CN114559534B

CN114559534B - Prefabricated component production line

Info

Publication number: CN114559534B
Application number: CN202210172164.7A
Authority: CN
Inventors: 郭铭祥; 张绍文; 林志龙; 陈怀焜; 徐清辉; 黄佳忠; 吕晓青
Original assignee: Fujian Qunfeng Machinery Co Ltd
Current assignee: Fujian Qunfeng Machinery Co Ltd
Priority date: 2022-02-24
Filing date: 2022-02-24
Publication date: 2022-11-15
Anticipated expiration: 2042-02-24
Also published as: WO2023159748A1; CN114559534A

Abstract

A prefabricated part production line comprises a die, a blanking mechanism, a vibration mechanism and a roller conveying mechanism; after the die is conveyed to the lifting roller section from the fixed roller section, the lifting mechanism drives the lifting roller section to descend to be lower than the fixed roller section, and two ends of the die are supported on the two vibration tables; moving the material distributing vehicle to align the mold for injecting material, and vibrating the mold while injecting the material; after the material injection is finished, the vibration mechanism stops vibrating, the lifting mechanism drives the lifting roller section to ascend to be flush with the fixed roller section, the mold is supported on the lifting roller section, the roller driving mechanism drives the roller of the lifting roller section to roll and convey the mold to the fixed roller section, and then the mold is conveyed out from the fixed roller section and conveyed to a curing kiln for curing by a forklift; the production line is short and high in production efficiency, different prefabricated parts can be produced by replacing different molds on the same production line, and the construction cost of the production line can be saved; not only reduces the number of the vibration mechanisms, but also simplifies the die structure.

Description

Prefabricated component production line

Technical Field

The invention relates to the technical field of prefabricated part production, in particular to a prefabricated part production line.

Background

The prefabricated member is a steel, wood or concrete member which is prefabricated in a factory or on site according to design specifications; the concrete prefabricated part is a building part which is manufactured in a factory in advance by taking concrete as a basic material, and the concrete prefabricated part not only plays an advantage in the aspects of function and safety, but also plays an advantage in the aspects of economy, creation of comfortable environment and resource saving; the prefabricated building components comprise walls, beams, plates, columns, pipe fittings, well covers and the like; however, the existing prefabricated part production line is very long, the devices on the production line are many and complex, and the whole prefabricated part production line needs to be built at very high cost; moreover, different prefabricated part production lines are required to be built for producing different prefabricated parts, so that the total cost is high and the occupied area is large; particularly, each mould is correspondingly provided with a vibration mechanism, so that the structure of the mould is complex, the volume is large, the manufacturing cost of the mould is high, and when the mould is conveyed and operated on a production line to produce prefabricated parts, the conveying and operation are inflexible, the operation is inconvenient, the production efficiency is influenced, and the service life of the mould is shortened.

In view of the above, the present inventors have made extensive studies and research on various defects and inconveniences caused by the perfection of the prefabricated part production line, and have developed and designed the present invention.

Disclosure of Invention

The invention aims to provide a prefabricated part production line, which is short in production line and high in production efficiency, and different prefabricated parts can be produced by replacing different molds on the same production line, so that the construction cost of the production line can be saved; moreover, only the vibration mechanism is arranged at the cloth position of the production line, and the mould and the vibration mechanism are separately arranged, so that compared with the existing mould and vibration mechanism which are arranged together, the arrangement quantity of the vibration mechanism is reduced, the mould structure is simplified, the mould manufacturing cost is reduced, and the service life of the mould is prolonged; and the vibration mechanism is independently controlled, so that the vibration effect is better, and the production quality of the prefabricated part is improved.

In order to achieve the above purpose, the solution of the invention is:

a prefabricated part production line comprises a die, a blanking mechanism, a vibration mechanism and a roller conveying mechanism; the roller conveying mechanism is provided with a lifting roller section and two fixed roller sections connected with two ends of the lifting roller section, and the vibrating mechanism is provided with two vibrating tables positioned on two sides of the lifting roller section; the lifting roller section is provided with a supporting seat, a plurality of rollers arranged on the supporting seat, a roller driving mechanism and a lifting mechanism; the blanking mechanism is provided with a rack arranged above the lifting roller section and a material distributing vehicle capable of moving vertically and horizontally on the rack;

after the die is conveyed to the lifting roller section from the fixed roller section, the lifting mechanism drives the lifting roller section to descend to be lower than the fixed roller section, and two ends of the die are supported on the two vibration tables; moving the material distribution vehicle to align the mold for material injection, and vibrating the mold by a vibrating mechanism while injecting the material; after the material is injected, the vibration mechanism stops vibrating, the lifting mechanism drives the lifting roller section to ascend to be flush with the fixed roller section, the mold is supported on the lifting roller section, the roller driving mechanism drives the lifting roller section to roll and convey the mold to the fixed roller section, and then the mold is conveyed out by the fixed roller section and conveyed to the curing kiln for curing by a forklift.

Two lifting mechanisms are arranged at two ends of the bottom surface of the supporting seat; the lifting mechanism is provided with a first pivoting part, a first connecting rod, a second connecting rod, a fixed seat and a lifting oil cylinder, wherein the first pivoting part, the first connecting rod, the second connecting rod, the fixed seat and the lifting oil cylinder are arranged on the bottom surface of the supporting seat; the other end of the second connecting rod is connected with a piston rod of the lifting oil cylinder; a piston rod of the lifting oil cylinder extends out to push a second connecting rod to drive a first connecting rod to rotate upwards by taking the pivoting position of the first connecting rod and the fixed seat as an axis, and the first connecting rod pushes the lifting roller section to move upwards; a piston rod of the lifting oil cylinder retracts to pull the second connecting rod to drive the first connecting rod to rotate downwards by taking the pivoting position of the first connecting rod and the fixed seat as an axis, and the first connecting rod pulls the lifting roller section to move downwards; each roller is provided with a rotating shaft, two ends of each rotating shaft are respectively pivoted on two sides of the supporting seat, rotating gears are arranged on the rotating shafts, the rotating gears on two adjacent rotating shafts are meshed with each other, and an output shaft of the roller driving mechanism is connected with one rotating shaft.

The vibration mechanism is provided with two vibration seats which are respectively positioned below the two vibration tables, two ends of the vibration seats are respectively connected with two ends of the vibration tables through a plurality of damping sleeve seats, and two vibration motors positioned below the vibration tables are arranged on the vibration seats; the damping sleeve seat is provided with a rubber sleeve base fixed on the vibration seat, a sleeve fixed on the bottom surface of the vibration table and a sleeve rod, the upper end of the sleeve rod is sleeved in the sleeve, and the lower end of the sleeve rod is sleeved on the rubber sleeve base.

The rack is provided with two transverse rails arranged in parallel and two longitudinal rails arranged in parallel; the distributing vehicle is provided with four transverse traveling wheels which are positioned on four end corners of the distributing vehicle and travel on the two transverse rails, and a transverse driving motor which drives the transverse traveling wheels to roll and move; the machine frame is also provided with two longitudinal supports which are arranged in parallel with the longitudinal rails, two ends of each longitudinal support are connected with the end parts of the two transverse rails which are positioned on the same side, and two ends of each longitudinal support are provided with two longitudinal travelling wheels which travel on the corresponding longitudinal rails and a longitudinal driving motor which drives the longitudinal travelling wheels to roll and move; the rack is also provided with four vertical rails positioned at four end corners of the rectangle, wherein one longitudinal rail is horizontally arranged at the inner sides of two of the vertical rails, and the other longitudinal rail is horizontally arranged at the inner sides of the other two vertical rails; the two ends of each longitudinal rail are respectively provided with a sliding block which slides in the corresponding two vertical rails, one side of each vertical rail is provided with a lifting driving oil cylinder, an oil cylinder seat of each lifting driving oil cylinder is fixedly connected with the corresponding sliding block, and the top end of each piston rod is fixed at the top end of the corresponding vertical rail.

The two sides of the vertical track are respectively provided with a sliding groove, the two ends of the vertical track are respectively provided with a clamping seat, and the clamping seat is provided with two sliding blocks which respectively slide in the two sliding grooves on the same vertical track.

The lower outlet of the distributing vehicle is provided with a spiral discharging pipe, a spiral rod is arranged in the spiral discharging pipe, one end of the spiral discharging pipe is provided with a spiral rod motor connected with the spiral rod, and the other end of the spiral discharging pipe is provided with a discharging port with a downward opening.

The blanking mechanism is also provided with a transfer trolley for transferring raw materials and blanking the raw materials into the material distribution trolley; the transfer trolley is provided with a hopper, a material door switch, a transfer trolley moving wheel walking on the transverse guide rod and a transfer trolley driving motor driving the transfer trolley moving wheel to move in a rolling manner; the two longitudinal guide rods are positioned under the two transverse guide rods, the two longitudinal rails slide up and down on the vertical rails and are in flush connection with the two longitudinal guide rods, the distributing vehicle moves to the longitudinal guide rods from the longitudinal rails, and the transfer vehicle moves on the transverse guide rods and aligns with the distributing vehicle positioned on the longitudinal guide rods to perform blanking.

Two prefabricated part production lines are arranged on two sides of the transfer trolley, two groups of longitudinal guide rods are arranged under the two transverse guide rods at intervals, the material distribution trolleys on the two prefabricated part production lines respectively move to one group of longitudinal guide rods, and the transfer trolley distributes materials for the two material distribution trolleys respectively.

The die is used for producing the water channel prefabricated part and is provided with a first bottom frame, a first bottom die, a first front side die, a first rear side die, a first left side die, a first right side die, a first top die and a die opening and closing mechanism; the first front side die and the first rear side die are rotatably pivoted on the front side and the rear side of the first bottom frame, the first left side die and the first right side die are movably arranged at the left end and the right end of the first bottom die, and the first top die is movably covered above the first bottom die; the first bottom die, the first front side die, the first rear side die, the first left side die, the first right side die and the first top die enclose to form an n-shaped water channel member die cavity; the mold opening and closing mechanism is provided with a linkage rod, a linkage sheet, a rotating rod and a rotating arm; the first left side die is provided with a first abdicating through hole, the linkage rod penetrates through the first bottom die, two ends of the linkage rod penetrate through the left end and the right end of the first bottom die, one end of the linkage rod penetrates through the first abdicating through hole of the first left side die and is pivoted with the linkage piece, and the other end of the linkage rod is connected with the first right side die; the linkage piece is provided with a through hole for the rotating rod to penetrate through and be pivoted, and the rotating arm is arranged at one end of the rotating rod; when the die is closed, the rotating arm is swung downwards to drive the rotating rod to rotate, the rotating rod rotates to drive the linkage piece to rotate to drive the linkage rod to move outwards so as to further drive the first left side die and the first right side die to abut against the left end and the right end of the first bottom die, and the first front side die and the first rear side die are abutted against and fixed by the first left side die and the first right side die; when the die sinking, the upswing the swinging boom drives the dwang and rotates, and the dwang rotates and drives the linkage piece and rotate and promote the inside movement of linkage pole and can promote first left side limit mould, first right side limit mould and keep away from both ends about first die block, both ends are not replaced and outwards opened by first left side limit mould, first right side limit mould about first front side limit mould, the first back side limit mould.

The first bottom die is fixed on the first bottom frame and provided with a front plate, a rear plate, a left plate, a right plate and a top plate, the first front side die and the front plate, the first rear side die and the rear plate, and the first top die and the top plate are arranged at intervals respectively, and the first left side die and the first right side die are abutted against the left plate and the right plate respectively; the positions, close to the bottom, of the outer side surfaces of the front plate and the rear plate are provided with convex block parts protruding outwards, the positions, close to the bottom, of the inner side surfaces of the first front side die and the first rear side die are provided with concave parts sunken from inside to outside, and the convex block parts and the concave parts are correspondingly arranged at intervals; and the interval between the convex part and the concave part forms outward-expanding step parts at the bottom ends of the front side and the rear side of the water channel component die cavity.

The front side and the rear side of the first left side die and the first right side die are respectively provided with a limiting drag hook hung at the left end and the right end of the first front side die or the first rear side die, and the limiting drag hook is provided with a first connecting rod rotatably pivoted on the first left side die and the first right side die, a second connecting rod hooked on the outer side surfaces of the first front side die and the first rear side die, and a third connecting rod connecting the first connecting rod and the second connecting rod; the first connecting rod and the second connecting rod are in a horizontal state, and two ends of the third connecting rod are respectively and vertically connected with the first connecting rod and the second connecting rod; the both ends of the lateral surface of first front side limit mould, first rear side limit mould are provided with two vertical limiting plates that supply two spacing drag hook to collude the knot respectively, the outer end of second connecting rod has the spacing portion of colluding the knot on vertical limiting plate.

The mould still is provided with the spacing member of the outside displacement distance of first left side limit mould, first right side limit mould of restriction, both ends are provided with first perforation respectively about the first die block, first left side limit mould, first right side limit mould are provided with the second respectively and perforate, first perforation, second perforation are passed respectively and stretch out the outside of first left side limit mould, first right side limit mould at the both ends of gag lever post, just spacing bolt in the tip indentation second perforation that is equipped with to prevent spacing member is inserted respectively at the both ends of spacing member.

The limiting rod piece is divided into two telescopic rods, the two outer rods of the telescopic rods are fixed on the first bottom die, the outer end of the inner rod of one telescopic rod extends out of the second through hole of the first left side die from the first through hole, the outer end of the inner rod of the other telescopic rod extends out of the second through hole of the first right side die from the first through hole, and the limiting bolt is inserted into the outer end of the inner rod of the telescopic rod.

The bottom of the front side surface and the bottom of the rear side surface of the first bottom frame are respectively provided with two limiting abutting blocks which abut against the first front side edge mould or the first rear side edge mould; and the bottom surface of the first bottom frame is provided with two cross rods in parallel, and the cross rods are provided with extension parts extending out of two sides of the first bottom frame.

The mold is used for producing the slope protection block prefabricated part and is provided with a second bottom frame, a second bottom mold, a second front side mold, a second rear side mold, a second left side mold, a second right side mold, a second top mold, a core rod and two first mold closing locking rods; the second bottom die is arranged on the top surface of the second bottom frame, the second front side die, the second rear side die, the second left side die and the second right side die are respectively and rotatably pivoted on four side surfaces of the second bottom frame, and the second front side die and the second rear side die are provided with a plurality of through holes for the core rod to penetrate through; the second bottom die, the second front side die, the second rear side die, the second left side die, the second right side die, the second top die and the core rod form a slope protection block prefabricated part die cavity in a surrounding mode; the left side surface and the right side surface of the second front side edge mold are respectively provided with a first U-shaped piece, the left side surface and the right side surface of the second rear side edge mold are respectively provided with a first pin, one end of the first mold closing locking rod is a hook part for hooking and buckling the first pin, and the other end of the first mold closing locking rod is locked with a nut; when the die is closed, the second left side die, the second right side die, the second front side die and the second rear side die are turned to be in a vertical state; the hook part of the first die closing locking rod is hooked on the first pin, the other end of the first die closing locking rod is clamped into the first U-shaped piece, and the locking nut abuts against the outer side surface of the first U-shaped piece; the hook part of the first die assembly locking rod and the nut limit the second front side edge die and the second rear side edge die to tightly abut against the front side surface and the rear side surface of the second left side edge die and the second right side edge die, and the second front side edge die, the second rear side edge die, the second left side edge die and the second right side edge die are locked together.

The hook part is provided with a first hook part, two second hook parts and a handle part, and the first hook part is provided with a first transverse part connected with one end of the first die closing locking rod and a first vertical part hooked and buckled on the outer side surface of the first pin; the second hook part is provided with a second vertical part rotationally pivoted with the first vertical part and a second transverse part hooked and buckled on the lower side surface of the first pin; the first vertical part is clamped between the two second vertical parts, and one end of the handle part is fixed between the two second transverse parts; when the mold is opened, the handle part is rotated upwards, the handle part drives the second hook part to rotate upwards, and the second transverse part is turned to the outer side surface of the first pin from the lower side surface of the first pin; further pulling up the first die closing locking rod horizontally to enable the first hook part to be separated from the first pin and one end of the nut to be separated from the first U-shaped piece, disassembling the first die closing locking rod, and opening the second front side die, the second rear side die, the second left side die and the second right side die outwards; when the die is closed, the first die closing locking rod is horizontally pressed downwards to enable the first hook part to be hooked and buckled on the first pin, one end of the first die closing locking rod is clamped into the first U-shaped part, and the nut is tightly abutted against the outer side face of the first U-shaped part; then the handle part is rotated downwards, the handle part drives the second hook part to rotate downwards, the second transverse part turns to the lower side surface of the first pin from the outer side surface of the first pin, and the hook part is firmly hooked on the first pin; the second front side die, the second rear side die, the second left side die and the second right side die are locked together by the two first die closing locking rods.

The second front side die and the second rear side die are respectively provided with three through holes at equal intervals, the through hole positioned in the center is a hoisting hole, and the through holes positioned on two sides are reinforcing steel bar holes in which reinforcing steel bars can be inserted; the hoisting hole on the second rear side edge die is provided with a first boss extending into the die cavity; the reinforcing steel bar holes in the second rear side formwork are provided with first concave tables sunken in the inner side surface of the second rear side formwork; the reinforcing steel bar hole of the second front side formwork is provided with a second boss extending into the formwork cavity; the core rod positioned in the center is inserted from the middle through hole of the second front side die, and the end part of the core rod abuts against the first boss of the second rear side die; the core rods positioned on the two sides are inserted into the reinforcement holes of the second front side edge form, and the end parts of the core rods extend out of the reinforcement holes of the second rear side edge form; and semicircular column convex edges positioned on the transverse center line are arranged on the inner side surfaces of the second left side die and the second right side die.

The first boss is a circular table gradually reduced from the inner side to the die cavity, and the diameter of the through hole at the outer end of the first boss is smaller than that of the core rod; and the inner wall of the through hole of the first boss is provided with a groove for placing the reinforcing steel bar; the first concave station is a circular groove which is gradually reduced and sunken from the inner side surface to the outer side surface; the second boss is a circular truncated cone which gradually shrinks from the inner side to the die cavity.

The outer ring of the core rod is sleeved with a rubber sleeve.

The front side surface, the rear side surface, the left side surface and the right side surface of the second bottom frame are respectively provided with an extension part, and the extension parts are provided with limiting abutting blocks which abut against a second front side die or a second rear side die or a second left side die or a second right side die.

The mold is used for producing the roadbed stone prefabricated component, two molds are arranged on a third bottom frame side by side, and each mold is provided with a third bottom mold, a third front side mold, a third rear side mold, a third left side mold, a third right side mold and a third top mold; the third bottom die is arranged on the top surface of a third bottom frame, and the third front side die, the third rear side die, the third left side die and the third right side die are respectively pivoted on the third bottom frame in a rotating manner; the top surface of the third bottom die is provided with a plurality of rectangular grooves which are arranged vertically and horizontally; the inner side surfaces of the third front side die and the third rear side die are provided with a first vertical convex strip on the longitudinal central line, and two first transverse convex strips vertically arranged on the first vertical convex strip are horizontally arranged on the transverse direction of the inner side surface; the third front side die, the third rear side die, the third left side die and the third right side die are connected into two rectangular rings through the first transverse convex strips and the second transverse convex strips; and the third bottom die, the third front side die, the third rear side die, the third left side die, the third right side die and the third top plate enclose a roadbed stone prefabricated part die cavity.

The inner side surfaces of the third front side die, the third rear side die, the third left side die and the third right side die are inclined surfaces which are inclined outwards from bottom to top; the medial surface of third left side form, third right side form is provided with rectangular groove at the vertical sand grip bilateral symmetry of second respectively, just rectangular groove is located third left side form, third right side form and is close to on the medial surface of third die block.

Each mould is also provided with two first mould closing locking rods, the left side surface and the right side surface of the third front side mould are respectively provided with a second U-shaped piece, the left side surface and the right side surface of the third rear side mould are respectively provided with a second pin, one end of each first mould closing locking rod is a hook part for hooking and buckling the second pin, and the other end of each first mould closing locking rod is locked with a nut; when the die is closed, the third front side die, the third rear side die, the third left side die and the third right side die are turned to be in a vertical state, the hook part of the first die closing locking rod is hooked on the second pin, the other end of the first die closing locking rod is clamped in the second U-shaped piece, and the locking nut abuts against the outer side face of the second U-shaped piece; and the hook part of the first die closing locking rod and the nut limit the third front side die and the third rear side die to tightly abut against the front side and the rear side of the third left side die and the third right side die, so that the third front side die, the third rear side die, the third left side die and the third right side die are locked together.

The hook part is provided with a first hook part, two second hook parts and a handle part, and the first hook part is provided with a first transverse part connected with one end of the first die closing locking rod and a first vertical part hooked and buckled on the outer side surface of the second pin; the second hook part is provided with a second vertical part rotationally pivoted with the first vertical part and a second transverse part hooked and buckled on the lower side surface of the second pin; the first vertical part is clamped between the two second vertical parts, and one end of the handle part is fixed between the two second transverse parts; when the mold is opened, the handle part is rotated upwards, the handle part drives the second hook part to rotate upwards, and the second transverse part is turned to the outer side surface of the second pin from the lower side surface of the second pin; further horizontally and upwards pulling the first die closing locking rod to enable the first hook part to be separated from the second pin and one end of the nut to be separated from the second U-shaped piece, disassembling the first die closing locking rod, and outwards opening a third front side die, a third rear side die, a third left side die and a third right side die; when the die is closed, the first die closing locking rod is pressed horizontally downwards to enable the first hook part to be hooked on the second pin, one end of the first die closing locking rod is clamped into the second U-shaped piece, and the nut is tightly abutted against the outer side face of the second U-shaped piece; then the handle part is rotated downwards, the handle part drives the second hook part to rotate downwards, the second transverse part turns to the lower side surface of the second pin from the outer side surface of the second pin, and the hook part is firmly hooked on the second pin; the first die assembly locking rod locks the third front side die, the third rear side die, the third left side die and the third right side die together.

The front side, the rear side, the left side and the right side of the third bottom frame are respectively provided with an extension part, and the extension parts are provided with limiting abutting blocks which abut against a third front side die, a third rear side die, a third left side die or a third right side die.

After the structure is adopted, when the prefabricated part production line produces the prefabricated part, a matched die is placed on the fixed roller section, the die is conveyed to the lifting roller section from the fixed roller section, the lifting mechanism drives the lifting roller section to descend to be lower than the fixed roller section, and two ends of the die are supported on the two vibrating tables; then moving the material distribution vehicle vertically and horizontally to align the mold for material injection, and vibrating the mold by a vibrating mechanism while injecting the material; after the material injection is finished, the vibration mechanism stops vibrating, the lifting mechanism drives the lifting roller section to ascend to be flush with the fixed roller section, the mold is supported on the lifting roller section, the roller driving mechanism drives the roller of the lifting roller section to roll and convey the mold to the fixed roller section, and then the mold is conveyed out from the fixed roller section and conveyed to a curing kiln for curing by a forklift; the die and the vibration mechanism used in the prefabricated part production line are separately arranged, and only one vibration mechanism is arranged on one production line; during the conveying process of the mold, the mold can be stopped on the vibration mechanism to carry out material injection and vibration at the same time, and after the material injection, the mold can be conveyed out again; compared with the prior art that the die and the vibrating mechanisms are correspondingly arranged together one by one, the invention reduces the arrangement quantity of the vibrating mechanisms, simplifies the structure of the die, reduces the manufacturing cost and prolongs the service life of the die; the vibration mechanism can be controlled independently, the vibration effect is better, and the production quality of the prefabricated part is improved; moreover, the production line of the prefabricated part is short and short, the production efficiency is high, different prefabricated parts can be produced by replacing different molds on the same production line, other equipment on the production line can be universal, and the construction cost for constructing different production lines can be saved.

Drawings

FIG. 1 is a schematic structural view of a prefabricated part production line according to the present invention;

FIG. 2 is a partially enlarged view of the prefabricated part production line according to the present invention;

FIG. 3 is a schematic structural view of a vibration mechanism supporting a mold in the prefabricated part production line according to the present invention;

FIG. 4 is a schematic structural view of a lifting roller section in the prefabricated part production line according to the present invention;

FIG. 5 is a schematic view of a vibrating mechanism in the prefabricated part production line according to the present invention;

FIG. 6 is a schematic structural view of a cloth vehicle moving vertically and horizontally in the prefabricated part production line;

FIG. 7 is a schematic structural view of vertical lifting of a material distribution vehicle in the prefabricated part production line;

FIG. 8 is a schematic structural view of a spiral blanking pipe of a material distribution vehicle in the prefabricated part production line according to the present invention;

FIG. 9 is a schematic structural view of a transfer trolley in the production line of prefabricated parts according to the present invention;

FIG. 10 is a schematic top view of a prefabricated component manufacturing line according to the present invention;

FIG. 11 is a schematic structural view of the water channel prefabricated part mold of the present invention when closed;

FIG. 12 is a schematic view of the structure of the prefabricated member for water channels of the present invention when the mold is opened;

FIG. 13 is a schematic cross-sectional view in the transverse axial direction of the water channel preform mold of the present invention;

FIG. 14 is a longitudinal axial sectional view of the water channel preform mold of the present invention;

FIG. 15 is a schematic structural view of a mold opening and closing mechanism of the water channel prefabricated part mold according to the present invention;

FIG. 16 is a schematic structural view of a water channel preform according to the present invention;

FIG. 17 is a schematic structural view of the slope protection block prefabricated part mold during mold closing according to the invention;

FIG. 18 is a schematic structural view of the slope protection block prefabricated part mold when the mold is opened;

FIG. 19 is a schematic view of the construction of the revetment block preform mold of the present invention fully open;

FIG. 20 is a schematic structural view of the mold for the prefabricated part of the slope protection block before mold closing and material injection;

FIG. 21 is a schematic structural view of a prefabricated element of the slope protection block of the present invention;

FIG. 22 is a schematic structural view of the roadbed block prefabricated part mold in closing;

FIG. 23 is a schematic structural view of the roadbed block prefabricated part mold during mold opening;

FIG. 24 is a schematic structural view of the roadbed block prefabricated part mold before material injection;

FIG. 25 is a schematic view of the prefabricated road block member of the present invention with the mold fully opened;

FIG. 26 is a schematic structural view of a prefabricated part of the roadbed block of the invention;

FIG. 27 is a schematic view of a first clamp lock bar according to the present invention;

fig. 28 is an enlarged view of a hook portion of the first mold clamping lock bar according to the present invention.

Description of the symbols

A mold 1; a blanking mechanism 2; a vibration mechanism 3; a roller conveying mechanism 4; a lifting roller section 41; a fixed roller section 42; a vibration table 31; a support base 411; a drum 412; a drum drive mechanism 413; an elevating mechanism 414; a frame 21; a cloth vehicle 22; a mould hoisting mechanism 5; a first pivot portion 4141; a first link 4142; a second link 4143; a fixed seat 4144; a lift cylinder 4145; two vibration bases 32; a damping sleeve mount 33; a vibration motor 34; a rubber sleeve mount 331; a sleeve 332; a loop bar 333; a transverse rail 211; a longitudinal rail 212; a transverse road wheel 221; a transverse drive motor 222; a longitudinal support 213; a longitudinal travel wheel 2131; a longitudinal drive motor 2132; a vertical rail 214; a slider 2121; a lift drive cylinder 2414; a chute 2142; a holder 2122; a spiral blanking pipe 223; a screw rod 2231; a screw motor 2232; a feed opening 2233; a transfer vehicle 23; a transverse guide 215; a longitudinal guide 216; a transfer vehicle moving wheel 231; a transfer vehicle drive motor 232;

a water channel prefabricated part 10; a first base frame 11; a first bottom die 12; a first front side mold 13; a first back side die 14; a first left side form 15; a first right side form 16; a first top die 17; a mold opening and closing mechanism 18; a linkage rod 181; a linkage plate 182; the rotating rod 183; a rotating arm 184; a first abdication perforation 151; a through hole 1821; a support 185; a second abdicating perforation 161; a fixed seat 186; a circular arc segment 1811; a bump portion 121; a recessed portion 122; a step portion 123; a step edge 101; a limiting drag hook 19; a first link 191; a second link 192; a third link 193; a vertical limit plate 194; a limit hook 195; a limit lever 196; a first perforation 197; a second perforation 198; a limit bolt 199; an outer rod 1961; an inner rod 1962; a first pivot portion 130; a second pivot portion 110; a limiting and propping block 111; a cross bar 112; a longitudinal bar 113;

a revetment block prefabricated component 20; a second bottom frame 11'; a second bottom die 12'; a second front side mold 13'; a second rear side mold 14'; a second left side form 15'; a second right side form 16'; a second top die 17'; a core bar 18'; two first mold clamping locking rods 19'; a through hole 181'; a first U-shaped part 131'; a first pin 141'; a hook portion 191'; a nut 192'; a first hook 1911'; a second hook 1912'; a handle portion 1913'; the first lateral portion 1911a; the first vertical portion 1911b; a second vertical portion 1912a; a second lateral portion 1912b; the third lateral portion 1912c; a first boss 142'; a first recessed land 143'; a second boss 132'; semi-circular cylindrical ridges 151', 161'; a recess 1421'; a pull rod 182'; fin 133'; a card slot 1331'; an extension 111'; a limit abutting block 112'; a perforation 201; a boss 202; a groove bar 203;

roadbed stone prefabricated component 30; a third bottom frame 11"; a third bottom die 12"; a third front side form 13"; a third rear side form 14"; a third left side form 15"; a third right side form 16"; a third top die 17"; rectangular slot 121"; a first vertical rib 144"; a first transverse rib 145"; a second vertical rib 164"; second transverse ribs 165"; elongated slots 166"; a first clamp locking bar 19'; a second U-shaped element 131"; a second pin 141"; a hook portion 191'; a nut 192'; a first hook 1911'; a second hook 1912'; a handle portion 1913'; the first lateral portion 1911a; the first vertical portion 1911b; the second vertical portion 1912a; a second lateral portion 1912b; the third lateral portion 1912c; an extension 111"; a limit abutting block 112"; a rectangular block 301; a vertical groove 302; a lateral groove 303; a bar 304.

Detailed Description

In order to further explain the technical scheme of the invention, the invention is explained in detail by the specific embodiment.

Referring to fig. 1 to 28, the present invention discloses a prefabricated component production line, which includes a mold 1, a blanking mechanism 2, a vibration mechanism 3 and a roller conveying mechanism 4; the roller conveying mechanism 4 is provided with a lifting roller section 41 and two fixed roller sections 42 connected with two ends of the lifting roller section 41, and the vibrating mechanism 3 is provided with two vibrating tables 31 positioned at two sides of the lifting roller section 41; the lifting roller section 41 is provided with a supporting seat 411, a plurality of rollers 412 arranged on the supporting seat 411, a roller driving mechanism 413 and a lifting mechanism 414; the blanking mechanism 2 is provided with a frame 21 arranged above the lifting roller section 41 and a distributing vehicle 22 capable of moving vertically and horizontally on the frame 21; after the mold 1 is conveyed to the lifting roller section 41 from the fixed roller section 41, the lifting mechanism 414 drives the lifting roller section 41 to descend to be lower than the fixed roller section 42, and two ends of the mold 1 are supported on the two vibration tables 31; moving the material distribution vehicle 22 to align the mold 1 for material injection, and vibrating the mold 1 by the vibrating mechanism 3 while injecting the material; after the material injection is completed, the vibration mechanism 3 stops vibrating, the lifting mechanism 414 drives the lifting roller section 41 to ascend to be flush with the fixed roller section 42, the mold 2 is supported on the lifting roller section 41, the roller driving mechanism 413 drives the rollers 412 of the lifting roller section 41 to roll and convey the mold 1 to the fixed roller section 42, and then the mold is conveyed out from the fixed roller section 42 and conveyed to a curing kiln for curing by a forklift.

When the prefabricated part production line of the invention is used for producing prefabricated parts, firstly, a die 1 which is closed is placed on the fixed roller section 42, after the die 1 is conveyed to the lifting roller section 41 from the fixed roller section 42, the lifting mechanism 414 drives the lifting roller section 41 to descend to be lower than the fixed roller section 42, and two ends of the die 1 are supported on the two vibration tables 31; then, the material distribution vehicle 22 moves vertically and horizontally to align the die 1 for material injection, and the vibration mechanism 3 vibrates the die 1 while injecting the material; after the material injection is completed, the vibration mechanism 3 stops vibrating, the lifting mechanism 414 drives the lifting roller section 41 to rise to be flush with the fixed roller section 42, the mold 1 is supported on the lifting roller section 41, the roller driving mechanism 413 drives the roller 412 of the lifting roller section 41 to roll and convey the mold 1 to the fixed roller section 42, and then the mold is conveyed out from the fixed roller section 42 and conveyed to a curing kiln for curing by a forklift; the die 1 and the vibration mechanism 3 used in the prefabricated part production line are separately arranged, and only one vibration mechanism 3 is arranged on one production line; in the conveying process of the mould 1, the mould 1 can be stopped on the vibration mechanism 3 for material injection and vibration, and after the material injection, the mould 1 can be conveyed out again; compared with the prior art that the die 1 and the vibration mechanisms 3 are correspondingly arranged together one by one, the invention not only reduces the arrangement quantity of the vibration mechanisms 3 and the manufacturing cost, but also simplifies the structure of the die 1, reduces the manufacturing cost of the die and can prolong the service life of the die 1; the vibration mechanism 3 can be controlled independently, the vibration effect is better, and the production quality of the prefabricated part is improved; moreover, the production line of the prefabricated part production line is short and short, the production efficiency is high, different prefabricated parts can be produced by replacing different molds 1 on the same production line, other equipment on the production line can be universal, and the construction cost for constructing different production lines can be saved.

The prefabricated part production line is also provided with a mould hoisting mechanism 5, so that a mould 1 which is closed can be hoisted and placed on the roller conveying mechanism 4 for conveying, and the mould conveying is facilitated; the mould hoisting mechanism 5 is provided with a suspension arm positioned on one side of the roller conveyor 4 mechanism, so that the mould is conveniently hoisted; and a platform sunken in the ground is arranged on the ground below the lifting roller section 41, and the lifting mechanism 414 is arranged in the platform.

Two lifting mechanisms 414 are arranged at two ends of the bottom surface of the supporting seat 411; the lifting mechanism 414 has a first pivot part 4141, a first link 4142, a second link 4143, a fixed seat 4144 and a lifting cylinder 4145, which are disposed on the bottom surface of the supporting seat 411, wherein one end of the first link 4142 is pivotally connected to the first pivot part 4141, the other end is pivotally connected to the second link 4143, and the middle part is pivotally connected to the fixed seat 4144; the other end of the second connecting rod 4143 is connected with a piston rod of the lifting oil cylinder 4145; the first connecting rod 4142 is L-shaped, and the second connecting rod 4143 is in a straight shape; the piston rod of the lifting oil cylinder 4145 extends to push the second connecting rod 4143 to drive the first connecting rod 4142 to rotate axially by taking the pivoting position of the first connecting rod 4142 and the fixed seat 4144 as an axis, and the first connecting rod 4142 pushes the lifting roller section 41 to move upwards; the piston rod of the lifting oil cylinder 4145 retracts to pull the second connecting rod 4143 to drive the first connecting rod 4142 to rotate downwards by taking the pivoting position of the first connecting rod 4142 and the fixed seat 4144 as an axis, and the first connecting rod 4142 pulls the lifting roller section 41 to move downwards; the lifting mechanism 414 drives the lifting roller section 41 to move up and down, so that the top surface position of the vibration table 31 is lower than the highest position of the lifting roller section 41 and higher than the lowest position of the lifting roller section 41; the mould 1 is supported on the lifting roller section 41 or the vibrating table 31 to be quickly switched, so that the mould 1 is prevented from being moved between a vibrating position and a conveying position, the production line is simpler, and the production time can be saved; each roller 4142 is provided with a rotating shaft, two ends of each rotating shaft are respectively pivoted to two sides of the supporting seat 4141, rotating gears are arranged on the rotating shafts, the rotating gears on two adjacent rotating shafts are meshed with each other, and an output shaft of the roller driving mechanism 413 is connected with one rotating shaft; the roller 412 of the lifting roller section 41 is driven by a roller driving motor 413 independently, so that the lifting roller section 41 can be flexibly adjusted to carry out rolling conveying or suspended conveying, and the operation and the control are more convenient during production.

The vibration mechanism 3 of the invention is provided with two vibration seats 32 which are respectively positioned below two vibration tables 31, two ends of the vibration seat 32 and two ends of the vibration table 31 are respectively connected through a plurality of damping sleeve seats 33, and two vibration motors 34 which are positioned below the vibration tables 31 are arranged on the vibration seat 32; the damping sleeve seat 33 is provided with a rubber sleeve base 331 fixed on the vibration seat 32, a sleeve 332 fixed on the bottom surface of the vibration table 31 and a sleeve rod 333, the upper end of the sleeve rod 333 is sleeved in the sleeve 332, and the lower end of the sleeve rod 333 is sleeved on the rubber sleeve base 331; the damping sleeve seat 33 can be used as a buffer structure between the vibration table 31 and the vibration seat 32, so that the transmission of vibration force to the vibration seat 32 is reduced as much as possible; the top surface of the vibration table 31 is provided with the rubber layer, the die 1 is placed on the rubber layer, and the rubber layer can be used as a buffer layer in the vibration process, so that the die 1 and the vibration table 31 are prevented from being damaged by vibration due to hard touch and hard contact, and the service lives of the die 1 and the vibration table 31 are prolonged.

The frame 21 of the present invention is provided with two transverse rails 211 arranged in parallel and two longitudinal rails 212 arranged in parallel; the distributing vehicle 22 is provided with four transverse traveling wheels 221 which are positioned at four end corners of the distributing vehicle 22 and travel on the two transverse rails 211, and a transverse driving motor 222 which drives the transverse traveling wheels 221 to move in a rolling manner; the machine frame 21 is further provided with two longitudinal supports 213 arranged in parallel with the longitudinal rails 212, two ends of each longitudinal support 213 are connected to the end portions of the two transverse rails 211 located on the same side, and two ends of each longitudinal support 213 are provided with two longitudinal traveling wheels 2131 for traveling on the corresponding longitudinal rails 212 and a longitudinal driving motor 2132 for driving the longitudinal traveling wheels 2131 to roll; the material distribution vehicle 22 can move vertically and horizontally above the roller conveying mechanism 4, and the material distribution vehicle 22 is adjusted to be aligned with the material distribution of the die 1; when different molds 1 are used, the positions of the injection ports of the molds 1 are different, and the material distribution vehicle 22 can move vertically and horizontally to adjust and align the molds 1 for precise material distribution; the rack 21 is further provided with four vertical rails 214 located at four end corners of the rectangle, wherein one of the longitudinal rails 212 is horizontally arranged inside two of the vertical rails 214, and the other longitudinal rail 212 is horizontally arranged inside the other two vertical rails 214; two ends of each longitudinal rail 212 are respectively provided with a slider 2121 which slides in the corresponding two vertical rails 214, one side of each vertical rail 214 is provided with a lifting driving oil cylinder 2141, an oil cylinder seat of the lifting driving oil cylinder 2414 is fixedly connected with the slider 2121, and the top end of a piston rod is fixed at the top end of the vertical rail 214; the material distribution vehicle 22 can also move in the vertical direction, and can perform accurate material distribution for the molds 1 with different heights.

In the invention, two sides of the vertical rail 214 are respectively provided with a sliding chute 2142, two ends of the longitudinal rail 212 are respectively provided with a clamping seat 2122, and the clamping seat 2122 is provided with two sliding blocks 2121 which respectively slide in the two sliding chutes 2142 on the same vertical rail 214; the two sliding blocks 2121 are clamped at two sides of the vertical rail 214, and can limit the sliding blocks 2121 to be stably fixed in the sliding grooves 2142 for sliding.

A spiral discharging pipe 223 is arranged at the lower outlet of the material distribution vehicle 22, a spiral rod 2231 is arranged in the spiral discharging pipe 223, a spiral rod motor 2232 connected with the spiral rod 2231 is arranged at one end of the spiral discharging pipe 223, and a discharging port 2233 with a downward opening is arranged at the other end; when the material distributing vehicle 22 distributes the material, the screw rod motor 2232 drives the screw rod 2231 to rotate so as to stir the raw material again, and then the raw material is discharged into the die 1 from the discharging opening 2233, so that the material distribution is more uniform; moreover, the condition that the blanking is not good due to the fact that the raw materials are agglomerated because the retention time of the raw materials in the material distribution vehicle 22 is too long can be avoided, the material distribution is more uniform, and the production quality of the prefabricated part is improved.

The outer side of the material distribution vehicle 22 is provided with a rectangular frame, and four end corners of the rectangular frame are provided with four transverse travelling wheels 222.

The blanking mechanism 2 of the invention is also provided with a transfer trolley 23 for transferring raw materials and blanking the raw materials into a material distribution trolley 22; the frame 21 is provided with two parallel transverse guide rods 215 and two parallel longitudinal guide rods 216, and the transfer trolley 23 is provided with a hopper, a material door switch, a transfer trolley moving wheel 231 walking on the transverse guide rods 215 and a transfer trolley driving motor 232 driving the transfer trolley moving wheel 231 to move in a rolling manner; the two longitudinal guide rods 216 are positioned right below the two transverse guide rods 215, the two longitudinal rails 212 slide up and down on the vertical rails 214 and are connected with the two longitudinal guide rods 216 in a flush manner, so that the distributing trolley 22 moves from the longitudinal rails 212 to the longitudinal guide rods 216, and the transfer trolley 23 moves on the transverse guide rods 215 and carries out blanking in alignment with the distributing trolley 22 positioned on the longitudinal guide rods 216; the transfer trolley 23 can quantitatively convey the raw materials stirred in the stirring area to the material distribution trolley 22 in batches for quantitative material distribution, so that the production specification of the prefabricated parts is uniform.

Two prefabricated part production lines are arranged on two sides of a transfer trolley 23, two groups of longitudinal guide rods 216 are arranged under two transverse guide rods 215 at intervals, material distribution vehicles 22 on the two prefabricated part production lines respectively move to the group of longitudinal guide rods 216, and the transfer trolley 23 distributes materials for the two material distribution vehicles 22 respectively; two production lines produce simultaneously, improve production efficiency.

The mold 1 of the present invention is used for producing a water channel prefabricated part 10, and has a first bottom frame 11, a first bottom mold 12, a first front side mold 13, a first rear side mold 14, a first left side mold 15, a first right side mold 16, a first top mold 17, and a mold opening and closing mechanism 18 (see fig. 11 to 16); the first front side edge mold 13 and the first rear side edge mold 14 are rotatably pivoted to the front side and the rear side of the first bottom frame 11, the first left side edge mold 15 and the first right side edge mold 16 are movably arranged at the left end and the right end of the first bottom frame 12, and the first top mold 17 is movably covered above the first bottom frame 12; the first bottom die 12, the first front side die 13, the first rear side die 14, the first left side die 15, the first right side die 16 and the first top die 17 enclose an n-shaped water channel member die cavity; the mold opening and closing mechanism 18 is provided with a linkage rod 181, a linkage sheet 182, a rotating rod 183 and a rotating arm 184; the first left side die 15 is provided with a first abdicating through hole 151, the linkage rod 181 penetrates through the first bottom die 12 and two ends of the linkage rod pass through the left end and the right end of the first bottom die 12, one end of the linkage rod 181 penetrates through the first abdicating through hole 151 of the first left side die 15 and is pivoted with the linkage piece 182, and the other end of the linkage rod 181 is connected with the first right side die 16; the linkage piece 182 is provided with a through hole 1821 through which the rotation rod 183 is pivotally connected, and the rotation arm 184 is arranged at one end of the rotation rod 183; when the die is closed, the rotating arm 184 is swung downwards to drive the rotating rod 183 to rotate, the rotating rod 183 rotates to drive the linkage piece 182 to rotate to pull the linkage rod 181 to move outwards so as to pull the first left side die 15 and the first right side die 16 to abut against the left end and the right end of the first bottom die 12, and the first front side die 13 and the first rear side die 14 are abutted against and fixed by the first left side die 15 and the first right side die 16; when the mold is opened, the rotating arm 184 is swung upwards to drive the rotating rod 183 to rotate, the rotating rod 183 rotates to drive the linkage piece 182 to rotate to push the linkage rod 181 to move inwards so as to push the first left side mold 15 and the first right side mold 16 to be away from the left end and the right end of the first bottom mold 12, and the left end and the right end of the first front side mold 13 and the first rear side mold 14 are not pushed by the first left side mold 15 and the first right side mold 16 to be opened outwards; the die opening or closing structure of the water channel prefabricated part die is simple, and the operation is convenient and fast.

The outer side surface of the first left side die 15 is provided with a plurality of supports 185 for erecting the rotating rods 183, and the supports 185 are provided with assembling holes for the rotating rods 183 to horizontally penetrate through; the first right side formwork 16 is provided with a second abdicating through hole 161 for one end of the linkage rod 181 to penetrate out, and the outer side surface of the first right side formwork 16 is provided with a fixing seat 186 for locking the linkage rod 181.

An arc-shaped arc section 1811 is formed at one end of the pivot joint of the linkage rod 181 and the linkage sheet 182.

The first bottom die 12 of the present invention is fixed on the first bottom die frame 11, and has a front plate, a rear plate, a left plate, a right plate and a top plate, and a plurality of reinforcing plates are arranged in the first bottom die 12; the first front side die 13 and the front plate, the first rear side die 14 and the rear plate, and the first top die 17 and the top plate are arranged at intervals respectively, the first left side die 15 and the first right side die 16 are respectively abutted against the left plate and the right plate, and a circle of first sealing ring which is hermetically abutted against the side surface of the left plate is arranged on the inner side surface of the first left side die 15; a circle of second sealing rings which are sealed and abutted against the side face of the right plate are arranged on the inner side face of the first right side edge die 16; moreover, the positions of the outer side surfaces of the front plate and the rear plate close to the bottom are provided with convex blocks 121 protruding outwards, the positions of the inner side surfaces of the first front side die 13 and the first rear side die 14 close to the bottom are provided with concave parts 122 sinking from inside to outside, and the convex blocks 121 and the concave parts 122 are correspondingly arranged at intervals; the space between the convex portion 121 and the concave portion 122 forms a flared step portion 123 at the bottom end of the front and rear sides of the water channel member cavity.

The water channel prefabricated part 10 is U-shaped, two ends of the water channel prefabricated part are communicated, an outward-expanded step edge 101 is formed on two side walls of the water channel prefabricated part, and a cover plate can be directly laid on the step edge 101; when the ditch is constructed, a plurality of ditch prefabricated parts 10 can be connected together to form a ditch, and a cover plate is arranged on the step edge 101 of the ditch prefabricated part 10, so that the ditch can be prevented from being blocked by soil.

The front side and the back side of the first left side die 15 and the first right side die 16 are respectively provided with a limiting draw hook 19 hooked at the left end and the right end of the first front side die 13 or the first back side die 14, and the limiting draw hook 19 is provided with a first connecting rod 191 rotatably pivoted on the first left side die 15 and the first right side die 16, a second connecting rod 192 hooked and buckled at the outer side surfaces of the first front side die 13 and the first back side die 14, and a third connecting rod 193 connecting the first connecting rod 191 and the second connecting rod 192; the first connecting rod 191 and the second connecting rod 192 are in a horizontal state, and two ends of the third connecting rod 193 are respectively and vertically connected with the first connecting rod 191 and the second connecting rod 192; two vertical limiting plates 194 for hooking and buckling the two limiting drag hooks 19 are respectively arranged at two ends of the outer side surfaces of the first front side die 13 and the first rear side die 14, and the outer end of the second connecting rod 192 is provided with a limiting hook part 195 hooked and buckled on the vertical limiting plate 194; when the first left side die 15 and the first right side die 16 move outwards, the limiting drag hook 19 is hooked and buckled on the vertical limiting plates of the first front side die 13 and the first rear side die 14, so that the outward movement distance of the first left side die 15 and the first right side die 16 is ensured to be almost the same, and the condition that the die opening is inconvenient because only the first left side die 15 moves outwards or only the first right side die 16 moves outwards is avoided; and the first front side die 13 and the first rear side die 14 can be slowly opened outwards by hooking the first front side die 13 and the first rear side die 14 on the limit draw hook 19.

The mold 1 of the invention is further provided with a limiting rod 196 for limiting the outward movement distance of the first left side die 15 and the first right side die 16, the left end and the right end of the first bottom die 12 are respectively provided with a first through hole 197, the first left side die 15 and the first right side die 16 are respectively provided with a second through hole 198, the two ends of the limiting rod 196 respectively pass through the first through hole 197 and the second through hole 198 and extend out of the first left side die 15 and the first right side die 16, and two ends of the limiting rod 196 are respectively inserted with a limiting bolt 199 for preventing the end part of the limiting rod 196 from retracting into the second through hole 198; when the first left side die 15 and the first right side die 16 move outwards, the limiting rod 196 and the limiting bolt 199 are matched to limit the outwards moving distance of the first left side die 15 and the first right side die 16, and the limiting rod 196 can limit the outwards moving distance of the first left side die 15 and the first right side die 16 to be almost same and can be separated from the first bottom die, so that the die is convenient to demould; and the stopper rod 196 may restrict the first left and right sideforms 15 and 16 from moving horizontally outward.

The limit rod 196 of the present invention is divided into two telescopic rods, the outer rods 1961 of the two telescopic rods are fixed on the first bottom mold 12, the outer end of the inner rod 1962 of one telescopic rod extends out of the second through hole 198 of the first left side mold 15 from the first through hole 197, the outer end of the inner rod 1962 of the other telescopic rod extends out of the second through hole 198 of the first right side mold 16 from the first through hole 197, and the limit bolt 199 is inserted into the outer end of the inner rod 1962 of the telescopic rod.

The bottom side surfaces of the first front side mold 13 and the first rear side mold 14 of the present invention are provided with a first pivot joint portion 130, the front and rear sides of the first bottom frame 11 are provided with second pivot joint portions 110, and the first pivot joint portion 130 and the second pivot joint portions 110 are pivotally connected together; the first front side mold 13 and the first rear side mold 14 are rotatably pivoted to the front side and the rear side of the first bottom frame 11, so that the first front side mold 13 and the first rear side mold 14 can be conveniently rotated to open, and the mold opening and closing are convenient.

The bottom of the front and rear side surfaces of the first bottom frame 11 is respectively provided with two limit propping blocks 111 which prop against the first front side edge mold 13 or the first rear side edge mold 14; and the bottom surface of the first bottom frame 11 is provided with two cross bars 112 and two vertical bars 113 in parallel, and the cross bars 112 have extending portions extending out of both sides of the first bottom frame 11.

When the prefabricated part production line of the invention is used for producing the water channel prefabricated part 10, the production line comprises the following steps:

s1, carrying out die assembly on a die 1, namely turning the first front side die 13 and the first rear side die 14 to be in a vertical state, swinging the rotating arm 184 to drive the rotating rod 183 to rotate, driving the linkage piece 182 to rotate by the rotating rod 183 to pull the linkage rod 181 to move outwards so as to pull the first left side die 15 and the first right side die 16 to abut against the left end and the right end of the first bottom die 12, and abutting and fixing the first front side die 13 and the first rear side die 14 by the first left side die 15 and the first right side die 16 to complete die assembly;

s2, placing the die subjected to die assembly on the fixed roller section 42, and conveying the die to the lifting roller section 41 through the fixed roller section 42;

s3, the lifting mechanism 414 drives the lifting roller section 41 to descend to be lower than the fixed roller section 42, and two ends of the die 1 are supported on the two vibration tables 31;

s4, moving the material distribution vehicle 22 to align the die, then opening the vibration motor 34, and carrying out material injection and vibration on the die 1;

s5, after the material injection is finished, stopping vibrating the vibrating mechanism 31, and covering the first top die 17; the lifting mechanism 414 drives the lifting roller section 41 to rise to be flush with the fixed roller section 42, the mold 1 is supported on the lifting roller section 41, the roller driving mechanism 413 drives the roller 412 of the lifting roller section 41 to roll and convey the mold 1 to the fixed roller section 42, and then the mold is conveyed out from the fixed roller section 42 and conveyed to a curing kiln for curing by a forklift;

s6, the maintenance is accomplished the back, opens mould 1, the swing the swinging arm 184 drives the dwang 183 and rotates, and the dwang 183 rotates and drives linkage piece 182 and rotate and promote first left side limit mould 15, the first right side limit mould 16 and keep away from both ends about first die block 12 of linkage rod 181 inward movement, both ends are not supported by first left side limit mould 15, first right side limit mould 16 and are pushed up and outwards open about first preceding side limit mould 13, first back side limit mould 14, the finished product of drawing of patterns prefabricated component.

The prefabricated part production line of the invention is used for producing the prefabricated part 10 of the water channel for drainage, and during construction, the prefabricated parts of the water channel can be directly arranged at preset positions to form a water channel; the water guide pipe is used for guiding water collected at low-lying positions such as a side ditch, a catch basin, the vicinity of a roadbed, a crop field, the vicinity of a house and the like to the roadbed, the crop field and the outside of the house field; the construction is simple, no special professional installation technician is needed, and anyone can accurately install the steel pipe; maintenance is not needed, and the steel can be immediately buried after installation; the construction period can be greatly shortened, traffic jam can be relieved, traffic restriction can be facilitated, and safety management cost can be reduced; and the section of the water channel prefabricated part 10 is thin, the span of the finished product is small, and the road can be widely used.

The steel reinforcement cage is placed in the die cavity before die assembly; making the prefabricated units stronger structurally.

In step S6, when the mold 1 is opened, the four limiting draw hooks 19 are respectively hooked at two ends of the first front side mold 13 and the first rear side mold 14, so as to limit the distance that the first left side mold 15 and the first right side mold 16 respectively move outwards to be the same.

In step S5, when the mold 1 is opened, the limiting rod 196 limits the maximum distance that the first left side die 15 and the first right side die 16 respectively move outwards.

The water channel prefabricated part is prefabricated and formed by the water channel prefabricated part mould; the water channel prefabricated part 10 is U-shaped, two ends of the water channel prefabricated part are communicated, and step edges which are expanded outwards are formed on two side walls of the water channel prefabricated part; when a ditch is built, a plurality of prefabricated parts 10 of the ditch can be connected together to form a ditch, and a cover plate is arranged on the step edge 101 of the prefabricated part 10 of the ditch, so that the ditch can be prevented from being blocked by soil; the construction is convenient.

The mold 1 of the present invention is used for producing a prefabricated slope protection block component 20, and has a second bottom frame 11', a second bottom mold 12', a second front side edge mold 13', a second rear side edge mold 14', a second left side edge mold 15', a second right side edge mold 16', a second top mold 17', a core bar 18' and two first mold closing and locking bars 19' (refer to fig. 17 to 21, 27 and 28); the second bottom die 12' is arranged on the top surface of the second bottom frame 11', the second front side die 13', the second rear side die 14', the second left side die 15', and the second right side die 16' are respectively pivoted on four side surfaces of the second bottom frame 11', and the second front side die 13', the second rear side die 14' are provided with a plurality of through holes 181' for the core bar 18' to penetrate through; the second bottom die 12', the second front side die 13', the second rear side die 14', the second left side die 15', the second right side die 16', the second top die 17' and the core rod 18' form a slope protection block prefabricated part die cavity in a surrounding mode; the left and right side surfaces of the second front side die 13 'are respectively provided with a first U-shaped member 131', the left and right side surfaces of the second rear side die 14 'are respectively provided with a first pin 141', one end of the first mold closing locking rod 19 'is a hook part 191' hooking the first pin 141', and the other end is locked with a nut 192'; when the die is closed, the second left side die 15', the second right side die 16', the second front side die 13 'and the second rear side die 14' are turned over to be in a vertical state; the hook part 191 'of the first clamping locking rod 19' is hooked on the first pin 141', the other end of the first clamping locking rod is clamped in the first U-shaped piece 131', and the locking nut 192 'abuts against the outer side surface of the first U-shaped piece 131'; the hook 191' and the nut 192' of the first mold closing locking rod 19' limit the second front side mold 13' and the second rear side mold 14' to tightly abut against the front side and the rear side of the second left side mold 15' and the second right side mold 16', and lock and fix the second front side mold 13', the second rear side mold 14', the second left side mold 15' and the second right side mold 16' together; then the core rod 18' is inserted into the mould 1; the die 1 is convenient to close and open and is firm in closing.

The hook 191' of the present invention has a first hook 1911', two second hooks 1912' and a handle 1913', and the first hook 1911' has a first transverse portion 1911a connected to one end of the first mold clamping lock lever 19' and a first vertical portion 1911b hooked to the outer side surface of the first pin 141'; the second hook portion 1912 'has a second vertical portion 1912a pivotally connected to the first vertical portion 1911b and a second transverse portion 1912b hooked to the lower side of the first pin 141'; the first vertical portion 1911b is interposed between the two second vertical portions 1912a, and one end of the handle portion 1913' is fixed between the two second horizontal portions 1912b; when the mold is opened, the core rod 18 'is firstly drawn out, then the handle part 1913' is rotated upwards, the handle part 1913 'drives the second hook part 1912' to rotate upwards, and the second transverse part 1912b is rotated from the lower side surface of the first pin 141 'to the outer side surface of the first pin 141'; further, the first mold clamping and locking rod 19 'is pulled up horizontally to enable the first hook portion 1911' to be separated from the first pin 141 'and one end of the nut 192' to be separated from the first U-shaped part 131', and the first mold clamping and locking rod 19', the second front side edge mold 13', the second rear side edge mold 14', the second left side edge mold 15 'and the second right side edge mold 16' are disassembled to be opened outwards; during mold closing, the first mold closing locking rod 19' is pressed downwards horizontally to enable the first hook 1911' to hook and buckle on the first pin 141', one end of the first mold closing locking rod 19' is clamped into the first U-shaped part 131', and the nut 192' abuts against the outer side surface of the first U-shaped part 131'; then the handle portion 1913' is rotated downwards, the handle portion 1913' drives the second hook portion 1912' to rotate downwards, the second transverse portion 1912b is rotated from the outer side surface of the first pin 141' to the lower side surface of the first pin 141', and the hook portion 191' is hooked on the first pin 141' firmly; the two first die assembly locking and fixing rods 19' lock and fix the second front side die 13', the second rear side die 14', the second left side die 15' and the second right side die 16' together; the core bar 18' is then inserted into the mold to complete the mold assembly.

The second hook portion 1912' further has a third transverse portion 1912c, the second transverse portion 1912b and the third transverse portion 1912c are located at two ends of the same side of the second vertical portion 1912a and enclose a V-shaped groove, and the end of the third transverse portion 1912c is a round-head tip; when the mold is opened, the handle part 1913' is rotated upwards, the handle part 1913' drives the second hook part 1912' to rotate upwards, the second transverse part 1912b is rotated from the lower side surface of the first pin 141' to the outer side surface of the first pin 141', the third transverse part 1912c is rotated to the upper side of the first pin 141' and pushes the first pin 141' out of the first hook part 1911', and the hook part 191' is separated from the first pin 141', so that the first mold closing locking rod 19' can be conveniently detached; during mold closing, the first mold closing locking rod 19' is pressed downwards horizontally to enable the first hook 1911' to hook and buckle on the first pin 141', one end of the first mold closing locking rod 19' is clamped into the first U-shaped part 131', and the nut 192' abuts against the outer side surface of the first U-shaped part 131'; then the handle portion 1913 'is rotated downwards, the handle portion 1913' drives the second hook portion 1912 'to rotate downwards, the second transverse portion 1912b is rotated from the outer side surface of the first pin 141' to the lower side surface of the first pin 141', the first pin 141' is clamped in the V-shaped groove formed by the second transverse portion 1912b and the third transverse portion 1912c, and the hook portion 191 'is firmly hooked on the first pin 141'; the two first mold closing locking rods 19' lock the second front side mold 13', the second rear side mold 14', the second left side mold 15' and the second right side mold 16' together.

The outer end of the first vertical portion 1911b is an arc end, and the inner side wall of the connection between the first vertical portion 1911b and the first transverse portion 1911a is an arc wall with smooth transition; the outer end of the second transverse portion 1912b is an arc end, the second transverse portion 1912b tapers from the end connected with the second vertical portion 1912a to the arc end, and the inner side wall of the connection between the second vertical portion 1912a and the second transverse portion 1912b is an arc wall with smooth transition.

The second front side form 13' and the second rear side form 14' are respectively provided with three through holes 181' at equal intervals, the through hole 181' at the center is a hoisting hole, and the through holes 181' at the two sides are reinforcing steel bar holes in which reinforcing steel bars can be inserted; when the protective wall is built in places such as a river channel, a lake, a coast, a roadside and the like, the slope protection blocks are hoisted by utilizing hoisting equipment through hoisting holes of each slope protection block, the slope protection blocks are stacked up and down, left and right, reinforcing steel bars are inserted into reinforcing steel bar holes of the slope protection blocks stacked up and down, concrete is poured into the through holes 181', and the reinforced slope protection block protective wall is built; a first boss 142 'extending into the die cavity is arranged in the hoisting hole in the second rear side die 14'; the reinforcing steel bar holes on the second rear side formwork 14' are provided with first concave platforms 143' which are sunken in the inner side surface of the second rear side formwork 14'; the reinforcing steel bar hole of the second front side formwork 13 'is provided with a second boss 132' extending into the formwork cavity; the core bar 18 'located at the central position is inserted from the middle through hole of the second front side die 13' and the end part abuts against the first boss 142 'of the second rear side die 14'; core bars 18' at both sides are inserted from the tendon holes of the second front side form 13' and the ends thereof protrude through the tendon holes of the second rear side form 14'; the inner side surfaces of the second left side form 15 'and the second right side form 16' are provided with semicircular column convex ridges 151 'and 161' on the transverse center line.

The first boss 142' is a circular truncated cone which gradually shrinks from the inner side to the die cavity, and the diameter of a through hole at the outer end of the first boss 142' is smaller than that of the core rod 18'; and a groove 1421 'for placing a reinforcing bar is formed on the inner wall of the through hole of the first boss 142'; the first concave stage 143' is a circular groove which is recessed from the inner side to the outer side in a tapered manner; the second boss 132' is a circular truncated cone which gradually shrinks from the inner side to the die cavity; the reinforcing steel bar is shaped like a Chinese character 'ji', the middle part of the reinforcing steel bar is inserted into the groove 1421', the two ends of the reinforcing steel bar extend into the mold cavity, after the prefabricated slope protection block component 20 is molded, the middle part of the reinforcing steel bar is exposed in the through hole 181', the two ends of the reinforcing steel bar are embedded in the prefabricated slope protection block component 20, and during hoisting, the hook part of the hoisting equipment hooks the middle part of the reinforcing steel bar to hoist the prefabricated slope protection block component, so that the hoisting is more convenient.

The outer ring of the core rod 18' is sleeved with a rubber sleeve; when the slope protection block prefabricated component 20 is molded by a mold, the concrete raw material is contacted with the rubber sleeve during material injection, so that the core rod is prevented from being directly contacted with the concrete raw material, and the rubber sleeve can be molded in the slope protection block prefabricated component 20 and the core pulling is more convenient; and the rubber sleeve has elasticity to facilitate the core pulling of the core rod 18'.

One end of the core bar 18 'is provided with a pull rod 182', one side of each through hole 181 'on the outer side surface of the second front side die 13' is provided with a fin 133', and the fin 133' is provided with a clamping groove 1331 'for clamping the pull rod 182'; after the core rod 18 'penetrates into the die cavity from the through hole 181' of the second front side die 13', the rotating pull rod 182' is clamped in the clamping groove 1331', so that the core rod 18' can be stably inserted into the die cavity, and the core rod 18 'is prevented from rotating or the core rod 18' is prevented from being separated from the die cavity; when the core rod 18' is removed, the core rod 18' can be drawn out of the mold cavity through the pull rod 182', so that core insertion or core pulling is more convenient.

The front, rear, left and right side surfaces of the second bottom frame 11 'are respectively provided with an extending part 111', and the extending part 111 'is provided with a limiting and propping block 112' propping against the second front side die 13 'or the second rear side die 14' or the second left side die 15 'or the second right side die 16'.

When the prefabricated part production line of the invention is used for producing the slope protection block prefabricated part 20, the production line comprises the following steps:

s1, carrying out die assembly on a die 1, turning over a second left side die 15', a second right side die 16', a second front side die 13' and a second rear side die 14' to be in a vertical state, and locking two first die assembly locking rods 19' on the second front side die 13' and the second rear side die 14'; the first clamping locking rod 19' is pressed horizontally downwards to enable the first hook 1911' to hook and buckle on the first pin 141', one end of the first clamping locking rod 19' is clamped into the first U-shaped part 131' and abuts against the outer side surface of the first U-shaped part 131' at the nut 192'; then the handle portion 1913 'is rotated downwards, the handle portion 1913' drives the second hook portion 1912 'to rotate downwards, the second transverse portion 1912b is rotated from the outer side surface of the first pin 141' to the lower side surface of the first pin 141', the first pin 141' is clamped in the V-shaped groove formed by the second transverse portion 1912b and the third transverse portion 1912c, and the hook portion 191 'is firmly hooked on the first pin 141'; the two first die assembly locking and fixing rods 19' lock and fix the second front side die 13', the second rear side die 14', the second left side die 15' and the second right side die 16' together; finally, the core bar 18' is inserted into the die to complete die assembly;

s2, placing the die 1 subjected to die assembly on the fixed roller section 42, and conveying the die to the lifting roller section 41 from the fixed roller section 42;

s5, after the material injection is finished, stopping vibrating the vibrating mechanism 31, and covering the second top die 17'; the lifting mechanism 414 drives the lifting roller section 41 to rise to be flush with the fixed roller section 42, the mold 1 is supported on the lifting roller section 41, the roller driving mechanism 413 drives the roller 412 of the lifting roller section 41 to roll and convey the mold 1 to the fixed roller section 42, and then the mold is conveyed out from the fixed roller section 42 and conveyed to a curing kiln for curing by a forklift;

s6, after the maintenance is finished, opening the mold, firstly pulling the core rod 18 'from the mold, then upwards rotating the handle part 1913', the handle part 1913 'driving the second hook part 1912' to upwards rotate, the second transverse part 1912b is rotated to the outer side surface of the first pin 141 'from the lower side surface of the first pin 141', the third transverse part 1912c is rotated to the upper side of the first pin 141 'and pushes the first pin 141' out of the first hook part 1911', the hook part 191' is separated from the first pin 141', and the two first mold closing locking rods 19' are detached; and the second front side die 13', the second rear side die 14', the second left side die 15 'and the second right side die 16' are opened outwards, and the finished prefabricated part is demoulded.

In the invention, before inserting the core, a rubber sleeve is sleeved on the outer ring of a core rod 18'; the demoulding is convenient.

When the die is closed, a reinforcing bar in a shape like a Chinese character 'ji' is inserted into the groove 1421 'of the second rear side film 14'; the middle part of the steel bar is inserted into the groove 1421', and the two ends of the steel bar extend into the mold cavity; reinforcing steel bars for hooking and buckling of hoisting equipment are arranged in the through holes in the slope protection block prefabricated part 20, so that hoisting is facilitated.

According to the invention, after the core rod 18 'is inserted into the mold cavity, the pull rod 182' at one end of the core rod is rotated to be clamped in the clamping groove 1331', and the core rod 18' is fixed on the mold 1.

The slope protection block prefabricated part is prefabricated and formed by the water groove prefabricated part mould; the slope protection block prefabricated part 20 is a rectangular body and is provided with three through holes 201 penetrating through the top surface and the bottom surface, and a part of steel bars exposed outside are arranged in the upper ends of the through holes 201 in the middle; the through holes 201 at the two sides are provided with bosses 202 on the top surface and concave platforms on the bottom die, when two slope protection block prefabricated components 20 are stacked up and down, the bosses 202 on the lower slope protection block prefabricated component 20 are inserted into the concave platforms on the upper slope protection block prefabricated component 20; and groove strips 203 are formed on the left and right end surfaces of the slope protection block prefabricated part 20.

The prefabricated part production line of the invention produces the prefabricated part 20 of the slope protection block, which is used for building and protecting large-scale block walls in places such as riverways, lakes, shores, roadside and the like; after the slope protection block prefabricated component 20 is formed, a hoisting hole convenient for hoisting is formed, so that construction is facilitated; and two reinforcing steel bar holes for placing reinforcing steel bars are arranged, when the slope protection block prefabricated components 20 are stacked up and down, reinforcing steel bars can be inserted into the reinforcing steel bar holes, concrete is poured into the holes, and a strong revetment block wall body is built; moreover, the large-scale slope protection block with the surface size of 1m < 2 > of the slope protection block prefabricated part 20 can greatly improve the construction efficiency; and the surface is a natural stone pattern, so that the surrounding landscape can be better coordinated.

The mold of the present invention is used for producing a prefabricated roadbed rock component 30, two molds 1 are arranged side by side on a third bottom frame 11 ″, and each of the molds 1 has a third bottom mold 12 ″, a third front side mold 13 ″, a third rear side mold 14 ″, a third left side mold 15 ″, a third right side mold 16 ″, and a third top mold 17 ″ (see fig. 22 to 28); the third bottom die 12 ″ is arranged on the top surface of the third bottom die 11 ″ and the third front side die 13 ″, the third rear side die 14 ″, the third left side die 15 ″, and the third right side die 16 ″ are respectively pivoted on the third bottom die 11 ″ in a rotating manner; a plurality of rectangular grooves 121 arranged vertically and horizontally are formed in the top surface of the third bottom die 12'; the inner side surfaces of the third front side edge die 13 ″ and the third rear side edge die 14 ″ are provided with a first vertical raised line 144 ″ on the longitudinal central line, and two first transverse raised lines 145 ″ vertically arranged on the first vertical raised line 144 ″ are horizontally arranged on the inner side surface in the transverse direction; the third left side die 15 "and the third right side die 16" are provided with a second vertical convex strip 164 "on the longitudinal central line and two second transverse convex strips 165" which are horizontally provided with vertical second vertical convex strips 164 "on the inner side surface, and the first transverse convex strips 145" and the second transverse convex strips 165 "on the third front side die 13", the third rear side die 14", the third left side die 15" and the third right side die 16 "are connected into two rectangular rings; and the third bottom die 12", the third front side die 13", the third rear side die 14", the third left side die 15", the third right side die 16 "and the third top plate 17" enclose a roadbed stone prefabricated part die cavity.

The inner side surfaces of the third front side die 13", the third rear side die 14", the third left side die 15 "and the third right side die 16" are inclined surfaces which are inclined outwards from bottom to top; the medial surfaces of the third left side mold 15 "and the third right side mold 16" are symmetrically provided with strip grooves 166 "on two sides of the second vertical protruding strip 164", respectively, and the strip grooves 166 "are located on the medial surfaces of the third left side mold 15" and the third right side mold 16 "close to the third bottom mold 12".

Each mold 1 of the present invention further has two first mold closing locking rods 19', wherein the left and right side surfaces of the third front side mold 13 "are respectively provided with a second U-shaped member 131", the left and right side surfaces of the third rear side mold 14 "are respectively provided with a second pin 141", one end of each first mold closing locking rod 19' is a hook portion 191 'for hooking the second pin 141", and the other end thereof is locked with a nut 192'; when the dies are closed, the third front side die 13", the third rear side die 14", the third left side die 15 "and the third right side die 16" are turned to be in a vertical state, the hook part 191' of the first die closing locking rod 19' is hooked on the second pin 141", the other end of the first die closing locking rod is clamped in the second U-shaped part 131", and the locking nut 192' abuts against the outer side surface of the second U-shaped part 131"; the hook 191' and the nut 192' of the first mold clamping and locking bar 19' restrict the third front side edge mold 13 ″ and the third rear side edge mold 14 ″ from tightly abutting against the front and rear side surfaces of the third left side edge mold 15 ″ and the third right side edge mold 16 ″ so as to lock and lock the third front side edge mold 13 ″ together, the third rear side edge mold 14 ″ together, the third left side edge mold 15 ″ and the third right side edge mold 16 ″ together.

The hook 191 'of the present invention has a first hook 1911', two second hooks 1912 'and a handle 1913', and the first hook 1911 'has a first transverse portion 1911a connected to one end of the first mold clamping lock lever 19' and a first vertical portion 1911b hooked to the outer side surface of the second pin 141 ″; the second hook 1912' has a second vertical portion 1912a pivotally connected to the first vertical portion 1911b and a second transverse portion 1912b hooked to the lower side of the second pin 141"; the first vertical portion 1911b is interposed between the two second vertical portions 1912a, and one end of the handle portion 1913' is fixed between the two second horizontal portions 1912b; when the mold is opened, the handle portion 1913' is rotated upwards, the handle portion 1913' drives the second hook portion 1912' to rotate upwards, and the second transverse portion 1912b is rotated from the lower side surface of the second pin 141 "to the outer side surface of the second pin 141"; further horizontally and upwardly pulling the first mold closing locking rod 19 'to make the first hook 1911' separated from the second pin 141 "and one end of the nut 192 'separated from the second U-shaped member 131", and detaching the first mold closing locking rod 19', the third front side mold 13", the third rear side mold 14", the third left side mold 15", and the third right side mold 16" to be outwardly opened; when the mold is closed, the first mold closing locking rod 19 'is pressed horizontally downwards to enable the first hook 1911' to hook and buckle on the second pin 141", one end of the first mold closing locking rod 19 'is clamped into the second U-shaped part 131", and the nut 192' abuts against the outer side surface of the second U-shaped part 131"; then the handle portion 1913 'is rotated downwards, the handle portion 1913' drives the second hook portion 1912 'to rotate downwards, the second transverse portion 1912b is rotated from the outer side surface of the second pin 141 "to the lower side surface of the second pin 141", and the hook portion 191' is hooked on the second pin 141 "firmly; the first mold clamping and locking bar 19' locks and locks the third front side mold 13", the third rear side mold 14", the third left side mold 15 "and the third right side mold 16" together.

The second hook portion 1912' further has a third transverse portion 1912c, the second and third transverse portions 1912b, 1912c are located on the same side of the second vertical portion 1912a and enclose a V-shaped groove, and the end of the third transverse portion 1912c is a round tip; when the mold is opened, the handle part 1913 'is rotated upwards, the handle part 1913' drives the second hook part 1912 'to rotate upwards, the second transverse part 1912b is rotated from the lower side surface of the second pin 141 "to the outer side surface of the second pin 141", the third transverse part 1912c is rotated to the upper side of the second pin 141 "and pushes the second pin 141" out of the first hook part 1911', and the hook part 191 'is separated from the second pin 141", so that the first mold closing locking rod 19' is convenient to detach; when the mold is closed, the first mold closing locking rod 19 'is pressed horizontally downwards to enable the first hook 1911' to hook and buckle on the second pin 141", one end of the first mold closing locking rod 19 'is clamped into the second U-shaped part 131", and the nut 192' abuts against the outer side surface of the second U-shaped part 131"; then the handle portion 1913 'is rotated downwards, the handle portion 1913' drives the second hook portion 1912 'to rotate downwards, the second transverse portion 1912b is rotated from the outer side surface of the second pin 141 "to the lower side surface of the second pin 141", the second pin 141 "is clamped in the V-shaped groove formed by the second transverse portion 1912b and the third transverse portion 1912c, and the hook portion 191' is hooked on the second pin 141" firmly; the first mold closing locking rods 19' lock the third front side mold 13", the third rear side mold 14", the third left side mold 15 "and the third right side mold 16" together.

The front, rear, left and right side surfaces of the third bottom frame 11 ″ are respectively provided with an extension part 111 ″, and the extension part 111 ″ is provided with a limit abutting block 112 which abuts against a third front side die 13 ″, a third rear side die 14 ″, a third left side die 15 ″, or a third right side die 16 ″.

The roadbed stone prefabricated component 30 is prefabricated and formed by the roadbed stone prefabricated component mould; the top surface and the bottom surface of the roadbed stone prefabricated component 30 are two parallel rectangles, and a plurality of rectangular blocks 301 which are arranged vertically and horizontally are formed on the top surface; the four side surfaces are trapezoidal, a vertical groove 302 is formed in the longitudinal central line of each side surface, and a transverse groove 303 is formed in the transverse horizontal line of each side surface; two long blocks 304 are respectively arranged on the left side and the right side, and the two long blocks 304 are symmetrical to the two sides of the vertical groove 302 and are close to the top surface.

The prefabricated part production line of the present invention, when producing the roadbed stone prefabricated part 30, has the following steps:

s1, closing the die, turning over the third left side die 15', the third right side die 16', the third front side die 13', and the third rear side die 14' to be in a vertical state, then two first mold closing locking rods 19' are locked and fixed on the third front side edge mold 13' and the third rear side edge mold 14'; the first clamping locking rod 19 'is pressed in horizontally and downwards to enable the first hook 1911' to hook and buckle on the second pin 141", one end of the first clamping locking rod 19 'is clamped into the second U-shaped part 131", and the nut 192' abuts against the outer side surface of the second U-shaped part 131"; then the handle portion 1913 'is rotated downwards, the handle portion 1913' drives the second hook portion 1912 'to rotate downwards, the second transverse portion 1912b is rotated from the outer side surface of the second pin 141 "to the lower side surface of the second pin 141", the second pin 141 "is clamped in the V-shaped groove formed by the second transverse portion 1912b and the third transverse portion 1912c, and the hook portion 191' is hooked on the second pin 141" firmly; the two first mold closing locking rods 19' lock and fix the third front side die 13", the third rear side die 14", the third left side die 15 "and the third right side die 16 together; completing die assembly;

s3, the lifting mechanism 414 drives the lifting roller section 41 to descend to be lower than the fixed roller section 42, and two ends of the mold 1 are supported on the two vibration tables 31;

s5, after the material injection is finished, stopping vibrating the vibrating mechanism 31, and covering a third top die 17'; the lifting mechanism 414 drives the lifting roller section 41 to ascend to be level with the fixed roller section 42, the mold 1 is supported on the lifting roller section 41, the roller driving mechanism 413 drives the rollers 412 of the lifting roller section 41 to roll and convey the mold 1 to the fixed roller section 42, and then the mold is conveyed out from the fixed roller section 42 and conveyed to a curing kiln for curing by a forklift;

s6, after the curing is completed, the mold is opened, the handle portion 1913 'is rotated upward, the handle portion 1913' drives the second hook portion 1912 'to rotate upward, the second transverse portion 1912b is rotated from the lower side surface of the second pin 141 "to the outer side surface of the second pin 141", the third transverse portion 1912c rotates to above the second pin 141 ″ and pushes the second pin 141 ″ out of the first hook portion 1911', and the hook portion 191 'is separated from the second pin 141 ″ to detach the two first mold clamping and locking bars 19'; and opening the third front side die 13", the third rear side die 14", the third left side die 15 "and the third right side die 16" outwards, and demoulding the finished prefabricated part.

The invention also discloses a roadbed stone prefabricated component 30, which is the roadbed stone prefabricated component 30 made by the roadbed stone prefabricated component mould; the top surface and the bottom surface of the roadbed stone prefabricated component 30 are two parallel rectangles, and a plurality of rectangular blocks 301 which are arranged vertically and horizontally are formed on the top surface; the four side surfaces are trapezoidal, a vertical groove 302 is formed in the longitudinal central line of each side surface, and a transverse groove 303 is formed in the transverse horizontal line of each side surface; two long blocks 304 are respectively arranged on the left side and the right side, and the two long blocks 304 are symmetrical to the two sides of the vertical groove 302 and are close to the top surface.

The prefabricated part production line of the invention produces a roadbed stone prefabricated part 30 for the roadbed of the fabricated road; the bottom surface and the top surface of the roadbed stone prefabricated component 30 are parallel and rectangular, the four side surfaces are trapezoidal, and the roadbed constructed by the two male inclined surfaces and the two female inclined surfaces in the protection and protection occlusion relationship is firmer.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications thereof by those skilled in the art should be considered as not departing from the scope of the present invention.

Claims

1. A prefabricated component production line is characterized in that: comprises a die, a blanking mechanism, a vibration mechanism and a roller conveying mechanism; the roller conveying mechanism is provided with a lifting roller section and two fixed roller sections connected with two ends of the lifting roller section, and the vibrating mechanism is provided with two vibrating tables positioned on two sides of the lifting roller section; the lifting roller section is provided with a supporting seat, a plurality of rollers arranged on the supporting seat, a roller driving mechanism and a lifting mechanism; the blanking mechanism is provided with a rack arranged above the lifting roller section and a material distributing vehicle capable of moving vertically and horizontally on the rack;

after the die is conveyed to the lifting roller section from the fixed roller section, the lifting mechanism drives the lifting roller section to descend to be lower than the fixed roller section, and two ends of the die are supported on the two vibration tables; moving the material distribution vehicle to align the mold for material injection, and vibrating the mold by a vibrating mechanism while injecting the material; after the material injection is finished, the vibration mechanism stops vibrating, the lifting mechanism drives the lifting roller section to ascend to be flush with the fixed roller section, the mold is supported on the lifting roller section, the roller driving mechanism drives the roller of the lifting roller section to roll and convey the mold to the fixed roller section, and then the mold is conveyed out from the fixed roller section and conveyed to a curing kiln for curing by a forklift;

the mold is used for producing the slope protection block prefabricated part and is provided with a second bottom frame, a second bottom mold, a second front side mold, a second rear side mold, a second left side mold, a second right side mold, a second top mold, a core rod and two first mold closing locking rods; the second bottom die is arranged on the top surface of the second bottom frame, the second front side die, the second rear side die, the second left side die and the second right side die are respectively and rotatably pivoted on four side surfaces of the second bottom frame, and the second front side die and the second rear side die are provided with a plurality of through holes for the core rod to penetrate through; the second bottom die, the second front side die, the second rear side die, the second left side die, the second right side die, the second top die and the core rod form a slope protection block prefabricated part die cavity in a surrounding mode; the left side surface and the right side surface of the second front side edge mold are respectively provided with a first U-shaped piece, the left side surface and the right side surface of the second rear side edge mold are respectively provided with a first pin, one end of the first mold closing locking rod is a hook part for hooking and buckling the first pin, and the other end of the first mold closing locking rod is locked with a nut; when the die is closed, the second left side die, the second right side die, the second front side die and the second rear side die are turned to be in a vertical state; the hook part of the first die closing locking rod is hooked on the first pin, the other end of the first die closing locking rod is clamped in the first U-shaped piece, and the locking nut abuts against the outer side surface of the first U-shaped piece; the hook part of the first die assembly locking rod and the nut limit the second front side die and the second rear side die to tightly abut against the front side and the rear side of the second left side die and the second right side die, and the second front side die, the second rear side die, the second left side die and the second right side die are locked together;

the first hook part is provided with a first transverse part connected with one end of the first die closing locking rod and a first vertical part hooked and buckled on the outer side surface of the first pin; the second hook part is provided with a second vertical part rotationally pivoted with the first vertical part and a second transverse part hooked and buckled on the lower side surface of the first pin; the first vertical part is clamped between the two second vertical parts, and one end of the handle part is fixed between the two second transverse parts; when the mold is opened, the handle part is rotated upwards, the handle part drives the second hook part to rotate upwards, and the second transverse part is turned to the outer side surface of the first pin from the lower side surface of the first pin; further pulling up the first die closing locking rod horizontally to enable the first hook part to be separated from the first pin and one end of the nut to be separated from the first U-shaped piece, disassembling the first die closing locking rod, and opening the second front side die, the second rear side die, the second left side die and the second right side die outwards; when the die is closed, the first die closing locking rod is horizontally pressed downwards to enable the first hook part to be hooked and buckled on the first pin, one end of the first die closing locking rod is clamped into the first U-shaped part, and the nut is tightly abutted against the outer side face of the first U-shaped part; then the handle part is rotated downwards, the handle part drives the second hook part to rotate downwards, the second transverse part is turned to the lower side surface of the first pin from the outer side surface of the first pin, and the hook part is firmly hooked and buckled on the first pin; the two first die closing locking rods lock the second front side die, the second rear side die, the second left side die and the second right side die together;

the second front side die and the second rear side die are respectively provided with three through holes at equal intervals, the through hole positioned in the center is a hoisting hole, and the through holes positioned on two sides are reinforcing steel bar holes in which reinforcing steel bars can be inserted; the hoisting hole on the second rear side edge die is provided with a first boss extending into the die cavity; the reinforcing steel bar holes in the second rear side formwork are provided with first concave tables sunken in the inner side surface of the second rear side formwork; the reinforcing steel bar hole of the second front side formwork is provided with a second boss extending into the formwork cavity; the core rod positioned in the center is inserted from the middle through hole of the second front side die, and the end part of the core rod abuts against the first boss of the second rear side die; the core rods positioned on the two sides are inserted into the reinforcement holes of the second front side edge formwork, and the end parts of the core rods extend out of the reinforcement holes of the second rear side edge formwork; and semicircular column convex edges positioned on the transverse center line are arranged on the inner side surfaces of the second left side die and the second right side die.

2. The prefabricated member production line of claim 1, wherein: two lifting mechanisms are arranged at two ends of the bottom surface of the supporting seat; the lifting mechanism is provided with a first pivoting part, a first connecting rod, a second connecting rod, a fixed seat and a lifting oil cylinder, wherein the first pivoting part, the first connecting rod, the second connecting rod, the fixed seat and the lifting oil cylinder are arranged on the bottom surface of the supporting seat; the other end of the second connecting rod is connected with a piston rod of the lifting oil cylinder; a piston rod of the lifting oil cylinder extends out to push a second connecting rod to drive a first connecting rod to rotate upwards by taking the pivoting position of the first connecting rod and the fixed seat as an axis, and the first connecting rod pushes the lifting roller section to move upwards; a piston rod of the lifting oil cylinder retracts to pull the second connecting rod to drive the first connecting rod to rotate downwards by taking the pivoting position of the first connecting rod and the fixed seat as an axis, and the first connecting rod pulls the lifting roller section to move downwards; each roller is provided with a rotating shaft, two ends of each rotating shaft are respectively pivoted on two sides of the supporting seat, rotating gears are arranged on the rotating shafts, the rotating gears on two adjacent rotating shafts are meshed with each other, and an output shaft of the roller driving mechanism is connected with one rotating shaft.

3. A prefabricated part production line according to claim 1, wherein: the vibration mechanism is provided with two vibration seats which are respectively positioned below the two vibration tables, two ends of the vibration seats are respectively connected with two ends of the vibration tables through a plurality of damping sleeve seats, and two vibration motors positioned below the vibration tables are arranged on the vibration seats; the damping sleeve seat is provided with a rubber sleeve base fixed on the vibration seat, a sleeve fixed on the bottom surface of the vibration table and a sleeve rod, the upper end of the sleeve rod is sleeved in the sleeve, and the lower end of the sleeve rod is sleeved on the rubber sleeve base.

4. The prefabricated member production line of claim 1, wherein: the rack is provided with two transverse rails arranged in parallel and two longitudinal rails arranged in parallel; the distributing vehicle is provided with four transverse traveling wheels which are positioned on four end corners of the distributing vehicle and travel on the two transverse rails, and a transverse driving motor which drives the transverse traveling wheels to move in a rolling manner; the machine frame is also provided with two longitudinal supports which are arranged in parallel with the longitudinal rails, two ends of each longitudinal support are connected with the end parts of the two transverse rails which are positioned on the same side, and two ends of each longitudinal support are provided with two longitudinal travelling wheels which travel on the corresponding longitudinal rails and a longitudinal driving motor which drives the longitudinal travelling wheels to roll and move; the rack is also provided with four vertical rails positioned at four end corners of the rectangle, wherein one longitudinal rail is horizontally arranged at the inner sides of two of the vertical rails, and the other longitudinal rail is horizontally arranged at the inner sides of the other two vertical rails; the two ends of each longitudinal rail are respectively provided with a sliding block which slides in the corresponding two vertical rails, one side of each vertical rail is provided with a lifting driving oil cylinder, an oil cylinder seat of each lifting driving oil cylinder is fixedly connected with the corresponding sliding block, and the top end of each piston rod is fixed at the top end of the corresponding vertical rail.

5. The prefabricated member production line of claim 4, wherein: the two sides of the vertical track are respectively provided with a sliding groove, the two ends of the vertical track are respectively provided with a clamping seat, and the clamping seat is provided with two sliding blocks which respectively slide in the two sliding grooves on the same vertical track.

6. A prefabricated part production line according to claim 1, wherein: the lower outlet of the distributing vehicle is provided with a spiral discharging pipe, a spiral rod is arranged in the spiral discharging pipe, one end of the spiral discharging pipe is provided with a spiral rod motor connected with the spiral rod, and the other end of the spiral discharging pipe is provided with a discharging port with a downward opening.

7. The prefabricated member production line of claim 1, wherein: the blanking mechanism is also provided with a transfer trolley for transferring raw materials and blanking the raw materials into the material distribution trolley; the transfer trolley is provided with a hopper, a bin gate switch, a transfer trolley moving wheel walking on the transverse guide rod and a transfer trolley driving motor driving the transfer trolley moving wheel to move in a rolling manner; the two longitudinal guide rods are positioned under the two transverse guide rods, the two longitudinal rails slide up and down on the vertical rails and are in flush connection with the two longitudinal guide rods, the distributing vehicle moves to the longitudinal guide rods from the longitudinal rails, and the transfer vehicle moves on the transverse guide rods and aligns with the distributing vehicle positioned on the longitudinal guide rods to perform blanking.

8. The prefabricated member production line of claim 7, wherein: two prefabricated part production lines are arranged on two sides of the transfer trolley, two groups of longitudinal guide rods are arranged under the two transverse guide rods at intervals, the material distribution trolleys on the two prefabricated part production lines respectively move to one group of longitudinal guide rods, and the transfer trolley distributes materials for the two material distribution trolleys respectively.

9. A prefabricated part production line according to claim 1, wherein: the first boss is a circular table gradually reduced from the inner side to the die cavity, and the diameter of the through hole at the outer end of the first boss is smaller than that of the core rod; and the inner wall of the through hole positioned on the first boss is provided with a groove for placing a reinforcing steel bar; the first concave station is a circular groove which is gradually reduced and sunken from the inner side surface to the outer side surface; the second boss is a round table gradually reduced from the inner side to the die cavity.

10. The prefabricated member production line of claim 1, wherein: the outer ring of the core rod is sleeved with a rubber sleeve.

11. A prefabricated part production line according to claim 1, wherein: the front side, the rear side, the left side and the right side of the second bottom frame are respectively provided with an extension part, and the extension parts are provided with a limiting abutting block which abuts against a second front side die, a second rear side die, a second left side die or a second right side die.

12. A prefabricated component production line is characterized in that: comprises a die, a blanking mechanism, a vibration mechanism and a roller conveying mechanism; the roller conveying mechanism is provided with a lifting roller section and two fixed roller sections connected with two ends of the lifting roller section, and the vibrating mechanism is provided with two vibrating tables positioned on two sides of the lifting roller section; the lifting roller section is provided with a supporting seat, a plurality of rollers arranged on the supporting seat, a roller driving mechanism and a lifting mechanism; the blanking mechanism is provided with a rack arranged above the lifting roller section and a material distributing vehicle capable of moving vertically and horizontally on the rack; after the die is conveyed to the lifting roller section from the fixed roller section, the lifting mechanism drives the lifting roller section to descend to be lower than the fixed roller section, and two ends of the die are supported on the two vibration tables; moving the material distributing vehicle to align the mold for injecting material, and vibrating the mold by the vibrating mechanism while injecting the material; after the material injection is finished, the vibration mechanism stops vibrating, the lifting mechanism drives the lifting roller section to ascend to be flush with the fixed roller section, the mold is supported on the lifting roller section, the roller driving mechanism drives the roller of the lifting roller section to roll and convey the mold to the fixed roller section, and then the mold is conveyed out from the fixed roller section and conveyed to a curing kiln for curing by a forklift;

the moulds are used for producing prefabricated roadbed stone components, two moulds are arranged on a third bottom frame side by side, and each mould is provided with a third bottom mould, a third front side mould, a third rear side mould, a third left side mould, a third right side mould and a third top mould; the third bottom die is arranged on the top surface of a third bottom frame, and the third front side die, the third rear side die, the third left side die and the third right side die are respectively pivoted on the third bottom frame in a rotating manner; the top surface of the third bottom die is provided with a plurality of rectangular grooves which are arranged vertically and horizontally; the inner side surfaces of the third front side die and the third rear side die are provided with a first vertical convex strip on the longitudinal central line, and two first transverse convex strips vertically arranged on the first vertical convex strip are horizontally arranged on the transverse direction of the inner side surface; the third front side die, the third rear side die, the third left side die and the third right side die are connected into two rectangular rings through the first transverse convex strips and the second transverse convex strips; the third bottom die, the third front side die, the third rear side die, the third left side die, the third right side die and the third top plate enclose a roadbed stone prefabricated part die cavity;

each mould is also provided with two first mould closing locking and fixing rods, the left side surface and the right side surface of the third front side mould are respectively provided with a second U-shaped piece, the left side surface and the right side surface of the third rear side mould are respectively provided with a second pin, one end of each first mould closing locking and fixing rod is a hook part for hooking and buckling the second pin, and the other end of each first mould closing locking and fixing rod is locked with a nut; when the die is closed, the third front side die, the third rear side die, the third left side die and the third right side die are turned to be in a vertical state, the hook part of the first die closing locking rod is hooked on the second pin, the other end of the first die closing locking rod is clamped into the second U-shaped piece, and the locking nut abuts against the outer side face of the second U-shaped piece; the hook part of the first die assembly locking rod and the nut limit the third front side die and the third rear side die to tightly abut against the front side and the rear side of the third left side die and the third right side die, and the third front side die, the third rear side die, the third left side die and the third right side die are locked together;

the hook part is provided with a first hook part, two second hook parts and a handle part, and the first hook part is provided with a first transverse part connected with one end of the first die closing locking rod and a first vertical part hooked and buckled on the outer side surface of the second pin; the second hook part is provided with a second vertical part rotationally pivoted with the first vertical part and a second transverse part hooked and buckled on the lower side surface of the second pin; the first vertical part is clamped between the two second vertical parts, and one end of the handle part is fixed between the two second transverse parts; when the mold is opened, the handle part is rotated upwards, the handle part drives the second hook part to rotate upwards, and the second transverse part is turned to the outer side surface of the second pin from the lower side surface of the second pin; further horizontally and upwards pulling the first die closing locking rod to enable the first hook part to be separated from the second pin and one end of the nut to be separated from the second U-shaped piece, disassembling the first die closing locking rod, and outwards opening a third front side die, a third rear side die, a third left side die and a third right side die; when the die is closed, the first die closing locking rod is pressed horizontally downwards to enable the first hook part to be hooked on the second pin, one end of the first die closing locking rod is clamped into the second U-shaped piece, and the nut is tightly abutted against the outer side face of the second U-shaped piece; then the handle part is rotated downwards, the handle part drives the second hook part to rotate downwards, the second transverse part turns to the lower side surface of the second pin from the outer side surface of the second pin, and the hook part is firmly hooked on the second pin; the first die assembly locking and fixing rod locks the third front side edge die, the third rear side edge die, the third left side edge die and the third right side edge die together.

13. The prefabricated member production line according to claim 12, wherein: two lifting mechanisms are arranged at two ends of the bottom surface of the supporting seat; the lifting mechanism is provided with a first pivoting part, a first connecting rod, a second connecting rod, a fixed seat and a lifting oil cylinder, wherein the first pivoting part, the first connecting rod, the second connecting rod, the fixed seat and the lifting oil cylinder are arranged on the bottom surface of the supporting seat; the other end of the second connecting rod is connected with a piston rod of the lifting oil cylinder; a piston rod of the lifting oil cylinder extends out to push a second connecting rod to drive a first connecting rod to rotate upwards by taking the pivoting position of the first connecting rod and the fixed seat as an axis, and the first connecting rod pushes the lifting roller section to move upwards; a piston rod of the lifting oil cylinder retracts to pull the second connecting rod to drive the first connecting rod to rotate downwards by taking the pivoting position of the first connecting rod and the fixed seat as an axis, and the first connecting rod pulls the lifting roller section to move downwards; each roller is provided with a rotating shaft, two ends of each rotating shaft are respectively pivoted on two sides of the supporting seat, rotating gears are arranged on the rotating shafts, the rotating gears on two adjacent rotating shafts are meshed with each other, and an output shaft of the roller driving mechanism is connected with one rotating shaft.

14. The prefabricated member production line of claim 12, wherein: the vibration mechanism is provided with two vibration seats which are respectively positioned below the two vibration tables, two ends of the vibration seats are respectively connected with two ends of the vibration tables through a plurality of damping sleeve seats, and two vibration motors positioned below the vibration tables are arranged on the vibration seats; the damping sleeve seat is provided with a rubber sleeve base fixed on the vibration seat, a sleeve fixed on the bottom surface of the vibration table and a sleeve rod, the upper end of the sleeve rod is sleeved in the sleeve, and the lower end of the sleeve rod is sleeved on the rubber sleeve base.

15. The prefabricated member production line of claim 12, wherein: the rack is provided with two transverse rails arranged in parallel and two longitudinal rails arranged in parallel; the distributing vehicle is provided with four transverse traveling wheels which are positioned on four end corners of the distributing vehicle and travel on the two transverse rails, and a transverse driving motor which drives the transverse traveling wheels to move in a rolling manner; the machine frame is also provided with two longitudinal supports which are arranged in parallel with the longitudinal rails, two ends of each longitudinal support are connected with the end parts of the two transverse rails which are positioned on the same side, and two ends of each longitudinal support are provided with two longitudinal traveling wheels which travel on the corresponding longitudinal rails and a longitudinal driving motor which drives the longitudinal traveling wheels to move in a rolling manner; the rack is also provided with four vertical rails positioned at four end corners of the rectangle, wherein one of the vertical rails is horizontally arranged at the inner sides of two of the vertical rails, and the other vertical rail is horizontally arranged at the inner sides of the other two vertical rails; the two ends of each longitudinal rail are respectively provided with a sliding block which slides in the corresponding two vertical rails, one side of each vertical rail is provided with a lifting driving oil cylinder, an oil cylinder seat of each lifting driving oil cylinder is fixedly connected with the corresponding sliding block, and the top end of each piston rod is fixed at the top end of the corresponding vertical rail.

16. The prefabricated member production line of claim 15, wherein: the two sides of the vertical track are respectively provided with a sliding groove, the two ends of the vertical track are respectively provided with a clamping seat, and the clamping seat is provided with two sliding blocks which respectively slide in the two sliding grooves on the same vertical track.

17. The prefabricated member production line of claim 12, wherein: the lower outlet of the distributing vehicle is provided with a spiral discharging pipe, a spiral rod is arranged in the spiral discharging pipe, one end of the spiral discharging pipe is provided with a spiral rod motor connected with the spiral rod, and the other end of the spiral discharging pipe is provided with a discharging port with a downward opening.

18. The prefabricated member production line of claim 12, wherein: the blanking mechanism is also provided with a transfer trolley for transferring raw materials and blanking the raw materials into the material distribution trolley; the transfer trolley is provided with a hopper, a bin gate switch, a transfer trolley moving wheel walking on the transverse guide rod and a transfer trolley driving motor driving the transfer trolley moving wheel to move in a rolling manner; the two longitudinal guide rods are positioned under the two transverse guide rods, the two longitudinal rails slide up and down on the vertical rails and are in flush connection with the two longitudinal guide rods, the distributing vehicle moves to the longitudinal guide rods from the longitudinal rails, and the transfer vehicle moves on the transverse guide rods and aligns with the distributing vehicle positioned on the longitudinal guide rods to perform blanking.

19. The prefabricated member production line of claim 18, wherein: two prefabricated part production lines are arranged on two sides of the transfer trolley, two groups of longitudinal guide rods are arranged under the two transverse guide rods at intervals, the material distribution trolleys on the two prefabricated part production lines respectively move to one group of longitudinal guide rods, and the transfer trolley distributes materials for the two material distribution trolleys respectively.

20. The prefabricated member production line of claim 12, wherein: the inner side surfaces of the third front side die, the third rear side die, the third left side die and the third right side die are inclined surfaces which are inclined outwards from bottom to top; the medial surface of third left side edge forms, third right side edge forms is provided with rectangular groove at the vertical sand grip bilateral symmetry of second respectively, just rectangular groove is located third left side edge forms, third right side edge forms and is close to on the medial surface of third die block.

21. The prefabricated member production line of claim 12, wherein: the front side, the rear side, the left side and the right side of the third bottom frame are respectively provided with an extension part, and the extension parts are provided with limiting abutting blocks which abut against a third front side die, a third rear side die, a third left side die or a third right side die.