CN110053166B

CN110053166B - Efficient concrete mixing device for building

Info

Publication number: CN110053166B
Application number: CN201910450661.7A
Authority: CN
Inventors: 付清海
Original assignee: Zhejiang Lidi New Energy Co Ltd
Current assignee: Zhejiang Lidi new energy Co., Ltd
Priority date: 2019-05-28
Filing date: 2019-05-28
Publication date: 2020-07-28
Anticipated expiration: 2039-05-28
Also published as: CN110053166A

Abstract

The invention relates to the field of concrete mixing, in particular to a high-efficiency concrete mixing device for buildings, which comprises a mixing assembly, a transmission mechanism, a mixing angle adjusting mechanism, a bracket assembly and a travelling mechanism, wherein the mixing assembly can finish discharging and feeding by adjusting a mixing angle, the mixing efficiency is adjusted by adjusting a speed changing device, a solar mixing blade and a planetary mixing blade rotate, the planetary mixing blade is fixed by a planetary bracket and cannot revolve, a mixing shell and the solar mixing blade rotate in the same direction, the mixing uniformity can be improved, the mixing shell can be supported during operation and discharging, the stability of a mixer can be improved, 3 travelling conditions of only advancing and retreating, advancing and retreating and advancing and retreating can be selected, and the braking requirements of different environments can be met.

Description

Efficient concrete mixing device for building

Technical Field

The invention relates to the field of concrete stirring, in particular to a high-efficiency concrete stirring device for buildings.

Background

For example, patent No. CN201820035122.8 discloses a high-efficiency concrete mixer, which comprises: the support frame, set up in agitator on the support frame, set up stirring subassembly and the motor in the agitator, the agitator includes: the stirring barrel body is arranged close to one side of the supporting frame and is funnel-shaped and provided with a discharge hole; the vibrating piece is arranged near the discharge port on the stirring barrel body; and the mounting foot is arranged on the stirring barrel body, extends towards one end close to the support frame and is fixedly connected with the support frame. However, this has the disadvantage that the stirring chamber cannot be rotated, the number of stirring blades is small and the stirring angle cannot be adjusted.

Disclosure of Invention

The invention aims to provide an efficient concrete stirring device for buildings, which can finish unloading and loading by adjusting a stirring angle, adjust the stirring efficiency by adjusting a speed change device, rotate a stirring shell and a solar stirring blade in the same direction while rotating the solar stirring blade and a planetary stirring blade, and improve the stirring uniformity.

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

the utility model provides an efficient concrete mixing device for building, includes stirring assembly, drive mechanism, stirring angle guiding mechanism, support assembly and running gear, its characterized in that: the stirring assembly comprises a stirring shaft I, a stirring shaft II, a limiting sleeve, a gear shell, a pulley slide rail, a pulley fixing ring, a fixing ring connecting rod, a fixing ring groove, a pulley fixing plate, a pulley shaft, a pulley, a stirring shell, a stirring blade I and a stirring blade II, stirring leaf I and I fixed connection of (mixing) shaft, four stirring leaf II respectively with four II fixed connection of (mixing) shaft, (mixing) shaft I rotates with the tooth shell to be connected, two spacing sleeve pipes all with I fixed connection of (mixing) shaft, four (mixing) shaft II all rotate with the tooth shell to be connected, eight spacing sleeve pipes respectively with four II fixed connection of (mixing) shaft, tooth shell and stirring shell fixed connection, six pulleys all with pulley slide rail sliding connection, six pulleys respectively with retainer plate recess clearance fit, six pulleys rotate with six pulley shafts respectively to be connected, six pulley shafts respectively with six pairs of pulley fixed plate fixed connection.

The transmission mechanism comprises a gear I, a gear II, a bracket I, a gear III, a gear IV, a motor, a support plate, a motor bracket, a coupler I, a shaft I, a coupler II, a shaft II, a planetary gear, a sun gear, a planet carrier, a pull rod I, a cross rod, a slotted hole, a chute I, a pull rod II sleeve, a key, a chute II, a slide rail, a pull rod II limiting ring, a hanging pin I, a hanging pin II, a hanging rod hole I, a support lug, a pull rod II spring, a pull rod II shaft II, a hanging rod hole II, a bracket III, a bracket IV, a pull rod II slide rail and a planet carrier fixing bracket, wherein the motor is fixedly connected with the motor bracket, the motor bracket is fixedly connected with the support plate, the motor is in interference fit with the coupler I, the shaft I is in clearance fit with the coupler I, the bracket III is rotatably connected with the shaft I, the gear IV is fixedly connected with the, the support II is fixedly connected with the stirring shaft I, the support I is rotatably connected with the stirring shaft I, the gear I is fixedly connected with the stirring shaft I, the gear II is meshed with the gear I, the gear II is fixedly connected with the shaft II, the shaft coupler II is in interference fit with the shaft II, the shaft coupler II is in clearance fit with the shaft I, the support II and the support III are all fixedly connected with a support plate, the support IV is in sliding connection with a slide rail, a key is fixedly connected with a chute II, a cross rod is in sliding connection with the key, the cross rod is in clearance fit with a slotted hole, the pull rod I is fixedly connected with the cross rod, the pull rod I is in sliding connection with the chute I, the pull rod II sleeve is in clearance fit with the cross rod, the pull rod II sleeve is fixedly connected with the pull rod II, the pull rod II is fixedly connected with the hanging pin I and the hanging pin II, the hanging pin I is in clearance fit with the hanging rod hole II, the hanging pin II is rotatably connected with, two ends of a spring of the pull rod II are respectively in contact with the hanging rod and the support lug, the spring of the pull rod II is in a compression state, the support lug is fixedly connected with a shaft II of the pull rod II, the slide rail sliding connection of the pull rod II and the slide rail sliding connection II of the pull rod II, the limit ring fixed connection of the pull rod II and the pull rod II, the support lug is fixedly connected with the support plate, the stirring shaft I is fixedly connected with the sun gear, the sun gear is connected with four planetary gears in a meshing manner, the four planetary gears are connected with the gear shell in a meshing manner, the four planetary gears are in clearance fit with the planet carrier, the planet carrier is fixedly connected with the planet.

The stirring angle adjusting mechanism comprises a handle I, a lifting threaded rod, a bottom plate I, a support rod II, a screw rod fixing frame, a slide block slide rail, a slide block I connecting shaft, a support plate lug I, a support rod connecting shaft, a bottom plate II, a support plate lug II, a bottom plate II lug connecting shaft, a slide block I, a slide block II and a slide block II connecting shaft, wherein the handle I is fixedly connected with the lifting threaded rod, the upper thread of the lifting threaded rod is two single-thread threads with opposite rotation directions, the lifting threaded rod is in threaded connection with the slide block I, the slide block II and the screw rod fixing frame, the screw rod fixing frame is fixedly connected with the bottom plate I, the bottom plate I is fixedly connected with the bottom plate II, the slide block I and the slide block II are in sliding connection with the slide block slide rail, the slide block I connecting shaft is rotatably connected with the slide block I, the slide block I connecting, the supporting rod connecting shaft is connected with the supporting rod I and the supporting rod II in a rotating mode, the supporting rod connecting shaft is fixedly connected with the supporting plate lugs I, the supporting plate lug connecting shafts of the two bottom plates are fixedly connected with the supporting plate lugs II, the supporting plate lug connecting shafts of the two bottom plates are rotatably connected with the supporting plate lugs II, and the supporting plate lugs I and the supporting plate lugs II are fixedly connected with the supporting plate.

The support assembly comprises a handle II, a handle rotating shaft, a support shell, a left and right frame connecting rod shaft, a frame slide rail, a discharging frame positioning hole, a frame pull rod, a frame positioning pin, a stirring body supporting block, a switch connecting shaft, a switch slide rail, a slide sheet, a spring positioning column, a spring, a locking device shell, a lock wall, a lock rod, a gear limiting block, a gear V, a rack, an operation frame positioning hole, a support shell slide rail, a left support assembly and a right support assembly, wherein the handle II is fixedly connected with the handle rotating shaft, the handle rotating shaft is rotatably connected with the support shell, the handle rotating shaft is fixedly connected with the gear V, the gear V is meshed with the rack, the rack and the stirring body supporting block are both slidably connected with the support shell, the rack is, one end of a spring is contacted with a gear limiting block, the spring is in a compressed state, the gear limiting block is fixedly connected with a lock rod, the lock rod is connected with a lock wall in a sliding manner, a spring positioning column is fixedly connected with the lock wall, the lock wall is fixedly connected with a locking device shell, the locking device shell is fixedly connected with a bracket shell, a switch is fixedly connected with a switch connecting shaft, the switch connecting shaft is connected with a switch sliding rail in a sliding manner, the switch connecting shaft is fixedly connected with a sliding sheet, the sliding sheet is connected with a sliding sheet sliding rail in a sliding manner, a left bracket connecting rod shaft 4-5, a right bracket connecting rod shaft 4-5, a left bracket connecting rod shaft and a right bracket connecting rod are both rotatably connected, the left bracket connecting rod and the right bracket connecting rod are both connected with a rack sliding rail in a sliding manner, the rack positioning pin is in clearance fit with the unloading rack positioning hole and the operation rack positioning hole, and the rack positioning hole and the operation rack positioning hole are both arranged on the bottom plate II;

the stirring assembly is fixedly connected with the transmission mechanism, the stirring angle adjusting mechanism is hinged with the transmission mechanism, the support assembly is slidably connected with the stirring angle adjusting mechanism, and the travelling mechanism is fixedly connected with the stirring angle adjusting mechanism.

As a further optimization of the technical solution, the present invention provides an efficient concrete mixing device for buildings, which is characterized in that: the walking mechanism comprises a brake wheel fixing plate, a brake wheel connecting shaft, a brake wheel carrier, a wheel shaft, walking wheels, a brake regulating plate, a regulating plate connecting shaft, regulating plate lugs, a brake groove, ratchets, regulating plate holes, a hook limiting pin, a hook gear, a hook limiting hole, a hook hanging plate, a hook, a brake wheel and a hook bottom plate hole, the brake wheel connecting shaft is fixedly connected with the brake wheel carrier, the wheel shaft is fixedly connected with the brake wheel carrier, the pair of walking wheels are rotatably connected with the wheel shaft, the ratchets are fixedly connected with the pair of walking wheels, the ratchets are rotatably connected with the wheel shaft, the regulating plate connecting shaft is rotatably connected with the upper end of the brake regulating plate, the regulating plate connecting shaft is fixedly connected with the pair of regulating plate lugs, the lower end of the brake regulating plate is in clearance fit with the brake groove, the lower end of the hook is in, the spacing hole of couple is located the couple gear, couple spacer pin and the spacing hole clearance fit of couple, couple gear and couple link plate fixed connection, couple link plate and II fixed connections of bottom plate, braked wheel fixed plate and II fixed connections of bottom plate, braked wheel quantity is 4.

The efficient concrete stirring device for the building has the beneficial effects that:

the high-efficiency concrete stirring device for the building can adjust the stirring angle to finish unloading and loading, can adjust the speed change device to adjust the stirring efficiency, can support the stirring shell during operation and unloading, can improve the stability of the stirrer, can ensure that the stirring shell and the solar stirring blades rotate in the same direction while rotating, can improve the stirring uniformity, can select 3 walking conditions of only advancing and not retreating, advancing and retreating and not advancing and retreating, and meets the braking requirements of different environments.

Drawings

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

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a first schematic structural diagram of a stirring assembly according to the present invention;

FIG. 3 is a schematic structural diagram of a stirring assembly according to the present invention;

FIG. 4 is an enlarged partial schematic view of the stirring assembly of the present invention;

FIG. 5 is a schematic view of the transmission mechanism of the present invention;

FIG. 6 is a schematic view of the construction of the components of the transmission mechanism of the present invention;

FIG. 7 is a partially enlarged view of the transmission mechanism of the present invention;

FIG. 8 is a schematic view, partially in section, of the transmission mechanism of the present invention;

FIG. 9 is a schematic view of the drive mechanism component of the present invention;

FIG. 10 is a schematic view of the stirring angle adjusting mechanism of the present invention;

FIG. 11 is a schematic view of a stent assembly construction of the present invention;

FIG. 12 is a schematic view of a partial cross-sectional structure of a stent assembly of the present invention;

FIG. 13 is an enlarged partial schematic view of the stent assembly of the present invention;

FIG. 14 is a schematic view of the traveling mechanism of the present invention;

fig. 15 is a partially enlarged schematic view of the traveling mechanism of the present invention.

In the figure: a stirring assembly 1; a stirring shaft I1-1; a stirring shaft II 1-2; 1-3 of a limiting sleeve; 1-4 parts of a gear shell; 1-5 pulley slide rails; pulley fixing rings 1-6; a fixed ring connecting rod 1-7; 1-8 grooves of the fixing ring; pulley fixing plates 1-9; 1-10 pulley shafts; pulleys 1-11; 1-12 parts of a stirring shell; 1-13 parts of stirring blade I; 1-14 parts of stirring blades II; a transmission mechanism 2; a gear I2-1; a gear II 2-2; 2-3 of a bracket I; 2-4 of a gear wheel; 2-5 of a gear IV; 2-6 of a motor; 2-7 of a support plate; 2-8 parts of a motor bracket; 2-9 parts of a coupler I; 2-10 parts of a shaft I; 2-11 of a coupler; 2-12 of a shaft II; 2-13 of planetary gear; sun gears 2-14; 2-15 of planet carrier; 2-16 parts of a pull rod; 2-17 parts of cross bar; 2-18 of slotted holes; 2-19 parts of a chute I and 2-20 parts of a pull rod II sleeve; a bond 2-21; 2-22 of a chute; 2-23 of a slide rail; 2-24 of a pull rod; 2-25 parts of a pull rod II limiting ring; hanging pins I2-26; hanging pins II 2-27; 2-28 parts of a hanging rod; a hanging rod hole I2-29; 2-30 parts of a support lug; 2-31 of a pull rod II spring; a pull rod II, a shaft II 2-32; hanging rod holes II 2-33; 2-34 parts of a bracket II; 2-35 of a bracket III; 2-36 of a bracket IV; 2-37 slide rails of a pull rod II; the planet carrier fixed bracket 2-38; a stirring angle adjusting mechanism 3; the lifting device comprises a handle I3-1, a lifting threaded rod 3-2 and a bottom plate I3-3; 3-4 of a support rod; 3-5 of a support rod II; 3-6 of a screw rod fixing frame; 3-7 sliding blocks and sliding rails; the sliding block I is connected with the shaft 3-8; support plate lugs I3-9; the support rod is connected with the shaft 3-10; 3-11 parts of a bottom plate; support plate lugs II 3-12; 3-13 lugs of a bottom plate II; a lug connecting shaft 3-14 of the base plate II; 3-15 parts of a sliding block I; 3-16 of a sliding block II; the sliding block II is connected with the shafts 3-17; a bracket assembly 4; a handle II 4-1; a handle rotating shaft 4-2; 4-3 of a bracket shell; a left frame connecting rod and a right frame connecting rod 4-4; the left and right frame connecting rod shafts are 4-5; 4-6 of a rack sliding rail; 4-7 of a positioning hole of the unloading frame; 4-8 of a rack pull rod; 4-9 of a frame positioning pin; 4-10 parts of stirring body supporting block; switches 4-11; a switch connecting shaft 4-12 and a switch sliding rail 4-13; sliding vane sliding rails 4-14; 4-15 parts of a slip sheet; 4-16 parts of spring positioning columns; 4-17 of a spring; locking device housings 4-18; lock walls 4-19; 4-20 parts of lock rod; 4-21 parts of gear limiting blocks; gear V4-22; racks 4-23; positioning holes 4-24 of the operation frame; 4-25 rack shell slide rails; a left support assembly 4-26; a right bracket assembly 4-27; a traveling mechanism 5; a brake wheel fixing plate 5-1; a brake wheel connecting shaft 5-2; 5-3 of a brake wheel frame; 5-4 parts of a wheel shaft; 5-5 of a traveling wheel; 5-6 parts of a brake control plate; connecting shafts of the regulating plate 5-7; 5-8 of a control plate support lug; 5-9 parts of brake groove; 5-10 parts of ratchet; 5-11 of a regulation plate hole; 5-12 parts of hook limiting pin; the hook gears are 5-13; 5-14 parts of hook limiting hole; 5-15 parts of a hook hanging plate; 5-16 parts of a hook; 5-17 parts of brake wheel; hook bottom plate holes 5-18.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the embodiment will be described below with reference to fig. 1 to 15, which is an efficient concrete mixing device for buildings, the efficient concrete mixing device for buildings includes a mixing assembly 1, a transmission mechanism 2, a mixing angle adjusting mechanism 3, a bracket assembly 4 and a traveling mechanism 5, and is characterized in that: the stirring assembly 1 comprises a stirring shaft I1-1, a stirring shaft II 1-2, limiting sleeves 1-3, a gear shell 1-4, pulley slide rails 1-5, pulley fixing rings 1-6, fixing ring connecting rods 1-7, fixing ring grooves 1-8, pulley fixing plates 1-9, pulley shafts 1-10, pulleys 1-11, a stirring shell 1-12, stirring blades I1-13 and stirring blades II 1-14, wherein the stirring blades I1-13 are fixedly connected with the stirring shaft I1-1, the four stirring blades II 1-14 are respectively and fixedly connected with the four stirring shafts II 1-2, the stirring shaft I1-1 is rotatably connected with the gear shell 1-4, and the two limiting sleeves 1-3 are fixedly connected with the stirring shaft I1-1, four stirring shafts II 1-2 are rotatably connected with gear shells 1-4, eight limiting sleeves 1-3 are respectively fixedly connected with the four stirring shafts II 1-2, the gear shells 1-4 are fixedly connected with stirring shells 1-12, six pulleys 1-11 are respectively slidably connected with pulley slide rails 1-5, the six pulleys 1-11 are respectively in clearance fit with fixing ring grooves 1-8, the six pulleys 1-11 are respectively rotatably connected with six pulley shafts 1-10, and the six pulley shafts 1-10 are respectively fixedly connected with six pairs of pulley fixing plates 1-9. The stirring blades I1-13, the four stirring blades II 1-14 and the stirring shell rotate simultaneously, so that the stirring uniformity and the stirring efficiency are improved;

the transmission mechanism 2 comprises a gear I2-1, a gear II 2-2, a bracket I2-3, a gear III 2-4, a gear IV 2-5, a motor 2-6, a support plate 2-7, a motor bracket 2-8, a coupling I2-9, a shaft I2-10, a coupling II 2-11, a shaft II 2-12, a planetary gear 2-13, a sun gear 2-14, a planet carrier 2-15, a pull rod I2-16, a cross rod 2-17, a slotted hole 2-18, a chute I2-19, a pull rod II sleeve 2-20, a key 2-21, a chute II 2-22, a slide rail 2-23, a pull rod II 2-24, a pull rod II limiting ring 2-25, a hanging pin I2-26, a hanging pin II 2-27, a hanging rod 2-28, The suspension rod hole I2-29, the support lug 2-30, the pull rod II spring 2-31, the pull rod II shaft II 2-32, the suspension rod hole II 2-33, the support II 2-34, the support III 2-35, the support IV 2-36, the pull rod II slide rail 2-37 and the planet carrier fixing support 2-38, the motor 2-6 is fixedly connected with the motor support 2-8, the motor support 2-8 is fixedly connected with the support plate 2-7, the motor 2-6 is in interference fit with the coupling I2-9, the shaft I2-10 is in clearance fit with the coupling I2-9, the support III 2-35 is rotatably connected with the shaft I2-10, the gear IV 2-5 is fixedly connected with the shaft I2-10, the gear IV 2-5 is in meshing connection with the gear III 2-4, the gear III 2-4 is fixedly connected with the stirring shaft I1-1, the bracket II 2-34 is fixedly connected with the stirring shaft I1-1, the bracket I2-3 is rotatably connected with the stirring shaft I1-1, the gear I2-1 is fixedly connected with the stirring shaft I1-1, the gear II 2-2 is meshed with the gear I2-1, the gear II 2-2 is fixedly connected with the shaft II 2-12, the coupler II 2-11 is in interference fit with the shaft II 2-12, the coupler II 2-11 is in clearance fit with the shaft I2-10, the bracket I2-3, the bracket II 2-34 and the bracket III 2-35 are all fixedly connected with the support plate 2-7, the bracket IV 2-36 is slidably connected with the slide rail 2-23, the key 2-21 is fixedly connected with the slide groove II 2-22, and the cross rod 2-17 is slidably connected with the key 2-21, the cross bars 2-17 are in clearance fit with the groove holes 2-18, the pull rods I2-16 are fixedly connected with the cross bars 2-17, the pull rods I2-16 are slidably connected with the sliding grooves I2-19, the pull rod II sleeves 2-20 are in clearance fit with the cross bars 2-17, the pull rod II sleeves 2-20 are fixedly connected with the pull rods II 2-24, the pull rods II 2-24 are fixedly connected with the hanging pins I2-26 and the hanging pins II 2-27, the hanging pins I2-26 are fixedly connected with the hanging rod holes II 2-33, the hanging pins II 2-27 are in clearance fit with the hanging rod holes I2-29, the hanging rods 2-28 are rotatably connected with the pull rod II shafts II 2-32, the pull rod II springs 2-31 are sleeved on the pull rod II shafts II 2-32, and two ends of the pull rod II springs 2-31 are respectively in clearance fit with the hanging rods 2-28, The support lugs 2-30 are contacted, the pull rod II spring 2-31 is in a compressed state, the support lugs 2-30 are fixedly connected with the pull rod II shaft II 2-32, the pull rod II 2-24 is in sliding connection with the pull rod II slide rail 2-37, the pull rod II 2-24 is fixedly connected with the pull rod II spacing ring 2-25, the support lugs 2-30 are fixedly connected with the support plate 2-7, the stirring shaft I1-1 is fixedly connected with the sun gear 2-14, the sun gear 2-14 is in meshing connection with the four planet gears 2-13, the four planet gears 2-13 are in meshing connection with the gear shell 1-4, the four planet gears 2-13 are in clearance fit with the planet carrier 2-15, the planet carrier 2-15 is fixedly connected with the planet carrier fixing support 2-38, the planet carrier fixing support 2-38 is fixedly connected with the support plate 2-7, the pull rods I2-16 are pulled, the adjusting shafts I2-10 are disconnected with the couplers I2-9 of the motors 2-6 and the couplers II 2-11 of the couplers II 2-11, so that the stirring work is accelerated, not accelerated and stopped, and the stirring efficiency can be adjusted;

the stirring angle adjusting mechanism 3 comprises a handle I3-1, a lifting threaded rod 3-2, a bottom plate I3-3, a support rod I3-4, a support rod II 3-5, a screw rod fixing frame 3-6, a slider sliding rail 3-7, a slider I connecting shaft 3-8, a support plate lug I3-9, a support rod connecting shaft 3-10, a bottom plate II 3-11, a support plate lug II 3-12, a bottom plate II lug 3-13, a bottom plate II lug connecting shaft 3-14, a slider I3-15, a slider II 3-16 and a slider II connecting shaft 3-17, wherein the handle I3-1 is fixedly connected with the lifting threaded rod 3-2, the lifting threaded rod 3-2 is provided with two single threads with opposite rotation directions, and the lifting threaded rod 3-2 and the slider I3-15, The sliding blocks II 3-16 and the screw rod fixing frames 3-6 are in threaded connection, the screw rod fixing frames 3-6 are fixedly connected with a bottom plate I3-3, the bottom plate I3-3 is fixedly connected with a bottom plate II 3-11, the sliding blocks I3-15 and the sliding blocks II 3-16 are in sliding connection with sliding block sliding rails 3-7, connecting shafts 3-8 of the sliding blocks I are rotatably connected with the sliding blocks I3-15, connecting shafts 3-8 of the sliding blocks I are fixedly connected with supporting rods I3-4, connecting shafts 3-17 of the sliding blocks II are rotatably connected with the sliding blocks II 3-16, connecting shafts 3-17 of the sliding blocks II are fixedly connected with the supporting rods II 3-5, connecting shafts 3-10 of the supporting rods are rotatably connected with the supporting rods I3-4 and the supporting rods II 3-5, the supporting rods 3-10 of the supporting rods are, two connecting shafts 3-14 of the supporting lugs of the second bottom plate II are respectively and fixedly connected with two pairs of supporting lugs II 3-12, two connecting shafts 3-14 of the supporting lugs of the second bottom plate II are respectively and rotatably connected with two supporting lugs 3-13 of the second bottom plate II, a pair of supporting lugs I3-9 and two pairs of supporting lugs II 3-12 are respectively and fixedly connected with supporting plates 2-7, a handle I3-1 is rotated clockwise, the lower ends of a supporting rod I3-4 and a supporting rod II 3-5 move towards the two ends of a lifting threaded rod 3-2, the upper ends of the supporting rod I3-4 and the supporting rod II 3-5 drive the hinged supporting lugs I3-9 to move downwards, the right ends of the supporting plates 2-7 move downwards around the connecting shafts 3-14 of the supporting lugs of the second bottom plate II at the left end under the downward acting force of the supporting lugs I3-9, the angles of the supporting, the stirring assembly 1 and the transmission mechanism 2 on the support plate 2-7 change in angle to a feeding state, the handle I3-1 is rotated anticlockwise, and the stirring assembly 1 and the transmission mechanism 2 on the support plate 2-7 change in angle to a discharging state, so that the stirring angle can be adjusted to finish discharging and feeding;

the support assembly 4 comprises a handle II 4-1, a handle rotating shaft 4-2, a support shell 4-3, a left and right frame connecting rod 4-4, a left and right frame connecting rod shaft 4-5, a frame slide rail 4-6, a discharging frame positioning hole 4-7, a frame pull rod 4-8, a frame positioning pin 4-9, a stirring body supporting block 4-10, a switch 4-11, a switch connecting shaft 4-12, a switch slide rail 4-13, a slide rail 4-14, a slide 4-15, a spring positioning column 4-16, a spring 4-17, a locking device shell 4-18, a lock wall 4-19, a lock rod 4-20, a gear limiting block 4-21, a gear V4-22, a rack 4-23, an operation frame positioning hole 4-24, a positioning pin, A support shell slide rail 4-25, a left support assembly 4-26 and a right support assembly 4-27, a handle II 4-1 is fixedly connected with a handle rotating shaft 4-2, the handle rotating shaft 4-2 is rotatably connected with the support shell 4-3, the handle rotating shaft 4-2 is fixedly connected with a gear V4-22, the gear V4-22 is engaged with a rack 4-23, the rack 4-23 and a stirring body supporting block 4-10 are both slidably connected with the support shell 4-3, the rack 4-23 is fixedly connected with a stirring body supporting block 4-10, a spring 4-17 is sleeved on a spring positioning column 4-16, one end of the spring 4-17 is contacted with a gear limiting block 4-21, the spring 4-17 is in a compressed state, the gear limiting block 4-21 is fixedly connected with a lock rod 4-20, a lock rod 4-20 is connected with a lock wall 4-19 in a sliding way, a spring positioning column 4-16 is fixedly connected with the lock wall 4-19, the lock wall 4-19 is fixedly connected with a locking device shell 4-18, the locking device shell 4-18 is fixedly connected with a bracket shell 4-3, a switch 4-11 is fixedly connected with a switch connecting shaft 4-12, the switch connecting shaft 4-12 is connected with a switch slide rail 4-13 in a sliding way, the switch connecting shaft 4-12 is fixedly connected with a slide sheet 4-15, the slide sheet 4-15 is connected with a slide sheet slide rail 4-14 in a sliding way, a left frame connecting rod shaft 4-5, a left bracket assembly 4-26 and a right bracket assembly 4-27 are connected in a rotating way, a left frame connecting rod shaft 4-5 and a right frame connecting rod 4-4 are fixedly connected, the left support assembly 4-26 and the right support assembly 4-27 are both connected with a rack sliding rail 4-6 in a sliding manner, a rack pull rod 4-8 is fixedly connected with a left rack connecting rod 4-4 and a right rack connecting rod 4-4, the rack pull rod 4-8 is fixedly connected with a rack positioning pin 4-9, the rack positioning pin 4-9 is in clearance fit with a discharging rack positioning hole 4-7 and an operation rack positioning hole 4-24, the rack positioning hole 4-7 and the operation rack positioning hole 4-24 are both arranged on a bottom plate II 3-11, a rotating handle II 4-1 is rotated, a stirring body supporting block 4-10 slides in the vertical direction, the rack pull rod 4-8, the left support assembly 4-26 and the right support assembly 4-27 slide in the horizontal direction, the rack positioning pin 4-9 is inserted into the discharging rack positioning hole 4-7 or the operation rack positioning hole 4-24, the stirring shell can be supported during operation and unloading.

Stirring

assembly

1 and 2 fixed connection of drive mechanism, stirring angle guiding mechanism 3 is articulated with drive mechanism 2,

support assembly

4 and 3 sliding connection of stirring angle guiding mechanism, running

gear

5 and 3 fixed connection of stirring angle guiding mechanism.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-15, and the embodiment further describes the first embodiment, wherein the traveling mechanism 5 comprises a brake wheel fixing plate 5-1, a brake wheel connecting shaft 5-2, a brake wheel carrier 5-3, a wheel shaft 5-4, a traveling wheel 5-5, a brake regulating plate 5-6, a regulating plate connecting shaft 5-7, a regulating plate support lug 5-8, a brake groove 5-9, a ratchet 5-10, a regulating plate hole 5-11, a hook limit pin 5-12, a hook gear 5-13, a hook limit hole 5-14, a hook hanging plate 5-15, a hook 5-16, a brake wheel 5-17 and a hook bottom plate hole 5-18, the brake wheel connecting shaft 5-2 is fixedly connected with the brake wheel carrier 5-3, and the wheel shaft 5-4 is fixedly connected with the brake wheel carrier 5-3, a pair of traveling wheels 5-5 is rotatably connected with a wheel shaft 5-4, ratchets 5-10 are fixedly connected with the pair of traveling wheels 5-5, the ratchets 5-10 are rotatably connected with the wheel shaft 5-4, a regulating plate connecting shaft 5-7 is rotatably connected with the upper end of a brake regulating plate 5-6, the regulating plate connecting shaft 5-7 is fixedly connected with a pair of regulating plate lugs 5-8, the lower end of the brake regulating plate 5-6 is in clearance fit with a brake groove 5-9, the lower end of a hook 5-16 is in clearance fit with a regulating plate hole 5-11, the middle end of the hook 5-16 is in clearance fit with a hook bottom plate hole 5-18, the upper end of the hook 5-16 is hooked with a hook gear 5-13, a hook limiting hole 5-14 is positioned on the hook gear 5-13, a hook limiting pin 5-12 is, the hook gears 5-13 are fixedly connected with the hook hanging plates 5-15, the hook hanging plates 5-15 are fixedly connected with the bottom plate II 3-11, the brake wheel fixing plate 5-1 is fixedly connected with the bottom plate II 3-11, the number of the brake wheels 5-17 is 4, the connection relation between the lower end of the brake regulating plate 5-6 and the walking wheels 5-5 is regulated and controlled by regulating the hook gear 5-16, 3 walking conditions that the walking wheels 5-5 can only move forwards and can not move backwards, can move forwards and can not move backwards are realized, and the braking requirements of different environments are met.

The invention discloses an effective concrete stirring device for buildings, which has the working principle that: rotating a handle I3-1, clockwise rotating a lifting threaded rod 3-2, moving a slide block I3-15 and a slide block II 3-16 on the lifting threaded rod 3-2 to two ends of the lifting threaded rod 3-2 under the action of threads with opposite rotation directions to drive a support rod I3-4 hinged with the slide block I3-15 and the slide block II 3-16 and the lower end of a support rod II 3-5 to move to two ends of the lifting threaded rod 3-2, hinging the upper ends of the support rod I3-4 and the support rod II 3-5 with a support plate support lug I3-9 through a support rod connecting shaft 3-10, fixedly connecting the support plate support lug I3-9 with the right end of the support plate 2-7, fixedly connecting the support plate support lug II 3-12 with the left end of the support plate 2-7, hinging a bottom plate II support lug 3-13 with the support plate support lug II 3-12 through a bottom plate II, the support plate 2-7 is fixedly connected with the stirring assembly 1 and the transmission mechanism 2, when the lower ends of the support rod I3-4 and the support rod II 3-5 move to the two ends of the lifting threaded rod 3-2, the upper ends of the support rod I3-4 and the support rod II 3-5 drive the hinged support plate support lug I3-9 to move downwards, the right end of the support plate 2-7 moves downwards around a connecting shaft 3-14 of the support lug II of the bottom plate at the left end under the downward acting force of the support plate support lug I3-9, the angle between the support plate 2-7 and the bottom plate II 3-11 is reduced, the angle between the stirring assembly 1 on the support plate 2-7 and the transmission mechanism 2 is changed into a feeding state, the lifting threaded rod 3-2 is rotated anticlockwise, the slide block I3-15 on the lifting threaded rod 3-2 and the slide block II 3-16 move towards the inner side of the lifting threaded rod 3-, the lower ends of a support rod I3-4 and a support rod II 3-5 which are hinged with a sliding block I3-15 and a sliding block II 3-16 are driven to move towards the inner side of a lifting threaded rod 3-2, the upper ends of the support rod I3-4 and the support rod II 3-5 drive a support plate support lug I3-9 which is hinged to the support rod to move upwards, the right end of a support plate 2-7 moves upwards around a connecting shaft 3-14 of the support plate II support lug at the left end under the upward acting force of the support plate support lug I3-9, the angle between the support plate 2-7 and a bottom plate II 3-11 is increased, and the angle between a stirring assembly 1 on the support plate 2-7 and; the handle II 4-1 is fixedly connected with the handle rotating shaft 4-2, the handle rotating shaft 4-2 is fixedly connected with the gear V4-22, the handle II 4-1 is rotated anticlockwise, the gear V4-22 rotates, the teeth of the gear V4-22 are contacted with the inclined surface of the gear limiting block 4-21, the gear limiting block 4-21 moves backwards, the lock rod 4-20 fixedly connected with the gear limiting block 4-21 slides backwards on the lock wall 4-19, the spring 4-17 contacted with the gear limiting block 4-21 is further compressed, the contact point of the gear limiting block 4-21 and the gear V4-22 rotates over the tooth top, the gear limiting block 4-21 rebounds, the rack 4-23 engaged with the gear V4-22 moves upwards to drive the stirring body supporting block 4-10 fixedly connected with the rack 4-23 to slide on the bracket shell sliding rail 4-25, the rack 4-23 can not slide down because the gear limiting block 4-21 clamps the gear V4-22 at the plane end, the switch 4-11 is pushed, the switch connecting shaft 4-12 drives the sliding sheet 4-15 to slide down in the sliding sheet sliding rail 4-14, the sliding sheet 4-15 is contacted with the gear limiting block 4-21 inclined plane, the gear limiting block 4-21 moves backwards, the sliding sheet 4-15 prevents the gear limiting block 4-21 from limiting the clockwise rotation of the gear V4-22, the rack 4-23 can slide down, the stirring body supporting block 4-10 is driven to move downwards, simultaneously under the resilience of the spring 4-17, the top end of the gear limiting block 4-21 is propped against the sliding sheet 4-15, the sliding sheet 4-15 can not slide, the switch 4-11 is pushed back, the sliding sheet 4-15 slides back, the gear limiting block 4-21 resets, the stirring body supporting block 4-10 can not move downwards, the left support assembly 4-26 and the right support assembly 4-27 have the same structure, the two ends of the left and right frame connecting rods 4-4 are respectively connected with the left support assembly 4-26 and the right support assembly 4-27, the frame pulling pull rod 4-8, the left support assembly 4-26 and the right support assembly 4-27 slide in the frame sliding rails 4-6, the frame positioning pin 4-9 is inserted into the discharging frame positioning hole 4-7, the position of the stirring body supporting block 4-10 is adjusted, the frame can support the stirring body when the stirring body is discharged, the frame pull rod 4-8 is pulled, the frame positioning pin 4-9 is inserted into the operation frame positioning hole 4-24, the 4-10 positions of the stirring body supporting blocks are adjusted, and the rack can support the stirring body during stirring operation of the stirring body; when the pull rod I2-16 is in a first gear of the sliding groove I2-19, the cross rod 2-17 of the pull rod I2-16 is sleeved with the pull rod II sleeve 2-20 of the pull rod II 2-24, the hanging rod 2-28 is detached from the hanging pin I2-26, the pull rod II 2-24 is pulled backwards, the cross rod 2-17 slides from the front end to the rear end of the sliding groove II 2-22 on the key 2-21 of the sliding groove II 2-22 to drive the pull rod I2-16 to slide from the front end to the rear end of the first gear of the sliding groove I2-19, the hanging rod 2-28 is hung on the hanging pin II 2-27, the pull rod II spring 2-31 is sleeved on the pull rod II shaft II 2-32, two ends of the pull rod II spring 2-31 are respectively contacted with the hanging rod 2-28 and the support lug 2-30, the pull rod II spring 2-31 is in a compressed state, the hanging rod 2-28 is limited on a hanging pin I2-26 or a hanging pin II 2-27, the pull rod I2-16 is limited on a first gear of a sliding groove I2-19, the motor 2-6 outputs power, the shaft I2-10 is driven to rotate through the coupler I2-9, the gear IV 2-5 is fixedly connected with the shaft I2-10, the shaft I2-10 drives the gear IV 2-5 to rotate, the gear IV 2-5 is in meshed transmission with the gear III 2-4, the gear IV 2-5 is more in gear ratio than the gear III 2-4, an accelerating effect is formed, the stirring shaft I1-1 is driven to run in an accelerating mode relative to the rotating speed of the motor 2-6, the stirring shaft I1-1 is fixedly connected with a sun gear 2-14, and the sun gear 2-14 is in meshed transmission with four planet gears 2-13, the number of teeth of the sun gears 2-14 is the same as that of the four planet gears 2-13, the four planet gears 2-13 are respectively fixedly connected with the four stirring shafts II 1-2, the rotating speed 1:1 of the stirring shaft I1-1 is transmitted to the stirring shaft II 1-2, the planet carrier 2-15 is in clearance fit with the four stirring shafts II 1-2, the stirring blades I1-13 are fixedly connected with the stirring shaft I1-1, the stirring blades II 1-14 are fixedly connected with the stirring shaft II 1-2, the planet carrier 2-15 is fixedly connected with the planet carrier fixing bracket 2-38, the planet carrier fixing bracket 2-38 is fixedly connected with the support plate 2-7, under the fixing action of the planet carrier 2-15, the four planet gears 2-13 can not revolve around the sun gears 2-14, the four planet gears 2-13 can only revolve in the opposite direction to the sun gears 2-14, the four planetary gears 2-13 transmit power to the gear housings 1-4, the gear housings 1-4 are fixedly connected with the stirring shells 1-12, the stirring shells 1-12 start to rotate in the same rotating direction as the sun gears 2-14, stirring operation starts, the stirring blades I1-13 and the stirring blades II 1-14 rotate in opposite rotating directions, the stirring shells 1-12 and the stirring blades I1-13 stir in the same rotating direction, the pull rods I2-16 are reset, when the pull rods I2-16 are located at a second gear of the sliding chutes I2-19, the hanging rods 2-28 are detached from the hanging pins I2-26, the pull rods II 2-24 are pulled backwards, the cross rods 2-17 slide from the front ends to the rear ends of the sliding chutes II 2-22 on the keys 2-21 of the sliding chutes II 2-22 to drive the pull rods I2-16 to slide from the front ends to the rear ends of the second gear of the sliding chutes I2-19, the hanging rod 2-28 is hung on the hanging pin II 2-27, the pull rod I2-16 is limited on the second gear of the sliding groove I2-19 at the moment, the support III 2-35 slides forwards to drive the shaft I2-10 to slide forwards to be connected with the shaft II 2-12 through the coupler II 2-11, the shaft I2-10 slides forwards to drive the gear IV 2-5 to slide forwards, the gear IV 2-5 is disconnected with the gear III 2-4, the motor 2-6 outputs power to the shaft I2-10, the shaft I2-10 rotates to drive the shaft II 2-12 to rotate through the coupler II 2-11, the gear II 2-2 on the shaft II 2-12 is meshed with the gear I2-1 on the stirring shaft I1-1 for transmission, the gear I2-1 has the same tooth number as the gear II 2-2, the rotation speed of the stirring shaft I1-1 transmitted by the shaft II 2-12 is unchanged, the stirring shaft I1-1 is driven to rotate, then the stirring shaft I1-1 transmits power to the planetary gear 2-13, the principle of the stirring shell 1-12 is the same as that of the pull rod I2-16 in the first gear, the pull rod I2-16 is reset, when the pull rod I2-16 is in the third gear of the sliding chute I2-19, the hanging rod 2-28 is detached from the hanging pin I2-26, the pull rod II 2-24 is pulled backwards, the cross rod 2-17 slides from the front end to the rear end of the sliding chute II 2-22 on the key 2-21 of the sliding chute II 2-22, the pull rod I2-16 is driven to slide from the front end to the rear end of the third gear of the sliding chute I2-19, the hanging rod 2-28 is hung on the hanging pin II 2-27, at the moment, the pull rod I2-16 is limited at the third gear of the sliding groove I2-19, the support III 2-35 slides forwards to drive the shaft I2-10 to slide forwards and then is disconnected with the shaft coupler I2-9, the motor 2-6 cannot output power to the shaft I2-10, stirring power is cut off, and the stirrer stops running; pulling up a hook limiting pin 5-12, hanging a hook 5-16 at a first gear of a hook gear 5-13, inserting the hook limiting pin 5-12 into a hook limiting hole 5-14, lifting the hook 5-16 through a regulating plate hole 5-11 to lift a brake regulating plate 5-6, enabling the brake regulating plate 5-6 not to interfere with a traveling wheel 5-5, enabling the traveling wheel 5-5 to advance or retreat, pulling up the hook limiting pin 5-12, hanging the hook 5-16 at a second gear of the hook gear 5-13, inserting the hook limiting pin 5-12 into the hook limiting hole 5-14, enabling the traveling wheel 5-5 to advance, enabling the lower end of the brake regulating plate 5-6 to slide on a ratchet 5-10 curved surface, enabling the traveling wheel to normally advance, enabling the traveling wheel 5-5 to retreat, enabling the lower end of the brake regulating plate 5-6 to be in plane contact with the ratchet 5-, the traveling wheel can not move backwards, the hook limiting pin 5-12 is pulled up, the hook 5-16 is hung at the third gear of the hook gear 5-13, the hook limiting pin 5-12 is inserted into the hook limiting hole 5-14, the lower end of the brake regulating plate 5-6 is inserted into the brake groove 5-9, and the traveling wheel can not move forwards and can not move backwards.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides an efficient concrete mixing device for building, includes stirring assembly (1), drive mechanism (2), stirring angle guiding mechanism (3), support assembly (4) and running gear (5), its characterized in that: the stirring assembly (1) comprises a stirring shaft I (1-1), a stirring shaft II (1-2), a limiting sleeve (1-3), a tooth shell (1-4), a pulley slide rail (1-5), a pulley fixing ring (1-6), a fixing ring connecting rod (1-7), a fixing ring groove (1-8), a pulley fixing plate (1-9), a pulley shaft (1-10), a pulley (1-11), a stirring shell (1-12), stirring blades I (1-13) and stirring blades II (1-14), wherein the stirring blades I (1-13) are fixedly connected with the stirring shaft I (1-1), the four stirring blades II (1-14) are respectively and fixedly connected with the four stirring shafts II (1-2), the stirring shaft I (1-1) is rotatably connected with the tooth shell (1-4), two limiting sleeves (1-3) are fixedly connected with a stirring shaft I (1-1), four stirring shafts II (1-2) are rotatably connected with gear shells (1-4), eight limiting sleeves (1-3) are respectively fixedly connected with the four stirring shafts II (1-2), the gear shells (1-4) are fixedly connected with stirring shells (1-12), six pulleys (1-11) are respectively connected with pulley sliding rails (1-5) in a sliding manner, the six pulleys (1-11) are respectively in clearance fit with fixed ring grooves (1-8), the six pulleys (1-11) are respectively rotatably connected with six pulley shafts (1-10), and the six pulley shafts (1-10) are respectively fixedly connected with six pairs of pulley fixing plates (1-9);

the transmission mechanism (2) comprises a gear I (2-1), a gear II (2-2), a support I (2-3), a gear III (2-4), a gear IV (2-5), a motor (2-6), a support plate (2-7), a motor support (2-8), a coupler I (2-9), a shaft I (2-10), a coupler II (2-11), a shaft II (2-12), a planetary gear (2-13), a sun gear (2-14), a planet carrier (2-15), a pull rod I (2-16), a cross rod (2-17), a slotted hole (2-18), a sliding groove I (2-19), a pull rod II sleeve (2-20), a key (2-21), a sliding groove II (2-22), a sliding rail (2-23), A pull rod II (2-24), a pull rod II limiting ring (2-25), a hanging pin I (2-26), a hanging pin II (2-27), a hanging rod (2-28), a hanging rod hole I (2-29), a support lug (2-30), a pull rod II spring (2-31), a pull rod II shaft II (2-32), a hanging rod hole II (2-33), a support II (2-34), a support III (2-35), a support IV (2-36), a pull rod II sliding rail (2-37) and a planet carrier fixing support (2-38), wherein a motor (2-6) is fixedly connected with a motor support (2-8), a motor support (2-8) is fixedly connected with a support plate (2-7), a motor (2-6) is in interference fit with a coupling I (2-9), a shaft I (2-10) is in clearance fit with the coupling I (2-9), the support III (2-35) is rotatably connected with the shaft I (2-10), the gear IV (2-5) is fixedly connected with the shaft I (2-10), the gear IV (2-5) is meshed with the gear III (2-4), the gear III (2-4) is fixedly connected with the stirring shaft I (1-1), the support II (2-34) is fixedly connected with the stirring shaft I (1-1), the support I (2-3) is rotatably connected with the stirring shaft I (1-1), the gear I (2-1) is fixedly connected with the stirring shaft I (1-1), the gear II (2-2) is meshed with the gear I (2-1), the gear II (2-2) is fixedly connected with the shaft II (2-12), and the coupler II (2-11) is in interference fit with the shaft II (2-12), the coupler II (2-11) is in clearance fit with the shaft I (2-10), the support I (2-3), the support II (2-34) and the support III (2-35) are fixedly connected with the support plate (2-7), the support IV (2-36) is in sliding connection with the sliding rail (2-23), the key (2-21) is fixedly connected with the sliding groove II (2-22), the cross rod (2-17) is in sliding connection with the key (2-21), the cross rod (2-17) is in clearance fit with the slotted hole (2-18), the pull rod I (2-16) is fixedly connected with the cross rod (2-17), the pull rod I (2-16) is in sliding connection with the sliding groove I (2-19), the pull rod II sleeve (2-20) is in clearance fit with the cross rod (2-17), the pull rod II sleeve (2-20) is fixedly connected with the pull rod II (2-24), the pull rod II (2-24) is fixedly connected with the hanging pin I (2-26) and the hanging pin II (2-27), the hanging pin I (2-26) is in clearance fit with the hanging rod hole II (2-33) and the hanging pin II (2-27) is in clearance fit with the hanging rod hole I (2-29), the hanging rod (2-28) is rotatably connected with the pull rod II shaft II (2-32), the pull rod II spring (2-31) is sleeved on the pull rod II shaft II (2-32), two ends of the pull rod II spring (2-31) are respectively contacted with the hanging rod (2-28) and the support lug (2-30), the pull rod II spring (2-31) is in a compressed state, the support lug (2-30) is fixedly connected with the pull rod II shaft II (2-32), the pull rod II (2-24) is in sliding connection with the pull rod II sliding rail (2-37), the pull rod II (2-24) is fixedly connected with a pull rod II limiting ring (2-25), the support lug (2-30) is fixedly connected with the support plate (2-7), the stirring shaft I (1-1) is fixedly connected with the sun gear (2-14), the sun gear (2-14) is in meshed connection with four planetary gears (2-13), the four planetary gears (2-13) are in meshed connection with the gear shell (1-4), the four planetary gears (2-13) are in clearance fit with the planetary carrier (2-15), the planetary carrier (2-15) is fixedly connected with the planetary carrier fixed support (2-38), and the planetary carrier fixed support (2-38) is fixedly connected with the support plate (2-7);

the stirring angle adjusting mechanism (3) comprises a handle I (3-1), a lifting threaded rod (3-2), a bottom plate I (3-3), a support rod I (3-4), a support rod II (3-5), a screw fixing frame (3-6), a slider sliding rail (3-7), a slider I connecting shaft (3-8), a support plate lug I (3-9), a support rod connecting shaft (3-10), a bottom plate II (3-11), a support plate lug II (3-12), a bottom plate II lug (3-13), a bottom plate II lug connecting shaft (3-14), a slider I (3-15), a slider II (3-16) and a slider II connecting shaft (3-17), wherein the handle I (3-1) is fixedly connected with the lifting threaded rod (3-2), the upper thread of the lifting threaded rod (3-2) is two single-thread threads with opposite rotation directions, the lifting threaded rod (3-2) is in threaded connection with the sliding block I (3-15), the sliding block II (3-16) and the screw rod fixing frame (3-6), the screw rod fixing frame (3-6) is fixedly connected with the bottom plate I (3-3), the bottom plate I (3-3) is fixedly connected with the bottom plate II (3-11), the sliding block I (3-15) and the sliding block II (3-16) are in sliding connection with the sliding block sliding rail (3-7), the sliding block I connecting shaft (3-8) is in rotating connection with the sliding block I (3-15), the sliding block I connecting shaft (3-8) is fixedly connected with the support rod I (3-4), the sliding block II connecting shaft (3-17) is in rotating connection with the sliding block II (3-16), the sliding block II connecting shaft (3-17) is fixedly connected with the support rod II (3-5), the support rod connecting shafts (3-10) are rotatably connected with the support rods I (3-4) and the support rods II (3-5), the support rod connecting shafts (3-10) are fixedly connected with a pair of support plate lugs I (3-9), the two support plate lug connecting shafts (3-14) of the base plates II are respectively fixedly connected with the two support plate lugs II (3-12), the two support plate lug connecting shafts (3-14) of the base plates II are respectively rotatably connected with the two support plate lugs II (3-13), and the support plate lugs I (3-9) and the two support plate lugs II (3-12) are respectively fixedly connected with the support plates (2-7);

the support assembly (4) comprises a handle II (4-1), a handle rotating shaft (4-2), a support shell (4-3), a left frame connecting rod (4-4), a right frame connecting rod shaft (4-5), a left frame connecting rod shaft (4-6), a right frame connecting rod shaft (4-5), a frame sliding rail (4-6), a discharging frame positioning hole (4-7), a frame pull rod (4-8), a frame positioning pin (4-9), a stirring body supporting block (4-10), a switch (4-11), a switch connecting shaft (4-12), a switch sliding rail (4-13), a sliding sheet sliding rail (4-14), a sliding sheet (4-15), a spring positioning column (4-16), a spring (4-17), a locking device shell (4-18), a locking wall (4-19), a locking rod (4-20, Gear limiting blocks (4-21), gears V (4-22), racks (4-23), operation rack positioning holes (4-24), support shell sliding rails (4-25), left support assemblies (4-26) and right support assemblies (4-27), a handle II (4-1) is fixedly connected with a handle rotating shaft (4-2), the handle rotating shaft (4-2) is rotatably connected with a support shell (4-3), the handle rotating shaft (4-2) is fixedly connected with the gears V (4-22), the gears V (4-22) are meshed with the racks (4-23), the racks (4-23) and stirring body supporting blocks (4-10) are slidably connected with the support shell (4-3), and the racks (4-23) are fixedly connected with the stirring body supporting blocks (4-10), the spring (4-17) is sleeved on the spring positioning column (4-16), one end of the spring (4-17) is contacted with the gear limiting block (4-21), the spring (4-17) is in a compression state, the gear limiting block (4-21) is fixedly connected with the lock rod (4-20), the lock rod (4-20) is in sliding connection with the lock wall (4-19), the spring positioning column (4-16) is fixedly connected with the lock wall (4-19), the lock wall (4-19) is fixedly connected with the locking device shell (4-18), the locking device shell (4-18) is fixedly connected with the support shell (4-3), the switch (4-11) is fixedly connected with the switch connecting shaft (4-12), the switch connecting shaft (4-12) is in sliding connection with the switch sliding rail (4-13), a switch connecting shaft (4-12) is fixedly connected with a sliding vane (4-15), the sliding vane (4-15) is slidably connected with a sliding vane sliding rail (4-14), a left frame connecting rod shaft (4-5), a right frame connecting rod shaft (4-26), a left support assembly (4-27) are rotatably connected, the left frame connecting rod shaft (4-5) and the right frame connecting rod (4-4) are fixedly connected, the left support assembly (4-26) and the right support assembly (4-27) are slidably connected with a frame sliding rail (4-6), a frame pull rod (4-8) is fixedly connected with the left frame connecting rod (4-4), a frame pull rod (4-8) is fixedly connected with a frame positioning pin (4-9), the frame positioning pin (4-9) is fixedly connected with a discharging frame positioning hole (4-7), The positioning holes (4-24) of the operation rack are in clearance fit, and the positioning holes (4-7) of the rack and the positioning holes (4-24) of the operation rack are all arranged on the bottom plate II (3-11);

stirring assembly (1) and drive mechanism (2) fixed connection, stirring angle guiding mechanism (3) are articulated with drive mechanism (2), support assembly (4) and stirring angle guiding mechanism (3) sliding connection, running gear (5) and stirring angle guiding mechanism (3) fixed connection.

2. A high efficiency concrete mixer for building use as set forth in claim 1, wherein: the traveling mechanism (5) comprises a brake wheel fixing plate (5-1), a brake wheel connecting shaft (5-2), a brake wheel carrier (5-3), a wheel shaft (5-4), a traveling wheel (5-5), a brake regulating plate (5-6), a regulating plate connecting shaft (5-7), a regulating plate support lug (5-8), a brake groove (5-9), a ratchet (5-10), a regulating plate hole (5-11), a hook limiting pin (5-12), a hook gear (5-13), a hook limiting hole (5-14), a hook hanging plate (5-15), a hook (5-16), a brake wheel (5-17) and a hook bottom plate hole (5-18), wherein the brake wheel connecting shaft (5-2) is fixedly connected with the brake wheel carrier (5-3), the wheel shaft (5-4) is fixedly connected with the braking wheel frame (5-3), the pair of walking wheels (5-5) is rotatably connected with the wheel shaft (5-4), the ratchet (5-10) is fixedly connected with the pair of walking wheels (5-5), the ratchet (5-10) is rotatably connected with the wheel shaft (5-4), the adjusting and controlling plate connecting shaft (5-7) is rotatably connected with the upper end of the braking adjusting and controlling plate (5-6), the adjusting and controlling plate connecting shaft (5-7) is fixedly connected with the pair of adjusting and controlling plate support lugs (5-8), the lower end of the braking adjusting and controlling plate (5-6) is in clearance fit with the braking groove (5-9), the lower end of the hook (5-16) is in clearance fit with the adjusting and controlling plate hole (5-11), and the middle end of the hook (5-16) is in clearance fit with the hook bottom, the upper end of a hook (5-16) is hooked with a hook gear (5-13), a hook limiting hole (5-14) is positioned on the hook gear (5-13), a hook limiting pin (5-12) is in clearance fit with the hook limiting hole (5-14), the hook gear (5-13) is fixedly connected with a hook hanging plate (5-15), the hook hanging plate (5-15) is fixedly connected with a bottom plate II (3-11), a brake wheel fixing plate (5-1) is fixedly connected with the bottom plate II (3-11), and the number of brake wheels (5-17) is 4.