CN106142291B - A kind of precast concrete fixes die station multifunctional turnover vibrating system - Google Patents

Abstract

The invention discloses a kind of precast concretes to fix die station multifunctional turnover vibrating system, include the guide rail of two parallel arrangements, the guide rail has been sequentially arranged above at least one fixed die station, the fixed die station is supported by being located at multiple studdles on the outside of guide rail, the flatcar that shakes that turns over that can be moved back and forth along guide rail is provided on guide rail below one of them described fixed die station, described turn over shakes flatcar for vibrating and overturning the fixed die station.The object of the present invention is to provide a kind of precast concretes to fix die station multifunctional turnover vibrating system, reduces cost, improves up-to-standard rate.

Description

A kind of precast concrete fixes die station multifunctional turnover vibrating system

Technical field

The utility model is related to a kind of precast concretes to fix die station multifunctional turnover vibrating system.

Background technology

Current one automatic PC apparatus for production line up-front investment Tai Gao China PC present situations stage, technology also in just developing It is not so ripe, demand is also small, and a lot of small enterprises are also due to bankroll problem can not upper one full-automatic PC production line.

At present, domestic fixation production line is all artificial that PC components must assure that quality, be said from product substantially, ensures matter The maximum link of amount is just on two stations for vibrating and overturning；Vibration ensures that the vibration of component is uniform, and overturning ensures large-scale structure Part is not destroyed during lifting.Secondary station can be accomplished manually.But the fixed production of PC components manufacture domestic at present Mostly various quality problems easily occur for line.

Utility model content

The purpose of this utility model is to provide a kind of precast concrete and fixes die station multifunctional turnover vibrating system, reduces into This, improves up-to-standard rate.

In order to solve the above technical problems, the utility model adopts the following technical solution：

A kind of precast concrete of the utility model fixes die station multifunctional turnover vibrating system, leading including two parallel arrangements Rail, the guide rail have been sequentially arranged above at least one fixed die station, the studdle branch that the fixed die station passes through its angle end It supports, the flatcar that shakes can be turned over along what guide rail moved back and forth by being provided on the guide rail below one of them described fixed die station, and described turn over is shaken Flatcar is used to vibrate and overturn the fixed die station.

Further, the flatcar that shakes that turns over includes electric flat carriage leading portion, electric flat carriage interlude and electric flat carriage back segment, institute It states and the first turnover device that bolt is connected to one is provided between electric flat carriage leading portion, electric flat carriage interlude, The second overturning dress that bolt is connected to one is provided between the electric flat carriage interlude and electric flat carriage back segment It puts, two outsides of the electric flat carriage leading portion, electric flat carriage interlude and electric flat carriage back segment, which are respectively fixedly connected with, to shake Dynamic device；The electric flat carriage interlude is by motor reducer drive motion and then drives the electric flat carriage leading portion and electronic flat Vehicle back segment moves.

Further, the turnover device includes mainframe, and left-hand end is provided with the first locking device in the mainframe, The second locking device is provided on the outside of the mainframe right-hand end, sliding support is provided in the mainframe, it is described to slide branch The tail end of the hinged seat articulated connection overturning oil cylinder of rear end in seat, the tail end for the overturning oil cylinder that is articulated and connected, the sliding support The tail end of right end upper end and flip-arm is hinged, and telescopic arms is provided in the flip-arm, and the arms front end is provided with Positioning pin；Arms part and the head end of the overturning oil cylinder on the inside of the positioning pin of the arms are hinged；

First locking device is used to lock the front end of the sliding support；

Second locking device is used to lock the rear end of the sliding support；

The fixed die station corresponds to inside and is provided with the 3rd locking device that the arms front end is locked in matching, and the described 3rd It is additionally provided on locking device and the matched location hole of the positioning pin.

Further, the vibrating device includes the sleeve being fixedly connected with flatcar, and lifting oil is provided in the sleeve Cylinder, the tail end of the lifting cylinder are fixedly connected with the lifting support positioned at the sleeve lower end, and the head end of the lifting cylinder is consolidated Fixed connection is fixedly connected with shake table on the elevator platform positioned at the elevator platform of the sleeve upper end, the shake table by Driven by vibrating motors.

Further, yielding rubber spring is provided between the shake table and the elevator platform.

Further, the flange location structure of restricted die station both sides movement is set on the inside of the leg platform, and it is not right Die station overturning forms interference.

Further, the guide rail has been sequentially arranged above 6 fixed die station, described to turn over the flatcar position that shakes under original state On guide rail below the fixation die station of end.

Further, the arms upper end is provided with guide bearing.

Further, the 3rd locking device includes the location hole being fixed in fixed die station, is cut with scissors with location hole lower end The latch hook connect, one end is connected with latch hook front end and the extension spring of the fixation die station of the other end and top connection.

Compared with prior art, the advantageous effects of the utility model：

It turns over and shakes flatcar below fixation die station, relatively former fixed PC production lines at least increase by two fixations The station (station that flatcar occupies) of platform, adds yield, greatly promotes production efficiency；Using turning over the flatcar that shakes same solid It completes to vibrate and overturn work simultaneously on cover half platform, greatly promotes the qualification rate of concrete prefabricated element；Operate practicability, simple Change, all greatly improved with the action security of equipment.

Description of the drawings

The utility model is described in further detail for explanation below in conjunction with the accompanying drawings.

Fig. 1 is the overall schematic that the utility model precast concrete fixes die station multifunctional turnover vibrating system；

Fig. 2 is that the utility model precast concrete fixes the structure diagram after the overturning of die station multifunctional turnover vibrating system；

Fig. 3 is that the utility model precast concrete fixes the schematic side view after the overturning of die station multifunctional turnover vibrating system；

Fig. 4 goes out partial enlarged view for A；

Fig. 5 is partial enlarged view at B；

Fig. 6 goes out partial enlarged view for C；

Fig. 7 is the structure diagram that the flatcar that shakes is turned in the utility model；

Fig. 8 is the structure diagram for the overturning transition that the flatcar that shakes is turned in the utility model；

Fig. 9 is the structure diagram of turnover device in the utility model；

Figure 10 is the structure diagram of another angle of turnover device in the utility model；

Figure 11 is the schematic cross-sectional view of turnover device in the utility model；

Figure 12 is the structure diagram of the locking state of turnover device in the utility model；

Figure 13 is the schematic cross-sectional view of the locking state of turnover device in the utility model；

Figure 14 is the schematic cross-sectional view of vibrating device in the utility model；

Figure 15 is the course of work schematic diagram that the utility model precast concrete fixes die station multifunctional turnover vibrating system.

Reference sign：1- guide rails；2- fixes die station；The 3rd locking devices of 201-；2010- location holes；2011- locks Hook；2012- extension springs；3- turns over the flatcar that shakes；31- electric flat carriage leading portions；32- electric flat carriage interludes；After 33- electric flat carriages Section；The first turnover devices of 34-；The second turnover devices of 35-；36- vibrating devices；37- motor reducers；301- mainframes；302- Flip-arm；303- arms；The first locking devices of 304-；The second locking devices of 305-；306- sliding supports；3060- grades of pins；307- Overturning oil cylinder；308- positioning pins；309- guide bearings；310- sleeves；311- lifting cylinders；312- lifting supports；313- is lifted Rack；314- shakes platform；315- vibrating motors；316- yielding rubber springs；4- studdles；5- fixed seats；6- transverse slats.

Specific embodiment

As shown in Figs. 1-3, a kind of precast concrete of the utility model fixes die station multifunctional turnover vibrating system, including two The guide rail 1 of parallel arrangement, the guide rail 1 have been sequentially arranged above 6 fixed die station 2, and the fixed die station 2 passes through its angle end Studdle 4 supports, and is wherein provided with and can be turned over along what guide rail 1 moved back and forth on the guide rail 1 of fixed 2 lower section of die station of side Shake flatcar 3, and described turn over shakes flatcar 3 for vibrating and overturning the fixed die station 2.

In the present embodiment, 4 inside of leg platform sets the flange location structure of restricted die station both sides movement, and not to mould Platform overturning forms interference.

As shown in FIG. 7 and 8, the flatcar 3 that shakes that turns over includes electric flat carriage leading portion 31, electric flat carriage interlude 32 and electronic flat Vehicle back segment 33 is provided with bolt between the electric flat carriage leading portion 31, electric flat carriage interlude 32 and is connected to one The first turnover device 34, be provided between the electric flat carriage interlude 32 and electric flat carriage back segment 33 bolt fix connect It is connected in the second integral turnover device 35, the electric flat carriage leading portion 31, electric flat carriage interlude 32 and electric flat carriage back segment 33 Two outside be respectively fixedly connected with vibrating device 36；The electric flat carriage interlude 32 drives fortune by motor reducer 37 It moves and then the electric flat carriage leading portion 31 and electric flat carriage back segment 32 is driven to move.

It is safety sliding contact line operated type electric flat carriage to turn over the flatcar 3 that shakes.Trench, ground are opened up in 1 medial surface of die station lower track Safety sliding contact line in ditch is installed, the cover board that single side is fixed on ground with hinge is equipped on trench.Electric flat carriage passes through when running Trench panel turnover device on flatcar, cover board is started, and is had in trench panel turnover device and is coupled with safe current collector for trolley conductor Cable.Electric flat carriage puts back to ground automatically by back shroud.It can guarantee that staff passes through.

As shown in Fig. 9,10 and 11, the turnover device 35 includes mainframe 301, and left-hand end is set in the mainframe 301 The first locking device 304 is equipped with, the second locking device 305, the mainframe are provided on the outside of 301 right-hand end of mainframe It is provided with sliding support 306 in 301, the tail of the hinged seat articulated connection overturning oil cylinder 307 of rear end in the sliding support 306 End, the right end upper end of the sliding support 306 and the tail end of flip-arm 302 are hinged, are provided in the flip-arm 302 scalable Arms 303,303 front end of arms is provided with positioning pin 308, and the arms also upper end is provided with guide bearing 309；It is described The arms part of 308 inside of positioning pin of arms 302 and the head end of the overturning oil cylinder 307 are hinged；

Wherein, the fixed die station 2 corresponds to inside and is provided with the 3rd locking device that 303 front end of arms is locked in matching 201, be additionally provided on the 3rd locking device 201 with the 308 matched location hole of positioning pin, for placing switching process Middle arms 302 is undesirably fallen off with the fixed die station 2.

It is respectively the first locking device 304, the second locking device 305 and the 3rd locking device 201 as shown in Fig. 4,5 and 6 Locking state figure.First locking device 304 is for the front end for the sliding support 306 that is locked, first locking device 304 match clamping locking with an external transverse slat 6；After second locking device 305 is for locking the sliding support 306 End, prevents 306 displacement of sliding support；3rd locking device 201 is used to lock the front end of arms 302.Wherein such as Fig. 6 Shown, the 3rd locking device 201 includes the location hole 2010 being fixed in fixed die station 2, is cut with scissors with 2010 lower end of location hole The latch hook 2011 connect, one end is connected with latch hook front end and the extension spring 2012 of the fixation die station 2 of the other end and top connection.

Wherein the first locking device 304 is similar to the 3rd locking device structure, including two latch hooks and spring, two A latch hook is hinged with 301 front end both sides of mainframe, and transverse axis is connected between the tail end of two latch hooks, spring one end connection latch hook Tail end, the edge of 301 front end of other end connection mainframe, first locking device 304 are moved backward by the sliding support 306 When its front end backing pin 3060 can stir the transverse axis of the latch hook tail end and latch hook is made to rotate down and external transverse slat 6 (snap-gauge) It locks, sliding support 306 leaves the backing pin 3060 of its front end with transverse axis disengaging and in the active force of spring when travelling forward Under make latch hook reset unlock.

302 afterbody of flip-arm is hinged with sliding support 306, and the action dug is realized in the rotation of around hinge axis；Arms 303 is inserted into On the head of flip-arm 302, can realize flexible；307 head of overturning oil cylinder is hinged with arms, and afterbody is cut with scissors with sliding support 306 It connects, arms 303 can be ejected out of flip-arm 302 when oil cylinder is released, cutting elongated groove on flip-arm 302 coordinates in arms 303 Block limitation arms 303 it is flexible in place, sliding support 306 can be also ejected along 301 track of mainframe to end, work as slip After bearing 306 ejects in place, the first locking device 304 of triggering locks 306 front end of sliding support, manually pulls down the second lock afterwards The handle of tight device 305 locks 306 rear end of sliding support, realizes the fixation of sliding support 306；When arms 303 is from flip-arm After 302 ejections in place, the insertion welding of positioning pin 308 on 303 head of arms is with fixing on the 3rd locking device 201 in die station 2 Location hole 2010 in；The latch hook of 3rd locking device 201 is tensed by extension spring 2012, and 2011 afterbody of latch hook is fixed in ground Fixed seat 5 on the basis of face jacks up and latch hook 2011 is made to overcome 2012 pulling force of spring that can not be closed；When oil cylinder continues to release, arms 302 transmit the force to fixed die station 2 with flip-arm 303, and fixed die station 2 is slowly overturn, the latch hook 2011 of the 3rd locking device 201 Afterbody departs from the fixed seat 5 being fixed in ground base gradually, triggers latch hook 2012 by 2012 pulling force of spring, locks arms 303 heads and the contact surface of fixed die station 2, the positioning pin 308 and the 3rd locking device 201 in fixed die station 2 for making arms 303 Location hole is not fallen out；Oil cylinder continues to release, and flip-arm 302 overturns fixed die station 2 to 80 ° in place, and driving crane will be solid Prefabricated components on cover half platform 2 are hung away, the reversed oil supply of oil cylinder, and piston rod is retracted, and fixed die station 2 turns over the level of being down in place, drops back into On studdle 4, while the latch hook afterbody of the 3rd locking device 201 is jacked up by fixed seat and makes latch hook that spring tension be overcome to beat It opens, the die station that is no longer locked 2 and arms 303, afterwards the handle of artificial cocked second locking device 305, by sliding support 306 End in contact locking state afterwards, oil cylinder continue to retract, and arms 303 is fully retracted into flip-arm 302, and sliding support 306 returns to Position, while the first locking device 304 releases locking.

As shown in figure 14, the vibrating device 36 includes the sleeve 310 being fixedly connected with flatcar, is set in the sleeve 310 Lifting cylinder 311 is equipped with, the tail end of the lifting cylinder 311 is fixedly connected with the lifting support positioned at 310 lower end of sleeve 312, the head end of the lifting cylinder 311 is fixedly connected with the elevator platform 313 positioned at 310 upper end of sleeve, the elevator Shake table 314 is fixedly connected on frame 313, the shake table 314 is driven by vibrating motor 315, the shake table 314 with it is described Yielding rubber spring 316 is provided between elevator platform 313.

A whole set of vibrating device 36 is located on flatcar square tube sleeve 310, can be lifted with relative sleeve 310, while flatcar side Vibrating device 36 can be pulled away ground by pipe sleeve cylinder 310.When 311 oil supply of lifting cylinder, piston rod stretches out, and promotes lifting support 312 are moved down into and are contacted with ground, and oil cylinder, which continues to stretch out, promotes elevator platform 313 to be raised above, elevator platform 313 and vibration Platform 314 is spaced yielding rubber spring 316, and vibrating motor 315 is mounted on shake table bottom surface；When the top of shake table 314 to fixation Die station 2, yielding rubber spring 316 compress, and oil cylinder continues to jack up, and yielding rubber spring 316 compresses in place, and shake table 314 will be solid Cover half platform 2 is jacked up and jacked in place completely, and fixed die station 2 departs from studdle 4.Vibrating motor 315 is powered, and starts high frequency vibrating Dynamic, vibration force is transferred to fixed die station 2.After vibration, 311 reversed oil supply of lifting cylinder, shake table 314 declines, stent Platform 2 drops to studdle 4 in place, and elevator platform 313 continues to fall back on flatcar square tube sleeve 310, and lifting cylinder 311 continues It retracts, lifting support 312 retracts be separated from ground upwards.

As shown in figure 15, workflow is as follows：

1# fixes die station 2 and is located on studdle 4 (initial bit) → the turn over flatcar 3 that shakes fixes 2 side's works under die station into 1# Position → vibrating device 36 rises, and → fixing 4 → vibrating motor of the disengaging studdle of die station 2 315 to vibrate → is vibrated and finishes → stent Platform 2 fall after rise to 4 → vibrating device of studdle 36 retract → oil cylinder stretching → arms 303 of turnover device (34,35) stretches out → Location hole → sliding support 306 of the fixed die station of positioning pin insertion of arms 303 is released locking device 304 in place → first and is locked → the second locking device 305, which is locked, → flip-arm 302 is overturn → fixes die station 2 and digs the → the three locking device locking → stent Platform 2, which is overturn in place, → oil cylinder of turnover device (34,35) is retracted → fixes die station 2 and turns over drop → fixation die station 2 and turn over and drop to position → the Three locking devices, which unlock the → the second locking device 305 and unlock → 303 arms in place → sliding support 306 of retracting, retracts in place → the One locking device unlock → turn over shake flatcar 3 into 2# fix die station below the fixed die station of station → beginning 2 vibration overturn work Sequence → successively reach 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# fixations die station → 5# fixations die station → 6# fixation die station.

Those skilled in the art should be known that the quantity of fixed die station 2 can be adjusted voluntarily as needed.

Embodiment described above is only that the preferred embodiment of the utility model is described, not to the utility model Scope is defined, and on the premise of the spirit of the design of the utility model is not departed from, those of ordinary skill in the art are new to this practicality The various modifications and improvement that the technical solution of type is made should all fall into the protection domain that the utility model claims book determines It is interior.

Claims (9)

1. a kind of precast concrete fixes die station multifunctional turnover vibrating system, it is characterised in that：Including two parallel arrangement lead Rail, the guide rail have been sequentially arranged above at least one fixed die station, and the fixed die station is multiple on the outside of guide rail by being located at Studdle supports, be provided on the guide rail below one of them described fixed die station turning over of being moved back and forth along guide rail shake it is flat Vehicle, described turn over shake flatcar for vibrating and overturning the fixed die station.

2. precast concrete according to claim 1 fixes die station multifunctional turnover vibrating system, it is characterised in that：It is described to turn over The flatcar that shakes includes electric flat carriage leading portion, electric flat carriage interlude and electric flat carriage back segment, the electric flat carriage leading portion, electric flat carriage It is provided with the first turnover device that bolt is connected to one between interlude, the electric flat carriage interlude and electronic It is provided with the second turnover device that bolt is connected to one between flatcar back segment, it is the electric flat carriage leading portion, electronic Two outsides of flatcar interlude and electric flat carriage back segment are respectively fixedly connected with vibrating device；The electric flat carriage interlude By motor reducer drive motion and then drive the electric flat carriage leading portion and the movement of electric flat carriage back segment.

3. precast concrete according to claim 2 fixes die station multifunctional turnover vibrating system, it is characterised in that：

The turnover device includes mainframe, and left-hand end is provided with the first locking device in the mainframe, and the mainframe is right The second locking device is provided on the outside of side, is provided with sliding support in the mainframe, the hinge of rear end in the sliding support The tail end of joint chair articulated connection overturning oil cylinder, the right end upper end of the sliding support and the tail end of flip-arm are hinged, the overturning Telescopic arms is provided in arm, the arms front end is provided with positioning pin；Arms portion on the inside of the positioning pin of the arms The head end with the overturning oil cylinder is divided to be hinged；

First locking device is used to lock the front end of the sliding support；

Second locking device is used to lock the rear end of the sliding support；

The fixed die station corresponds to inside and is provided with the 3rd locking device that the arms front end is locked in matching, the 3rd locking It is additionally provided on device and the matched location hole of the positioning pin.

4. precast concrete according to claim 2 fixes die station multifunctional turnover vibrating system, it is characterised in that：It is described to shake Dynamic device includes the sleeve being fixedly connected with flatcar, is provided with lifting cylinder in the sleeve, the tail end of the lifting cylinder is consolidated Fixed connection is located at the lifting support of the sleeve lower end, and the head end of the lifting cylinder is fixedly connected positioned at the sleeve upper end Elevator platform is fixedly connected with shake table on the elevator platform, and the shake table is by driven by vibrating motors.

5. precast concrete according to claim 4 fixes die station multifunctional turnover vibrating system, it is characterised in that：It is described to shake It is dynamic that yielding rubber spring is provided between platform and the elevator platform.

6. precast concrete according to claim 1 fixes die station multifunctional turnover vibrating system, it is characterised in that：The branch The flange location structure of restricted die station both sides movement on the inside of column platform is set, and die station is not overturn and forms interference.

7. precast concrete according to claim 1 fixes die station multifunctional turnover vibrating system, it is characterised in that：It is described to lead Rail has been sequentially arranged above 6 fixed die station, and under original state, the flatcar that shakes that turns over is located at leading below the fixation die station of end On rail.

8. precast concrete according to claim 3 fixes die station multifunctional turnover vibrating system, it is characterised in that：It is described to insert Arm upper end is provided with guide bearing.

9. precast concrete according to claim 3 fixes die station multifunctional turnover vibrating system, it is characterised in that：Described Three locking devices include the location hole being fixed in fixed die station and the hinged latch hook in location hole lower end, one end and latch hook front end Connection and the extension spring of the fixation die station of the other end and top connection.