CN112832520A

CN112832520A - Construction method for building house

Info

Publication number: CN112832520A
Application number: CN202011625741.0A
Authority: CN
Inventors: 顾春荣; 黄达智; 沈昂儿
Original assignee: Wanjian Construction Co ltd
Current assignee: Green City Entropy Construction Management Co ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-05-25
Anticipated expiration: 2040-12-31
Also published as: CN112832520B

Abstract

The invention discloses a building construction method, which comprises the following steps: a. pouring a main body structure; b. after the concrete of the main body structure reaches the design strength and releases corresponding stress, arranging tensile structure reinforcing steel bars connected with the wall body structure at intervals in the vertical direction and the horizontal direction of the main body structure, and arranging a plurality of reinforcing steel bars at the top of the lintel opening; c. buffer connecting pieces connected with the wall structure are arranged at intervals in the vertical direction and the horizontal direction of the main body structure; d. installing a single-side template; e. pouring a wall structure, binding beam plate steel bars and installing template plate surface line pipes at the same time; according to the invention, the first motor is started, so that different materials are simultaneously put into the stirring box by the push plate, the cost of manual input is reduced, and meanwhile, all the materials can be driven to fall simultaneously by only one driving piece, so that the time of falling in batches is reduced, and the house construction efficiency is improved.

Description

Construction method for building house

Technical Field

The invention belongs to the technical field of building construction, and particularly relates to a building construction method.

Background

At present, when a building house is built, concrete pouring is adopted in the construction process, stones, cement and sand need to be added in the concrete pouring process for stirring, and in the adding process, the stones and the sand need to be added manually, so that the workload is greatly increased, and the working efficiency of the whole house construction is reduced.

Disclosure of Invention

The invention provides a construction method of a building to overcome the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a construction method of a building house comprises the following steps:

a. pouring a main body structure;

b. after the concrete of the main body structure reaches the design strength and releases corresponding stress, arranging tensile structure reinforcing steel bars connected with the wall body structure at intervals in the vertical direction and the horizontal direction of the main body structure, and arranging a plurality of reinforcing steel bars at the top of the lintel opening;

c. l-shaped buffer connecting pieces connected with the wall structure are arranged at intervals in the vertical direction and the horizontal direction of the main body structure;

d. installing a single-side formwork of the wall structure;

e. pre-burying a hydroelectric pipeline and binding construction ribs in a wall structure;

f. installing the other side template of the wall structure;

g. pouring a wall structure, binding beam plate steel bars and installing template plate surface line pipes at the same time;

h. after the concrete of the wall structure is finally set, the template is removed;

the device comprises a material collecting box, a feeding box arranged above the material collecting box, a stirring box used for connecting the material collecting box and the feeding box, and a discharging box arranged below the material collecting box, wherein the material collecting box is arranged above the material collecting box; a first feeding cavity and a second feeding cavity are arranged in the feeding box, both the first feeding cavity and the second feeding cavity are provided with a partition, the partition divides the first feeding cavity and the second feeding cavity into at least a first storage cavity, a second storage cavity and a third storage box, and the first feeding cavity is matched with the second feeding cavity through a feeding device; the feeding device comprises a driving mechanism, a first driven mechanism arranged on the driving mechanism, a second driven mechanism arranged on the first driven mechanism, a first conveyor belt used for connecting the driving mechanism and the first driven mechanism, and a second conveyor belt used for connecting the first driven mechanism and the second driven mechanism, wherein the driving mechanism, the first driven mechanism and the second driven mechanism are matched with a first material storage cavity, a second material storage cavity and a third material storage box through a push plate; the driving mechanism starts to drive the first driving belt to transmit, the first driving belt starts to drive the first driven mechanism to start, the first driven mechanism starts to drive the second driving belt to start, and the second driving belt drives the second driven mechanism to start, so that the push plate is pushed to push materials in the first storage cavity, the second storage cavity and the third storage box into the stirring box. Start through first motor for in the push pedal carries out the simultaneous input agitator tank with different kind of materials, reduce the cost of artifical input, only need a driving piece simultaneously, can drive all materials and carry out simultaneous whereabouts, reduce the time of falling in batches, thereby improved house efficiency of construction.

Furthermore, the driving mechanism comprises a first motor, a first rotating shaft arranged on the first motor, and a first gear sleeved outside the first rotating shaft; a first rack and a second rack which are respectively meshed with the first gear are arranged in the feeding box, the first rack corresponds to the push plate in the first feeding cavity, and the second rack corresponds to the push plate in the second feeding cavity; the first motor starts to drive the first rotating shaft to rotate, the first rotating shaft rotates to drive the first driven mechanism to start, the first driven mechanism starts to drive the first transmission belt to rotate, the first transmission belt drives the second driven mechanism to start, the first rotating shaft rotates to drive the first gear to rotate, the first gear rotates to be meshed with the first rack and the second rack, the first rack and the second rack move oppositely, the first rack pushes the push plate in the first feeding cavity to move, and the second rack pushes the push plate in the second feeding cavity to move.

Furthermore, discharge plates are arranged in the first storage cavity, the second storage cavity and the third storage cavity, a jacking device is arranged on each discharge plate, each jacking device comprises a round rod capable of moving up and down along the discharge plate and a first spring used for connecting the round rod and the discharge plate, and the round rods are matched with the push plate through a drawing device; when the push pedal carries out outside removal and carries out the ejection of compact, the push pedal does not contact with the pull device, and the pull device removes towards inside, and the pull device removes and round bar in contact with each other, and the round bar carries out the rebound, and round bar rebound, the push pedal upwards lifts. When driving the push pedal through first rack and carrying out the propelling movement material, the propelling movement material finishes the back, the push pedal is playback, under the effect of round bar, make the push pedal upwards lift, the push pedal upwards lifts, can prevent that the material from piling up in one side of push pedal, influence its propelling movement process, the appropriate rebound of push pedal, the waste of material has been reduced, it is piled up in push pedal one side to reduce the material simultaneously, the stability of the ejection of compact has been guaranteed, whole efficiency of construction has also been improved simultaneously.

Further, the drawing device comprises a first block body, a second block body, a pull rod for connecting the first block body and the second block body, and a second spring for connecting the second block body and the discharging plate; the push pedal does not contact with first block, and first block and second block move under the effect of second spring, and the second block contacts with the round bar, and the round bar carries out the rebound.

Furthermore, the push plate comprises a first plate body, a second plate body, a third plate body, a fourth plate body capable of moving up and down along the third plate body, an elastic rope for connecting the first plate body and the second plate body, a third spring for connecting the third plate body and the fourth plate body, and a rod body for connecting the second plate body and the third plate body; when the first rack and the second rack are respectively contacted with the second plate body, the second plate body moves to push materials, the first plate body is clamped on the discharge plate, the first block body is not contacted with the first plate body, the first block body and the second block body move under the action of the second spring, the second block body is contacted with the round rod, the round rod moves upwards, the second plate is moved away from the round rod, the second plate body drives the third plate body and the fourth plate body to push the materials, when the first rack and the second rack are reset under the drive of the first rotating shaft, the push plate is about to reset, when the fourth plate body is reset, the fourth plate body is contacted with the round rod, the fourth plate body moves upwards, and the fourth plate body is lifted upwards; through the setting of third spring, when the fourth plate body rebound, prevent that the material on the play flitch from being scraped one side by the fourth plate body, reduce the waste of resource, secondly guaranteed push pedal propelling movement process, when the fourth plate body does not contact with the round bar, under the effect of third spring, the fourth plate body realizes resetting fast, and simple structure easily operates, has guaranteed the synchronism of whole working process.

Furthermore, switch doors are arranged in the first storage cavity, the second storage cavity and the third storage cavity, the switch doors are matched with the push plate through a moving device, and the moving device comprises a first moving rod, a second moving rod and a leather rope for connecting the second moving rod and the push plate; a moving groove for moving a first moving rod and a second moving rod is formed in the feeding box, the first moving rod is movably connected with the second moving rod, a rotating rod is arranged in the moving groove, and the leather rope moves on the rotating rod; when the push plate moves to push materials, one end of the leather rope is pulled to move, the other end of the leather rope pulls down the second moving rod to move, the second moving rod drives the first moving rod to move, and the first moving rod drives the switch door to turn over and open; drive the leather rope motion through the push pedal, the leather rope makes the switch door remove and opens, has guaranteed the synchronism that work goes on, when the switch door is closed simultaneously, the switch door overturns to close and can scrape the material of piling up at the switch door gate, reduces piling up of material, is not carrying out the during operation simultaneously, the switch door is in the closed condition, has guaranteed that each intraformational material does not interfere with each other, has guaranteed that the material is in the closed condition, has guaranteed the cleanliness factor between the material.

Furthermore, the feeding box is matched with the stirring box through a movable door, a switch device is arranged on the movable door, and the switch device comprises a switch groove arranged in the feeding box, an extrusion rod capable of moving up and down along the switch groove, a fourth spring used for connecting the extrusion rod and the switch groove, and an elastic sheet used for connecting the switch groove and the movable door; when the opening and closing door is turned, the opening and closing door is not contacted with the extrusion rod, the extrusion rod moves upwards, the extrusion rod is not contacted with the elastic sheet, and the elastic plate drives the movable door to move and open; through the setting of floating gate, when stirring the material, reduce the material and splash into the pay-off case, when stirring the material, reduce the material and splash.

Furthermore, a stirring device is arranged in the stirring box, and the stirring device comprises a second rotating shaft, a convex block arranged at the upper end of the second rotating shaft, a first driving piece arranged at the lower end of the second rotating shaft, and a movable part used for connecting the convex block and the first driving piece; the first driving piece is started, and the first driving piece drives one end of the movable part to move outwards to stir the material.

Furthermore, the movable component comprises a stirring shaft cavity, a stirring blade arranged on the stirring shaft cavity and a piston rod capable of moving up and down along the stirring shaft cavity, the piston rod is movably connected with the bump, and a folding rod connected with the second rotating shaft is arranged on the stirring shaft cavity; the driving piece starts to drive stirring shaft chamber one end and leans out, and the one end of slope drives stirring vane and removes, and the pulling removes folding rod when stirring shaft chamber removes. Stir the material through the second pivot, first driving piece drive stirring shaft chamber drives stirring vane and takes place the slope removal, under the effect of centrifugal force, the material is in the state on the lateral wall in the agitator tank basically during the stirring, stirring vane slope removal, can obtain abundant stirring on the material lateral wall, make the more even of material stirring, secondly, when stirring shaft chamber carries out the outside removal, the drive expandes folding rod pole, also can also obtain the stirring to the material of the mid portion in the agitator tank simultaneously, the work efficiency of house construction has been improved simultaneously.

Furthermore, a second driving piece for moving a second rotating shaft up and down is arranged on the stirring box, a round rod stirring shaft is arranged on the second rotating shaft, a discharging block is arranged on the round rod stirring shaft, and the discharging block is matched with the material collecting box through a pulling device; after the stirring is finished, the second rotating shaft moves downwards under the driving of the second driving piece, the second rotating shaft moves downwards to drive the discharging block to move downwards, the discharging block moves downwards to drive the pull rope device to move upwards, and at the moment, the materials enter the material collecting box. Through setting up the round bar puddler, among the stone weight ratio in the concrete, the concrete is at the in-process of stirring, the latter half of material most in the agitator tank, current adoption stirring vane can often rub each other with the stone, lead to the blade impaired, through adopting the round bar puddler, can reduce the frictional force between material and the round bar puddler, the life of round bar has been improved, secondly, be equipped with many connecting rods between the round bar puddler, can carry out abundant stirring to the material at middle part in the agitator tank on the one hand, on the other hand has strengthened the fastness between the round bar puddler, after the material stirring finishes, the second driving piece drives the second pivot and carries out the downstream, when through second pivot downstream, can carry out a mediation to the material, the more smooth and easy of material whereabouts has been guaranteed.

In conclusion, the invention has the following advantages: 1. the push plate simultaneously puts different types of materials into the stirring box, so that the cost of manual input is reduced, all the materials can be driven to fall simultaneously by only one driving piece, and the time of batch falling is reduced, so that the house construction efficiency is improved;

2. by arranging the round rod stirring rod, the friction force between the material and the round rod stirring rod can be reduced, and the service life of the round rod is prolonged;

3. the materials are stirred through the second rotating shaft, the stirring blades move obliquely, and the materials can be stirred sufficiently on the side wall of the materials, so that the materials are stirred more uniformly.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a left side view of the present invention.

Fig. 3 is a first cross-sectional perspective view taken along a-a in fig. 2.

Fig. 4 is an enlarged view of a structure shown in fig. 3.

Fig. 5 is an enlarged view of the structure at B in fig. 3.

Fig. 6 is an enlarged view of the structure at C in fig. 3.

Fig. 7 is a cross-sectional perspective view taken along a-a in fig. 2.

Fig. 8 is an enlarged view of the structure at D in fig. 7.

Fig. 9 is a second left side view of the present invention.

Fig. 10 is a partial sectional perspective view one taken along B-B in fig. 9.

Fig. 11 is a second partial sectional perspective view taken along B-B of fig. 9.

Fig. 12 is an enlarged view of the structure at E in fig. 11.

Detailed Description

As shown in fig. 1 to 12, a method for constructing a building includes the steps of:

a. pouring a main body structure;

d. installing a single-side formwork of the wall structure;

f. installing the other side template of the wall structure;

wherein the a comprises a material collecting box 1, a material feeding box 2, a stirring box 3 and a material discharging box 4; the feeding box 2 is arranged above the material collecting box 1, and the feeding box 2 is used for storing materials; the number of the stirring boxes 3 is 2, 2 materials are fixedly connected with the material collecting box 1 and the feeding box 2, the 2 stirring boxes 3 are not contacted, the stirring efficiency can be increased by adopting the 2 stirring boxes 3, and meanwhile, the whole house construction efficiency is accelerated by stirring; go out workbin 4 and link firmly in the bottom of case 1 that gathers materials, it is specific, be equipped with screw 4a pay-off in the play workbin 4, this screw 4a pay-off is prior art, no longer gives details once more, when the material falls into in the play workbin 4 from case 1 that gathers materials, screw 4a sees off the material that the material stirring is good.

Further, a first feeding cavity 20 and a second feeding cavity 21 are arranged in the feeding box 2, the first feeding cavity 20 and the second feeding cavity 21 are both provided with separating parts 22, the number of the separating parts 22 is 2, and in other embodiments, the number of the separating parts 22 is 1 or more than 1, the separating parts 22 divide the first feeding cavity 20 and the second feeding cavity 21 into at least a first storage cavity 23, a second storage cavity 24 and a third storage cavity 25, and the first storage cavity 23, the second storage cavity 24 and the third storage cavity 25 store materials respectively; the first feeding cavity 20 is matched with the second feeding cavity 21 through the feeding device 5.

Further, the feeding device 5 comprises a driving mechanism 50, a first driven mechanism 51, a second driven mechanism 52, a first conveyor belt 53 and a second conveyor belt 54; the first driven mechanism 51 is arranged above the driving mechanism 50; the second driven mechanism 52 is arranged above the first driven mechanism, and the first conveyor belt 53 is used for connecting the driving mechanism and the first driven mechanism 51; the second conveyor belt 54 is used for connecting the first driven mechanism 51 and the second driven mechanism 52; the first driven mechanism 51 and the second driven mechanism 52 have the same structure; the driving mechanism 50, the first driven mechanism 51 and the second driven mechanism 52 are all matched with the first material storage cavity 23, the second material storage cavity 24 and the third material storage cavity 25 through a push plate 55.

The driving mechanism 50 is started to drive the first transmission belt to transmit, the first transmission belt is started to drive the first driven mechanism 51 to start, the first driven mechanism 51 is started to drive the second transmission belt to start, and the second transmission belt 54 drives the second driven mechanism 52 to start, so that the push plate 55 is pushed, and materials in the first material storage cavity 23, the second material storage cavity 24 and the third material storage cavity 25 are pushed into the stirring box 3; start through first motor 500 for push pedal 55 carries out in the simultaneous input agitator tank 3 with different kind of materials, reduces the cost of artifical input, only needs a driving piece simultaneously, can drive all materials and carry out the whereabouts simultaneously, reduces the time of falling in batches, thereby has improved house efficiency of construction.

Further, the driving mechanism 50 includes a first motor 500, a first rotating shaft 501 and a first gear 502; the first motor 500 is the prior art, and is not described again; the first rotating shaft 501 is fixedly connected to the first motor 500; the first gear 502 is sleeved outside the first rotating shaft 501; a first rack 503 and a second rack 504 which are respectively meshed with the first gear 502 are arranged in the feeding box 2, the first rack 503 corresponds to the push plate 55 in the first feeding cavity 20, and the second rack 504 corresponds to the push plate 55 in the second feeding cavity 21; specifically, a chute 5041 for moving the first rack 503 and the second rack 504 is arranged in the feeding box 2; the first motor 500 is started to drive the first rotating shaft 501 to rotate, the first rotating shaft 501 rotates to drive the first driven mechanism 51 to start, the first driven mechanism 51 starts to drive the first conveyor belt 53 to rotate, the first conveyor belt 53 drives the second driven mechanism 52 to start, the first rotating shaft 501 rotates to drive the first gear 502 to rotate, the first gear 502 rotates to be meshed with the first rack 503 and the second rack 504, the first rack 503 and the second rack 504 move oppositely, the first rack 503 pushes the push plate 55 in the first feeding cavity 20 to move, and the second rack 504 pushes the push plate 55 in the second feeding cavity 21 to move.

Furthermore, the first material storage cavity 23, the second material storage cavity 24 and the third material storage cavity 25 are all provided with a discharging plate 26, one end of the discharging plate 26 is arranged in an inclined manner, and the inclined arrangement ensures that the material can better slide down when the pushing plate 55 pushes the material; the discharging plate 26 is provided with a jacking device 6, and the jacking device 6 comprises a round rod 60 and a first spring 61; the round bar 60 can move upwards or downwards along the discharging plate 26; the first spring 61 is used for connecting the round rod 60 and the discharging plate 26; the round rod 60 is matched with the push plate 55 through the drawing device 7; when the push plate 55 moves outwards to discharge materials, the push plate 55 is not in contact with the drawing device 7, the drawing device 7 moves towards the inside, the drawing device 7 moves to be in contact with the round rod 60, the round rod 60 moves upwards, and the push plate 55 is lifted upwards; when driving push pedal 55 through first rack 503 and carrying out the propelling movement material, the propelling movement material finishes the back, push pedal 55 carries out the playback, under the effect of round bar 60, make push pedal 55 upwards lift up, push pedal 55 upwards lifts up, can prevent that the material from piling up in one side of push pedal 55, influence its propelling movement process, push pedal 55 suitable rebound, the waste of material has been reduced, it is piled up in push pedal 55 one side to reduce the material simultaneously, the stability of the ejection of compact has been guaranteed, whole efficiency of construction has also been improved simultaneously.

Further, the drawing device 7 comprises a first block 70 and a second block 71, a pull rod 72 and a second spring 73; the second block 71 is arranged on one side of the first block 70, and the first block 70 is abutted to the initial state of the push plate 55; the pull rod 72 is used for connecting the first block 70 and the second block 71; when the push plate 55 moves, the push plate 55 does not contact the first block 70, the first block 70 and the second block 71 move under the action of the second spring 73, the second block 71 contacts the round rod 60, and the round rod 60 moves upward.

Further, the push plate 55 includes a first plate 550, a second plate 551, a third plate 552, a fourth plate 553, a stretch cord 554, a third spring 555, and a rod 556; the second plate 551 is arranged on the upper part of the first plate 550, and the second plate 551 is contacted with the top of the discharging plate 26 in an initial state; the third plate 552 is disposed on one side of the second plate 551 and can move left or right on the discharging plate 26; the fourth plate 553 may move upward or downward along the inside of the third plate 552; the elastic rope 554 is used for connecting the first plate body 550 and the second plate body 551; the third spring 555 is used to connect the third plate 552 and the fourth plate 553; the rod body 556 is connected with the second plate body 551 and the third plate body 552; when the first rack 503 and the second rack 504 are respectively contacted with the second plate 551, the second plate 551 moves to push the material, the first plate 550 is clamped on the discharging plate 26, the first block 70 is turned over by 90 degrees, at this time, the first block 70 is not contacted with the first plate 550, the first block 70 and the second block 71 are moved by the second spring 73, the second block 71 is in contact with the round bar 60, the round bar 60 is moved upward, at this time, the second plate 551 has moved away from the round bar 60, the second plate 551 drives the third plate 552 and the fourth plate 553 to push the materials, when the first rack 503 and the second rack 504 are reset by the first rotating shaft 501, the push plate 55 will be reset, when the fourth plate 553 is in a return position, the fourth plate 553 contacts the round bar 60, the fourth plate 553 moves upward, and the fourth plate 553 is lifted upward; through the setting of third spring 555, when fourth plate body 553 rebound, prevent that the material on the play flitch 26 from being scraped one side by fourth plate body 553, reduce the waste of resource, secondly guaranteed push pedal 55 propelling movement process, when fourth plate body 553 does not contact with round bar 60, under the effect of third spring 555, fourth plate body 553 realizes resetting fast, and simple structure easily operates, has guaranteed the synchronism of whole working process.

Further, the first storage cavity 23, the second storage cavity 24 and the third storage cavity 25 are all provided with a switch door 8, and the switch door 8 is hinged with the first storage cavity 23, the second storage cavity 24 and the third storage cavity 25; the switch door 8 is matched with the push plate 55 through a moving device 9, and the moving device 9 comprises a first moving rod 90, a second moving rod 91 and a leather rope 92; one end of the first moving rod 90 is fixedly connected with the switch door 8; the second moving rod 91 is hinged with the other end of the first moving rod 90; one end of the leather rope 92 is connected with the second moving rod 91, and the other end of the leather rope is fixedly connected with the push plate 55; a moving groove 93 for moving the first moving rod 90 and the second moving rod 91 is formed in the separating member 22, a rotating rod 94 is formed in the moving groove 93, and the leather rope 92 moves on the rotating rod 94; when the push plate 55 moves to push materials, one end of the leather rope 92 is pulled to move, the other end of the leather rope 92 pulls down the second moving rod 91 to move, the second moving rod 91 drives the first moving rod 90 to move, and the first moving rod 90 drives the switch door 8 to turn over and open; drive the motion of leather rope 92 through push pedal 55, leather rope 92 makes switch door 8 remove and opens, the synchronism that work goes on has been guaranteed, when switch door 8 is closed simultaneously, switch door 8 overturns and closes and can be to piling up the material at switch door 8 gate, scrape and fall, reduce piling up of material, when not carrying out work simultaneously, switch door 8 is in the closed condition, each intraformational material noninterference has been guaranteed, it is in the closed condition to have guaranteed the material, the cleanliness factor between the material has been guaranteed.

Further, the feeding box 2 is matched with the stirring box 3 through a movable door 30, a switch device 80 is arranged on the movable door 30, and the switch device 80 comprises a switch groove 800, an extrusion rod 801, a fourth spring 802 and an elastic sheet 803; the switch groove 800 is arranged in the feeding box 2; the extrusion rod 801 can move up and down along the switch slot 800; the fourth spring 802 is used for connecting the extrusion rod 801 and the switch slot 800; the elastic piece 803 is used for connecting the switch groove 800 and the movable door 30, when the switch door 8 is in a closed state, the extrusion rod 801 does not move upwards, the extrusion rod 801 is in contact with the elastic piece 803, the elastic piece 803 is in an extended state, the movable door 30 is in a closed state, when the switch door 8 is overturned, the switch door 8 is not in contact with the extrusion rod 801, the extrusion rod 801 moves upwards, the extrusion rod 801 is not in contact with the elastic piece 803, and the elastic plate drives the movable door 30 to move and open; through the setting of floating gate 30, when stirring the material, reduce in the material splashes into pay-off case 2, when stirring the material, reduce the material and splash.

Further, a stirring device 40 is arranged in the stirring box 3, and the stirring device 40 includes a second rotating shaft 400, a protruding block 401, a first driving member 402, and a movable member 600; the second rotating shaft 400 is embedded in the stirring box 3 and can rotate; the number of the convex blocks 401 is 4, the convex blocks are uniformly arranged on the circumferential direction of the second rotating shaft 400 at intervals, and in other embodiments, the number of the convex blocks 401 is 1 or more than 1; the first driving members 402 are cylinders available in the market in the prior art, the number of the first driving members 402 is equal to the number of the protrusions 401, and the first driving members 402 are arranged in 4 arrangement, and are in one-to-one correspondence, and the specific first driving members 402 are fixedly connected to the bottom of the second rotating shaft 400 in the circumferential direction; the movable member 600 is used to connect the protrusion 401 and the movable member 600 of the first driving member 402.

Further, the movable part 600 includes a stirring shaft cavity 6001, a stirring blade 6002, and a piston rod 6003; the bottom of the stirring shaft cavity 6001 is fixedly connected to the first driving member 402; the stirring shaft cavity 6001 is provided with an air outlet 402a, and the air outlet 402a can be a one-way air outlet 402a to prevent impurities from being sucked into the stirring shaft cavity 6001; the stirring blade 6002 is fixedly connected to the stirring shaft cavity 6001; one end of the piston rod 6003 can move up and down along the stirring shaft cavity 6001, and the other end of the piston rod 6003 is movably connected with the lug 401, and a folding rod 6004 connected with the second rotating shaft 400 is arranged on the stirring shaft cavity 6001; the first driving piece 402 starts to drive one end of the stirring shaft cavity 6001 to incline outwards, the inclined end drives the stirring blade 6002 to move, at this time, the piston rod 6003 in the stirring cavity moves downwards, gas is sprayed out from the gas outlet 402a, the stirring shaft cavity 6001 is pulled to move the folding rod 6004 when moving, the folding rod 6004 can be composed of a first folding rod 6004a and a second folding rod 6004b, and the first folding rod 6004b is connected with the second folding rod 6004b through a hinge; stir the material through second pivot 400, first driving piece 402 drive stirring shaft cavity 6001 drives stirring vane 6002 and takes place the tilting motion, under the effect of centrifugal force, the material is the state on the lateral wall in agitator tank 3 basically in when stirring, stirring vane 6002 tilting motion, can obtain abundant stirring on the material lateral wall, make material stirring more even, secondly, when stirring shaft cavity 6001 carries out outside removal, the drive is to folding rod 6004 pole expansion, also can also obtain the stirring to the material of the mid portion in agitator tank 3 simultaneously, the work efficiency of house construction has been improved simultaneously.

Furthermore, a second driving member 4001 for moving the second rotating shaft 400 up and down is arranged on the stirring box 3, and the second driving member 4001 is a cylinder available in the market in the prior art; the second rotating shaft 400 is provided with round rod stirring shafts 4002, specifically, a plurality of connecting rods 4002a are arranged between the round rod stirring shafts 4002, the round rod stirring shafts 4002 are provided with discharging blocks 4003, and the discharging blocks 4003 are matched with the material collecting box 1 through a pulling device 510; after the stirring is finished, the second rotating shaft 400 is driven by the second driving piece 4001 to move downwards, the second rotating shaft 400 moves downwards to drive the discharging block 4003 to move downwards, the discharging block 4003 moves downwards to drive the rope pulling device to move upwards, and then the materials enter the material collecting box 1; by arranging the round rod stirring shaft 4002, most of materials are positioned at the lower half part of the stirring box 3 in the process of stirring concrete in comparison with the weight of stones in the concrete, the existing stirring blades 6002 often rub the stones to cause damage to the blades, and by adopting the round rod stirring shaft 4002, can reduce the friction between the materials and the round rod stirring shaft 4002, improve the service life of the round rod stirring shaft 4002, secondly, a plurality of connecting rods 4002a are arranged between the round rod stirring shafts 4002, on one hand, the materials in the middle part of the stirring box 3 can be fully stirred, on the other hand, the firmness between the round rod stirring shafts 4002 is enhanced, after the materials are stirred, the second driving member 4001 drives the second rotating shaft 400 to move downwards, when the second rotating shaft 400 moves downwards, the materials can be dredged, and the materials are guaranteed to fall more smoothly.

Further, the pulling-up rope device 510 includes a pulling-up slot 5101, a pulling-up rack 5102, a movable rod 5103, a pulling-up gear 5104, a winding roller 5105, a winding rope 5106, and a lifting rod 5107; the pulling-up tank 5101 is arranged on the inner wall of the stirring box 3; the pulling-up rack 5102 is arranged in the pulling-up trough 5101 and moves leftwards or rightwards in the pulling-up trough 5101; the movable rod 5103 is used for connecting a pulling rack 5102 and a discharging block 4003; the pulling-up gear 5104 is meshed with the pulling-up rack 5102, and the pulling-up gear 5104 can rotate; the winding roller 5105 is fixedly connected to the winding roller 5105; the lifting rod 5107 is arranged in the material collecting box 1 and can move upwards or downwards in the material collecting box 1; the winding rope 5106 for connecting the lifting rod 5107 and the winding roller 5105; when the discharging block 4003 moves downwards, the discharging block 4003 drives one end of the movable rod 5103 to move downwards, the other end of the movable rod 5103 drives the pulling rack 5102 to move inwards, the pulling rack 5102 moves to be meshed with the pulling gear 5104, the pulling gear 5104 rotates to drive the winding roller 5105 to rotate, the winding roller 5105 rotates to drive the winding rope 5106 to wind, the winding rope 5106 drives the lifting rod 5107 to move upwards, and at this time, materials fall into the discharging box 4 from an opening of the lifting rod 5107 in a moving mode.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A construction method of a building house is characterized by comprising the following steps: the method comprises the following steps:

a. pouring a main body structure;

d. installing a single-side formwork of the wall structure;

f. installing the other side template of the wall structure;

wherein the a comprises a material collecting box (1), a feeding box (2) arranged above the material collecting box (1), a stirring box (3) used for connecting the material collecting box (1) and the feeding box (2), and a discharging box (4) arranged below the material collecting box (1); a first feeding cavity (20) and a second feeding cavity (21) are arranged in the feeding box (2), the first feeding cavity (20) and the second feeding cavity (21) are respectively provided with a partition (22), the first feeding cavity (20) and the second feeding cavity (21) are at least divided into a first storage cavity (23), a second storage cavity (24) and a third storage cavity (25) by the partition (22), and the first feeding cavity (20) is matched with the second feeding cavity (21) through a feeding device (5); the feeding device (5) comprises a driving mechanism (50), a first driven mechanism (51) arranged on the driving mechanism (50), a second driven mechanism (52) arranged on the first driven mechanism (51), a first conveying belt (53) used for connecting the driving mechanism (50) and the first driven mechanism (51), and a second conveying belt (54) used for connecting the first driven mechanism (51) and the second driven mechanism (52), wherein the driving mechanism (50), the first driven mechanism (51) and the second driven mechanism (52) are matched with a first material storage cavity (23), a second material storage cavity (24) and a third material storage cavity (25) through a push plate (55); initiative mechanism (50) start-up drives first drive belt and carries out the transmission, and first drive belt starts to drive first follower (51) and starts, and first follower (51) start-up drives the second drive belt and starts, and second conveyer belt (54) drive second follower (52) and start to promote push pedal (55), promote the material in first storage cavity (23), second storage cavity (24) and third storage cavity (25) in agitator tank (3).

2. The method of constructing a building according to claim 1, wherein: the driving mechanism (50) comprises a first motor (500), a first rotating shaft (501) arranged on the first motor (500), and a first gear (502) sleeved outside the first rotating shaft (501); a first rack (503) and a second rack (504) which are respectively meshed with the first gear (502) are arranged in the feeding box (2), the first rack (503) corresponds to the push plate (55) in the first feeding cavity (20), and the second rack (504) corresponds to the push plate (55) in the second feeding cavity (21); the first motor (500) is started to drive the first rotating shaft (501) to rotate, the first rotating shaft (501) is rotated to drive the first driven mechanism (51) to start, the first driven mechanism (51) is started to drive the first conveying belt (53) to rotate, the first conveying belt (53) drives the second driven mechanism (52) to start, the first rotating shaft (501) is rotated to drive the first gear (502) to rotate, the first gear (502) rotates to be meshed with the first rack (503) and the second rack (504), the first rack (503) and the second rack (504) move oppositely, the first rack (503) pushes the push plate (55) in the first feeding cavity (20) to move, and the second rack (504) pushes the push plate (55) in the second feeding cavity (21) to move.

3. The method of constructing a building according to claim 1, wherein: the first material storage cavity (23), the second material storage cavity (24) and the third material storage cavity (25) are internally provided with discharge plates (26), each discharge plate (26) is provided with a jacking device (6), each jacking device (6) comprises a round rod (60) capable of moving up and down along the discharge plate (26) and a first spring (61) used for connecting the round rod (60) and the discharge plate (26), and the round rods (60) are matched with the push plates (55) through drawing devices (7); when the push plate (55) moves outwards to discharge materials, the push plate (55) is not in contact with the drawing device (7), the drawing device (7) moves towards the inside, the drawing device (7) moves to be in contact with the round rod (60), the round rod (60) moves upwards, and the push plate (55) is lifted upwards.

4. A method of constructing a building as claimed in claim 3, wherein: the drawing device (7) comprises a first block body (70) and a second block body (71), a pull rod (72) used for connecting the first block body (70) and the second block body (71), and a second spring (73) used for connecting the second block body (71) and the discharging plate (26); the push plate (55) is not contacted with the first block body (70), the first block body (70) and the second block body (71) move under the action of the second spring (73), the second block body (71) is contacted with the round rod (60), and the round rod (60) moves upwards.

5. The method of constructing a building according to claim 1, wherein: the push plate (55) comprises a first plate body (550), a second plate body (551) and a third plate body (552), a fourth plate body (553) capable of moving up and down along the third plate body (552), an elastic rope (554) for connecting the first plate body (550) and the second plate body (551), a third spring (555) for connecting the third plate body (552) and the fourth plate body (553), and a rod body (556) for connecting the second plate body (551) and the third plate body (552); when the first rack (503) and the second rack (504) are respectively contacted with the second plate body (551), the second plate body (551) moves to push materials, the first plate body (550) is clamped on the discharging plate (26), the first block body (70) is not contacted with the first plate body (550), the first block body (70) and the second block body (71) move under the action of the second spring (73), the second block body (71) is contacted with the round rod (60), the round rod (60) moves upwards, at the moment, the second plate body (551) moves far away from the round rod (60), the second plate body (551) drives the third plate body (552) and the fourth plate body (553) to push materials, when the first rack (503) and the second rack (504) are driven by the first rotating shaft (501) to reset, the push plate (55) also resets, when the fourth plate body (553) is reset, the fourth plate 553 moves upward by contacting the round bar 60, and the fourth plate 553 rises upward.

6. The method of constructing a building according to claim 1, wherein: the first storage cavity (23), the second storage cavity (24) and the third storage cavity (25) are internally provided with a switch door (8), the switch door (8) is matched with the push plate (55) through a moving device (9), and the moving device (9) comprises a first moving rod (90), a second moving rod (91) and a leather rope (92) for connecting the second moving rod (91) and the push plate (55); a moving groove (93) for a first moving rod (90) and a second moving rod (91) to move is formed in the separating piece (22), the first moving rod (90) is movably connected with the second moving rod (91), a rotating rod (94) is arranged in the moving groove (93), and the leather rope (92) moves on the rotating rod (94); when push pedal (55) removed and carried out the propelling movement material, pulling leather rope (92) one end removed, and second carriage release lever (91) were fallen to the other end of leather rope (92) and were removed, and second carriage release lever (91) drive first carriage release lever (90) and remove, and first carriage release lever (90) drive switch door (8) overturn and open.

7. The construction method of the building house according to claim 1, wherein the feeding box (2) is matched with the stirring box (3) through a movable door (30), a switch device (80) is arranged on the movable door (30), the switch device (80) comprises a switch groove (800) arranged in the feeding box (2), an extrusion rod (801) capable of moving up and down along the switch groove (800), a fourth spring (802) used for connecting the extrusion rod (801) and the switch groove (800), and an elastic sheet (803) used for connecting the switch groove (800) and the movable door (30); when the switch door (8) is turned over, the switch door (8) is not in contact with the extrusion rod (801), the extrusion rod (801) moves upwards, the extrusion rod (801) is not in contact with the elastic sheet (803), and the elastic sheet drives the movable door (30) to move and open.

8. The building construction method according to claim 1, wherein a stirring device (40) is arranged in the stirring tank (3), the stirring device (40) comprises a second rotating shaft (400), a convex block (401) arranged at the upper end of the second rotating shaft (400), a first driving member (402) arranged at the lower end of the second rotating shaft (400), and a movable part (600) for connecting the convex block (401) and the first driving member (402); the first driving part (402) is started, and the first driving part (402) drives one end of the movable part (600) to move outwards to stir the materials.

9. The construction method of the building house according to the claim 8, characterized in that the movable part (600) comprises a stirring shaft cavity (6001), a stirring blade (6002) arranged on the stirring shaft cavity (6001), and a piston rod (6003) capable of moving up and down along the stirring shaft cavity (6001), wherein the piston rod (6003) is movably connected with the projection (401), and the stirring shaft cavity (6001) is provided with a folding rod (6004) connected with the second rotating shaft (400); first driving piece (402) start-up drive stirring shaft chamber (6001) one end and lean out, and the one end of slope drives stirring blade (6002) and removes, and the pulling removes folding rod (6004) when stirring shaft chamber (6001) removes.

10. The method of constructing a building according to claim 1, wherein: a second driving piece (4001) for moving a second rotating shaft (400) up and down is arranged on the stirring box (3), a round rod stirring shaft (4002) is arranged on the second rotating shaft (400), a discharging block (4003) is arranged on the round rod stirring shaft (4002), and the discharging block (4003) is matched with the material collecting box (1) through a pulling device (510); after the stirring is finished, the second rotating shaft (400) is driven by the second driving piece (4001) to move downwards, the second rotating shaft (400) moves downwards to drive the discharging block (4003) to move downwards, the discharging block (4003) moves downwards to drive the rope pulling device to move upwards, and at the moment, the materials enter the material collecting box (1).