CN107262681B - A kind of wearing piece casting application method of mould turnover sand fallout system - Google Patents

Abstract

The invention discloses a kind of application methods of wearing piece casting mould turnover sand fallout system, belong to wearing piece Casting Equipment field.The present invention includes the following steps: Step 1: installing sandbox；Step 2: rotating arm rotates；Step 3: shake out.In step 2: telescopic arm starts to extend, rotating arm is pushed slowly to rise and keep rotating, rotary shaft keeps rotating synchronously with the rotation of rotating arm, in rotary shaft rotation process, rotating disk synchronously rotates, rotating disk successively rotates 105 °, 120 ° and 135 °, and above three angle is three limit points of rotating arm rotational angle, so that inductive switch successively senses the first sensor block, the second sensor block and third sensor block；After rotating arm is turned back to home position, sandbox slides on pedestal out of rotating arm under the lasting promotion of pushing arm, is then transported.The present invention mainly realizes the safe and reliable function of carrying out sandbox turning operation, and is appropriate for high-volume sand fallout operation.

Description

A kind of wearing piece casting application method of mould turnover sand fallout system

Present patent application is for application No. is 2015110323988 divisional application, the applyings date of original application Are as follows: 2015-12-31, invention and created name are as follows: a kind of wearing piece casting mould turnover sand fallout system.

Technical field

The present invention relates to wearing piece Casting Equipment fields, more specifically to a kind of wearing piece casting mould turnover sand fallout The application method of system.

Background technique

Wearing piece is generally produced by way of casting, and common wearing piece is stirring blade, hollow abrading-ball etc..It is casting In production, the method for sandbox overturning is varied, is broadly divided into two major classes: hanging overturning and ground overturning.For vacantly turning over It transfers, need to be hanging by its sandbox using tipper, and then realize its overturning, and for thicker or larger casting in clamping process When middle mould turnover, since sandbox size is larger, tipper chain is easily pulled off, and there are biggish security risks.

In order to solve the problem of that tipper chain is easily pulled off that there are larger security risks, has correlation in the prior art Technical solution discloses, such as Authorization Notice No. is 203221185 U of CN, and authorized announcement date is the practical new of on October 2nd, 2013 Type patent, this application discloses a kind of Sand box turnover mechanism, the both ends of sandbox are equipped with lifting lug, and turnover mechanism includes for inciting somebody to action Balance suspender that sandbox is vacantly sling, the sprocket transmission device for driving sandbox to overturn, balance suspender include balance cross bar, hang Ring, sprocket transmission device include sprocket wheel and chain, and sprocket wheel includes that sprocket holder, setting can rotate in sprocket holder around self-axis line Sprocket shaft, the sprocket body that is fixed on sprocket shaft, chain is set in sprocket body and lifting lug, and sprocket body is in polygon Body shape, and the section perpendicular to horizontal direction of sprocket body is polygon, is equipped on the whole in polygon each edge recessed Slot, groove can be meshed with chain, and at least be meshed there are three groove with chain in multiple grooves.It will in this application The stress that chain is subject to is decomposed, so that chain is not easy to be pulled off, reduces the security risk of sandbox overturning, at the same by chain with The groove of sprocket body is meshed, and improves the stability of sandbox overturning.But the Sand box turnover mechanism of this application, structure mistake It in complexity, drives process more complicated, and needs with sandbox handling appliance come handling sandbox, there is larger security risk, The equipment input cost of enterprise is also added simultaneously.

Also there is the traditional flask overturning device for not using chain in the prior art, the tradition flask overturning device, structure It include: the overturning that pedestal, sandbox overturning power device and the torsion shaft by the way that its bottom is arranged in are movably arranged on pedestal The output shaft of frame, sandbox overturning power device is connected with one end of torsion shaft, and sand box locking device is provided on rollover stand.Its In, sandbox overturning power device is generally decelerating motor, and the flip angle of this tradition flask overturning device is completely by the electricity that slows down Machine controls, and the reliability of decelerating motor is lower, once decelerating motor occurs abnormal, is just unable to control flip angle, thus Cause rollover stand rotational angle excessive, causes sandbox impaired, there are biggish security risks.

It is the prior art in conclusion how to design a kind of safe and reliable wearing piece sand box used for casting turnover device One technical problem of middle urgent need to resolve.

It is pollution-free, inexpensive, surface finish of casting is good currently, V method foundry engieering is with its dry moulding, it is vast Producer is cast to receive.But the molding sand after V method vacuum sealed molding knockout is easy to be mixed into large granular impurity etc., in downward first device In transmission process, used jigging conveyer cannot be such that impurity is effectively excluded, and be easy to block follow-up equipment, thus shadow Equipment operation is rung, is haveed no alternative but using artificial separation, but efficiency is very low.For this purpose, design it is a kind of can in vibrating transportation band Having the equipment of screening function is very important.

In the prior art, after flask overturning device overturns sandbox, casting and molding sand in sandbox are generally filled by sand fallout It sets and is separated, common sand fallout device is vibratory shakeout machine, and vibratory shakeout machine is by the knockout of vibration realizing product, this sets For instead of the traditional artificial trouble beaten or clear up sand with impact drill.Has phase about vibratory shakeout machine in the prior art The technical solution of pass discloses, such as patent publication No.: 202779717 U of CN, publication date: on March 13rd, 2013, innovation and creation Title are as follows: a kind of novel sand casting product vibratory shakeout machine, this application discloses a kind of novel sand casting products Vibratory shakeout machine, including rack are fixed with vibrating motor in the support plate of rack, are provided with back in the support plate in the left side of rack Turn support device, be provided with slewing reduction apparatus in the support plate on the right side of rack, swing mechanism square middle part on the rack is returned The rotation connecting shaft for turning support device is fixed on the left side of swing mechanism, and the geared motor output shaft of slewing reduction apparatus is fixed on The right side of swing mechanism is fixed with sediment outflow funnel, the bottom of sediment outflow funnel face swing mechanism in rack；The top plate of swing mechanism On be fixed with pneumatic hammer, the bottom fixing frame of swing mechanism is fixed with product apparatus for placing, and the top of pneumatic hammer is placed against product to be filled That sets puts object platform.Product can be rotated 360 ° and carry out hammering knockout by the vibratory shakeout machine of this application, without making Deformation of products can also carry out knockout by vibration, greatly reduce cost of labor, improve work efficiency.But the Shen Please the vibratory shakeout machine of case be individually for product and carry out sand fallout and manufacture and design, sand fallout operation is carried out to high-volume and is wanted Asking still cannot achieve, and structure is complicated for the vibratory shakeout machine of this application, and manufacturing cost is higher.

In conclusion a kind of wearing piece casting sand fallout device for being appropriate for high-volume sand fallout operation how is designed, It is another technical problem of urgent need to resolve in the prior art.

Summary of the invention

1. technical problems to be solved by the inivention

It is insufficient in the prior art it is an object of the invention to overcome, provide a kind of wearing piece casting mould turnover sand fallout system Application method, mainly realize the safe and reliable function of carrying out sandbox turning operation, and be appropriate for high-volume sand fallout operation.

2. technical solution

In order to achieve the above objectives, technical solution provided by the invention are as follows:

The wearing piece casting of the invention application method of mould turnover sand fallout system, includes the following steps:

Step 1: installation sandbox；

Step 2: rotating arm rotates；

Step 3: shake out.

As further improvement of the present invention,

In the step 1: the sandbox after moulding by casting is transported on pedestal, and sandbox is under the lasting promotion of push-in arm It is slided on the rotating arm pulley reached in rotating arm main body along pedestal pulley, sandbox continuation slides to rotation on rotating arm pulley The side plate of arm body is formed between upper beam and lower beam in the cross slider slide-in sandbox cover on the forward and backward outer wall of sandbox at this time Track, until the bottom surface of sandbox is fully located on the lower plate of rotation arm body, sandbox is installed on rotating arm at this time.

As further improvement of the present invention, in the step 2: telescopic arm starts to extend, and rotating arm is pushed slowly to rise It rises and keeps rotating, rotary shaft keeps rotating synchronously with the rotation of rotating arm, and in rotary shaft rotation process, rotating disk does synchronization Rotation, rotating disk successively rotate 105 °, 120 ° and 135 °, and above three angle is three limit points of rotating arm rotational angle, So that inductive switch successively senses the first sensor block, the second sensor block and third sensor block, when inductive switch senses first When sensor block, inductive switch control telescopic arm stop elongation, after continue to extend, when inductive switch senses the second sensor block, Inductive switch control telescopic arm stop elongation, after continue to extend, when inductive switch senses third sensor block, inductive switch control Telescopic arm processed stops elongation, after start to shrink so that rotating arm is turned back to home position；After rotating arm is turned back to home position, Sandbox slides on pedestal out of rotating arm under the lasting promotion of pushing arm, is then transported.

As further improvement of the present invention, in the step 3: sandbox is in rotating arm rotation process, in sandbox Molding sand and casting the material input of sand fallout device is poured into along sandbox cover from the upper opening of sandbox, molding sand and casting are in sieve plate On along material input to the direction of material output end vibrate transport, vibration transportational process Sand by vibration dissipate and on sieve plate Through-hole fall into below sieve plate and collect, casting is stopped by the first block material plate, the second block material plate and passes through lifting machine from conveying It is taken away in slot.

As further improvement of the present invention, the wearing piece casting mould turnover sand fallout system includes flask overturning device With sand fallout device；

The flask overturning device includes rotating arm, rack, telescopic arm, pedestal and sandbox, and the rack is fixed on pedestal On, hingedly on the rack, the telescopic arm is connect the rotating arm with rotating arm, and the telescopic arm is for pushing rotating arm to rotate Arm and the hinge joint of rack are center of circle rotation；The rotating arm is for installing sandbox；

The sand fallout device is located at the side of flask overturning device, which includes delivery chute, supporting mechanism, vibration Mechanism and delivery chute pedestal, the delivery chute are mounted on delivery chute pedestal by supporting mechanism, delivery chute and vibrating mechanism phase Even, which is used to vibrate the material in delivery chute from the material input of delivery chute to the material output end of delivery chute Transport, the delivery chute is interior to be equipped with sieve plate, which is equipped with through-hole, and the aperture of the through-hole is exported along material input to material Extreme direction is gradually reduced.

As further improvement of the present invention, in the flask overturning device, the rotating arm includes the sandbox on top The rotation arm body of cover and lower part, the rotation arm body include a lower plate and side plate, and the lower end of the side plate is vertically solid It is connected on lower plate, the upper end of the side plate is connected on sandbox cover, which is channel up and down；In the rack Rotary shaft is installed, the sandbox cover is rotatablely connected on the rack by rotary shaft；

In the sand fallout device, the supporting mechanism includes support spring and connecting rod, and the support spring is whole to material The inclination of output end direction, the support spring one end are fixed on delivery chute pedestal, and the support spring other end is fixed on conveying The bottom of slot, described connecting rod one end are fixed on delivery chute pedestal, and the connecting rod other end is fixed on the bottom of delivery chute, the connecting rod It is symmetrical set with support spring.

As further improvement of the present invention, in the flask overturning device, it is fixed with rotating disk in the rotary shaft, Sensor block is installed on the rotating disk outer surface, is fixed with inductive switch in the rack, outside the inductive switch face rotating disk The control unit of surface, inductive switch and telescopic arm connects；

In the sand fallout device, the supporting mechanism includes the combination of at least two pairs support springs and connecting rod, it is described at least The combination of two pairs of support springs and connecting rod is evenly distributed along the length direction of conveying trench bottom.

As further improvement of the present invention, in the flask overturning device, the sensor block includes along rotating disk week To the first sensor block, the second sensor block and third sensor block of arrangement, before the rotating arm starts turning, with rotary shaft point Central angle for center of circle inductive switch position and the first sensor block position is 105 °, inductive switch position and the The central angle of two sensor block positions is 120 °, inductive switch position and the central angle of third sensor block position are 135°；

In the sand fallout device, the vibrating mechanism includes eccentric wheel, eccentric wheel shaft, eccentric shaft bearing and motor, institute It states motor to be installed on delivery chute pedestal, output wheel is installed on the output shaft of the motor, which passes through belt and bias Wheel is connected；The eccentric shaft bearing is mounted on conveying trench bottom, and eccentric wheel shaft, the bias are equipped on the eccentric shaft bearing Wheel is removably mounted in eccentric wheel shaft.

As further improvement of the present invention, in the flask overturning device, it is all provided on the forward and backward outer wall of the sandbox There is cross slider, be respectively equipped with upper beam and lower beam on the forward and backward inner wall of the sandbox cover, on the upper beam and lower beam Under be arranged in parallel, form the track slided for cross slider therebetween, one end sealing of the track；

In the sand fallout device, the sieve plate is equipped with block material plate along its width direction, the block material plate and support spring Inclination angle is identical.

As further improvement of the present invention, in the flask overturning device, on the lower plate of the rotation arm body Uniformly distributed rotating arm pulley places uniformly distributed pedestal pulley on the pedestal of sandbox, and before the rotating arm starts turning, the rotating arm is sliding Wheel is located at same level with pedestal pulley；

In the sand fallout device, the angle of the block material plate and vertical line is 30~45 °；

The flask overturning device further includes push-in arm and pushing arm, and the push-in arm is for sandbox to be pushed into from pedestal On rotating arm, the pushing arm is used to sandbox being pushed out to pedestal from rotating arm；

In the sand fallout device, one end of the connecting rod is fixed on delivery chute pedestal by damper；

In the flask overturning device, the frame lower is equipped with telescopic arm pedestal, and described telescopic arm one end is hinged on On telescopic arm pedestal, the telescopic arm other end is hinged on the upper end of the side plate；

In the sand fallout device, the damper is rubber pad；

In the flask overturning device, the push-in arm and pushing arm are cylinder or hydraulic cylinder, and the telescopic arm is hydraulic Cylinder；

In the sand fallout device, the block material plate includes the first block material plate and the second block material plate, along material on the sieve plate Input terminal is successively arranged the first block material plate, the second block material plate, the first block material plate, the second block material to the direction of material output end Plate is evenly distributed along the length direction of sieve plate.

3. beneficial effect

Using technical solution provided by the invention, compared with prior art, have the following beneficial effects:

(1) flask overturning device in the present invention, rotating arm are propped up rotation by the elongation of telescopic arm, are opened by induction The induction with the first sensor block, the second sensor block and third sensor block respectively is closed, control rotating arm rotates in three times, that is, avoids sand There is the case where falling sand moment because of lasting overturning in case switching process, ensure that it is safe and reliable in sandbox switching process, again Molding sand in sandbox can all be removed.

(2) flask overturning device in the prior art is essentially side turn over, i.e., overturns sandbox from the side of sandbox, This overturning mode is although easy to operate it can be difficult to guaranteeing to increase subsequent people disposably by the molding sand whole evacuation in sandbox The workload of work sand removal, and the flask overturning device in the present invention push rotating arm with rotating arm and rack by telescopic arm Hinge joint is that circular-rotation is done in the center of circle, so that the entire upper opening of sandbox is diagonally downward, can guarantee disposably will be in sandbox Molding sand whole evacuation reduces labor workload, and due to being rotated using Hydraulic Cylinder rotating arm, power is sufficient, and sandbox inclines Rake angle is big, accurate positioning, compared to the existing side turn over flask overturning device using decelerating motor, average energy saving 30%.

(3) the sand fallout device in the present invention, using vibrating mechanism by the material in delivery chute from material input to material Output end vibration transport, molding sand are slowly moved on sieve plate under the action of directional vibration, are filtered on one side, and tiling is opened on one side Come, avoid because molding sand, which is gathering on the sieve plate below sandbox always, influences sieve plate filter efficiency the problem of, sieve plate is along its width Degree direction is equipped with block material plate, and block material plate primarily serves the function of stopping casting mobile, conveniently, in time will casting convenient for lifting machine Part is taken away, in conclusion the sand fallout device in the present invention is appropriate for high-volume sand fallout operation.

(4) the sand fallout device in the present invention, on sieve plate, further away from the position of material input direction, material exists The time vibrated above is more long, therefore on sieve plate, at the position of material input direction, large granular impurity With out-of-size molding sand is easier is shattered into little particle and falls into below sieve plate, the through-hole on sieve plate is set in the present invention It is calculated as being gradually reduced along material input to material output extreme direction, then can effectively avoid the appearance of the above problem.

Detailed description of the invention

Fig. 1 is the schematic view of the front view of embodiment cheek turnover device, is wherein the broken section of sandbox cover at B Figure；

Fig. 2 is the partial enlarged view in Fig. 1 at A；

Fig. 3 is the schematic view of the front view of sand fallout device in embodiment.

Label declaration in attached drawing:

1, rotating arm；101, the first sensor block；102, the second sensor block；103, third sensor block；104, rotary shaft；105, Rotating disk；106, upper beam；107, lower beam；108, rotating arm pulley；109, sandbox cover；2, rack；201, inductive switch； 202, telescopic arm pedestal；3, telescopic arm；401, it is pushed into arm；402, pushing arm；5, pedestal；501, pedestal pulley；6, sandbox；601, Cross slider；7, sand fallout device；701, delivery chute；702, delivery chute pedestal；703, sieve plate；704, eccentric wheel；705, motor；706, Support spring；707, connecting rod；708, damper；709, block material plate；710, eccentric wheel shaft；711, material input；712, object Expect output end.

Specific embodiment

To further appreciate that the contents of the present invention, the present invention is described in detail in conjunction with the accompanying drawings and embodiments.

Embodiment 1

In conjunction with Fig. 1~3, wearing piece casting the mould turnover sand fallout system, including flask overturning device and sand fallout of the present embodiment Device 7.Flask overturning device includes rotating arm 1, rack 2, telescopic arm 3, pedestal 5 and sandbox 6, and rack 2 is fixed on pedestal 5, Rotating arm 1 is hinged in rack 2, and telescopic arm 3 is connect with rotating arm 1, the telescopic arm 3 for push rotating arm 1 with rotating arm 1 with The hinge joint of rack 2 is center of circle rotation, and rotating arm 1 is for installing sandbox 6.The present embodiment cheek turnover device specifically: rotation Pivoted arm 1 includes the sandbox cover 109 on top and the rotation arm body of lower part, and rotation arm body includes a lower plate and side plate, side The lower end of plate is vertically connected on lower plate, and the upper end of side plate is connected on sandbox cover 109, which is up and down Channel；2 lower part of rack is equipped with telescopic arm pedestal 202, and 3 one end of telescopic arm is hinged on telescopic arm pedestal 202, telescopic arm 3 The other end is hinged on the upper end of side plate, and telescopic arm 3 is hydraulic cylinder in the present embodiment, and the hydraulic cylinder is two-stage hydraulic cylinder, two In 3 rotation process of grade Hydraulic Cylinder telescopic arm, by controlling the two-stage hydraulic cylinder in the elongation speed of different moments, so that stretching Contracting arm 3 follows principle " first quick and back slow " during rotation, and the quick rotation of " first fast " stage telescopic arm 3 can make in sandbox 6 Molding sand it is more, poured out out of sandbox 6 faster, the slow rotation of " rear slow " stage telescopic arm 3, can be avoided load molding sand and The sandbox 6 of casting cannot pinpoint the rotation for stopping telescopic arm 3 and the safety problem caused, it is ensured that peace because from great, inertia is big Full production.Rotary shaft 104 is installed, sandbox cover 109 is rotatably connected in rack 2 by rotary shaft 104 in rack 2；Rotary shaft It is fixed with rotating disk 105 on 104, sensor block is installed on 105 outer surface of rotating disk, is fixed with inductive switch in rack 2 201,201 face rotating disk of inductive switch, 105 outer surface, inductive switch 201 is connect with the control unit of telescopic arm 3, this reality Applying inductive switch 201 in example can be optoelectronic induction quick closing valve, or contact-making switch, inductive switch 201 can control flexible Arm 3 elongates or shortens；In the present embodiment, sensor block includes the first sensor block 101, second being circumferentially arranged along rotating disk 105 Sensor block 102 and third sensor block 103, before rotating arm 1 starts turning, using 104 point of rotary shaft as center of circle inductive switch 201 The central angle of position and 101 position of the first sensor block is 105 °, 201 position of inductive switch and the second sensor block The central angle of 102 positions is the central angle of 120 °, 201 position of inductive switch and 103 position of third sensor block It is 135 °.It is equipped with cross slider 601 on the forward and backward outer wall of sandbox 6, is respectively equipped with cross on the forward and backward inner wall of sandbox cover 109 Beam 106 and lower beam 107, upper beam 106 and about 107 lower beam are arranged in parallel, and are formed slide for cross slider 601 therebetween Track, one end sealing of the track, with ensure cross slider 601 will not skid off upper beam 106 and it is lower between the track that is formed, really Sandbox 6 is protected to be reliably mounted on rotating arm 1.Flask overturning device further includes push-in arm 401 and pushing arm 402, is pushed into arm 401 For sandbox 6 to be pushed into rotating arm 1 from pedestal 5, pushing arm 402 is used to sandbox 6 being pushed out to pedestal 5 from rotating arm 1 On, arm 401 is pushed into the present embodiment and pushing arm 402 is cylinder.Rotate uniformly distributed rotating arm pulley on the lower plate of arm body 108, uniformly distributed pedestal pulley 501 on the pedestal 5 of sandbox 6 is placed, before rotating arm 1 starts turning, rotating arm pulley 108 and pedestal are sliding Wheel 501 is located at same level, in order to which sandbox 6 is free to slide between rotating arm pulley 108 and pedestal pulley 501.Rotation Before arm 1 starts turning, the upper end of sandbox cover 109 to the inclined downward far from 7 side of sand fallout device, convenient for sandbox 6 be lifted into The capable when of falling sand, molding sand and casting swing to sand fallout device 7 along the higher side in 109 upper end of sandbox cover.

Sand fallout device 7 is located at the side of flask overturning device, which includes delivery chute 701, supporting mechanism, vibration Motivation structure and delivery chute pedestal 702, delivery chute 701 are mounted on delivery chute pedestal 702 by supporting mechanism, delivery chute 701 with Vibrating mechanism is connected, which is used for the material in delivery chute 701 from the material input 711 of delivery chute 701 to defeated It send the material output end 712 of slot 701 to vibrate transport, sieve plate 703 is equipped in delivery chute 701, which is equipped with through-hole, should The aperture of through-hole is gradually reduced along material input 711 to 712 direction of material output end.Sand fallout device 7 is specific in the present embodiment Are as follows: supporting mechanism includes support spring 706 and connecting rod 707, and support spring 706 is whole to incline to 712 direction of material output end Tiltedly, which is fixed on delivery chute pedestal 702, and 706 other end of support spring is fixed on delivery chute 701 Bottom；In order to reduce the noise generated in vibration processes, 707 one end of connecting rod is fixed on delivery chute pedestal 702 by damper 708 On, damper 708 is the rubber pad of 15cm thickness in the present embodiment, on the one hand rubber pad plays buffer function to connecting rod 707, is protected Connecting rod 707, on the other hand absorbs the noise issued on connecting rod 707, improves working environment, in the present embodiment, delivery chute 701 rely primarily on support spring 706 and connecting rod 707 is supported on delivery chute pedestal 702, support spring 706 primarily serve make it is defeated Slot 701 is sent to vibrate along a certain fixed-direction (i.e. the elongation of support spring 706 and compression direction), so that delivery chute Orientation conveying occurs for material in 701, specifically: molding sand in sandbox 6 is from the material input 711 of delivery chute 701 down to sieve When one end of plate 703, molding sand can slowly be moved under the action of directional vibration to the other end of sieve plate 703, molding sand moving process Middle one side is filtered, and tiling is come on one side, and avoid influences to sieve because gathering on the molding sand always sieve plate 703 below sandbox 6 The problem of 703 filter efficiency of plate, and the large granular impurity left after the filtering of sieve plate 703 and out-of-size molding sand are by certainly The dynamic one end centralized recovery being sent on sieve plate 703 far from sandbox 6 is handled, and the molding sand of size qualification passes through in the lower section of sieve plate 703 Conveyor belt recycling is got up；707 other end of connecting rod is fixed on the bottom of delivery chute 701, connecting rod 707 and support spring 706 or so It is symmetrical arranged, since connecting rod 707 is a straight-bar, for opposite slab structure, the elasticity of straight-bar preferably, is more suitable for vibrated Supporting element in journey.In the present embodiment, supporting mechanism includes the combination of four pairs of support springs 706 and connecting rod 707, four pairs of support bullets Length direction of the combination of spring 706 and connecting rod 707 along 701 bottom of delivery chute is evenly distributed, can steadily rise to delivery chute 701 To supporting role, wherein the combination of a pair of of support spring 706 and connecting rod 707 includes 706 He of a symmetrical support spring One connecting rod 707.Vibrating mechanism includes eccentric wheel 704, eccentric wheel shaft 710, eccentric shaft bearing and motor 705, and motor 705 is pacified Loaded on delivery chute pedestal 702, output wheel is installed on the output shaft of the motor 705, which passes through belt and eccentric wheel 704 are connected；Eccentric shaft bearing is mounted on 701 bottom of delivery chute, and eccentric wheel shaft 710 is equipped on the eccentric shaft bearing, eccentric Wheel 704 is removably mounted in eccentric wheel shaft 710, and the Oscillation Amplitude of vibrating mechanism is not adjustable mostly in the prior art, And in the present embodiment, it, can be different big by replacement since eccentric wheel 704 is removably mounted in eccentric wheel shaft 710 Small eccentric wheel 704 easily adjusts the Oscillation Amplitude of vibrating mechanism, meets the different demands of actual production.703 edge of sieve plate Its width direction be equipped with block material plate 709, block material plate 709 primarily serve stop casting with the directional vibration of delivery chute 701 and The function mobile to the direction far from sandbox 6, it is convenient convenient for lifting machine, in time take casting away, while block material plate 709 is set The movement of molding sand is set and cannot hinder, therefore in the present embodiment, block material plate 709 is identical as the inclination angle of support spring 706, block material plate 709 and the angle of vertical line are 30~45 ° (30 ° are taken in specific the present embodiment), the inclination angle of block material plate 709 and support spring 706 It is arranged identical, the angle of block material plate 709 and vertical line is set as 30~45 ° and ensures that block material plate 709 can effectively stop to cast The movement of part, and molding sand can be made successfully to cross block material plate 709；In order to ensure the effect for stopping casting mobile, block material plate 709 is wrapped The first block material plate and the second block material plate are included, is successively set along material input 711 to the direction of material output end 712 on sieve plate 703 There are the first block material plate, the second block material plate, the first block material plate, the second block material plate are evenly distributed along the length direction of sieve plate 703, material Through-hole aperture is 5~10mm (taking 5mm in specific the present embodiment) on sieve plate 703 between input terminal 711 and the first block material plate, the Through-hole aperture is 10~15mm (taking 10mm in specific the present embodiment) on sieve plate 703 between one block material plate and the second block material plate, Through-hole aperture is that 15~20mm (takes in specific the present embodiment on sieve plate 703 between second block material plate and material output end 712 15mm), on sieve plate 703, further away from the position of 711 direction of material input, the time that material is vibrated above is got over Long, therefore on sieve plate 703, at the position of 711 direction of material input, large granular impurity and off-dimension Molding sand it is easier be shattered into little particle and fall into the lower section of sieve plate 703, be by the via design on sieve plate 703 in the present embodiment It is gradually reduced along material input 711 to 712 direction of material output end, then can effectively avoid the appearance of the above problem.

In the present embodiment, delivery chute 701 is driven to vibrate along a direction by vibrating mechanism, so that sieve plate Molding sand on 703 occurs to be filtered molding sand while orientation conveying, to effectively remove mixed impurity in molding sand, avoids Using artificial separation, production efficiency is improved.

The application method of mould turnover sand fallout system is used in the wearing piece casting of the present embodiment, is included the following steps: Step 1: installing Sandbox 6: as shown in Figure 1, the sandbox 6 after moulding by casting is transported on pedestal 5, sandbox 6 is under the lasting promotion of push-in arm 401 It is slided on the rotating arm pulley 108 reached in rotating arm main body along pedestal pulley 501, sandbox 6 continues in rotating arm pulley 108 On slide to the side plate of rotation arm body, cross slider 601 on the forward and backward outer wall of sandbox 6 slides into upper beam in sandbox cover 109 at this time The track formed between 106 and lower beam 107, until the bottom surface of sandbox 6 is fully located on the lower plate of rotation arm body, at this time Sandbox 6 is installed on rotating arm 1；Step 2: rotating arm 1 rotates: then, telescopic arm 3 starts to extend, and pushes rotating arm 1 slow Slowly it rises and keeps rotating, since rotary shaft 104 and telescopic arm 3 are connected, rotary shaft 104 is protected with the rotation of rotating arm 1 Synchronous rotation is held, as shown in Fig. 2, rotating disk 105 synchronously rotates in 104 rotation process of rotary shaft, rotating disk 105 successively turns Dynamic 105 °, 120 ° and 135 °, above three angle is three limit points of 1 rotational angle of rotating arm so that inductive switch 201 according to It is secondary to sense the first sensor block 101, the second sensor block 102 and third sensor block 103, when inductive switch 201 senses the first sense When answering block 101, inductive switch 201, which controls telescopic arm 3, to be stopped extending and continues to extend after keeping 2min, when inductive switch 201 is felt When should be to the second sensor block 102, inductive switch 201, which controls telescopic arm 3, to be stopped extending and continues to extend after keeping 1min, works as induction When switch 201 senses third sensor block 103, inductive switch 201, which controls telescopic arm 3, to be stopped extending and starts to receive after keeping 5min Contracting, so that rotating arm 1 is turned back to home position, in which: molding sand after rotating arm 1 rotates 105 ° and keeps 2min, in sandbox 6 70% about is removed, after rotating arm 1 rotates 120 ° and keeps 1min, the molding sand in sandbox 6 is about removed 90%, works as rotating arm After 1 rotates 135 ° and keeps 5min, the molding sand in sandbox 6 is completely removed；After rotating arm 1 is turned back to home position, sandbox 6 exists It slides into out of rotating arm 1 under the lasting promotion of pushing arm 402 to pedestal 5, is then transported.

Step 3: shake out: as shown in figure 3, sandbox 6 is in 1 rotation process of rotating arm, molding sand in sandbox 6 and Casting pours into the material input 711 of sand fallout device 7 from the upper opening of sandbox 6 along sandbox cover 109, and molding sand and casting are in sieve plate It vibrates and transports to the direction of material output end 712 along material input 711 on 703, vibration transportational process Sand is dissipated simultaneously by vibration Through-hole on sieve plate 703, which is fallen into below sieve plate 703, to be collected, and casting is stopped simultaneously by the first block material plate, the second block material plate It is taken away out of delivery chute 701 by lifting machine.

Flask overturning device in the present embodiment, rotating arm 1 are propped up rotation by the elongation of telescopic arm 3, pass through induction The induction with the first sensor block 101, the second sensor block 102 and third sensor block 103 respectively of switch 201, control rotating arm 1 divide three Secondary rotation, that is, allow the mould turnover in three times of sandbox 6, that is, avoids in 6 switching process of sandbox occurring because of lasting overturning moment and fall the feelings of sand Condition, ensure that it is safe and reliable in 6 switching process of sandbox, and can by sandbox 6 molding sand all remove；Sand in the prior art Case turnover device is essentially side turn over, i.e., overturns from the side of sandbox 6 by sandbox 6, although the operation letter of this overturning mode It is single it can be difficult to guarantee disposably to increase the molding sand whole evacuation in sandbox 6 workload of subsequent artefacts' sand removal, and this reality The flask overturning device in example is applied, pushes rotating arm 1 to do circle as the center of circle using the hinge joint of rotating arm 1 and rack 2 by telescopic arm 3 Week rotation, so that the entire upper opening of sandbox 6 is diagonally downward, can guarantee disposably to subtract the molding sand whole evacuation in sandbox 6 Labor workload is lacked, and due to pushing rotating arm 1 to rotate using hydraulic cylinder (telescopic arm 3), power is sufficient, 6 inclination angle of sandbox Big, accurate positioning is spent, compared to the existing side turn over flask overturning device using decelerating motor, average energy saving 30%.

Sand fallout device 7 in the present embodiment, using vibrating mechanism by the material in delivery chute 701 from material input 711 It vibrating and transports to material output end 712, molding sand is slowly moved on sieve plate 703 under the action of directional vibration, is filtered on one side, Tiling is come on one side, and avoiding influences 703 filter efficiency of sieve plate because gathering on the molding sand always sieve plate 703 below sandbox 6 The problem of, sieve plate 703 is equipped with block material plate 709 along its width direction, and block material plate 709 primarily serves the function for stopping casting mobile Can, it is convenient convenient for lifting machine, in time take casting away, in conclusion the sand fallout device 7 in the present embodiment be appropriate for it is large quantities of Measure sand fallout operation.

Embodiment 2

The wearing piece casting mould turnover sand fallout system of the present embodiment, structure is substantially the same manner as Example 1, difference It is: in flask overturning device, is pushed into arm 401 and pushing arm 402 is hydraulic cylinder；

In sand fallout device 7, the angle of block material plate 709 and vertical line is 45 °；Material input 711 and the first block material plate it Between sieve plate 703 on through-hole aperture be 10mm, through-hole aperture is on the sieve plate 703 between the first block material plate and the second block material plate 15mm, through-hole aperture is 20mm on the sieve plate 703 between the second block material plate and material output end 712.

Embodiment 3

The wearing piece casting mould turnover sand fallout system of the present embodiment, structure is substantially the same manner as Example 1, difference It is: in order to ensure not being mixed into short grained metal impurities in the molding sand that is recovered, magnetic separation is equipped with above material input 711 Machine, magnetic separator carry out magnetic separation processing for that will enter the molding sand in delivery chute 701, remove the metal impurities of molding sand small particles； In order to improve the working environment at scene, air pollution is avoided, dust hood is additionally provided with above delivery chute 701, dust hood plays The effect of 701 top dust laden air of delivery chute is absorbed, while not only heat is big for the casting just cast, but also can give out one A little toxic and harmful gas, setting dust hood also act as the effect for taking toxic and harmful gas away.

Schematically the present invention and embodiments thereof are described above, description is not limiting, institute in attached drawing What is shown is also one of embodiments of the present invention, and actual structure is not limited to this.So if the common skill of this field Art personnel are enlightened by it, without departing from the spirit of the invention, are not inventively designed and the technical solution Similar frame mode and embodiment, are within the scope of protection of the invention.

Claims (1)

1. the application method that mould turnover sand fallout system is used in a kind of wearing piece casting, it is characterised in that include the following steps:

The wearing piece casting mould turnover sand fallout system includes flask overturning device and sand fallout device (7)；

The flask overturning device includes rotating arm (1), rack (2), telescopic arm (3), pedestal (5) and sandbox (6), the rack (2) it is fixed on pedestal (5), the rotating arm (1) is hinged on rack (2), and the telescopic arm (3) connect with rotating arm (1), The telescopic arm (3) is used to that rotating arm (1) to be pushed to rotate by the center of circle of the hinge joint of rotating arm (1) and rack (2)；The rotating arm (1) for installing sandbox (6)；

The sand fallout device (7) is located at the side of flask overturning device, which includes delivery chute (701), support machine Structure, vibrating mechanism and delivery chute pedestal (702), the delivery chute (701) are mounted on delivery chute pedestal (702) by supporting mechanism On, delivery chute (701) is connected with vibrating mechanism, which is used for the material in delivery chute (701) from delivery chute (701) Material input (711) vibrate and transport to the material output end (712) of delivery chute (701), is equipped in the delivery chute (701) Sieve plate (703), the sieve plate (703) are equipped with through-hole, and the aperture of the through-hole is along material input (711) to material output end (712) direction is gradually reduced；

In the flask overturning device, the rotating arm (1) includes the sandbox cover (109) on top and the rotation arm body of lower part, The rotation arm body includes a lower plate and side plate, and the lower end of the side plate is vertically connected on lower plate, the side plate Upper end be connected on sandbox cover (109), which is channel up and down；Rotation is installed on the rack (2) Shaft (104), the sandbox cover (109) are rotatably connected on rack (2) by rotary shaft (104)；

In the sand fallout device (7), the supporting mechanism includes support spring (706) and connecting rod (707), the support spring (706) whole to tilt to material output end (712) direction, which is fixed on delivery chute pedestal (702) on, support spring (706) other end is fixed on the bottom of delivery chute (701), and described connecting rod (707) one end is fixed on defeated It send on slot bottom seat (702), connecting rod (707) other end is fixed on the bottom of delivery chute (701), the connecting rod (707) and support bullet Spring (706) is symmetrical set；

In the flask overturning device, rotating disk (105) are fixed on the rotary shaft (104), rotating disk (105) outer surface On sensor block is installed, be fixed with inductive switch (201) on the rack (2), inductive switch (201) the face rotating disk (105) outer surface, inductive switch (201) are connect with the control unit of telescopic arm (3)；

In the sand fallout device (7), the supporting mechanism includes the combination of at least two pairs support springs (706) and connecting rod (707), Length direction of the combination of at least two pairs of support springs (706) and the connecting rod (707) along delivery chute (701) bottom is uniformly arranged Column；

In the flask overturning device, the sensor block include the first sensor block (101) being circumferentially arranged along rotating disk (105), Second sensor block (102) and third sensor block (103), before the rotating arm (1) starts turning, with rotary shaft (104) point Central angle for center of circle inductive switch (201) position and the first sensor block (101) position is 105 °, inductive switch (201) central angle of position and the second sensor block (102) position be 120 °, inductive switch (201) position with The central angle of third sensor block (103) position is 135 °；

In the sand fallout device (7), the vibrating mechanism includes eccentric wheel (704), eccentric wheel shaft (710), eccentric shaft bearing With motor (705), the motor (705) is installed on delivery chute pedestal (702), is equipped on the output shaft of the motor (705) Output wheel, the output wheel are connected by belt with eccentric wheel (704)；The eccentric shaft bearing is mounted on delivery chute (701) bottom, It is equipped on the eccentric shaft bearing eccentric wheel shaft (710), the eccentric wheel (704) is removably mounted on eccentric wheel shaft (710) on；

In the flask overturning device, it is equipped with cross slider (601) on the forward and backward outer wall of the sandbox (6), the sandbox cover (109) upper beam (106) and lower beam (107), the upper beam (106) and lower beam are respectively equipped on forward and backward inner wall (107) it is arranged in parallel up and down, forms the track slided for cross slider (601), one end sealing of the track therebetween；

In the sand fallout device (7), the sieve plate (703) is equipped with block material plate (709) along its width direction, the block material plate (709) identical as the inclination angle of support spring (706)；

In the flask overturning device, on the lower plate of the rotation arm body uniformly distributed rotating arm pulley (108), sandbox is placed (6) on pedestal (5) uniformly distributed pedestal pulley (501), before the rotating arm (1) starts turning, the rotating arm pulley (108) with Pedestal pulley (501) is located at same level；

In the sand fallout device (7), the angle of the block material plate (709) and vertical line is 30~45 °；

The flask overturning device further includes push-in arm (401) and pushing arm (402), and the push-in arm (401) is used for sandbox (6) it is pushed on rotating arm (1) from pedestal (5), the pushing arm (402) is for sandbox (6) to be pushed out to from rotating arm (1) On pedestal (5)；

In the sand fallout device (7), one end of the connecting rod (707) is fixed on delivery chute pedestal (702) by damper (708) On；

In the flask overturning device, rack (2) lower part is equipped with telescopic arm pedestal (202), described telescopic arm (3) one end It is hinged on telescopic arm pedestal (202), telescopic arm (3) other end is hinged on the upper end of the side plate；

In the sand fallout device (7), the damper (708) is rubber pad；

In the flask overturning device, the push-in arm (401) and pushing arm (402) are cylinder or hydraulic cylinder, the telescopic arm It (3) is hydraulic cylinder；

In the sand fallout device (7), the block material plate (709) includes the first block material plate and the second block material plate, the sieve plate (703) On along material input (711) be successively arranged the first block material plate, the second block material plate to the direction of material output end (712), it is described First block material plate, the second block material plate are evenly distributed along the length direction of sieve plate (703)；

Step 1: installation sandbox (6)；

In the step 1: the sandbox (6) after moulding by casting is transported on pedestal (5), and sandbox (6) is in push-in arm (401) It is lasting push under slided on the rotating arm pulley (108) reached in rotating arm main body along pedestal pulley (501), sandbox (6) after Continue the side plate that rotation arm body is slided on rotating arm pulley (108), at this time the cross slider (601) on sandbox (6) forward and backward outer wall The track formed between sandbox cover (109) interior upper beam (106) and lower beam (107) is slid into, until the bottom surface of sandbox (6) is complete On the lower plate of rotation arm body, sandbox (6) is installed on rotating arm (1) at this time；

Step 2: rotating arm (1) rotates；

In the step 2: telescopic arm (3) starts to extend, and rotating arm (1) is pushed slowly to rise and keep rotating, rotary shaft (104) as the rotation of rotating arm (1) keeps rotating synchronously, in rotary shaft (104) rotation process, rotating disk (105) does synchronization Rotation, rotating disk (105) successively rotate 105 °, 120 ° and 135 °, and above three angle is three of rotating arm (1) rotational angle Limit point, so that inductive switch (201) successively senses the first sensor block (101), the second sensor block (102) and third sensor block (103), when inductive switch (201) senses the first sensor block (101), inductive switch (201) control telescopic arm (3) stops stretching It is long, after continue to extend, when inductive switch (201) senses the second sensor block (102), inductive switch (201) controls telescopic arm (3) stop elongation, after continue to extend, when inductive switch (201) senses third sensor block (103), inductive switch (201) control Telescopic arm (3) processed stops elongation, after start to shrink so that rotating arm (1) is turned back to home position；Rotating arm (1) is turned back to original Behind beginning position, sandbox (6) slides on pedestal (5) out of rotating arm (1) under the lasting promotion of pushing arm (402), is then transported It is defeated；

Step 3: shake out；

In the step 3: sandbox (6) is in rotating arm (1) rotation process, and molding sand and casting in sandbox (6) are from sandbox (6) upper opening pours into the material input (711) of sand fallout device (7) along sandbox cover (109), and molding sand and casting are in sieve plate (703) it vibrates and transports to the direction of material output end (712) along material input (711) on, vibrate transportational process Sand quilt Vibration dissipates and the through-hole on sieve plate (703) falls into below sieve plate (703) and collects, and casting is by the first block material plate, second gear Object plate stops and passes through lifting machine to take away out of delivery chute (701).