KR20170050452A

KR20170050452A - Oil Spray Device

Info

Publication number: KR20170050452A
Application number: KR1020150151991A
Authority: KR
Inventors: 허현상
Original assignee: (주) 태현테크원
Priority date: 2015-10-30
Filing date: 2015-10-30
Publication date: 2017-05-11
Also published as: KR101745444B1

Abstract

The present invention relates to an oil spray apparatus for uniformly applying oil to a component conveyed by a conveying conveyor or a pallet, comprising: a vertical frame (12) formed of a steel frame and vertically installed; And a horizontal frame (14) horizontally installed on the upper portion and supporting a plurality of components; A support plate 18 formed on a front surface of the horizontal frame 14 and having a predetermined thickness to support a plurality of components on a front surface thereof; A rotation means 24 installed vertically on the front surface of the support plate 18 and rotated at a high speed by receiving a driving force of the rotation motor 30; Elevating means (70) installed on one side of the rotating means (24) for moving the rotating means (24) up and down; Is inserted into the mounting hole H of a part to be conveyed along the conveying conveyor C and is rotated at a high speed by the rotating means 24 to be filled therein And spray means (54) for applying oil in particulate form through an oil application hole (64) in a state in which a certain amount of oil is atomized in the oil storage space (60).
According to the present invention as described above, since the particulate oil is uniformly applied to the inside of the mounting hole through the oil application hole, the amount of oil used is minimized and the oil seal is uniformly applied inside the mounting hole, There is an advantage that it is possible to prevent misassembly of the oil seal.
In addition, the atomized oil is applied to the inner circumferential surface of the mounting hole to prevent the oil from flowing down, and it is possible to prevent breakage and failure of the parts due to excessive application of the oil.

Description

[0001] Oil Spray Device [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an oil spray apparatus, and more particularly, to an oil spray apparatus that uniformly applies oil to an insertion site where an oil seal such as an engine or a mission housing is inserted to prevent erroneous assembly of an oil seal and breakage of an oil seal .

In general, from automobile manufacturer to automobile manufacturing, all mass production plants are assembled through 20 ~ 30,000 welding and assembly processes.

In such a mass production factory of a vehicle, a design factory is a process of assembling an engine, a transmission, a suspension, and other component parts in a vehicle body, and mounting the components supplied through a conveyor or pallet to a vehicle body inserted into each process line.

Among them, in the engine assembly process, the single parts are assembled and fixed, and the single parts necessary for driving the completed engine are mounted on the inside and outside of the engine to complete the engine mounted on the finished vehicle.

Among the main parts of the engine, a mechanical part such as a mission housing is provided with a plurality of bearings therein, and the oil seal is inserted into the mounting hole before installation of each bearing.

The process of inserting the oil seal can be performed through a separate oil mist nozzle in which the operator acts as a lubricant inside the mount.

Such an oil spray nozzle is disclosed in Korean Patent Publication No. 10-0247333.

However, the conventional oil mist nozzle is a method in which compressed air is used to easily adjust the spray amount and concentration of the oil, and in order to spray the oil on the inner circumference of the cylindrical mounting hole, the operator directly presses the oil mist nozzle in various directions So that the oil can not be injected accurately and the oil can not be uniformly applied.

Further, since oil is sprayed like compressed air and oil is applied to the periphery of the mounting hole, there is a problem that the operator needs to additionally remove the oil that is unnecessarily applied to remove the oil.

Korean Patent Publication No. 10-0247333

SUMMARY OF THE INVENTION It is therefore an object of the present invention to solve the problems of the prior art as described above, and it is an object of the present invention to provide a spraying apparatus, The oil in the storage space is atomized and the oil is applied uniformly in a radial manner through the oil application hole of the spray block.

According to an aspect of the present invention, there is provided an oil spray apparatus for uniformly applying oil to a component conveyed by a conveying conveyor or pallet, A support frame made up of a frame and composed of a vertical frame vertically installed and a horizontal frame horizontally installed at the upper end of the vertical frame to support a plurality of components; A rotating plate rotatably mounted on a front surface of the supporting plate and rotated at a high speed by receiving a driving force of the rotating motor; An elevating means for moving the rotating means up and down, And a predetermined amount of oil, which is inserted into a mounting hole of a part to be conveyed along the conveying conveyor and rotated at a high speed by the rotating unit, is atomized in the oil storage space, Spraying means for applying oil in the form of a spray.

The spraying means includes a spray block having a cylindrical shape and having a rotation axis insertion groove formed at a center thereof by a predetermined depth, a ring-shaped ring formed on an upper surface of the spray block, A plurality of oil guide grooves formed in a radial direction of the central axis of the spray block to guide the atomized oil from the oil storage space to the outside, And an oil application hole communicating with the oil guide groove and applying radially atomized oil.

The rotating means is composed of a rectangular plate having a predetermined thickness and is vertically installed on the front surface of the supporting plate and has a plurality of parts fixed on the front surface thereof. A fixing block fixed to the elevating plate, the driving block being vertically installed on the upper surface of the fixing block, the driving shaft passing through the upper surface of the fixing block in a downward direction, A connecting coupler installed at a lower end of the driving shaft and fixed to the driving shaft so as to surround the driving shaft and transmitting the rotational force of the driving shaft; A coupling shaft inserted in the coupling coupler and rotatable at a high speed in accordance with rotation of the driving shaft; and a coupling hole provided to surround the outer periphery of the rotary shaft and vertically penetrating the coupling shaft, And a support coupler provided with bearings at the upper and lower ends of the fastening holes to rotatably support the rotation shaft.

The elevating means includes a fixed bracket fixed to one side of the rotating means and formed of a block having a letter shape and fixed to one side of a front surface of the rotating means, And an elevating cylinder installed vertically to the upper surface of the upper bracket for moving the upper and lower barbs upward and downward and for moving the upper and lower bars upward and downward.

The lower part of the spray means further includes oil receiving means for blocking the lower end of the spray means to prevent falling oil falling down to the parts through the oil application hole, The oil pan is installed at a lower portion of the oil pan and is installed at one side of the oil pan so as to be horizontally transportable. The oil pan is disposed at a lower portion of the spraying means when the spraying means is moved upward. And a left and right transfer cylinder for moving the transfer cylinder.

The oil spray apparatus according to the present invention has the following effects.

The present invention is characterized in that a spray block is rotated at a high speed by a rotary motor in a state in which a certain amount of oil is filled in an oil storage space of a spray block and the oil in the oil storage space is atomized and radially through an oil application hole of a spray block So that the oil is uniformly applied.

Accordingly, since the fine-particleized oil is uniformly applied to the inside of the mounting hole through the oil application hole, the amount of oil used is minimized and the oil seal is uniformly applied to the inside of the mounting hole to prevent breakage of the oil seal. There is an advantage that assembly can be prevented.

In addition, the atomized oil is applied to the inner circumferential surface of the mounting hole to prevent the oil from flowing down, and it is possible to prevent breakage and failure of the parts due to excessive application of the oil.

1 is a front view showing a configuration of a preferred embodiment of an oil spray apparatus according to the present invention.
2 is a side view showing the configuration of a preferred embodiment of the oil spray apparatus according to the present invention.
3 is a front view showing a state in which the elevating means, the rotating means, and the oil receiving means constituting the embodiment of the present invention are fixed to the support plate.
Fig. 4 is a front view showing the elevating means, the rotating means, and the oil receiving means constituting the embodiment of the present invention. Fig.
5 is a side view showing a state in which a rotating means constituting an embodiment of the present invention is moved downward and inserted into a mounting hole of a part.
6 is an enlarged side view showing a state in which the rotating means constituting the embodiment of the present invention is moved downward and inserted into a mounting hole of a part.
7 is a cross-sectional view showing a configuration of a spray means constituting an embodiment of the present invention.
8 is a plan view showing a configuration of a spray means constituting an embodiment of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, preferred embodiments of an oil spray apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a front view showing a configuration of a preferred embodiment of the oil spray apparatus according to the present invention. FIG. 2 is a side view showing a configuration of a preferred embodiment of the oil spray apparatus according to the present invention. Fig. 4 is a front elevation showing a state in which the elevating means, the rotating means and the oil receiving means constituting the embodiment of the present invention are fixed to the supporting plate. Fig. 5 is a side view showing a state in which the rotating means constituting the embodiment of the present invention is moved downward and inserted into a mounting hole of the component, and Fig. 6 is a sectional view Fig. 7 is an enlarged side view showing a state in which the rotating means is moved downward and inserted into a mounting hole of the component. There is a sectional view showing a configuration of a spray unit constituting the time is it is shown, there is shown a plan view of Figure 8, showing the configuration of a spray unit constituting the present invention embodiment.

As shown in these drawings, the oil spray apparatus according to the present invention is an oil spray apparatus for uniformly applying oil to parts inside a part conveyed by a conveying conveyor or pallet, comprising an iron frame, A support frame 10 comprising a vertical frame 12 and a horizontal frame 14 horizontally installed at the upper end of the vertical frame 12 and supporting a plurality of components; A support plate 18 which is made of a plate material having a predetermined thickness and which supports a plurality of components on the front surface of the support plate 18; A lifting means (70) provided on one side of the rotating means (24) for moving the rotating means (24) up and down; And a predetermined amount of oil which is inserted into the mounting hole H of the part to be conveyed along the conveying conveyor C and is rotated at a high speed by the rotating means 24 to be filled in the oil storage space 60 Spraying means 54 for applying oil in the form of fine particles through the oil coating hole 64 in the atomized state.

The conveying conveyor C is a general conveying conveyor, and a detailed description thereof will be omitted. On the lower surface of the conveying conveyor (C), the component is seated and moved in one direction. The conveying conveyor C serves to transfer a plurality of parts (a mission housing, an automobile-related part, and the like), which are seated on the upper surface, in one line in a row.

On the upper side of the conveying conveyor (C), a support frame (10) is provided. The support frame 10 includes a vertical frame 12, a horizontal frame 14, and the like. The vertical frame 12 is a general steel frame and its detailed description is omitted. The vertical frame 12 is vertically installed on one side of the conveying conveyor C and supports a plurality of components installed on the upper side.

A horizontal frame 14 is provided above the vertical frame 12. The horizontal frame 14 is a general steel frame, and a detailed description thereof will be omitted. And is composed of a plurality of steel frame frames of the horizontal frame 14, and has a substantially rectangular parallelepiped shape. A plurality of parts are installed and supported on the front surface or inside of the horizontal frame 14.

That is, the support frame 10 includes a vertical frame 12 and a horizontal frame 14, and the horizontal frame 14 is provided at a predetermined distance above the conveying conveyor C, So that a plurality of parts are positioned on the upper side of the screen C.

An oil storage tank 16 is installed at the lower end of the vertical frame 12. The oil storage tank 16 has a hollow cylindrical shape inside, and oil is stored therein. A supply pipe (not shown) is installed on the upper side of the oil storage tank 16 and is connected to a quantitative discharge valve 66 to be described later. The oil stored in the oil storage tank 16 is supplied to the quantitative discharge valve 66 to be described later through the supply pipe.

A support plate 18 is provided on the front surface of the horizontal frame 14. The support plate 18 is formed of a plate having a predetermined thickness and is installed on the front surface of the horizontal frame 14. The support plate 18 serves to support a plurality of components installed on the front surface.

A guide rail (20) is installed on the front surface of the support plate (18). The guide rail 20 is a general EL guide rail 20, and a detailed description thereof will be omitted. A pair of the guide rails 20 and is spaced apart from the front surface of the support plate 18 by a predetermined distance and is vertically installed on the front surface of the support plate 18. 2) of the guide rail 20 is provided with a guide block 22 to guide the guide block 22 up and down.

A guide block (22) is installed on the front surface of the guide rail (20). The guide block 22 is a general EL block, and a detailed description thereof will be omitted. The guide blocks 22 are installed on the front and the lower sides of the guide rails 20 and are moved up and down along the guide rails 20.

A rotating means 24 is provided on the front surface of the guide block 22. The rotating means 24 is composed of a rectangular plate having a predetermined thickness and includes a lifting plate 26 which is vertically provided on the front surface of the supporting plate 18 and has a plurality of parts fixed to the front surface thereof, (26). A fixed block 28 fixed to the lifting plate 26 and formed vertically to the upper surface of the fixed block 28 so that the driving shaft 32 is fixed to the fixed block 28, A rotating motor 30 installed at the lower end of the driving shaft 32 and fixedly installed to surround the driving shaft 32, A connecting coupler 34 for transmitting the rotational force of the driving shaft 32 and a connecting member 34 for connecting the driving shaft 32 and the connecting coupler 34, A rotation shaft 36 rotating at a high speed in accordance with the rotation of the rotary shaft 36 and a fastening hole 40 extending upwardly and downwardly at the center so as to surround the rotary shaft 36, A bearing 42 is installed at the upper and lower ends of the fastening hole 40, It comprises a support coupler (38) such as to rotatably support the shaft 36.

The lifting plate 26 is formed of a rectangular plate and is vertically installed on the front surface of the guide block 22. The lifting plate 26 is installed on the front surface of the guide block 22 and is moved up and down by an elevating means 70 to be described later. The lifting and lowering plate 26 supports a rotary motor 30, a rotary shaft 36, a spraying unit 54, and the like installed on the front surface, and guides the vertical movement of each component.

A fixing block 28 is installed on the front surface of the lifting plate 26. As shown in FIG. 5, the fixed block 28 has a cross-sectional shape and is fixed at the center of the front surface of the lifting plate 26. A rotating motor 30, which will be described later, is installed and fixed to the upper surface of the fixed block 28.

A rotating motor 30 is installed above the fixed block 28. The rotary motor 30 is a general driving motor, and a detailed description thereof will be omitted. The rotary motor 30 is vertically installed on the upper surface of the fixed block 28 and is installed to protrude below the upper surface of the fixed block 28 of the driving shaft 32 of the rotary motor 30. The rotary motor 30 serves to rotate a rotary shaft 36 to be described later at a high speed.

A connecting coupler 34 is installed at the lower end of the rotary motor 30. [ The connection coupler 34 is a general coupler for coupling the shaft and the shaft, and a detailed description thereof will be omitted. The driving shaft 32 is inserted into the upper portion of the driving shaft 32 and the rotating shaft 36 is inserted into the lower portion of the connecting coupler 34 to transmit the rotational force of the driving shaft 32 to a rotating shaft do.

A rotating shaft 36 is installed inside the connection coupler 34. The rotary shaft 36 has a cylindrical shape and is formed long in the vertical direction. And is connected to the drive shaft 32 of the rotation shaft 36 and rotated at high speed according to the operation of the rotation motor 30. [

A support coupler 38 is provided on the outer circumferential surface of the rotary shaft 36. The support coupler 38 has a cylindrical shape, and a coupling hole 40 is vertically formed at the center. The rotation shaft 36 is vertically inserted into the coupling hole 40 of the support coupler 38. Bearings 42 are provided at the upper and lower ends of the coupling hole 40, Is rotatably fixed. The support coupler 38 supports the outer circumferential surface of the rotation shaft 36, which is long and long, and prevents the rotation shaft 36 from vibrating.

A spray holder 44 is installed under the support coupler 38. As shown in FIG. 6, the spray holder 44 has a cylindrical shape, and a receiving hole 46 is vertically formed at the center. An end portion of the rotary shaft 36 is vertically inserted into the spray holder 44. The spray holder 44 is provided with a spray nozzle 50 and a spray tube 52 on its side and inside to guide oil to be supplied to the spray means 54 to be described later.

A spray groove 48 is formed on the lower surface of the spray holder 44. The spray groove (48) is formed in a cylindrical shape at the center of the lower surface of the spray holder (44). A part of the spraying means 54, which will be described later, is inserted into the spray groove 48 and is rotatably fixed.

A spray nozzle 50 is installed on the side surface of the spray holder 44. The injection nozzle 50 is a general injection nozzle 50, and a detailed description thereof will be omitted. The injection nozzle 50 is connected to an oil supply pipe 68 to supply oil.

A spray tube 52 is installed inside the spray holder 44. The spray tube 52 is formed of a tubular body and has one end disposed at an end of the spray nozzle 50 and the other end positioned at an upper end of a spray block 56 described later. The injection pipe 52 supplies the oil supplied through the injection nozzle 50 to the spraying means 54 to be described later.

At the lower end of the rotary shaft 36, a spray means 54 is provided. The spraying unit 54 includes a spray block 56 having a cylindrical shape and formed with a rotation axis insertion groove 58 formed at a center thereof to be recessed by a predetermined depth, An oil storage space 60 in which oil is stored in the oil storage space 60 and a plurality of oil storage spaces 60 are formed in the oil storage space 60 such that a plurality of the oil storage spaces 60 are radially formed in a circular arc shape with respect to the central axis of the spray block 56, A plurality of oil guide grooves 62 for guiding the oil to the outside and a plurality of radial holes formed through the oil guide grooves 62 in the radial direction of the center of the spray block 56 and communicating with the oil guide groove 62 to apply radially atomized oil An oil application hole 64 and the like.

The end of the rotation shaft 36 is inserted and fixed to the rotation shaft insertion groove 58 of the spray block 56. The spray block 56 is rotated at a high speed in accordance with the rotation of the rotation shaft 36.

An oil storage space (60) is formed in the spray block (56). The oil storage space 60 has a circular ring shape and is recessed to a predetermined depth. Oil is filled in the oil storage space 60 and the oil is atomized by high-speed rotation of the spray block 56.

An oil guide groove 62 is formed on a side surface of the oil storage space 60. A plurality of the oil guide grooves 62 are formed in a circular arc shape radially with respect to the central axis of the spray block 56. The oil guide groove 62 serves to guide the atomized oil in the oil storage space 60 toward the oil application hole 64 to be described later.

A plurality of oil application holes (64) radially penetrating the spray block (56) are formed in the spray block (56). Is formed above the bottom surface of the oil storage space (60) of the oil application hole (64). One end of the oil application hole 64 is connected to the oil guide groove 62 and the other end is connected to the outer circumferential surface.

That is, the oil application hole 64 is formed at a position higher than the bottom surface of the oil storage space 60, so that the oil filled in the bottom surface of the oil storage space 60 can not be discharged to the outside, Only the atomized oil is guided to the outside in the storage space (60).

On the side surface of the fixed block (28), a fixed quantity discharge valve (66) is provided. The quantitative discharge valve 66 is a general quantitative valve, and a detailed description thereof will be omitted. A flow rate sensor (not shown) is installed inside the fixed quantity discharge valve 66 to supply a predetermined amount of oil supplied through the oil storage tank to the injection nozzle 50 side.

An oil supply pipe (68) is provided below the fixed quantity discharge valve (66). The oil supply pipe 68 is a general supply pipe, and a detailed description thereof will be omitted. One end of the oil supply pipe 68 is connected to the constant volume discharge valve 66 and the other end is connected to the injection nozzle 50 to supply a predetermined amount of oil supplied from the constant volume discharge valve 66 to the injection nozzle 50, As shown in Fig.

The elevating means (70) is provided on the side surface of the lifting plate (26). The elevating means 70 includes a fixing bracket 72 fixed to one side of the rotating means 24 and made of a block having a letter shape and fixed to one side of the front surface of the rotating means 24, A vertical barb 74 installed on the upper surface of the fixing bracket 72 and vertically installed on the upper surface of the fixing bracket 72 to vertically move the fixing bracket 72, And an ascending / descending cylinder 76 for moving the upper shovel 74 upward and downward.

The fixing bracket 72 is fixed to the front surface of the elevating plate 26 and serves to vertically move the elevating plate 26 in accordance with a vertical movement of the conveying bar to be described later.

On the upper surface of the fixing bracket 72, a vertical bar 74 is provided. The upper barb 74 has a cylindrical shape and is vertically installed. One end of the upper shovel bar 74 is fixed to the fixing bracket 72 and the other end is fixed to an elevating cylinder 76 to move the fixing bracket 72 up and down.

An elevating cylinder (76) is provided above the upper shoe bar (74). The elevating cylinder 76 may be a hydraulic or pneumatic cylinder, and a pneumatic cylinder is used here. The lifting and lowering cylinder 76 moves up and down the up and down bar 74 to move up and down the lifting plate 26 connected to the fixing bracket 72.

That is, when the spraying means 54 is inserted into the mounting hole H, the lifting cylinder 76 is operated to move the upper and lower baggage arms 74 downward, The lifting plate 26 is moved downward and the spraying means 54 is inserted into the mounting hole H. [

When the application of the oil to the interior of the mounting hole H is completed by the spraying means 54, the elevating cylinder 76 is operated to move the upper bank bar 74 upward, 26 are moved upward and returned to the home position.

More specifically, the lifting plate 26 is moved downward by the lifting means 70, and the spray block 56 is inserted into the mounting hole H. A predetermined amount of oil is filled into the oil storage space 60 by the constant volume discharge valve 66 while the spray block 56 is inserted into the mounting hole and the rotary motor 30 is operated, The block 56 is rotated at a high speed. The oil filled in the oil storage space 60 collides with the inner wall due to the high speed rotation of the spray block 56 to atomize the liquid into fine particles, H).

An oil receiving means 80 is installed below the support plate 18. The oil receiving means 80 is installed at a lower portion of the support plate 18 and is formed of a rectangular plate material and is installed to be laterally transportable to the oil pan 82 and installed on one side of the oil pan 82 And a left and right transfer cylinder 84 for moving the oil pan 82 to a lower portion of the spraying means 54 when the spraying means 54 is moved upward.

The oil pan 82 is formed of a rectangular plate and is installed under the spraying means 54. The oil pan 82 is installed below the spraying means 54 to prevent the residual oil of the spraying means 54 from falling on the part.

On the side surface of the oil pan 82, a right and left transfer cylinder 84 is provided. The left and right transfer cylinder 84 is a general cylinder, and a detailed description thereof will be omitted. The left and right transfer cylinders 84 are installed on the left side of the oil pan 82 to transfer the oil pan 82 to the left and right as shown in FIG.

That is, when the spray means 54 is inserted into the mounting hole H, the oil receiver 82 is moved to the left, the spray means 54 applies oil to the mounting hole H, It is moved to the right side to prevent the residual oil from falling on the part P.

Hereinafter, the operation of the oil spray apparatus of the present invention will be described with reference to FIGS. 1 to 8. FIG.

First, a plurality of parts are seated in a line on the upper surface of the conveying conveyor C and conveyed along the conveying conveyor C in one direction.

The part P conveyed by the conveying conveyor C is positioned below the spraying unit 54. [ The oil receiving means 80 is operated in a state in which the spray means 54 and the mounting hole H of the component P are positioned in a straight line so that the oil receiver 82 located on the lower side of the spray means 54 is moved to the left Direction.

The elevating cylinder 76 of the elevating means 70 is operated in a state in which the oil pan 82 located on the upward and downward movement path of the spraying means 54 is removed so that the upper and lower boat 74 is moved downward .

The upward movement plate 26 connected to the up-and-down movement bar 74 is moved downward in accordance with the downward movement of the upper shovel 74 to insert the spray block 56 into the mounting hole H of the component P .

When the spray block 56 is inserted into the mounting hole H, the fixed amount discharge valve 66 is operated to fill the oil storage space 60 with a predetermined amount of oil. When the oil storage space 60 is filled with a predetermined amount of oil, the rotary motor 30 is operated to rotate the spray block 56 at a high speed.

The oil filled in the oil storage space 60 collides with the interior of the oil storage space 60 and is atomized in the oil storage space 60 as the spray block 56 rotates at high speed.

The atomized oil in the oil storage space 60 is sprayed to the outside of the spray block 56 through an oil application hole 64 having a plurality of radial holes penetrated into the spray block 56, Oil is uniformly applied to the inner peripheral surface of the spherical body H.

When the oil application of the spray means 54 is completed, the lifting cylinder 76 is operated to move the upper gun bar 74 upward and the lifting plate 26 is moved upward, 54) is returned to the home position.

When the spray means 54 is returned to its original position, the oil pan 82 is moved from left to right and located below the spray means 54 to prevent the residual oil from falling on the part.

The scope of the present invention is not limited to the embodiments described above, and many other modifications based on the present invention will be possible to those skilled in the art within the scope of the present invention.

10. Support frame 16. Oil storage tank
18. Support plate 20. Guide rail
22. Guide block 24. Rotation means
26. Lifting plate 30. Rotary motor
36. Rotation shaft 44. Spray holder
54. Spraying means 56. Spraying block
70. Lifting means 80. Oil receiving means

Claims

1. An oil spray device for uniformly applying oil to a component conveyed by a conveying conveyor or pallet,
A support frame 10 made of a steel frame and composed of a vertically installed vertical frame 12 and a horizontal frame 14 horizontally installed at the upper end of the vertical frame 12 and supporting a plurality of components;
A support plate 18 formed on a front surface of the horizontal frame 14 and having a predetermined thickness to support a plurality of components on a front surface thereof;
A rotation means 24 installed vertically on the front surface of the support plate 18 and rotated at a high speed by receiving a driving force of the rotation motor 30;
Elevating means (70) installed on one side of the rotating means (24) for moving the rotating means (24) up and down;
Is installed at the end of the rotating means 24 and inserted into the mounting hole H of the part to be conveyed along the conveying conveyor C and is rotated at a high speed by the rotating means 24 to be filled therein And spray means (54) for applying the oil in particulate form through the oil application hole (64) while the predetermined amount of oil is atomized in the oil storage space (60).

2. The apparatus according to claim 1, wherein the spray means (54)
A spray block 56 having a cylindrical shape and formed with a rotation shaft insertion groove 58 formed at a center thereof by a predetermined depth;
An oil storage space 60 formed in the upper surface of the spray block 56 in a circular ring shape and storing oil therein;
A plurality of oil guide grooves 62 formed in the oil reservoir space 60 so as to be radially projected from the central axis of the spray block 56 and guiding the atomized oil to the outside;
And an oil application hole (64) communicating with the oil guide groove (62) and applying radially atomized oil, the oil spray hole (64) having a plurality of radial holes penetrating the center of the spray block (56) .

2. The apparatus according to claim 1, wherein the rotating means (24)
A lifting plate 26 which is made of a rectangular plate having a predetermined thickness and which is vertically provided on the front surface of the supporting plate 18 and has a plurality of parts fixed to the front thereof;
Is installed on the front surface of the lifting plate (26). A stationary block 28 having a cross-section of an "a" -shaped block and fixed to the lifting plate 26;
A driving shaft 32 installed vertically on the upper surface of the fixed block 28 and penetrating the upper surface of the fixed block 28 in a downward direction to generate a rotating power to be rotated;
A connection coupler 34 installed at a lower end of the drive shaft 32 and fixedly installed to surround the drive shaft 32 to transmit rotational force of the drive shaft 32;
A rotation shaft 36 installed vertically downward from the connection coupler 34 and having an upper end inserted into the connection coupler 34 and rotating at a high speed in accordance with the rotation of the drive shaft 32;
The rotary shaft 36 is installed so as to surround the outer circumference of the rotary shaft 36 and has a coupling hole 40 penetrating vertically at the center so that the rotary shaft 36 is inserted into the rotary shaft 36. Upper and lower ends of the coupling hole 40 And a support coupler (38) provided with a bearing (42) for rotatably supporting the rotary shaft (36).

The apparatus according to claim 1, wherein the elevating means (70)
A fixing bracket 72 fixed to one side of the rotating means 24 and made of a block having a letter shape and fixed to a front side of the rotating means 24;
A shovel bar 74 installed on the upper surface of the fixing bracket 72 and vertically installed on the upper surface of the fixing bracket 72 and vertically moving the fixing bracket 72;
And an elevating cylinder (76) installed on the upper side of the upper side barb (74) and vertically moving the upper side barb (74).

3. The apparatus according to claim 2, wherein a lower portion of the spray means (54)
Further comprising oil receiving means (80) for blocking the lower end of the spray means (54) to prevent falling oil falling down to the part (P) through the oil application hole (64);
The oil receiving means (80)
An oil pan 82 installed at a lower portion of the support plate 18 and made of a rectangular plate so as to be laterally transported;
A left and right transfer cylinder 84 installed at one side of the oil pan 82 to move the oil pan 82 to a lower portion of the spraying unit 54 when the spraying unit 54 is moved upward; .