KR20190093328A - Prefabricated cleaning nozzle and prefabricated cleaning device - Google Patents

Abstract

The present invention relates to a prefabricated cleaning nozzle capable of adjusting a width direction gap of a nozzle slit in which a fluid is sucked or sprayed using the principle of the lever, diversifying the size of foreign materials and adjusting suction or injection forces in the nozzle slit, and to a prefabricated cleaning device having the same. To this end, the prefabricated cleaning nozzle, of which a linear nozzle slit is opened, comprises: a first processing bracket and a second processing bracket extended in the longitudinal direction by corresponding to the nozzle slit and arranged to face each other; a sealing member sealing a gap between an upper end of the first processing bracket and a lower end of the second processing bracket; and a gap adjusting member spaced apart from the sealing member and connecting the first processing bracket and the second processing bracket by screw coupling. The nozzle slit formed by the gap adjusting member and a processing space communicating with the nozzle slit are provided between the first processing bracket and the second processing bracket. In addition, the width direction gap of the nozzle slit is adjusted in accordance with the degree to which the gap adjusting member is screwed to the first processing bracket and the second processing bracket.

Description

Prefabricated cleaning nozzle and prefabricated cleaning device equipped with it {PREFABRICATED CLEANING NOZZLE AND PREFABRICATED CLEANING DEVICE}

The present invention relates to a prefabricated cleaning nozzle and a prefabricated cleaning apparatus provided with the same, and more specifically, it is possible to adjust the interval in the width direction of the nozzle slit in which the fluid is sucked or injected by using the principle of the lever, and to vary the size of the foreign matter. The present invention relates to a prefabricated cleaning nozzle and a prefabricated cleaning device provided with the prefabricated cleaning nozzle for adjusting the suction force or the injection force in the nozzle slit.

In general, a cleaning apparatus that sucks foreign matter from the object or injects fluid into the object for removal of foreign matter adhering to the surface of the object, such as a belt conveyor or substrate.

Such a cleaning device can prevent the object from being damaged by not pressurizing the object.

However, the cleaning apparatus according to the prior art includes a nozzle having an opening of a linear slit, and since the nozzle is difficult to control the spacing between the nozzle tips as it is standardized, various nozzles may be used depending on the type of the workpiece and the size of the foreign matter. Must be equipped.

In addition, since the interval between the nozzle tips is constant, in order to adjust the suction force or the injection force, it is necessary to adjust the power of the suction means or the injection means.

Republic of Korea Patent Publication No. 10-1122282 (Invention name: non-contact belt cleaner, 2012. 03. 21. notification)

An object of the present invention is to solve the conventional problems, by using the principle of the lever can adjust the width direction of the nozzle slit in which the fluid is sucked or injected, to vary the size of the foreign matter, the suction force or It is to provide a prefabricated cleaning nozzle for adjusting the injection force and a prefabricated cleaning apparatus provided therewith.

According to a preferred embodiment for achieving the above object of the present invention, the prefabricated cleaning nozzle according to the present invention is a prefabricated cleaning nozzle with a linear nozzle slit is opened, is formed long in the longitudinal direction corresponding to the nozzle slit, mutually A first treatment bracket and a second treatment bracket disposed to face each other; A sealing member sealing the upper end of the first treatment bracket and the upper end of the second treatment bracket; And a spacing adjusting member spaced apart in the height direction from the sealing member and connecting the first treatment bracket and the second treatment bracket by screwing, between the first treatment bracket and the second treatment bracket. And a processing space communicating with the nozzle slit and the nozzle slit by the gap adjusting member, and the nozzle slit according to the extent to which the gap adjusting member is screwed to the first processing bracket and the second processing bracket. The width of the gap is adjusted.

Herein, at least one of the first treatment bracket and the second treatment bracket may include a treatment plate on one side of which is tightly supported by the sealing member to form an entirety or a part of the treatment space; And a nozzle plate extending from the other side of the treatment plate, wherein the nozzle slit is formed between the plate and the other plate facing the nozzle plate, and the gap adjusting member faces the nozzle plate through screwing. Connect the plate.

Here, at least one of the first treatment bracket and the second treatment bracket on which the sealing member is supported, a sealing groove portion into which the sealing member is inserted; is provided.

Here, the gap adjusting member, the first adjusting member spaced apart in the height direction from the sealing member to interconnect the other plate facing the nozzle plate through the screw coupling; And a second adjusting member spaced apart from the first adjusting member in a height direction to press another plate facing the nozzle plate based on the screw coupling.

Here, at least one of the first treatment bracket and the second treatment bracket, the fluid processing unit for supplying a fluid to the processing space, or the fluid of the processing space is discharged; is penetrated or recessed.

The prefabricated cleaning nozzle according to the present invention further includes a closing member sealing the front end and the rear end of the treatment space and the front end and the rear end of the nozzle slit corresponding to the longitudinal direction of the first treatment bracket.

Here, the processing space; is provided with a filter for filtering the received fluid.

The prefabricated cleaning device according to the present invention includes a nozzle unit in which a linear nozzle slit is opened; And a fluid drive unit that provides suction force or injection force to the nozzle slit, wherein the nozzle unit includes a prefabricated cleaning nozzle according to the present invention.

According to the prefabricated cleaning nozzle according to the present invention and the prefabricated cleaning apparatus provided with the same, the gap in the width direction of the nozzle slit in which the fluid is sucked or injected can be adjusted using the principle of the lever, and the size of the foreign matter is varied, and the nozzle slit You can adjust the suction or jetting force at

In addition, the present invention, since the first treatment bracket and the second treatment bracket relative to the sealing member in accordance with the screw coupling of the spacing control member to move relative to the pivot movement, it is possible to simplify the width direction spacing of the nozzle slit.

In addition, the present invention can improve the adhesion between the first treatment bracket and the second treatment bracket through the sealing groove, it is possible to prevent the fluid in the processing space from leaking.

In addition, the present invention can improve the adhesion between the first treatment bracket and the second treatment bracket and the sealing member according to the arrangement structure of the gap adjusting member, it is possible to prevent the fluid leakage of the processing space at the coupling portion of the sealing member.

In addition, the present invention facilitates the coupling with the fluid drive unit through the fluid treatment unit, it is possible to facilitate the supply or discharge of the fluid.

In addition, the present invention can prevent the fluid from leaking at the front and rear ends of the processing space and the front and rear ends of the nozzle slit through the finishing member.

In addition, the present invention can prevent the fluid leakage between the fluid drive unit and the nozzle unit during the pivotal movement of the first treatment bracket and the second treatment bracket through the detailed configuration of the fluid drive unit.

1 is a perspective view showing a prefabricated cleaning device according to an embodiment of the present invention.
Figure 2 is a cross-sectional view showing a nozzle unit in the prefabricated cleaning apparatus according to an embodiment of the present invention.
Figure 3 is a cross-sectional view of the nozzle unit showing a state in which the nozzle tip interval of the nozzle slit in the prefabricated cleaning apparatus according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of a prefabricated cleaning nozzle and prefabricated cleaning apparatus provided with the same. At this time, the present invention is not limited or limited by the embodiment. In addition, in describing the present invention, a detailed description of known functions or configurations may be omitted to clarify the gist of the present invention.

Now, a prefabricated cleaning device according to an embodiment of the present invention will be described. The prefabricated cleaning device according to an embodiment of the present invention may adjust the width direction interval of the nozzle slit 103 when the fluid is sucked from the nozzle slit 103 or the fluid is injected.

The prefabricated cleaning device according to an embodiment of the present invention may include a nozzle unit 100 in which a linear nozzle slit 103 is opened, and a fluid driving unit 300 that provides suction or injection force to the nozzle slit 103. Can be.

The nozzle unit 100 is formed in the longitudinal direction corresponding to the nozzle slit 103 and arranged to face each other, the first treatment bracket 110 and the second treatment bracket 120 and the first treatment bracket 110 Sealing member 130 for sealing between the upper end and the upper end of the second treatment bracket 120, and the first treatment bracket 110 and the second treatment bracket (110) spaced apart in the height direction from the sealing member 130 by a screw coupling ( It includes a gap adjusting member 140 for connecting 120.

Then, between the first processing bracket 110 and the second processing bracket 120, the nozzle slit 103 and the processing space 101 in communication with the nozzle slit 103 is formed by the gap adjusting member 140. . In addition, the first treatment bracket 110 and the second treatment bracket 120 are sealed according to the extent that the gap adjusting member 140 is screwed to the first treatment bracket 110 and the second treatment bracket 120. Since it is pivotally moved relative to the sealing member 130 in a state of being closely attached to the support 130, the widthwise interval of the nozzle slit 103 may be adjusted.

In more detail, when the gap adjusting member 140 is rotated in the tightening direction, the upper end portions of the first treatment bracket 110 and the second treatment bracket 120 are maintained in close contact with the sealing member 130 and the sealing member The lower portion of the second treatment bracket 120 approaches the first treatment bracket 110 by pivoting the first treatment bracket 110 and the second treatment bracket 120 on the basis of the reference numeral 130. The gap in the width direction of the 103 can be adjusted.

In addition, when the gap adjusting member 140 is rotated in the disengaging direction, the upper end portions of the first treatment bracket 110 and the second treatment bracket 120 are kept in close contact with the sealing member 130 and the sealing member 130 is maintained. The lower portion of the second treatment bracket 120 with respect to the first treatment bracket 110 moves away from the first treatment bracket 110 and the second treatment bracket 120 relative to the (1), the nozzle slit 103 You can adjust the interval in the width direction.

At least one of the first treatment bracket 110 and the second treatment bracket 120 may include a treatment plate forming the whole or part of the treatment space 101 and a nozzle plate extending from the other side of the treatment plate. . In an embodiment of the present invention, the first treatment bracket 110 and the second treatment bracket 120 are axially symmetric with respect to the sealing member 130.

Then, the sealing member 130 is tightly supported at one end of the treatment plate.

At this time, the nozzle slit 103 is formed between the nozzle plate and another plate facing each other, that is, between the nozzle plates facing each other. Then, the gap adjusting member 140 is connected to the other plate facing the nozzle plate, that is, the nozzle plate facing each other through the screw coupling.

In an embodiment of the present invention, the treatment plate may include a first treatment plate 111 having one side closely supported by the sealing member 130, and a second treatment plate 112 extending from the other side of the first treatment plate 111. And a third processing plate 113 extending from the second processing plate 112. At this time, the processing space 101 is formed by the first processing plate 111 to the third processing plate 113.

In an embodiment of the present invention, the nozzle plate is bent in steps in the third processing plate 113. And the nozzle tip 125 is formed at the end of the nozzle plate.

The nozzle plate is formed by bending the first nozzle plate 121 at the third processing plate 113, the second nozzle plate 122 bent at the first nozzle plate 121, and the second nozzle plate 122. The third nozzle plate 123 bent at the third nozzle plate 123 and the fourth nozzle plate 124 bent at the third nozzle plate 123 may be included. Then, a first space 1021 in communication with the processing space 101 is formed between the first nozzle plate 121 and another plate facing each other, that is, between the first nozzle plate 121 facing each other. Between the second nozzle plate 122 and another plate facing each other, that is, between the second nozzle plate 122 facing each other, a second space 1022 communicating with the first space 1021 is formed, and the third nozzle A third space 1023 communicating with the second space 1022 is formed between the plates 123 and other plates facing each other, that is, between the third nozzle plates 123 facing each other, and the fourth nozzle plate ( The nozzle slit 103 communicating with the third space 1023 is formed between the other plates facing the 124, that is, between the fourth nozzle plates 124 facing each other. The nozzle tip 125 is formed at an end of the fourth nozzle plate 124.

In an embodiment of the present invention, t0 is a state before the width direction interval of the nozzle slit 103 is adjusted, and t1 is a state in which the width direction interval of the nozzle slit 103 is adjusted according to the operation of the gap adjusting member 140. Indicates. In other words, in one embodiment of the present invention, t0 is a state before adjusting the interval between a pair of nozzle tips 125 formed to be spaced apart from each other at the end of the nozzle plate, t1 is spaced apart from the end of the nozzle plate The interval between the pair of nozzle tips 125 formed to be adjusted is shown.

Here, at least one of the first treatment bracket 110 and the second treatment bracket 120 on which the sealing member 130 is supported is provided with a sealing groove 131 into which the sealing member 130 is inserted and thus the first treatment bracket. The fluid may be prevented from leaking to the upper side of the 110 and the second treatment bracket 120.

In addition, at least one of the first treatment bracket 110 and the second treatment bracket 120 supplies a fluid to the treatment space 101 or a fluid treatment part 115 through which the fluid in the treatment space 101 is discharged. Or recessed. In one embodiment of the present invention is formed recessed in each of the first processing plate 111 facing each other, the processing space 101 is exposed in accordance with the combination of the first processing bracket 110 and the second processing bracket 120 Form a hole.

In addition, the processing space 101 is provided with a filter 400 for filtering the received fluid. Accordingly, the filter support groove 116 may be provided in the first treatment bracket 110 and the second treatment bracket 120. An edge of the filter 400 may be fitted into the filter support groove 116 to filter the fluid in the processing space 101.

The gap adjusting member 140 may be spaced apart from the sealing member 130 in the height direction and disposed in two or more rows corresponding to the length direction of the nozzle slit 103.

In the two-row arrangement structure of the gap adjusting member 140, the first treatment bracket 110, the second treatment bracket 120, and the second treatment bracket 120 correspond to the change of t1 in adjusting the gap between the pair of nozzle tips 125. By improving the adhesion between the sealing member 130, the bonding force of the nozzle unit 100 is improved, it is possible to prevent the fluid leakage of the processing space 101 at the coupling portion of the sealing member 130.

The gap adjusting member 140 is spaced apart in the height direction from the sealing member 130, and the first adjusting member 141 and the first adjusting member 141 which interconnect the other plate facing the nozzle plate through the screw coupling The second adjusting member 142 may be spaced apart in the height direction and presses another plate facing the nozzle plate based on the screw coupling.

In other words, the gap adjusting member 140 is spaced apart in the height direction from the sealing member 130 to face the nozzle plate, that is, the first adjustment screwed to the second nozzle plate 122 facing each other The second adjusting member 142 screwed to the member 141 and another plate facing the nozzle plate spaced apart from the first adjusting member 141 in the height direction, that is, the third nozzle plate 123 facing each other. ) May be included. Then, the first adjusting member 141 stabilizes the coupling of the first treatment bracket 110 and the second treatment bracket 120, and the second adjusting member 142 adjusts the width direction interval of the nozzle slit 103. Can be.

The first adjusting member 141 may be all screwed to the nozzle plates facing each other, or may be screwed to the other through any one of the nozzle plates facing each other. In addition, the second adjustment member 142 is to support the pressure of the other in the state that is screwed to any one of the nozzle plate facing each other.

Then, by adjusting the screw coupling state through the first adjustment member 141, to stabilize the coupling of the first treatment bracket 110 and the second treatment bracket 120, the screw coupling through the second adjustment member 142 By adjusting the state, the width direction interval of the nozzle slit 103 can be adjusted. In addition, the adhesion between the first treatment bracket 110 and the second treatment bracket 120 and the sealing member 130 may be maintained by the interaction between the first adjusting member 141 and the second adjusting member 142. .

The nozzle unit 100 further includes a closing member 200 which seals the front end and the rear end of the processing space 101 and the front end and the rear end of the nozzle slit 103 corresponding to the longitudinal direction of the first processing bracket 110. can do. Although not shown, a closing gasket (not shown) may be provided between the finishing member 200 and the nozzle unit 100 to prevent leakage of the fluid.

The fluid driving unit 300 is a fluid line connecting the fluid driving unit 310 and the fluid processing unit 115 of the nozzle unit 100 and the fluid driving unit 310 to generate the suction force or the injection force provided to the nozzle slit 103 320 may be included. In addition, the fluid drive unit 300 further includes a fluid bracket 330 coupled to the fluid processing unit 115 in a state where the fluid line 320 is connected, and seals the fluid bracket 330 between the nozzle unit 100. It may further include a fluid gasket 340. As the fluid gasket 340 has a predetermined thickness and is elastically deformed, the fluid gasket 340 may stabilize the sealing between the fluid bracket 330 and the nozzle unit 100 and prevent leakage of the fluid.

Now, a prefabricated cleaning nozzle according to an embodiment of the present invention will be described. In the prefabricated cleaning nozzle according to the exemplary embodiment of the present invention, a linear nozzle slit 103 through which a fluid is sucked or a fluid is injected is opened to remove foreign substances present in a workpiece. Prefabricated cleaning nozzle according to an embodiment of the present invention includes the above-described nozzle unit 100, a description thereof will be omitted.

In one embodiment of the present invention, by sucking the fluid through the nozzle slit 103, it is possible to adsorb foreign substances attached to the workpiece. An embodiment of the present invention is not limited thereto, and by spraying a fluid through the nozzle slit 103, foreign matters can be removed from the object to be processed.

Reference numeral 201 denotes a finishing member for fixing the finishing member 200 to the nozzle unit 100 through screwing, and reference numeral 202 denotes a finishing member for screwing the finishing member 201.

According to the above-described prefabricated cleaning nozzle and prefabricated cleaning apparatus provided therewith, the nozzle may be prefabricated, and the interval in the width direction of the nozzle slit 103 through which the fluid is sucked or injected may be adjusted by using the principle of the lever, and the foreign matter The size of the can be varied, the suction force or the injection force in the nozzle slit 103 can be adjusted.

In addition, since the first treatment bracket 110 and the second treatment bracket 120 are pivotally moved relative to the sealing member 130 according to the screwing of the gap adjusting member 140, the nozzle slit 103 The width direction adjustment can be made easily.

In addition, the sealing groove 131 may improve the adhesion between the first treatment bracket 110 and the second treatment bracket 120 and prevent leakage of the fluid in the treatment space 101.

In addition, the adhesion between the first treatment bracket 110 and the second treatment bracket 120 and the sealing member 130 according to the arrangement structure of the gap adjusting member 140, and at the coupling portion of the sealing member 130 Fluid leakage of the processing space 101 can be prevented.

In addition, the fluid handling unit 115 may facilitate the coupling with the fluid driving unit 300, and may smoothly supply or discharge the fluid.

In addition, it is possible to prevent the fluid from leaking at the front and rear ends of the processing space 101 and the front and rear ends of the nozzle slit 103 through the finishing member 200.

In addition, a fluid leaks between the fluid driving unit 300 and the nozzle unit 100 during the pivoting movement of the first treatment bracket 110 and the second treatment bracket 120 through the detailed configuration of the fluid driving unit 300. Can be prevented.

Although the preferred embodiments of the present invention have been described with reference to the drawings as described above, those skilled in the art can variously change the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. Can be modified or changed.

100: nozzle unit 101: processing space 1021: first space
1022: second space 1023: third space 103: nozzle slit
110: first treatment bracket 120: second treatment bracket 130: sealing member
111: first processing plate 112: second processing plate 113: third processing plate
115: fluid treatment part 116: filter support groove 121: first nozzle plate
122: second nozzle plate 123: third nozzle plate 124: fourth nozzle plate
125: nozzle tip 131: sealing groove 140: gap adjusting member
141: first adjusting member 142: second adjusting member 200: finishing member
201: Finishing member 202: Finishing part 300: fluid drive unit
310: fluid drive unit 320: fluid line 330: fluid bracket
340: fluid gasket 400: filter
t0: distance between the pair of nozzle tips before adjustment
t1: distance between a pair of nozzle tips after adjustment

Claims (8)

Prefabricated cleaning nozzle with a linear nozzle slit,
A first treatment bracket and a second treatment bracket which are formed to extend in the longitudinal direction corresponding to the nozzle slit, and face each other;
A sealing member sealing the upper end of the first treatment bracket and the upper end of the second treatment bracket; And
Includes; spaced apart from the sealing member in the height direction, the interval adjusting member for connecting the first treatment bracket and the second treatment bracket by screwing,
Between the first processing bracket and the second processing bracket, a processing space communicating with the nozzle slit and the nozzle slit is formed by the gap adjusting member,
Prefabricated cleaning nozzles, characterized in that the width direction interval of the nozzle slit is adjusted according to the extent that the gap adjusting member is screwed to the first treatment bracket and the second treatment bracket. The method of claim 1,
At least one of the first treatment bracket and the second treatment bracket,
A sealing plate on one side of which is tightly supported, and forming a whole or part of the processing space; And
And a nozzle plate extending from the other side of the treatment plate.
Between the nozzle plate and the other plate, the nozzle slit is formed,
The gap adjusting member is a prefabricated cleaning nozzle, characterized in that for connecting the other plate facing the nozzle plate through the screw coupling. The method of claim 2,
And at least one of the first treatment bracket and the second treatment bracket on which the sealing member is supported, a sealing groove part into which the sealing member is inserted. The method of claim 2,
The gap adjusting member,
A first adjusting member spaced apart in the height direction from the sealing member and interconnecting another plate facing the nozzle plate through screwing; And
And a second adjusting member spaced apart from the first adjusting member in a height direction to press another plate facing the nozzle plate based on a screw coupling. The method of claim 1,
At least one of the first treatment bracket and the second treatment bracket,
Prefabricated cleaning nozzle, characterized in that the fluid processing unit for supplying a fluid to the processing space, or the fluid of the processing space is discharged through or recessed. The method of claim 1,
And a closing member sealing the front end and the rear end of the treatment space and the front end and the rear end of the nozzle slit corresponding to the longitudinal direction of the first treatment bracket. The method according to any one of claims 1 to 6,
And a filter for filtering the received fluid in the processing space. A nozzle unit in which a linear nozzle slit is opened; And
And a fluid drive unit that provides suction force or injection force to the nozzle slit.
The nozzle unit,
A prefabricated cleaning apparatus comprising the prefabricated cleaning nozzle according to any one of claims 1 to 6.

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