CN217257167U - Automatic production line system for intelligent building prefabricated parts - Google Patents

Abstract

The utility model provides a building intelligence prefabricated component automation line, including haydite cement foaming lightweight concrete mixing station, cloth machine, smoothing machine, shaking table, prefabricated wallboard mould system, prefabricated component preparation platform. The automatic production line system for the prefabricated parts reduces wet operation of a construction site, reduces environmental pollution of the construction site, saves manpower and reduces consumption of building materials. The utility model discloses be favorable to antidetonation, safety in production, shorten building construction period, be favorable to green, environmental protection, low carbon, energy-conservation, intelligent development process, provide the feasibility scheme for the scientific management of assembly type building trade.

Description

Automatic production line system for intelligent building prefabricated parts

Technical Field

The utility model belongs to the building field, specifically speaking relates to a building intelligence prefabricated component automation line system.

Background

With the rapid development of science and technology, the building industry is rapidly advanced, and due to the long construction period and the high construction cost, the rapid development of economy and the improvement of the living standard of people are hindered to a certain extent, the assembly type building is constructed by an industrialized production mode, but at present, the assembly type building is increasingly used, however, the existing assembly type building prefabricated part has the defects of single processing production and installation mode, complicated processing production and installation process of the prefabricated part, serious environment pollution on a construction site, poor air quality, difficult control of building material consumption, large demand of constructors, and no obvious effects of saving the construction period and reducing the construction cost.

SUMMERY OF THE UTILITY MODEL

The utility model provides a solve above-mentioned problem and provide a building intelligence prefabricated component automation line system.

The technical scheme of the utility model is realized like this: an automatic production line system for building intelligent prefabricated components comprises a ceramsite cement foaming lightweight concrete mixing station, a material distributor, a troweling machine, a vibrating table, a prefabricated wallboard mold system and a prefabricated component manufacturing platform, wherein the ceramsite cement foaming lightweight concrete mixing station comprises a steel pipe combined support, the steel pipe combined support is provided with a steel structure working platform, a water storage tank is arranged below the steel structure working platform, the steel structure working platform is provided with a mixing tank, a case and a control cabinet, a feeding tank is arranged above the mixing tank and is fixedly connected with the steel structure combined support, one side of the mixing tank is provided with a discharge port and a numerical control push-pull rod, one end of the numerical control push-pull rod is fixedly connected with the mixing tank, and the other end of the numerical control push-pull rod is connected with a cover plate on the discharge port; a feeding port is formed in the steel structure working platform below the discharge port, and a prefabricated wallboard combined die system is arranged below the feeding port;

preferably, the prefabricated wallboard combined die system comprises a profile steel combined base, a fixed profile steel combined support and a movable profile steel combined support are arranged on the profile steel combined base, a wallboard combined die is arranged between the fixed profile steel combined support and the movable profile steel combined support, a reinforcing device is arranged on the fixed profile steel combined support and the movable profile steel combined support, a walking wheel A is arranged below the profile steel combined base, a control box A and a driving motor A are arranged at one end of the profile steel combined base, and the driving motor A is connected with the walking wheel A through a transmission shaft;

preferably, the distributing machine is arranged at one side of the concrete mixing station, the concrete mixing station is connected with the distributing box hopper through a concrete conveying pipe, the distributing box hopper is arranged on the combined bracket of the distributing machine, the lower end of the beam of the combined bracket of the distributing machine is provided with a travelling wheel C, the two ends below the combined bracket of the distributing machine are respectively provided with a longitudinal steel beam track A, two parallel transverse steel beam tracks A are arranged above the longitudinal steel beam tracks A, walking wheels B are arranged below the transverse steel beam tracks A, the travelling wheels B move longitudinally along the longitudinal steel beam tracks A on the two sides, the transverse steel beam tracks A are provided with driving motors B and control boxes B, the driving motor B is connected with the traveling wheel B through a transmission shaft, the distributing machine combined bracket is provided with a driving motor C, the driving motor C is connected with the walking wheel C through a transmission shaft and drives the walking wheel C to transversely move along the transverse steel beam track A;

preferably, the troweling machine comprises a troweling machine head piece, the troweling machine head piece is connected with a troweling machine combined support through a vertical transmission shaft, a traveling wheel D is arranged at the lower end of the troweling machine combined support, the traveling wheel D transversely moves along two transverse steel beam tracks B, traveling wheels E are arranged below the left side and the right side of the transverse steel beam track B (73), the traveling wheels E longitudinally move along the two longitudinal steel beam tracks B, a driving motor E and a control box C are arranged on the troweling machine combined support, the driving motor E is connected with the traveling wheel D through a transmission shaft, a driving motor D is arranged at one end of the transverse steel beam track B, and the driving motor D is connected with the traveling wheels E through a transmission shaft;

preferably, both ends of the transverse steel beam track A and the transverse steel beam track B are provided with a stopper;

preferably, the prefabricated part manufacturing platform comprises a production line platform, hanging rings are arranged on two sides of the production line platform, a prefabricated reinforced concrete beam, a prefabricated reinforced concrete stair beam, a prefabricated stair tread and a prefabricated laminated slab are arranged on the production line platform, and the production line platform is placed in a stacked mode through a supporting split heads;

preferably, the vibration table comprises a vibration table combined base, a plurality of vibration springs are evenly arranged on the vibration table combined base, a vibration table board is arranged on the vibration springs, a fixer is arranged on the periphery of the vibration table board, the prefabricated part production line platform is fixed on the vibration table board through the fixer, and a vibration motor is arranged below the vibration table board.

The utility model has the advantages that: the automatic production line system for the prefabricated parts reduces wet operation of a construction site, reduces environmental pollution of the construction site, saves manpower, reduces consumption of building materials, is beneficial to green, environment-friendly, low-carbon, energy-saving and intelligent development processes, is beneficial to anti-seismic and safe production, shortens construction period of the building, and provides a feasible scheme for scientific management of the assembly type building industry.

Drawings

FIG. 1 is a schematic view of a ceramsite cement foamed lightweight concrete mixing station of the present invention;

fig. 2 is a schematic view of the ceramsite cement foamed lightweight concrete light steel keel wallboard mould system of the present invention;

FIG. 3 is a schematic view of a concrete spreader of a prefabricated part production line of the present invention;

FIG. 4 is a schematic view of a troweling machine of a production line of prefabricated parts of the present invention;

FIG. 5 is a schematic view of a production line platform of the prefabricated parts of the present invention;

FIG. 6 is a schematic view of the vibration table of the prefabricated component production line of the present invention;

FIG. 7 is a schematic view of the prefabricated interior wall panel of the present invention;

FIG. 8 is a schematic view of the prefabricated inner side wall panel of the present invention;

FIG. 9 is a schematic view of the prefabricated outer wall panel of the present invention;

fig. 10 is the utility model discloses a precast reinforced concrete roof beam, precast composite slab installation schematic diagram.

FIG. 11 is a schematic view of the installation of the prefabricated wall panels of the present invention;

fig. 12 is the installation schematic diagram of the prefabricated staircase of the present invention.

Description of the parts: 1. a feeding box, 2, a chassis, 3, a discharging port, 4, a control cabinet, 5, a section steel combined support, 6, a safety guardrail, 7, a mixing box, 8, a numerical control push-pull rod, 9, a feeding port, 10, a steel structure working platform, 11, a steel pipe combined support, 12, a prefabricated wallboard combined die system, 13, a water storage box, 14, a steel structure ladder, 15, a wallboard combined die, 16, a fixed section steel combined support, 17, a reinforcing device, 18, a movable section steel combined support, 19, a control box A, 20, a driving motor A, 21, a section steel combined base, 22, a traveling wheel A, 29, a concrete conveying pipe, 30, a transverse steel beam rail A, 31, a distributing box hopper, 32, a longitudinal steel beam rail A, 33, a discharging port cover plate, 34, a transmission shaft, 35, a limiting device, 36, a vertical transmission shaft, 37, a trowelling machine head sheet, 38, a prefabricated reinforced concrete beam, 39, a prefabricated reinforced concrete stair beam, 40. a lifting ring 41, a prefabricated stair tread plate 42, a prefabricated composite slab 43, a production line platform 44, a fixer 45, a vibration table top 46, a vibration spring 47, ceramsite cement foamed lightweight concrete 48, a cement pressure plate 49, a preformed hole 50, a light steel keel 51, a column steel bar 52, a prefabricated part mounting and supporting system 53, a reinforced concrete floor slab 54, a reinforced concrete beam 55, a reinforced concrete column 56, a heat insulation plate 57, an outer wall inner side plate 58, a sound insulation plate 59, an outer wall outer side plate 60, an inner wall plate 61, a mounting preformed hole 62, a distributor combined bracket 63, a traveling wheel B64, a driving motor B65, a driving motor C66, a traveling wheel C67, a control box B68, a troweling machine combined bracket 69, a traveling wheel D70, a longitudinal steel beam track B71, a driving motor D, 72. control box C, 73, horizontal girder steel track B, 74, driving motor E, 75, road wheel E.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to the attached drawings 1-12, an automatic production line system for building intelligent prefabricated components comprises a ceramsite cement foamed lightweight concrete mixing station, a material distributor, a troweling machine, a vibrating table, a prefabricated wallboard mold system and a prefabricated component manufacturing platform, wherein the ceramsite cement foamed lightweight concrete mixing station comprises a steel pipe combined support 11, a steel structure working platform 10 is arranged on the steel pipe combined support 11, a water storage tank 13 is arranged below the steel structure working platform 10, a mixing tank 7, a case 2 and a control cabinet 4 are arranged on the steel structure working platform 10, a feeding tank 1 is arranged above the mixing tank 7, the feeding tank 1 is fixedly connected with a steel structure combined support 5, a discharge port 3 and a numerical control push-pull rod 8 are arranged on one side of the mixing tank 7, one end of the numerical control push-pull rod 8 is fixedly connected with the mixing tank 7, the other end of the numerical control push-pull rod is connected with a cover plate on the discharge port 3, a feeding port 9 is arranged on the steel structure working platform 10 below the discharge port 3, a prefabricated wallboard combined die system 12 is arranged below the feed opening 9.

In the ceramsite cement foamed lightweight concrete mixing station, a steel structure working platform 10 is arranged on the upper part of a steel pipe combined support 11 and is connected with the steel structure working platform 10 through bolts, a steel structure ladder 14 is connected with the steel structure working platform 10 through bolts, safety guardrails 6 are arranged on the peripheries of the steel structure ladder 14 and the steel structure working platform 10, a mixing box 7 and a case 2 are arranged on the upper part of the steel structure working platform 10, a feeding box 1 and a profile steel combined support 5 are connected and arranged on the upper part of the mixing box 7, the mixing box 7 is provided with a discharge port 3, one end of a numerical control push-pull rod 8 is connected on the mixing box 7, the other end of the numerical control push-pull rod is connected on a discharge port cover plate, a feeding port 9 is arranged below the discharge port 3 on the steel structure working platform 10, ceramsite cement foamed lightweight concrete 47 is poured in a prefabricated wallboard combined mold system 12 template through the feeding port 9, the flow rate of the ceramsite cement foamed lightweight concrete 47 is controlled by the numerical control push-pull rod 8 arranged on the discharge port cover plate, an industrial computer control system monitors the working process of the ceramsite cement foamed lightweight concrete mixing station, and a water storage tank 13 is arranged below the steel structure working platform 10.

Ceramsite cement foaming lightweight concrete light steel keel wallboard mould system is equipped with fixed shaped steel combination brace 16 and removal shaped steel combination brace 18 on shaped steel built-up base 21 upper portion, middle installation wallboard combined mould 15, through reinforcer 17 to fixed shaped steel combination brace 16, wallboard combined mould 15 and the 18 reinforcement of removal shaped steel combination brace, shaped steel combined base 21 lower part is equipped with walking wheel 22, driving motor 20 drives walking wheel 22 through the transmission shaft and makes prefabricated wallboard combined mould system 12 moving as a whole, industrial computer control system control box 19 control prefabricated wallboard combined mould system 12 work operation.

The distributing machine is arranged on one side of the concrete mixing station, the concrete mixing station is connected with a distributing box hopper 31 through a concrete conveying pipe 29, the concrete output by the concrete mixing station is conveyed into the distributing box hopper 31 through the concrete conveying pipe 29, the flow rate of the concrete is controlled by a numerical control push-pull rod arranged on a discharging port cover plate 33, the concrete is then distributed into a prefabricated part mould through a discharging port of the distributing box hopper 31, the distributing box hopper 31 is arranged on a distributing machine combined bracket 62, a traveling wheel C66 is arranged at the lower end of a cross beam of the distributing machine combined bracket 62, longitudinal steel beam rails A32 are respectively arranged at the two lower ends of the distributing machine combined bracket 62, two parallel transverse steel beam rails A30 are arranged above the longitudinal steel beam rails A32, a traveling wheel B63 is arranged below the transverse steel beam rails A30, the traveling wheel B63 longitudinally moves along the longitudinal steel beam rails A32 at two sides, a driving motor B64 and a control box B67 are arranged on the transverse steel beam rails A30, the driving motor B64 is connected with a traveling wheel B63 through a transmission shaft 34, a driving motor C65 is arranged on the distributing machine combined bracket 62, the driving motor C65 is connected with a traveling wheel C66 through a transmission shaft, and the driving motor C65 drives the traveling wheel C66 to transversely move along a transverse steel beam track A30. A driving motor C65 arranged on the combined bracket 62 of the distributing machine drives a traveling wheel C66 through a transmission shaft 34 to enable the distributing box bucket 31 to move transversely along a transverse steel beam track A30, a driving motor B64 arranged on a transverse steel beam track A30 drives a traveling wheel B66 below two ends of a transverse steel beam track A30 through a transmission shaft to enable the distributing box bucket 31 to move longitudinally along a longitudinal steel beam track B32, stoppers 35 arranged at two ends of the transverse steel beam track A30 control the transverse movement limit of the distributing box bucket 31, and an industrial computer control system control box B67 arranged on a transverse steel beam track A30 controls the running of the distributing machine.

The troweling machine comprises a troweling machine head piece 37, the troweling machine head piece 37 is connected with a troweling machine combined support 68 through a vertical transmission shaft 36, the troweling machine head piece 37 is connected to the lower end of the vertical transmission shaft 36, a driving motor installed on the troweling machine combined support 68 drives the troweling machine head piece 37 to move up and down through the vertical transmission shaft 36, a traveling wheel D69 is arranged at the lower end of the troweling machine combined support 68, the traveling wheel D69 transversely moves along two transverse steel beam tracks B73, traveling wheels E75 are arranged below the left side and the right side of the transverse steel beam track B73, the traveling wheels E75 longitudinally move along the two longitudinal steel beam tracks B70, a driving motor E74 and a control box C72 are arranged on the troweling machine combined support 68, the driving motor E74 is connected with the traveling wheel D69 through a transmission shaft, a driving motor D71 is arranged at one end of the transverse steel beam track B73, the driving motor D71 is connected with the traveling wheels E75 through a transmission shaft, and stoppers are arranged at two ends of the transverse steel beam track B73. A traveling wheel D69 installed below the end part of the troweling machine combined bracket 68, a driving motor E74 installed on the upper part of the troweling machine combined bracket 68 drives a traveling wheel D69 to drive a troweling head piece 37 below the troweling machine combined bracket 68 to move transversely along a transverse steel beam track B73 through a transmission shaft, a driving motor D71 installed above the end part of the transverse steel beam track B73 drives a traveling wheel E75 below the end part of a transverse steel beam track B73 to drive the troweling head piece 37 below the troweling machine combined bracket 68 to move longitudinally along a longitudinal steel beam track B70 through a transmission shaft, stoppers installed at two ends of the transverse steel beam track B73 control the transverse movement limit of the troweling head piece 37 below the troweling machine combined bracket 68, and an industrial computer control system control box C72 installed above the transverse steel beam track B73 controls the operation of the troweling machine.

The prefabricated part production line manufacturing platform is assembled and welded by profile steel and steel plates, hanging rings 40 are welded on two sides of a production line platform 43, a prefabricated reinforced concrete beam 38, a prefabricated reinforced concrete stair beam 39, a prefabricated stair tread 41 and a prefabricated laminated slab 42 are arranged on the upper portion of each production line platform 43 according to types, each production line platform 43 is hoisted, stacked and placed, a supporting horse stool is placed on the lower portion of each production line platform 43, a steam curing kiln runs to the upper portion of the stacked production line platform 43, and steam curing is carried out on the prefabricated parts.

The vibration table is characterized in that a vibration spring 46 is arranged on the upper portion of the section steel combined base 21, a vibration table top 45 is arranged at the upper end of the vibration spring 46, a fixer 44 is arranged on the periphery of the vibration table top 45, a vibration motor is installed below the vibration table top 45, all the components are connected through bolts, a prefabricated part production line platform is hoisted and placed on the vibration table, and the prefabricated part production line platform is fixed on the vibration table top 45 through the fixer 44.

Light steel keel 50 is laid in prefabricated wallboard assembling die system 12 to interior wallboard 60, cement pressure plate 48, haydite cement foaming lightweight concrete pours, interior wallboard 60 is equipped with preformed hole 49, outer wall interior plate 57 is light steel keel 50, cement pressure plate 48 is laid in prefabricated wallboard assembling die system 12, haydite cement foaming lightweight concrete pours, outer wall interior plate 57 is equipped with the preformed hole, outer wall outer panel 59 is light steel keel 50, cement pressure plate 48 is laid in prefabricated wallboard assembling die system 12, haydite cement foaming lightweight concrete pours, outer wall outer panel 59 is equipped with the preformed hole.

And (3) mounting the prefabricated reinforced concrete beam and the prefabricated composite slab, hoisting and placing the prefabricated reinforced concrete beam 38 and the prefabricated composite slab 42 on a prefabricated part mounting and supporting system 52, mounting the steel bars 51, mounting a column template, and pouring beam slab column concrete.

Prefabricated wall body board installation, wait to demolish prefabricated component installation braced system 52 back, before installation outer wall panel 59, paste heated board 56 in the beam column outside, installation outer wall panel 59 passes through preformed hole 49 and the bolted connection who reserves in roof beam and floor, fill in preformed hole 49 with polyurethane sealant, installation acoustic celotex board 58, installation heated board 56, installation outer wall inner wall panel 57 passes through preformed hole 49 and the bolted connection of reserving in roof beam and floor, fill in preformed hole 49 with polyurethane sealant, wallboard 60 passes through preformed hole 49 and the bolted connection of reserving in roof beam and floor in the installation, fill in preformed hole 49 with polyurethane sealant, installation acoustic celotex board 58, installation heated board 56.

And (3) mounting the prefabricated staircase, namely mounting the prefabricated staircase beams 39 and the prefabricated composite slabs 42 on the prefabricated part mounting and supporting system 52, mounting the prefabricated staircase steps 41 on the prefabricated staircase beams 39 and pouring the staircase beam slab concrete.

Claims (7)

1. The utility model provides a building intelligence prefabricated component automation line system, includes haydite cement foaming lightweight concrete mixing station, cloth machine, smoothing machine, shaking table, prefabricated wallboard die system, prefabricated component preparation platform, its characterized in that haydite cement foaming lightweight concrete mixing station includes steel pipe sectional shelf-unit (11), be equipped with steel structure work platform (10) on steel pipe sectional shelf-unit (11), steel structure work platform (10) below is equipped with water storage tank (13), be equipped with on steel structure work platform (10) and mix case (7), quick-witted case (2), switch board (4), it is equipped with feed box (1) to mix case (7) top, feed box (1) and shaped steel sectional steel frame (5) fixed connection, it is equipped with discharge gate (3) and numerical control push-and-pull rod (8) to mix case (7) one side, numerical control push and-pull rod (8) one end and mix case (7) fixed connection, the other end is connected with a cover plate on the discharge hole (3); be equipped with dog-house (9) on steel structure work platform (10) of discharge gate (3) below, dog-house (9) below is equipped with prefabricated wallboard assembling die system (12).

2. The automatic production line system for intelligent building prefabricated parts according to claim 1, wherein the prefabricated wall panel combined mold system (12) comprises a section steel combined base (21), a fixed section steel combined support (16) and a movable section steel combined support (18) are arranged on the section steel combined base (21), a wall panel combined mold (15) is arranged between the fixed section steel combined support (16) and the movable section steel combined support (18), a reinforcing device (17) is arranged on the fixed section steel combined support (16) and the movable section steel combined support (18), a traveling wheel A (22) is arranged below the section steel combined base (21), a control box A (19) and a driving motor A (20) are arranged at one end of the section steel combined base (21), and the driving motor A (20) is connected with the traveling wheel A (22) through a transmission shaft.

3. The automatic production line system for the intelligent prefabricated components of the building as claimed in claim 1, wherein the distributing machine is disposed at one side of a concrete mixing station, the concrete mixing station is connected to a distributing box hopper (31) through a concrete conveying pipe (29), the distributing box hopper (31) is disposed on a distributing machine combined support (62), a traveling wheel C (66) is disposed at the lower end of a cross beam of the distributing machine combined support (62), longitudinal steel beam tracks a (32) are respectively disposed at two ends below the distributing machine combined support (62), two parallel transverse steel beam tracks a (30) are disposed above the longitudinal steel beam tracks a (32), a traveling wheel B (63) is disposed below the transverse steel beam tracks a (30), the traveling wheel B (63) longitudinally moves along the longitudinal steel beam tracks a (32) at two sides, a driving motor B (64) and a control box B (67) are disposed on the transverse steel beam tracks a (30), driving motor B (64) are connected with walking wheel B (63) through transmission shaft (34), be equipped with driving motor C (65) on cloth machine sectional shelf (62), driving motor C (65) are connected with walking wheel C (66) through the transmission shaft, and driving motor C (65) drive walking wheel C (66) along horizontal girder steel track A (30) lateral shifting.

4. The automatic production line system of intelligent building prefabricated parts according to claim 3, wherein the troweling machine comprises a troweling machine head piece (37), the troweling machine head piece (37) is connected with a troweling machine combined support (68) through a vertical transmission shaft (36), a traveling wheel D (69) is arranged at the lower end of the troweling machine combined support (68), the traveling wheel D (69) transversely moves along two transverse steel beam tracks B (73), traveling wheels E (75) are arranged below the left side and the right side of the transverse steel beam tracks B (73), the traveling wheels E (75) longitudinally move along two longitudinal steel beam tracks B (70), a driving motor E (74) and a control box C (72) are arranged on the troweling machine combined support (68), the driving motor E (74) is connected with the traveling wheel D (69) through a transmission shaft, a driving motor D (71) is arranged at one end of the transverse steel beam tracks B (73), and the driving motor D (71) is connected with the travelling wheels E (75) through transmission shafts.

5. The automatic production line system for the intelligent building prefabricated parts according to claim 4, wherein the two ends of the transverse steel beam track A (30) and the transverse steel beam track B (73) are respectively provided with a stopper (35).

6. The automatic production line system for the intelligent building prefabricated parts according to the claim 1, the automatic production line system for the intelligent building prefabricated parts is characterized in that the prefabricated part manufacturing platform comprises a production line platform (43), hoisting rings (40) are arranged on two sides of the production line platform (43), prefabricated reinforced concrete beams (38), prefabricated reinforced concrete stair beams (39), prefabricated stair tread plates (41) and prefabricated laminated slabs (42) are arranged on the production line platform (43), and the production line platform (43) is placed in a stacking mode through supporting stools.

7. The automatic production line system for the intelligent building prefabricated parts as claimed in claim 1, 2 or 3, wherein the vibrating table comprises a vibrating table combined base (76), a plurality of vibrating springs (46) are uniformly arranged on the vibrating table combined base (76), a vibrating table top (45) is arranged on each vibrating spring (46), a fixer (44) is arranged on the periphery of each vibrating table top (45), the prefabricated part production line platform is fixed on the vibrating table top (45) through the fixer (44), and a vibrating motor is arranged below each vibrating table top (45).

Images