KR20230026821A - Air leak inspection device for casting parts for electric vehicles - Google Patents

Abstract

The present invention comprises: a main body frame that includes a lower frame having a lower base plate and an upper frame fixed to the upper part of the lower frame and having an upper base plate coupled to the upper ends of a plurality of vertical bars whose lower ends are connected to the lower base plate; a seating air block that is replaceably installed on the lower base plate, is provided with a sealing member on the outer edge in contact with the lower surface of an inspection object, exposes at least one air outlet on the upper surface corresponding to the inspection object, and forms an air line inside the body for exposing an air supply port communicating with an air supply line on the side to allow the inspection object to be placed; a pressing unit that is provided with a pressing cylinder fixed vertically to the upper base plate, a plurality of guide rods assembled to move vertically on a plurality of guide members provided on the upper base plate, an elevating bar connected to the lower end of the plurality of guide rods and connected to the rod end of the pressing cylinder, and a plurality of pressing rods installed on the elevating bar to transmit pressing force by being in contact with the upper surface and the lower end of the inspection object placed on the seating air block to press the inspection object directly below to form a closed space filled with air between the inspection object and the seating air block; and a control unit that determines whether the inspection object is defective based on the change in pressure value of air forcefully supplied to the closed space. Accordingly, the accuracy and reliability of air leak inspection can be improved.

Description

Air leak inspection device for casting parts for electric vehicles {Air leak inspection device for casting parts for electric vehicles}

The present invention relates to an apparatus for inspecting air leaks on cast parts used in electric vehicles, and more particularly, to an inspection object such as a case manufactured by die casting to internally accommodate a battery or electric module, which is a core part of an electric vehicle, and Casting parts for electric vehicles that can uniformly pressurize the test object directly below it while minimizing the external impact force transmitted to the test object when pressurized to inspect the air leak by forming a sealed space filled with air between the seating air block. It relates to an air leak inspection device.

In general, there are processed products and castings used as automobile parts and various mechanical parts, etc., which require confidentiality to be guaranteed according to their functions.

That is, high-voltage batteries or electrical components installed in electric vehicles are accommodated and embedded in the inner space of a metal case cast by a modularized die-casting method. It is true.

And since one of the biggest causes of short circuits is moisture, casting parts such as cases used in electric vehicles to block moisture penetration must be performed and only parts that pass the test must be installed. .

Casting parts manufactured by mold casting such as die casting may have pinholes during casting molding, and in order to detect leaks in the casting parts due to these pinholes, pressurized air is artificially supplied to the inside of the casting parts to fill them, then There is known a technique for sealing and then measuring the drop in air pressure to detect the presence or absence of pinholes generated during casting and leaks with the possibility of moisture penetration.

(Patent Document 1) KR10-1981048 B1

Patent Document 1 is located on one side of the body frame, is installed so as to be able to slide in the vertical direction, is connected to the object when sliding downward, and is provided with a spray nozzle for spraying air into the object, and when sliding downward, the rim of the object Equipped with an operating unit equipped with a pressure cylinder that pressurizes and seals the object, is provided on the other side of the body frame, is installed to be slidable toward the operating unit, and the object is seated on the upper surface so as to cover the upper surface, and the part where the rim of the object is in contact Equipped with a base with a sealer along the base, sliding the base toward the operating unit in a state in which the object is seated on the base, lowering the operating unit toward the object, the pressurizing cylinder pressurizing the rim of the object, and the spray nozzle blowing air into the inside of the object Disclosed is a leak test apparatus for a vehicle battery case including a control unit for controlling injection.

However, in order to seal the inside of the object by pressing the rim of the object seated on the base in order to perform the leak test, the object is damaged or damaged by the impact force in the process of pressurizing the object seated on the base directly below as a pressure cylinder A problem occurred.

Therefore, the present invention is to solve the above-described problems, and the purpose thereof is to create a gap between an inspection target manufactured by die casting, such as a case for internally accommodating a battery or an electric module, which is a core part of an electric vehicle, and a seated air block. In order to provide an air leak inspection device for casting parts for electric vehicles, which can uniformly pressurize the object to be inspected directly below while minimizing the external impact force transmitted to the object to be inspected during pressurization to inspect the air leak by forming a sealed space filled with air. do.

The technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the description below. You will be able to.

As a specific means for achieving the above object, a preferred embodiment of the present invention is a device for inspecting air leaks for an inspection object manufactured by die casting and used as a part in an electric vehicle, a lower part having a lower base plate A body frame including an upper frame having a frame and having an upper base plate coupled to upper ends of a plurality of vertical bars having lower ends connected to the lower base plate and fixedly installed on the upper portion of the lower frame; It is installed replaceably on the lower base plate, has a sealing member in contact with the lower surface of the inspection object on an outer edge, exposes at least one air discharge port on the upper surface corresponding to the inspection object, and A seating air block on which the inspection object is placed by forming an air line inside the body that exposes the air supply port connected in communication with the side of the body; It has a pressure cylinder fixed vertically to the upper base plate, and has a plurality of guide rods assembled to be movable up and down to a plurality of guide members provided on the upper base plate, and is connected to the lower ends of the plurality of guide rods, Equipped with an elevating table connected to the rod end of the pressurizing cylinder, and a plurality of pressurizing rods installed on the elevating table so that the upper surface and the lower end of the test object placed on the seat air block come into contact to transmit the pressurizing force, and a pressurizing unit that presses the inspection target directly below to form a sealed space filled with air between the seated air block; and a control unit for determining whether or not the inspection object is defective based on a change in the pressure value of the air forcibly supplied into the closed space.

At this time, an air communication block forming an air communication line communicating with the air supply port exposed on one side of the seated air block is formed inside the body, and the tip of the air communication block is in close contact with or separated from one side of the seated air block. It may include a first actuator that reciprocates the air communication block forward and backward as much as possible.

At this time, the elevating stand includes a pair of left and right side walls connected to both left and right ends of the top plate connected to the rod end of the pressurization cylinder, and the plurality of pressurizing rods are assembled to be recessed on the inner surface of the pair of left and right sidewalls facing each other. Both ends can be inserted into the groove and installed vertically on a fixedly installed horizontal plate.

At this time, the pressure rod includes a first pressure rod exposed to the outside through a lower end of a hollow tube body detachably assembled by the horizontal plate and a second pressure rod disposed inside the hollow tube body, and the first pressure rod is disposed inside the hollow tube body. A locking step protruding between the rod and the second pressure rod and caught on the step of the hollow tube body may be included, and an elastic body for elastically supporting the pressure rod directly below may be included inside the hollow tube body.

At this time, a female threaded hole for adjusting the distance may be formed in the horizontal plate corresponding to the pressure rod, and an adjusting screw having a predetermined length may be screwed into the female threaded hole for adjusting the distance so that the upper and lower ends of the pressure rod face each other at a predetermined interval.

At this time, one side of the seating air block may include a second actuator for reciprocating and reciprocating a marking block having a pointed end so as to mark one side of the inspection object inspected for leak failure.

According to the preferred embodiment of the present invention as described above, there are the following effects.

By detecting the pressure change of the air forcibly supplied to the closed space between the inspection object and the seated air block, it is possible to increase the accuracy and reliability of the air leak test and to speed up the air leak inspection by inspecting whether or not the inspection object is defective due to casting defects. It is possible to increase work productivity by performing an air leak inspection accurately.

Since the impact force can be absorbed when the test object is pressed by contact between the pressure bar and the test object, damage to the test object due to external impact force can be prevented during the air leak test, thereby reducing product defects.

1 is a schematic diagram showing an air leak inspection apparatus for a cast part for an electric vehicle according to an embodiment of the present invention.
2 is a front view showing an air leak inspection apparatus for a casting part for an electric vehicle according to an embodiment of the present invention.
3 is a plan view showing an air leak inspection apparatus for a casting part for an electric vehicle according to an embodiment of the present invention.
4 is a side view showing an air leak inspection apparatus for a casting part for an electric vehicle according to an embodiment of the present invention.
5 is a schematic diagram showing a state in which an inspection object is placed on a seating air block provided in an air leak inspection apparatus for casting parts for an electric vehicle according to an embodiment of the present invention.
6 is a schematic diagram showing a state in which air is supplied to an airtight space formed between a seating air block provided in an air leak inspection apparatus for casting parts for an electric vehicle according to an embodiment of the present invention and an object to be inspected.
7 is a configuration diagram showing a pressure rod provided in an air leak inspection apparatus for a casting part for an electric vehicle according to an embodiment of the present invention.

Hereinafter, a preferred embodiment in which a person skilled in the art can easily practice the present invention will be described in detail with reference to the accompanying drawings. However, in the detailed description of the structural principle of a preferred embodiment of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

In addition, the same reference numerals are used for parts having similar functions and actions throughout the drawings.

In addition, throughout the specification, when a part is 'connected' to another part, it is not only 'directly connected', but also 'indirectly connected' with another element in between. include In addition, 'including' a certain component means that other components may be further included, not excluding other components unless otherwise stated.

As shown in FIGS. 1, 2, 3 and 4, the air leak inspection apparatus 100 for electric vehicle casting parts according to a preferred embodiment of the present invention is manufactured by die casting and used as a component in an electric vehicle. It may include a body frame 10, a seating air block 20, a pressurizing unit 30, and a control unit 40 so as to perform an air leak inspection on the inspection object A, which is a cast product.

As shown in FIGS. 1, 2, 3 and 4, the body frame 10 includes a lower base plate 12 having a flat upper surface and a lower frame 11 installed on the bottom surface, , An upper base plate 15 coupled to the upper end of a plurality of vertical stands 14 having lower ends connected to the lower base plate 12 is disposed, and an upper frame fixed to the upper portion of the lower frame 11 ( 13) may be included.

A plurality of moving wheels 18 may be included at the lower end of the lower frame 11 so as to be movable on the floor.

As shown in FIGS. 1, 2, 3 and 4, the seating air block 20 is replaced on the upper surface of the lower base plate 12 fixed horizontally to the upper part of the lower frame 11. It is a block structure that can be installed and the inspection object (A), which is a cast product, is raised and placed.

As shown in FIGS. 5 and 6, the upper surface of the seating air block 20 is in contact with the outer edge of the lower surface of the inspection object (A), sealing when pressurized, and the lower surface of the inspection object and the seating air block It may include a sealing member 21 to form a closed space (B), which is a cavity filled with air between the upper surface of the.

The seating air block 20 exposes at least one air outlet 22a on the upper surface corresponding to the inspection object A, and exposes the air supply port 22b connected to the air supply line on one side. An air line 22 is formed inside the body.

At this time, the body frame 10 is installed by simply replacing the seating air block 20 from the lower base plate 12 together with the change of the inspection object A to replace and mount the new air block ( 20) and a replacement block 13 coupled to the replacement lower plate 13a, which is replaceably assembled on the upper surface of the lower base plate 12, and the seating air. The block is fixedly installed on the upper surface and may include a replacement upper plate 13b installed on the upper surface of the replacement lower plate.

On the other hand, it includes an air communication block 24 forming an air communication line 23 inside the body, which communicates with the air supply port 22b exposed on one side of the seated air block 20, and the air communication block It may include a first actuator 25 that reciprocates the air communication block 24 forward and backward so that the front end of the air block 24 comes into contact with one side of the seated air block so that it is in close contact with or separated from it.

The first actuator 25 is made of a cylinder member fixedly installed on the upper surface of the lower base plate 12, and the front end of the air communication block 24 is in close contact with one side of the seated air block. It is preferable to provide a ring-shaped sealing member disposed in the sealing arrangement groove formed to be recessed to seal the connection between the air supply port 22b and the air communication line 23.

A connection hole 23a extending from the air communication line 23 is formed on an outer surface of the air communication block 24 to be connected to an air supply line (not shown).

Here, the air supply line that is connected to the air communication line 23 through the connection hole and supplies air is connected to an air dryer (not shown) to supply air from which moisture has been removed, and to reduce pressure deviation when supplying air. It is preferable to be connected in communication with the reserve tank without supplying air from a compression facility such as a compressor so as to constantly supply air compressed and stored in the reserve tank.

Accordingly, when the air communication block is advanced by the forward operation of the first actuator and adheres to one side of the seating air block, the air line of the air communication block and the air communication line of the seating air block are connected in communication with each other Therefore, the air forcibly supplied through the air supply line is a sealed space of a certain size formed between the inspection object and the seated air block via the air communication line and the air line so that the leak test on the inspection object can be performed. is forcibly supplied and filled.

As shown in FIGS. 1, 2, 3 and 4, the pressurization part 30 is a closed space (B) filled with air between the inspection object (A) and the seating air block (20). To pressurize the inspection object directly below to maintain a pressurized state for a certain time set in advance during the leak test while forming.

The pressurizing part 30 includes at least one pressurizing cylinder 31 fixed and installed substantially vertically on the upper surface of the upper base plate 15, and a plurality of guide members provided on the upper base plate 15. 32 includes a plurality of guide rods 33 assembled to be movable up and down, while being connected to the lower end of the plurality of guide rods 33 and connected to the rod end of the pressure cylinder 31, the pressure cylinder It may include an elevating platform 34 that is moved up and down during operation of the.

The elevating platform 34 may include a plurality of pressurizing rods 36 so as to transfer pressing force to the lower part while the upper surface and lower end of the inspection object A placed on the seated air block 20 come into contact with each other.

The elevating platform 34 includes a pair of left and right side walls 34b connected to both left and right ends of the top plate 34a connected to the rod end of the pressure cylinder 31, and the plurality of pressure rods 36 are connected to each other. Both ends may be inserted into an assembly groove recessed in the inner surface of the pair of left and right side walls 34a facing each other and installed perpendicularly to the horizontal plate 35 fixedly installed.

As shown in FIG. 7 , the pressing rod 36 is externally passed through the lower end of the hollow tube body 37 detachably assembled to the lower surface of the horizontal plate 35 by a plurality of fastening members 35b. It includes an exposed first pressure bar 36a and a second pressure bar 36c disposed inside the hollow tube body 37, and is protruded between the first pressure bar and the second pressure bar to form the hollow tube body. It includes a locking step 36b that is caught on the step 37a formed on the inner surface of the lower end of (37), while the upper and lower ends are in contact with the inside of the hollow tube body 37 between the locking step and the horizontal plate, respectively, so that the pressing An elastic body 39 such as a coil spring for elastically supporting the rod 36 directly below may be included.

A female threaded hole 35a for spacing adjustment is formed in the horizontal plate 35 corresponding to the pressure rod 36, and an upper end and a lower end of the pressure rod 36 are spaced apart from each other in the female threaded hole 35a for spacing adjustment. An adjusting screw (3) having a certain length is screwed to face each other, and a nut member (38a) for fixing the position is fastened to the adjusting screw (38) so as to maintain an adjusted state of the distance between the upper end of the pressure bar and the it is desirable

Accordingly, the lower ends of the plurality of pressurizing rods, which are descended directly to the lower part together with the elevating table by the lowering operation of the pressurizing cylinder, are in contact with the upper surface of the test object placed on the seat air block, and the elevating table is lowered. Even if it is continuously performed, it is possible to prevent damage to the surface of the test object because the compression of the elastic body absorbs the impact force generated when the plurality of pressing rods and the test object come into contact with each other.

Subsequently, when the upper end of the pressing rod, which is raised while compressing the elastic body, comes into contact with the lower end of the adjustment screw, the compression of the elastic body is stopped and the pressing force of the pressure cylinder is directly transmitted to the test object, so that the seated air block A closed space, a cavity filled with air, is formed between the inspection object and the seated air block, which are in contact with the upper surface and the sealing member as a medium.

As shown in FIGS. 1 and 2 , the control unit 40 determines whether or not the inspection target is defective based on a change in the pressure value of the air forcefully supplied to the closed space (B).

The control unit may include a display unit for displaying the supply pressure of the air supplied to the closed space, and an alarm unit 41 for generating an alarm sound or lighting when an object to be inspected is defective due to a pinhole generated during die casting. can

In addition, on one side of the seating air block 20, a second actuator that reciprocates the marking block 51 having a pointed end so that marking can be displayed on one side of the inspection object A that has been inspected as defective. (55) may be included.

The second actuator 55 may be equipped with the marking block 51 at the end of the rod, and may be provided as a cylinder member horizontally fixed to the lower base plate.

In other words, the air leak test on the test object, which is a cast product manufactured by die casting, transfers a certain intensity of pressure to the test object through a plurality of pressure rods lowered when the pressure cylinder is lowered, and moves the test object from the upper surface of the air block. pressurized for a certain period of time.

In this state, the air communication block, which is operated in advance by the forward operation of the first actuator, is brought into close contact with one side of the seated air block to connect the air communication line and the air line in communication with each other, and at the same time, moisture is removed through the air supply line By forcibly supplying the air to the closed space and maintaining a pressurized state for a certain period of time, the control unit inspects and determines whether or not there is an air leak in the inspection object.

When the casting state of the inspection object is good and there are no pinholes or cracks, the same or similar pressure value as the set internal pressure is displayed while maintaining for a certain time through the display.

On the other hand, when a pinhole or a crack occurs due to a poor casting state of the object to be inspected, the air leaks and the supply pressure of the air forcibly supplied to the closed space gradually increases.

Therefore, when the air pressure forcibly supplied through the air supply line is higher than the pressure set in advance, the control unit determines that the object is defective, displays a defective marking, and notifies the object through the alarm unit.

The present invention described above is not limited by the foregoing embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible within a range that does not deviate from the technical spirit of the present invention. will be clear to those who have knowledge of

10: body frame
11: lower frame 12: lower base plate
13: upper frame 15: upper base plate
20: Seating air block
21: sealing member 22: air line
24: air communication block 25: first actuator
30: pressing part
31: pressure cylinder 32: guide member
34: elevating platform 36: pressure bar
37: hollow tube body 39: elastic body
40: control unit

Claims (6)

In the apparatus for inspecting air leaks for an inspection object manufactured by die casting and used as a part for an electric vehicle,
A body frame including an upper frame having a lower frame having a lower base plate and having an upper base plate coupled to upper ends of a plurality of vertical bars having lower ends connected to the lower base plate and fixedly installed on the upper portion of the lower frame;
It is installed replaceably on the lower base plate, has a sealing member in contact with the lower surface of the inspection object on an outer edge, exposes at least one air discharge port on the upper surface corresponding to the inspection object, and A seating air block on which the inspection object is placed by forming an air line inside the body that exposes the air supply port connected in communication with the side of the body;
It has a pressure cylinder fixed vertically to the upper base plate, and has a plurality of guide rods assembled to be movable up and down to a plurality of guide members provided on the upper base plate, and is connected to the lower ends of the plurality of guide rods, Equipped with an elevating table connected to the rod end of the pressurizing cylinder, and a plurality of pressurizing rods installed on the elevating table so that the upper surface and the lower end of the test object placed on the seat air block come into contact to transmit the pressurizing force, and a pressurizing unit that presses the inspection target directly below to form a sealed space filled with air between the seated air block; and
An air leak inspection apparatus for casting parts for an electric vehicle, characterized in that it comprises a control unit for determining whether or not the inspection object is defective based on a change in the pressure value of the air forcibly supplied to the closed space. According to claim 1,
An air communication block forming an air communication line inside the body that communicates with an air supply port exposed on one side of the seating air block, and the front end of the air communication block is brought into contact with or spaced apart from one side of the seating air block. An air leak inspection apparatus for casting parts for an electric vehicle, comprising a first actuator that reciprocates the air communication block forward and backward. According to claim 1,
The elevating stand includes a pair of left and right side walls connected to both left and right ends of the upper plate connected to the rod end of the pressure cylinder,
The plurality of pressurizing rods are installed vertically on a horizontal plate fixedly installed by inserting both ends into an assembly groove formed in a depression on the inner surface of a pair of left and right side walls facing each other. According to claim 3,
The pressure bar includes a first pressure bar exposed to the outside through a lower end of a hollow tube body detachably assembled by the horizontal plate and a second pressure bar disposed inside the hollow tube body, It includes a locking step protruding between the two pressure rods and caught on the step of the hollow tube body,
An air leak inspection device for casting parts for an electric vehicle, characterized in that the inside of the hollow tube body includes an elastic body for elastically supporting the pressure rod directly below. According to claim 4,
A female threaded hole for adjusting the distance is formed in the horizontal plate corresponding to the pressure rod, and an adjusting screw having a predetermined length is screwed into the female threaded hole for adjusting the distance so that the upper and lower ends of the pressure rod face each other at a predetermined interval. Air leak inspection device for casting parts for automobiles. According to claim 1,
One side of the seating air block includes a second actuator for reciprocating and reciprocating a marking block having a pointed end so as to mark one side of the inspection object inspected for leak defects. Parts air leak inspection device.

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