CN112060339A

CN112060339A - Mixing arrangement is used in building engineering concrete processing

Info

Publication number: CN112060339A
Application number: CN202010925174.4A
Authority: CN
Inventors: 谷东虎
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-06
Filing date: 2020-09-06
Publication date: 2020-12-11

Abstract

The invention discloses a mixing device for building engineering concrete processing, which belongs to the field of stirring equipment and comprises an operation table, wherein four ground feet are arranged at the bottom end of the operation table, the ground feet are uniformly arranged at the bottom end of the operation table, a stirring barrel is arranged at the top end of the operation table, a circular ring groove matched with the circular ring is arranged at the bottom end of the stirring barrel, a slurry pump connecting pipe and a hoisting channel are arranged at the top end of the stirring barrel, the slurry pump connecting pipe and the hoisting channel are hoisted, and one end of the slurry pump connecting pipe and one end of the hoisting channel are inserted into the stirring barrel in a penetrating manner. The mixing device for processing the concrete in the constructional engineering is convenient for loading and unloading.

Description

Mixing arrangement is used in building engineering concrete processing

Technical Field

The invention relates to the field of concrete processing equipment, in particular to a mixing device for processing concrete in constructional engineering.

Background

With the development of industrial technology, the modern building industry technology is developed more and more mature, wherein concrete and steel bars are used as bearing frameworks of tall buildings, the requirements on different working conditions and the specifications of the concrete are required, the ingredients of the concrete mainly comprise stones, yellow sand, cement and water, and the proportions of the concrete in different working conditions are different; concrete ingredients are easy to layer when mixed, and concrete can be layered when standing for a period of time, namely water is gathered on the top layer of materials, so that the use of the concrete is influenced; the batching weight of the concrete is relatively large, so that the feeding into the concrete mixing box is relatively troublesome, and for projects with strict requirements, the proportioning accuracy requirement of the raw materials of the concrete is very high, and the conventional feeding method is easy to cause overlarge proportioning error.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides a mixing device for processing concrete in constructional engineering.

In order to solve the above problems, the present invention provides the following technical solutions: a mixing device for building engineering concrete processing comprises an operation table, wherein four ground feet are arranged at the bottom end of the operation table and are uniformly arranged at the bottom end of the operation table, a stirring barrel is arranged at the top end of the operation table, a circular ring groove matched with the circular ring is arranged at the bottom end of the stirring barrel, a slurry pump connecting pipe and a hoisting channel are arranged at the top end of the stirring barrel, the slurry pump connecting pipe and the hoisting channel are oppositely arranged, one end of the slurry pump connecting pipe and one end of the hoisting channel are inserted into the stirring barrel, a stirring assembly is arranged above the stirring barrel, the stirring assembly comprises a hoisting guide rail, the hoisting guide rail is fixedly installed, two groups of hoisting slide blocks are arranged on the hoisting guide rail, each group of hoisting slide blocks is in sliding connection with the hoisting guide rail, a vertical rod is fixedly installed at the bottom of each group of hoisting slide, the upper cover of the vertical rod is provided with a square sleeve, and the square sleeve is connected with the vertical rod in a sliding manner.

Further, one side of montant is provided with the curb plate, and agitator motor is installed on the top of montant one side curb plate, and two puddlers are installed to the bottom of montant one side curb plate, puddler and montant swivelling joint, and fixed mounting has from the driving wheel on a puddler, and the top fixed mounting of another puddler has the action wheel, and the action wheel is connected through the belt from between the driving wheel, and wherein a puddler is installed on agitator motor's output, and the stirring wheel is all installed to the bottom of two puddlers.

Further, the top fixed mounting of hoist and mount slider has two objective tables, and the top of two objective tables all is provided with the round bar arm, two fixed axle beds are installed to the top of hoist and mount guide rail, two fixed axle bed fixed mounting, the bent axle is installed to the centre of fixed axle bed, and the both sides of bent axle all install the extension guide arm, and every one end and the bent axle that extend the guide arm are articulated, and the other end that extends the guide arm is articulated with the round bar arm that corresponds.

Furthermore, one side of the square sleeve and the bottom end of the objective table are fixedly provided with first hinged blocks, and the two first hinged blocks are connected through a pull rod.

Further, one side of agitator is provided with power component, and power component includes motor power, and motor power's output installs first gyro wheel and second gyro wheel, first gyro wheel and second gyro wheel fixed connection, reducing belt is installed on the top of first gyro wheel, and reducing belt's top installs big rim plate, the end fixed connection of big rim plate and bent axle.

Further, horizontal belt is installed to one side of second gyro wheel, and the one end of horizontal belt installs driven gyro wheel, the pole of buckling is installed to one side of driven gyro wheel, driven gyro wheel and the pole swivelling joint of buckling, the bottom of the pole of buckling and the side fixed connection of operation panel, one side fixed mounting of driven gyro wheel has first bevel gear, and one side of first bevel gear installs second bevel gear, and the top surface swivelling joint of round bar and operation panel is passed through to second bevel gear's bottom, reduction gear is installed on second bevel gear's top, and the outside of agitator is provided with the ring gear, reduction gear and ring gear intermeshing.

Further, the material loading subassembly is installed to one side of operation panel, and the material loading subassembly includes the fixing base, and the strengthening rib is installed to the bottom of fixing base, the fixed pulley is installed on the top of fixing base, the bottom fixed mounting of fixing base has elevator motor, and elevator motor's output installs the take-up reel, one side that elevator motor was kept away from to the fixing base is installed vertical guide rail, installs the lifting slide on the vertical guide rail, lifting slide and vertical guide rail sliding connection, one side fixed mounting of lifting slide has the elevating platform, is provided with the stay cord on the take-up reel, and the fixed pulley is walked around to the stay cord, the end of stay cord and the top surface fixed.

Further, two removal axle beds are installed on the top of elevating platform, and the centre of removing the axle bed installs rotatory workbin, rotatory workbin and removal axle bed swivelling joint, the cylinder is installed to one side of rotatory workbin, and the bottom and the output of cylinder all install the articulated piece of second, the articulated piece of a second and the top surface fixed connection of elevating platform, the articulated piece of another second and the lateral wall fixed connection of rotatory workbin.

The invention has the beneficial effects that:

firstly, when the device is used, ingredients of concrete are put into a rotary bin, the rotary bin is filled with stones, yellow sand is filled after the rotary bin is rotated, cement is filled finally, the proportion of the materials is measured by the rotary bin, then a lifting motor lifts a lifting platform through a take-up reel and a pull rope, the lifting platform slides on a vertical guide rail through a sliding block at the moment, when the lifting platform and the rotary bin rise to a certain height, an output end of an air cylinder stretches, one end of the rotary bin rotates until the materials slide into a stirring barrel from a hoisting channel, and the functions of automatic feeding and accurate calculation of the ingredient proportion are achieved;

secondly, after the material of agitator was filled with, power motor drives the big rim plate rotation through first gyro wheel and reduction belt, big rim plate and curved bar synchronous revolution this moment, so two objective tables can reciprocate to slide on the hoist and mount guide rail, the square sleeve also can be reciprocating motion on the square pole, the agitator of square pole below also can reciprocate in the agitator, agitator motor provides the power of stirring for two agitator wheels through the agitator bar, the agitator wheel also reciprocates when rotatory, can fully stir the concrete, prevent the concrete layering, power motor also drives reduction gear rotation through the second gyro wheel is indirect, reduction gear drives the agitator rotation through the gear ring, the agitator is inside when the stirring, the agitator is also rotatory, stirring efficiency has been improved.

Drawings

Fig. 1 is a schematic front view of a mixing device for concrete processing in construction work.

Fig. 2 is a schematic side view of a mixing apparatus for use in the processing of concrete for construction work.

Fig. 3 is a schematic view of a mixing device for use in concrete processing in construction work from a second perspective.

Fig. 4 is a third perspective view of a mixing apparatus for use in the construction of concrete.

Fig. 5 is a schematic view of a hybrid device power assembly for the concrete processing of construction work.

Fig. 6 is a schematic view of a mixing device feeding assembly for the concrete processing of constructional engineering.

Fig. 7 is a schematic view of a mixing device mixing assembly for the processing of concrete for construction work.

Fig. 8 is a schematic view of a mixing device console for the processing of concrete for construction work.

Description of reference numerals:

1-console, 101-ground anchor, 102-circular ring, 2-stirring barrel, 201-slurry pump connecting pipe, 202-hoisting channel, 203-gear ring, 3-stirring component, 301-hoisting guide rail, 302-hoisting slide block, 303-vertical rod, 304-square sleeve, 305-first hinge block, 306-stirring motor, 307-stirring rod, 308-driving wheel, 309-driven wheel, 310-belt, 311-stirring wheel, 312-lifting rod, 313-fixed shaft seat, 314-crankshaft, 315-stage, 316-circular rod arm, 317-extension guide rod, 4-feeding component, 401-fixed seat, 402-reinforcing rib, 403-fixed pulley, 404-lifting motor, 405-take-up reel, 406-pull rope, 407-vertical guide rail, 408-lifting slide block, 409-lifting table, 410-movable shaft seat, 411-rotary bin, 412-cylinder, 413-second hinged block, 5-power assembly, 501-power motor, 502-first roller, 503-second roller, 504-speed reduction belt, 505-large wheel disc, 506-horizontal belt, 507-driven roller, 508-bending rod, 509-first bevel gear, 510-second bevel gear and 511-speed reduction gear.

Detailed Description

Referring to fig. 1 to 8, the mixing device for processing the concrete in the building engineering comprises an operation table 1, wherein four ground feet 101 are arranged at the bottom end of the operation table 1, the ground feet 101 are uniformly arranged at the bottom end of the operation table 1, an agitating barrel 2 is arranged at the top end of the operation table 1, a circular ring 102 is arranged at the top end of the operation table 1, a circular ring groove matched with the circular ring 102 is arranged at the bottom end of the agitating barrel 2, a slurry pump connecting pipe 201 and a hoisting channel 202 are arranged at the top end of the agitating barrel 2, the slurry pump connecting pipe 201 and the hoisting channel 202 are oppositely arranged, one ends of the slurry pump connecting pipe 201 and the hoisting channel 202 are inserted in the agitating barrel 2, an agitating component 3 is arranged above the agitating barrel 2, the agitating component 3 comprises a hoisting guide rail 301, the hoisting guide rail 301 is fixedly arranged, two groups of hoisting slide blocks 302 are arranged on the hoisting guide rail 301, and the hoisting slide blocks, every group the bottom fixed mounting of hoist and mount slider 302 has montant 303, and the figure of montant is two promptly, and montant 303 is through the bottom fixed connection of diaphragm and hoist and mount guide rail 301, the last cover of montant 303 is equipped with square sleeve 304, square sleeve 304 and montant 303 sliding connection, and slurry pump connecting pipe 201 and hoist and mount passageway 202 are used for the material loading and unload, and slurry pump connecting pipe 201 is connected to on the slurry pump of concrete. Each set of lifting slide blocks 302 comprises two lifting slide blocks 302.

One side of montant 303 is provided with the curb plate, agitator motor 306 is installed on the top of montant 303 one side curb plate, and two puddlers 307 are installed to the bottom of montant 303 one side curb plate, puddler 307 and montant 303 swivelling joint, fixed mounting has from driving wheel 309 on the puddler 307, the top fixed mounting of another puddler 307 has drive wheel 308, connect through belt 310 between drive wheel 308 and the driven wheel 309, one of them puddler 307 is installed on agitator motor 306's output, stirring wheel 311 is all installed to the bottom of two puddlers 307, agitator motor 306 passes through drive wheel 308, drive two sets of puddlers 307 and stirring wheel 311 synchronous revolution from driving wheel 309 and belt 310, stirring wheel 311 realizes the function of stirring material when rotatory.

Two objective tables 315 are fixedly mounted at the top end of the hoisting sliding block 302, the top ends of the two objective tables 315 are provided with circular lever arms 316, two fixed shaft seats 313 are mounted above the hoisting guide rail 301, the two fixed shaft seats 313 are fixedly mounted, a crankshaft 314 is mounted in the middle of the fixed shaft seats 313, extension guide rods 317 are mounted on two sides of the crankshaft 314, one end of each extension guide rod 317 is hinged to the crankshaft 314, the other end of each extension guide rod 317 is hinged to the corresponding circular lever arm 316, the crankshaft 314 drives the two extension guide rods 317 to move when rotating under the driving of the power assembly 5, the two extension guide rods 317 push the two objective tables 315 to reciprocate, and the two objective tables 315 slide on the hoisting guide rail 301 in a reciprocating manner through the hoisting sliding block 302 at the moment.

The equal fixed mounting in one side of square sheath 304 and the bottom of objective table 315 has first articulated piece 305, connect through the pull-up rod 312 between two first articulated pieces 305 (being the first articulated piece of one side of square sheath 304 and the first articulated piece of the bottom of objective table 315), the motion of two objective tables 315 is mutual symmetry, objective table 315 drives square sheath 304 through pull-up rod 312 and two first articulated pieces 305 and reciprocates, so two sets of puddler 307 and stirring wheel 311 also slide from top to bottom in the outside of montant 303 in the operation, the function of intensive mixing has been realized, after concrete shelves for a long time, stirring wheel 311 can overturn the material from top to bottom, the material can be stratified when avoiding the ejection of compact.

One side of agitator 2 is provided with power component 5, power component 5 includes power motor 501, and first gyro wheel 502 and second gyro wheel 503 are installed to power motor 501's output, first gyro wheel 502 and second gyro wheel 503 fixed connection, speed reduction belt 504 is installed to the top of first gyro wheel 502, and the top of speed reduction belt 504 installs big rim plate 505, the end fixed connection of big rim plate 505 and bent axle 314, power motor 501 drives big rim plate 505 through first gyro wheel 502 and speed reduction belt 504 and rotates, big rim plate 505 and bent axle 314 synchronous revolution, first gyro wheel 502 is less than the diameter of big rim plate 505, then first gyro wheel 502 will increase the moment of torsion of big rim plate 505, power motor 501 provides rotatory power for bent axle 314.

A horizontal belt 506 is installed on one side of the second roller 503, a driven roller 507 is installed on one end of the horizontal belt 506, a bending rod 508 is installed on one side of the driven roller 507, the driven roller 507 is rotatably connected with the bending rod 508, the bottom end of the bending rod 508 is fixedly connected with the side surface of the operating table 1, a first bevel gear 509 is fixedly installed on one side of the driven roller 507, a second bevel gear 510 is installed on one side of the first bevel gear 509, the bottom end of the second bevel gear 510 is rotatably connected with the top surface of the operating table 1 through a round rod, a reduction gear 511 is installed on the top end of the second bevel gear 510, a gear ring 203 is arranged on the outer side of the stirring barrel 2, the reduction gear 511 and the gear ring 203 are meshed with each other, the power motor 501 drives the driven roller 507 to rotate through the second roller 503 and the horizontal belt 506, the driven roller 507 drives, the speed reduction gear 511 and the second bevel gear 510 rotate synchronously, the speed reduction gear 511 drives the stirring barrel 2 to rotate through the gear ring 203, the stirring efficiency of the stirring barrel 2 is increased when the stirring barrel rotates, and the power motor 501 indirectly provides power for the rotation of the stirring barrel 2.

A feeding component 4 is arranged at one side of the operating platform 1, the feeding component 4 comprises a fixed seat 401, a reinforcing rib 402 is arranged at the bottom end of the fixed seat 401, a fixed pulley 403 is installed at the top end of the fixed seat 401, a lifting motor 404 is fixedly installed at the bottom end of the fixed seat 401, and the take-up reel 405 is installed at the output end of the lifting motor 404, the vertical guide rail 407 is installed at one side of the fixed seat 401 far away from the lifting motor 404, the lifting slide block 408 is installed on the vertical guide rail 407, the lifting slide block 408 is connected with the vertical guide rail 407 in a sliding manner, a lifting platform 409 is fixedly installed on one side of the lifting slide block 408, a pulling rope 406 is arranged on the take-up reel 405, the pulling rope 406 bypasses the fixed pulley 403, the end of the pulling rope 406 is fixedly connected with the top surface of the lifting platform 409, the lifting motor 404 drives the lifting platform 409 to move up and down through the pulling rope 406, and the lifting platform 409 slides on the vertical guide rail 407 through the lifting slide block 408.

The top end of the lifting platform 409 is provided with two movable shaft seats 410, the middle of each movable shaft seat 410 is provided with a rotary material box 411, each rotary material box 411 is rotatably connected with the corresponding movable shaft seat 410, one side of each rotary material box 411 is provided with an air cylinder 412, the bottom end and the output end of each air cylinder 412 are provided with a second hinged block 413, one second hinged block 413 is fixedly connected with the top surface of the lifting platform 409, the other second hinged block 413 is fixedly connected with the side wall of the rotary material box 411, when the materials are fed, the concrete materials to be processed are firstly put into the rotary material box 411, the capacity of the rotary material box 411 is certain, the volume of the materials can be measured by the rotary material box 411, the proportioning of the concrete materials can be accurately calculated, when the bottom ends of the rotary material box 411 and the lifting platform 409 reach a certain height, the output end of the air cylinder 412 stretches, then the rotary material box 411, until the rotary bin 411 falls into the stirring barrel 2 from the hoisting channel 202, the function of accurate feeding is realized.

When the device is used, the slurry pump connecting pipe 201 and the hoisting channel 202 are used for feeding and discharging materials, the slurry pump connecting pipe 201 is connected to a concrete slurry pump, the stirring motor 306 drives two groups of stirring rods 307 and stirring wheels 311 to synchronously rotate through the driving wheel 308, the driven wheel 309 and the belt 310, the stirring wheels 311 realize the function of stirring materials when rotating, the crankshaft 314 drives the two extension guide rods 317 to move when rotating under the driving of the power motor 501, the two extension guide rods 317 push the object stage 315 to reciprocate, at the moment, the object stage 315 slides on the hoisting guide rail 301 in a reciprocating manner through the hoisting slider 302, the two object stages 315 move symmetrically, the object stage 315 drives the square sleeve 304 to move up and down through the pull rod 312 and the two first hinging blocks 305, then the two groups of stirring rods 307 and stirring wheels 311 also slide up and down on the outer side of the vertical rod 303 when in operation, and the function of full stirring is realized, after concrete is placed for a long time, the stirring wheel 311 turns over the material up and down, so that the material is prevented from being layered when the material is discharged, the large wheel disc 505 is driven by the power motor 501 through the first roller 502 and the speed reducing belt 504 to rotate, the large wheel disc 505 and the crankshaft 314 rotate synchronously, the diameter of the first roller 502 is smaller than that of the large wheel disc 505, the torque of the large wheel disc 505 is increased by the first roller 502, the power motor 501 provides rotating power for the crankshaft 314, the power motor 501 drives the driven roller 507 to rotate through the second roller 503 and the horizontal belt 506, the driven roller 507 drives the first bevel gear 509 and the second bevel gear 510 to rotate synchronously, the speed reducing gear 511 and the second bevel gear 510 rotate synchronously, the speed reducing gear 511 drives the stirring barrel 2 to rotate through the gear ring 203, the stirring efficiency of the power stirring barrel 2 is increased when the power stirring barrel 2 rotates, and the motor 501 indirectly provides, stay cord 406 is walked around fixed pulley 403, the end of stay cord 406 and the top surface fixed connection of elevating platform 409, elevator motor 404 drives elevating platform 409 through stay cord 406 and reciprocates, elevating platform 409 slides on vertical guide rail 407 through lifting slide 408, in the material loading, put pending concrete material into rotatory workbin 411 earlier, the capacity of rotatory workbin 411 is certain, can use rotatory workbin 411 to measure the volume of material, can accurately calculate the ratio of concrete material, rotatory workbin 411 and elevating platform 409 bottom reach the time of take the altitude, the output of cylinder 412 stretches, rotatory workbin 411 will overturn round removal axle bed 410, until rotatory workbin 411 falls into agitator 2 from hoist and mount passageway 202, the function of accurate feeding has been realized.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims

1. The utility model provides a mixing arrangement is used in building engineering concrete processing which characterized in that: the device comprises an operation table (1), wherein four ground feet (101) are arranged at the bottom end of the operation table (1), the ground feet (101) are uniformly arranged at the bottom end of the operation table (1), an agitating barrel (2) is installed at the top end of the operation table (1), a circular ring (102) is arranged at the top end of the operation table (1), a circular ring groove matched with the circular ring (102) is arranged at the bottom end of the agitating barrel (2), a slurry pump connecting pipe (201) and a hoisting channel (202) are installed at the top end of the agitating barrel (2), the slurry pump connecting pipe (201) and the hoisting channel (202) are oppositely arranged, one ends of the slurry pump connecting pipe (201) and the hoisting channel (202) are inserted into the agitating barrel (2), an agitating assembly (3) is installed above the agitating barrel (2), the agitating assembly (3) comprises a hoisting guide rail (301), the hoisting guide rail (301) is fixedly installed, and two groups of hoisting slide blocks (302) are installed on the hoisting guide rail, hoist and mount slider (302) and hoist and mount guide rail (301) sliding connection, every group the bottom fixed mounting of hoist and mount slider (302) has montant (303), and montant (303) are through the bottom fixed connection of diaphragm and hoist and mount guide rail (301), the cover is equipped with square sleeve (304) on montant (303), square sleeve (304) and montant (303) sliding connection.

2. The mixing device for the concrete processing of the constructional engineering according to claim 1, wherein: one side of montant (303) is provided with the curb plate, agitator motor (306) are installed on the top of montant (303) one side curb plate, and two puddler (307) are installed to the bottom of montant (303) one side curb plate, puddler (307) and montant (303) swivelling joint, fixed mounting has from driving wheel (309) on puddler (307), the top fixed mounting of another puddler (307) has action wheel (308), connect through belt (310) between action wheel (308) and follow driving wheel (309), wherein install on agitator motor (306) the output of a puddler (307), stirring wheel (311) are all installed to the bottom of two puddlers (307).

3. The mixing device for the concrete processing of the constructional engineering according to claim 1, wherein: the top fixed mounting of hoist and mount slider (302) has two objective tables (315), and the top of every objective table (315) is provided with circle lever arm (316), two fixed axle beds (313) are installed to the top of hoist and mount guide rail (301), two fixed axle bed (313) fixed mounting, bent axle (314) are installed to the centre of fixed axle bed (313), and the both sides of bent axle (314) all install and extend guide arm (317), and every one end and bent axle (314) that extend guide arm (317) are articulated, and the other end that extends guide arm (317) and the circle lever arm (316) that corresponds are articulated.

4. The mixing device for the concrete processing of the constructional engineering according to claim 3, wherein: one side of the square sleeve (304) and the bottom end of the object stage (315) are fixedly provided with first hinge blocks (305), and the two first hinge blocks (305) are connected through a pull rod (312).

5. The mixing device for the concrete processing of the constructional engineering according to claim 1, wherein: one side of agitator (2) is provided with power component (5), and power component (5) include power motor (501), and first gyro wheel (502) and second gyro wheel (503) are installed to the output of power motor (501), first gyro wheel (502) and second gyro wheel (503) fixed connection, speed reducing belt (504) are installed on the top of first gyro wheel (502), and the top of speed reducing belt (504) installs big rim plate (505), the end fixed connection of big rim plate (505) and bent axle (314).

6. The mixing device for the concrete processing of the constructional engineering according to claim 5, wherein: horizontal belt (506) is installed to one side of second gyro wheel (503), and driven gyro wheel (507) is installed to the one end of horizontal belt (506), pole (508) of buckling is installed to one side of driven gyro wheel (507), driven gyro wheel (507) and pole (508) swivelling joint of buckling, the side fixed connection of the bottom of pole (508) and operation panel (1) of buckling, one side fixed mounting of driven gyro wheel (507) has first bevel gear (509), and one side of first bevel gear (509) installs second bevel gear (510), and the top surface swivelling joint of round bar and operation panel (1) is passed through to the bottom of second bevel gear (510), reduction gear (511) is installed on the top of second bevel gear (510), and the outside of agitator (2) is provided with gear ring (203), reduction gear (511) and gear ring (203) intermeshing.

7. The mixing device for the concrete processing of the constructional engineering according to claim 1, wherein: a feeding assembly (4) is arranged on one side of the operating platform (1), the feeding assembly (4) comprises a fixed seat (401), a reinforcing rib (402) is arranged at the bottom end of the fixed seat (401), the top end of the fixed seat (401) is provided with a fixed pulley (403), the bottom end of the fixed seat (401) is fixedly provided with a lifting motor (404), and the take-up reel (405) is installed at the output end of the lifting motor (404), a vertical guide rail (407) is installed at one side of the fixed seat (401) far away from the lifting motor (404), a lifting slide block (408) is installed on the vertical guide rail (407), the lifting slide block (408) is connected with the vertical guide rail (407) in a sliding manner, one side of the lifting slide block (408) is fixedly provided with a lifting platform (409), a pull rope (406) is arranged on the take-up reel (405), the pull rope (406) bypasses the fixed pulley (403), and the end head of the pull rope (406) is fixedly connected with the top surface of the lifting platform (409).

8. The mixing device for the concrete processing of the constructional engineering according to claim 7, wherein: two removal axle bed (410) are installed to the top of elevating platform (409), and the centre of removing axle bed (410) installs rotatory workbin (411), rotatory workbin (411) and removal axle bed (410) swivelling joint, cylinder (412) are installed to one side of rotatory workbin (411), and the bottom and the output of cylinder (412) all install the articulated piece of second (413), the top surface fixed connection of the articulated piece of a second (413) and elevating platform (409), the lateral wall fixed connection of the articulated piece of another second (413) and rotatory workbin (411).