CN205218006U - Wearing parts foundry sand case turning device - Google Patents

Abstract

The utility model discloses a wearing parts foundry sand case turning device belongs to wearing parts casting equipment field. The utility model discloses a wearing parts foundry sand case turning device, sand box turning device include swinging boom, frame, flexible arm, base and sand box, and on the frame was fixed in the base, the swinging boom hinged in the frame, and flexible arm and swivel arm, the arm that should stretch out and draw back are used for promoting the swinging boom and use the swinging boom and the pin joint of frame to rotate as the centre of a circle, the swinging boom is used for installing the sand box. The utility model discloses a wearing parts foundry sand case turning device has realized mainly that safe and reliable carries out the function of sand box upset operation.

Description

A kind of wearing piece sand box used for casting turning device

Technical field

The utility model relates to wearing piece Casting Equipment field, more particularly, relates to a kind of wearing piece sand box used for casting turning device.

Background technology

Wearing piece is generally produced by the mode of casting, and common wearing piece is stirring vane, hollow abrading-ball etc.In Foundry Production, the method for sandbox upset is varied, is broadly divided into two large classes: unsettled upset and ground upset.For unsettled upset, tipper need be adopted unsettled for its sandbox, and then realize its upset, and for thicker or larger foundry goods in matched moulds process during mould turnover, because sandbox size is comparatively large, tipper chain is easily pulled off, and there is larger potential safety hazard.

Easily be pulled off to solve tipper chain, there is the problem of larger potential safety hazard, in prior art, existing related art scheme is open, such as Authorization Notice No. is CN203221185U, authorized announcement date is the utility model patent on October 2nd, 2013, this application case discloses a kind of Sand box turnover mechanism, the both ends of sandbox are provided with hanger, switching mechanism comprises for by unsettled for the sandbox balance suspender sling, the sprocket transmission device overturn for driving sandbox, balance suspender comprises balance cross bar, link, sprocket transmission device comprises sprocket wheel and chain, sprocket wheel comprises sprocket holder, be arranged on the sprocket shaft that can rotate around Pivot Point Center line in sprocket holder, be fixed on the sprocket body on sprocket shaft, chain is set on sprocket body and hanger, sprocket body is polygonal body shape, and the cross section perpendicular to horizontal direction of sprocket body is polygon, groove is equipped with on the whole on the every bar limit of polygon, groove all can be meshed with chain, and in multiple groove, have at least three grooves to be meshed with chain.In this application case, the stress that chain is subject to is decomposed, chain is not easily pulled off, reduce the potential safety hazard of sandbox upset, be meshed with the groove of sprocket body by chain simultaneously, improve the stability of sandbox upset.But the Sand box turnover mechanism of this application case, its structure is too complicated, drives process more complicated, and needs to carry out handling sandbox with sandbox handling appliance, there is larger potential safety hazard, also add the equipment investment cost of enterprise simultaneously.

Also the traditional flask overturning device not adopting chain is had in prior art, this traditional flask overturning device, its structure comprises: base, sandbox overturn power set and be movably arranged on the rollover stand on base by the trip shaft be arranged on bottom it, the sandbox upset output shaft of power set is connected with one end of trip shaft, and rollover stand is provided with sand box locking device.Wherein, sandbox upset power set are generally reducing motor, the flip angle of this traditional flask overturning device controls by reducing motor completely, and the reliability of reducing motor is lower, once reducing motor occurs abnormal, just uncontrollable flip angle, thus cause rollover stand rotational angle excessive, cause sandbox impaired, there is larger potential safety hazard.

In sum, how designing a kind of safe and reliable wearing piece sand box used for casting turning device, is the technical problem needing solution in prior art badly.

Utility model content

1. the utility model technical problem that will solve

The purpose of this utility model is to overcome in prior art not enough, provides a kind of wearing piece sand box used for casting turning device, mainly achieves safe and reliable function of carrying out sandbox turning operation.

2. technical scheme

For achieving the above object, the technical scheme that the utility model provides is:

Wearing piece sand box used for casting turning device of the present utility model, described flask overturning device comprises turning arm, frame, telescopic arm, base and sandbox, described frame is fixed on base, described turning arm is hinged in frame, described telescopic arm is connected with turning arm, and this telescopic arm is for promoting turning arm with the pin joint of turning arm and frame for rotating in the center of circle; Described turning arm is for installing sandbox.

Further improve as the utility model, described turning arm comprises the sandbox cover on top and the turning arm main body of bottom, described turning arm main body comprises a lower shoe and side plate, the lower end of described side plate is vertically connected on lower shoe, the upper end of described side plate is connected on sandbox cover, and this sandbox cover is the passage of up/down perforation; Described frame is provided with rotating shaft, and described sandbox cover is rotatably connected in frame by rotating shaft.

Further improve as the utility model, described rotating shaft is fixed with rotating disc, this rotating disc outer surface is provided with sensor block, described frame is fixed with inductive switch, this inductive switch is just to rotating disc outer surface, and inductive switch is connected with the control unit of telescopic arm.

Further improve as the utility model, described sensor block comprises the first sensor block, the second sensor block and the 3rd sensor block that are circumferentially arranged along rotating disc, before described turning arm starts to rotate, with the central angle that rotating shaft point is inductive switch position, the center of circle and the first sensor block position be 105 °, the central angle of inductive switch position and the second sensor block position is 120 °, the central angle of inductive switch position and the 3rd sensor block position is 135 °.

Further improve as the utility model, the forward and backward outer wall of described sandbox is equipped with cross slider, the forward and backward inwall of described sandbox cover is provided with entablature and sill respectively, described entablature and sill be arranged in parallel up and down, therebetween the track slided for cross slider is formed, one end sealing of this track.

Further improve as the utility model, uniform turning arm pulley on the lower shoe of described turning arm main body, uniform base pulley on the base of placement sandbox, before described turning arm starts rotation, described turning arm pulley and base pulley are positioned at same level.

Further improve as the utility model, described flask overturning device also comprises and pushes arm and pushing arm, described in push arm for sandbox is pushed turning arm from base, described pushing arm is for being pushed out to base by sandbox from turning arm.

Further improve as the utility model, described frame lower is provided with telescopic arm base, and described telescopic arm one end is hinged on telescopic arm base, and the telescopic arm other end is hinged on the upper end of described side plate.

Further improve as the utility model, described in push arm and pushing arm is cylinder or hydraulic cylinder, described telescopic arm is hydraulic cylinder.

Further improve as the utility model, before described turning arm starts rotation, the upper end of described sandbox cover is to the inclined downward away from sand fallout device side.

3. beneficial effect

The technical scheme adopting the utility model to provide, compared with prior art, has following beneficial effect:

(1) flask overturning device of the present utility model, turning arm is propped up rotation by the elongation of telescopic arm, by inductive switch respectively with the induction of the first sensor block, the second sensor block and the 3rd sensor block, control turning arm and divide three rotations, namely the situation occurring falling instantaneously sand in sandbox switching process because of lasting upset is avoided, what ensure that in sandbox switching process is safe and reliable, the molding sand in sandbox all can be removed again.

(2) flask overturning device of the prior art is side turn over substantially, namely from the side of sandbox, sandbox is overturn, but although this upset mode simple to operate be difficult to ensure disposable by whole for the molding sand in sandbox evacuation, add the workload of subsequent artefacts's sand removal, and flask overturning device of the present utility model, turning arm is promoted with the pin joint of turning arm and frame for doing circular-rotation in the center of circle by telescopic arm, the whole upper shed of sandbox is tilted to down, can ensure disposable by whole for the molding sand in sandbox evacuation, decrease labor workload, and owing to adopting Hydraulic Cylinder turning arm to rotate, power is sufficient, sandbox angle of inclination is large, accurate positioning, compare the side turn over flask overturning device of existing use reducing motor, average saving energy consumption 30%.

Accompanying drawing explanation

Fig. 1 is the main TV structure schematic diagram of embodiment cheek turning device, and wherein B place is the partial sectional view of sandbox cover;

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

Fig. 3 is the main TV structure schematic diagram of sand fallout device in embodiment.

Label declaration in accompanying drawing:

1, turning arm; 101, the first sensor block; 102, the second sensor block; 103, the 3rd sensor block; 104, rotating shaft; 105, rotating disc; 106, entablature; 107, sill; 108, turning arm pulley; 109, sandbox cover; 2, frame; 201, inductive switch; 202, telescopic arm base; 3, telescopic arm; 401, arm is pushed; 402, pushing arm; 5, base; 501, base pulley; 6, sandbox; 601, cross slider; 7, sand fallout device; 701, delivery chute; 702, delivery chute base; 703, sieve plate; 704, eccentric wheel; 705, motor; 706, support spring; 707, connecting rod; 708, damper; 709, block material plate; 710, eccentric wheel rotating shaft; 711, material input; 712, material output.

Detailed description of the invention

For understanding content of the present utility model further, in conjunction with the accompanying drawings and embodiments the utility model is described in detail.

Embodiment 1

Composition graphs 1 ~ 3, the wearing piece casting mould turnover sand fallout system of the present embodiment, comprises flask overturning device and sand fallout device 7.Flask overturning device comprises turning arm 1, frame 2, telescopic arm 3, base 5 and sandbox 6, frame 2 is fixed on base 5, turning arm 1 is hinged in frame 2, telescopic arm 3 is connected with turning arm 1, this telescopic arm 3 is for promoting turning arm 1 with the pin joint of turning arm 1 and frame 2 for rotating in the center of circle, and turning arm 1 is for installing sandbox 6.The present embodiment cheek turning device is specially: turning arm 1 comprises the sandbox cover 109 on top and the turning arm main body of bottom, turning arm main body comprises a lower shoe and side plate, the lower end of side plate is vertically connected on lower shoe, the upper end of side plate is connected on sandbox cover 109, and this sandbox cover 109 is the passage of up/down perforation, frame 2 bottom is provided with telescopic arm base 202, telescopic arm 3 one end is hinged on telescopic arm base 202, telescopic arm 3 other end is hinged on the upper end of side plate, in the present embodiment, telescopic arm 3 is hydraulic cylinder, and this hydraulic cylinder is two-stage hydraulic cylinder, promote in telescopic arm 3 rotation process at two-stage hydraulic cylinder, by controlling this two-stage hydraulic cylinder in not elongation speed in the same time, make telescopic arm 3 in rotation process, follow " first quick and back slow " principle, the quick rotation of " first fast " stage telescopic arm 3 can make the molding sand in sandbox 6 more, pour out in sandbox 6 faster, the slow rotation of " slow afterwards " stage telescopic arm 3, the sandbox 6 can avoiding loading molding sand and foundry goods is because of from great, inertia is large, can not fix a point to stop the rotation of telescopic arm 3 and the safety problem that causes, ensure that safety in production.Frame 2 is provided with rotating shaft 104, sandbox cover 109 is rotatably connected in frame 2 by rotating shaft 104; Rotating shaft 104 is fixed with rotating disc 105, this rotating disc 105 outer surface is provided with sensor block, frame 2 is fixed with inductive switch 201, this inductive switch 201 is just to rotating disc 105 outer surface, inductive switch 201 is connected with the control unit of telescopic arm 3, in the present embodiment, inductive switch 201 can be optoelectronic induction quick closing valve, and can be also contact-making switch, inductive switch 201 can control elongating or shortening of telescopic arm 3; In the present embodiment, sensor block comprises the first sensor block 101, second sensor block 102 and the 3rd sensor block 103 that are circumferentially arranged along rotating disc 105, before turning arm 1 starts to rotate, with the central angle that rotating shaft 104 point is center of circle inductive switch 201 position and the first sensor block 101 position be 105 °, the central angle of inductive switch 201 position and the second sensor block 102 position is 120 °, the central angle of inductive switch 201 position and the 3rd sensor block 103 position is 135 °.The forward and backward outer wall of sandbox 6 is equipped with cross slider 601, the forward and backward inwall of sandbox cover 109 is provided with respectively entablature 106 and sill 107, entablature 106 and sill about 107 be arranged in parallel, therebetween the track slided for cross slider 601 is formed, one end sealing of this track, with guarantee cross slider 601 can not skid off entablature 106 and lower between the track that formed, guarantee that sandbox 6 is reliably arranged on turning arm 1.Flask overturning device also comprises and pushes arm 401 and pushing arm 402, push arm 401 for sandbox 6 is pushed turning arm 1 from base 5, pushing arm 402, for sandbox 6 is pushed out to base 5 from turning arm 1, pushes arm 401 and pushing arm 402 is cylinder in the present embodiment.Uniform turning arm pulley 108 on the lower shoe of turning arm main body, uniform base pulley 501 on the base 5 of placement sandbox 6, before turning arm 1 starts rotation, turning arm pulley 108 and base pulley 501 are positioned at same level, so that sandbox 6 is free to slide between turning arm pulley 108 and base pulley 501.Before turning arm 1 starts to rotate, the upper end of sandbox cover 109 is to the inclined downward away from sand fallout device 7 side, and be convenient to sandbox 6 and be lifted and carry out the time of falling sand, molding sand and foundry goods swing to sand fallout device 7 along the side that sandbox cover 109 upper end is higher.

Sand fallout device 7 is positioned at the side of flask overturning device, this sand fallout device 7 comprises delivery chute 701, supporting mechanism, vibrating mechanism and delivery chute base 702, delivery chute 701 is arranged on delivery chute base 702 by supporting mechanism, delivery chute 701 is connected with vibrating mechanism, this vibrating mechanism is used for the material in delivery chute 701 to vibrate transport from the material input 711 of delivery chute 701 to the material output 712 of delivery chute 701, sieve plate 703 is provided with in delivery chute 701, this sieve plate 703 is provided with through hole, the aperture of this through hole reduces along material input 711 gradually to material output 712 direction.In the present embodiment, sand fallout device 7 is specially: supporting mechanism comprises support spring 706 and connecting rod 707, support spring 706 entirety tilts to direction, material output 712 place, this support spring 706 one end is fixed on delivery chute base 702, and support spring 706 other end is fixed on the bottom of delivery chute 701, in order to reduce the noise produced in vibration processes, connecting rod 707 one end is fixed on delivery chute base 702 by damper 708, in the present embodiment, damper 708 is the rubber blanket that 15cm is thick, rubber blanket plays cushioning effect to connecting rod 707 on the one hand, protect connecting rod 707, absorb the noise that connecting rod 707 sends on the other hand, improve working environment, in the present embodiment, delivery chute 701 mainly relies on support spring 706 and connecting rod 707 to be supported on delivery chute base 702, support spring 706 mainly plays and delivery chute 701 is vibrated along a certain fixed-direction (i.e. the elongation of support spring 706 and compression direction), thus make the material in delivery chute 701 that directed conveying occur, be specially: when the molding sand in sandbox 6 is from one end down to sieve plate 703 of the material input 711 of delivery chute 701, molding sand can to the slowly movement of the other end of sieve plate 703 under the effect of directional vibration, while be filtered in molding sand moving process, while tiling is come, avoid because the sieve plate 703 of molding sand all the time below sandbox 6 gathering and affecting the problem of sieve plate 703 filter efficiency, and the large granular impurity stayed after sieve plate 703 filters and out-of-size molding sand are automatically sent to one end centralized recovery process away from sandbox 6 on sieve plate 703, the molding sand of size qualification reclaims by belt conveyor in the below of sieve plate 703, connecting rod 707 other end is fixed on the bottom of delivery chute 701, and connecting rod 707 and support spring 706 are symmetrical set, and because connecting rod 707 is a straight-bar, relative slab structure, the elasticity of straight-bar is better, is more suitable for as the support member in vibration processes.In the present embodiment, supporting mechanism comprises the combination of four pairs of support springs 706 and connecting rod 707, the combination of four pairs of support springs 706 and connecting rod 707 is evenly distributed along the length direction bottom delivery chute 701, can stably play a supporting role to delivery chute 701, wherein, the combination of a pair support spring 706 and connecting rod 707 comprises a symmetrical support spring 706 and a connecting rod 707.Vibrating mechanism comprises eccentric wheel 704, eccentric wheel rotating shaft 710, eccentric shaft bearing and motor 705, and motor 705 is installed on delivery chute base 702, and the output shaft of this motor 705 is provided with output wheel, and this output wheel is connected with eccentric wheel 704 by belt; Eccentric shaft bearing is arranged on bottom delivery chute 701, this eccentric shaft bearing is provided with eccentric wheel rotating shaft 710, eccentric wheel 704 is removably mounted in eccentric wheel rotating shaft 710, in prior art, the Oscillation Amplitude of vibrating mechanism can not regulate mostly, and in the present embodiment, because eccentric wheel 704 is removably mounted in eccentric wheel rotating shaft 710, the eccentric wheel 704 therefore by changing different size regulates the Oscillation Amplitude of vibrating mechanism easily, meets the different demands of actual production.Sieve plate 703 is provided with block material plate 709 along its width, block material plate 709 mainly plays and stops foundry goods along with the directional vibration of delivery chute 701 to the function of the direction movement away from sandbox 6, be convenient to lifting machine convenient, in time foundry goods is taken away, the setting of block material plate 709 simultaneously can not hinder again the movement of molding sand, therefore in the present embodiment, block material plate 709 is identical with the inclination angle of support spring 706, block material plate 709 is 30 ~ 45 ° (getting 30 ° in concrete the present embodiment) with the angle of vertical line, block material plate 709 arranges identical with the inclination angle of support spring 706, block material plate 709 is set to 30 ~ 45 ° with the angle of vertical line and ensure that block material plate 709 can stop the movement of foundry goods effectively, molding sand can be made again successfully to cross block material plate 709, in order to ensure the effect stopping foundry goods movement, block material plate 709 comprises the first block material plate and the second block material plate, sieve plate 703 is provided with the first block material plate successively along material input 711 to the direction of material output 712, second block material plate, first block material plate, second block material plate is evenly distributed along the length direction of sieve plate 703, on sieve plate 703 between material input 711 and the first block material plate, through-hole aperture is 5 ~ 10mm (getting 5mm in concrete the present embodiment), on sieve plate 703 between first block material plate and the second block material plate, through-hole aperture is 10 ~ 15mm (getting 10mm in concrete the present embodiment), on sieve plate 703 between second block material plate and material output 712, through-hole aperture is 15 ~ 20mm (getting 15mm in concrete the present embodiment), on sieve plate 703, more away from the position in direction, material input 711 place, material is more of a specified duration by the time vibrated above, therefore on sieve plate 703, more away from the position in direction, material input 711 place, large granular impurity is more easily shattered into granule with out-of-size molding sand and falls into below sieve plate 703, in the present embodiment by the via design on sieve plate 703 for reduce gradually along material input 711 to material output 712 direction, then effectively can avoid the appearance of the problems referred to above.

In the present embodiment, drive delivery chute 701 to vibrate along a direction by vibrating mechanism, thus while making the molding sand on sieve plate 703 that directed conveying occur, molding sand is filtered, thus effectively remove the impurity be mixed in molding sand, avoid adopting artificial separation, improve production efficiency.

The wearing piece casting mould turnover sand fallout system of the present embodiment, its use procedure is as follows: as shown in Figure 1, sandbox 6 after moulding by casting is transported on base 5, sandbox 6 arrives on the turning arm pulley 108 in turning arm main body along base pulley 501 slip under the lasting promotion pushing arm 401, sandbox 6 continues the side plate sliding to turning arm main body on turning arm pulley 108, now before sandbox 6, cross slider 601 on rear outer wall slips into the track formed between entablature 106 and sill 107 in sandbox cover 109, until the bottom surface of sandbox 6 is positioned on the lower shoe of turning arm main body completely, now sandbox 6 is installed on turning arm 1, then, telescopic arm 3 starts to extend, promote turning arm 1 slowly rise and keep rotating, because rotating shaft 104 and telescopic arm 3 are connected, therefore rotating shaft 104 is along with the rotation maintenance synchronous axial system of turning arm 1, as shown in Figure 2, in rotating shaft 104 rotation process, rotating disc 105 synchronously rotates, rotating disc 105 rotates 105 ° successively, 120 ° and 135 °, above-mentioned three angles are three limit points of turning arm 1 rotational angle, inductive switch 201 is made to sense the first sensor block 101 successively, second sensor block 102 and the 3rd sensor block 103, when inductive switch 201 senses the first sensor block 101, inductive switch 201 controls telescopic arm 3 and stops extending and continue elongation after keeping 2min, when inductive switch 201 senses the second sensor block 102, inductive switch 201 controls telescopic arm 3 and stops extending and continue elongation after keeping 1min, when inductive switch 201 senses the 3rd sensor block 103, inductive switch 201 controls telescopic arm 3 and stops extending and start contraction after keeping 5min, turning arm 1 is made to be turned back to home position, wherein: when turning arm 1 rotates 105 ° and after keeping 2min, molding sand in sandbox 6 is about eliminated 70%, when turning arm 1 rotates 120 ° and after keeping 1min, molding sand in sandbox 6 is about eliminated 90%, when turning arm 1 rotates 135 ° and after keeping 5min, molding sand in sandbox 6 is completely removed, after turning arm 1 is turned back to home position, sandbox 6 slides into base 5 from turning arm 1 under the lasting promotion of pushing arm 402, is then transported to away.

As shown in Figure 3, sandbox 6 is along with in turning arm 1 rotation process, the material input 711 of sand fallout device 7 poured into by molding sand in sandbox 6 and foundry goods along sandbox cover 109 from the upper shed of sandbox 6, molding sand and foundry goods transport along material input 711 to the vibration of the direction of material output 712 on sieve plate 703, vibration transportation Sand loose and on sieve plate 703 the through hole that shaken falls into below sieve plate 703 and collects, and foundry goods is by the first block material plate, the second block material plate resistance gear being taken away in delivery chute 701 by lifting machine.

Flask overturning device in the present embodiment, turning arm 1 is propped up rotation by the elongation of telescopic arm 3, by inductive switch 201 respectively with the induction of the first sensor block 101, second sensor block 102 and the 3rd sensor block 103, control turning arm 1 point to rotate for three times, namely sandbox 6 points of three mould turnovers are allowed, namely avoid occurring because of lasting upset in sandbox 6 switching process falling instantaneously the situation of sand, what ensure that in sandbox 6 switching process is safe and reliable, the molding sand in sandbox 6 all can be removed again, flask overturning device of the prior art is side turn over substantially, namely from the side of sandbox 6, sandbox 6 is overturn, but although this upset mode simple to operate be difficult to ensure disposable by whole for the molding sand in sandbox 6 evacuation, add the workload of subsequent artefacts's sand removal, and the flask overturning device in the present embodiment, turning arm 1 is promoted with the pin joint of turning arm 1 and frame 2 for doing circular-rotation in the center of circle by telescopic arm 3, the whole upper shed of sandbox 6 is tilted to down, can ensure disposable by whole for the molding sand in sandbox 6 evacuation, decrease labor workload, and rotate owing to adopting hydraulic cylinder (telescopic arm 3) to promote turning arm 1, power is sufficient, sandbox 6 angle of inclination is large, accurate positioning, compare the side turn over flask overturning device of existing use reducing motor, average saving energy consumption 30%.

Sand fallout device 7 in the present embodiment, utilize vibrating mechanism that the material in delivery chute 701 is vibrated transport from material input 711 to material output 712, molding sand is slowly movement on sieve plate 703 under the effect of directional vibration, while be filtered, while tiling is come, avoid because the sieve plate 703 of molding sand all the time below sandbox 6 gathering and affecting the problem of sieve plate 703 filter efficiency, sieve plate 703 is provided with block material plate 709 along its width, block material plate 709 mainly plays the function stopping foundry goods movement, be convenient to lifting machine convenient, in time foundry goods is taken away, in sum, sand fallout device 7 in the present embodiment is applicable to carrying out sand fallout operation in enormous quantities.

Embodiment 2

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

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

Embodiment 3

The wearing piece casting mould turnover sand fallout system of the present embodiment, its structure is substantially the same manner as Example 1, its difference is: be not mixed into short grained metal impurities in order to ensure in the molding sand be recovered, magnetic separator is provided with above material input 711, magnetic separator is used for the molding sand entered in delivery chute 701 to carry out magnetic separation process, removes the metal impurities of molding sand small particles; In order to improve on-the-spot working environment, avoid air pollution, also dust shield is provided with above delivery chute 701, dust shield plays the effect absorbing dust laden air above delivery chute 701, not only heat is large for the foundry goods simultaneously just cast, but also some toxic and harmfuls can be given out, dust shield is set and also plays the effect taken away by toxic and harmful.

Schematically above be described the utility model and embodiment thereof, this description does not have restricted, and also just one of the embodiment of the present utility model shown in accompanying drawing, actual structure is not limited thereto.So, if those of ordinary skill in the art enlightens by it, when not departing from the utility model and creating aim, design the frame mode similar to this technical scheme and embodiment without creationary, protection domain of the present utility model all should be belonged to.

Claims (10)

1. a wearing piece sand box used for casting turning device, it is characterized in that: described flask overturning device comprises turning arm (1), frame (2), telescopic arm (3), base (5) and sandbox (6), described frame (2) is fixed on base (5), described turning arm (1) is hinged in frame (2), described telescopic arm (3) is connected with turning arm (1), and this telescopic arm (3) is that the center of circle is rotated for promoting turning arm (1) with turning arm (1) and the pin joint of frame (2); Described turning arm (1) is for installing sandbox (6).

2. wearing piece sand box used for casting turning device according to claim 1, it is characterized in that: described turning arm (1) comprises the sandbox cover (109) on top and the turning arm main body of bottom, described turning arm main body comprises a lower shoe and side plate, the lower end of described side plate is vertically connected on lower shoe, the upper end of described side plate is connected on sandbox cover (109), the passage that this sandbox cover (109) is up/down perforation; Described frame (2) is provided with rotating shaft (104), described sandbox cover (109) is rotatably connected in frame (2) by rotating shaft (104).

3. wearing piece sand box used for casting turning device according to claim 2, it is characterized in that: described rotating shaft (104) is fixed with rotating disc (105), this rotating disc (105) outer surface is provided with sensor block, described frame (2) is fixed with inductive switch (201), this inductive switch (201) is just to rotating disc (105) outer surface, and inductive switch (201) is connected with the control unit of telescopic arm (3).

4. wearing piece sand box used for casting turning device according to claim 3, it is characterized in that: described sensor block comprises the first sensor block (101) be circumferentially arranged along rotating disc (105), second sensor block (102) and the 3rd sensor block (103), before described turning arm (1) starts rotation, it is 105 ° with the central angle that rotating shaft (104) point is center of circle inductive switch (201) position and the first sensor block (101) position, the central angle of inductive switch (201) position and the second sensor block (102) position is 120 °, the central angle of inductive switch (201) position and the 3rd sensor block (103) position is 135 °.

5. wearing piece sand box used for casting turning device according to claim 2, it is characterized in that: the forward and backward outer wall of described sandbox (6) is equipped with cross slider (601), the forward and backward inwall of described sandbox cover (109) is provided with respectively entablature (106) and sill (107), described entablature (106) and sill (107) be arranged in parallel up and down, therebetween the track slided for cross slider (601) is formed, one end sealing of this track.

6. wearing piece sand box used for casting turning device according to claim 5, it is characterized in that: uniform turning arm pulley (108) on the lower shoe of described turning arm main body, place the upper uniform base pulley (501) of base (5) of sandbox (6), before described turning arm (1) starts rotation, described turning arm pulley (108) and base pulley (501) are positioned at same level.

7. wearing piece sand box used for casting turning device according to claim 2, it is characterized in that: described flask overturning device also comprises and pushes arm (401) and pushing arm (402), the described arm (401) that pushes is for pushing turning arm (1) by sandbox (6) from base (5), and described pushing arm (402) is for being pushed out to base (5) by sandbox (6) from turning arm (1).

8. wearing piece sand box used for casting turning device according to claim 7, it is characterized in that: described frame (2) bottom is provided with telescopic arm base (202), described telescopic arm (3) one end is hinged on telescopic arm base (202), and telescopic arm (3) other end is hinged on the upper end of described side plate.

9. wearing piece sand box used for casting turning device according to claim 7, is characterized in that: described in push arm (401) and pushing arm (402) is cylinder or hydraulic cylinder, described telescopic arm (3) is hydraulic cylinder.

10. wearing piece sand box used for casting turning device according to claim 9, it is characterized in that: before described turning arm (1) starts rotation, the upper end of described sandbox cover (109) is to the inclined downward away from sand fallout device (7) side.