KR101178307B1 - Engine cylinder head to remove debris in the air blowing device - Google Patents

Abstract

PURPOSE: An air blowing apparatus for removing foreign materials of an engine cylinder head is provided to minimize scattering mist and blow two kinds of engine cylinders at the same time. CONSTITUTION: An air blowing apparatus for removing foreign materials of an engine cylinder head comprises a part sensing unit(10), a position lift unit, a first hole blow unit(30), and a second hole blow unit. The part sensing unit is located above a conveyor and distinguishes first and second engine cylinder heads. The position lift unit is located right side of the part sensing unit and the height of the position lift unit is regulated at the position tiltable into the hole blow units. The first and second hole blow units perform air blowing for the first and second cylinder head respectively.

Description

Engine cylinder head to remove debris in the air blowing device}

The present invention relates to an automatic debris removal device for a machined part for automobiles, and more particularly, after processing a vehicle engine cylinder head in a machine, each of the two engine cylinder heads having different shapes transferred directly through a conveyor. The present invention relates to an air blowing apparatus for removing foreign matters from an engine cylinder head by tilting in another space and removing the chips or foreign substances remaining in deep holes or inside the engine cylinder head by air blowing.

The background technology of the present invention is disclosed in Republic of Korea Patent Publication No. 10-2005-0045861 (2005.05.31).

In general, in the engine cylinder head machining process of the engine machining line, the main gallery hole of the engine cylinder head is clogged by a machining chip generated during the machining of the engine cylinder head. Conventionally, the main gallery hole was washed by using a high pressure washer equipment to pierce the blocked main gallery hole, but if the main gallery hole is excessively blocked, there is a problem of damaging the nozzle of the post process facility. The nozzle is a diamond nozzle is very expensive and because the order is used excessively the delivery period, there is a problem that the engine cylinder head processing process is delayed.

In addition, the process of inspecting the pipe lines during the processing process of the engine cylinder head is essentially included. Conventionally, foreign matters such as remaining chips and burrs are checked through direct visual inspection prior to the assembly line. In addition to performing the process of removing and removing, in addition to checking the unprocessed portion and bubbles, the process of confirming the appearance of the entire product, for example, stamping, scratches and the like.

However, such visual inspection has a wide range of confirmation of the product, and it is difficult for the inspector to visually check the residual chips and foreign substances in the curved part of the deep hole and the exterior of the material with the naked eye. Problems will arise.

In addition, there is a problem that the work environment is contaminated due to scattered chips or foreign matter.

In addition, the judgment power is blurred due to the repeated fatigue of the inspector, the residual foreign matter is introduced into the assembly line, there is a problem that the deviation occurs in the engine cylinder head cleanliness depending on the inspector.

Republic of Korea Patent Publication No. 10-2005-0045861 (2005.05.31)

Therefore, the present invention has been invented to solve the above problems, and it is possible to remove foreign matters such as processed chips and burrs that remain in various processed parts used in automobiles, especially deep holes. An object of the present invention is to provide an air blowing device for removing foreign matters of an engine cylinder head that can be effectively removed.

In order to achieve the above object, the present invention provides an air blowing apparatus for removing foreign matter from an engine cylinder head,
A component detecting oil portion disposed on the conveyor and sorting two types of first and second engine cylinder heads to be carried into the first hole blow unit or the second hole blow unit; A position lift unit positioned on the right side of the component detection unit and configured to adjust a height to a position in which the first and second hole blows are tilted into the inside; A first tilting unit positioned to rotate the first engine cylinder head positioned in the position lift unit to be tilted into the first hole blow unit and positioned under the first hole blow unit, and the first tilting unit A first gripping ring positioned at an end surface and gripping the first engine cylinder head so as not to fall when tilting the first engine cylinder head, and positioned at a side facing the position lift unit, when the first engine cylinder head enters and is taken out A first automatic shutter for opening and closing a blocking film, a first shutter slide positioned at an upper side of the first automatic shutter, and entering into a deep hole inside and outside the first engine cylinder head located in the first hole blow unit; A plurality of first spray nozzle units having a structure of exiting, and a first mounted on the lower end of the first hole blow unit to mitigate an impact generated when the first tilting unit rotates; An up shobar, a first foreign matter discharge port located at the bottom of the first tilting unit and discharging the generated foreign matter, a first cover covering the upper side of the first hole blow unit, and a process inside the first hole blow unit. A first hole blow unit comprising a first inspection unit configured to visually check the first engine cylinder head and tilting the first engine cylinder head to perform an air blow process and installed in parallel with the conveyor side; A second tilting unit positioned to rotate the second engine cylinder head located in the position lift unit to be tilted into the second hole blow unit and positioned under the second hole blow unit; and the second tilting unit A second gripping ring positioned at an end surface to grip the second engine cylinder head so as not to fall when tilting the second engine cylinder head, and positioned at a side facing the position lift unit, and when the second engine cylinder head enters and is taken out A second automatic shutter that opens and closes the blocking film, a second shutter slide positioned at an upper side of the second automatic shutter, and enters into a deep hole inside and outside the second engine cylinder head located inside the second hole blower unit; A plurality of second spray nozzle units having a structure of exiting, and a second mounting unit mounted on a lower end of the second hole blow unit to mitigate an impact generated when the second tilting unit rotates; A second shock absorber, a second foreign matter discharge port located at the bottom of the second tilting unit and discharging the generated foreign matter, a second cover covering the upper side of the second hole blow unit, and a process inside the second hole blow unit And a second inspection unit for visually confirming the process, wherein the second hole is blown between the first engine cylinder head and another type of the second engine cylinder head and installed on the right side of the first hole blow unit. Blow unit; characterized in that consisting of.
In addition, the position lift unit is coupled to the lower surface of the first and second engine cylinder head coupled to the component fixing pin mounted on the upper surface of the lift slide to secure the first and second engine cylinder head, and the component fixing pin It is characterized by consisting of a lift slide which is located in the lower portion and is operable to raise the first and second engine cylinder head upwards, and is mounted to the bottom of the lift slide and fixed to the lift slide.

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The air blowing device for removing foreign matters of the engine cylinder head according to the present invention includes a chip and a chip mounted in the bolt hole and the plug hole, which are deep holes of the engine cylinder head, as well as chips and foreign substances buried inside and outside the machined parts. ) And foreign substances are effective to remove all.

In addition, there is an eco-friendly effect to secure the cleanliness of the product by preventing secondary pollution due to chips removed from the engine cylinder head.

In addition, it is possible to improve the working environment by minimizing the scattering mist (mist), it is effective to reduce the process time by working at the same time the two kinds of engine cylinder heads.

1 is a front view showing an air blowing device for removing foreign matter cylinder head according to the present invention.
Figure 2 is a plan view showing an air blowing device for removing foreign matter engine engine head according to the present invention.
Figure 3 is a state diagram before the operation of the position lift unit of the air blowing device for removing the foreign matter cylinder engine head in accordance with the present invention.
Figure 4 is a state after the position lift unit operation of the air blowing device for removing the foreign matter cylinder engine head in accordance with the present invention.
5 is a state diagram before the first engine cylinder head loading (Tilting) to the first hole blow unit of the air blowing device for removing foreign matter of the engine cylinder head according to the present invention.
Figure 6 is a state diagram after the first engine cylinder head (Tilting) to the first hole blow unit of the air blowing device for removing foreign matter of the engine cylinder head according to the present invention.
7 is a state diagram before the second engine cylinder head (Tilting) to the second hole blow unit of the air blowing device for removing foreign matter of the engine cylinder head according to the present invention.
8 is a state diagram after the second engine cylinder head loading (Tilting) to the second hole blow unit of the air blowing device for removing foreign matter of the engine cylinder head according to the present invention.

There may be a plurality of embodiments of the present invention, the following describes the preferred embodiment in detail. In addition, in the drawing used for description, the description which overlaps about the same part as a prior art may be abbreviate | omitted. Preferred embodiments of the present invention will enable a better understanding of the objects, characteristics, and advantages of the present invention. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a front view showing an air blowing apparatus for removing foreign matter from an engine cylinder head according to the present invention, FIG. 2 is a plan view showing an air blowing apparatus for removing foreign matter from an engine cylinder head according to the present invention, and FIG. 3 is an engine according to the present invention. Figure 4 is a state diagram before the operation of the position lift unit of the air blowing device for removing foreign substances of the cylinder head, Figure 4 is a state diagram after the operation of the position lift unit of the air blowing device for removing foreign matter cylinder head according to the present invention, Figure 5 is an engine according to the present invention A state diagram before the first engine cylinder head is loaded into the first hole blow unit of the air blowing device for removing foreign matters from the cylinder head, and FIG. After the first engine cylinder head (tilting) is a state diagram, Figure 7 is the engine cylinder head according to the present invention for removing foreign matters FIG. 8 is a state diagram before the second engine cylinder head is loaded into the second hole blow unit of the blowing apparatus, and FIG. 8 is a second hole cylinder of the second air blow unit of the air blowing apparatus for removing foreign matter from the engine cylinder head according to the present invention. State diagram after head tilting.

The air blowing device for removing foreign matters of the engine cylinder head, which is preferably implemented according to the present invention, is configured to remove chips or foreign matters loaded on the surface or deep holes after the engine cylinder head is processed.

To this end, the configuration of the air blowing device for removing the foreign material of the engine cylinder head according to the present invention is located on the conveyor, as shown in Figure 1 or 2, the first hole blow unit 30 or the second hole blow unit 40 A component detecting unit 10 for selecting two types of first and second engine cylinder heads 100 and 200 carried into the inside; A position lift unit 20 positioned at the right side of the component detection unit 10 and adjusting height to a position in which the first and second hole blowers 30 and 40 are tilted into the inside; A first hole blow unit (30) installed in parallel with the conveyor side by performing an air blow process by tilting the first engine cylinder head (100) located in the position lift unit (20); A second blow blow unit (40) installed on the right side of the first hole blow unit (30) by air blowing the first engine cylinder head (100) and another type of second engine cylinder head (200). );

As shown in FIG. 3 or 4, the position lift unit 20 is coupled to a lower surface of the first and second engine cylinder heads 100 and 200 to be coupled to the first and second engine cylinder heads 100 and 200. And a component fixing pin 21 mounted on the upper surface of the lift slide 22 and a lower portion of the component fixing pin 21 to lift the first and second engine cylinder heads 100 and 200 upward. It is composed of a lift slide 22 which operates so as to be mounted, and a lift plate 23 mounted below the lift slide 22 and fixing the lift slide 22.

As shown in FIG. 5 or FIG. 6, the first hole blow unit 30 is configured to move the first engine cylinder head 100 positioned in the position lift unit 20 to the first hole blow unit 30. The first tilting unit 31 and the first tilting unit 31 positioned under the first hole blow unit 30 and the end of the first tilting unit 31 are rotated to tilt inwardly. A first gripping ring 311 that grips the head 100 so as not to fall when tilting the head 100, and is positioned on a side facing the position lift unit 20, and the first engine cylinder head 100 enters. And a first automatic shutter 32 which opens and closes the blocking film when the film is taken out, a first shutter slide 33 positioned above the first automatic shutter 32, and a position inside the first hole blow unit 30. And a plurality of first minutes having a structure that enters or exits a deep hole inside and outside the first engine cylinder head 100. First shock absorbers 35 mounted below the first hole blow unit 30 to mitigate the shocks generated during the rotation operation of the nozzle units 34a, 34b, 34c and the first tilting unit 31. ), A first foreign matter discharge port 36 positioned at the bottom of the first tilting unit 31 and discharging the generated foreign matter, and a first cover 37 covering an upper side of the first hole blow unit 30; The first inspection unit 38 is configured to visually check the process inside the first hole blow unit 30.

As shown in FIG. 7 or FIG. 8, the second hole blower unit 40 is configured to move the second engine cylinder head 200 positioned in the position lift unit 20 to the second hole blower unit 40. The second tilting unit 41 and a second tilting unit 41 positioned below the second hole blow unit 40 and the second tilting unit 41 are rotated to tilt inwardly. A second gripping ring 411 that grips the head 200 so as not to fall when the head 200 is tilted, and is positioned on a side facing the position lift unit 20, and the second engine cylinder head 200 enters. And the second automatic shutter 42 which opens and closes the blocking film when the film is taken out, the second shutter slide 43 positioned on the upper side of the second automatic shutter 42, and the second hole blow unit 40. And a plurality of second minutes having a structure in which the second engine cylinder head 200 enters or exits a deep hole inside and outside the second engine cylinder head 200. Second shock absorbers 45 mounted below the second hole blow unit 40 to mitigate the shocks generated during the rotation operation of the nozzle units 44a, 44b and 44c and the second tilting unit 41. ), A second foreign matter discharge port 46 positioned at the bottom of the second tilting unit 41 and discharging the generated foreign matter, and a second cover 47 covering the upper side of the second hole blow unit 40; The second inspection unit 48 is configured to visually check the process inside the second hole blow unit 40.

Hereinafter, the operation and effects of the air blowing device for removing the foreign matter of the engine cylinder head according to the embodiment of the present invention configured as described above will be described in detail.

First, as shown in FIG. 1 or 2, the first and second engine cylinder heads 100 and 200 shipped from the previous production line are immediately transferred randomly by a conveyor. The first and second engine cylinder heads 100 and 200 to be transferred are loaded on a conveyor and stopped by the stopper 12. In this case, the first and second engine cylinder heads 100 and 200 are divided by the component selection sensor 11, and the first engine cylinder head 100 is tilted into the first hole blow unit 30. And the second engine cylinder head 200 is tilted into the second hole blow unit 40. More preferably, as shown in FIG. 3 or 4, the first and second engine cylinder heads 100 and 200 divided by the component detecting unit 10 are seated on the position lift unit 20. The lift slide 22 on the lift plate 23 is raised to a point of contact with the first and second tilting units 31 and 41. At this time, the first and second engine cylinder heads 100 and 200 are fixed by the component fixing pins 21 so as not to be separated.

Thereafter, an air blow is started in each of the first hole blow unit 30 and the second hole blow unit 40.

First, as illustrated in FIG. 5 or 6, the first engine cylinder is positioned at a position where the lift slide 22 may contact the first tilting unit 31 by the lift slide 22. When the head 100 is present, the first automatic shutter 32 is opened upward by the first shutter slide 33. At this time, the first engine cylinder head 100 is gripped by the first gripping ring 311 at the end of the first tilting unit 31 and tilted into the first hole blow unit 30. At this time, the first tilting unit 31 is stopped by the first shock absorber 35 to alleviate the shock generated during the rotation operation of the first tilting unit 31. At this time, the first spray nozzle unit 34 exhaling compressed air has a plurality of first spray nozzle units 34 in left and right directions in the inner and outer deep holes of the first engine cylinder head 100. It is inserted and sprays compressed air. At this time, chips or foreign substances in the inside and the outside of the first engine cylinder head 100 are removed by the injected compressed air, and are discharged to the first foreign matter discharge port 36. At this time, the process can be visually confirmed through the first inspection unit 38. When the air blow is completed, the first automatic shutter 32 opens and is tilted by the first tilting unit 31 to be seated on the position lift unit 20 to move to the conveyor.

In addition, as shown in FIG. 7 or FIG. 8, the second engine cylinder is positioned at the position where the lift slide 22 can contact the second tilting unit 41 in the second hole blow unit 40. When the head 200 is present, the second automatic shutter 42 is opened upward by the second shutter slide 43. At this time, the second engine cylinder head 200 is gripped by the second gripping ring 411 at the end of the second tilting unit 41 and tilted into the second hole blow unit 40. At this time, the second tilting unit 41 is stopped by the second shock absorber 45 which alleviates the shock generated during the rotation operation of the second tilting unit 41. At this time, the second spray nozzle unit 44 that blows compressed air includes a plurality of second spray nozzle units 44 in left and right directions in inner and outer deep holes of the second engine cylinder head 200. It is inserted and sprays compressed air. At this time, chips or foreign substances in the inside and the outside of the second engine cylinder head 200 are removed by the injected compressed air, and are discharged to the second foreign substance discharge port 46. At this time, the process can be visually confirmed through the second inspection unit 48. When the air blow is completed, the second automatic shutter 42 opens and is tilted by the second tilting unit 41 to be seated on the position lift unit 20 and moved to the conveyor.

Although the present invention has been shown and described with respect to specific embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Anyone who can afford it will know.

10: part detection unit 11: part selection sensor
12: stopper 20: position lift unit
21: part fixing pin 22: lift slide
23: lift plate 30: the first hole blow unit
31: first tilting unit 311: first gripping ring
32: first automatic shutter 33: first shutter slide
34a, 34b, 34c: first spray nozzle unit 35: first shock absorber
36: first foreign matter discharge port 37: the first cover
38: first inspection unit 40: the second hole blow unit
41: second tilting unit 411: second gripping ring
42: second automatic shutter 43: second shutter slide
44a, 44b, 44c: second spray nozzle unit 45: second shock absorber
46: second foreign matter outlet 47: second cover
48: second inspection unit

Claims (4)

In the air blowing device for removing foreign matter in the engine cylinder head,
A component detecting unit 10 disposed above the conveyor and sorting two types of first and second engine cylinder heads 100 and 200 which are carried into the first hole blow unit 30 or the second hole blow unit 40;
A position lift unit 20 positioned at the right side of the component detection unit 10 and adjusting height to a position in which the first and second hole blowers 30 and 40 are tilted into the inside;
The first engine cylinder head 100 located in the position lift unit 20 is rotated to be tilted into the first hole blow unit 30 and positioned under the first hole blow unit 30. The first tilting unit 31 and the first gripping ring 311 positioned on an end surface of the first tilting unit 31 and held so as not to fall when the first engine cylinder head 100 is tilted. And a first automatic shutter 32 which is positioned at a side facing the position lift unit 20 and which is opened and closed when the first engine cylinder head 100 enters and exits, and the first automatic shutter 32. The first shutter slide 33 located on the upper side and the inside of the first hole blow unit 30 are configured to enter or exit a deep hole inside and outside the first engine cylinder head 100. A plurality of first spray nozzle units 34a, 34b, 34c and the first tilting unit 31 generated during rotational operation A first shock absorber 35 mounted below the first hole blow unit 30 and a first foreign matter discharge port 36 disposed under the first tilting unit 31 to discharge the generated foreign matter so as to alleviate the impact. ), A first cover 37 covering an upper side of the first hole blow unit 30, and a first inspection unit 38 for visually confirming a process inside the first hole blow unit 30. A first hole blow unit (30) installed in parallel with the conveyor side by performing an air blow process by tilting the first engine cylinder head (100);
The second engine cylinder head 200 positioned in the position lift unit 20 is rotated so as to be tilted into the second hole blow unit 40 and positioned below the second hole blow unit 40. The second tilting unit 41 and the second gripping ring 411 positioned on an end surface of the second tilting unit 41 and held so as not to fall when the second engine cylinder head 200 is tilted. And, the second automatic shutter 42 is located on the side facing the position lift unit 20 and the blocking film is opened and closed when the second engine cylinder head 200 enters and exits, and the second automatic shutter 42 The second shutter slide 43 located at the upper side and the second hole blow unit 40 are located in or out of the deep hole inside and outside the second engine cylinder head 200. A plurality of second spray nozzle units 44a, 44b, 44c and the second tilting unit 41 may The second shock absorber 45 mounted to the bottom of the second hole blow unit 40 to mitigate the impact, and the second foreign matter outlet 46 positioned at the bottom of the second tilting unit 41 and discharging the foreign matter generated. ), A second cover 47 covering the upper side of the second hole blow unit 40, and a second inspection unit 48 for visually checking the process inside the second hole blow unit 40. And a second hole blow unit installed on the right side of the first hole blow unit 30 by an air blow between the first engine cylinder head 100 and the second engine cylinder head 200 of another type. (40); The air blowing device for removing foreign matters in the engine cylinder head, characterized in that consisting of. The method of claim 1,
The position lift unit 20 is coupled to a lower surface of the first and second engine cylinder heads 100 and 200 to be mounted on an upper surface of the lift slide 22 to fix the first and second engine cylinder heads 100 and 200. The component fixing pin 21 and a lift slide 22 positioned below the component fixing pin 21 and operable to raise the first and second engine cylinder heads 100 and 200 upward, and the lift slide. (22) The air blowing apparatus for removing foreign matters of the engine cylinder head, which is mounted on the lower portion and comprises a lift plate (23) for fixing the lift slide (22). delete delete

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