JP2009202232A - Method and apparatus for removing foreign matter - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method and apparatus for securely removing foreign matter from a water jacket even in a cylinder block of complicated construction. <P>SOLUTION: The apparatus 10 for removing foreign matter includes: a transport pallet 11 supporting the cylinder block 50 in such a manner that the cylinder chambers 51A to 51D are vertically aligned; an injection device 12 injecting water or air into the water holes 53A to 53E; and a control means controlling the transport pallet 11 and the injection device 12. Water then air is injected into the water holes 53A, 53B in the vicinity of the uppermost cylinder chamber 51A; then, an injection operation is carried out into the water holes 53B to 53D in the vicinities of the middle cylinder chambers 51B, 51C, followed by an injection operation on the water holes 53D, 53E in the vicinity of the lowermost cylinder chamber 51D and finally an injection operation on the water holes 53A, 53B in the vicinity of the uppermost cylinder chamber 51A. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a foreign matter discharge method and a foreign matter discharge device.

Conventionally, a cylinder block is used in an automobile engine. The cylinder block is manufactured by casting. When the cylinder block is cast, a water jacket is formed using core sand.
As a result, since foreign matters such as core sand and facets remain in the water jacket, a method of discharging foreign matters by spraying water into the water jacket has been proposed (for example, see Patent Document 1). ).

Japanese Patent No. 2747142

  By the way, a water jacket for a gasoline engine is an open type, whereas a water jacket for a diesel engine is called a closed type and has a more complicated structure than that for a gasoline engine. Therefore, foreign matter can be discharged by the method shown in Patent Document 1 for a water jacket for a gasoline engine, but foreign matter can be discharged by the method shown in Patent Document 1 for a water jacket for a diesel engine. It becomes difficult to discharge.

  An object of the present invention is to provide a foreign matter discharge method and a foreign matter discharge device capable of reliably discharging foreign matter in a water jacket even if the cylinder block has a complicated structure.

  The foreign matter discharge method of the present invention includes a plurality of cylinder holes formed in a straight line and a water jacket formed so as to surround the plurality of cylinder holes, and the water hole is disposed around each of the cylinder holes. A foreign matter discharge method for discharging foreign matter in the water jacket to the outside with respect to a cylinder block formed with water holes communicating with the jacket, wherein the cylinder block is arranged so that the plurality of cylinder holes are arranged vertically. Then, the water is injected into the water holes around the uppermost cylinder hole and then the air is injected. The injection operation is performed, and then the injection operation is performed on the water holes around the lowermost cylinder hole, and finally, the water holes around the uppermost cylinder hole are performed. And performing the injection operation.

According to this invention, the cylinder block is arranged so that the plurality of cylinder holes are arranged in the vertical direction. Then, after performing the injection operation in the order of the water holes around the uppermost cylinder hole, the water holes around the cylinder hole excluding the uppermost part and the lowermost part, and the water holes around the lowermost cylinder hole, In addition, an injection operation is performed on the water holes around the uppermost cylinder hole.
According to this, first, by performing an injection operation to the water holes around the uppermost cylinder hole, most of the foreign matter in the water jacket is exposed to the outside from the water holes around the cylinder hole other than the uppermost part. Discharge. Next, the foreign matter remaining in the water jacket is agitated by performing an injection operation on the water holes around the cylinder holes except for the uppermost part and the lowermost part. Next, by performing an injection operation on the water holes around the lowermost cylinder hole, the foreign matter remaining in the water jacket is discharged from the water holes around the cylinder holes other than the lowermost part. Finally, by performing an injection operation on the water holes around the uppermost cylinder hole, foreign matter remaining in the water jacket is discharged to the outside from the water holes around the cylinder holes other than the uppermost cylinder hole.
As described above, in the process of discharging the foreign matter in the water jacket to the outside, the foreign matter remaining in the water jacket can be agitated to prevent the foreign matter from accumulating at the corners of the water jacket. For this reason, after stirring, the foreign matter remaining in the water jacket is surely removed by performing the injection operation in the order of the water holes around the lowermost cylinder hole and the water holes around the uppermost cylinder hole. Can be discharged.

  The foreign matter discharging apparatus for a cast product according to the present invention has a plurality of cylinder holes formed in a straight line and a water jacket formed so as to surround the plurality of cylinder holes, around each of the cylinder holes. The cylinder block having a water hole communicating with the water jacket is a foreign matter discharge device for discharging foreign matter in the water jacket to the outside, wherein the cylinder holes are arranged in the vertical direction. Product support means for supporting the block, injection means provided to face the product support means and for injecting water or air into the water holes, and control means for controlling the product support means and the injection means And the control means performs an injection operation of injecting air to the water holes around the uppermost cylinder hole after injecting water, The injection operation is performed on the water holes around the cylinder holes excluding the upper and lowermost parts, and then the injection operation is performed on the water holes around the lower cylinder hole. The jetting operation is performed on the water holes around the uppermost cylinder hole.

  According to the present invention, there are effects similar to those described above.

According to the present invention, the cylinder block is arranged so that the plurality of cylinder holes are arranged in the vertical direction. Then, after performing the injection operation in the order of the water holes around the uppermost cylinder hole, the water holes around the cylinder hole excluding the uppermost part and the lowermost part, and the water holes around the lowermost cylinder hole, In addition, an injection operation is performed on the water holes around the uppermost cylinder hole.
According to this, first, by performing an injection operation to the water holes around the uppermost cylinder hole, most of the foreign matter in the water jacket is exposed to the outside from the water holes around the cylinder hole other than the uppermost part. Discharge. Next, the foreign matter remaining in the water jacket is agitated by performing an injection operation on the water holes around the cylinder holes except for the uppermost part and the lowermost part. Next, by performing an injection operation on the water holes around the lowermost cylinder hole, the foreign matter remaining in the water jacket is discharged from the water holes around the cylinder holes other than the lowermost part. Finally, by performing an injection operation on the water holes around the uppermost cylinder hole, foreign matter remaining in the water jacket is discharged to the outside from the water holes around the cylinder holes other than the uppermost cylinder hole.
As described above, in the process of discharging the foreign matter in the water jacket to the outside, the foreign matter remaining in the water jacket can be agitated to prevent the foreign matter from accumulating at the corners of the water jacket. For this reason, after stirring, the foreign matter remaining in the water jacket is surely removed by performing the injection operation in the order of the water holes around the lowermost cylinder hole and the water holes around the uppermost cylinder hole. Can be discharged.

It is a figure which shows schematic structure of the foreign material discharge apparatus which concerns on one Embodiment of this invention. It is a figure for demonstrating operation | movement of the said foreign material discharge apparatus.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a diagram showing a schematic configuration of a foreign matter discharging apparatus 10 according to an embodiment of the present invention.

  The foreign matter discharge device 10 discharges the foreign matter 70 in the water jacket 52 formed in the cylinder block 50 to the outside. The foreign matter discharging apparatus 10 includes a transport pallet 11 as a product support means for supporting the cylinder block 50, an injection device 12 as an injection means provided facing the transfer pallet 11, Control means (not shown) for controlling the device 12.

  The cylinder block 50 has four cylinder holes 51A, 51B, 51C, 51D formed in a straight line, and a water jacket 52 formed so as to surround these four cylinder holes 51A to 51D. Around each of the cylinder holes 51A to 51D, water holes 53A, 53B, 53C, 53D, 53E communicating with the water jacket 52 are formed. In the water jacket 52, there is a foreign substance 70 such as core sand or a facet.

  The transport pallet 11 supports the cylinder block 50 so that the cylinder holes 51A to 51D are arranged in the vertical direction.

  The injection device 12 includes a tank 121 containing water, a pump 122 that sends compressed air, a switching valve 123, and eight injection nozzles 131A, 131B, 132A, 132B, 133A, 133B, 134A, and 134B. .

The tank 121 and the pump 122 are connected by a first pipe 141, and an on-off valve G is provided in the middle of the first pipe 141.
The pump 122 and the switching valve 123 are connected by a second pipe 142.
The switching valve 123 is provided with a third pipe 143 that extends to the inside of the tank 121.

The switching valve 123 is provided with a fourth pipe 144 that reaches the eight injection nozzles 131A to 134A and 131B to 134B.
The fourth pipe 144 includes a main pipe 144E extending from the switching valve 123 and four sub pipes 144A, 144B, 144C, and 144D branched from the main pipe 144E.
An air release valve E capable of communicating the main pipe 144E with the outside is provided in the middle of the main pipe 144E.
On-off valves A, B, C, and D are provided in the middle of the auxiliary pipes 144A to 144D, respectively.

  The sub-pipe 144A is branched into two, and jet nozzles 131A and 131B are provided at the respective tips. Similarly, the sub-pipe 144B is branched into two, and injection nozzles 132A and 132B are provided at the respective ends. The sub-pipe 144C is branched into two, and injection nozzles 133A and 133B are provided at the respective ends. The sub-pipe 144D is branched into two, and spray nozzles 134A and 134B are provided at the respective tips.

  The injection nozzles 131A to 134A and 131B to 134B are fixed by the fixing portion 13, the injection nozzles 131A and 131B are opposed to the water holes 53A and 53B around the cylinder hole 51A, and the injection nozzles 132A and 132B are the cylinder holes 51B. Opposite the water holes 53B and 53C. The injection nozzles 133A and 133B are opposed to the water holes 53C and 53D around the cylinder hole 51C, and the injection nozzles 134A and 134B are opposed to the water holes 53D and 53E around the cylinder hole 51D.

Hereinafter, the operation of the foreign matter discharging apparatus 10 will be described.
First, the operation | movement which injects water is demonstrated.
That is, when injecting water from the injection nozzles 131A and 131B, the pump 122 is always driven to open the on-off valves A and G, and close the on-off valves B to D and the air release valve E. At the same time, the switching valve 123 is operated to connect the second pipe 142 and the main pipe 144E. Then, the water in the tank 121 passes through the second pipe 142, the main pipe 144E, and the sub pipe 144A and is jetted from the jet nozzles 131A and 131B.

  The case where water is injected from the injection nozzles 132A and 132B is the same as the case where water is injected from the injection nozzles 131A and 131B, but the on-off valves B and G are opened and the on-off valves A, C and D and the atmosphere are opened. Close the release valve E. Further, when water is injected from the injection nozzles 133A, 133B, the on-off valves C, G are opened, and the on-off valves A, B, D and the atmosphere release valve E are closed. Moreover, when injecting water from the injection nozzles 134A and 134B, the open / close valves D and G are opened, and the open / close valves A to C and the air release valve E are closed.

Next, an operation for injecting air will be described.
That is, when injecting air from the injection nozzles 131A and 131B, the pump 122 is always driven to open the on-off valve A and the atmosphere release valve E, and close the on-off valves B to D and G. At the same time, the switching valve 123 is operated to connect the second pipe 142 and the main pipe 144E. Then, air flows in from the atmosphere release valve E, and this air is jetted from the jet nozzles 131A and 131B through the main pipe 144E and the sub pipe 144A.

  Note that the case where air is injected from the injection nozzles 132A and 132B is the same as the case where air is injected from the injection nozzles 131A and 131B, but the on-off valve B and the air release valve E are opened and the on-off valves A, C, Close D and G. When injecting air from the injection nozzles 133A and 133B, the on-off valve C and the air release valve E are opened, and the on-off valves A, B, D, and G are closed. When injecting air from the injection nozzles 134A and 134B, the on-off valve D and the atmosphere release valve E are opened, and the on-off valves A to C and G are closed.

Next, the operation when water or air is not injected will be described.
In this case, the switching valve 123 is operated to connect the second pipe 142 and the third pipe 143. Since the pump 122 is always driven, the water in the tank 121 returns to the tank 121 through the second pipe 142 and the third pipe 143 and circulates.

  The operation of the foreign matter discharging apparatus 10 will be described below with reference to FIG.

  First, in step S1, after the cylinder block 50 is supported by the transfer pallet 11 so that the cylinder holes 51A to 51D are arranged in the vertical direction, the injection nozzles 131A to 134A and 131B to 134B are brought close to the water holes 53A to 53E. . Thereby, the injection nozzles 131A and 131B are opposed to the water holes 53A and 53B around the uppermost cylinder hole 51A, and the injection nozzles 134A and 53E are opposed to the water holes 53D and 53E around the lowermost cylinder hole 51D. 134B opposes. Of the water holes 53B to 53D around the cylinder holes 51B and 51C excluding the uppermost part and the lowermost part, the water nozzle 53A is opposed to the water hole 53B, and the water nozzles 53C are provided with the injection nozzles 132B and 133A. It opposes and 133B opposes water hole 53D.

  Next, in step S2, water is injected from the injection nozzles 131A and 131B into the water holes 53A and 53B around the uppermost cylinder hole 51A, and then air is injected. Thereby, most of the foreign matter 70 in the water jacket 52 is discharged from the water holes 53C to 53E.

  Next, in step S3, water is injected from the injection nozzles 132A, 132B, 133A, and 133B into the water holes 53B to 53D around the cylinder holes 51B and 51C excluding the uppermost part and the lowermost part, and then air is injected. To do. Thereby, the foreign material 70 remaining in the water jacket 52 is agitated.

  Next, in step S4, water is injected from the injection nozzles 134A and 134B into the water holes 53D and 53E around the lowermost cylinder hole 51D, and then air is injected. Thereby, the foreign material 70 remaining in the water jacket 52 is discharged from the water holes 53A to 53C.

  Next, in step S5, water is injected from the injection nozzles 131A and 131B into the water holes 53A and 53B around the uppermost cylinder hole 51A, and then air is injected. Thereby, the foreign material 70 remaining in the water jacket 52 is discharged from the water holes 53C to 53E.

According to this embodiment, there are the following effects.
(1) The cylinder block 50 is arranged so that the cylinder holes 51A to 51D are arranged in the vertical direction. Then, the water holes 53A and 53B around the uppermost cylinder hole 51A, the water holes 53B to 53D around the cylinder holes 51B and 51C excluding the uppermost part and the lowermost part, and the water holes 53D around the lowermost cylinder hole 51D. , 53E, and then the injection operation is performed on the water holes 53A and 53B around the uppermost cylinder hole 51A.
According to this, first, by performing an injection operation on the water holes 53A and 53B around the uppermost cylinder hole 51A, from the water holes 53C to 53E around the cylinder holes 51B to 51D other than the uppermost part, Most of the foreign material 70 in the water jacket 52 is discharged to the outside. Next, the foreign matter 70 remaining in the water jacket 52 is agitated by performing an injection operation on the water holes 53B to 53D around the cylinder holes 51B and 51C excluding the uppermost part and the lowermost part. Next, an injection operation is performed on the water holes 53D and 53E around the lowermost cylinder hole 51D, so that the water holes 53A to 53C around the cylinder holes 51A to 51C other than the lowermost part are inserted into the water jacket 52. The foreign matter 70 remaining on the outside is discharged to the outside. Finally, an injection operation is performed on the water holes 53A and 53B around the uppermost cylinder hole 51A, so that the water holes 53C to 53E around the cylinder holes 51B to 51D other than the uppermost part can enter the water jacket 52. The foreign matter 70 remaining on the outside is discharged to the outside.
As described above, in the process of discharging the foreign matter 70 in the water jacket 52 to the outside, the foreign matter 70 remaining in the water jacket 52 is agitated to prevent the foreign matter 70 from accumulating in the corners of the water jacket 52. it can. For this reason, after stirring, the water holes 53D and 53E around the lowermost cylinder hole 51D and the water holes 53A and 53B around the uppermost cylinder hole 51A are sprayed in this order, so that the inside of the water jacket 52 It is possible to reliably discharge the foreign matter 70 remaining on the outside.

  In addition, this invention is not limited to the above-mentioned embodiment, The deformation | transformation in the range which can achieve the objective of this invention, improvement, etc. are included in this invention.

DESCRIPTION OF SYMBOLS 10 Foreign material discharge apparatus 11 Pallet for conveyance 12 Injection apparatus 50 Cylinder block 51A, 51B, 51C, 51D Cylinder hole 52 Water jacket 53A, 53B, 53C, 53D, 53E Water hole 70 Foreign material

Claims (2)

A plurality of cylinder holes formed in a straight line and a water jacket formed so as to surround the plurality of cylinder holes, and water holes communicating with the water jacket are formed around each of the cylinder holes. The cylinder block is a foreign matter discharging method for discharging foreign matter in the water jacket to the outside,
The cylinder block is arranged so that the plurality of cylinder holes are arranged in the vertical direction,
For the water holes around the uppermost cylinder hole, perform an injection operation to inject air after injecting water,
Next, with respect to the water holes around the cylinder hole excluding the uppermost part and the lowermost part, the injection operation is performed,
Next, the jetting operation is performed on the water holes around the lowermost cylinder hole,
Finally, the foreign matter discharging method characterized by performing the jetting operation on the water holes around the uppermost cylinder hole. A plurality of cylinder holes formed in a straight line and a water jacket formed so as to surround the plurality of cylinder holes, and water holes communicating with the water jacket are formed around each of the cylinder holes. A foreign matter discharge device for discharging the foreign matter in the water jacket to the outside with respect to the cylinder block,
Product support means for supporting the cylinder block such that the plurality of cylinder holes are arranged in the vertical direction;
An injection means that is provided opposite to the product support means and injects water or air into the water holes;
Control means for controlling the product support means and the injection means,
The control means performs an injection operation of injecting air after injecting water into the water holes around the uppermost cylinder hole,
Next, with respect to the water holes around the cylinder hole excluding the uppermost part and the lowermost part, the injection operation is performed,
Next, the jetting operation is performed on the water holes around the lowermost cylinder hole,
Finally, the foreign matter discharging apparatus characterized in that the jetting operation is performed on the water holes around the uppermost cylinder hole.

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