CN111441500A

CN111441500A - Combined assembly type building convenient to install and production device thereof

Info

Publication number: CN111441500A
Application number: CN202010359333.9A
Authority: CN
Inventors: 林进卓
Original assignee: Individual
Current assignee: Shanghai Yangtze River Construction Group Co Ltd
Priority date: 2020-04-29
Filing date: 2020-04-29
Publication date: 2020-07-24
Anticipated expiration: 2040-04-29
Also published as: CN111441500B

Abstract

The invention discloses a combined assembly type building convenient to install, which comprises a foundation column, a fixed wallboard matrix and a connecting wallboard matrix, wherein the top surface of the foundation column is uniformly poured with steel bar columns, the bottom surfaces of the fixed wallboard matrix and the connecting wallboard matrix are provided with steel bar grooves corresponding to the steel bar columns, the middle part of the front surface of the foundation column is provided with limiting plates, the limiting plates are connected with the front surface of the foundation column through fixing screws, the front surfaces of the fixed wallboard matrix and the connecting wallboard matrix corresponding to the limiting plates are provided with inserting plates through screws, the limiting grooves corresponding to the limiting plates are provided with limiting grooves, through the matching use of the inserting plates, the limiting grooves, the limiting steel bars and the fixed ring steel bars, workers can conveniently install a wall body without half-squat observation and simultaneously without using a mirror for observation, the labor intensity of the workers is reduced, the construction efficiency is improved, and the stability of the, avoid the emergence accident, improve staff's factor of safety.

Description

Combined assembly type building convenient to install and production device thereof

Technical Field

The invention relates to the technical assembly type building field, in particular to a combined assembly type building convenient to install and a production device thereof.

Background

The prefabricated building is a building which is formed by transferring a large amount of field operation work in the traditional construction mode to a factory, processing and manufacturing building components and accessories in the factory, transporting the building components and accessories to a building construction site, and assembling and installing the building components and accessories on the site in a reliable connection mode.

But when installing the wall body now, need constructor to utilize the reflection of light of mirror to judge whether the reinforcing bar inserts the reinforcing bar downthehole, nevertheless lead to constructor's efficiency lower like this, need the half formula of squatting of staff to observe simultaneously, staff's intensity of labour is higher.

Disclosure of Invention

The invention provides a combined assembly type building convenient to install and a production device thereof, which can effectively solve the problems that when a wall body is installed at present, a constructor needs to judge whether a reinforcing steel bar is inserted into a reinforcing steel bar hole by utilizing the reflection of a mirror, so that the efficiency of the constructor is low, meanwhile, the constructor needs to observe in a half-squat mode, and the labor intensity of the constructor is high.

In order to achieve the purpose, the invention provides the following technical scheme: a combined assembly type building convenient to install comprises a foundation column, a fixed wallboard base body and a connecting wallboard base body, wherein the fixed wallboard base body is installed at one end of the top surface of the foundation column, and the connecting wallboard base body is installed at the other end of the top surface of the foundation column;

the top end of the foundation column is provided with a mounting and fixing component;

the mounting and fixing assembly comprises a steel bar column, a steel bar groove, a fixed ring steel bar, a connecting ring steel bar, a limiting plate, a fixing screw, an insertion plate and a limiting groove;

foundation pillar top surface evenly pours into has the reinforcing bar post, the reinforcing bar groove has been seted up to fixed wallboard base member and the corresponding reinforcing bar post of connection wallboard base member bottom surface, fixed ring reinforcing bar is evenly installed to fixed wallboard base member one end, it evenly installs the connection ring reinforcing bar to be close to fixed wallboard base member one end to connect the wallboard base member, foundation pillar top surface is in fixed ring reinforcing bar and connects the inside pouring of ring reinforcing bar bottom and has spacing reinforcing bar, the limiting plate is all installed at the positive middle part both ends of foundation pillar, the limiting plate passes through clamping screw and foundation pillar openly is connected, fixed wallboard base member and connection wallboard base member openly correspond the limiting plate department and all install through the screw rod and insert the board, the limiting plate correspondence is inserted board department and has.

Preferably, the length of limiting plate one end equals with the length and the width of spacing groove one end respectively, fixed ring reinforcing bar and connection ring reinforcing bar are crisscross each other, and inside spacing reinforcing bar was in fixed ring reinforcing bar and connection ring reinforcing bar.

Preferably, the device comprises a die, wherein support columns are uniformly arranged at two ends of the die, the top ends of the support columns at one end are welded on the bottom surfaces of sliding rods, a sliding platform is embedded between the two sliding rods, a sliding motor is arranged at one end of each sliding rod, the output end of the sliding motor is connected with a sliding lead screw, the sliding lead screw is connected to one end of the sliding platform through a thread, one end of the sliding lead screw is movably connected with a mounting plate, the mounting plate is mounted at one end, away from the sliding motor, of each sliding rod through a screw, and the input end of the sliding motor is;

the top surface of the sliding platform is provided with a shaking uniform assembly;

the shaking uniform assembly comprises a mounting hole, a discharging barrel, a shaking motor, a shaking lead screw, a fastening frame, a driving belt pulley, a belt, a driven belt pulley, a driving gear, a driven gear, a rotating column, a cam, a supporting rod, a roller groove, a roller, a connecting plate, a buffer spring, a limiting column, a buffer plate, a buffer rubber plate and a damping spring;

the middle part of the top surface of the sliding platform is provided with a mounting hole, a discharging barrel is embedded and mounted in the mounting hole, a shaking motor is mounted on the top surface of the sliding platform close to one end of the discharging barrel, an output shaft of the shaking motor is connected with a shaking lead screw, the middle part of the shaking lead screw is connected with a fastening frame through threads, two ends of the fastening frame are respectively mounted at two ends of the outer side of the discharging barrel through screws, a driving belt pulley is fixedly sleeved at the outer side of the output shaft of the shaking motor, a driven belt pulley is mounted at the bottom end of the driving belt pulley, the driven belt pulley is connected with the driving belt pulley through a belt, a driving gear is mounted at one end of the driven belt pulley through a rotating shaft, a driven gear is meshed at one end of the driving gear, two evenly there is the bracing piece through the mounting screw between the connecting plate, the gyro wheel groove has been seted up to the bracing piece top surface, the even movable mounting in gyro wheel inslot has the gyro wheel, the even welding of connecting plate one end has a plurality of buffer spring, and is a plurality of buffer spring evenly welds in buffer board one end, buffer board one end is in buffer spring inside and installs spacing post through the screw, buffer board one end bonds and has the cushion rubber board, the even welding in mounting hole both ends has damping spring, the input of rocking the motor is connected with external power supply output electric property.

Preferably, the sliding platform top surface is in the drive pulley outside and has seted up the protection hole, and the protection box is installed through the bolt to the inside of protection hole, drive pulley, driven pulley, driving gear and driven gear all are in inside the protection box, post one end swing joint rotates in the inside one end of protection box.

Preferably, a lubricating component is arranged in the sliding rod and comprises a lubricating hole, an installation groove, an extrusion spring, a movable plate, an extrusion plate, a grease leakage hole, a grease containing box, a push plate, a rubber block, a manual push rod, an elongated slot, a limiting rod, an elongated rod, a rotating slot and a limiting ring;

a lubricating hole is arranged in the sliding rod, mounting grooves are arranged on both sides of the top end of the lubricating hole, a plurality of extrusion springs are uniformly welded on the bottom surface of the mounting groove, the extrusion springs are welded on the bottom surfaces of the movable plates, an extrusion plate is welded between the two movable plates, grease leakage holes are uniformly formed in the top surface of the extrusion plate, a grease containing box is embedded and mounted in each lubricating hole, a push plate is embedded in the grease containing box, a rubber block is bonded on the top surface of the push plate, one end of the push plate is connected with a manual push rod through a thread, one end of the manual push rod is provided with an elongated slot, two ends inside the elongated slot are both provided with limiting slots, limiting rods are connected to one end of the limiting groove in a sliding mode, the two limiting rods are installed on two sides of one end of the extension rod respectively, rotating grooves are formed in two ends, located on the outer side, of the extension groove, and one end of the manual push rod is connected with the limiting rod.

Preferably, the shape of the longitudinal section of the lubricating hole is the same as that of the longitudinal section of the grease containing box, an anti-skidding sleeve is fixedly sleeved at one end of the outer side of the extension rod, and the diameter of the rotating groove is equal to that of the limiting rod.

Preferably, one end of the discharging cylinder is provided with a heat-insulation and heat-conduction assembly, and the heat-insulation and heat-conduction assembly comprises a heat-insulation cylinder, an electric heating wire, a stirring motor, a stirring shaft, stirring blades, a heat-conduction pipe, an exhaust fan, a heat-insulation plate, a fixing ring, a connecting pipe, a fixing pipe and an air inlet;

the discharging cylinder is internally provided with a heat-insulating cylinder through a screw, the heat-insulating cylinder is internally and uniformly provided with a heating wire, the top of the sliding platform is far away from one end of a shaking motor and is provided with a stirring motor, an output shaft of the stirring motor is connected with a stirring shaft, a stirring blade is fixedly sleeved outside the stirring shaft, one end of the discharging cylinder is connected with a heat pipe through the screw, the heat pipe is internally provided with an exhaust fan, the part, close to the discharging cylinder, of the heat pipe is hinged to a fixing ring, one end of the fixing ring is bonded with a heat-insulating plate, one end of the heat pipe is bonded with a connecting pipe, one end of the connecting pipe is bonded with a fixing pipe, one end of the sliding rod corresponds to the fixing pipe and is provided with an air inlet hole.

Preferably, the middle part of the stirring shaft is positioned inside the discharging barrel, the stirring shaft is movably arranged inside the discharging barrel, and two ends of the stirring shaft are positioned outside the discharging barrel.

Preferably, a leveling and collecting assembly is arranged between two adjacent supporting columns, and comprises a T-shaped groove, a fixing groove, a leveling electric push rod, a driving block, a leveling plate, a material leaking hole, a fixing rod, a taking groove, a collecting frame, a sliding groove, a sliding block, a lifting electric push rod and a baffle plate;

one end of the supporting column is provided with a T-shaped groove, the bottom surface of the T-shaped groove is provided with a fixed groove, a flush electric push rod is arranged in the fixed groove, the top end of the leveling electric push rod is arranged in the T-shaped groove and is provided with driving blocks, two driving blocks are arranged at two ends of the leveling plate, the top surface of the leveling plate is uniformly provided with material leaking holes, two ends of one side of the leveling plate are welded with fixing rods, one end of the leveling plate is provided with a collecting frame, a taking groove is arranged at the position of the collecting frame corresponding to the fixing rod, sliding grooves are respectively arranged at the two ends of the inner part of the collecting frame, sliding blocks are embedded and installed in the sliding grooves, the two sliding blocks are respectively and movably installed at the two ends of the baffle plate, the top end of the collecting frame positioned at the sliding groove is provided with a lifting electric push rod, the bottom end of the lifting electric push rod is arranged on the top surface of the sliding block, the input end of the parallel electric push rod and the input end of the lifting electric push rod are electrically connected with the output end of an external power supply.

Preferably, the driving block is the same as the T-shaped groove in cross section and is T-shaped, the inner diameter of the driving block is equal to the outer diameter of the T-shaped groove, and an included angle between the top surface and the bottom surface of the baffle is 10-30 degrees.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. be provided with the fixed subassembly of installation, use through the cooperation of inserting board, spacing groove, spacing reinforcing bar and fixed ring reinforcing bar, make things convenient for staff's installation wall body, need not staff's half formula of squatting and observe, also need not to use the mirror to observe simultaneously, reduce staff's intensity of labour, improve the efficiency of construction, solve the problem that proposes in the background art, can strengthen the stability of fixed wallboard base member simultaneously, avoid the emergence accident, improve staff's factor of safety.

2. Be provided with and rock even subassembly, through rocking the motor, drive fastening frame, the cam, driven pulley, drive pulley, rock the lead screw, driving gear and driven gear cooperation are used, the shake of drive stripper, can be so that concrete can be even flow out from the stripper, make the even that the concrete distributes in the mould, avoid the stripper export to block up, reduce the frequency that the staff cleared up, reduce intensity of labour in the staff, improve work efficiency, can reduce the gap between the concrete simultaneously, make between the concrete more inseparable that combines, avoid producing the gap between the concrete, reduce the spoilage of product, and the production cost is reduced.

3. Be provided with lubricated subassembly, through adorning the fat box, sliding platform, the slide bar, the extrusion spring, the stripper plate, the push pedal, manual push rod uses with the cooperation of leaking the fat hole, make lubricating grease in the lubrication hole spill through leaking in the fat hole, lubricate the slide bar, reduce the frictional force between sliding platform and the slide bar, reduce produced heat between sliding platform and the slide bar simultaneously, can reduce the consumption of sliding platform and slide bar like this, prolong the life of slide bar and sliding platform, can reduce produced noise between the two simultaneously, need not that the staff is frequent to adding lubricating grease on the slide bar, and the work efficiency is improved, the labor physical power of the staff is saved.

4. Be provided with heat preservation heat-conducting component, through the heating wire, a heat preservation section of thick bamboo, agitator motor, the cooperation of stirring leaf and exhaust fan is used, heat the discharge cylinder, make the temperature of discharge cylinder keep about 30, simultaneously can stir concrete in the discharge cylinder, make more even of concrete heating, make the concrete just have certain temperature when pouring, make more complete of combining between the concrete, also can conveniently be to the kiln maintenance of concrete, prevent that the crackle from appearing between the concrete, when external temperature is lower, can keep warm to lubricating grease, prevent that external temperature from crossing low excessively and leading to lubricating grease to freeze, avoid the staff manual intensifies to lubricating grease, and the work efficiency is improved, and the utilization ratio of lubricating grease can be improved simultaneously.

5. Be provided with the flattening and collect the subassembly, through parallel and level electric putter, the flattening board, collect the frame, the cooperation that raises electric putter and baffle is used, get rid of unnecessary concrete on with the mould through the flattening board, carry out the flattening to the concrete simultaneously, improve the pleasing to the eye of post-production cost, can increase off-the-shelf quality simultaneously, getting rid of the in-process, unnecessary concrete gets into through the hole that leaks and collects the frame, collect the concrete, avoid the concrete extravagant, save the cost, make things convenient for the staff to collect unnecessary concrete and retrieve unnecessary concrete, improve the efficiency of collecting and retrieving.

Through rocking even subassembly, lubricating element, the cooperation of subassembly is collected to heat preservation heat-conducting component and flattening is used, make concrete can be even flow out from the discharge cylinder, avoid discharge cylinder outlet blockage, can reduce the gap between the concrete, make the inseparabler of combining between the concrete, avoid producing the gap between the concrete, reduce the spoilage of product, and therefore, the production cost is reduced, conveniently lubricate slide bar and sliding platform, reduce the noise that both produced, prolong life-span between them, make the concrete have certain temperature when pouring simultaneously, make the more complete of combining between the concrete, can keep warm to lubricating grease, improve the pleasing to the eye of cost after the production, can increase off-the-shelf quality simultaneously, get rid of the in-process, collect the concrete, avoid the concrete extravagant, and save the cost.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

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

FIG. 2 is a schematic view of a rebar column mounting structure of the present invention;

FIG. 3 is a schematic view of the mounting structure of the sliding platform of the present invention;

FIG. 4 is a schematic view of the shaking motor mounting structure of the present invention;

FIG. 5 is a schematic view of the roller mounting structure of the present invention;

FIG. 6 is a schematic view of the mounting structure of the grease containing cartridge of the present invention;

FIG. 7 is a schematic view of the compression spring mounting arrangement of the present invention;

FIG. 8 is a schematic view of an extension pole mounting arrangement of the present invention;

FIG. 9 is a schematic view of the structure for installing the heat conductive pipes of the present invention;

FIG. 10 is a schematic view of the heat shield mounting structure of the present invention;

fig. 11 is a schematic view of a screed mounting structure of the present invention;

FIG. 12 is a schematic view of the baffle mounting structure of the present invention;

reference numbers in the figures: 1. a base pillar; 2. fixing a wallboard matrix; 3. connecting the wallboard base bodies;

4. installing a fixed component; 401. a steel bar column; 402. a reinforcing steel bar groove; 403. fixing the circular steel bar; 404. connecting the circular reinforcing steel bars; 405. limiting the reinforcing steel bars; 406. a limiting plate; 407. fixing the screw rod; 408. an insert plate; 409. a limiting groove;

5. a mold; 6. a support pillar; 7. a slide bar; 8. a slide motor; 9. a sliding screw rod; 10. a sliding platform; 11. mounting a plate;

12. shaking the uniform assembly; 1201. mounting holes; 1202. a discharge cylinder; 1203. shaking the motor; 1204. shaking the screw rod; 1205. fastening the frame; 1206. a drive pulley; 1207. a belt; 1208. a driven pulley; 1209. a driving gear; 1210. a driven gear; 1211. rotating the column; 1212. a cam; 1213. a support bar; 1214. a roller groove; 1215. a roller; 1216. a connecting plate; 1217. a buffer spring; 1218. a limiting column; 1219. a buffer plate; 1220. a buffer rubber plate; 1221. a damping spring;

13. a lubrication assembly; 1301. a lubrication hole; 1302. mounting grooves; 1303. a compression spring; 1304. moving the plate; 1305. a pressing plate; 1306. a grease leakage hole; 1307. packing a grease box; 1308. pushing the plate; 1309. a rubber block; 1310. a manual push rod; 1311. an elongated slot; 1312. a limiting groove; 1313. a limiting rod; 1314. an extension pole; 1315. a rotating groove; 1316. a confinement ring;

14. a heat-preserving and heat-conducting component; 1401. a heat-preserving cylinder; 1402. an electric heating wire; 1403. a stirring motor; 1404. a stirring shaft; 1405. stirring blades; 1406. a heat conducting pipe; 1407. an exhaust fan; 1408. a heat insulation plate; 1409. a stationary ring; 1410. a connecting pipe; 1411. a fixed tube; 1412. an air inlet hole;

15. leveling and collecting components; 1501. a T-shaped groove; 1502. fixing grooves; 1503. a flush electric push rod; 1504. driving the block; 1505. a screed plate; 1506. a material leaking hole; 1507. fixing the rod; 1508. taking the groove; 1509. a collection frame; 1510. a sliding groove; 1511. a slider; 1512. lifting the electric push rod; 1513. and a baffle plate.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example 1: as shown in fig. 1-2, the invention provides a technical scheme, a combined assembly type building convenient to install, which comprises a foundation column 1, a fixed wallboard base body 2 and a connecting wallboard base body 3, wherein the fixed wallboard base body 2 is installed at one end of the top surface of the foundation column 1, and the connecting wallboard base body 3 is installed at the other end of the top surface of the foundation column 1;

the top end of the foundation column 1 is provided with a mounting and fixing component 4, and the mounting and fixing component 4 comprises a steel bar column 401, a steel bar groove 402, a fixed ring steel bar 403, a connecting ring steel bar 404, a limiting steel bar 405, a limiting plate 406, a fixing screw 407, an inserting plate 408 and a limiting groove 409;

reinforcing steel bars 401 are uniformly poured on the top surface of the foundation column 1, reinforcing steel bar grooves 402 are formed in the bottom surfaces of the fixed wall plate base body 2 and the connecting wall plate base body 3 corresponding to the reinforcing steel bars 401, fixed ring reinforcing steel bars 403 are uniformly installed at one end of the fixed wall plate base body 2, connecting ring reinforcing steel bars 404 are uniformly installed at one end of the connecting wall plate base body 3 close to the fixed wall plate base body 2, limiting steel bars 405 are poured inside the bottom ends of the fixed ring reinforcing steel bars 403 and the connecting ring reinforcing steel bars 404 on the top surface of the foundation column 1, limiting plates 406 are installed at both ends of the middle part of the front surface of the foundation column 1, the limiting plates 406 are connected with the front surface of the foundation column 1 through fixing screws 407, inserting plates 408 are installed at the positions, corresponding to the limiting plates 408, of the limiting grooves 409 are formed in the positions, corresponding to the limiting plates 406, the length of one ends of the limiting plates 406 is equal, and inside spacing reinforcing bar 405 was in fixed ring reinforcing bar 403 and connected ring reinforcing bar 404, conveniently put into spacing groove 409 with limiting plate 406 for fixed wallboard base member 2 is fixed more stable with connecting wallboard base member 3.

When a worker installs the fixed wallboard base body 2 and the connecting wallboard base body 3, the fixed wallboard base body 2 and the connecting wallboard base body 3 are hoisted by a crane, at the moment, the fixed wallboard base body 2 is placed on the foundation column 1, when the fixed wallboard base body 2 is placed downwards, the worker inserts the fixed wallboard base body 2 by adjusting the fixed wallboard base body 2, the inserting plate 408 is inserted into the limiting groove 409, the fixed wallboard base body 2 is limited firstly, so that the steel bar column 401 is conveniently inserted into the steel bar groove 402, the installation of the fixed wallboard base body 2 is completed, the worker can conveniently install the fixed wallboard base body 2, the worker can vertically observe the positions of the inserting plate 408 and the limiting groove 409, the worker does not need to observe in a half-squat mode, meanwhile, a mirror is not needed to observe, the labor intensity of the worker is reduced, the construction efficiency is improved, the problem proposed in the background technology is solved, after the installation is finished, fixed ring reinforcing bar 403 is in inside spacing reinforcing bar 405 this moment, and the fixed wallboard base member 2 of reinforcing is stable, avoids taking place the accident, improves staff's factor of safety.

Example 2: as shown in fig. 3-12, a combined assembly type building production device convenient to install comprises a mold 5, wherein support columns 6 are uniformly placed at two ends of the mold 5, the top ends of the support columns 6 at one end are welded on the bottom surfaces of two sliding rods 7, a sliding platform 10 is embedded between the two sliding rods 7, a sliding motor 8 is installed at one end of each sliding rod 7, the output end of each sliding motor 8 is connected with a sliding lead screw 9, each sliding lead screw 9 is connected to one end of each sliding platform 10 through a thread, one end of each sliding lead screw 9 is movably connected with a mounting plate 11, the mounting plate 11 is installed at one end, far away from the sliding motor 8, of each sliding rod 7 through a screw;

the shaking homogenizing assembly 12 is installed on the top surface of the sliding platform 10, and the shaking homogenizing assembly 12 comprises an installation hole 1201, a discharge cylinder 1202, a shaking motor 1203, a shaking screw 1204, a fastening frame 1205, a driving pulley 1206, a belt 1207, a driven pulley 1208, a driving gear 1209, a driven gear 1210, a rotating column 1211, a cam 1212, a support rod 1213, a roller groove 1214, a roller 1215, a connecting plate 1216, a buffer spring 1217, a limit column 1218, a buffer plate 1219, a buffer rubber plate 1220 and a shock absorption spring 1221;

the middle part of the top surface of the sliding platform 10 is provided with a mounting hole 1201, the interior of the mounting hole 1201 is embedded with a discharging cylinder 1202, the top surface of the sliding platform 10 is provided with a shaking motor 1203 near one end of the discharging cylinder 1202, an output shaft of the shaking motor 1203 is connected with a shaking lead screw 1204, the middle part of the shaking lead screw 1204 is connected with a fastening frame 1205 through threads, two ends of the fastening frame 1205 are respectively arranged at two ends of the outer side of the discharging cylinder 1202 through screws, the outer side of the output shaft of the shaking motor 1203 is fixedly sleeved with a driving pulley 1206, the bottom end of the driving pulley 1206 is provided with a driven pulley 1208, the driven pulley 1208 is connected with the driving pulley 1206 through a belt 1207, one end of the driven pulley 1208 is provided with a driving gear 1209 through a rotating shaft, one end of the driving gear 1209 is engaged with a driven gear 1210, the middle, and the inside of the protection hole is provided with a protection box through a bolt, the driving pulley 1206, the driven pulley 1208, the driving gear 1209 and the driven gear 1210 are all positioned inside the protection box, one end of a rotating column 1211 is movably connected to one end inside the protection box, so that the driving pulley 1206, the driven pulley 1208, the driving gear 1209 and the driven gear 1210 are conveniently protected, the driving pulley 1206, the driven pulley 1208, the driving gear 1209 and the driven gear 1210 are prevented from being influenced by outside dust and larger particles, and therefore the operation of the device is influenced, a supporting column 6 at one end is respectively arranged at one end of a connecting plate 1216 through a bolt, a supporting rod 1213 is uniformly arranged between the two connecting plates 1216 through a bolt, the top surface of the supporting rod 1213 is provided with a roller groove 1214, a roller 1215 is uniformly and movably arranged inside the roller groove 1214, one end of the connecting plate 1216 is uniformly, buffer board 1219 one end is in buffer spring 1217 inside and installs spacing post 1218 through the screw, and buffer board 1219 one end bonds there is buffer rubber board 1220, and the even welding in mounting hole 1201 both ends has damping spring 1221, and the input of rocking motor 1203 is connected with external power supply output electrical property.

A lubricating component 13 is arranged inside the sliding rod 7, and the lubricating component 13 comprises a lubricating hole 1301, a mounting groove 1302, a squeezing spring 1303, a moving plate 1304, a squeezing plate 1305, a grease leakage hole 1306, a grease containing box 1307, a pushing plate 1308, a rubber block 1309, a manual push rod 1310, an extension groove 1311, a limiting groove 1312, a limiting rod 1313, an extension rod 1314, a rotating groove 1315 and a limiting ring 1316;

a lubricating hole 1301 is formed in the sliding rod 7, mounting grooves 1302 are formed in two sides of the top end of the lubricating hole 1301, a plurality of extrusion springs 1303 are uniformly welded on the bottom surface of the mounting grooves 1302, the plurality of extrusion springs 1303 are welded on the bottom surface of the moving plate 1304, an extrusion plate 1305 is welded between the two moving plates 1304, a grease leakage hole 1306 is uniformly formed in the top surface of the extrusion plate 1305, a grease containing box 1307 is embedded in the lubricating hole 1301, a push plate 1308 is embedded in the grease containing box 1307, a rubber block 1309 is bonded on the top surface of the push plate 1308, a manual push rod is connected with one end of the push plate 1308 through threads, an extension groove 1311 is formed in one end of the manual push rod 1310, a limiting groove 1312 is formed in each of two ends of the extension groove 1311, a limiting rod 1313 is slidably connected with one end of each limiting rod 1313, the two limiting rods 1313 are respectively installed on two sides of one end, the diameter of the rotating groove 1315 is equal to that of the limiting rod 1313, the grease box 1307 is convenient to move in the lubricating hole 1301, lubricating grease is convenient to put into the lubricating hole 1301, a worker can push the extension rod 1314 conveniently, the extending groove 1311 is located at two ends of the outer side, the rotating groove 1315 is formed, and one end of the manual push rod 1310 is arranged.

One end of the discharging cylinder 1202 is provided with a heat-insulating and heat-conducting component 14, and the heat-insulating and heat-conducting component 14 comprises a heat-insulating cylinder 1401, a heating wire 1402, a stirring motor 1403, a stirring shaft 1404, a stirring blade 1405, a heat-conducting pipe 1406, an exhaust fan 1407, a heat-insulating plate 1408, a fixing ring 1409, a connecting pipe 1410, a fixing pipe 1411 and an air inlet 1412;

a heat preservation cylinder 1401 is installed inside a discharge cylinder 1202 through screws, heating wires 1402 are evenly installed inside the heat preservation cylinder 1401, a stirring motor 1403 is installed at one end, far away from a shaking motor 1203, of the top end of a sliding platform 10, an output shaft of the stirring motor 1403 is connected with a stirring shaft 1404, a stirring blade 1405 is fixedly sleeved outside the stirring shaft 1404, the middle of the stirring shaft 1404 is located inside the discharge cylinder 1202, the stirring shaft 1404 is movably installed inside the discharge cylinder 1202, two ends of the stirring shaft 1404 are located outside the discharge cylinder 1202, the stirring blade 1405 can stir concrete inside the discharge cylinder 1202 conveniently, the discharge cylinder 1202 can move conveniently, one end of the discharge cylinder 1202 is connected with a heat conduction pipe 1406 through screws, an exhaust fan 1407 is installed inside the heat conduction pipe 1406, a fixing ring 1409 is hinged inside the heat conduction pipe 1406 and close to the discharge cylinder 1202, one end of the fixing ring 1409 is provided with a, an air inlet 1412 is formed in one end of the sliding rod 7 corresponding to the fixing tube 1411, one end of the fixing tube 1411 is adhered to one end of the sliding rod 7, and input ends of the heating wire 1402, the stirring motor 1403 and the exhaust fan 1407 are electrically connected with an output end of an external power supply.

A leveling and collecting assembly 15 is arranged between two adjacent supporting columns 6, and the leveling and collecting assembly 15 comprises a T-shaped groove 1501, a fixing groove 1502, a leveling electric push rod 1503, a driving block 1504, a leveling plate 1505, a material leaking hole 1506, a fixing rod 1507, a taking groove 1508, a collecting frame 1509, a sliding groove 1510, a sliding block 1511, a lifting electric push rod 1512 and a baffle 1513;

t-shaped groove 1501 is formed at one end of support column 6, fixing groove 1502 is formed at the bottom surface of T-shaped groove 1501, parallel electric push rod 1503 is installed inside fixing groove 1502, parallel electric push rod 1503 is installed at the top end of parallel electric push rod 1503, driving blocks 1504 are installed inside T-shaped groove 1501, two driving blocks 1504 are installed at two ends of leveling plate 1505, material leaking holes 1506 are evenly formed in the top surface of leveling plate 1505, fixing rods 1507 are welded at two ends of one side of leveling plate 1505, collecting frame 1509 is installed at one end of leveling plate 1505, taking groove 1508 is formed in the position, corresponding to fixing rods 1507, of collecting frame 1509, sliding grooves 1510 are formed in two ends inside of collecting frame 1509, sliding blocks 1511 are installed in embedded mode inside sliding grooves 1510, two sliding blocks 1511 are movably installed at two ends of baffle 1513 respectively, the driving blocks 1504 are T-shaped and the cross section of T-shaped groove 1501 are identical in, conveniently drive piece 1504 and remove in T type groove 1501, in making things convenient for the concrete to get into collection frame 1509, collection frame 1509 is in the top of sliding tray 1510 and installs lifting electric putter 1512, and lifting electric putter 1512 bottom is installed in the sliding block 1511 top surface, and the input of parallel and level electric putter 1503 and lifting electric putter 1512 all is connected with external power output end electrical property.

The mold 5 is conveyed to the bottom end of the discharging cylinder 1202 through the existing conveying device in the existing factory, concrete is added into the discharging cylinder 1202, the sliding motor 8 is started to drive the sliding screw rod 9 to rotate, so that the sliding platform 10 is driven to move on the sliding rod 7, the concrete is placed into the mold 5, and the production of the wall body is completed;

in the process, the shaking motor 1203 is started, the shaking screw 1204 is driven to rotate through rotation of an output shaft of the shaking motor 1203, so that the fastening frame 1205 is driven to move along with the shaking screw, the discharging cylinder 1202 is driven to move in the mounting hole 1201 through movement of the fastening frame 1205, the discharging cylinder 1202 shakes, and concrete can uniformly flow out of the discharging cylinder 1202 through shaking of the discharging cylinder 1202, so that the concrete is uniformly distributed in the mold 5, outlet blockage of the discharging cylinder 1202 is avoided, the cleaning frequency of workers is reduced, the labor intensity in the workers is reduced, and the working efficiency is improved;

when the swinging screw 1204 runs, the driving pulley 1206 is driven to rotate, the driven pulley 1208 is driven to rotate through the rotation of the driving pulley 1206, so that the driving gear 1209 and the driven gear 1210 are driven to rotate, the rotating column 1211 and the cam 1212 are driven to rotate through the rotation of the driven gear 1210, the cam 1212 is continuously contacted with the mold 5, and the mold 5 is continuously swung left and right, so that concrete entering the mold 5 is distributed in the mold 5 more uniformly, gaps among the concrete can be reduced, the concrete is combined more tightly, gaps among the concrete are avoided, the damage rate of products is reduced, and the production cost is reduced;

when cam 1212 drives mould 5 and shakes, gyro wheel 1215 rotates in roller groove 1214 this moment, can reduce the frictional force between mould 5 and the bracing piece 1213, make things convenient for mould 5 to shake on bracing piece 1213, can reduce cost, through cushion rubber plate 1220 and cushion plate 1219, avoid mould 5 direct and connecting plate 1216 contact, simultaneously when mould 5 and cushion rubber plate 1220 contact, damping spring 1221 compression this moment, drive spacing post 1218 and remove, it is spacing to damping spring 1221, prevent that damping spring 1221 from rocking, the noise that produces when can reducing mould 5 and shake, simultaneously can cushion mould 5 again, avoid in the production process because the too big staff that influences of noise, simultaneously can prolong mould 5's life again.

Adding lubricating grease into the grease containing box 1307, placing the grease containing box 1307 into the lubricating hole 1301, when the sliding platform 10 moves on the sliding rod 7, at this time, the sliding platform 10 compresses the extrusion plate 1305, so that the extrusion spring 1303 is compressed, and through the compression of the extrusion spring 1303, the moving plate 1304 is driven to move in the mounting groove 1302, so that the extrusion plate 1305 is extruded into the lubricating hole 1301, so that the lubricating grease in the lubricating hole 1301 leaks out through the grease leakage hole 1306, lubricating the sliding rod 7, reducing the friction force between the sliding platform 10 and the sliding rod 7, and reducing the heat generated between the sliding platform 10 and the sliding rod 7, so as to reduce the consumption of the sliding platform 10 and the sliding rod 7, prolong the service lives of the sliding rod 7 and the sliding platform 10, and reduce the noise generated between the two;

when less lubricating grease leaks from the grease leakage hole 1306, at the moment, a worker puts the manual push rod 1310 into the lubricating hole 1301, rotates the manual push rod 1310, enables the manual push rod 1310 to be fixedly connected with the push plate 1308, pushes the manual push rod 1310 to drive the push plate 1308 in the lubricating hole 1301, so that the lubricating oil in the lubricating hole 1301 is pushed to move, the lubricating oil in the lubricating hole 1301 is concentrated, more lubricating grease can be squeezed out when the sliding platform 10 moves, the sliding platform 10 is lubricated without frequent addition of lubricating grease to the sliding rod 7 by the worker, the working efficiency is improved, and the labor intensity of the worker is saved;

when the length of the manual push rod 1310 is insufficient, at this moment, the worker moves the extension rod 1314, the extension rod 1314 is taken out of the extension groove 1311, the extension rod 1314 is moved to drive the limiting rod 1313 to move in the limiting groove 1312, the extension rod 1314 is rotated, the limiting rod 1313 is rotated into the limiting groove 1312, the extension rod 1314 is fixed, the worker can push the push plate 1308 conveniently, meanwhile, when the manual push rod 1310 is not used, the manual push rod 1310 can be taken out of the lubricating hole 1301, the situation that the manual push rod 1310 occupies a large space is avoided, and the utilization rate of the space is improved.

When concrete is poured, the heating wire 1402 is started, the heat-insulating cylinder 1401 is heated, and the discharge cylinder 1202 is heated, so that the temperature of the discharge cylinder 1202 is kept at about 30 degrees (the data is measured in the existing operation and is at a normal temperature), at the moment, the motor stirring motor 1403 is started, the stirring shaft 1404 and the stirring blades 1405 are driven to rotate through the rotation of the stirring motor 1403, so that the concrete in the discharge cylinder 1202 is stirred, the concrete is heated more uniformly, the concrete has a certain temperature when being poured, the concrete is combined more completely, the concrete can be conveniently cured in a kiln, and cracks are prevented from appearing between the concrete;

when the ambient temperature is lower, the staff installs heat pipe 1406 on unloading cylinder 1202, the staff can open retainer ring 1409, take out heat insulating board 1408 from heat pipe 1406, open exhaust fan 1407, pass through heat pipe 1406 with the produced heat of heat insulating cylinder 1401, during connecting pipe 1410 and the leading-in lubrication hole 1301 of retainer tube 1411, keep warm to lubricating grease, prevent that the ambient temperature from crossing excessively and leading to lubricating grease to freeze, can't lubricate sliding platform 10 and slide bar 7, avoid the staff manual to heat up lubricating grease, and the work efficiency is improved, and the utilization ratio of lubricating grease can be improved simultaneously.

After pouring is finished, the mold 5 is driven to move through the conveying device, the leveling electric push rod 1503 is opened, the driving block 1504 is pushed to move in the T-shaped groove 1501, the bottom surface of the leveling plate 1505 and the top surface of the mold 5 are located on the same horizontal plane, in the moving process of the mold 5, redundant concrete on the mold 5 is removed through the leveling plate 1505, meanwhile, the concrete is leveled, the attractiveness of the cost after production is improved, meanwhile, the quality of a finished product can be improved, in the removing process, the redundant concrete enters the collecting frame 1509 through the material leaking hole 1506, the concrete is collected, the waste of the concrete is avoided, and the cost is saved;

after the pouring is finished, open and raise electric putter 1512, drive sliding block 1511 and remove in sliding tray 1510, make baffle 1513 one end rise the back, because articulated each other between baffle 1513 and the sliding block 1511, the baffle 1513 other end is also along with rotating this moment, stop the concrete in collecting frame 1509, prevent when retrieving the concrete, the concrete drops, influence staff's work, the staff is through removing collection frame 1509, drive dead lever 1507 and remove in the groove 1508 of taking, it alright to take out to collect frame 1509, make things convenient for the staff to collect unnecessary concrete and retrieve unnecessary concrete, improve the efficiency of collecting and retrieving.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a combination formula prefabricated building convenient to installation which characterized in that: the wall plate fixing structure comprises a foundation column (1), a fixed wall plate base body (2) and a connecting wall plate base body (3), wherein the fixed wall plate base body (2) is installed at one end of the top surface of the foundation column (1), and the connecting wall plate base body (3) is installed at the other end of the top surface of the foundation column (1);

the top end of the foundation column (1) is provided with a mounting and fixing component (4), and the mounting and fixing component (4) comprises a steel bar column (401), a steel bar groove (402), a fixed ring steel bar (403), a connecting ring steel bar (404), a limiting steel bar (405), a limiting plate (406), a fixed screw (407), an inserting plate (408) and a limiting groove (409);

reinforcing steel bars (401) are uniformly poured on the top surface of the foundation column (1), reinforcing steel bar grooves (402) are formed in the bottom surfaces of the fixed wallboard base body (2) and the connecting wallboard base body (3) corresponding to the reinforcing steel bars (401), fixed circular steel bars (403) are uniformly installed at one end of the fixed wallboard base body (2), connecting circular steel bars (404) are uniformly installed at one end, close to the fixed wallboard base body (2), of the connecting wallboard base body (3), limiting steel bars (406) are uniformly installed at two ends of the middle of the front surface of the foundation column (1), the limiting plates (406) are positively connected with the foundation column (1) through fixing screws (407), and inserting plates (408) are installed at positions, corresponding to the limiting plates (406), of the front surfaces of the fixed wallboard base body (2) and the connecting wallboard base body (3) through screws, the position of the limiting plate (406) corresponding to the inserting plate (408) is provided with a limiting groove (409).

2. The modular assembly type building convenient to install according to claim 1, wherein the length of one end of the limiting plate (406) is equal to the length and the width of one end of the limiting groove (409), the fixed ring steel bars (403) and the connecting ring steel bars (404) are staggered with each other, and the limiting steel bars (405) are arranged inside the fixed ring steel bars (403) and the connecting ring steel bars (404).

3. The conveniently-installed combined type assembly type building according to any one of claims 1-2, further comprising a production device, wherein the production device comprises a mold (5), support columns (6) are uniformly placed at two ends of the mold (5), the top ends of the support columns (6) at one end are welded on the bottom surfaces of sliding rods (7), a sliding platform (10) is embedded between the two sliding rods (7), a sliding motor (8) is installed at one end of each sliding rod (7), a sliding lead screw (9) is connected to the output end of each sliding motor (8), the sliding lead screw (9) is connected to one end of each sliding platform (10) through threads, a mounting plate (11) is movably connected to one end of each sliding lead screw (9), and the mounting plate (11) is installed at one end, far away from the sliding motor (8), of each sliding rod (7) through screws, the input end of the sliding motor (8) is electrically connected with the output end of an external power supply;

the top surface of the sliding platform (10) is provided with a shaking uniform assembly (12);

the shaking uniform assembly (12) comprises a mounting hole (1201), a discharging cylinder (1202), a shaking motor (1203), a shaking screw rod (1204), a fastening frame (1205), a driving pulley (1206), a belt (1207), a driven pulley (1208), a driving gear (1209), a driven gear (1210), a rotating column (1211), a cam (1212), a supporting rod (1213), a roller groove (1214), a roller (1215), a connecting plate (1216), a buffer spring (1217), a limiting column (1218), a buffer plate (1219), a buffer rubber plate (1220) and a damping spring (1221);

the middle of the top surface of the sliding platform (10) is provided with a mounting hole (1201), a discharging cylinder (1202) is embedded in the mounting hole (1201), a shaking motor (1203) is mounted at one end, close to the discharging cylinder (1202), of the top surface of the sliding platform (10), an output shaft of the shaking motor (1203) is connected with a shaking lead screw (1204), the middle of the shaking lead screw (1204) is connected with a fastening frame (1205) through threads, and two ends of the fastening frame (1205) are respectively mounted at two ends of the outer side of the discharging cylinder (1202) through screws;

a driving belt pulley (1206) is fixedly sleeved on the outer side of an output shaft of the shaking motor (1203), a driven belt pulley (1208) is installed at the bottom end of the driving belt pulley (1206), the driven belt pulley (1208) is connected with the driving belt pulley (1206) through a belt (1207), a driving gear (1209) is installed at one end of the driven belt pulley (1208) through a rotating shaft, a driven gear (1210) is meshed at one end of the driving gear (1209), the middle of the driven gear (1210) is sleeved on the outer side of a rotating column (1211), and a cam (1212) is welded at one end of the rotating column (1211), close to one side of the driven gear (1210);

the supporting columns (6) are respectively arranged at one ends of the connecting plates (1216) through screws at one end, supporting rods (1213) are uniformly arranged between the two connecting plates (1216) through screws, roller grooves (1214) are formed in the top surfaces of the supporting rods (1213), rollers (1215) are uniformly and movably arranged in the roller grooves (1214), a plurality of buffer springs (1217) are uniformly welded at one end of each connecting plate (1216), and a plurality of buffer springs (1217) are uniformly welded at one end of each buffer plate (1219);

buffer board (1219) one end is in inside through the screw installation of buffer spring (1217) spacing post (1218), buffer board (1219) one end bonds and has cushion rubber board (1220), damping spring (1221) have evenly welded in mounting hole (1201) both ends, the input of rocking motor (1203) is connected with external power supply output electrical property.

4. The assembled building production device convenient to install of claim 3, wherein the top surface of the sliding platform (10) is arranged on the outer side of the driving pulley (1206) and is provided with a protection hole, a protection box is installed inside the protection hole through a bolt, the driving pulley (1206), the driven pulley (1208), the driving gear (1209) and the driven gear (1210) are all arranged inside the protection box, and one end of the rotating column (1211) is movably connected to one end inside the protection box.

5. A modular prefabricated building production unit easy to install according to claim 3, characterized in that said sliding rod (7) internally houses a lubricating assembly (13);

the lubricating component (13) comprises a lubricating hole (1301), a mounting groove (1302), an extrusion spring (1303), a moving plate (1304), an extrusion plate (1305), a grease leakage hole (1306), a grease containing box (1307), a push plate (1308), a rubber block (1309), a manual push rod (1310), an extension groove (1311), a limiting groove (1312), a limiting rod (1313), an extension rod (1314), a rotating groove (1315) and a limiting ring (1316);

a lubricating hole (1301) is formed in the sliding rod (7), mounting grooves (1302) are formed in two sides of the top end of the lubricating hole (1301), a plurality of extrusion springs (1303) are uniformly welded on the bottom surfaces of the mounting grooves (1302), the extrusion springs (1303) are welded on the bottom surfaces of the moving plates (1304), an extrusion plate (1305) is welded between the two moving plates (1304), and grease leakage holes (1306) are uniformly formed in the top surface of the extrusion plate (1305);

a grease containing box (1307) is embedded in the lubricating hole (1301), a push plate (1308) is embedded in the grease containing box (1307), a rubber block (1309) is bonded on the top surface of the push plate (1308), and one end of the push plate (1308) is connected with a manual push rod (1310) through threads;

an extension groove (1311) is formed in one end of the manual push rod (1310), limiting grooves (1312) are formed in two ends of the interior of the extension groove (1311), one end of each limiting groove (1312) is connected with a limiting rod (1313) in a sliding mode, the two limiting rods (1313) are installed on two sides of one end of each extension rod (1314) respectively, rotating grooves (1315) are formed in two ends, located on the outer side, of the extension groove (1311), and one end of the manual push rod (1310) is arranged.

6. The assembled type assembly type building production device convenient to install as claimed in claim 3, wherein the shape of the longitudinal section of the lubricating hole (1301) is the same as that of the longitudinal section of the grease containing box (1307), an anti-skidding sleeve is fixedly sleeved at one end of the outer side of the extension rod (1314), and the diameter of the rotating groove (1315) is equal to that of the limiting rod (1313).

7. An easily installable modular assembly building production apparatus as claimed in claim 3 wherein the discharge drum (1202) is provided with a thermally insulating and thermally conductive assembly (14) at one end;

the heat-insulation heat-conduction component (14) comprises a heat-insulation cylinder (1401), an electric heating wire (1402), a stirring motor (1403), a stirring shaft (1404), stirring blades (1405), a heat-conduction pipe (1406), an exhaust fan (1407), a heat-insulation plate (1408), a fixing ring (1409), a connecting pipe (1410), a fixing pipe (1411) and an air inlet hole (1412);

a heat preservation cylinder (1401) is installed inside the discharging cylinder (1202) through screws, heating wires (1402) are evenly installed inside the heat preservation cylinder (1401), a stirring motor (1403) is installed at one end, far away from the shaking motor (1203), of the top end of the sliding platform (10), an output shaft of the stirring motor (1403) is connected with a stirring shaft (1404), and stirring blades (1405) are fixedly sleeved on the outer side of the stirring shaft (1404);

one end of the discharging cylinder (1202) is connected with a heat conducting pipe (1406) in a penetrating mode through a screw, an exhaust fan (1407) is installed inside the heat conducting pipe (1406), a fixing ring (1409) is hinged to the position, close to the discharging cylinder (1202), inside the heat conducting pipe (1406), one end of the fixing ring (1409) is bonded with a heat insulation plate (1408), one end of the heat conducting pipe (1406) is bonded with a connecting pipe (1410), one end of the connecting pipe (1410) is bonded with a fixing pipe (1411), one end of the sliding rod (7) is provided with an air inlet hole (1412) corresponding to the fixing pipe (1411), and one end of the fixing pipe (1411) is bonded to one end of the;

the input ends of the heating wire (1402), the stirring motor (1403) and the exhaust fan (1407) are electrically connected with the output end of the external power supply.

8. An easily installable modular building and apparatus for its manufacture as claimed in claim 7 wherein the mixer shaft (1404) is located inside the discharge shaft (1202) in the middle, the mixer shaft (1404) is movably installed inside the discharge shaft (1202) and the mixer shaft (1404) is located outside the discharge shaft (1202) at both ends.

9. An easily installable modular assembly building production facility according to claim 3 wherein a levelling collector assembly (15) is installed between two adjacent support columns (6);

the leveling and collecting assembly (15) comprises a T-shaped groove (1501), a fixing groove (1502), a leveling electric push rod (1503), a driving block (1504), a leveling plate (1505), a material leaking hole (1506), a fixing rod (1507), a taking groove (1508), a collecting frame (1509), a sliding groove (1510), a sliding block (1511), a lifting electric push rod (1512) and a baffle (1513);

one end of the supporting column (6) is provided with a T-shaped groove (1501), the bottom surface of the T-shaped groove (1501) is provided with a fixing groove (1502), a leveling electric push rod (1503) is installed inside the fixing groove (1502), the top end of the leveling electric push rod (1503) is located inside the T-shaped groove (1501) and is provided with driving blocks (1504), two driving blocks (1504) are installed at two ends of a leveling plate (1505) between the two driving blocks, and the top surface of the leveling plate (1505) is uniformly provided with material leaking holes (1506);

fixing rods (1507) are welded at two ends of one side of the leveling plate (1505), a collecting frame (1509) is installed at one end of the leveling plate (1505), and a taking groove (1508) is formed in the position, corresponding to the fixing rods (1507), of the collecting frame (1509);

sliding tray (1510) have all been seted up at collection frame (1509) inside both ends, sliding tray (1510) inside embedded mounting has sliding block (1511), two sliding block (1511) movable mounting respectively in baffle (1513) both ends, collect frame (1509) and be in sliding tray (1510) top and install and rise electric putter (1512), rise electric putter (1512) bottom is installed in sliding block (1511) top surface, parallel and level electric putter (1503) and the input of rising electric putter (1512) all are connected with external power supply output electric property.

10. An easily installable modular assembly building production apparatus as claimed in claim 9, wherein the said driver block (1504) and the T-shaped groove (1501) are both T-shaped and have the same cross-section, the inner diameter of the said driver block (1504) is equal to the outer diameter of the T-shaped groove (1501), and the angle between the top and bottom surfaces of the said baffle (1513) is 10-30 °.