KR20070062330A - A perforation inspection system of oil hole - Google Patents

Abstract

A perforation inspection system of an oil hole is provided to minimize a determination error basis by inspecting a penetration state of the oil hole by detecting air pressure supplied from one end of the oil hole. A perforation inspection system of an oil hole includes an air pressure supplying sealing unit(5), an air pressure discharging sealing unit(7), an air pressure controlling valve(9), a pressure detection sensor(11), and a controller(13). The air pressure supplying sealing unit supplies a line air pressure into the oil hole by being in contact with an outside of an end of the oil hole in a transmission case. The air pressure discharging sealing unit discharges air pressure into the oil hole by being in contact with an outside of the other end of the oil hole of the transmission case. The air pressure controlling valve is installed in a side of an air pressure supplying line to control the supplied air pressure to a predetermined pressure. The pressure detection sensor is installed in a side of an air pressure discharging line to detect a pressure of the discharged air pressure and to output the detected signals to the controller. The controller determines the penetration state of the oil hole by comparing the discharged pressure with the predetermined pressure.

Description

Oil hole penetration inspection device {A PERFORATION INSPECTION SYSTEM OF OIL HOLE}

1 is a block diagram of an oil hole penetration inspection apparatus according to an embodiment of the present invention,

An enlarged view of portion A of FIGS. 2 and 1,

3 is a state diagram used in the oil hole penetration inspection apparatus according to an embodiment of the present invention.

The present invention relates to an oil hole penetration inspection apparatus, and more particularly, to an oil hole penetration inspection apparatus for inspecting the penetration of an oil hole processed in a transmission case of an automatic transmission using pneumatic pressure.

Generally, in the industrial field including automobiles, a drill is mainly used to drill holes on a metal workpiece, and a punching operation using such a drill is an important part of the cutting process.

As described above, an automatic transmission transmission case in which an oil hole is processed inside by a machine tool such as a drill is difficult to directly check the processing state of the internal oil hole. In the case of processing the holes, it is more difficult to check whether the crossed oil holes are processed through each other at the correct position.

As described above, in order to check whether the oil holes are accurately penetrated with respect to the transmission case in which the oil holes which cross each other in different directions are precisely penetrated, conventionally, through penetration pins operated by the forward and backward cylinders are used. The method of checking the penetration state was mainly used.

However, in the case of using a conventional through-check pin, a determination error may occur due to breakage of the check pin depending on the penetration state. There is a problem that there is a possibility of causing a penetration judgment error.

Therefore, the present invention has been invented to solve the problems of the prior art having the above, an object of the present invention is to supply a pneumatic contact in one end of the oil hole to be machined inside the transmission case, and also to the other end of the oil hole The present invention provides an oil hole penetration inspection apparatus for detecting whether the oil hole is penetrated through the pneumatic detection signal by detecting the pneumatic pressure supplied from the one end.

In the oil hole penetration inspection apparatus according to the present invention for achieving the above object in the oil hole penetration inspection apparatus for inspecting the penetration of the oil hole formed in the transmission case,

A pneumatic supply sealer which is in close contact with an outer surface of the oil hole in the transmission case and supplies line air pressure into the oil hole; A pneumatic discharge sealer for hermetically contacting the outer surface of the other end of the oil hole in the transmission case to discharge the pneumatic pressure into the oil hole;

A pneumatic control valve mounted on one side on a pneumatic supply line for supplying line pneumatic to the pneumatic supply sealer to control the supplied pneumatic pressure to a set pressure; A pressure detection sensor mounted on one side of the pneumatic discharge line for discharging pneumatic pressure from the pneumatic discharge sealer and detecting the pressure of the discharged pneumatic pressure and outputting the signal to the controller; And a controller for determining whether the oil hole is penetrated by comparing the discharge pressure of the pneumatic pressure detected by the pressure detection sensor and the set pressure of the pneumatic pressure supplied from the pneumatic control valve.

The pneumatic supply closure is provided with a seal ring is fitted to the front end of the one end in contact with the outer surface of the oil hole, the pneumatic supply passage is formed therein, the supply shaft is connected to the pneumatic supply line at the rear end; It surrounds the outside of the supply shaft, characterized in that the inside and the outside made of a feed shaft housing for providing an elastic force to the feed shaft via a spring between the feed shaft, respectively.

The pneumatic discharge sealer is fitted with a sealing ring is fitted to the front end of the other end of the oil hole in contact with the inside, the discharge shaft is connected to the pneumatic discharge line is formed in the pneumatic discharge passage connected to the side end; And a discharge shaft housing surrounding the outside of the discharge shaft and providing elastic force to the discharge shaft through a spring between the inside and the outside of the discharge shaft, respectively.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of an oil hole penetration inspection apparatus according to an embodiment of the present invention, the oil hole penetration inspection apparatus according to an embodiment of the present invention crosses in different directions into the transmission case (part of the case) (1) Whether or not the oil hole 3 to be penetrated can be determined using pneumatic pressure.

The structure of the oil hole penetration inspection device is first sealed to an outer surface of one end of the oil hole 3 in the transmission case 1 in order to inspect whether the oil hole 3 formed in the transmission case 1 is penetrated. A pneumatic supply sealer (5) contacting and supplying line air pressure into the oil hole (3), and an airtight contact with the outer surface of the other end of the oil hole (3) in the transmission case (1) and into the oil hole (3). A pneumatic discharge sealer 7 for discharging the pneumatic air is provided.

And one side on the pneumatic supply line (L1) for supplying the line air pressure to the pneumatic supply seal (5) is equipped with a pneumatic control valve 9 to control the supplied air pressure to the set pressure.

In addition, a pressure detection sensor 11 is mounted at one side on the pneumatic discharge line L2 for discharging the pneumatic pressure from the pneumatic discharge sealer 7 and detects the pressure of the discharged pneumatic pressure and outputs the signal to the controller 13. Done.

In addition, the controller 13 compares the discharge pressure of the pneumatic pressure detected by the pressure detection sensor 11 with the set pressure of the pneumatic pressure adjusted and supplied from the pneumatic control valve 9 to determine whether the oil hole 3 is penetrated. Will be judged.

Here, the pneumatic supply closure (5), as shown in Figure 2, the seal ring 21 is fitted to the front end of the one end in contact with the outer surface of the oil hole (3), the pneumatic supply passage 23 inside ) Is formed, and a supply shaft 25 connected to the pneumatic supply line L1 is formed at a rear end thereof, and a supply shaft housing 27 surrounds the supply shaft housing 25 outside the supply shaft 25, and the supply shaft housing ( The inner and outer sides of the 27 are configured to provide an elastic force to the supply shaft 25 via a spring S between the supply shaft 25, respectively.

In addition, the pneumatic discharge sealer (7), as shown in Figure 2, the sealing ring 31 is fitted to the front end in contact with the outer surface of the other end of the oil hole (3), the pneumatic discharge passage 33 ) Is formed in the side end connected to the pneumatic discharge line (L2) is composed of a discharge shaft 35, the discharge shaft housing (37) is wrapped around the discharge shaft 35, the discharge shaft housing ( It is configured to provide an elastic force to the discharge shaft 35 through the spring (S) between the discharge shaft 35 and the inside and outside of the 37.

Here, the set pressure of the pneumatic pressure controlled from the pneumatic regulating valve 9 is preferably 2 Kgf / cm 3.

In addition, the controller 13 includes control logic to determine that the oil hole 3 is poor in penetration when the discharge pressure detected from the pressure detection sensor 11 is detected to be 90% or less of the set pressure. .

Therefore, the operation of the oil hole penetration inspection device having the configuration as described above, first, as shown in Figure 1, when the oil hole 3 in the transmission case 1 is normally penetrated, the pneumatic supply sealing The pneumatic pressure of the set pressure supplied from the machine 5 is discharged through the opposite side pneumatic supply sealer 7, wherein the pressure detection sensor 11 detects the pneumatic pressure as much as the set pressure and transmits the signal to the controller 13. ), The controller 13 determines that the oil hole 3 is normally penetrated, and outputs a normal signal through display means or warning means that can be configured separately.

On the other hand, as shown in FIG. 3, when the oil hole 3 in the transmission case 1 is blocked from being normally penetrated, the pneumatic pressure of the set pressure supplied from the pneumatic supply sealer 5 is opposite to the pneumatic supply seal. It is blocked from being discharged through the device (7).

Accordingly, the pressure detection sensor 11 does not output the pneumatic detection signal, and thus, the controller 13 determines that the oil hole 3 is blocked, and may be configured separately by display means or warning means. Abnormal signal can be output through.

According to the oil hole penetration inspection device of the present invention as described above, the pneumatic pressure is supplied to the one end of the oil hole to be machined inside the transmission case, the pneumatic pressure supplied from the one end in a sealed contact with the other end of the oil hole By detecting and checking whether the oil hole penetrates through the pneumatic detection signal, it is possible to minimize the possibility of determination error, thereby preventing accidents and customer complaints due to incorrect assembly of defective products.

Claims (5)

In the oil hole penetration inspection device for inspecting whether the oil hole formed in the transmission case penetrates, A pneumatic supply sealer which is in close contact with an outer surface of the oil hole in the transmission case and supplies line air pressure into the oil hole; A pneumatic discharge sealer for hermetically contacting the outer surface of the other end of the oil hole in the transmission case to discharge the pneumatic pressure into the oil hole; A pneumatic control valve mounted on one side on a pneumatic supply line for supplying line pneumatic to the pneumatic supply sealer to control the supplied pneumatic pressure to a set pressure; A pressure detection sensor mounted on one side of the pneumatic discharge line for discharging pneumatic pressure from the pneumatic discharge sealer and detecting the pressure of the discharged pneumatic pressure and outputting the signal to the controller; And And a controller for determining whether the oil hole is penetrated by comparing the discharge pressure of the pneumatic pressure detected by the pressure detection sensor and a set pressure of the pneumatic pressure supplied from the pneumatic control valve. The method of claim 1, The pneumatic supply closure is provided with a seal ring is fitted to the front end of the one end in contact with the outer surface of the oil hole, the pneumatic supply passage is formed therein, the rear end of the supply shaft connected to the pneumatic supply line; An oil hole penetration inspection apparatus comprising: a supply shaft housing surrounding an outside of the supply shaft, and providing an elastic force to the supply shaft through a spring between the supply shaft and the outside, respectively. The method of claim 1, The pneumatic discharge sealer is fitted with a sealing ring is fitted to the front end of the other end of the oil hole in contact with the inside, the discharge shaft is connected to the pneumatic discharge line is formed in the pneumatic discharge passage connected to the side end; And an exhaust shaft housing surrounding the outside of the discharge shaft, the discharge shaft housing providing elastic force to the discharge shaft through a spring between the discharge shaft and the discharge shaft. The method of claim 1, An oil hole penetration inspection apparatus, characterized in that the set pressure of the pneumatic pressure controlled from the pneumatic control valve is 2Kgf / ㎠ The method of claim 1, And the controller determines that the oil hole is poor in penetration when the discharge pressure detected by the pressure detection sensor is detected to be 90% or less of the set pressure.

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