KR101395827B1 - Drum rotary type machine part washing device - Google Patents

Abstract

The present invention relates to a drum rotation type machine part cleaning device, and for this purpose, a machine part (2) is rotated by the power of a rotation motor (60) in a semi-submerged state in a water tank, And the air bubbles are generated from the bubble generating tube 46 below the water surface, thereby allowing the mechanical parts 2 to be semi-immersed in the cleaning liquid to be cleaned, thereby accelerating the foreign matter removal due to collision with air bubbles So that washing with the cleaning liquid sprayed at the same time is promoted so as to drastically improve the cleaning force on the mechanical part 2.
In order to achieve this, the present invention comprises a water tank (32); A drain valve (34) coupled to the bottom surface of the water tub (32) and connected to the cleaning liquid tank (36); A nozzle 38 installed at an upper end of the water tank 32 for spraying a cleaning liquid; A supply pump (42) connected to the cleaning liquid tank (36) while connecting the nozzle (38); A transfer device 6 installed on the upper part of the water tub 32 to move the moving member 4 in order from the supply table 18 to the water tub 32 and the carry-out table 90; In the apparatus,
An air pump 48 for generating air bubbles below the water surface and supplying air to the bubble generating pipe 46 is connected to the bottom of the water tank 32 through the bubble generating pipe 46 .

Description

[0001] The present invention relates to a drum washing machine,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a drum rotating machine component cleaning apparatus, and more particularly, to a drum rotation machine component cleaning apparatus which rotates a machine component with power of a rotary motor in a semi-submerged state in a water tank, Since the mechanical parts are semi-immersed in the cleaning liquid to be cleaned, the foreign matter is removed due to the collision with the air bubbles while being accelerated, and at the same time, the cleaning is performed by the cleaning liquid to be sprayed. The cleaning force is remarkably improved.

Further, the present invention relates to a drum rotation type machine part cleaning device in which the efficiency of drying work for machine parts is drastically improved because the machine parts after the rinsing operation is rotated by the power of the rotary motor and dried by dewatering .

Generally, mechanical parts have various shapes such as a concavo-convex part or a hole that is drilled depending on the state of machining. In such a machined part, most of the foreign materials exist, so that the surface is cleaned through the cleaning device .

Such a cleaning apparatus as described above is merely a method of cleaning by spraying a cleaning liquid, so that the cleaning is dependent on the spraying force of the cleaning liquid. Therefore, there is a need for a new improvement measure to solve the foreign matter more effectively.

1A and 1B, a box cleaning apparatus according to the prior art is disclosed. First, an inlet 14 into which a box 1 is inserted is installed inside a body 10 formed in a long tunnel type, A water tank 42 filled with the high temperature water heated by the heater 48, a brush 56 for blowing out foreign matter on the surface of the box 1, A water supply pipe 52 provided with a nozzle, an outlet 16 through which the box 1 escapes to the outside, and the like are sequentially installed.

A conveyor 20 for conveying the box 1 in the longitudinal direction from the inlet 14 to the outlet 16 is provided in the main body 10.

A fan 58 for blowing and blowing hot air supplied to the box 1 is installed at the rear of the main body 10 and connected to the duct 59. A water immersion chamber 40 is provided in front of the duct 59, And an exhaust duct 57a and an exhaust duct 57 for exhausting the steam inside the washing chamber 50 to the outside.

When the box 1 is inserted into the entrance of the main body 10 configured as described above, the box 1 is conveyed to the water tub 42 by the conveyor 20 to be submerged. At this time, The box 1 is sterilized by the water and at the same time, the box is inflated, and then the foreign matter and the time are removed by the brush 56 while being continuously transported.

Thereafter, the box 1 is washed by the washing water sprayed from the water supply pipe 52, and then the hot air supplied by the fan 58 through the duct 59 dries the box 1, The box 1 will exit to the outlet 16.

The above conventional technique has a problem that the cleaning force against the surface of the box 1 is excellent but the cleaning force against the uneven portion or the portion where the hole is formed is remarkably lowered.

Another problem is that since the box 1 is immersed in the water tank 42 and then washed and dried, the washing water always remains in the grooves and holes of the box 1, .

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and its object is as follows.

First, by realizing a structure in which mechanical parts are semi-submerged in a water tank, the rotary motor is rotated by power, the cleaning liquid is sprayed by the nozzle, and air bubbles are generated from the bubbling tube below the water surface, So as to accelerate detachment of foreign substances due to collision with air bubbles while being semi-submerged, and at the same time to perform cleaning by spraying of the cleaning liquid, thereby remarkably improving the cleaning force on the mechanical parts.

Secondly, the present invention aims to dramatically improve the efficiency of the drying operation on the mechanical parts by realizing a structure in which the machine parts whose rinsing operation has been completed are rotated by the power of the rotating motor to desalinate and dry.

The present invention is characterized by comprising: a box-shaped water tank (32) having an open top;

A drain valve (34) coupled to the bottom surface of the water tank (32) and connected to the washing liquid tank (36);

Nozzles (38) fixed to both sides of the upper end of the water tub (32) by brackets (40) and spraying the cleaning liquid downward;

A supply pump (42) connected to the cleaning liquid tank (36) while connecting the nozzle (38);

A transfer device 6 which is installed on the upper part of the water tub 32 and moves the moving member 4 into which the mechanical parts 2 as objects to be cleaned are moved from the supply table 18 to the water tank 32 and the take- A drum rotating machine component cleaning device comprising:

An air pump 48 for generating air bubbles below the water surface and supplying air to the bubble generating pipe 46 is connected to the bottom of the water tank 32 through the bubble generating pipe 46 .

The moving member 4 includes a hollow mesh drum 64 into which the mechanical parts 2 can be inserted and a shaft 66 fixedly coupled to both sides of the mesh drum 64, And an arm 68 that is vertically coupled to each of the shafts 66 and is detachably coupled to the transfer device 6.

A support rod 52 is vertically installed on both sides of the bottom surface of the water tank 32 and the shaft 66 of the mesh drum 64 entering the water tank 32 enters the upper end of the support rod 52 And a groove 54 is formed in the groove 54 so that the groove 54 can be seated.

A driven gear 60 is fixedly coupled to one end of a shaft 66 located at one side of the mesh drum 64 and a driven gear 58 engaged with the driven gear 70 is coupled to a rotating shaft 56 And a shaft of a rotation motor 60 fixed to the water tub 32 by a bracket 62 is connected to the rotation shaft 56 .

The effects of the present invention are as follows.

First, when the mechanical part 2 is half-immersed in the water tank 32, it is rotated by the power of the rotary motor 60, the cleaning liquid is sprayed from the nozzle 38, and air bubbles are generated from the bubble generating tube 46 Since the mechanical parts 2 are semi-immersed in the cleaning liquid to be cleaned, collision with the air bubbles accelerates the foreign matter to be dropped, and the cleaning is performed by the cleaning liquid to be sprayed, The cleaning ability of the cleaning solution is remarkably improved.

Secondly, since the rinse liquid is drained and dried by rotating the machine parts 2 whose rinse operation has been completed by the power of the rotary motor 60, the efficiency of the drying operation is remarkably improved.

Figures 1A and 1B are state diagrams showing a conventional cleaning device.
2 is a front view of the entire front of the cleaning device according to the invention;
3 is a partial perspective view of a washing section constituting the present invention;
4 is a cross-sectional view showing a state of installation of a water tank constituting the present invention.
5 is a block diagram of a configuration of a control unit according to the present invention;
6A, 6B and 6C are operational state diagrams of the present invention.

2 to 5, the mechanical part 2 has a variety of shapes such as a concavo-convex part and a through hole depending on the state of machining. In this machined part, most of the foreign materials are present So that the surface is cleaned through the cleaning device.

Therefore, the mechanical part 2 is fed to the feeding unit 8, the washing unit 10, the rinsing unit 12, and the liquid-removing unit 6 by the feeding device 6 while being put in the moving member 4 14, and the take-out unit 16 in this order.

A supply table 18 in which the moving member 4 is placed is formed in the supply unit 8 and the rod end of the supply cylinder 30 vertically installed is coupled to the bottom surface of the supply table 18.

The washing section 10 located at the outlet of the supplying section 8 is formed in a tubular shape in which the upper part of the washing tub 10 is opened so that the machine parts 2 can be cleaned by the washing liquid. The drain valve 34 is coupled to the other side of the bottom surface of the washing liquid tank 36 and connected to the washing liquid tank 36.

A nozzle 38 for spraying a cleaning liquid is fixedly installed on both sides of the upper end of the water tub 32 with a bracket 40 while the supply pump 42 is connected to the nozzle 38, And an outlet pipe 44 for maintaining the level of the washing liquid constant is connected to the washing liquid tank 36 at an intermediate portion of the side wall of the water tub 32. [

A bubble generating tube 46 for generating a large amount of air bubbles below the water surface of the washing liquid is disposed below the water tank 32. The bubble generating tube 46 penetrates both side walls of the water tank 32 And an air pump 48 for supplying air to the bubble generating tube 46 is connected.

When the operation cylinder 50 is operated and the rod is moved forward and backward, the water tub 32 is connected to the conveying device 50, (6).

3) are vertically installed at intervals on both sides of the bottom surface of the water tub 32. At the upper ends of the supports 52, Grooves 54 are formed so that the members 4 can be seated.

At this time, a rotating shaft 56 is horizontally passed through and is rotatably coupled to one side wall surface of the water tub 32 and the middle part of the support base 52, and between the support base 52 and the side wall of the water tub 32, A rotary motor 60 for providing power to one end of the rotary shaft 56 is connected to a bracket 62 on an outer wall surface of the water tub 32 while connecting a shaft, As shown in Fig.

Subsequently, the movable member 4 is provided with a hollow mesh drum 64 for injecting the machine parts 2 for washing into the inside thereof, and the mesh drum 64 is provided on both sides of the mesh drum 64 A shaft 66 is fixedly coupled to each of the shafts 66 and an arm 68 detachably coupled to the transfer device 6 is vertically coupled.

At this time, an opening is formed in the upper side of the mesh drum 64 so that the mechanical part 2 can be inserted into the mesh drum 64, and a cover which is openable and closable is screwed to the inlet.

A driven gear 70 is fixedly coupled to one end of a shaft 66 disposed at one side of the mesh drum 64. The driven gear 70 is engaged with a driving gear 58 provided in the water tank 32 The driven gear 70 receives the power of the rotary motor 60 via the driving gear 58 and rotates together with the mesh drum 64.

A rinse portion 12 for finishing and cleaning the mechanical component 2 is disposed at the outlet of the cleaning portion 10 (see FIG. 2). The rinse portion 12 has the same structure as the cleaning portion 10 do. At this time, the discharge pipe 44, the supply pump 42, and the drain valve 34 provided in the rinsing unit 12 are connected to the rinsing liquid tank 72.

A liquid removing portion 14 is located at the outlet of the rinsing portion 12. The liquid removing portion 14 is formed in a box-shaped water tank 32 having an open upper portion. On both sides of the upper end, a nozzle 76 is downwardly fixed with a bracket 78, and an air pump 80 for supplying high-pressure air is connected to the nozzle 76.

A drain valve 34 is coupled to a bottom surface of the water tank 32. A support plate 52 is vertically fixed to both sides of the bottom surface of the water tank 32 and a groove 54 is formed at an upper end thereof. And a rod end portion of a vertically installed desalting cylinder 88 is coupled to the bottom surface of the water tub 32.

A carry-out section (90) is located in the take-out section (16), and the bottom surface of the take-out table (90) The rod end of the vertically installed take-out cylinder 92 is engaged.

A column 94 is vertically installed at an inlet of the supply unit 8 and an outlet of the carry-out unit 16. A transfer device 6 for moving the transfer member 4 is disposed at an upper end of the column 94, Respectively.

The transfer device 6 is provided with a constant motion sprocket 96 and a driven sprocket 98 rotatably mounted on the upper end of the column 94 located at the supply part 8 and the upper end of the column 94 located at the carry- And a plurality of grippers 104 for moving the mesh drum 64 while separably coupling the arms 68 of the moving member 4 are connected to the chain 102 by vertical coupling And is fixed to the upper end of the column 94 while being axially connected to a feed motor 106 for providing power to the sprocket 96.

The supply cylinder 30, the operation cylinder 50, the desorption cylinder 88, the take-out cylinder 92, the gripper 104, the feed motor 106, the rotary motor 60, the feed pump 42 ), And the air pumps 48 and 80 are connected to the control unit 108.

Hereinafter, the operation of the present invention will be described.

First, the machine parts are loaded into the plurality of mesh drums 64 to prepare for cleaning. Then, one of the mesh drums 64 is moved to the supply table 18 through the unillustrated conveying unit, Then, the operator selects the cleaning execution mode in the control unit 108.

The control unit 108 transmits an operation and stop command to the supply cylinder 30 to advance the load so that the supply table 18 and the mesh drum 64 are raised together, The upper end of the arm 68 of the movable member 4 is hooked to the gripper 104 of the transfer device 6. [

The controller 108 transmits an operation command to the gripper 104 to fix the arm 68 and then transmits an operation and stop command to the feed motor 106 to transmit the start sprocket 96 The gripper 104 moves together with the mesh drum 64 in the advancing direction at the supply part 8 and stops at the cleaning part 10. [

Accordingly, the mesh drum 64 is positioned above the water tub 32 as shown in FIG. 5A.

At the same time, the control unit 108 again transmits an operation and stop command to the supply cylinder 30 to move the load back, thereby causing the supply table 18 to return to its original position.

5B, the control unit 108 raises the water tank 32 so that the operation and stop command is transmitted to the operation cylinder 50 to advance the load. As a result, the water tank 32 is raised, A shaft 66 provided on both sides of the mesh drum 64 is seated in the groove 54 of the support base 52 provided inside.

Therefore, the mesh drum 64 enters the inside of the water tank 32, and at the same time, the part of the lower part of the mesh drum 64 is filled in the water tank 32 with the mechanical part 2, And the driven gear 70 is gear-engaged with the driven gear 58.

When the control unit 108 transmits an operation command to the supply pump 42 to spray the cleaning liquid of the cleaning liquid tank 36 to the upper side of the mesh drum 64 through the nozzle 38, The cleaning liquid is sprayed to the upper side of the mechanical part 2 while passing through the mesh drum 64. This causes foreign matter remaining on the concavo-convex part or the hole of the mechanical part 2 to be largely dropped off by the cleaning liquid.

At this time, the cleaning liquid sprayed from the nozzle 38 acts as a factor for raising the water level of the water tank 32. However, a part of the cleaning liquid is supplied to the cleaning liquid tank 32 through the discharge pipe 44 provided in the middle portion of the side wall of the water tank 32, The water level of the cleaning liquid filled in the water tank 32 is always kept constant.

In this state, when the control unit 108 simultaneously transmits an operation command to the air pump 48 and supplies air to the bubble generating tube 46, a large amount of air bubbles are generated in the bubble generating tube 46 And these air bubbles pass through the mesh drum 64, which is semi-flooded below the water surface, and hit the concave-convex portion or the hole of the mechanical part 2.

As a result, foreign matter remaining in the concavo-convex portion of the mechanical component 2 or the groove is accelerated to a degree of dropping due to collision of the air bubbles, and at the same time, The effect is remarkably improved.

When the control unit 108 transmits a simultaneous operation command to the rotary motor 60 in the above state, the rotary motor 60 rotates the rotary shaft 56 and the rotary gear 58 as shown in FIG. 5C Accordingly, the driven gear 70, which is gear-engaged with the driving gear 58, rotates the shaft 66 and the mesh drum 64 together while being rotated by the transmitted power.

Therefore, the upper side of the mesh drum 64 and the upper side of the mechanical part 2 located above the water surface of the water tank 32 enter below the water surface, and at the same time, the lower side of the mesh drum 64 located below the water surface The lower part of the mechanical part (2) repeats the process of coming out above the water surface.

At this time, when the mechanical part 2 located above the water surface enters the water surface, the cleaning liquid enters the hole formed in the mechanical part 2, and then the mechanical part 2 is filled with water When it comes to the top, the cleaning fluid filled in the hole comes out.

As described above, in the process of the machine part 2 coming out from below the water surface to the surface of the water, the mechanical part 2 is cleaned again by the cleaning solution, and when the cleaning solution filled in the hole of the mechanical part 2 comes out, It comes out from the inside together.

Subsequently, the above-described cleaning process is performed for 5 minutes, and then the control unit 108 transmits an operation stop command to the supply pump 42, the air pump 48, and the rotary motor 60, do.

The control unit 108 returns to the original position while descending the water tub 32 when the control unit 108 transmits an operation and stop command to the operation cylinder 50 to reverse the load. At the same time, The upper end portion is separated from the shaft 66 provided on both sides of the mesh drum 64 and the driven gear 58 is separated from the driven gear 70. [

At this time, since the gripper 104 still maintains the clamping force, the mesh drum 64 is fixed to the gripper 104 together with the arm 68.

The gripper 104 is moved together with the mesh drum 64 in the direction of movement of the cleaning unit 10 to move the rinse unit 106 to the rinse unit 106. [ (12).

At this time, when the control unit 108 transmits an operation and stop command to the operating cylinder 50 of the rinse unit 12 to advance the rod, the water tank 32 is lifted up to the upper end groove 54 of the supporter 52, The shaft 66 of the mesh drum 64 is seated and the driven gear 58 is engaged with the driven gear 70 at the same time.

The controller 108 transmits an operation command to the supply pump 42 to supply an operation command to the air pump 48 and the rotary motor 60 while supplying the rinse liquid in the rinse liquid tank 72 The rinsing process of the machine part 2 proceeds in the same manner as the operation of the washing unit 10 described above.

When the rinse portion 12 is rinsed for 5 minutes and then the rinse portion 12 is finished, the controller 108 transmits an operation and stop command to the operation cylinder 50 again to lower the water tank 32 , Causing the water tub 32 to return to its original position.

The gripper 104 moves along with the mesh drum 64 in the advancing direction in the rinsing unit 12 and the liquid is discharged from the liquid- (14).

At this time, when the control unit 108 transmits the operation and stop command to the desalting cylinder 88 of the liquid-removing unit 14 to advance the rod, the water tank 32 is lifted up to the upper end groove 54 of the support base 52, The shaft 66 of the mesh drum 64 is seated and the driven gear 58 is engaged with the driven gear 70 at the same time.

When the control unit 108 transmits an operation command to the air pump 80 and supplies the high pressure air to the nozzle 76 and transmits an operation command to the rotation motor 60 in the above state, The power is transmitted to the driven gear 70, which is gear-engaged with the driving gear 58, and the mesh drum 64 is rotated.

Therefore, the rinse liquid remaining in the mechanical parts 2 is removed by the high-pressure air jetted from the nozzles 76, and the rinse liquid is removed from the machine parts 2 by the centrifugal force, , Whereby the mechanical part (2) is in a state in which the rinsing liquid is dewatered and dried by the high-pressure air and the centrifugal force.

The control unit 108 transmits the operation and stop command to the desalting cylinder 88 again and sends the operation stop command to the water tub 32 as described above. The mesh drum 64 is moved from the liquid-removing unit 14 to the take-out unit 16 by transmitting an operation and stop command to the feed motor 106 again.

The gripper 104 is moved together with the mesh drum 64 in the moving direction in the liquid-removing unit 14, and the carry- (16).

At this time, when the control unit 108 transmits an operation and stop command to the carry-out cylinder 92 of the carry-out unit 16 to advance the load, the carry-out table 90 is moved up to the bottom of the mesh drum 64 It becomes a condition to give and become.

After that, the control unit 108 transmits an operation command to the gripper 104 to release the fixing force to the arm 68, and then transmits the operation and stop command to the carry-out cylinder 92 again to reverse the load , The take-out table 90 and the mesh drum 64 are detached from the gripper 104 while descending together.

Thereafter, the mesh drum 64 is moved from the take-out table 90 to the loading place through a separate moving means not shown, and the other mesh drums 64 waiting at the inlet of the supplying unit 8 are moved one by one And is moved in the course of washing, rinsing, and dewatering as described above.

Although the preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, it is to be understood that the present invention is not limited to the disclosed embodiments. Those skilled in the art will appreciate that various modifications, It will be understood that various modifications and changes may be made without departing from the scope of the present invention.

2: mechanical part 4: moving member
6: Feeding device 8: Feeder
10: Cleaning part 12: Rinse part
14: liquid removing portion 16:
18: feed table 30: feed cylinder
32: water tank 34: drain valve
36: Cleaning liquid tank 38, 76: Nozzle
40, 62, 78: Bracket 42: Feed pump
44: discharge pipe 46: bubble generating pipe
48, 80: air pump 50: working cylinder
52: support 54: groove
56: rotation shaft 58:
60: rotation motor 64: mesh drum
66: shaft 68: arm
70: driven gear 88: desalting cylinder
90: Exit table 92: Exit cylinder
94: Column 96: Sprocket Sprocket
98: driven sprocket 102: chain
104: gripper 106: feed motor
108:

Claims (7)

delete delete delete delete A box-shaped water tank 32 coupled to the lower portion of the bubble generating tube 46 connected to the air pump 48 and vertically provided with a support stand 52 on both sides of the bottom surface thereof;
A drain valve 34, a rotary motor 60, and a nozzle 38 installed at the bottom, side, and top of the water tank 32;
A supply pump (42) connected to the cleaning liquid tank (36) while connecting the nozzle (38);
And is rotatably driven by the force transmitted to the driven gear 58 of the rotary motor 60 by being engaged with the driven gear 70 while being detachably mounted on the support base 52, Member (4);
A transfer device 6 installed on the water tub 32 to move the moving member 4 from the supply table 18 to the water tub 32 and the take-out table 90 in this order; In this case,
The operation cylinder 50 is vertically installed on the bottom surface of the water tank 32 to join the rod end,
When the water tub 32 rises by the operation cylinder 50, the driving gear 58 and the driven gear 70 are engaged with each other and the mesh drum 64 is seated on the support base 52, Respectively,
When the water tub 32 is lowered by the operation cylinder 50, the driven gear 58 and the driven gear 70 are separated from each other and the mesh drum 64 is separated from the support base 52, ) Of the drum-type machine parts is blocked. 6. The method of claim 5,
The mesh drum 64 enters into the water tank 32 and is connected to the upper end of the support table 52 by connecting the water level control discharge pipe 44 to the washing liquid tank 36 at an intermediate portion of the side wall of the water tank 32, So that only a part of the mesh drum (64) is submerged in the cleaning liquid.


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