CN208375244U - A kind of die flip machine - Google Patents

Abstract

The utility model relates to technical field of mold, specifically disclose a kind of die flip machine, die flip machine disclosed by the utility model, including rack, rack includes being arranged in parallel and at interval the first stand and the second stand, further includes: roll-over table, one end are connect with the first stand, the other end is connect with the second stand, and roll-over table is for connecting mold to be flipped；Clamping component is arranged on roll-over table, for being clamped fixation to mold；And overturning component, it is connect with roll-over table, and roll-over table can be driven to overturn.Die flip method disclosed by the utility model comprises the following steps: making the face contact for being provided with clamping component of mold and roll-over table；Clamping component is clamped fixation to mold；It overturns Component driver roll-over table and overturns predetermined angle.Die flip machine disclosed by the utility model, is able to achieve 180 ° of overturnings of mold, and improves the stationarity and safety of die flip.

Description

A kind of die flip machine

Technical field

The utility model relates to technical field of mold more particularly to a kind of die flip machines.

Background technique

In machinery industry, mold using relatively broad, forging processing, injection molding are such as carried out to machine components using mold Processing and forging process etc..Mold is typically provided with dynamic model and cover half, in the use of mold or process, it is often necessary to right Mold is overturn, and is processed, repaired and is replaced to mold to facilitate.

Prior art discloses a kind of mold turnover device, including rack, rack has multiple columns and crossbeam mutually to weld It connects to be formed, linear guide is provided on crossbeam, multiple sliding blocks are provided in linear guide, sliding block includes that lifting sliding block and absorption are slided Block lifts and is provided with vertical loading board on sliding block, lifting wirerope is provided on vertical loading board, the bottom end for lifting wirerope is provided with lifting and hangs Hook, absorption sliding block are provided with absorption cylinder, and the bottom for adsorbing cylinder is set to sucker.By using lifting suspension hook and sucker, band Moving mold becomes vertical state by level, realizes the overturning of mold.

Above-mentioned die flip structure, due to carrying out lifting installation to mold using lifting suspension hook, using sucker driven mold Overturning, the stability for lifting installation is insufficient, and the adsorption capacity of sucker is limited, can not effectively be overturn to large mold, meanwhile, Sucker is easy to lead to that mold is fallen or inclined danger, the i.e. prior art disclose because of adsorption capacity deficiency during die flip The anti-assembling device of mold, security performance is lower, and be difficult to mold realize 180 degree overturning.

Utility model content

One of the purpose of this utility model is to provide a kind of die flip machine, to realize 180 ° of overturnings to mold, and Highly-safe, stability is good, easy to operate.

To achieve the above object, the utility model adopts the following technical solutions:

A kind of die flip machine, including rack, the rack include being arranged in parallel and at interval the first stand and second to stand Frame, further includes:

Roll-over table, one end are connect with first stand, and the other end is connect with second stand, and the roll-over table is used In the mold that connection is to be flipped；

Clamping component is arranged on the roll-over table, for being clamped fixation to the mold；And

Component is overturn, is connect with the roll-over table, and the roll-over table can be driven to overturn.

Further, further includes:

Lifting assembly is connect with the roll-over table, and the roll-over table can be driven to be raised and lowered.

Further, the clamping component has multiple groups, and clamping component described at least two groups is separately positioned on the roll-over table Opposite two sides, the clamping component include:

The piston cylinder seat of clamping piston cylinder, the clamping piston cylinder is fixedly connected with the roll-over table, is opened on the mold Equipped with clamping slot, the piston rod of the clamping piston cylinder can protrude into the clamping slot and abut with the slot bottom of the clamping slot；

Locking member, for fixing the relative position of the mold and the piston rod.

Further, the overturning component includes:

First connecting plate is connect with the side of the roll-over table towards first stand；

Second connecting plate is connect with the side of the roll-over table towards second stand；

Driving assembly is overturn, is arranged in the rack, and first connecting plate and second connecting plate can be driven Rotation.

Further, the overturning component further include:

First sliding plate is slidably connected with first stand, and can slide vertically along first stand, the overturning The shell of driving assembly is connect with first sliding plate, and the output end and first connecting plate of the overturning driving assembly connect It connects；

Second sliding plate is slidably connected with second stand, and can slide vertically along second stand, described second Connecting plate and second sliding plate are rotatablely connected.

Further, the overturning component further include:

Brake assemblies, the brake assemblies include:

Brake connect with second sliding plate, is provided with breaker slot on the brake；

Brake disc, one end partially protrude into the breaker slot, and the other end is connect with second connecting plate.

Further, the lifting assembly includes:

Driving assembly is gone up and down, is arranged in first stand and/or second stand；

Lifting and driving component is connect with the lifting driving assembly and the roll-over table respectively, the lifting driving assembly The roll-over table lifting is driven by the lifting and driving component；

Slide assemblies, including be vertically arranged in the first stand and the second stand on sliding rail, first sliding plate and Second sliding plate is slidably connected with the corresponding sliding rail.

Further, the lifting driving assembly is arranged in first stand, and the lifting and driving component includes:

Main transmission group, including the first transmission shaft of first stand upper end is arranged in and is arranged in second stand The second driving shaft at end, the output end of the lifting driving assembly and the first transmission axis connection, and drive described first to pass Moving axis rotation, first transmission shaft and the second driving shaft are realized by transmission belt to be rotated synchronously；

First lifting group, be arranged in first stand, the first lifting group respectively with first sliding plate and The first transmission axis connection, first transmission shaft drive first sliding plate along corresponding by the first lifting group The sliding rail is mobile；

Second lifting group, be arranged in second stand, the second lifting group respectively with second sliding plate and The second driving shaft connection, the second driving shaft drive second sliding plate along corresponding by the second lifting group The sliding rail is mobile.

Further, the first lifting group includes:

Elevating chain, fixing sleeve is equipped with the lifting sprocket cooperated with the elevating chain on first transmission shaft；

Lift beam, and interval setting parallel with first sliding plate, one end of the elevating chain and described first is slided Plate connection is moved, the other end is connect with the lift beam.

The utility model has the beneficial effects that:

Die flip machine provided by the utility model may be implemented by setting roll-over table, clamping component and overturning component 180 ° of overturnings to mold, and since in switching process, mold is contacted with roll-over table, and be clamped component and clamp, therefore, mold The stability of overturning and safety are good.

Detailed description of the invention

Fig. 1 be die flip machine provided by the utility model in a first direction under perspective view；

Fig. 2 is the cross-sectional view of die flip machine provided by the utility model；

Fig. 3 is the partial enlarged view in Fig. 2 at A；

Fig. 4 is the structural schematic diagram of overturning component provided by the utility model；

Fig. 5 is the perspective view of die flip machine provided by the utility model in a second direction；

Fig. 6 is the structural schematic diagram of lifting assembly provided by the utility model；

Fig. 7 is the partial enlarged view in Fig. 6 at B.

It is marked in figure as follows:

10- die flip machine；20- mold；201- clamping slot；

1- rack；The first stand of 11-；The second stand of 12-；13- bottom plate；14- crossbeam；111- foreboard；112- back plate； 113- side plate；114- top plate；

2- roll-over table；

3- clamping component；31- clamping piston cylinder；32- gripping block；33- fixed block；34- locking member；

4- overturns component；The first connecting plate of 41-；The second connecting plate of 42-；43- overturns driving assembly；431- overturning driving Motor；432- retarder；44- brake；441- breaker slot；45- brake disc；451- disk body；452- interconnecting piece；46- first is sliding Move plate；The second sliding plate of 47-；

5- lifting assembly；51- goes up and down driving assembly；52- main transmission group；The first transmission shaft of 521-；522- second driving shaft； 523- transmission belt；524- main chain；53- the first lifting group；531- elevating chain；533- connection transverse slat；534- lift beam；54- Second lifting group；The first sliding rail of 551-；The second sliding rail of 552-；The first sliding block of 553-；The second sliding block of 554-；555- pinboard.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawings and examples.It is understood that herein Described specific embodiment is used only for explaining the utility model, rather than the restriction to the utility model.It further needs exist for It is bright, part relevant to the utility model is illustrated only for ease of description, in attached drawing rather than entire infrastructure.

Fig. 1 is the structural schematic diagram of die flip machine 10 provided in this embodiment, as shown in Figure 1, present embodiments providing A kind of die flip machine 10 improves efficiency and safety that mold 20 is overturn for realizing the automatic rollover to mold 20 Energy.Roll-over table 2, clamping component 3, overturning 4 and of component that die flip machine 10 specifically includes that rack 1 and is arranged in rack 1 Lifting assembly 5.Rack 1 is entire die flip for roll-over table 2, clamping component 3, overturning component 4 and lifting assembly 5 to be arranged The support construction of machine 10；Roll-over table 2 is for connecting mold 20 to be flipped, and driven mold 20 is overturn；The setting of clamping component 3 exists On roll-over table 2, for making mold 20 be fixed on roll-over table 2, it is detached from mold 20 with roll-over table 2 during overturning； Overturning component 4 is connect with roll-over table 2, for driving roll-over table 2 to overturn, so that 2 driven mold 20 of roll-over table be made to overturn；Lifting group Part 5, for promoting or reducing the height of roll-over table 2, so that mold 20 be made to be located at suitable upturned position or maintenance replacement position.

Specifically, as shown in Figure 1, rack 1 includes the first stand 11, the second stand 12, crossbeam 14 and bottom plate 13.First is vertical Frame 11 and the setting of 12 parallel interval of the second stand, roll-over table 2 are arranged between the first stand 11 and the second stand 12, and overturn The two sides of platform 2 are rotatablely connected with the first stand 11 and the second stand 12 respectively.Between between first stand 11 and the second stand 12 Every for providing space for the overturning of roll-over table 2.Crossbeam 14 is connected to the top of the first stand 11 and the second stand 12, for protecting The structural stability on 12 top of the first stand 11 and the second stand is held, the structural stability of die flip machine 10 is improved.

It is X by the width direction of Y-direction, crossbeam 14 of the length direction of crossbeam 14 in the present embodiment for convenience of description Direction and using vertical direction as Z-direction.

Bottom plate 13 be it is U-shaped, the setting of two vertical edges of U-shaped bottom plate 13 in the X direction, in the Y-direction of horizontal edge setting.First stand 11 and second stand 12 be separately positioned on two vertical edges of U-shaped bottom plate 13, make the position of the first stand 11 and the second stand 12 It keeps relatively fixed, guarantees the structural stability of rack 1.The U-shaped design of bottom plate 13 is conducive to mold running tool for mold 20 It is transported in U-shaped opening, mold 20 is made to be located at the lower section of roll-over table 2, avoid on manual carrying mould 20 to roll-over table 2.It is U-shaped The horizontal edge of bottom plate 13 can be positioned in place for the transport of mold running tool, be transported to mold 20 to be flipped just The lower section of roll-over table 2 is conducive to connection of the roll-over table 2 to mold 20.For the collision for avoiding mold running tool Yu bottom plate 13, U The side of the horizontal edge of type bottom plate 13 towards opening is provided with anticollison block.

First stand 11 includes foreboard 111, back plate 112 and the top plate 114 along the setting of Y-direction parallel interval, and foreboard 111 Interval is symmetrically arranged with two pieces in X direction.Foreboard 111 is parallel with the uniform X-direction of the setting direction of back plate 112, two pieces of foreboards 111 It is respectively provided between back plate 112 and is connected with side plate 113, foreboard 111, side plate 113 and back plate 112 are formed with accommodation space, are used for Accommodate the setting of overturning component 4 and lifting assembly 5.Foreboard 111, side plate 113 are concordant with the upper end of back plate 112, and are all connected with top Plate 114, top plate 114 are connect with crossbeam 14.Foreboard 111 is that upper end is narrow with back plate 112, the wide class trapezium structure in lower end, makes One stand 11 is class trapezium structure, improves the overall stability of rack 1.

In the present embodiment, the second stand 12 is identical as the structure of the first stand 11, and the present embodiment is no longer repeated.? In other embodiments, the first stand 11 and/or the second stand 12 can also be other structure types, as long as being able to achieve to mold The integrated support of tipper 10, and provide installation space for overturning component 4 and lifting assembly 5 and go up and down the structure of running space It can be with.

Clamping component 3 is arranged on roll-over table 2, and roll-over table 2 is rectangular flat plate structure, when mold 20 and roll-over table 2 connect When connecing, clamping component 3 is used for clamping mold 20, keeps mold 20 fixed with respect to roll-over table 2.Roll-over table 2 is parallel to the side of Y-direction On be arranged at intervals with two pairs of clamping components 3, two clamping components 3 in each pair of clamping component 3 are along the X-direction interval of roll-over table 2 And be oppositely arranged, so that two clamping components 3 cooperation in each pair of clamping component 3 is clamped mold 20.

Fig. 2 is the cross-sectional view of die flip machine provided in this embodiment, and Fig. 3 is the partial enlarged view in Fig. 2 at A, such as Fig. 2 With shown in Fig. 3, clamping component 3 includes clamping piston cylinder 31, fixed block 33, locking member 34 and gripping block 32.Fixed block 33 is set Set the position in roll-over table 2 close to Y-direction side, and fixed block 33 connects hole to offering to wear along X.The work of clamping piston cylinder 31 Plug cylinder seat is fixedly connected with the outside of fixed block 33, and the piston rod of clamping piston cylinder 31 is worn to connect and worn in connection hole, and can edge Wear the length direction sliding for connecting hole.Piston rod is connected with gripping block 32 far from one end of piston cylinder seat, and gripping block 32 is connected to One end of piston rod, which is located to wear, to be connected in hole, and other end stretching, which is worn, connects outside hole, for abutting with mold 20.

Locking member 34 is used to that the position of gripping block 32 and fixed block 33 to be made to lock, to keep gripping block 32 and mold 20 secured It abuts, will not be loosened during mold 20 is overturn.Specifically, it is solid to offer locking for the upper end edge Z-direction of fixed block 33 Determine hole, the hole that is locked is connect with connection hole is worn, and the side in latch segment towards the hole that is locked offers locking hole.Locking member 34 Comprising the shell and check lock lever being vertically arranged, shell lower end is threadedly coupled with the hole that is locked, and shell has accommodating chamber, check lock lever One end is fixed in accommodating chamber, and the other end stretches out outside accommodating chamber.By be locked hole internal screw thread and 34 external screw thread of locking member it Between screw, so that one end of check lock lever is protruded into or exit locking hole, thus make between fixed block 33 and gripping block 32 lock or solve Lock.

The position that mold 20 corresponds to locking assembly offers clamping slot 201, and gripping block 32 stretches out one end of fixed block 33 It can protrude into clamping slot 201, be abutted with the slot bottom of clamping slot 201.Since the opposite two sides of mold 20 are provided with clamping slot 201 With clamping component 3 corresponding with clamping slot 201, thus 32 relative motion of gripping block of two clamping components 3, realization is to mold 20 Clamping.By setting clamping slot 201, mold 20 can not only be made to be clamped in the direction of 32 clamping movement of gripping block, and due to Limitation of the 201 surrounding side wall of clamping slot to gripping block 32, mold 20 is restricted in the movement of Z-direction, so that mold 20 be made to exist X on roll-over table 2 is restricted to, Y-direction and Z-direction movement, and mold 20 will not occur point in switching process with roll-over table 2 From, improve mold 20 overturning security performance.

The side side wall of clamping slot 201 towards roll-over table 2 is inclined to set, i.e., 201 mouthfuls of clamping slot of size, which is greater than, to be clamped The size of 201 slot bottom of slot, gripping block 32 are correspondingly arranged on inclined surface, so that it is more square so that gripping block 32 is protruded into clamping slot 201 Just.

In the present embodiment, clamping component 3 is each provided with two groups on the Y-direction two sides of roll-over table 2, and on same side Two groups of clamping components 3 both ends of side are set, be conducive to more effectively clamp mold 20.In other embodiments In, one group of clamping component 3 can also be only set on two sides, and clamping component 3 is arranged in middle side edge position；It can be with Multiple groups clamping component 3 is respectively set on two sides, clamping component 3 is arranged along the length direction interval of side；It can be with two sides The group number for the clamping component 3 being arranged on side is not identical, as two groups of clamping components 3 are arranged on a side, sets on another side Set multiple groups clamping component 3.The present embodiment does not limit the group number of clamping component 3, as long as being able to achieve clamping component 3 to mold 20 clamping, though it is detached from mold 20 with roll-over table 2 during roll-over table 2 is overturn.

In the present embodiment, roll-over table 2 is rectangular flat plate, is conducive to the positioning to mold 20 and reduces roll-over table 2 Size and the processing for facilitating roll-over table 2, in other embodiments, roll-over table 2 can be the other shapes such as round, trapezoidal.

In the present embodiment, clamping component 3 is arranged along the Y-direction side of roll-over table 2, and clamping direction is X-direction, is conducive to subtract Gap between small first stand 11 and the second stand 12 rationally utilizes the space between the first stand 11 and the second stand 12, contracting The size of small entire die flip machine 10, meanwhile, reduce a possibility that clamping component 3 is interfered with other assemblies.In other implementations In example, clamping component 3 can also be arranged along the X of roll-over table 2 to side, and clamping direction is Y-direction.

Fig. 4 is the structural schematic diagram of overturning component 4 provided in this embodiment, as shown in figure 4, overturning component 4 includes first Connecting plate 41, the second connecting plate 42, overturning driving assembly 43 and transmission component.First connecting plate, 41 one end and 2 court of roll-over table To the connection on one side of the first stand 11, the connection on one side of one end of the second connecting plate 42 and roll-over table 2 towards the second stand 12.Tool Body, the first connecting plate 41 includes the vertical plate and the transverse slat vertical with vertical plate being vertically arranged, and roll-over table 2 is far from clamping component 3 One side and vertical plate connect, the side of roll-over table 2 towards the first stand 11 is abutted with vertical plate.Transverse slat is backwards to roll-over table 2 Reinforcing rib is provided between side and vertical plate, for improving the support strength of the first connecting plate 41.Second connecting plate 42 and first The structure of connecting plate 41 is identical.The structure setting of first connecting plate 41 and the second connecting plate 42 can make the Y-direction quilt of roll-over table 2 Limit is between the vertical plate of the first connecting plate 41 and the vertical plate of the second connecting plate 42, and the bottom surface of roll-over table 2 is by the first connecting plate 41 and second connecting plate 42 transverse slat support, improve the first connecting plate 41 and the second connecting plate 42 and roll-over table 2 connection and Support strength.

The other end of first connecting plate 41 connects overturning driving assembly 43 by transmission component, and overturning driving assembly 43 is arranged In the first stand 11, including turn drive motor 431 and retarder 432, the output axis connection of turn drive motor 431 are slowed down The output end of the input terminal of device 432, retarder 432 connects transmission component.Transmission component be gear drive group, including with retarder The first gear and second gear engaged with the first gear of 432 output ends connection, second gear and the first connecting plate 41 are fixed Connection, so that the output shaft rotation of turn drive motor 431 can drive the first connecting plate 41 to rotate.

Overturning driving assembly 43 and transmission component are arranged in the first stand 11, and specifically, the first stand 11 is towards turning over The side of turntable 2 is vertically arranged with the first sliding plate 46, and the first sliding plate 46 can be slided along the short transverse of the first stand 11.It turns over Turn driving assembly 43 and be fixed on the first side of the sliding plate 46 far from roll-over table 2, transmission component and the setting of the first connecting plate 41 exist For first sliding plate 46 towards the side of roll-over table 2, the output end of retarder 432 passes through the of the first sliding plate 46 and transmission component The connection of one gear, first gear is set on the output end of retarder 432, and second gear is rotatably connected on the by first bearing On one sliding plate 46, the inner ring of first bearing is fixedly connected with the first sliding plate 46, the outer ring of first bearing and the first connecting plate 41 are fixedly connected, and the internal diameter of second gear be greater than first bearing outer ring outer diameter, second gear towards roll-over table 2 end face with First connecting plate 41 is fixedly connected.

In the present embodiment, since the side of the first connecting plate 41 is arranged in overturning driving assembly 43, and first is driven to connect Fishplate bar 41 and roll-over table 2 rotate, and to make the other side of roll-over table 2 with turn, the second connecting plate 42 and the second stand 12 rotation connect It connects.Sliding is provided with the second sliding plate 47 in second stand 12, and the second sliding plate 47 is correspondingly arranged with the first sliding plate 46.Second Connecting plate 42 is rotatablely connected by second bearing and the second sliding plate 47, wherein the inner ring of second bearing and the second sliding plate 47 Towards being fixedly connected on one side for roll-over table 2, the one side of the outer ring of second bearing and the second connecting plate 42 far from roll-over table 2 is fixed to be connected It connects.

In the present embodiment, roll-over table 2 is turned to the braking after predetermined angle for realization overturning component 4, improves overturning The precision and safety that component 4 overturns roll-over table 2, overturning component 4 further includes brake assemblies, and brake assemblies include brake 44 With brake disc 45.Brake 44 is connected to the second side of the sliding plate 47 far from roll-over table 2, offers breaker slot on brake 44 441, breaker slot 441 it is opposite two sides setting is provided with brake block, two brake block can relatively move, with adjust two brake block it Between distance.Brake disc 45 includes disk body 451 and interconnecting piece 452, and disk body 451 partially protrudes into breaker slot 441, and is located at two Between brake block, interconnecting piece 452 and disk body 451 are coaxially connected, and pass through the second sliding plate 47 and the fixed company of the second connecting plate 42 It connects.When brake 44 drives two brake block relatively close and contacts with disk body 451, disk body 451 is due to the friction with brake block Power increases and stops operating, so that the second connecting plate 42 be driven to stop operating, i.e. the stopping of roll-over table 2 is stirred.

The setting of brake 44, can be to avoid stir when roll-over table 2 during, 431 stop motion of turn drive motor and The continuing to rotate under inertia of roll-over table 2 improves the precision that die flip machine 10 is overturn.Or avoid when roll-over table 2 be turned to it is pre- If after angle, roll-over table 2 carries out unexpected overturning because of external force, the security performance of die flip machine 10 is improved.

On the one hand the setting of first sliding plate 46 and the second sliding plate 47 can play overturning component 4 and be connected and fixed, make Overturning component 4 can be moved up and down with the first sliding plate 46 and the first sliding plate 46, realize that overturning component 4 is in roll-over table 2 The beneficial effect that arbitrary height can be overturn.On the other hand, the first sliding plate 46 and the second sliding plate 47 can make to overturn The subelement of component 4 and roll-over table 2 separate, reduce during roll-over table 2 stirs with components interference in overturning component 4 Probability improves the security performance that die flip machine 10 overturns mold 20；Meanwhile overturning driving assembly 43 and brake assemblies being divided It is not arranged in the accommodation space of the first stand 11 and the second stand 12, can reduces between the first stand 11 and the second stand 12 Distance rationally utilizes space, reduces the overall dimensions of die flip machine 10.

Lifting assembly 5 is increased with then roll-over table 2 or decline, so that mold 20 be made to be in suitable turning height or maintenance Replacement height.Fig. 5 is the perspective view of die flip machine 10 provided in this embodiment in a second direction, as shown in figure 5, lifting group Part 5 includes lifting driving assembly 51, lifting and driving component and slide assemblies, and lifting driving assembly 51 is used for the liter for roll-over table 2 Drop provides driving force, and lifting and driving component is for realizing the synchronization lifting of 2 two sides of roll-over table, and slide assemblies are for assisting roll-over table 2 lifting reduces the resistance in 2 lifting process of roll-over table.

Specifically, a side lower part of the first stand 11 is arranged in lifting driving assembly 51, and lifting driving assembly 51 is to rise Driving motor drops.Lifting and driving component includes main transmission group 52 and lifting group, and main transmission group 52 will be for that will go up and down driving assembly 51 Driving force be synchronously transmitted to the two sides of roll-over table 2, lifting group is used to drive the corresponding sliding plate shifting connecting with roll-over table 2 It is dynamic.

Main transmission group 52 includes main chain 524, the first transmission shaft 521, second driving shaft 522 and transmission belt 523.First Transmission shaft 521 and second driving shaft 522 are correspondingly arranged at the top of the first stand 11 and the second stand 12, and the first transmission shaft 521 and second driving shaft 522 be horizontally disposed in X direction.The output end of lifting driving motor is arranged with drive sprocket, and first passes One end fixing sleeve of moving axis 521 is equipped with driven sprocket, drive sprocket and driven sprocket and is connected by main chain 524, is risen with realizing It drops driving motor and drives the rotation of the first transmission shaft 521.The corresponding position of first transmission shaft 521 and second driving shaft 522 is respectively provided with There is drive sprocket, be connected with transmission belt 523 between two drive sprockets, realizes the same of the first transmission shaft 521 and second driving shaft 522 Step rotation.

Lifting group has including respectively corresponding the first lifting group and second being arranged in the first stand 11 and the second stand 12 Lifting group, the first lifting group 53 are connect with the first transmission shaft 521, and the second lifting group 54 is connect with second driving shaft 522, to realize First lifting group 53 and the second lifting group 54 move synchronously, to realize the horizontal lifting of roll-over table 2.

Specifically, Fig. 6 is the structural schematic diagram of lifting assembly 5 provided in this embodiment, and Fig. 7 is that the part in Fig. 6 at B is put Big figure, in conjunction with shown in Fig. 6 and Fig. 7, the first lifting group 53 includes two elevating chains 531, connection transverse slat 533 and lift beam 534. Two elevating chains 531 are arranged along the length direction interval of the first transmission shaft 521, and are preferably separately positioned on drive sprocket Two sides, to realize the steady lifting to roll-over table 2 and mold 20.One end connection connection transverse slat 533 of elevating chain 531, it is another End connection lift beam 534.Connection transverse slat 533 connect with the first sliding plate 46 far from the one side of roll-over table 2, and with the first sliding plate 46 is vertical, and connection transverse slat 533 has two pieces, is correspondingly arranged respectively with two elevating chains 531.Lift beam 534 is horizontal in X direction Setting, two elevating chains 531 are separately connected the both ends of lift beam 534.

When going up and down driving motor driving the first transmission shaft 521 rotation, the first transmission shaft 521 drives lifting sprocket rotation, To drive elevating chain 531 to rotate, when the first transmission shaft 521 rotates clockwise, the connection connection transverse slat of elevating chain 531 533 one end decline, one end of connection lift beam 534 rise, thus decline the first sliding plate 46 and roll-over table 2, lift beam 534 rise；When the first transmission shaft 521 rotates counterclockwise, one end of the connection connection transverse slat 533 of elevating chain 531 rises, connection One end of lift beam 534 declines, so that the first sliding plate 46 and roll-over table 2 be made to rise, lift beam 534 declines.In the present embodiment In, lift beam 534 is used for the weight of balanced turning platform 2, rises or falls roll-over table 2 smoothly descent.

The structure of second lifting group 54 is identical as the first lifting group 53, for driving the second sliding plate 47 and the first sliding plate 46 synchronize and rise or fall, and the present embodiment is no longer repeated.

Slide assemblies are oriented to for assisting roll-over table 2 to go up and down, and for the lifting of roll-over table 2, make roll-over table 2 smoothly It rises or falls, while reducing the resistance of the lifting of roll-over table 2.Specifically, in conjunction with shown in Fig. 5-7, slide assemblies include that setting exists The first slide assemblies in first stand 11 and the second slide assemblies being arranged in the second stand 12.First slide assemblies packet The first sliding rail 551 and the second sliding rail 552 are included, foreboard 111 is arranged in towards the side of roll-over table 2 in the first sliding rail 551, and first is sliding Rail 551 has two, respectively corresponds and is arranged on two foreboards 111, and is parallel to each other and is vertically arranged.First sliding plate 46 is backwards One lateral edge X of roll-over table 2 to being arranged at intervals with two group of first sliding block group, two group of first sliding block group respectively with two the first sliding rails 551 are correspondingly arranged, and every group of first sliding block group includes that two the first sliding blocks 553 are arranged at intervals with along Z-direction.First sliding block 553 is sliding It is dynamic to be connected on the first sliding rail 551, and can be slided up and down along the length direction of the first sliding rail 551.Second sliding rail 552 is arranged rear Plate 112 is towards the side of roll-over table 2, and the second sliding rail 552 is spaced and parallel in X direction is provided with two.The two of lift beam 534 It holds and the position for corresponding to the second sliding rail 552 is respectively connected with pinboard 555, one side of the pinboard 555 far from roll-over table 2 is along the side Z To two the second sliding blocks 554 are arranged at intervals with, two the second sliding blocks 554 are slidably connected on corresponding second sliding rail 552.

The setting of first sliding rail 551 and the second sliding rail 552 and the first sliding block 553 and the second sliding block 554, can make first Sliding plate 46 is moved up and down in the first sliding plate of drive lower edge 46 of the first sliding block 553, and lift beam 534 is in the second sliding block 554 It drives the second sliding rail of lower edge 552 to move up and down, to be oriented to the elevating movement of roll-over table 2, avoids roll-over table 2 upper Run-off the straight during rising or declining.And sliding rail and sliding block are equipped with, and are conducive to reduce in 2 lifting process of roll-over table Resistance, while guaranteeing the stationarity that roll-over table 2 is gone up and down.

In the present embodiment, the second slide assemblies are identical as the first slide assemblies structure, and the present embodiment is no longer repeated. In other embodiments, the second slide assemblies and the second slide assemblies can also be different.

In the present embodiment, the corresponding sliding block number of every one slide rail is two, in other embodiments, can be slided on every sliding block One sliding block of dynamic connection, can also be slidably connected three or more sliding blocks.The present embodiment is not to the corresponding sliding block number of every one slide rail It is defined.

In the present embodiment, the lifting of roll-over table 2 is driven by the first elevating chain 531 and the second elevating chain 531, In other embodiments, roll-over table 2 can also be driven to be gone up and down using the lifting assembly 5 of other forms, can such as uses silk Thick stick elevating mechanism, or can be using forms such as belt transmissions, as long as the mechanism for being able to achieve the steady elevating movement of roll-over table 2 is equal It can.

In the present embodiment, pass through the first transmission shaft 521 of setting, second driving shaft 522 and connection 521 and of the first transmission shaft The transmission belt 523 of second driving shaft 522 realizes the Synchronous Transmission of 2 two sides of roll-over table.In other embodiments, two also be can be set A lifting driving assembly 51 respectively drives the first transmission shaft 521 and second driving shaft 522 rotates.

In the present embodiment, overturning driving assembly 43 is turn drive motor 431, makes the rotation of turn drive motor 431 The elevating movement of roll-over table 2 is converted by transmission component, in other embodiments, overturning driving assembly 43 can also be other Drive form, such as driving piston cylinder, make drive piston cylinder piston rod the liter for being directly changed into roll-over table 2 Drop movement.

The present embodiment additionally provides a kind of die flip method, includes following step:

S1: 2 to first preset height of roll-over table and pre-configured orientation are adjusted；

Roll-over table 2 is promoted to preset height by lifting assembly 5, and the overturning overturning roll-over table 2 of component 4 makes clamping component 3 In the downside of roll-over table 2.

S2: mold 20 is pushed to the lower section of roll-over table 2 by mold running tool；

S3: it drops to roll-over table 2 and is abutted with 20 end face of mold；

Lifting button is pressed, 5 task driven roll-over table 2 of lifting assembly is dropped to and is abutted with 20 end face of mold.Or it uses Other control method control lifting assemblies 5 work.

S4: clamping component 3 is fixedly clamped to mold 20；

Pressing clamps button, and clamping piston cylinder 31 drives gripping block 32 to move along towards the direction of mold 20 with clamping mold 20, locking member 34 locks the position of roll-over table 2 and mold 20.Or the clamping using other control method control clamping components 3 Movement.

S5: 5 driven mold 20 of lifting assembly and roll-over table 2 rise to the second preset height；

S6: 20 driving tools of mold are removed outside overturning range；

S7: overturning 4 driven mold 20 of component and roll-over table 2 carry out 180 ° of rotations；

Spin button is pressed, makes to overturn the drive roll-over table 2 of component 4 and clamping component 3 and mold on roll-over table 2 20 180 ° of overturnings, make mold 20 be located at the top of roll-over table 2.

S8: lifting assembly 5 makes mold 20 drop to third preset height；

S9: predetermined registration operation is carried out to mold 20；

Mold 20 is repaired, replaced or processed.

S10: overturning 4 driven mold 20 of component and roll-over table 2 carry out 180 ° of overturnings；

S11: lifting assembly 5 makes mold 20 rise to the 4th preset height；

S12: mold running tool is made to be located at the lower section of roll-over table 2；

S13: lifting assembly 5 drives roll-over table 2 and mold 20 to drop to 20 lower end surface of mold and abut with mold running tool；

S14: clamping component 3 releases the clamping to mold 20；

Locking member 34 releases the fixation of fixed block 33 and gripping block 32, clamps driving motor and drives gripping block 32 to separate The direction of mold 20 moves, so that clamping component 3 is separated with mold 20.

Die flip machine 10 provided in this embodiment can be with by setting roll-over table 2, clamping component 3 and overturning component 4 It realizes 180 ° of overturnings to mold 20, and since in switching process, mold 20 is contacted with roll-over table 2, and is clamped component 3 and presss from both sides Tightly, therefore, the stability and safety that mold 20 is overturn are good.By the way that lifting assembly 5 is arranged, roll-over table 2 and/or mould can be driven Tool 20 can effectively avoid overturning to suitable height and position so that mold 20 is overturn and be repaired more conveniently replacement In the process with the interference of mold running tool etc..Die flip method provided in this embodiment, can be realized the automatic of mold 20 The stability and highly-safe changed 180 ° of overturnings, and overturn mold 20.

Note that above are only the preferred embodiment and institute's application technology principle of the utility model.Those skilled in the art's meeting Understand, the utility model is not limited to specific embodiment described here, is able to carry out for a person skilled in the art various bright Aobvious variation, readjustment and substitution is without departing from the protection scope of the utility model.Therefore, although passing through above embodiments The utility model is described in further detail, but the utility model is not limited only to above embodiments, is not departing from It can also include more other equivalent embodiments in the case that the utility model is conceived, and the scope of the utility model is by appended Scope of the claims determine.

Claims (9)

1. a kind of die flip machine, including rack (1), the rack (1) includes being arranged in parallel and at interval the first stand (11) With the second stand (12), which is characterized in that further include:

Roll-over table (2), one end are connect with first stand (11), and the other end is connect with second stand (12), described Roll-over table (2) is for connecting mold to be flipped (20)；

Clamping component (3) is arranged on the roll-over table (2), for being clamped fixation to the mold (20)；And

It overturns component (4), is connect with the roll-over table (2), and the roll-over table (2) can be driven to overturn.

2. die flip machine according to claim 1, which is characterized in that further include:

Lifting assembly (5) is connect with the roll-over table (2), and the roll-over table (2) can be driven to be raised and lowered.

3. die flip machine according to claim 2, which is characterized in that the clamping component (3) has multiple groups, at least two groups The clamping component (3) is separately positioned on the opposite two sides of the roll-over table (2), and the clamping component (3) includes:

The piston cylinder seat of clamping piston cylinder (31), the clamping piston cylinder (31) is fixedly connected with the roll-over table (2), the mould Tool (20) on offer clamping slot (201), the piston rod of the clamping piston cylinder (31) can protrude into the clamping slot (201) and with The slot bottom of the clamping slot (201) abuts；

Locking member (34), for fixing the relative position of the mold (20) and the piston rod.

4. die flip machine according to claim 2, which is characterized in that the overturning component (4) includes:

First connecting plate (41) is connect with the side of the roll-over table (2) towards first stand (11)；

Second connecting plate (42) is connect with the side of the roll-over table (2) towards second stand (12)；

It overturns driving assembly (43), is arranged on the rack (1), and first connecting plate (41) and described second can be driven Connecting plate (42) rotation.

5. die flip machine according to claim 4, which is characterized in that the overturning component (4) further include:

First sliding plate (46) is connect with first stand (11), and can be slid vertically along first stand (11), described Overturning driving assembly (43) shell connect with first sliding plate (46), it is described overturn driving assembly (43) output end and First connecting plate (41) connection；

Second sliding plate (47) is slidably connected with second stand (12), and can slide vertically along second stand (12), Second connecting plate (42) and second sliding plate (47) are rotatablely connected.

6. die flip machine according to claim 5, which is characterized in that the overturning component (4) further include:

Brake assemblies, the brake assemblies include:

Brake (44) is connect with second sliding plate (47), is provided with breaker slot (441) on the brake (44)；

Brake disc (45), one end partially protrude into the breaker slot (441), and the other end and second connecting plate (42) are even It connects.

7. die flip machine according to claim 5, which is characterized in that the lifting assembly (5) includes:

It goes up and down driving assembly (51), is arranged on first stand (11) and/or second stand (12)；

Lifting and driving component is connect with the lifting driving assembly (51) and the roll-over table (2) respectively, the lifting driving group Part (51) drives the roll-over table (2) to go up and down by the lifting and driving component；

Slide assemblies, including the sliding rail being vertically arranged on the first stand (11) and on the second stand (12), first sliding Plate (46) and second sliding plate (47) are slidably connected with the corresponding sliding rail.

8. die flip machine according to claim 7, which is characterized in that the lifting driving assembly (51) is arranged described In first stand (11), the lifting and driving component includes:

Main transmission group (52), including being arranged in the first transmission shaft (521) of the first stand (11) upper end and setting described The second driving shaft (522) of the second stand (12) upper end, the output end of lifting driving assembly (51) and first transmission Axis (521) connection, and first transmission shaft (521) is driven to rotate, first transmission shaft (521) and the second driving shaft (522) transmission belt (523) are connected between；

First lifting group (53) is arranged on first stand (11), and the first lifting group (53) is respectively with described first Sliding plate (46) and first transmission shaft (521) connection, first transmission shaft (521) pass through the first lifting group (53) First sliding plate (46) is driven to move along the corresponding sliding rail；

Second lifting group (54) is arranged on second stand (12), and the second lifting group (54) is respectively with described second Sliding plate (47) and the second driving shaft (522) connection, the second driving shaft (522) pass through the second lifting group (54) Second sliding plate (47) is driven to move along the corresponding sliding rail.

9. die flip machine according to claim 8, which is characterized in that the first lifting group (53) includes:

Elevating chain (531), fixing sleeve is equipped with the liter cooperated with the elevating chain (531) on first transmission shaft (521) Descending chain wheel；

Lift beam (534), it is parallel with the first sliding plate (46) and interval setting, one end of the elevating chain (531) with First sliding plate (46) connection, the other end are connect with the lift beam (534).