CN103128234A - Core shooter system capable of automatically delivering send - Google Patents
Core shooter system capable of automatically delivering send Download PDFInfo
- Publication number
- CN103128234A CN103128234A CN2013100654472A CN201310065447A CN103128234A CN 103128234 A CN103128234 A CN 103128234A CN 2013100654472 A CN2013100654472 A CN 2013100654472A CN 201310065447 A CN201310065447 A CN 201310065447A CN 103128234 A CN103128234 A CN 103128234A
- Authority
- CN
- China
- Prior art keywords
- mentioned
- sand
- chain
- crossbeam
- power transmission
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Images
Landscapes
- Carriers, Traveling Bodies, And Overhead Traveling Cranes (AREA)
- Pusher Or Impeller Conveyors (AREA)
Abstract
The invention discloses a core shooter system capable of automatically delivering send, which comprises a sand mixer, a sand taking cylinder, a sand adding cylinder, an installing machine rack and a core shooter group, the installing machine rack comprises a first crossbeam and a second crossbeam, the sand mixer and the sand taking cylinder are positioned at the lower part of the second crossbeam, the sand adding cylinder is movably mounted on the first crossbeam, a sand receiving drive unit which can life the sand taking cylinder to the second crossbeam and move to the upper part of the feed inlet of the sand adding cylinder is provided on the second crossbeam, a sand adding drive unit used for driving the sand adding cylinder to move to the upper part of the core shooters is provided on the first crossbeam, a sealing door used for sealing the discharge hatch of the sand taking cylinder is provide on the sand taking cylinder, an opening structure used for controlling the opening of the sealing door is provided on the first crossbeam, and a sand discharge apparatus is provided on the sand adding cylinder. Compared with the prior art, the sand receiving operation and the sand adding operation are automatically controlled, the labor intensity of operators is low, the production efficiency is increased, one operator can perform sand adding operation respectively on several core shooters, the working efficiency is high, and the labor cost is reduced.
Description
Technical field
The present invention relates to leading process equipment, relate in particular to a kind of core shooter.
Background technology
Core shooter is the most frequently used plant equipment in tap Mold Making process, and it in use needs core shooter is added the sand operation.At present, the sand operation that adds of core shooter is by manually the sand material being lifted in the charge door that adds core shooter.Yet the fuselage of core shooter is common higher, exists like this problem that adds sand inconvenience in adding the sand process, and adopts and manually to add sand, makes that to add the sand operating efficiency lower, and labor strength is large; Simultaneously every core shooter all needs supporting one to add the sand operating personnel, like this, if also need dispose in factory building when disposing some core shooters in factory building with the corresponding setting of core shooter add the sand operator, thereby cause the high problem of artificial use cost.
In view of this, the inventor conducts in-depth research the problems referred to above, is then produced by this case.
Summary of the invention
The purpose of this invention is to provide a kind of core shooter system that automatically send sand, have labor strength low, add the advantage of sand high efficiency, and in the solution prior art, the factory building internal cause is used simultaneously some core shooters and caused the high problem of artificial use cost.
technical scheme of the present invention is such: the core shooter system that automatically send sand, include a puddle mixer, one with advancing, the sand tube of discharging opening, one with advancing, discharging opening add the sand cylinder, one installation frame and a core shooting group of planes, an above-mentioned core shooting group of planes comprises some with the core shooter of feeding mouth, each above-mentioned core shooter is arranged side by side into together, above-mentioned installation frame includes to be provided with and fixedly is in each above-mentioned core shooter top, and the first crossbeam that extends along the orientation of each above-mentioned core shooter, with fixedly be in this first crossbeam one end place, and with the mutual vertically disposed second cross beam of above-mentioned first crossbeam, above-mentioned first crossbeam is lower than above-mentioned second cross beam, above-mentioned puddle mixer is located at outside above-mentioned installation frame, above-mentioned puddle mixer and above-mentioned sand tube all are in the below of above-mentioned second cross beam, and the charging aperture of above-mentioned sand tube is undertaken in the output of above-mentioned puddle mixer, the above-mentioned sand cylinder that adds is movably installed in an above-mentioned first crossbeam end place adjacent with above-mentioned second cross beam, above-mentioned second cross beam is provided with and above-mentioned sand tube can be promoted to above-mentioned second cross beam place, and connect the sand drive unit along above-mentioned second cross beam with what above-mentioned sand tube moved to the above-mentioned charging aperture top that adds the sand cylinder, above-mentioned first crossbeam be provided with drive above-mentioned add that charging aperture that top that the sand cylinder moves to each above-mentioned core shooter makes above-mentioned core shooter and the above-mentioned discharging opening that adds the sand cylinder accept mutually add the sand drive unit, above-mentioned sand tube is provided with the discharging opening of this sand tube of shutoff, and the hermatic door of movable unlatching, the end place that above-mentioned first crossbeam is adjacent with above-mentioned second cross beam is provided with and controls the opening structure that above-mentioned hermatic door is opened, the above-mentioned sand cylinder that adds is provided with the device that shakes out that the above-mentioned discharging opening that adds the sand cylinder of control shakes out.
above-mentioned sand tube and the above-mentioned sand cylinder that adds are the from top to bottom trapezoidal cylindrical shell of convergent, the two ends up and down of above-mentioned trapezoidal cylindrical shell are all opening-like, the upper end port of above-mentioned trapezoidal cylindrical shell is above-mentioned charging aperture, the lower end port of above-mentioned trapezoidal cylindrical shell is above-mentioned discharging opening, the bar shaped installing plate that the lower end of above-mentioned sand tube is installed with the lower end port below that is in above-mentioned sand tube and extends along the length direction of above-mentioned second cross beam, offer the sand export corresponding with the discharging opening of above-mentioned sand tube on above-mentioned bar shaped installing plate, the bottom surface both sides of above-mentioned bar shaped installing plate are installed with respectively the guiding slide bar that extends along the length direction of above-mentioned bar shaped installing plate, the intrinsic slide block that slides along above-mentioned guiding slide bar of the outer all movable sleeves of two above-mentioned guiding slide bars, be equipped with back-moving spring on two above-mentioned slide blocks, one end of above-mentioned back-moving spring is fixed on above-mentioned slide block, the other end of above-mentioned back-moving spring is fixed on an end place of above-mentioned bar shaped installing plate bottom surface, be provided with the sealing connecting plate of the above-mentioned sand export of shutoff between two above-mentioned slide blocks, above-mentioned sealing connecting plate is above-mentioned hermatic door, what above-mentioned opening structure comprised the push rod that can promote above-mentioned hermatic door and was used for the access sand body connects the sand plate, above-mentioned sand plate and the above-mentioned push rod of connecing arranges at the interval side by side along the width of above-mentioned second cross beam, and an above-mentioned end that connects sand plate and above-mentioned push rod is fixed on above-mentioned first crossbeam, and the above-mentioned other end of sand plate and above-mentioned push rod that connects is to above-mentioned sealing connecting plate.
the above-mentioned sand drive unit that connects comprises the first slide block, be arranged on lifting lifting device and transverse shifting control device on above-mentioned the first slide block, above-mentioned the first slide block comprises the first upper slide, the first lower skateboard and be connected with the first side connecting plate between the first upper slide and the first lower skateboard, above-mentioned the first side connecting plate is in a side of above-mentioned the first upper slide and above-mentioned the first lower skateboard, above-mentioned the first upper slide is attached at the upper surface of above-mentioned second cross beam, above-mentioned the first lower skateboard is attached at the bottom surface of above-mentioned second cross beam, above-mentioned second cross beam is concaved with the first horizontal slide rail that extends along the length direction of above-mentioned second cross beam on a side side of above-mentioned the first side connecting plate, above-mentioned transverse shifting control device is installed on above-mentioned the first side connecting plate.
Above-mentioned lifting lifting device comprises lifting drive motors and lifting rope, above-mentioned lifting drive motors accumbency is installed, above-mentioned lifting drive motors is Dual-output shaft motor, above-mentioned lifting rope and the corresponding setting of the output shaft of above-mentioned lifting drive motors, the axis of above-mentioned lifting drive motors output shaft parallels with the length direction of the above-mentioned first horizontal slide rail, above-mentioned lifting rope is wound on the output shaft of above-mentioned lifting drive motors, and an end of above-mentioned lifting rope is fixed on the output shaft of above-mentioned lifting drive motors, and the other end of above-mentioned lifting rope is fixed on above-mentioned sand tube.
Above-mentioned mounting bracket also includes the vertical beam of the below that is in above-mentioned second cross beam, above-mentioned the first slide block is installed with the mounting blocks that is stacked on end, above-mentioned vertical beam upper end outward, above-mentioned lifting drive motors is fixedly installed on above-mentioned mounting blocks, above-mentioned vertical beam is provided with the vertical slide block that can move up and down along the short transverse of above-mentioned vertical beam, above-mentioned vertical slide block is provided with the pulley contacted with the lateral surface of above-mentioned vertical beam, and the above-mentioned cylinder that connects material is fixedly mounted on above-mentioned vertical slide block.
above-mentioned transverse shifting control device comprises horizontal drive motor, the first sprocket wheel and the first chain, above-mentioned the first chain fixedly is tiled in the above-mentioned first horizontal slide rail, and above-mentioned the first chain extends setting along the length direction of the above-mentioned first horizontal slide rail, above-mentioned horizontal drive motor is fixed on the lateral wall of above-mentioned the first side connecting plate, the axis of above-mentioned horizontal drive motor output shaft, the axis of the axis of above-mentioned the first chain and the above-mentioned first horizontal slide rail is parallel to each other, above-mentioned the first sprocket wheel is located in the above-mentioned first horizontal slide rail, and the top that is in above-mentioned the first chain is meshed with above-mentioned the first chain, above-mentioned horizontal drive motor is connected with above-mentioned the first chain gear transmission by transmission mechanism.
above-mentioned transmission mechanism comprises the first power transmission shaft, second driving shaft, the first bevel gear, the second bevel gear, drive sprocket, driven sprocket and driving chain, above-mentioned the first bevel gear is fixed in outside the output shaft of above-mentioned horizontal drive motor, above-mentioned the second bevel gear is meshed with above-mentioned the first bevel gear, above-mentioned the first power transmission shaft and above-mentioned second driving shaft all are located on above-mentioned the first side connecting plate with rotating mode adjustable shelf and are in space between above-mentioned the first upper slide and above-mentioned the first lower skateboard, and above-mentioned the first power transmission shaft and above-mentioned second driving shaft are spaced apart side by side along the length direction of the above-mentioned first horizontal slide rail, the axial first end of above-mentioned the first power transmission shaft vertically is fixed in the core wheel place of above-mentioned the second bevel gear, axial second end of above-mentioned the first power transmission shaft is in the top of above-mentioned the first chain, the axial first end of above-mentioned second driving shaft is in the top of above-mentioned the first chain, axial second end of above-mentioned second driving shaft stretches to above-mentioned horizontal drive motor, above-mentioned drive chain wheel case is fixed in outside above-mentioned the first power transmission shaft, above-mentioned driven chain wheel case is fixed in outside above-mentioned second driving shaft, above-mentioned driven sprocket and above-mentioned drive sprocket are in transmission connection by above-mentioned driving chain, axial second end of above-mentioned the first power transmission shaft and the axial first end of above-mentioned second driving shaft overlap respectively intrinsic above-mentioned the first sprocket wheel that all is engaged on above-mentioned the first chain outward.
the above-mentioned sand drive unit that adds comprises the second slide block and the control device that moves horizontally that is arranged on the second slide block, above-mentioned the second slide block comprises the second upper slide, the second lower skateboard and be connected with the second side connecting plate between the second upper slide and the second lower skateboard, above-mentioned the second side connecting plate is in a side of above-mentioned the second upper slide and above-mentioned the second lower skateboard, above-mentioned the second upper slide is attached at the upper surface of above-mentioned first crossbeam, above-mentioned the second lower skateboard is attached at the bottom surface of above-mentioned first crossbeam, above-mentioned first crossbeam is concaved with the horizontal cross slide rail that extends along the length direction of above-mentioned first crossbeam on the side of above-mentioned the second side connecting plate, the above-mentioned control device that moves horizontally is installed on above-mentioned the second side connecting plate, the above-mentioned sand cylinder that adds is packed in above-mentioned the second side connecting plate dorsad on the side of above-mentioned first crossbeam.
the above-mentioned control device that moves horizontally comprises the horizontal drive motor, the second sprocket wheel and the second chain, above-mentioned the second chain fixedly is tiled in above-mentioned horizontal cross slide rail, and above-mentioned the second chain extends setting along the length direction of above-mentioned horizontal cross slide rail, above-mentioned horizontal drive motor is fixed on the lateral wall of above-mentioned the second side connecting plate, the axis of above-mentioned horizontal drive motor output shaft, the axis of the axis of above-mentioned the second chain and above-mentioned horizontal cross slide rail is parallel to each other, above-mentioned the second sprocket wheel is located in above-mentioned horizontal cross slide rail, and the top that is in above-mentioned the second chain is meshed with above-mentioned the second chain, above-mentioned horizontal drive motor is connected with above-mentioned the second chain gear transmission by transmission mechanism, this transmission mechanism comprises the 3rd power transmission shaft, the 4th power transmission shaft, the third hand tap gear, the 4th bevel gear, the first drive sprocket, the first driven sprocket and the first driving chain, above-mentioned triconodont wheel is fixed in outside the output shaft of above-mentioned horizontal drive motor, above-mentioned the 4th bevel gear is meshed with above-mentioned third hand tap gear, above-mentioned the 3rd power transmission shaft and above-mentioned the 4th power transmission shaft all are located on above-mentioned the second side connecting plate with rotating mode adjustable shelf and are in space between above-mentioned the second upper slide and above-mentioned the second lower skateboard, and above-mentioned the 3rd power transmission shaft and above-mentioned the 4th power transmission shaft are spaced apart side by side along the length direction of above-mentioned horizontal cross slide rail, the axial first end of above-mentioned the 3rd power transmission shaft vertically is fixed in the core wheel place of above-mentioned third hand tap gear, axial second end of above-mentioned the 3rd power transmission shaft is in the top of above-mentioned the second chain, the axial first end of above-mentioned the 4th power transmission shaft is in the top of above-mentioned the second chain, axial second end of above-mentioned the 4th power transmission shaft stretches to above-mentioned horizontal drive motor, above-mentioned the first drive chain wheel case is fixed in outside above-mentioned the 3rd power transmission shaft, above-mentioned the first driven chain wheel case is fixed in outside above-mentioned the 4th power transmission shaft, above-mentioned the first driven sprocket and above-mentioned the first drive sprocket are in transmission connection by above-mentioned the first driving chain, axial second end of above-mentioned the 3rd power transmission shaft and the axial first end of above-mentioned the 4th power transmission shaft overlap respectively intrinsic above-mentioned the second sprocket wheel that all is engaged on above-mentioned the second chain outward.
the above-mentioned device that shakes out comprises sand belt and drive motors, the above-mentioned bottom that adds the sand cylinder is provided with the bar shaped bottom plate that extends along the length direction of above-mentioned first crossbeam, offer the port that communicates with the above-mentioned discharging opening that adds the sand cylinder on above-mentioned bar shaped bottom plate, the two ends of above-mentioned bar shaped bottom plate bottom surface are separately installed with rotating belt roller, above-mentionedly go out sand belt and be set around on two above-mentioned belt rollers, and the above-mentioned throughput direction that goes out sand belt is identical with the length direction of above-mentioned first crossbeam, above-mentionedly go out the width of sand belt greater than the bore of above-mentioned port, above-mentioned drive motors is fixed on the upper surface of above-mentioned bar shaped bottom plate, the above-mentioned belt roller of above-mentioned drive motors and one is in transmission connection.
after adopting technique scheme, automatically the core shooter system that send sand of the present invention, during use, the sand material of puddle mixer output can flow in sand tube, after sand tube takes the sand material, by connecing the sand drive unit, sand tube is promoted to the second cross beam place, and add sand cylinder top along what second cross beam moved to first crossbeam one end place, this moment, the discharging opening of sand tube was in the charging aperture top that adds the sand cylinder, the opening structure at first crossbeam place is opened the hermatic door of sand tube, the discharging opening conducting of sand tube, sand material in sand tube is fallen into to adding in the sand cylinder with the feeding mouth that adds the sand cylinder through the discharging opening of sand tube, when the sand material in sand tube is all fallen into after add in the sand cylinder, adding the sand drive unit drives and to add the sand cylinder and back and forth move horizontally along the length direction of first crossbeam, and the discharging opening that adds the sand cylinder is in the feeding mouth top of core shooter, when the one core shooter in a core shooting group of planes need add sand, add the feeding mouth top that the sand cylinder namely rests on this core shooter, and will add by sanding device the feeding mouth top that sand material in the sand cylinder adds this core shooter, the sand that automatically adds that can complete like this core shooter operates.Compare with existing skill, connect the sand operation and add the sand operation and control by automation fully, greatly reduce workman's labour intensity, improve production efficiency, simultaneously, added the sand cylinder by the shared puddle mixer of some core shooters, a sand tube and, can make a bit manipulation workman add respectively the sand operation to some core shooters simultaneously, need not every core shooter and set an operator, improved employment efficient, reduced artificial use cost.
Description of drawings
Fig. 1 is structural representation of the present invention (omits sand tube and add the sand cylinder);
Fig. 2 is another structural representation of the present invention;
Fig. 3 is mounting bracket, sand tube and add the structural representation of sand cylinder in the present invention;
Fig. 4 is the structural representation of sand tube and second cross beam in the present invention;
Fig. 5 is the structural representation of sand tube and another state of second cross beam in the present invention;
Fig. 6 is the stereogram of sand tube in the present invention;
The structural representation of transverse shifting control device in Fig. 7 the present invention (omitting the first chain);
Fig. 8 adds the structural representation of sand cylinder and first crossbeam in the present invention;
Fig. 9 is the structural representation that adds sand cylinder and another angle of first crossbeam in the present invention;
Figure 10 is the structural representation (omitting the second chain) that moves horizontally control device in the present invention.
The specific embodiment
Automatically the core shooter system that send sand of the present invention, as shown in Fig. 1-10, include a puddle mixer 1, with the sand tube 2, of charging and discharging mouth with the charging and discharging mouth add sand cylinder 3, one installation frames 4 and a core shooting group of planes 100, wherein:
this core shooting group of planes 100 comprises some with the core shooter 10 of feeding mouth, each core shooter 10 is arranged side by side into together, this installation frame 4 includes to be provided with and fixedly is in each core shooter 10 tops, and the first crossbeam 41 that extends along the orientation of each core shooter 10, with fixedly be in this first crossbeam 41 1 end places, and with the mutual vertically disposed second cross beam 42 of first crossbeam 41, first crossbeam 41 is lower than second cross beam 42, this first crossbeam 41 is fixed in the top of each core shooter 10 by column (not shown in FIG.), second cross beam 42 is by the unsettled setting of column (not shown in FIG.), this puddle mixer 1 is located at outside installation frame 4, puddle mixer 1 and sand tube 2 all are in the below of second cross beam 42, and the charging aperture of sand tube 2 is undertaken in the output of puddle mixer 1, add sand cylinder 3 and be movably installed in first crossbeam 41 an end place adjacent with second cross beam 42, and second cross beam 42 is provided with and sand tube 2 can be promoted to second cross beam 42 places, and along second cross beam 42, sand tube 2 is moved to the charging aperture top that adds sand cylinder 3 connect the sand drive unit, first crossbeam 41 be provided with drive add that top that sand cylinder 3 moves to each core shooter 10 charging aperture that makes core shooter 10 and the discharging opening that adds sand cylinder 3 accept mutually add the sand drive unit, sand tube 2 is provided with the discharging opening of this sand tube 2 of shutoff, and the hermatic door 5 of movable unlatching, the end place that first crossbeam 41 is adjacent with second cross beam 42 is provided with and controls the opening structure that hermatic door 5 is opened, adding sand cylinder 3 is provided with and controls the device that shakes out that the discharging opening add sand cylinder 3 shakes out.
this sand tube 2 with add sand cylinder 3 and be the from top to bottom trapezoidal cylindrical shell of convergent, the two ends up and down of trapezoidal cylindrical shell are all opening-like, and the upper end port of trapezoidal cylindrical shell is described charging aperture, the lower end port of trapezoidal cylindrical shell is described discharging opening, the bar shaped installing plate 21 that the lower end of this sand tube 2 is installed with the lower end port below that is in sand tube 2 and extends along the length direction of second cross beam 42, offer the sand export corresponding with the discharging opening of sand tube 2 (not shown in FIG.) on bar shaped installing plate 21, the bottom surface both sides of bar shaped installing plate 21 are installed with respectively the guiding slide bar 211 that extends along the length direction of bar shaped installing plate 21, the two intrinsic slide blocks 212 that slide along guiding slide bar 211 of the outer equal movable sleeve of guiding slide bar 211, be equipped with back-moving spring 213 on two slide blocks 212, one end of back-moving spring 213 is fixed on slide block 212, the other end of back-moving spring 213 is fixed on an end place of bar shaped installing plate 21 bottom surfaces, be provided with the sealing connecting plate of the sand export of shutoff bar shaped mounting blocks 21 between two slide blocks 212, this sealing connecting plate is described hermatic door 5, what described opening structure comprised the push rod 61 that can promote hermatic door 5 and was used for the access sand body connects sand plate 62, connect sand plate 62 and push rod 61 along the width interval setting side by side of second cross beam 42, and push rod 61 is fixed on first crossbeam 41 by column with an end that connects sand plate 62, push rod 61 and the other end that connects sand plate 62 be to hermatic door 5, and push rod 61 and connecing in the spacings of sand plate 62 between two guiding slide bars 211.
the described sand drive unit that connects comprises the first slide block 71, be arranged on lifting lifting device and transverse shifting control device on the first slide block 71, the first slide block 71 comprises the first upper slide 711, the first lower skateboard 712 and be connected with the first side connecting plate 713 between the first upper slide 711 and the first lower skateboard 712, the first side connecting plate 713 is in a side of the first upper slide 711 and the first lower skateboard 712, and the first side connecting plate 713, the first upper slide 711 and the first lower skateboard 712 are one-body molded, this the first upper slide 711 is attached at the upper surface of second cross beam 42, the first lower skateboard 712 is attached at the bottom surface of second cross beam 42, second cross beam 42 is concaved with the first horizontal slide rail 421 that extends along the length direction of second cross beam 42 on the side of the first side connecting plate 713, this lifting lifting device comprises lifting drive motors 721 and lifting rope 722, 721 accumbency of lifting drive motors are installed, this lifting drive motors 721 is Dual-output shaft motor, lifting rope 722 and the corresponding setting of the output shaft of lifting drive motors 721, the axis of lifting drive motors 721 output shafts parallels with the length direction of the first horizontal slide rail 421, lifting rope 722 is wound on the output shaft of lifting drive motors 721, and an end of lifting rope 722 is fixed on the output shaft of lifting drive motors 721, the other end of lifting rope 722 is fixed on sand tube 2.Lifting lifting device of the present invention, the positive and negative rotation of lifting drive motors 721 can drive the folding and unfolding action of lifting rope 722, and the folding and unfolding action of lifting rope 722 can drive sand tube 2 oscilaltions and move; The drive motors of lifting simultaneously 721 is Dual-output shaft motor, and lifting rope 722 and the corresponding setting of the output shaft of lifting drive motors 721 like this, make the oscilaltion of sand tube 2 realize by two lifting ropes 722, make the oscilaltion of sand tube 2 move comparatively steady.
described transverse shifting control device is installed on the first side connecting plate 713, this transverse shifting control device comprises horizontal drive motor 731, the first sprocket wheel 732 and the first chain 733, the first chain 733 fixedly is tiled in the first horizontal slide rail 421, and the first chain 733 extends setting along the length direction of the first horizontal slide rail 421, horizontal drive motor 731 is fixed on the lateral wall of above-mentioned the first side connecting plate 713, the axis of horizontal drive motor 731 output shafts, the axis of the axis of the first chain 733 and the first horizontal slide rail 421 is parallel to each other, the first sprocket wheel 732 is located in the first horizontal slide rail 421, and the top that is in the first chain 733 is meshed with the first chain 733, horizontal drive motor 731 is in transmission connection by transmission mechanism and the first sprocket wheel 732, during this transverse shifting control device work, horizontal drive motor 731 starts, horizontal drive motor 731 drives the first sprocket wheel 732 through transmission mechanism and rotates, this moment first, sprocket wheel 732 rotated, the first chain 733 of being meshed of the first sprocket wheel 732 maintains static therewith, like this, the first sprocket wheel 732 can be mobile in the first chain 733 engagements along the length direction of the first chain 733, thereby driving the first side connecting plate 713 moves along the length direction of the first chain 733, and then the first slide block 71 can be slided along the length direction horizontal reciprocating of second cross beam 42, be that sand tube 2 can move back and forth along the length direction of second cross beam 42.
this transmission mechanism comprises the first power transmission shaft 741, second driving shaft 742, the first bevel gear 743, the second bevel gear 744, drive sprocket 745, driven sprocket 746 and driving chain 747, the first bevel gear 743 is fixed in outside the output shaft of horizontal drive motor 731, the second bevel gear 744 is meshed with the first bevel gear 743, the first power transmission shaft 741 and second driving shaft 742 all be located on the first side connecting plate 713 with rotating mode adjustable shelf and be in the first upper slide 711 and the first lower skateboard 712 between the space in, and the first power transmission shaft 741 is spaced apart side by side along the length direction of the first horizontal slide rail 421 with second driving shaft 742, the axial first end of the first power transmission shaft 741 vertically is fixed in the core wheel place of the second bevel gear 744, axial second end of the first power transmission shaft 741 is in the top of the first chain 733, the axial first end of second driving shaft 742 is in the top of the first chain 733, axial second end of second driving shaft 742 stretches to horizontal drive motor 731, drive sprocket 745 covers are fixed in outside the first power transmission shaft 74, driven sprocket 746 covers are fixed in outside second driving shaft 742, driven sprocket 746 is in transmission connection by the driving chain 747 of winding outside driven sprocket 746 and drive sprocket 745 with drive sprocket 745, and axial second end of the first power transmission shaft 741 and the axial first end of second driving shaft 742 overlap respectively intrinsic the first sprocket wheel 732 that all is engaged on the first chain 733 outward.This transmission mechanism makes horizontal drive motor 731 can drive two first sprocket wheels 732 and synchronously rotates on the first chain 733, and like this, the slip that drives the first slide block 71 by two first sprocket wheels 732 is comparatively laborsaving, has improved transmission efficiency.
the described sand drive unit that adds comprises the second slide block 81 and the control device that moves horizontally that is arranged on the second slide block 81, this second slide block 81 comprises the second upper slide 811, the second lower skateboard 812 and be connected with the second side connecting plate 813 between the second upper slide 811 and the second lower skateboard 812, the second side connecting plate 813 is in a side of the second upper slide 811 and the second lower skateboard 812, the second side connecting plate 813, the second upper slide 811 and the second lower skateboard 812 are one-body molded, the second upper slide 811 is attached at the upper surface of first crossbeam 41, the second lower skateboard 812 is attached at the bottom surface of first crossbeam 41, first crossbeam 41 is concaved with the horizontal cross slide rail 411 that extends along the length direction of first crossbeam 41 on the side of the second side connecting plate 813, add sand cylinder 3 and be packed in the second side connecting plate 813 dorsad on the side of first crossbeam 41, moving horizontally control device is installed on the second side connecting plate 813.
the described control device that moves horizontally comprises horizontal drive motor 821, the second sprocket wheel 822 and the second chain 823, the second chain 823 fixedly is tiled in horizontal cross slide rail 411, and the second chain 823 extends setting along the length direction of horizontal cross slide rail 411, horizontal drive motor 821 is fixed on the lateral wall of the second side connecting plate 813, the axis of horizontal drive motor 821 output shafts, the axis of the axis of the second chain 823 and horizontal cross slide rail 411 is parallel to each other, the second sprocket wheel 822 is located in horizontal cross slide rail 411, and the top that is in the second chain 823 is meshed with the second chain 823, horizontal drive motor 821 is in transmission connection by transmission mechanism and the second sprocket wheel 822.when this moves horizontally control device work, horizontal drive motor 821 starts, horizontal drive motor 821 drives the second sprocket wheel 822 through transmission mechanism and rotates, this moment second, sprocket wheel 822 rotated, the second chain 823 of being meshed of the second sprocket wheel 822 maintains static therewith, like this, the second sprocket wheel 822 can be mobile in the second chain 823 engagements along the length direction of the second chain 823, thereby driving the second side connecting plate 813 moves along the length direction of the second chain 823, and then the second slide block 81 can be slided along the length direction horizontal reciprocating of first crossbeam 41, namely add sand cylinder 3 and can do the horizontal reciprocating slip along the length direction of first crossbeam 41.
this transmission mechanism comprises the 3rd power transmission shaft 831, the 4th power transmission shaft 832, third hand tap gear 833, the 4th bevel gear 834, the first drive sprocket 835, the first driven sprocket 836 and the first driving chain 837, third hand tap gear 833 is fixed in outside the output shaft of horizontal drive motor 821, the 4th bevel gear 834 is meshed with third hand tap gear 833, the 3rd power transmission shaft 831 and the 4th power transmission shaft 832 all be located on the second side connecting plate 813 with rotating mode adjustable shelf and be in the second upper slide 811 and the second lower skateboard 812 between the space in, and the 3rd power transmission shaft 831 and the 4th power transmission shaft 832 are spaced apart side by side along the length direction of horizontal cross slide rail, the axial first end of the 3rd power transmission shaft 831 vertically is fixed in the core wheel place of third hand tap gear 833, axial second end of the 3rd power transmission shaft 831 is in the top of the second chain 823, the axial first end of the 4th power transmission shaft 832 is in the top of the second chain 823, axial second end of the 4th power transmission shaft 832 stretches to horizontal drive motor 821, the first drive sprocket 835 covers are fixed in outside the 3rd power transmission shaft 831, the first driven sprocket 836 covers are fixed in outside the 4th power transmission shaft 832, the first driven sprocket 836 and the first drive sprocket 835 are in transmission connection by first driving chain 837 of winding outside the first driven sprocket 836 and the first drive sprocket 835, axial second end of the 3rd power transmission shaft 831 and the axial first end of the 4th power transmission shaft 832 overlap respectively intrinsic the second sprocket wheel 822 that all is engaged on the second chain 823 outward.This transmission mechanism makes horizontal drive motor 821 can drive two second sprocket wheels 822 and synchronously rotates on the second chain 823, and like this, the slip that drives the second slide block 81 by two second sprocket wheels 822 is comparatively laborsaving, has improved transmission efficiency.
the described device that shakes out comprises sand belt 91 and drive motors 92, the bottom that adds sand cylinder 3 is provided with the bar shaped bottom plate 31 that extends along the length direction of first crossbeam 41, offer the port that communicates with the discharging opening that adds sand cylinder 3 on bar shaped bottom plate 31, the two ends of this bar shaped bottom plate 31 are separately installed with rotating belt roller 93, going out sand belt 91 is set around on two belt rollers 93, and the throughput direction that goes out sand belt 91 is identical with the length direction of first crossbeam 41, go out the width of sand belt 91 greater than the bore of the port of bar shaped bottom plate 31, drive motors 92 is fixed on the upper surface of bar shaped bottom plate 31, drive motors 92 is in transmission connection by driving chain 94 and one belt roller 93, be that the output of drive motors 92 and an end of this belt roller 93 all overlap intrinsic travelling gear outward, be in transmission connection by the driving chain 94 that is set around on two travelling gears between two travelling gears.
automatically the core shooter system that send sand of the present invention, during use, the sand material of puddle mixer 1 output can flow in sand tube 2, after sand tube 2 takes the sand material, lifting lifting device on the first slide block 71 is controlled sand tube 2 and upwards is promoted on the first slide block 71, be affixed with the first slide block 71, the transverse shifting control device of the first slide block 71 was controlled the first slide block 71 again and was moved to the direction that adds sand cylinder 3 this moment, when moving to, sand tube 2 adds sand cylinder 3 when other, push rod 61 and connect sand plate 62 and be in the spaces of two guiding between slide bars 211, this moment, sand tube 2 continuation were moved to adding sand cylinder 3 directions, push rod 61 heads on hermatic door 5, slide block 212 slides, hermatic door 5 along with slide block 212 to making the progressively conducting of discharging opening of sand tube 2 away from the movement that adds sand cylinder 3 directions, back-moving spring 213 is compressed, simultaneously the discharging opening of sand tube 2 interior a small amount of sand material of sand tube 2 when conducting progressively can be fallen into and connect on sand plate 62, in the time of above sand tube 2 moves to the charging aperture that adds sand cylinder 3, sand tube 2 stops mobile, the complete conducting of the discharging opening of sand tube 2, the sand material of sand tube 2 can be fallen into to adding in sand cylinder 3 with the feeding mouth that adds sand cylinder 3 through the discharging opening of sand tube 2, sand material in sand tube 2 all fall into add sand cylinder 3 interior after, adding sand drive unit and transverse shifting control device starts, the startup of transverse shifting control device makes sand tube 2 to away from the direction return that adds sand cylinder 3, the travelling backwards of sand tube 2 is separated push rod 61 and hermatic door 5, back-moving spring 213 resets, resetting of back-moving spring 213 can make hermatic door 5 discharging opening of shutoff sand tube 2 again, the startup that adds the sand drive unit can be controlled the sand cylinder 3 that adds that has the sand material in it and back and forth move horizontally along the length direction of first crossbeam 41, and the discharging opening that adds sand cylinder 3 is in the feeding mouth top of core shooter 10, like this when the one core shooter 10 in a core shooting group of planes 100 need add sand, add the feeding mouth top that sand cylinder 3 namely rests on this core shooter 10, start the device that shakes out this moment, drive motors 92 is started working, drive motors 92 drives belt roller 93 through driving chain 94 and rotates, the rotation of belt roller 93 drives out sand belt 91 and rotates, the rotation that goes out sand belt 91 this moment can will be fallen into to the sand material that goes out on sand belt 91 and transfers out to the feeding mouth of core shooter 10 through add sand cylinder 3 discharging openings, the sand that automatically adds that can complete like this core shooter operates.Compare with existing skill, connect the sand operation and add the sand operation and control by automation fully, greatly reduce workman's labour intensity, improve production efficiency, simultaneously, added the sand cylinder by the shared puddle mixer of some core shooters, a sand tube and, can make a bit manipulation workman add respectively the sand operation to some core shooters simultaneously, need not every core shooter and set an operator, improved employment efficient, reduced artificial use cost.
in the present invention, described mounting bracket 4 also includes the vertical beam 43 of the below that is in second cross beam 42, the first slide block 71 is outer is installed with the mounting blocks 75 that is stacked on vertical beam 43 ends, upper end, lifting drive motors 721 is fixedly installed on this mounting blocks 75, vertical beam 43 is provided with the vertical slide block 431 that can move up and down along the short transverse of vertical beam 43, the cylinder 2 that connects material is fixedly mounted on vertical slide block 431, vertical slide block 431 is provided with the pulley 432 contacted with the lateral surface of vertical beam 43, like this by vertical slide block 431, the oscilaltion that the cooperation of vertical beam 43 and pulley 432 can be docked barrel 2 is moved and is played guide effect.
In the present invention, this core shooting group of planes 100 can be provided with two, and two core shooting group of planes 100 are oppositely arranged, and be in the two ends of second cross beam 42, this first crossbeam 41, add sand cylinder 3 and be oppositely arranged with a core shooting group of planes 100, be first crossbeam 41 and add sand cylinder 3 and be correspondingly provided with two, like this, one bit manipulation personnel can add to each core shooter 10 to a core shooting group of planes 100 the sand operation, and two core shooting group of planes 100 share a puddle mixer 1 and a sand tube 2, further improve employment efficient and reduced artificial use cost, and having saved the cost of manufacture of core shooter system.
In the present invention, can install one on installation frame 4 extends along the length direction of first crossbeam 41, and be in the other corridor 101 of first crossbeam 41 and go on ladder 102 on this corridor 101 for operating personnel, this ladder 102 and corridor 101 like this, the personnel that are convenient to operation on the one hand are to core shooter 10 and the maintenance that adds sand cylinder 3, and the personnel that also are convenient to operation on the other hand observe the ruuning situation of each core shooter 10.
Above-described embodiment and graphic and non-limiting product form of the present invention and style, any person of an ordinary skill in the technical field all should be considered as not breaking away from patent category of the present invention to its suitable variation or modification of doing.
Claims (10)
1. automatically send the core shooter system of sand, it is characterized in that: include a puddle mixer, one with advancing, the sand tube of discharging opening, one with advancing, discharging opening add the sand cylinder, one installation frame and a core shooting group of planes, an above-mentioned core shooting group of planes comprises some with the core shooter of feeding mouth, each above-mentioned core shooter is arranged side by side into together, above-mentioned installation frame includes to be provided with and fixedly is in each above-mentioned core shooter top, and the first crossbeam that extends along the orientation of each above-mentioned core shooter, with fixedly be in this first crossbeam one end place, and with the mutual vertically disposed second cross beam of above-mentioned first crossbeam, above-mentioned first crossbeam is lower than above-mentioned second cross beam, above-mentioned puddle mixer is located at outside above-mentioned installation frame, above-mentioned puddle mixer and above-mentioned sand tube all are in the below of above-mentioned second cross beam, and the charging aperture of above-mentioned sand tube is undertaken in the output of above-mentioned puddle mixer, the above-mentioned sand cylinder that adds is movably installed in an above-mentioned first crossbeam end place adjacent with above-mentioned second cross beam, above-mentioned second cross beam is provided with and above-mentioned sand tube can be promoted to above-mentioned second cross beam place, and connect the sand drive unit along above-mentioned second cross beam with what above-mentioned sand tube moved to the above-mentioned charging aperture top that adds the sand cylinder, above-mentioned first crossbeam be provided with drive above-mentioned add that charging aperture that top that the sand cylinder moves to each above-mentioned core shooter makes above-mentioned core shooter and the above-mentioned discharging opening that adds the sand cylinder accept mutually add the sand drive unit, above-mentioned sand tube is provided with the discharging opening of this sand tube of shutoff, and the hermatic door of movable unlatching, the end place that above-mentioned first crossbeam is adjacent with above-mentioned second cross beam is provided with and controls the opening structure that above-mentioned hermatic door is opened, the above-mentioned sand cylinder that adds is provided with the device that shakes out that the above-mentioned discharging opening that adds the sand cylinder of control shakes out.
2. the core shooter system that automatically send sand according to claim 1, it is characterized in that: above-mentioned sand tube and the above-mentioned sand cylinder that adds are the from top to bottom trapezoidal cylindrical shell of convergent, the two ends up and down of above-mentioned trapezoidal cylindrical shell are all opening-like, the upper end port of above-mentioned trapezoidal cylindrical shell is above-mentioned charging aperture, the lower end port of above-mentioned trapezoidal cylindrical shell is above-mentioned discharging opening, the bar shaped installing plate that the lower end of above-mentioned sand tube is installed with the lower end port below that is in above-mentioned sand tube and extends along the length direction of above-mentioned second cross beam, offer the sand export corresponding with the discharging opening of above-mentioned sand tube on above-mentioned bar shaped installing plate, the bottom surface both sides of above-mentioned bar shaped installing plate are installed with respectively the guiding slide bar that extends along the length direction of above-mentioned bar shaped installing plate, the intrinsic slide block that slides along above-mentioned guiding slide bar of the outer all movable sleeves of two above-mentioned guiding slide bars, be equipped with back-moving spring on two above-mentioned slide blocks, one end of above-mentioned back-moving spring is fixed on above-mentioned slide block, the other end of above-mentioned back-moving spring is fixed on an end place of above-mentioned bar shaped installing plate bottom surface, be provided with the sealing connecting plate of the above-mentioned sand export of shutoff between two above-mentioned slide blocks, above-mentioned sealing connecting plate is above-mentioned hermatic door, what above-mentioned opening structure comprised the push rod that can promote above-mentioned hermatic door and was used for the access sand body connects the sand plate, above-mentioned sand plate and the above-mentioned push rod of connecing arranges at the interval side by side along the width of above-mentioned second cross beam, and an above-mentioned end that connects sand plate and above-mentioned push rod is fixed on above-mentioned first crossbeam, and the above-mentioned other end of sand plate and above-mentioned push rod that connects is to above-mentioned sealing connecting plate.
3. the core shooter system that automatically send sand according to claim 1, it is characterized in that: the above-mentioned sand drive unit that connects comprises the first slide block, be arranged on lifting lifting device and transverse shifting control device on above-mentioned the first slide block, above-mentioned the first slide block comprises the first upper slide, the first lower skateboard and be connected with the first side connecting plate between the first upper slide and the first lower skateboard, above-mentioned the first side connecting plate is in a side of above-mentioned the first upper slide and above-mentioned the first lower skateboard, above-mentioned the first upper slide is attached at the upper surface of above-mentioned second cross beam, above-mentioned the first lower skateboard is attached at the bottom surface of above-mentioned second cross beam, above-mentioned second cross beam is concaved with the first horizontal slide rail that extends along the length direction of above-mentioned second cross beam on a side side of above-mentioned the first side connecting plate, above-mentioned transverse shifting control device is installed on above-mentioned the first side connecting plate.
4. the core shooter system that automatically send sand according to claim 3, it is characterized in that: above-mentioned lifting lifting device comprises lifting drive motors and lifting rope, above-mentioned lifting drive motors accumbency is installed, above-mentioned lifting drive motors is Dual-output shaft motor, above-mentioned lifting rope and the corresponding setting of the output shaft of above-mentioned lifting drive motors, the axis of above-mentioned lifting drive motors output shaft parallels with the length direction of the above-mentioned first horizontal slide rail, above-mentioned lifting rope is wound on the output shaft of above-mentioned lifting drive motors, and an end of above-mentioned lifting rope is fixed on the output shaft of above-mentioned lifting drive motors, the other end of above-mentioned lifting rope is fixed on above-mentioned sand tube.
5. the core shooter system that automatically send sand according to claim 4, it is characterized in that: above-mentioned mounting bracket also includes the vertical beam of the below that is in above-mentioned second cross beam, above-mentioned the first slide block is installed with the mounting blocks that is stacked on end, above-mentioned vertical beam upper end outward, above-mentioned lifting drive motors is fixedly installed on above-mentioned mounting blocks, above-mentioned vertical beam is provided with the vertical slide block that can move up and down along the short transverse of above-mentioned vertical beam, above-mentioned vertical slide block is provided with the pulley contacted with the lateral surface of above-mentioned vertical beam, and the above-mentioned cylinder that connects material is fixedly mounted on above-mentioned vertical slide block.
6. the core shooter system that automatically send sand according to claim 3, it is characterized in that: above-mentioned transverse shifting control device comprises horizontal drive motor, the first sprocket wheel and the first chain, above-mentioned the first chain fixedly is tiled in the above-mentioned first horizontal slide rail, and above-mentioned the first chain extends setting along the length direction of the above-mentioned first horizontal slide rail, above-mentioned horizontal drive motor is fixed on the lateral wall of above-mentioned the first side connecting plate, the axis of above-mentioned horizontal drive motor output shaft, the axis of the axis of above-mentioned the first chain and the above-mentioned first horizontal slide rail is parallel to each other, above-mentioned the first sprocket wheel is located in the above-mentioned first horizontal slide rail, and the top that is in above-mentioned the first chain is meshed with above-mentioned the first chain, above-mentioned horizontal drive motor is connected with above-mentioned the first chain gear transmission by transmission mechanism.
7. the core shooter system that automatically send sand according to claim 5, it is characterized in that: above-mentioned transmission mechanism comprises the first power transmission shaft, second driving shaft, the first bevel gear, the second bevel gear, drive sprocket, driven sprocket and driving chain, above-mentioned the first bevel gear is fixed in outside the output shaft of above-mentioned horizontal drive motor, above-mentioned the second bevel gear is meshed with above-mentioned the first bevel gear, above-mentioned the first power transmission shaft and above-mentioned second driving shaft all are located on above-mentioned the first side connecting plate with rotating mode adjustable shelf and are in space between above-mentioned the first upper slide and above-mentioned the first lower skateboard, and above-mentioned the first power transmission shaft and above-mentioned second driving shaft are spaced apart side by side along the length direction of the above-mentioned first horizontal slide rail, the axial first end of above-mentioned the first power transmission shaft vertically is fixed in the core wheel place of above-mentioned the second bevel gear, axial second end of above-mentioned the first power transmission shaft is in the top of above-mentioned the first chain, the axial first end of above-mentioned second driving shaft is in the top of above-mentioned the first chain, axial second end of above-mentioned second driving shaft stretches to above-mentioned horizontal drive motor, above-mentioned drive chain wheel case is fixed in outside above-mentioned the first power transmission shaft, above-mentioned driven chain wheel case is fixed in outside above-mentioned second driving shaft, above-mentioned driven sprocket and above-mentioned drive sprocket are in transmission connection by above-mentioned driving chain, axial second end of above-mentioned the first power transmission shaft and the axial first end of above-mentioned second driving shaft overlap respectively intrinsic above-mentioned the first sprocket wheel that all is engaged on above-mentioned the first chain outward.
8. the core shooter system that automatically send sand according to claim 2, it is characterized in that: the above-mentioned sand drive unit that adds comprises the second slide block and the control device that moves horizontally that is arranged on the second slide block, above-mentioned the second slide block comprises the second upper slide, the second lower skateboard and be connected with the second side connecting plate between the second upper slide and the second lower skateboard, above-mentioned the second side connecting plate is in a side of above-mentioned the second upper slide and above-mentioned the second lower skateboard, above-mentioned the second upper slide is attached at the upper surface of above-mentioned first crossbeam, above-mentioned the second lower skateboard is attached at the bottom surface of above-mentioned first crossbeam, above-mentioned first crossbeam is concaved with the horizontal cross slide rail that extends along the length direction of above-mentioned first crossbeam on the side of above-mentioned the second side connecting plate, the above-mentioned control device that moves horizontally is installed on above-mentioned the second side connecting plate, the above-mentioned sand cylinder that adds is packed in above-mentioned the second side connecting plate dorsad on the side of above-mentioned first crossbeam.
9. the core shooter system that automatically send sand according to claim 8, it is characterized in that: the above-mentioned control device that moves horizontally comprises the horizontal drive motor, the second sprocket wheel and the second chain, above-mentioned the second chain fixedly is tiled in above-mentioned horizontal cross slide rail, and above-mentioned the second chain extends setting along the length direction of above-mentioned horizontal cross slide rail, above-mentioned horizontal drive motor is fixed on the lateral wall of above-mentioned the second side connecting plate, the axis of above-mentioned horizontal drive motor output shaft, the axis of the axis of above-mentioned the second chain and above-mentioned horizontal cross slide rail is parallel to each other, above-mentioned the second sprocket wheel is located in above-mentioned horizontal cross slide rail, and the top that is in above-mentioned the second chain is meshed with above-mentioned the second chain, above-mentioned horizontal drive motor is connected with above-mentioned the second chain gear transmission by transmission mechanism, this transmission mechanism comprises the 3rd power transmission shaft, the 4th power transmission shaft, the third hand tap gear, the 4th bevel gear, the first drive sprocket, the first driven sprocket and the first driving chain, above-mentioned triconodont wheel is fixed in outside the output shaft of above-mentioned horizontal drive motor, above-mentioned the 4th bevel gear is meshed with above-mentioned third hand tap gear, above-mentioned the 3rd power transmission shaft and above-mentioned the 4th power transmission shaft all are located on above-mentioned the second side connecting plate with rotating mode adjustable shelf and are in space between above-mentioned the second upper slide and above-mentioned the second lower skateboard, and above-mentioned the 3rd power transmission shaft and above-mentioned the 4th power transmission shaft are spaced apart side by side along the length direction of above-mentioned horizontal cross slide rail, the axial first end of above-mentioned the 3rd power transmission shaft vertically is fixed in the core wheel place of above-mentioned third hand tap gear, axial second end of above-mentioned the 3rd power transmission shaft is in the top of above-mentioned the second chain, the axial first end of above-mentioned the 4th power transmission shaft is in the top of above-mentioned the second chain, axial second end of above-mentioned the 4th power transmission shaft stretches to above-mentioned horizontal drive motor, above-mentioned the first drive chain wheel case is fixed in outside above-mentioned the 3rd power transmission shaft, above-mentioned the first driven chain wheel case is fixed in outside above-mentioned the 4th power transmission shaft, above-mentioned the first driven sprocket and above-mentioned the first drive sprocket are in transmission connection by above-mentioned the first driving chain, axial second end of above-mentioned the 3rd power transmission shaft and the axial first end of above-mentioned the 4th power transmission shaft overlap respectively intrinsic above-mentioned the second sprocket wheel that all is engaged on above-mentioned the second chain outward.
10. the core shooter system that automatically send sand according to claim 8, it is characterized in that: the above-mentioned device that shakes out comprises sand belt and drive motors, the above-mentioned bottom that adds the sand cylinder is provided with the bar shaped bottom plate that extends along the length direction of above-mentioned first crossbeam, offer the port that communicates with the above-mentioned discharging opening that adds the sand cylinder on above-mentioned bar shaped bottom plate, the two ends of above-mentioned bar shaped bottom plate bottom surface are separately installed with rotating belt roller, above-mentionedly go out sand belt and be set around on two above-mentioned belt rollers, and the above-mentioned throughput direction that goes out sand belt is identical with the length direction of above-mentioned first crossbeam, above-mentionedly go out the width of sand belt greater than the bore of above-mentioned port, above-mentioned drive motors is fixed on the upper surface of above-mentioned bar shaped bottom plate, the above-mentioned belt roller of above-mentioned drive motors and one is in transmission connection.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201310065447.2A CN103128234B (en) | 2013-02-28 | 2013-02-28 | Automatically the core shooter system of sand is sent |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201310065447.2A CN103128234B (en) | 2013-02-28 | 2013-02-28 | Automatically the core shooter system of sand is sent |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN103128234A true CN103128234A (en) | 2013-06-05 |
| CN103128234B CN103128234B (en) | 2016-04-20 |
Family
ID=48489048
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201310065447.2A Expired - Fee Related CN103128234B (en) | 2013-02-28 | 2013-02-28 | Automatically the core shooter system of sand is sent |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN103128234B (en) |
Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106862504A (en) * | 2017-02-10 | 2017-06-20 | 佛山市恒学科技服务有限公司 | A kind of cold-box core blower production line |
| CN108555252A (en) * | 2018-06-01 | 2018-09-21 | 惠州市威盛工业有限公司 | A kind of New energy automobile motor shell spiral channel integral sand core core shooter |
| CN108607965A (en) * | 2018-08-21 | 2018-10-02 | 台州科睿自动化设备有限公司 | A kind of unmanned coremaking workshop |
| CN108723331A (en) * | 2018-06-01 | 2018-11-02 | 惠州市威盛工业有限公司 | New energy automobile motor shell spiral channel integral sand core casting method and sand core structure |
| CN108941454A (en) * | 2018-06-29 | 2018-12-07 | 安徽大卫模具有限公司 | A kind of sanding device of lost foam casting from arrangement |
| CN115519076A (en) * | 2022-09-02 | 2022-12-27 | 圣固(江苏)机械有限公司 | Intelligent high-efficient sand device that adds |
| CN116000248A (en) * | 2022-12-30 | 2023-04-25 | 优铸科技(北京)有限公司 | Sand discharging mechanism for core shooter and core shooter |
Citations (9)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| EP0100161A1 (en) * | 1982-07-05 | 1984-02-08 | Agustin Arana Erana | Automatic sand box moulding machine |
| CN2267879Y (en) * | 1996-05-06 | 1997-11-19 | 成新华 | Core shooting machine for hot-core box |
| JPH1099942A (en) * | 1996-09-27 | 1998-04-21 | Sintokogio Ltd | Device for sucking and filling molding sand |
| CN2710794Y (en) * | 2004-06-07 | 2005-07-20 | 苏州工业园区明志铸造装备有限公司 | Cold-box core blower having multiple station |
| CN2907968Y (en) * | 2006-06-10 | 2007-06-06 | 青岛双星铸造机械有限公司 | Sand adding device |
| CN102009137A (en) * | 2010-12-24 | 2011-04-13 | 山西华德冶铸有限公司 | Shower type sand feeding device |
| CN202155482U (en) * | 2011-06-09 | 2012-03-07 | 安徽宁国市新高新钢球衬板有限公司 | Sand covering machine |
| CN202571192U (en) * | 2012-02-27 | 2012-12-05 | 安徽惠明机械制造有限公司 | Swing blade raining type sand feeder |
| CN203197208U (en) * | 2013-02-28 | 2013-09-18 | 辉煌水暖集团有限公司 | Core shooting machine system with automatic sand conveying function |
-
2013
- 2013-02-28 CN CN201310065447.2A patent/CN103128234B/en not_active Expired - Fee Related
Patent Citations (9)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| EP0100161A1 (en) * | 1982-07-05 | 1984-02-08 | Agustin Arana Erana | Automatic sand box moulding machine |
| CN2267879Y (en) * | 1996-05-06 | 1997-11-19 | 成新华 | Core shooting machine for hot-core box |
| JPH1099942A (en) * | 1996-09-27 | 1998-04-21 | Sintokogio Ltd | Device for sucking and filling molding sand |
| CN2710794Y (en) * | 2004-06-07 | 2005-07-20 | 苏州工业园区明志铸造装备有限公司 | Cold-box core blower having multiple station |
| CN2907968Y (en) * | 2006-06-10 | 2007-06-06 | 青岛双星铸造机械有限公司 | Sand adding device |
| CN102009137A (en) * | 2010-12-24 | 2011-04-13 | 山西华德冶铸有限公司 | Shower type sand feeding device |
| CN202155482U (en) * | 2011-06-09 | 2012-03-07 | 安徽宁国市新高新钢球衬板有限公司 | Sand covering machine |
| CN202571192U (en) * | 2012-02-27 | 2012-12-05 | 安徽惠明机械制造有限公司 | Swing blade raining type sand feeder |
| CN203197208U (en) * | 2013-02-28 | 2013-09-18 | 辉煌水暖集团有限公司 | Core shooting machine system with automatic sand conveying function |
Cited By (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106862504A (en) * | 2017-02-10 | 2017-06-20 | 佛山市恒学科技服务有限公司 | A kind of cold-box core blower production line |
| CN108555252A (en) * | 2018-06-01 | 2018-09-21 | 惠州市威盛工业有限公司 | A kind of New energy automobile motor shell spiral channel integral sand core core shooter |
| CN108723331A (en) * | 2018-06-01 | 2018-11-02 | 惠州市威盛工业有限公司 | New energy automobile motor shell spiral channel integral sand core casting method and sand core structure |
| CN108941454A (en) * | 2018-06-29 | 2018-12-07 | 安徽大卫模具有限公司 | A kind of sanding device of lost foam casting from arrangement |
| CN108607965A (en) * | 2018-08-21 | 2018-10-02 | 台州科睿自动化设备有限公司 | A kind of unmanned coremaking workshop |
| CN115519076A (en) * | 2022-09-02 | 2022-12-27 | 圣固(江苏)机械有限公司 | Intelligent high-efficient sand device that adds |
| CN115519076B (en) * | 2022-09-02 | 2023-09-08 | 圣固(江苏)机械有限公司 | Intelligent high-efficiency sand adding device |
| CN116000248A (en) * | 2022-12-30 | 2023-04-25 | 优铸科技(北京)有限公司 | Sand discharging mechanism for core shooter and core shooter |
Also Published As
| Publication number | Publication date |
|---|---|
| CN103128234B (en) | 2016-04-20 |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN103128234A (en) | Core shooter system capable of automatically delivering send | |
| CN107935795B (en) | Emulsifying seismic explosive column pretreatment production line | |
| CN204975978U (en) | Automatic kludge of fiber connector | |
| CN203197208U (en) | Core shooting machine system with automatic sand conveying function | |
| CN104542325A (en) | Automatic feeding device | |
| CN110834161A (en) | Automatic feeding mechanism of laser pipe cutting machine | |
| CN203197207U (en) | Automatic sand discharging device | |
| CN107186178A (en) | Automatically the core shooter system of sand is sent | |
| CN206938916U (en) | A kind of built-in lifting transfer device of vehicle body from skid body rotary lifting | |
| CN210570006U (en) | Feeding device of natural gas forging heating furnace | |
| CN115009781B (en) | Mining scraper conveyor with variable groove spacing | |
| CN206606815U (en) | A kind of reel feeding device | |
| CN113846562B (en) | Automatic wet seam device of pouring | |
| CN216272037U (en) | A raw materials loading attachment for pig feed production usefulness | |
| CN115007686A (en) | Pipe section straightening device for electromechanical installation engineering construction and using method | |
| CN111456481B (en) | Building curtain wall replacing and maintaining device | |
| CN108160231B (en) | Rod adding and taking machine | |
| CN211444279U (en) | Intelligent robot car unloader | |
| CN112846694A (en) | Head and tail plate mounting machine | |
| CN207059533U (en) | A kind of internal thread pipe joint typing equipment | |
| CN214734187U (en) | Loading and unloading device of large cleaning equipment | |
| CN205972077U (en) | Automatic foaming system that overlaps of air conditioner internal unit | |
| CN218254104U (en) | Automatic feeding and discharging mechanical arm | |
| CN207917994U (en) | Automatic carriage in building block production | |
| CN218478942U (en) | Cloth inspecting machine with discharging device |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C06 | Publication | ||
| PB01 | Publication | ||
| C10 | Entry into substantive examination | ||
| SE01 | Entry into force of request for substantive examination | ||
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| PP01 | Preservation of patent right |
Effective date of registration: 20160615 Granted publication date: 20160420 |
|
| RINS | Preservation of patent right or utility model and its discharge | ||
| PD01 | Discharge of preservation of patent |
Date of cancellation: 20200615 Granted publication date: 20160420 |
|
| PD01 | Discharge of preservation of patent | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160420 Termination date: 20180228 |
|
| CF01 | Termination of patent right due to non-payment of annual fee |