CN113216191A - Hydraulic engineering construction device and construction method - Google Patents

Abstract

The utility model relates to a hydraulic engineering construction equipment, it includes base and agitator tank, be provided with the montant along vertical direction on the base, be provided with the horizontal pole along the horizontal direction on the montant, be provided with the motor on the horizontal pole, be connected with on the motor and be used for passing the opening and get into the stirring rake in the agitator tank, the horizontal pole is along montant length direction and montant sliding connection, the montant is provided with the cylinder that links to each other with the horizontal pole along its length direction, the montant is established and sliding connection has the sleeve in horizontal pole below cover, the sleeve links to each other with the horizontal pole, the montant is provided with branch along being on a parallel with horizontal pole length direction in the sleeve below, branch wears to establish and sliding connection has the slide bar, the tip of slide bar is worn out the horizontal pole and is continuous with the agitator tank, the upper surface of branch is provided with the fluting along its length direction, the sleeve passes the fluting through the slide bar and keeps away from telescopic one end and links to each other with the slide bar, the both ends of slide bar rotate respectively and be connected. This application has the effect that helps concrete mixing in the agitator tank even, reduce the stirring blind area.

Description

Hydraulic engineering construction device and construction method

Technical Field

The application relates to the field of hydraulic engineering, in particular to a hydraulic engineering construction device and a construction method.

Background

At present, hydraulic engineering is an engineering built for eliminating water damage and developing and utilizing water resources, and water flow is controlled by building the hydraulic engineering, so that flood disasters are effectively prevented.

Hydraulic engineering can not leave the use of concrete in the work progress, need carry out the stirring work of concrete earlier before using the concrete, among the correlation technique, need stir the concrete raw and other materials through the stirring rake in the agitator tank to obtain the concrete.

In the related art, since the position of the stirring paddle in the stirring tank is fixed, and the stirring area of the stirring paddle in the stirring tank is limited, the inventor thinks that the stirring paddle has the defect that the stirring paddle is difficult to uniformly stir the concrete.

Disclosure of Invention

In order to be favorable to concrete mixing in the agitator tank even, reduce the stirring blind area, this application provides a hydraulic engineering construction equipment and construction method.

First aspect, the application provides a hydraulic engineering construction equipment adopts following technical scheme:

a hydraulic engineering construction device comprises a base and a stirring tank, wherein a vertical rod is arranged on the base along the vertical direction, a horizontal rod is arranged on the vertical rod along the horizontal direction, the stirring tank is arranged below the horizontal rod, an opening is arranged at the upper end of the stirring tank, a discharge hole penetrating out of the base is arranged at the lower end of the stirring tank, a motor is arranged on the horizontal rod, a stirring paddle for penetrating through the opening into the stirring tank is connected onto the motor, the horizontal rod is connected with the vertical rod in a sliding manner along the length direction of the vertical rod, an air cylinder connected with the horizontal rod is arranged on the vertical rod along the length direction of the vertical rod, a sleeve is sleeved and connected below the horizontal rod of the vertical rod, the sleeve is connected with the horizontal rod, a support rod is arranged below the sleeve and is parallel to the length direction of the horizontal rod, a slide rod is arranged on the support rod in a penetrating and connected in a sliding manner, and the end part of the slide rod penetrates out of the horizontal rod and is connected with the stirring tank, the upper surface of branch is provided with the fluting along its length direction, the sleeve passes the fluting through the down tube and links to each other with the telescopic one end of slide bar keeping away from, the both ends of down tube rotate with sleeve and slide bar respectively and are connected.

By adopting the technical scheme, when concrete is stirred, the concrete raw material is put into the stirring tank through the opening, and then the motor is started, so that the motor drives the stirring paddle to rotate, and the concrete in the stirring tank is stirred; starting the air cylinder, wherein the air cylinder drives the cross rod to lift along the length direction of the vertical rod, so that the cross rod drives the stirring paddle to lift in the stirring tank, and the stirring paddle is enabled to stir concrete in most gaps between the stirring paddle and the upper end and the lower end of the stirring tank; simultaneously, the horizontal pole drives the sleeve and goes up and down along the length direction of vertical pole for the sleeve drives the slide bar through the down tube and stirs the concrete in the most clearance at left and right sides both ends in stirring rake and the agitator tank along being on a parallel with the length direction of horizontal pole, thereby helps the interior concrete mixing of agitator tank even, reduced the stirring blind area.

Optionally, a sliding groove is formed in the base along the length direction parallel to the transverse rod, and the lower end of the stirring tank is provided with and rotatably connected with a roller which is used for rolling along the sliding groove.

Through adopting above-mentioned technical scheme, promote the agitator tank at the slide bar and carry out reciprocating motion's in-process along horizontal pole length direction, roll along the direction of spout through the gyro wheel, can increase the support of base in the agitator tank motion process.

Optionally, the stirring rake includes puddler and stirring vane, the dwang is worn to be equipped with by the inside cavity of puddler, the lower extreme of dwang is provided with the auger delivery pole that is used for penetrating the discharge gate, be provided with the lifting unit who is used for the dwang to go up and down along puddler length direction on the puddler, lifting unit is used for the auger delivery pole to wear out or penetrate in the puddler, the dwang is provided with the fastening assembly who is used for dwang and puddler to fasten mutually.

Through adopting above-mentioned technical scheme, after accomplishing the concrete mixing, remove the fastening of fastening components to the dwang, rethread lifting unit, make the dwang drive auger delivery pole wear out the puddler and enter into in the discharge gate, again through fastening components, make the dwang fasten on the puddler, rethread motor drives the puddler and rotates, the puddler drives the dwang and rotates, the dwang drives auger delivery pole and rotates in the discharge gate, thereby be convenient for to pass through auger delivery pole output with piling up the concrete of discharge gate department.

Optionally, the lifting assembly comprises a guide groove formed in the stirring rod in a penetrating mode along the length direction of the stirring rod, and a shifting rod used for penetrating out of the guide groove is arranged on the rotating rod.

By adopting the technical scheme, when the spiral conveying rod does not need to penetrate out of the stirring rod, the shifting rod is abutted against the upper end of the guide groove, and the rotating rod is fastened on the rotating rod through the fastening component; when the puddler was worn out to needs auger delivery pole, along the length direction slip driving lever of guide way for the lower extreme looks butt of driving lever and guide way makes auger delivery pole wear out the puddler completely, and rethread fastening subassembly makes the dwang fasten on the dwang.

Optionally, fastening components includes fastening screw, it is provided with first screw hole to run through on its axis direction of perpendicular to follow the dwang, the puddler has set gradually two second screw holes from top to bottom along its length direction, the second screw hole on puddler upper portion is just right mutually with the upper end of guide way, the second screw hole of puddler lower part is just right mutually with the lower extreme of guide way, the driving lever is just right mutually with first screw hole on the dwang, second screw hole and first screw hole when just right, fastening screw passes second screw hole and first screw hole in proper order to with second screw hole and first screw hole threaded connection.

By adopting the technical scheme, when the spiral conveying rod does not need to penetrate out of the stirring rod, the shifting rod is abutted against the upper end of the guide groove, the first threaded hole in the rotating rod is opposite to the second threaded hole in the upper part of the stirring rod, the fastening screw rod sequentially penetrates through the second threaded hole and the first threaded hole and is in threaded connection with the second threaded hole and the first threaded hole, and therefore the rotating rod and the stirring rod are not fixed when the spiral conveying rod does not need to penetrate out of the stirring rod; when the puddler is worn out to needs auger delivery pole, the lower extreme looks butt of slip driving lever and guide way, the first screw hole on the dwang is just right with the second screw hole of puddler upper and lower part, passes second screw hole and first screw hole with fastening screw in proper order to with second screw hole and first screw hole threaded connection, thereby when needs auger delivery pole wears out the puddler, make dwang and puddler fixed mutually.

Optionally, an outer extending rod is rotatably connected to a joint of the rotating rod and the spiral conveying rod, a torsion spring used for the outer extending rod to rotate outwards is arranged at the joint of the outer extending rod and the rotating rod, and the outer extending rod is used for penetrating out of the stirring rod and penetrating into the stirring tank.

Through adopting above-mentioned technical scheme, the in-process of puddler is worn out to the auger delivery pole, and the puddler is also worn out to the dwang drive outer stretching rod, and outer stretching rod breaks away from and gets into in the puddler with the butt of puddler, and outer stretching rod rotates outwards under the effect of torsional spring, and at the puddler rotation in-process, outer stretching rod also rotates together to increase the disturbance in the discharge gate department of agitator tank, and follow the ejection of compact of agitator tank discharge gate with the concrete.

Optionally, the cross-section of the upper half part of the stirring tank along the length direction of the stirring tank is rectangular, and the cross-section of the lower half part of the stirring tank along the length direction of the stirring tank is isosceles trapezoid.

By adopting the technical scheme, the section of the upper half part of the stirring tank is rectangular, so that the stirring paddle can not be abutted against the inner wall of the stirring tank when moving in the stirring tank; the cross-section of agitator tank lower half is isosceles trapezoid, and the concrete after the stirring of being convenient for flows towards the discharge gate along the inclined plane.

In a second aspect, the hydraulic engineering construction method provided by the application adopts the following technical scheme:

a hydraulic engineering construction method comprises the following steps:

moving a base to a position where construction is needed in a hydraulic engineering, and putting a concrete raw material into a stirring tank through an opening;

step two, starting a motor, driving a stirring paddle to rotate and stir the raw concrete material in the stirring tank, then starting an air cylinder, driving a cross rod to lift along the length direction of the vertical rod by the air cylinder, so that the stirring paddle lifts in the stirring tank along the length direction parallel to the vertical rod and stirs the concrete in the stirring tank, driving a sleeve to lift along the length direction of the vertical rod by the cross rod, and driving the stirring tank to reciprocate along the length direction parallel to the cross rod by an inclined rod through the slide rod;

step three, after the stirring is accomplished, remove the fixed of fastening components to the dwang, the dwang slides, and the dwang drives the auger delivery pole and wears out the puddler and enter into the discharge gate in, overhanging pole penetrates in the agitator tank, and the rethread fastening components is fixed the position of dwang, passes through the puddler through the motor and drives the dwang rotation, and the concrete that the stirring was accomplished passes through the auger delivery pole and carries out the discharge gate.

By adopting the technical scheme, when concrete is stirred, the concrete raw material is put into the stirring tank through the opening, is lifted in the stirring tank through the stirring paddle, and then reciprocates along the length direction of the cross rod through the stirring tank, so that the stirring paddle can stir the concrete in the stirring blind area in the stirring tank; after the concrete mixing is accomplished, wear out the puddler with the auger delivery pole and enter in the discharge gate for the concrete that the stirring was accomplished carries out the discharge gate through the auger delivery pole.

In summary, the present application includes at least one of the following beneficial technical effects:

1. starting the motor, driving the stirring paddle to rotate by the motor, and stirring the concrete in the stirring tank; starting the air cylinder, wherein the air cylinder drives the cross rod to lift along the length direction of the vertical rod, so that the cross rod drives the stirring paddle to lift in the stirring tank, and the stirring paddle is enabled to stir concrete in most gaps between the stirring paddle and the upper end and the lower end of the stirring tank; meanwhile, the cross rod drives the sleeve to lift along the length direction of the vertical rod, so that the sleeve drives the sliding rod to stir the concrete in most gaps at the left end and the right end in the stirring tank along the length direction parallel to the cross rod through the inclined rod, thereby being beneficial to uniformly stirring the concrete in the stirring tank and reducing stirring blind areas;

2. after accomplishing the concrete mixing, remove the fastening of fastening components to the dwang, rethread lifting unit, make the dwang drive auger delivery pole wear out the puddler and enter into in the discharge gate, pass through fastening components again, make the dwang fasten on the puddler, rethread motor drive puddler rotates, the puddler drives the dwang and rotates, the dwang drives auger delivery pole and rotates in the discharge gate, thereby be convenient for to pile up the concrete of department at the discharge gate and pass through auger delivery pole output.

Drawings

Fig. 1 is the whole structure diagram of hydraulic engineering construction equipment of this application embodiment.

FIG. 2 is a cross-sectional view of a stirred tank according to an embodiment of the present application.

FIG. 3 is an exploded view of a paddle according to an embodiment of the present application.

FIG. 4 is an external structural view of a paddle according to an embodiment of the present invention.

Description of reference numerals: 1. a base; 2. a vertical rod; 3. a stirring tank; 4. a cross bar; 5. a discharge port; 6. a motor; 7. a stirring paddle; 71. a stirring rod; 72. a stirring blade; 8. a cylinder; 9. a sleeve; 10. a strut; 11. a slide bar; 12. a diagonal bar; 13. a chute; 14. a roller; 15. rotating the rod; 16. a screw conveying rod; 17. a lifting assembly; 171. a guide groove; 172. a deflector rod; 18. fastening a screw rod; 19. a first threaded hole; 20. a second threaded hole; 21. an outward extending rod; 22. a torsion spring.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses hydraulic engineering construction equipment. Referring to fig. 1, a hydraulic engineering construction equipment includes base 1 and agitator tank 3, and the below of base 1 is rotated and is provided with four universal wheels that take self-locking function. Two vertical rods 2 are welded on the base 1 along the vertical direction, and a cross rod 4 is arranged between the two vertical rods 2 along the horizontal direction. The montant 2 has seted up the sliding tray along its length direction, and the tip welding of horizontal pole 4 has the slider that is used for embedded in the sliding tray and with sliding tray sliding connection. The vertical rod 2 is connected with a cylinder 8 connected with the cross rod 4 through a bolt along the length direction of the vertical rod, the vertical rod 2 is sleeved below the cross rod 4 and is connected with a sleeve 9 in a sliding mode, and the sleeve 9 is connected with the cross rod 4 through a connecting rod. The vertical rod 2 is welded with a support rod 10 below the sleeve 9 along the length direction parallel to the cross rod 4, and the support rod 10 is penetrated and slidably connected with a slide rod 11. The upper surface of the supporting rod 10 is provided with a slot along the length direction, the sleeve 9 passes through the slot through an inclined rod 12 and is connected with one end of the sliding rod 11 far away from the sleeve 9, and two ends of the inclined rod 12 are respectively connected with the sleeve 9 and the sliding rod 11 through hinges in a rotating manner.

Referring to fig. 1, the cross section of the upper half part of the stirring tank 3 along the length direction of the stirring tank 3 is rectangular, and the cross section of the lower half part of the stirring tank 3 along the length direction of the stirring tank 3 is an inverted isosceles trapezoid. Agitator tank 3 sets up in 4 below on the horizontal pole, and 3 upper ends on the agitator tank are provided with the opening, and 3 lower extreme minimums of agitator tank are provided with the discharge gate 5 of wearing out base 1, and discharge gate 5 is provided with the bleeder valve. The end of the sliding rod 11 penetrates through the cross rod 4 and is welded with the stirring tank 3, two sliding grooves 13 are formed in the base 1 in the length direction parallel to the cross rod 4, and the lower end of the stirring tank 3 is provided with a roller 14 which is rotatably connected with the roller and used for rolling along the sliding grooves 13.

Referring to fig. 2 and 3, the cross bar 4 is connected with a motor 6 through a bolt, and the motor 6 is connected with a stirring paddle 7 which is used for penetrating through the opening and entering the stirring tank 3. The stirring paddle 7 comprises a stirring rod 71 and stirring blades 72, the stirring rod 71 is hollow and penetrates through a rotating rod 15, the lower end of the rotating rod 15 is welded with a spiral conveying rod 16 used for penetrating a discharge port 5, and the maximum diameter of the cross section of the spiral conveying rod 16 is smaller than the diameter of the cross section of the discharge port 5. The stirring rod 71 is provided with a lifting assembly 17 used for lifting the rotating rod 15 along the length direction of the stirring rod 71, the lifting assembly 17 comprises a guide groove 171 formed in the stirring rod 71 in a penetrating mode along the length direction of the stirring rod, a lifting rod 172 used for penetrating out of the guide groove 171 is welded on the rotating rod 15, and the length of the guide groove 171 is equal to that of the spiral conveying rod 16. The turning rod 15 is provided with a fastening assembly for fastening the turning rod 15 to the stirring rod 71, the fastening assembly including a fastening screw 18. The rotating rod 15 is provided with a first threaded hole 19 along a direction perpendicular to the axis thereof, and the shifting rod 172 is opposite to the first threaded hole 19 on the rotating rod 15.

Referring to fig. 3 and 4, the stirring rod 71 is provided with two second threaded holes 20 along the length direction thereof in sequence from top to bottom, and the distance between the two second threaded holes 20 is equal to the length of the guide groove 171. The second screw hole 20 at the upper portion of the agitating bar 71 is opposite to the upper end of the guide groove 171, and the second screw hole 20 at the lower portion of the agitating bar 71 is opposite to the lower end of the guide groove 171. When the second threaded hole 20 and the first threaded hole 19 are opposite, the fastening screw 18 sequentially passes through the second threaded hole 20 and the first threaded hole 19 and is in threaded connection with the second threaded hole 20 and the first threaded hole 19. When the shift lever 172 abuts against the upper end wall surface of the guide groove 171, the screw conveyor 16 is completely accommodated in the stirring rod 71; when the lever 172 abuts against the lower end wall surface of the guide groove 171, the screw conveyor 16 completely passes through the stirring rod 71.

Referring to fig. 2 and 3, the rotating rod 15 is rotatably connected to two outward extending rods 21 at the connection with the spiral conveying rod 16 through a hinge, a torsion spring 22 for outward rotation of the outward extending rod 21 is disposed at the hinge connection between the outward extending rod 21 and the rotating rod 15, the outward extending rod 21 is used for penetrating through the stirring rod 71 and penetrating into the stirring tank 3, and the outward extending rod 21 completely penetrates through the stirring rod 71 and cannot abut against the inner wall of the stirring tank 3.

The hydraulic engineering construction method comprises the following steps:

firstly, putting a concrete raw material into a stirring tank 3 through an opening of the stirring tank 3, and moving the stirring tank 3 to a position where hydraulic engineering needs to be constructed through a base 1;

step two, starting the motor 6, and driving the stirring paddle 7 by the motor 6 to stir the concrete in the stirring tank 3; the cylinder 8 is started again, the cylinder 8 drives the cross rod 4 to go up and down along the length direction of the vertical rod 2, so that the cross rod 4 drives the stirring paddle 7 to go up and down along the length direction of the vertical rod 2 in the stirring tank 3, the stirring paddle 7 is enabled to stir concrete in most gaps at the upper end and the lower end of the stirring tank 3, meanwhile, the cross rod 4 drives the sleeve 9 to go up and down along the length direction of the vertical rod 2, the sleeve 9 drives the sliding rod 11 to stir the concrete in most gaps at the left end and the right end of the stirring paddle 7 and the stirring tank 3 along the length direction parallel to the cross rod 4 through the inclined rod 12, and accordingly stirring blind areas of the concrete in the stirring tank 3 are reduced;

step three, after the stirring is completed, under the driving of the cylinder 8, the stirring rod 71 is right above the discharge port 5 of the stirring tank 3, when the spiral conveying rod 16 needs to penetrate out of the stirring tank 3 and penetrate into the discharge port 5, the fastening screw 18 is respectively screwed out of the first threaded hole 19 and the second threaded hole 20, the relative fixation between the rotating rod 15 and the stirring rod 71 is released, then the rotating rod 15 is driven by the driving rod 172 to slide downwards along the guide groove 171, the driving rod 172 is abutted against the inner wall of the lower end of the guide groove 171, so that the first threaded hole 19 of the rotating rod 15 is right opposite to the second threaded hole 20 at the lower part of the stirring rod 71, then the fastening screw 18 sequentially penetrates through the second threaded hole 20 and the first threaded hole 19 and is in threaded connection with the second threaded hole 20 and the first threaded hole 19, in the process, the spiral conveying rod 16 penetrates out of the stirring rod 71 and enters the discharge port 5, meanwhile, the outward extending rod 21 penetrates through the stirring rod 71 and is rotated and opened at the lower half part of the stirring tank 3 under the action of the torsion spring 22, and the stirred concrete is conveyed out of the discharge port 5 through the spiral conveying rod 16 and falls into a construction position where the concrete is needed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a hydraulic engineering construction equipment which characterized in that: comprises a base (1) and a stirring tank (3), wherein a vertical rod (2) is arranged on the base (1) along the vertical direction, a horizontal rod (4) is arranged on the vertical rod (2) along the horizontal direction, the stirring tank (3) is arranged below the horizontal rod (4), an opening is arranged at the upper end of the stirring tank (3), a discharge hole (5) penetrating out of the base (1) is arranged at the lower end of the stirring tank (3), a motor (6) is arranged on the horizontal rod (4), a stirring paddle (7) used for penetrating through the opening to enter the stirring tank (3) is connected onto the motor (6), the horizontal rod (4) is slidably connected with the vertical rod (2) along the length direction of the vertical rod (2), a cylinder (8) connected with the horizontal rod (4) is arranged on the vertical rod (2) along the length direction, and a sleeve (9) is sleeved on the vertical rod (2) below the horizontal rod (4), sleeve (9) link to each other with horizontal pole (4), montant (2) are provided with branch (10) in sleeve (9) below along being on a parallel with horizontal pole (4) length direction, branch (10) are worn to establish and sliding connection has slide bar (11), the tip of slide bar (11) is worn out horizontal pole (4) and is linked to each other with agitator tank (3), the upper surface of branch (10) is provided with the fluting along its length direction, sleeve (9) pass the fluting through down tube (12) and link to each other with the one end that sleeve (9) were kept away from in slide bar (11), the both ends of down tube (12) rotate with sleeve (9) and slide bar (11) respectively and are connected.

2. A hydraulic engineering construction equipment according to claim 1, characterized in that: a sliding groove (13) is formed in the base (1) in the length direction parallel to the cross rod (4), and a roller (14) used for rolling along the sliding groove (13) is arranged at the lower end of the stirring tank (3) and is connected in a rotating mode.

3. A hydraulic engineering construction equipment according to claim 1, characterized in that: stirring rake (7) are including puddler (71) and stirring vane (72), puddler (71) inside cavity is worn to be equipped with dwang (15), the lower extreme of dwang (15) is provided with auger delivery pole (16) that are used for penetrating discharge gate (5), be provided with on puddler (71) and be used for dwang (15) along the lifting unit (17) that puddler (71) length direction goes up and down, lifting unit (17) are used for auger delivery pole (16) to wear out or penetrate in puddler (71), dwang (15) are provided with the fastening assembly who is used for dwang (15) and puddler (71) to fasten mutually.

4. A hydraulic engineering construction installation according to claim 3, characterized in that: the lifting assembly (17) comprises a stirring rod (71) and a guide groove (171) which is formed in a penetrating mode along the length direction of the stirring rod, and a shifting rod (172) which penetrates out of the guide groove (171) is arranged on the rotating rod (15).

5. A hydraulic engineering construction equipment according to claim 4 characterized in that: fastening components includes fastening screw (18), it is provided with first screw hole (19) to run through on its axis direction of perpendicular to dwang (15), puddler (71) have set gradually two second screw holes (20) from top to bottom along its length direction, second screw hole (20) on puddler (71) upper portion are just right with the upper end of guide way (171), second screw hole (20) of puddler (71) lower part are just right with the lower extreme of guide way (171) mutually, driving lever (172) are just right with first screw hole (19) on dwang (15) mutually, second screw hole (20) and first screw hole (19) are just right when just right mutually, fastening screw (18) pass second screw hole (20) and first screw hole (19) in proper order to with second screw hole (20) and first screw hole (19) threaded connection.

6. A hydraulic engineering construction installation according to claim 3, characterized in that: the utility model discloses a stirring rod, including dwang (15), rotation pole (16) and rotation pole (21), the rotation pole (15) is gone up in the rotation of being connected with outer pole (21) of stretching out in the junction with auger delivery pole (16), the rotation junction of stretching out pole (21) and dwang (15) is provided with and is used for stretching out pole (21) outside pivoted torsional spring (22) outward, stretch out pole (21) outward and be used for wearing out puddler (71) and penetrate in agitator tank (3).

7. A hydraulic engineering construction equipment according to claim 1, characterized in that: the cross-section of agitator tank (3) length direction is the rectangle for first half along agitator tank (3), agitator tank (3) lower half is isosceles trapezoid along agitator tank (3) length direction's cross-section.

8. A hydraulic engineering construction method using a hydraulic engineering construction device according to any one of claims 1 to 7, comprising the steps of:

moving a base (1) to a position where construction is needed in hydraulic engineering, and putting a concrete raw material into a stirring tank (3) through an opening;

step two, starting a motor (6), wherein the motor (6) drives a stirring paddle (7) to rotate and stir the concrete raw material in the stirring tank (3), then starting an air cylinder (8), the air cylinder (8) drives a cross rod (4) to lift along the length direction of a vertical rod (2), so that the stirring paddle (7) lifts in the stirring tank (3) along the length direction parallel to the vertical rod (2) and stirs the concrete in the stirring tank (3), the cross rod (4) drives a sleeve (9) to lift along the length direction of the vertical rod (2), and an inclined rod (12) drives the stirring tank (3) to reciprocate along the length direction parallel to the cross rod (4) through a sliding rod (11);

step three, after the stirring is accomplished, remove the fixed of fastening components to dwang (15), slide dwang (15), dwang (15) drive auger delivery pole (16) and wear out puddler (71) and get into discharge gate (5) in, stretch out pole (21) outward and penetrate agitator tank (3) in, the position of rethread fastening components to dwang (15) is fixed, drive dwang (15) through puddler (71) through motor (6) and rotate, the concrete that the stirring was accomplished carries out discharge gate (5) through auger delivery pole (16).

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