CN218855563U - Vertical parting flaskless molding die - Google Patents

Abstract

The utility model discloses a vertical somatotype does not have case molding die, include: the molding machine is arranged on the conveyor, and the molding machine is provided with an exchangeable temperature control mold; the utility model relates to a perpendicular somatotype molding line technical field cools off the extrusion die of molding machine both sides fast through change formula control by temperature change mould, has avoided the phenomenon of rotatory extrusion end control by temperature change difficulty, and adhesion phenomenon appears easily in current equipment, and shelters from the drainage of pipe to cooling liquid or high-temperature liquid through plastics, appears hot melt or refrigerated phenomenon easily, and change formula control by temperature change mould, both can the fast demoulding, has also avoided the phenomenon of rotatory promotion end control by temperature change difficulty.

Description

Vertical parting flaskless molding die

Technical Field

The utility model relates to a perpendicular somatotype molding line technical field specifically is a perpendicular somatotype flaskless molding die.

Background

At present, when the vertical parting boxless green sand mold is manufactured in the casting industry, a Danish DISA molding machine and a matched AMC conveyor thereof are commonly used, wherein the AMC conveyor is formed by connecting three sections of slideways end to end, and the sand mold slides on the slideways during conveying. In the starting position, the clamping plates on the inside of the slides are brought close to the starting position of the molding and clamp the sand molds, the clamping plates then move the clamped sand mold row forward by a mold distance, and the clamping plates then release the sand mold row and return to the starting position for the next cycle. During pouring, the splashed molten metal is easy to adhere to the clamping plate and is cooled into small metal blocks; meanwhile, because the sand mold is heated, hot green sand formed by moisture migration is easy to adhere to the inner side of the clamping plate, the clamping interference of the clamping plate of the AMC conveyor is increased, and when the clamping plate returns forwards and backwards, the sand mold is easy to be driven or in a wrong shape, so that the cavity of the casting is deformed, and the defect of meat deficiency of the casting is generated. In order to avoid the phenomenon, the production is often stopped in the production process to clean accumulated sand and sticky iron on the inner side of the clamping plate, time, labor and force are wasted, and the daily production efficiency is seriously affected.

SUMMERY OF THE UTILITY MODEL

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a vertically-parted flaskless molding die comprising: the molding machine is arranged on the conveyor, and the molding machine is provided with an exchangeable temperature control mold;

the replacement type temperature control mold comprises: the device comprises a concave limiting block, a replaceable horizontal extrusion die, a replaceable rotary extrusion die, a pair of concave rotary pipes, a pair of convex drainage pipes, two pairs of concave liquid drainage pipes, two pairs of convex extension pipes, a cooling box, a high-temperature box, a cooling drainage pump, a high-temperature drainage pump, a cooling drainage pipe high-temperature shunt pipe, a cooler, an electric heater, a radiator and a connecting temperature control assembly;

the concave limiting block is arranged on the inner side of the molding machine, the replaceable horizontal extrusion die is arranged on the horizontal pushing end of the molding machine, the replaceable rotary extrusion die is arranged on the rotary pushing end of the molding machine, a pair of concave rotary tubes are horizontally arranged on the top end of the rotary pushing end of the molding machine in parallel, a pair of convex drainage tubes are respectively inserted on the pair of concave rotary tubes by the same bearing, two pairs of concave liquid drainage tubes are respectively arranged on the horizontal pushing end of the molding machine and the rotary pushing end of the molding machine, two pairs of convex extension tubes are respectively movably inserted on the inner sides of the two pairs of concave liquid drainage tubes, the cooling box and the high temperature box are arranged on the molding machine, the cooling drainage pump is arranged on the cooling box, and the high temperature drainage pump is arranged on the high temperature box, the cooling shunt tubes are installed on the cooling drainage pump, the cooling shunt tubes are respectively connected to the concave liquid drainage tubes on the horizontal pushing end of the molding machine and the concave rotating tubes on the rotary pushing end of the molding machine, the high-temperature shunt tubes are installed on the high-temperature drainage pump, the high-temperature shunt tubes are respectively connected to the concave liquid drainage tubes on the horizontal pushing end of the molding machine and the concave rotating tubes on the rotary pushing end of the molding machine, the cooler is installed on the inner side of the cooling box, the electric heater is installed on the inner side of the high-temperature box, the radiator is installed on the outer side of the cooling box, and the convex telescopic tubes are connected to the replaceable horizontal extrusion die and the replaceable rotary extrusion die through the connection temperature control assembly.

Preferably, the connecting temperature control assembly comprises: two pairs of telescopic threaded pipes, two pairs of coiled temperature control pipes and a plurality of temperature control sheets;

the two pairs of the convex type telescopic pipes are respectively provided with a threaded hole, the two pairs of the telescopic threaded pipes are respectively inserted in the replaceable horizontal extrusion die and the replaceable rotary extrusion die through bearings, the two pairs of the telescopic threaded pipes are respectively sleeved in the threaded holes of the two pairs of the convex type telescopic pipes, the two pairs of the coiled temperature control pipes are respectively inserted in the replaceable horizontal extrusion die and the inner side of the replaceable rotary extrusion die, the two pairs of the coiled temperature control pipes are respectively connected to the two pairs of the telescopic threaded pipes, the plurality of temperature control plates are respectively inserted in the replaceable horizontal extrusion die and the replaceable rotary extrusion die, and the plurality of temperature control plates are respectively connected to the two pairs of the coiled temperature control pipes.

Preferably, the concave limiting block is provided with a plurality of cooling fins.

Preferably, a cooler is arranged on a plurality of the cooling fins.

Preferably, the concave limiting block is provided with a liquid sprayer.

Preferably, a pressure sensor is arranged on the inner side of the concave limiting block.

Advantageous effects

The utility model provides a vertical typing flaskless molding die. The method has the following beneficial effects: this perpendicular somatotype does not have case molding die cools off the extrusion die of molding machine both sides fast through changing formula control by temperature change mould, has avoided the phenomenon of rotatory extrusion end control by temperature change difficulty, and adhesion phenomenon appears easily in current equipment, and shelters from the drainage of pipe to cooling liquid or high temperature liquid through plastics, appears hot melt or frozen phenomenon easily, and changes formula control by temperature change mould, both can the rapid demoulding, has also avoided the phenomenon of rotatory promotion end control by temperature change difficulty.

Drawings

Fig. 1 is a front view cross-sectional schematic diagram of a vertical parting flaskless molding die.

Fig. 2 is a schematic diagram of a vertical parting flaskless molding die's section of looking sideways at.

In the figure: 1. a molding machine; 2. a conveyor; 3. a concave limiting block; 4. replacing a horizontal extrusion die; 5. replacing the rotary extrusion die; 6. a concave rotating tube; 7. a convex drainage tube; 8. a concave liquid drainage tube; 9. a convex extension tube; 10. a cooling tank; 11. a high temperature chamber; 12. cooling the drainage pump; 13. a high-temperature drainage pump; 14. cooling the shunt tube; 15. a high temperature shunt tube; 16. a cooler; 17. an electric heater; 18. a heat sink; 19. a telescopic threaded pipe; 20. coiled temperature control pipe.

Detailed Description

Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

All the electrical parts in the present case are connected with the power supply adapted to the electrical parts through a wire, and an appropriate controller and an appropriate encoder should be selected according to the actual situation to meet the control requirement, and the specific connection and control sequence should be determined.

Examples

As shown in fig. 1-2, the molding machine 1 is mounted on the conveyor 2, and the molding machine 1 is mounted with a replaceable temperature-controlled mold;

specifically, the replacement type temperature control mold comprises: the device comprises a concave limiting block 3, a replaceable horizontal extrusion die 4, a replaceable rotary extrusion die 5, a pair of concave rotary tubes 6, a pair of convex drainage tubes 7, two pairs of concave liquid drainage tubes 8, two pairs of convex extension tubes 9, a cooling box 10, a high-temperature box 11, a cooling drainage pump 12, a high-temperature drainage pump 13, a cooling drainage tube 14, a high-temperature drainage tube 15, a cooler 16, an electric heater 17, a radiator 18 and a connecting temperature control component;

specifically, the concave position-limiting block is installed inside the molding machine 1, the replaceable horizontal extrusion die 4 is installed at the horizontal pushing end of the molding machine 1, the replaceable rotary extrusion die 5 is installed at the rotary pushing end of the molding machine 1, a pair of the concave rotary tubes 6 is installed horizontally and in parallel at the top end of the rotary pushing end of the molding machine 1, a pair of the convex drainage tubes 7 are respectively inserted into the pair of the concave rotary tubes 6 with the same bearing, two pairs of the concave liquid drainage tubes are respectively installed at the horizontal pushing end of the molding machine 1 and at the rotary pushing end of the molding machine 1, two pairs of the convex extension tubes 9 are respectively movably inserted into the inner sides of the two pairs of the concave liquid drainage tubes 8, the cooling box 10 and the high temperature box 11 are installed on the molding machine 1, the cooling drainage pump 12 is installed on the cooling box 10, the high temperature pump is installed on the high temperature box 11, the cooling diversion tube 14 is installed on the cooling drainage pump 12, the cooling diversion tube 14 is respectively connected to the concave liquid drainage tube 8 at the horizontal pushing end of the molding machine 1 and the rotary pushing end of the concave rotary extension tube 6, the cooling box 10 is connected to the high temperature rotary extrusion heater assembly 15, the high temperature rotary extrusion heater is installed on the horizontal extrusion box 10, the high temperature rotary extrusion heater assembly 15 is connected to the high temperature rotary extrusion heater 10, the high temperature box 10, and the high temperature rotary extrusion tube 10, and the high temperature extrusion heater assembly 10 are installed on the horizontal extrusion heater assembly 10, and the horizontal extrusion tube 10, and the horizontal extrusion heater assembly 10, and the horizontal extrusion tube 10 are installed on the horizontal extrusion molding machine 1, and the horizontal extrusion heater assembly 10, and the horizontal extrusion tube 10, and the horizontal extrusion heater assembly 10 are installed on the horizontal extrusion heater assembly 10, and the horizontal extrusion heater assembly 10 And the replaceable rotary extrusion die 5.

It should be noted that, in the above, the operation of the rotary pushing end of the molding machine 1 is performed, so as to achieve the rotation of the replaceable rotary extrusion mold 5, meanwhile, the replaceable rotary extrusion mold 5 drives the connection temperature control component thereon, the connection temperature control component drives the convex extension tube 9 therein, the convex extension tube 9 drives the concave liquid drainage tube 8 outside thereof, the concave liquid drainage tube 8 drives the convex drainage tube 7 thereon, so that the convex drainage tube 7 rotates along the inner side of the concave rotary tube 6, thereby achieving the purpose that the rotation of the rotary driving end of the molding machine 1 drives the rotation of the convex drainage tube 7 along the concave rotary tube 6, the replaceable horizontal extrusion mold 4 and the replaceable rotary extrusion mold 5 thereon are driven to relatively extend and retract through the extension of the rotary driving end of the molding machine 1 and the extension of the horizontal driving end of the molding machine 1, the replaceable horizontal extrusion die 4 and the replaceable rotary extrusion die 5 respectively drive the connecting temperature control component thereon, the connecting temperature control component drives the convex extension tube 9 thereon to horizontally extend and retract, so that the convex extension tube 9 horizontally extends and retracts along the inner side of the concave liquid drainage tube 8, thereby achieving the purpose of changing the position of the convex extension tube 9 according to the moving range of the different replaceable rotary extrusion die 5 and the replaceable horizontal extrusion die 4, avoiding the plastic drainage from being damaged in the low-temperature or high-temperature process by drainage in the replaceable temperature control die, leading high-temperature liquid inside the high-temperature box 11 to the inner side of the high-temperature diversion tube 15 by the high-temperature drainage pump 13, and respectively leading the high-temperature liquid to the inner sides of the concave rotary tube 6, the convex drainage tube 7, the concave liquid drainage tube 8 and the convex extension tube 9 by the high-temperature diversion tube 15, thereby reach and carry out high temperature heating to change formula horizontal extrusion die 4 and 5 inboard temperature control components of being connected of change formula rotary extrusion die, thereby reach inseparable expansion joint in the extrusion process, on the same hand, the inboard of cooling shunt tubes 14 is drained with the inboard low-temperature liquid drainage of cooler bin 10 through cooling drainage pump 12, thereby the inboard of changing formula rotary extrusion die 5 and change formula horizontal extrusion die 4 is drained, thereby reach refrigerated effect, cool off at molding machine 1 at the shrink in-process, thereby reach the phenomenon of mould shrink, the adhesion has been avoided.

As shown in fig. 1-2, the connecting temperature control assembly comprises: two pairs of telescopic threaded pipes 19, two pairs of coiled temperature control pipes 20 and a plurality of temperature control sheets;

specifically, two pairs of the convex telescopic tubes 9 are respectively provided with a threaded hole, two pairs of the telescopic threaded tubes 19 are respectively inserted into the replaceable horizontal extrusion die 4 and the replaceable rotary extrusion die 5 through bearings, and the two pairs of the telescopic threaded tubes 19 are respectively sleeved in the threaded holes of the two pairs of the convex telescopic tubes 9, two pairs of the coiled temperature control tubes 20 are respectively inserted into the replaceable horizontal extrusion die 4 and the inner side of the replaceable rotary extrusion die 5, and two pairs of the coiled temperature control tubes 20 are respectively connected to the two pairs of the telescopic threaded tubes 19, a plurality of the temperature control plates are respectively inserted into the replaceable horizontal extrusion die 4 and the replaceable rotary extrusion die 5, and a plurality of the temperature control plates are respectively connected to the two pairs of the coiled temperature control tubes 20.

It should be noted that, in the above, the effect of quick connection and quick replacement is achieved by the matching of the telescopic threaded pipe 19 and the thread on the outer side of the convex telescopic pipe 9, and the cooling liquid or high-temperature liquid quickly diffuses the block through the coiled temperature control pipe 20.

As a preferable scheme, furthermore, a plurality of cooling fins are arranged on the concave limiting block 3.

Preferably, a plurality of the cooling fins are provided with a cooler 16.

Preferably, a liquid sprayer is arranged on the concave limiting block 3.

As a preferable scheme, further, a pressure sensor is arranged on the inner side of the concave limiting block 3.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A vertically-parted flaskless molding die comprising: the molding machine is arranged on the conveyor, and the molding machine is provided with an exchangeable temperature control mold;

the replacement type temperature control mold comprises: the device comprises a concave limiting block, a replaceable horizontal extrusion die, a replaceable rotary extrusion die, a pair of concave rotary pipes, a pair of convex drainage pipes, two pairs of concave liquid drainage pipes, two pairs of convex extension pipes, a cooling box, a high-temperature box, a cooling drainage pump, a high-temperature drainage pump, a cooling drainage pipe high-temperature shunt pipe, a cooler, an electric heater, a radiator and a connecting temperature control assembly;

the concave limiting block is arranged at the inner side of the molding machine, the replaceable horizontal extrusion die is arranged at the horizontal pushing end of the molding machine, the replaceable rotary extrusion die is arranged at the rotary pushing end of the molding machine, a pair of concave rotary tubes are horizontally and parallelly arranged at the top end of the rotary pushing end of the molding machine, a pair of convex drainage tubes are respectively inserted on the pair of concave rotary tubes by the same bearing, two pairs of concave liquid drainage tubes are respectively arranged at the horizontal pushing end of the molding machine and the rotary pushing end of the molding machine, two pairs of convex extension tubes are respectively movably inserted at the inner sides of the two pairs of concave liquid drainage tubes, the cooling box and the high temperature box are arranged on the molding machine, the cooling drainage pump is arranged on the cooling box, and the high temperature drainage pump is arranged on the high temperature box, the cooling shunt tubes are installed on the cooling drainage pump, the cooling shunt tubes are respectively connected to the concave liquid drainage tubes on the horizontal pushing end of the molding machine and the concave rotating tubes on the rotary pushing end of the molding machine, the high-temperature shunt tubes are installed on the high-temperature drainage pump, the high-temperature shunt tubes are respectively connected to the concave liquid drainage tubes on the horizontal pushing end of the molding machine and the concave rotating tubes on the rotary pushing end of the molding machine, the cooler is installed on the inner side of the cooling box, the electric heater is installed on the inner side of the high-temperature box, the radiator is installed on the outer side of the cooling box, and the convex telescopic tubes are connected to the replaceable horizontal extrusion die and the replaceable rotary extrusion die through the connection temperature control assembly.

2. The vertically-parted flaskless molding die as claimed in claim 1, wherein said connecting temperature control unit comprises: two pairs of telescopic threaded pipes, two pairs of coiled temperature control pipes and a plurality of temperature control sheets;

the two pairs of the convex telescopic pipes are respectively provided with a threaded hole, the two pairs of the telescopic threaded pipes are respectively inserted in the replaceable horizontal extrusion die and the replaceable rotary extrusion die through bearings, the two pairs of the telescopic threaded pipes are respectively sleeved in the threaded holes of the two pairs of the convex telescopic pipes, the two pairs of the coiled temperature control pipes are respectively inserted in the replaceable horizontal extrusion die and the inner side of the replaceable rotary extrusion die, the two pairs of the coiled temperature control pipes are respectively connected to the two pairs of the telescopic threaded pipes, a plurality of the temperature control plates are respectively inserted in the replaceable horizontal extrusion die and the replaceable rotary extrusion die, and the plurality of the temperature control plates are respectively connected to the two pairs of the coiled temperature control pipes.

3. The vertically-parted flaskless molding die as claimed in claim 2, wherein said concave stopper is provided with a plurality of cooling fins.

4. A vertically-parted flaskless molding die as claimed in claim 3, wherein a plurality of said cooling fins are provided with coolers.

5. The vertically-parted flaskless molding die of claim 4, wherein a liquid sprayer is provided on said concave stopper.

6. The vertically parted flaskless molding die as claimed in claim 5, wherein a pressure sensor is provided on an inner side of said concave stopper.

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