CN106142291A - A kind of precast concrete fixes die station multifunctional turnover vibrating system - Google Patents
A kind of precast concrete fixes die station multifunctional turnover vibrating system Download PDFInfo
- Publication number
- CN106142291A CN106142291A CN201610763371.4A CN201610763371A CN106142291A CN 106142291 A CN106142291 A CN 106142291A CN 201610763371 A CN201610763371 A CN 201610763371A CN 106142291 A CN106142291 A CN 106142291A
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- CN
- China
- Prior art keywords
- die station
- precast concrete
- electric flat
- flat carriage
- vibrating system
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B1/00—Producing shaped prefabricated articles from the material
- B28B1/08—Producing shaped prefabricated articles from the material by vibrating or jolting
- B28B1/087—Producing shaped prefabricated articles from the material by vibrating or jolting by means acting on the mould ; Fixation thereof to the mould
- B28B1/0873—Producing shaped prefabricated articles from the material by vibrating or jolting by means acting on the mould ; Fixation thereof to the mould the mould being placed on vibrating or jolting supports, e.g. moulding tables
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B17/00—Details of, or accessories for, apparatus for shaping the material; Auxiliary measures taken in connection with such shaping
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66F—HOISTING, LIFTING, HAULING OR PUSHING, NOT OTHERWISE PROVIDED FOR, e.g. DEVICES WHICH APPLY A LIFTING OR PUSHING FORCE DIRECTLY TO THE SURFACE OF A LOAD
- B66F19/00—Hoisting, lifting, hauling or pushing, not otherwise provided for
Abstract
The invention discloses a kind of precast concrete and fix die station multifunctional turnover vibrating system, including two guide rails being arranged in parallel, described guide rail has been sequentially arranged above at least one fixing die station, described fixing die station supports by being positioned at the multiple studdles outside guide rail, be provided with on guide rail below one of them described fixing die station and can turn over, along guide rail is reciprocating, the flatcar that shakes, described in turn over the flatcar that shakes for vibrating and overturning described fixing die station.It is an object of the invention to provide a kind of precast concrete and fix die station multifunctional turnover vibrating system, reduce cost, improve up-to-standard rate.
Description
Technical field
The present invention relates to a kind of precast concrete and fix die station multifunctional turnover vibrating system.
Background technology
Current automatic PC apparatus for production line up-front investment Tai Gao China PC present situation also stage in just developing, a technology
Less than maturation, demand is the least, and the least enterprise is also due to bankroll problem cannot go up a full-automatic PC production line.
At present, domestic fixing production line is the most all artificial, and PC component must assure that quality, says from product, it is ensured that matter
The maximum link of amount is just on two stations of vibration and upset;Vibration ensures that the vibration of component is uniform, and upset ensures large-scale structure
Part is not destroyed during lifting.Secondary station can be accomplished manually.But the most domestic PC component manufacture is fixing to be produced
Line is susceptible to various quality problems more.
Summary of the invention
It is an object of the invention to provide a kind of precast concrete and fix die station multifunctional turnover vibrating system, reduce cost, carry
High-quality qualification rate.
For solving above-mentioned technical problem, the present invention adopts the following technical scheme that
One precast concrete of the present invention fixes die station multifunctional turnover vibrating system, including two guide rails being arranged in parallel,
Described guide rail has been sequentially arranged above at least one fixing die station, and described fixing die station is supported by the studdle of its angle end,
Be provided with on guide rail below one of them described fixing die station and can turn over, along guide rail is reciprocating, the flatcar that shakes, described in turn over the flatcar that shakes
For vibrating and overturning described fixing die station.
Further, turn over, described in, the flatcar that shakes and include electric flat carriage leading portion, electric flat carriage interlude and electric flat carriage back segment, institute
State and between electric flat carriage leading portion, electric flat carriage interlude, be provided with the first turning device that bolt is connected to one,
The second upset dress that bolt is connected to one it is provided with between described electric flat carriage interlude and electric flat carriage back segment
Putting, two outsides of described electric flat carriage leading portion, electric flat carriage interlude and electric flat carriage back segment are fixedly connected with respectively and shake
Dynamic device;Described electric flat carriage interlude is driven motion by motor reducer and then drives described electric flat carriage leading portion and electronic flat
Car back segment moves.
Further, described turning device includes mainframe, and in described mainframe, left-hand end is provided with the first locking device,
Being provided with the second locking device outside described mainframe right-hand end, be provided with sliding support in described mainframe, described slip is propped up
In Zuo, the hinged seat of rear end is articulated and connected the tail end of overturning oil cylinder, the tail end of the overturning oil cylinder that is articulated and connected, described sliding support
Right-hand member upper end is hinged with the tail end of flip-arm, is provided with telescopic slotting wall in described flip-arm, and described slotting wall front end is provided with
Alignment pin;Slotting wall part inside the alignment pin of described slotting wall is hinged with the head end of described overturning oil cylinder;
Described first locking device is for locking the front end of described sliding support;
Described second locking device is for locking the rear end of described sliding support;
It is provided with inside described fixing die station correspondence and mates the 3rd locking device locking described slotting wall front end, the described 3rd
The hole, location mated with described alignment pin it is additionally provided with on locking device.
Further, described vibrating device includes fixing the sleeve being connected with flatcar, is provided with lifting oil in described sleeve
Cylinder, the tail end of described hoist cylinder fixes to connect and is positioned at the lifting support of described sleeve lower end, and the head end of described hoist cylinder is solid
Fixed connect the elevator platform being positioned at described sleeve upper end, described elevator platform be fixedly connected with vibration table, described vibration table by
Driven by vibrating motors.
Further, yielding rubber spring it is provided with between described vibration table and described elevator platform.
Further, inside described leg platform, it is provided with the shelves limit location structure limiting die station two side shifting, and the most right
Die station upset is constituted to be interfered.
Further, described guide rail has been sequentially arranged above 6 fixing die station, under original state, described in turn over the flatcar position that shakes
On guide rail below the fixing die station of side.
Further, described slotting wall upper end is provided with guide bearing.
Further, described 3rd locking device includes hole, location and lower end, hole, the location hinge being fixed in fixing die station
The latch hook connect, the stretching spring that one end is connected with latch hook front end and the other end is connected with the fixing die station of top.
Compared with prior art, the Advantageous Effects of the present invention:
Turn over the flatcar that shakes and be located immediately at below fixing die station, relatively in the past fixed PC production line, at least increase by two and fix
The station (station that flatcar takies) of platform, adds yield, is greatly promoted production efficiency;Utilization turns over the flatcar that shakes same solid
Complete vibration and upset work on cover half platform simultaneously, be greatly promoted the qualification rate of concrete prefabricated element;Operation practicality, simple
Changing, the action safety with equipment is all greatly improved.
Accompanying drawing explanation
The invention will be further described in explanation below in conjunction with the accompanying drawings.
Fig. 1 is the overall schematic that precast concrete of the present invention fixes die station multifunctional turnover vibrating system;
Fig. 2 is the structural representation after precast concrete of the present invention fixes the upset of die station multifunctional turnover vibrating system;
Fig. 3 is the schematic side view after precast concrete of the present invention fixes the upset of die station multifunctional turnover vibrating system;
Fig. 4 is that A goes out partial enlarged drawing;
Fig. 5 is partial enlarged drawing at B;
Fig. 6 is that C goes out partial enlarged drawing;
Fig. 7 is the structural representation turning over the flatcar that shakes in the present invention;
Fig. 8 is the structural representation of the upset transition turning over the flatcar that shakes in the present invention;
Fig. 9 is the structural representation of turning device in the present invention;
Figure 10 is the structural representation of another angle of turning device in the present invention;
Figure 11 is the sectional structure schematic diagram of turning device in the present invention;
Figure 12 is the structural representation of the locking state of turning device in the present invention;
Figure 13 is the sectional structure schematic diagram of the locking state of turning device in the present invention;
Figure 14 is the sectional structure schematic diagram of vibrating device in the present invention;
Figure 15 is the work process schematic diagram that precast concrete of the present invention fixes die station multifunctional turnover vibrating system.
Description of reference numerals: 1-guide rail;2-fixes die station;201-the 3rd locking device;2010-positions hole;2011-locks
Hook;2012-stretches spring;3-turns over the flatcar that shakes;31-electric flat carriage leading portion;32-electric flat carriage interlude;After 33-electric flat carriage
Section;34-the first turning device;35-the second turning device;36-vibrating device;37-motor reducer;301-mainframe;302-
Flip-arm;303-inserts wall;304-the first locking device;305-the second locking device;306-sliding support;3060-shelves pin;307-
Overturning oil cylinder;308-alignment pin;309-guide bearing;310-sleeve;311-hoist cylinder;312-lifting support;313-lifts
Frame;314-shakes platform;315-vibrating motor;316-yielding rubber spring;4-studdle;5-fixes seat;6-transverse slat;.
Detailed description of the invention
As Figure 1-3, one precast concrete of the present invention fixes die station multifunctional turnover vibrating system, parallel including two
The guide rail 1 arranged, described guide rail 1 has been sequentially arranged above 6 fixing die station 2, the described fixing die station 2 platform by its angle end
Pillar 4 supports, be wherein provided with on the guide rail 1 below one of side fixing die station 2 can along guide rail 1 reciprocating turn over shake flat
Car 3, described in turn over the flatcar 3 that shakes for vibrating and overturning described fixing die station 2.
In the present embodiment, inside leg platform 4, it is provided with the shelves limit location structure limiting die station two side shifting, and not to mould
Platform upset is constituted to be interfered.
As shown in FIG. 7 and 8, turn over the flatcar 3 that shakes described in and include electric flat carriage leading portion 31, electric flat carriage interlude 32 and electronic flat
Car back segment 33, is provided with bolt between described electric flat carriage leading portion 31, electric flat carriage interlude 32 and is connected to one
The first turning device 34, be provided with bolt between described electric flat carriage interlude 32 and electric flat carriage back segment 33 fixing even
Connect the second turning device 35 being integrated, described electric flat carriage leading portion 31, electric flat carriage interlude 32 and electric flat carriage back segment 33
Two outsides be fixedly connected with vibrating device 36 respectively;Described electric flat carriage interlude 32 is driven fortune by motor reducer 37
Move and then drive described electric flat carriage leading portion 31 and electric flat carriage back segment 32 to move.
Turning over the flatcar 3 that shakes is safety sliding contact line operated type electric flat carriage.Trench, ground is offered at die station lower track 1 medial surface
Safety sliding contact line is installed in ditch, trench is equipped with one side hinge and is fixed on cover plate on the ground.Electric flat carriage passes through when running
The trench panel turnover device being arranged on flatcar, starts cover plate, has and couple with safe current collector for trolley conductor in trench panel turnover device
Cable.Electric flat carriage puts back to ground automatically by back shroud.Can guarantee that staff passes through.
Such as Fig. 9, shown in 10 and 11, described turning device 35 includes mainframe 301, and in described mainframe 301, left-hand end sets
It is equipped with the first locking device 304, outside described mainframe 301 right-hand end, is provided with the second locking device 305, described mainframe
Being provided with sliding support 306 in 301, in described sliding support 306, the hinged seat of rear end is articulated and connected the tail of overturning oil cylinder 307
End, the right-hand member upper end of described sliding support 306 is hinged with the tail end of flip-arm 302, is provided with scalable in described flip-arm 302
Slotting wall 303, described slotting wall 303 front end is provided with alignment pin 308, and described slotting wall also upper end is provided with guide bearing 309;Described
Insert the slotting wall part inside the alignment pin 308 of wall 302 hinged with the head end of described overturning oil cylinder 307;
Wherein, it is provided with coupling inside described fixing die station 2 correspondence and locks the 3rd locking device of described slotting wall 303 front end
201, described 3rd locking device 201 is additionally provided with the hole, location mated with described alignment pin 308, is used for placing switching process
In insert wall 302 undesirably fall off with described fixing die station 2.
Such as Fig. 4, shown in 5 and 6, the respectively first locking device the 304, second locking device 305 and the 3rd locking device 201
Locking state figure.Described first locking device 304 is for the front end of the sliding support 306 that is locked, this first locking device
304 transverse slats 6 external with mate clamping locking;Second locking device 305 is after locking described sliding support 306
End, prevents the displacement of described sliding support 306;Described 3rd locking device 201 is for locking the front end of slotting wall 302.Wherein such as Fig. 6
Shown in, described 3rd locking device 201 includes being fixed on the hole, location 2010 in fixing die station 2 and lower end, hole 2010, location hinge
The latch hook 2011 connect, the stretching spring 2012 that one end is connected with latch hook front end and the other end is connected with the fixing die station 2 of top.
Wherein the first locking device 304 is similar to described 3rd locking device structure, and it includes two latch hooks and spring, and two
Individual latch hook is hinged with both sides, mainframe 301 front end, and connecting between the tail end of two latch hooks has transverse axis, and spring one end connects latch hook
Tail end, the other end connects the edge of mainframe 301 front end, and this first locking device 304 is by described sliding support 306 rearward movement
Time its front end backing pin 3060 can stir the transverse axis of described latch hook tail end and make latch hook rotate down and external transverse slat 6 (clamp)
Lock, sliding support 306 leave when travelling forward the backing pin 3060 of its front end depart from transverse axis and at the active force of spring
Under make latch hook 41 reset unlock.
Flip-arm 302 afterbody is hinged with sliding support 306, rotates the action realizing digging around hinge axis;Arms 303 is inserted
Head at flip-arm 302, it is possible to achieve flexible;Overturning oil cylinder 307 head is hinged with arms, and afterbody cuts with scissors with sliding support 306
Connect, arms 303 can be ejected in flip-arm 302 when oil cylinder is released, cutting elongated groove on flip-arm 302, coordinate in arms 303
Block limit the flexible of arms 303 put in place, sliding support 306 also can be ejected along mainframe 301 track to end, works as slip
Bearing 306 ejects after putting in place, triggers the first locking device 304 and is locked sliding support 306 front end, the most manually pulls lower locking dress
Sliding support 306 rear end is locked by the handle putting 305, it is achieved fixing of sliding support 306;When arms 303 is pushed up from flip-arm 302
Going out after putting in place, the alignment pin 308 of arms 303 head inserts welding and the location on the 3rd locking device 201 in fixing die station 2
In hole 2010;The latch hook of the 3rd locking device 201 is strained by stretching spring 2012, and latch hook 2011 afterbody is fixed in ground base
On fixing seat 5 jack-up and make latch hook 2011 overcome spring 2012 pulling force to close;When oil cylinder continues to release, arms 302 with
Flip-arm 303 transmits the force to fixing die station 2, and fixing die station 2 slowly overturns, latch hook 2011 afterbody of the 3rd locking device 201
Gradually depart from the fixing seat 5 being fixed in ground base, rely on spring 2012 pulling force to be triggered by latch hook 2012, lock arms 303
The contact surface of head and fixing die station 2, makes the alignment pin 308 of arms 303 and the determining of the 3rd locking device 201 in fixing die station 2
Hole, position does not falls out;Oil cylinder continues to release, and fixing die station 2 is overturn to 80 ° and puts in place by flip-arm 302, and driving crane will be fixing
Prefabricated components in die station 2 hang away, the reverse oil supply of oil cylinder, and piston rod is retracted, and fixing die station 2 is turned over the level of being down to and put in place, drops back into flat
On platform pillar 4, the latch hook afterbody of the 3rd locking device 201 is fixed a jack-up and is made latch hook overcome spring tension to open simultaneously,
The die station that is no longer locked 2 and arms 303, the handle of the most cocked second locking device 305, after sliding support 306
End in contact locking state, oil cylinder continues to retract, and arms 303 is fully retracted in flip-arm 302, and sliding support 306 is return and put in place,
First locking device 304 releases locking simultaneously.
As shown in figure 14, described vibrating device 36 includes fixing the sleeve 310 being connected with flatcar, sets in described sleeve 310
Being equipped with hoist cylinder 311, the tail end of described hoist cylinder 311 is fixed and is connected the lifting support being positioned at described sleeve 310 lower end
312, the head end of described hoist cylinder 311 is fixed and is connected the elevator platform 313 being positioned at described sleeve 310 upper end, described elevator
Being fixedly connected with vibration table 314 on frame 313, described vibration table 314 is driven by vibrating motor 315, and described vibration table 314 is with described
Yielding rubber spring 316 it is provided with between elevator platform 313.
A whole set of vibrating device 36 is seated on flatcar square tube sleeve 310, can lift with relative sleeve 310, flatcar side simultaneously
Vibrating device 36 can be pulled away the face of turning up the soil by pipe box cylinder 310.When hoist cylinder 311 oil supply, piston rod stretches out, and promotes lifting support
312 are moved down into and contact with ground, and oil cylinder continues to stretch out promotion elevator platform 313 and is raised above, elevator platform 313 and vibration
Platform 314 is spaced yielding rubber spring 316, and vibrating motor 315 is mounted on vibration table bottom surface;When vibration table 314 top is to fixing
Die station 2, yielding rubber spring 316 compresses, and oil cylinder continues jack-up, and yielding rubber spring 316 compression puts in place, and vibration table 314 will be solid
The complete jack-up of cover half platform 2 jacking put in place, and fixing die station 2 departs from studdle 4.Vibrating motor 315 is energized, and starts high frequency vibrating
Dynamic, vibration force is delivered to fixing die station 2.After vibration, the reverse oil supply of hoist cylinder 311, vibration table 314 declines, fixing mould
Platform 2 drops to studdle 4 and puts in place, and elevator platform 313 continues to fall back on flatcar square tube sleeve 310, and hoist cylinder 311 continues
Retracting, lifting support 312 is upwards retracted and is separated from ground.
As shown in figure 15, workflow is as follows:
1# fixes die station 2 and is seated in (initial bit) on studdle 4 → the turn over flatcar 3 that shakes and enters 1# and fix 2 side's work under die station
Position → vibrating device 36 rises → fixes die station 2 and departs from studdle 4 → vibrating motor 315 and vibrate → vibrate complete → fixing mould
Platform 2 fall after rise to studdle 4 → vibrating device 36 retract → oil cylinder of turning device (34,35) stretches out → arms 303 stretches out →
The alignment pin of arms 303 insert hole, location → sliding support 306 of fixing die station release put in place → the first locking device 304 locks
→ the second locking device 305 locks → flip-arm 302 overturn → fix die station 2 dig → the 3rd locking device locks → fix mould
Platform 2 upset puts in place → and the oil cylinder of turning device (34,35) die station 2 of retracting → fix turns over fall → fix die station 2 and turns over and drop to position → the
Three locking devices unlock the → the second locking devices 305 unlock → 303 arms retract put in place → sliding support 306 retracts and puts → the in place
One locking device unlock → turn over shake flatcar 3 enter 2# fix No. 2 fixing die station of station → beginning below die station vibration upset work
Sequence → successively arrive 3# fix die station → 4# fix die station → 5# fix die station → 6# fix die station → return 1# fix die station →
2# fixes die station → 3# and fixes die station → 4# and fix die station → 5# and fix die station → 6# and fix die station.
Those skilled in the art it should be known that the quantity of fixing die station 2 can as required can be from Row sum-equal matrix.
Embodiment described above is only that the optimal way to the present invention is described, and not carries out the scope of the present invention
Limiting, on the premise of designing spirit without departing from the present invention, technical scheme is made by those of ordinary skill in the art
Various deformation and improvement, all should fall in the protection domain that claims of the present invention determines.
Claims (9)
1. a precast concrete fixes die station multifunctional turnover vibrating system, it is characterised in that: include two be arranged in parallel lead
Rail, described guide rail has been sequentially arranged above at least one fixing die station, and described fixing die station is multiple by be positioned at outside guide rail
Studdle support, the guide rail below one of them described fixing die station is provided with can along guide rail reciprocating turn over shake flat
Car, described in turn over the flatcar that shakes for vibrating and overturning described fixing die station.
Precast concrete the most according to claim 1 fixes die station multifunctional turnover vibrating system, it is characterised in that turn over described in:
The flatcar that shakes includes electric flat carriage leading portion, electric flat carriage interlude and electric flat carriage back segment, described electric flat carriage leading portion, electric flat carriage
The first turning device that bolt is connected to one it is provided with, described electric flat carriage interlude and electronic between interlude
The second turning device that bolt is connected to one it is provided with between flatcar back segment, described electric flat carriage leading portion, electronic
Two outsides of flatcar interlude and electric flat carriage back segment are fixedly connected with vibrating device respectively;Described electric flat carriage interlude
Driven motion by motor reducer and then drive described electric flat carriage leading portion and the motion of electric flat carriage back segment.
Precast concrete the most according to claim 2 fixes die station multifunctional turnover vibrating system, it is characterised in that:
Described turning device includes mainframe, and in described mainframe, left-hand end is provided with the first locking device, and described mainframe is right
It is provided with the second locking device outside side, in described mainframe, is provided with sliding support, the hinge of rear end in described sliding support
Joint chair is articulated and connected the tail end of overturning oil cylinder, and the right-hand member upper end of described sliding support is hinged with the tail end of flip-arm, described upset
Being provided with telescopic slotting wall in arm, described slotting wall front end is provided with alignment pin;Slotting wall portion inside the alignment pin of described slotting wall
Divide hinged with the head end of described overturning oil cylinder;
Described first locking device is for locking the front end of described sliding support;
Described second locking device is for locking the rear end of described sliding support;
It is provided with coupling inside described fixing die station correspondence and locks the 3rd locking device of described slotting wall front end, described 3rd locking
The hole, location mated with described alignment pin it is additionally provided with on device.
Precast concrete the most according to claim 1 fixes die station multifunctional turnover vibrating system, it is characterised in that shake described in:
Dynamic device includes fixing the sleeve being connected with flatcar, is provided with hoist cylinder in described sleeve, and the tail end of described hoist cylinder is solid
Fixed connection is positioned at the lifting support of described sleeve lower end, and the head end of described hoist cylinder is fixed connection and is positioned at described sleeve upper end
Elevator platform, described elevator platform is fixedly connected with vibration table, and described vibration table is by driven by vibrating motors.
Precast concrete the most according to claim 4 fixes die station multifunctional turnover vibrating system, it is characterised in that shake described in:
Move and between platform and described elevator platform, be provided with yielding rubber spring.
Precast concrete the most according to claim 1 fixes die station multifunctional turnover vibrating system, it is characterised in that: described
It is provided with the shelves limit location structure limiting die station two side shifting inside post platform, and die station upset is not constituted interference.
Precast concrete the most according to claim 1 fixes die station multifunctional turnover vibrating system, it is characterised in that lead described in:
Rail has been sequentially arranged above 6 fixing die station, under original state, described in turn over the flatcar that shakes and be positioned at leading below the fixing die station of side
On rail.
Precast concrete the most according to claim 1 fixes die station multifunctional turnover vibrating system, it is characterised in that: described slotting
Wall upper end is provided with guide bearing.
Precast concrete the most according to claim 3 fixes die station multifunctional turnover vibrating system, it is characterised in that: described
Three locking devices include that be fixed in fixing die station positions the latch hook that hole is hinged with lower end, hole, location, one end and latch hook front end
The stretching spring that connection and the other end are connected with the fixing die station of top.
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CN107030869A (en) * | 2017-01-02 | 2017-08-11 | 德州海天机电科技有限公司 | The variable rail moving type upset vibration all-in-one produced for concrete prefabricated element |
CN108972842A (en) * | 2018-07-27 | 2018-12-11 | 上海建工材料工程有限公司 | A kind of rollover hot-die platform system and its application method |
CN109382905A (en) * | 2018-10-24 | 2019-02-26 | 江苏智信达建筑科技有限公司 | A kind of production line of precast concrete |
CN114131751A (en) * | 2021-12-16 | 2022-03-04 | 中交第一航务工程局有限公司 | Corner protection device for prefabricated slab posture conversion and construction method thereof |
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CN107030869B (en) * | 2017-01-02 | 2023-07-25 | 德州海天机电科技有限公司 | Rail-changeable movable turnover vibration integrated machine for concrete prefabricated part production |
CN108972842A (en) * | 2018-07-27 | 2018-12-11 | 上海建工材料工程有限公司 | A kind of rollover hot-die platform system and its application method |
CN109382905A (en) * | 2018-10-24 | 2019-02-26 | 江苏智信达建筑科技有限公司 | A kind of production line of precast concrete |
CN109382905B (en) * | 2018-10-24 | 2021-04-20 | 江苏智信达建筑科技有限公司 | Production line of precast concrete member |
CN114131751A (en) * | 2021-12-16 | 2022-03-04 | 中交第一航务工程局有限公司 | Corner protection device for prefabricated slab posture conversion and construction method thereof |
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