring rod 28 is provided in the third gear cavity 31, a transverse rotating impeller 26 for transverse rotating stirring is fixedly provided on the fifth rotating shaft 29, a fourth bevel gear 32 engaged with the third bevel gear 30 fixedly provided on the first rotating shaft 49 is fixedly provided on the first rotating shaft 49 in the third gear cavity 31, when the first rotating shaft 49 rotates, the third bevel gear 30 is driven to rotate, the third bevel gear 30 rotates the fourth bevel gear 32, the fourth bevel gear 32 rotates the fifth rotating shaft 29, the fifth rotating shaft 29 rotates the transverse rotating impeller 26, so as to transversely stir the cement in the stirring cavity 35, thereby causing the cement in the mixing chamber 35 to be mixed more uniformly.

In the initial state, the trapezoidal slider 39 is located on the upper side of the sliding cavity 42, the rack 41 is in contact with the trapezoidal slider 39, the L-shaped link 58 and the sliding cavity 59 are not slidably mounted, and the sliding door 36 is in the closed state.

When feeding and injecting water into the stirring cavity 35, the electric switch 54 is turned on, the forward and reverse rotation motor 33 is then turned on, when the forward and reverse rotation motor 33 rotates counterclockwise, the connecting block 60 is driven to rotate, the rotating wheel 43 rotates to drive the trapezoidal sliding block 39 to rotate, the trapezoidal sliding block 39 rotates to drive the rack 41 to rotate, the rack 41 rotates to drive the pulley one 38 to rotate, the pulley one 38 rotates to drive the belt 37 to rotate, the belt 37 rotates to drive the pulley two 14 to rotate, the pulley two 14 rotates to drive the rotating shaft two 62 to rotate, the rotating shaft two 62 rotates to drive the bevel gear one 23 to rotate, the bevel gear one 23 rotates to drive the bevel gear two 22 to rotate, the bevel gear two 22 rotates to drive the rotating shaft three 19 to rotate, the rotating shaft three 19 rotates to drive the water pump 57 to start, so that water in the water tank 11 is pumped, and enters the water pipe one 12 from, and then enters the mixing chamber 35 to mix with the cement.

When concrete in the stirring cavity 35 is stirred, the forward and reverse rotation motor 33 is started firstly, when the forward and reverse rotation motor 33 rotates clockwise, the rotating wheel 43 is driven to rotate, the rotating wheel 43 rotates to drive the rotating shaft I49 to rotate, the rotating shaft I49 rotates to drive the rotating shaft I48 to rotate, the rotating shaft I48 rotates to drive the rotating shaft I45 to rotate, the rotating shaft I45 rotates to drive the rotating gear box 44 to rotate, so that the stirring box 25 and the rotating shaft I49 are driven to rotate in opposite directions to turn over cement, meanwhile, the rotating shaft I45 rotates to drive the rotating shaft I47 to rotate, the rotating shaft I47 rotates to drive the rotating shaft II 46 to rotate, the rotating gear III 46 rotates to drive the rotating gear II 51 to rotate, the rotating shaft II 51 rotates to drive the rotating shaft 50 to rotate, and the rotating; when the stirring rod 28 rotates, the cement in the stirring cavity 35 is longitudinally stirred, and when the first rotating cavity 55 rotates, the cement in the stirring cavity 35 is overturned, so that the cement in the stirring cavity 35 is stirred more uniformly; when the first rotating shaft 49 rotates, the third bevel gear 30 is driven to rotate, the third bevel gear 30 rotates to drive the fourth bevel gear 32 to rotate, the fourth bevel gear 32 rotates to drive the fifth rotating shaft 29 to rotate, and the fifth rotating shaft 29 rotates to drive the transverse rotating impeller 26 to rotate, so that cement in the stirring cavity 35 is transversely stirred, and the cement in the stirring cavity 35 is stirred more uniformly.

The invention has the beneficial effects that: the water supply device is arranged, the belt wheel is driven to rotate through the anticlockwise device of the rotating wheel, so that the water pump is driven to start to pump water in the water tank, the equipment is provided with the water tank, water can be stored under the condition that water is short of water, and therefore the construction engineering can be continuously carried out without stopping, and the working efficiency is indirectly improved; the invention is provided with the gear set, can control the longitudinal stirring and the transverse stirring of the first stirring device and the second stirring device through the connection of the first gear, the fourth gear and the planetary gear between the gear box, and can also turn over the stirring box, thereby fully and comprehensively stirring cement, and effectively improving the stirring efficiency.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.