KR102167909B1 - Device for water injection - Google Patents

Abstract

The present invention relates to a water spraying apparatus, which sprays water to a road side. The water spraying apparatus includes: a spray part installed on a support part to spray the water to the road side; a water supply part supplying the water to the spray part side; a pressure driving part applied to the spray part side to determine an operation of the spray part; and a control part controlling the water supply part and the pressure driving part, thereby allowing the water to be automatically sprayed only when a predetermined condition is satisfied. Therefore, the water spraying apparatus can reduce water waste and increase work convenience.

Description

Water spray device {DEVICE FOR WATER INJECTION}

The present invention is a device for spraying water on the road side, an injection unit installed on a support to spray water to the road side, a water supply unit supplying water to the injection unit side, and an operation of the injection unit acting on the injection unit side It is a water spraying device capable of reducing water wastage and improving work convenience by automatically spraying water only when certain conditions are satisfied, including a pressure driving unit that determines the pressure and a control unit that controls the water supply unit and the pressure driving unit. .

In general, a method of spraying water to the road side is used to remove fine dust generated when a vehicle moves. That is, water is sprayed onto the dust scattering on the road so that the dust falls toward the road.

Such a water spraying device typically receives water from a water supply and sprays water to the road through a water spraying section such as a nozzle.

However, the conventional water spraying device described above has a problem in that water is wasted or inconvenient in work is caused by supplying water for a predetermined period of time or by a worker directly driving the water spraying device.

Meanwhile, the above-described water spraying device itself is widely known and is particularly described in detail in the prior art document below, and a description and illustration thereof will be omitted.

Korean Patent Registration No. 10-0844582 Korean Patent Registration No. 10-2021015 Korean Patent Registration No. 10-2009623

The present invention is to solve the above-described problem, the spraying device is installed on the support portion to spray water to the road side, a water supply portion supplying water to the side of the spraying portion, and the spraying portion is operated on the side Water that can reduce water waste and improve work convenience by automatically spraying water only when certain conditions are satisfied, including a pressure driving unit that determines the operation of the injection unit and a control unit that controls the water supply unit and the pressure driving unit. It is an object to provide an injection device.

Features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings.

Prior to this, terms or words used in the present specification and claims should not be interpreted in a conventional and dictionary meaning, and the inventor may appropriately define the concept of the term in order to describe his or her invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention based on the principle that there is.

The present invention for achieving the above object is a spray device 10 provided on a support part F installed on one side of the road R to spray water to the road R side, wherein the spray device 10 It is installed in (F) and acts on the injection unit 100 to spray water to the road (R) side, the water supply unit 300 to supply water to the injection unit 100, and the injection unit 100 side And a pressure driving unit 200 for determining the operation of the injection unit 100 and a control unit CON for controlling the water supply unit 300 and the pressure driving unit 200, and the injection unit 100 includes the support unit (F) a hollow housing 110 installed on one side, a moving part 120 installed inside the housing 110 and movable in a longitudinal direction, and a moving part 120 installed inside the housing 110 and the The moving part 120 includes an elastic part 130 for moving the moving part 120, and the moving part 120 is moved by the pressure driving part 200 to receive water from the water supply part 300 to move water toward the road R. It provides a water spray device to spray.

In the above, the moving part 120 of the injection part 100 is installed inside the housing 110 and extends in the longitudinal direction, and one side is exposed from the housing 100 and disposed in the direction of the water supply part 300, and The moving part main body 121 on which the flow path 122 is formed, and a locking protrusion 123 protruding outside the moving part main body 121 and in contact with the inner surface of the housing 110, the housing 110 The housing main body 111 having an empty space part 112 formed therein, and the housing main body 111 protruding in an inward direction and spaced apart in the length direction, and the locking projection 123 of the moving part 120 The first stopper 114 and the second stopper 115 to be engaged, and the discharge portion 113 formed on the inner side of the end of the housing body 111 in the water spraying direction, and the diameter increases toward the water spraying direction, The housing body 111 is formed on one side, communicates with the inner surface, and includes a fluid entry hole 116 connected to the pressure driving unit 200, and the first stopper 114 is in the direction of the discharge unit 113 And the second stopper 115 is disposed at a predetermined interval from the first stopper 114 in a direction opposite to the discharge part 113, and the elastic part 130 is an outer surface of the moving part main body 121 And the second stopper 115 and grips the moving part main body 121 to pull the moving part main body 121.

In the above, further comprising a cross roller bearing (CR) provided between the locking projection 123 and the inner surface of the housing body 111, the cross roller bearing (CR) is disposed between a plurality of rollers (CR4) Including a retainer 400, the retainer 400 includes a first retainer body 410 and a second retainer body 420 in a plate shape to be coupled to each other, the first retainer body 410 ), a through hole TH on a side opposite to the second retainer body 420, and a first central inlet hole 413 and a first side inlet hole 414 under the through hole TH, The first central inlet hole 413 is formed at a central point in the width direction as the lower side of the first retainer body 410, and the first side inlet hole 414 is the amount of the first central inlet hole 413 in the width direction. A first upper seating groove 411 and a first lower seating groove 412 recessed in the thickness direction on the side of the first retainer body 410 in the direction of the second retainer body 420 It is formed to be spaced apart in the height direction, and a first central communication hole (413-1) is formed at a lower side of the first lower seating groove 412 to communicate with the first central inlet hole 413, and the first First side communication holes 414-1 are formed on both sides of the central communication hole 413-1 in the width direction to communicate with the first side inlet hole 414, and the first central communication hole 413-1 ) And the first lower seating groove 412, a flow path FL is formed, and a flow path FL is formed between the first side communication hole 414-1 and the first lower seating groove 412 And, the first central storage groove (451-1) is formed in the upper side of the first upper seating groove (411) concave, and the first side storage grooves on both sides in the width direction of the first upper seating groove (411) ( 416-1) is formed with a concave groove, and a third storage groove 417 is formed with a concave groove between the first upper seating groove 411 and the first lower seating groove 412, and the first central storage groove ( 451-1) and the first side storage groove (416-1), and between the third storage groove 417 and the first upper seating groove 411 A flow path FL is formed.

In the above, the through hole TH on the side opposite to the first retainer body 410 of the second retainer body 420 and the second central inlet hole 423 and the second central inlet hole on the upper side of the through hole TH. A second inlet hole 414 is formed, a third inlet hole 425 is formed between the through hole TH, and the second central inlet hole 423 is an upper side of the second retainer body 420 It is formed at a central point in the width direction, and a plurality of the second side inlet holes 424 are provided on both sides of the second central inlet hole 423 in the width direction, and the first side of the second retainer body 420 The second upper seating groove 421 and the second lower seating groove 422 recessed in the thickness direction on the side of the data body 410 direction are formed to be spaced apart in the height direction, and the upper side of the second upper seating groove 421 A second central communication hole 423-1 is formed in the second central inlet hole 423 to communicate with the second central communication hole 423-1, and second side communication holes ( 424-1) is formed to communicate with the second side inlet hole 424, and a flow path FL is formed between the second central communication hole 423-1 and the second lower seating groove 412, , A flow path FL is formed between the second side communication hole 424-1 and the second upper seating groove 421, and a third communication hole 427 on the upper side of the second lower seating groove 422 ) Is formed, and second side storage grooves 426-1 are formed by concave grooves on both sides of the second lower seating groove 422 in the width direction, and a second center is formed at the lower side of the second lower seating groove 422 A storage groove (425-1) is formed, the second central storage groove (452-1), the second side storage groove (426-1), the third communication hole (427) and the second lower seating groove (422) A flow path FL is formed therebetween, and grease flows through the through hole TH of the first retainer body 410 and the through hole TH of the second retainer body 420, and the first After the grease is introduced through the first central inlet hole 413 and the first side inlet hole 414 of the retainer body 410, the first central communication hole 413-1 and the first side communication hole 414-1 ) Part of the grease is introduced into the first lower seating groove 412 through the flow path FL, and the remainder is the second central storage groove 425-1 and the second side of the second retainer body 220 After flowing into the storage groove (426-1), it is introduced into the second lower seating groove (422) through the flow path (FL), the second central inlet hole (423) and the second of the second retainer body (420). After the grease flows in through the side inlet hole 424, a part of the grease through the second central communication hole 413-1 and the second side communication hole 414-1 is transferred to the second upper part through the flow path FL. It is introduced into the mounting groove 421, and the rest is introduced into the first central storage groove 415-1 and the first side storage groove 416-1 of the first retainer body 210, and then the first upper mounting groove ( A portion of the grease flows through the flow path FL to 411, and after the grease flows through the third inlet hole 425 of the second retainer body 420, the third communication hole 427 Flow path after flowing into the second upper seating groove 421 and the second lower seating groove 422 through the path FL, and the remainder flowing into the third storage groove 417 of the first retainer body 410 It flows into the first upper seating groove 411 and the first lower seating groove 312 through (FL).

In the above, further comprising a buffer part 500 provided between the first retainer body 410 and the second retainer body 420, the buffer part 500 is the first retainer body 410 The first upper seating groove 411 and the first lower seating groove 412 and the second upper seating groove 421 and the second lower seating groove 422 of the second retainer body 420 are respectively disposed, and the buffer unit 500 is an elastic storage unit 510 in which grease is introduced to expand and contract, a support ring 520 in which the elastic storage unit 510 is accommodated therein, and the elastic storage unit provided in the support ring 520 It includes a foldable elastic portion 530 that provides an elastic force to 510, and the elastic storage portion 510 is an elastic material made of a hollow elastic storage body 510 and the elastic storage body 510 It is formed on the side and includes an entrance hole 520 through which grease enters and exits, and the support ring 520 has a ring shape and a first support ring 521 and a second support ring 522 spaced apart from each other at a predetermined interval, and the A bar-shaped connection frame 523 connecting between the first support ring 521 and the second support ring 522 is included, and the connection frame 523 is a first support ring 521 or a second support ring It is formed at a predetermined interval in the circumferential direction of 522, the foldable elastic portion 530 is disposed in the circumferential direction of the support ring 520 and formed in a wave shape, and is disposed in the space between the connection frames 523, respectively, , A part of the circumferential direction of the foldable elastic part 530 is opened so that when the elastic storage part 510 is expanded, the foldable elastic part 530 comes into contact with the foldable elastic part 530, and the elastic storage part 510 expanded by the restoring force ) Is restored.

In the above, it further comprises a connection portion 540 disposed between the elastic storage portion 510, the connection portion 540 is provided on both sides of the ring-shaped elastic portion 541 and the elastic portion 541, Each includes a cover 542 fixed to the elastic storage unit 510, wherein the elastic portion 541 has an elastic arc portion 5411 having an arc-shaped cross section having a specific circumferential length, and the elastic arc portion ( Includes extension portions 5412 extending in a horizontal direction from both sides of the 5411, and the cover 542 includes a first cover 542A and an elastic portion 542 provided on one side of the elastic portion 541 ), and includes a second cover 542B having a symmetrical shape of the first cover 542A, and the cover 542 is a hollow shape and disposed inside the extension part 5412, and an elastic part ( 541) includes a cover body 5241 with an open direction and an interlocking protrusion 5242 protruding on the cover body 5241, and an extension part 5412 disposed on one side of the elastic part 541 has a circumference The first opening portion 5413 formed in the direction is formed so that the interlocking protrusion 5242 is inserted, and the extension portion 5412 disposed on the other side of the elastic portion 541 is formed in the direction of the elastic storage portion 510 The second opening portion 5414 is formed, and the interlocking protrusion 5242 is inserted therein.

In the above, the water supply unit 300 is a transfer pump 310 for drawing water from the water storage unit and transferring water to the injection unit 100, and the water is temporarily stored in communication with the transfer pump 310. It includes a temporary storage unit 320 in communication with the injection unit 100, and the transfer pump 310 is provided with a heater (H) interlocked with the control unit (CON) on one side.

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According to the present invention described above, there is an effect of reducing waste of water and improving the convenience of work.

1 is a schematic diagram of a water spraying device according to an embodiment of the present invention,
2 to 4 are schematic diagrams showing the operation process of the water spraying device according to an embodiment of the present invention,
5 is a schematic diagram showing a coupling relationship between a cross roller bearing of a water spraying device according to an embodiment of the present invention;
6 and 7 are schematic views of a general cross roller bearing,
8 to 11 are perspective views showing a retainer among cross roller bearings of a water spraying device according to an embodiment of the present invention;
12 to 18 are perspective views illustrating an absorber of a water spraying device according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of components shown in the drawings may be exaggerated for clarity and convenience of description.

In addition, terms to be described later are terms defined in consideration of functions in the present invention and may vary according to the intention or custom of users or operators. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

In addition, the following examples do not limit the scope of the present invention, but are merely exemplary matters of the elements presented in the claims of the present invention, and are included in the technical idea throughout the specification of the present invention and the composition of the claims. Embodiments including elements that can be substituted as equivalents in elements may be included in the scope of the present invention.

The water spraying device 10 according to an embodiment of the present invention is a spraying device 10 provided on a support part F installed on one side of the road R and spraying water toward the road R. As shown in FIG. 4, an injection part 100 installed on the support part F to spray water toward the road R side, and a water supply part 300 supplying water to the injection part 100 side, It includes a pressure driving unit 200 acting on the side of the injection unit 100 to determine the operation of the injection unit 100, and a control unit CON that controls the water supply unit 300 and the pressure driving unit 200.

The support portion (F) is installed on the side of the road (R), for example, a boundary stone or a separation wall may be used. Such a support (F) can be used as long as the injection unit 100 can be installed, both temporary installations or permanent installations.

The water supply unit 300 supplies water to the injection unit 100, and as shown in FIG. 1, it draws water from an external water storage unit (not shown) and transfers water to the injection unit 100 And a temporary storage unit 320 communicating with the transfer pump 310 and temporarily storing water to communicate with the injection unit 100. The moving part (to be described later) of the spray part 100 moves forward and backward to the temporary storage part 320 and water is supplied or the supply is stopped. On the other hand, the transfer pump 310 is controlled by the control unit CON to supply water as well as recover water, and this will be described separately.

On the other hand, the transfer pump 310 is provided with a heating unit (H) interlocked with the control unit (CON). This is because a certain amount of water is always left inside the transfer pump 310 for water transfer, and thus the water freezes in winter, so that the transfer pump 310 may not operate. In order to prevent this phenomenon, the heating unit H may be provided on one side of the transfer pump 310. The heating unit H may use a heating wire provided on one side of the transfer pump 310. Of course, the heating unit H may be provided with the transfer pump 310 therein to maintain an appropriate temperature, such as a cabinet. In the end, the heating unit (H) of the present invention aims to keep the temperature of the transfer pump 310 constant. As long as this purpose is achieved, even if the heating unit (H) uses a different configuration, all of the present invention It is natural to belong to the category of. Meanwhile, after measuring the ambient temperature by the control unit CON, when the temperature is below a set temperature, the control unit CON may drive the heating unit H.

The injection unit 100 is determined whether or not water is injected by the pressure driving unit 200, and the pressure driving unit 200 includes a fluid transfer unit 210 using a transfer pump, etc., as shown in Figs. It includes a connection pipe 230 through which fluid is introduced into or withdrawn into the housing 110 by the fluid transfer unit 210. In this case, the pressure fluctuation is absorbed by including an accumulator 220 disposed on one side of the transfer pipe 230 and communicating with the transfer pipe 230. That is, when the fluid is injected into the housing 110 by the pressure driving unit 200, the moving unit moves to determine whether to supply water or not, as described later.

The injection part 100 includes a hollow housing 110 installed on one side of the support part F, a moving part 120 installed inside the housing 110 and movable in a longitudinal direction, and the It is installed inside the housing 110 and includes an elastic part 130 for moving the moving part 120. At this time, the moving part 120 is moved by the pressure driving part 200 to receive water from the water supply part 300 and spray water toward the road R. That is, whether to supply water may be determined according to the moving state of the moving part 120. For example, the moving part 120 may move toward the water supply part 300 to start supplying water, and the moving part 120 may be separated from the water supply part 300 and thus the water supply may be stopped.

The moving part 120 is installed inside the housing 110 and extends in the longitudinal direction, and one side is exposed to the outside of the housing 110 and disposed in the direction of the water supply unit 300, and a flow path 122 is formed therein. It includes a moving part main body 121 and a locking protrusion 123 protruding outside the moving part main body 121 and in contact with the inner surface of the housing 110.

The housing 110 includes a housing body 111 having an empty space 112 formed therein, and a housing body 111 protruding inwardly from an inner surface of the housing body 111 and spaced apart in a length direction, and the moving part 120 It includes a first stopper 114 and a second stopper 115 to which the locking projection 123 is locked. A discharge part 113 is formed on the inner surface of the end of the housing body 111 in the water spray direction. The diameter of the discharge part 113 is formed in a shape that increases toward the water spray direction (right side in the drawing).

Meanwhile, a fluid entry hole 116 is formed at one side of the housing body 111 and communicates with the inner surface of the housing body 111. In addition, the first stopper 114 is disposed in the direction of the discharge part 113, and the second stopper 115 is disposed in a direction opposite to the discharge part 113 and is spaced apart from the first stopper 114 by a predetermined interval. That is, in the illustrated embodiment, the first stopper 114 is disposed in the direction of the discharge part 113 (right direction in the drawing), and the second stopper 115 is in the opposite direction of the discharge part 113 (left side in the drawing). Direction).

The elastic part 130 is disposed between the outer surface of the moving part main body 121 and the second stopper 115 and grasps the moving part main body 121 to pull the moving part main body 121.

Whether or not water is supplied from the injection unit 100 is determined by this configuration, and this will be described in detail. First, as shown in FIG. 3, when fluid is injected into the housing 110 through the fluid entry hole 115, the pressure of the housing 110 increases and the moving part 120 moves to the right side in the drawing. At this time, the moving part 120 is connected to the elastic part 130, but the moving part 120 moves to the right in the drawing because the pressure of the fluid exceeds the pulling force of the elastic part 130. At this time, when the moving part 120 moves to the right in the drawing, it is separated from the temporary storage part 320 of the water supply part 300 and water supply is stopped. Meanwhile, the movement of the moving part 120 moves until the locking projection 123 contacts the first stopper 114.

In order to resume water supply, the fluid from the housing 110 is returned to the fluid transfer unit 210 side. To this end, the operation of the pump of the fluid transfer unit 210 may be stopped to allow the fluid to return, or the pump may be operated in the opposite direction to suck the fluid. When the fluid flows out of the housing 110, the pressure inside the housing 110 decreases. As a result, as shown in FIG. 4, a force for moving the moving part 120 to the right in the drawing is removed, so that the moving part 120 is pulled to the left in the drawing by the elastic part 130. At this time, since one side of the moving part 120 (in this embodiment, the left side of the drawing in the direction of the water supply part) is exposed to the water supply part 300, one side of the moving part 120 moves to the left side of the drawing It enters into the temporary storage part 320 of the supply part 300, and water communicates by this. Therefore, the water stored in the temporary storage unit 320 of the water storage unit 300 flows through the flow path 122 of the moving unit 120 to the road side through the discharge unit 113 of the housing 110. Is sprayed.

On the other hand, when the fluid flows out of the housing 110, the moving part 120 moves to the right side in the drawing as described above, and at this time, the locking protrusion 123 moves until it contacts the second stopper 115.

Meanwhile, as shown in FIG. 5, a cross roller bearing CR provided between the locking protrusion 123 and the inner surface of the housing body 111 may be further included. As described above, the moving part 120 moves back and forth and water flows through the inside, and the moving part 120 may rotate due to the flow of water or an external factor, and also the moving part ( 120) can be rotated to change the water spray direction. For example, as shown in FIG. 2, when the end 122a of the flow path 122 of the moving part 120 has a predetermined curvature, the spraying direction of water is eccentric in a specific direction, so as described above, the moving part 120 ) Can be rotated to make the entire spray.

In this case, when the rotation center of the moving part 120 is shaken, the movement of the moving part 120 may not be accurate. In order to prevent this, a cross roller bearing CR is provided.

The cross roller bearing CR is widely known and refers to a bearing in which the rollers CR1 cross in a direction perpendicular to each other as shown in FIGS. 6 and 7. These cross roller bearings can withstand loads in various directions well, and have high rigidity and precision durability compared to their small size. In the case of the present invention, the moving part receives a force in various directions, so that a force in various directions acts on the moving part. Therefore, it is preferable to use the cross roller bearing as well as a bearing rotatably supporting the moving part.

The cross roller bearing CR includes a retainer 400 as shown in FIG. 7. The retainer 400 is disposed between the rollers CR1 and a through hole (not shown) is formed on one side of the retainer 400 to allow the grease to flow. Such a cross roller bearing itself is widely known and has been described in detail, for example, Korean Patent No. 10-1953941, Korean Patent No. 10-1621626, and so on, and description and illustration thereof will be omitted.

On the other hand, the cross roller bearing (CR) of the present invention includes a retainer 400 disposed between a plurality of rollers (CR4) as shown in FIGS. 8 to 11, wherein the retainer 400 is mutually coupled. It includes a plate-shaped first retainer body 410 and a second retainer body 420. The first retainer body 410 and the second retainer body 420 may be coupled to each other by a bolt or the like, or may be coupled to each other by an adhesive or the like. In addition, the first retainer body 410 and the second retainer body 420 may have a flat side surface facing each other, and the opposite side side may protrude at a specific curvature as shown.

At this time, in the first retainer body 410 and the second retainer body 420 of the present invention, a plurality of flow holes are formed in addition to the conventionally used through hole TH, and a buffer part 500 to be described later is provided. This is because the grease flows through the through-hole of the retainer, and if a high pressure is momentarily applied to the grease due to an external impact or the like, there is a concern that the flow of the grease cannot be secured with the through-hole described above. To address this concern, the configuration described below is adopted and will be described in detail.

As shown in FIG. 9, a through hole TH and a lower side of the through hole TH are on the side (left side of the drawing) opposite the second retainer body 420 of the first retainer body 410 of the present invention. A first central inlet hole 413 and a first side inlet hole 414 are formed. The first central inlet hole 413 is formed at a central point in the width direction as the lower side of the first retainer body 410. A plurality of first side inlet holes 414 are provided on both sides of the first central inlet hole 413 in the width direction. In the illustrated embodiment, the first side inlet hole 414 is disposed on both sides of the first central inlet hole 413 in the vertical direction, so that a total of four are formed.

In addition, as shown in FIG. 8, the first upper seating groove 411 and the first recessed recessed in the thickness direction on the side of the first retainer body 410 in the direction of the second retainer body 420 (right side in the drawing) 1 The lower seating grooves 412 are formed to be spaced apart in the height direction. At this time, the through-holes TH are formed on the left and right sides of the first upper seating groove 411 and the first lower seating groove 412, respectively.

A first central communication hole 413-1 is formed under the first lower seating groove 412 to communicate with the first central inlet hole 413. Further, first side communication holes 414-1 are formed on both sides of the first central communication hole 413-1 in the width direction to communicate with the first side inlet hole 414. At this time, a flow path FL is formed between the first central communication hole 413-1 and the first lower seating groove 412, and the first side communication hole 414-1 and the first lower seating groove A flow path FL is formed between 412. As shown, the flow path FL may be formed as a path having a relatively narrow width. The first central communication hole (413-1) and the first lower seating groove 412 are communicated by this flow path (FL), and the first side communication hole (414-1) and the first lower seating groove ( 412) is communicated.

A first central storage groove (451-1) is formed as a concave groove on the upper side of the first upper seating groove (411), and first side storage grooves (416-) on both sides of the first upper seating groove (411) in the width direction. 1) is formed as a concave groove, and a third storage groove 417 is formed in a concave groove between the first upper seating groove 411 and the first lower seating groove 412, and the first central storage groove 451- A flow path FL is formed between 1) and the first side storage groove 416-1 and the third storage groove 417 and the first upper seating groove 411, which will be described separately.

Meanwhile, as shown in FIG. 8, a through hole TH is provided on a side (right side) of the second retainer body 420 opposite to the first retainer body 410 and an upper side of the through hole TH. 2 The central inlet hole 423 and the second side inlet hole 414 are formed. In addition, a third inflow hole 425 is formed between the through holes TH. The second central inlet hole 423 is formed at a central point in the width direction as an upper side of the second retainer body 420, and the second side inlet hole 424 is an amount of the second central inlet hole 423 in the width direction. A number of them are provided on the side. That is, the second central inlet hole 423 and the second side inlet hole 424 are formed to be vertically symmetric with the first central inlet hole 413 and the first side inlet hole 414 described above.

As shown in FIG. 9, a second upper seating groove 421 and a second lower seating groove 422 recessed in the thickness direction on the side of the second retainer body 420 in the direction of the first retainer body 410 It is formed to be spaced apart in this height direction. A second central communication hole 423-1 is formed on the upper side of the second upper seating groove 421 to communicate with the second central inlet hole 423, and the second central communication hole 423-1 Second side communication holes 424-1 are formed on both sides in the width direction to communicate with the second side inlet holes 424. A flow path FL is formed between the second central communication hole 423-1 and the second lower seating groove 412, and the second side communication hole 424-1 and the second upper seating groove 421 ), a flow path FL is formed to communicate with each other.

On the other hand, a third communication hole 427 is formed on the upper side of the second lower mounting groove 422, and the second side storage grooves 426-1 are formed on both sides of the second lower mounting groove 422 in the width direction. It is formed as a concave groove, a second central storage groove (425-1) is formed under the second lower seating groove (422), the second central storage groove (452-1) and the second side storage groove (426) -1) And a flow path FL is formed between the third communication hole 427 and the second lower seating groove 422.

That is, on the side surfaces of the first retainer 410 and the second retainer 420 facing each other, the first upper seating groove 411 and the second upper seating groove 421 and the first lower seating grooves ( 412) and the second lower seating groove 422 are formed, respectively, and each communication hole is also formed identically. However, only the third communication hole 427 is formed in the second retainer 420 is different.

On the other hand, the first side communication hole (414-1) and the first central communication hole (413-1) of the first retainer body 410 is the second side storage groove (426-1) of the second retainer 420 and The second central storage groove 425-1 communicates with each other, but the first side communication hole 414-1 and the first central communication hole 412-1 pass through the first retainer body 410 It communicates with the side inlet hole 414 and the first central inlet hole 413. However, the second side storage groove 426-1 and the second central storage groove 425-1 of the second retainer 420 are only formed to be concave and do not penetrate.

In addition, the second side communication hole 424-1 and the second central communication hole 423-1 of the second retainer body 420 are the first side storage grooves 416-1 of the first retainer 410 And the first central storage groove (415-1), respectively, but the second side communication hole (424-1) and the second central communication hole (422-1) pass through the second retainer body 420 It communicates with the second side inlet hole 424 and the second central inlet hole 423. However, the first side storage groove 416-1 and the first central storage groove 415-1 of the first retainer 410 are only formed to be concave and do not penetrate.

Hereinafter, a process in which grease flows in the retainer 400 of the present invention having such a configuration will be described.

First, grease flows through the through hole TH of the first retainer body 410 and the through hole TH of the second retainer body 420.

In addition, after the grease flows through the first central inlet hole 413 and the first side inlet hole 414 of the first retainer body 410, the first central communication hole 413-1 communicates with the first side. Part of the grease through the hole (414-1) flows into the first lower seating groove (412) through the flow path (FL), the rest is the second central storage groove (425-) of the second retainer body (220). 1) and the second side storage groove (426-1) and then flows into the second lower seating groove (422) through the flow path (FL).

That is, when the pressure of the grease temporarily increases due to an external impact, etc., so that the flow of grease is difficult only through the through hole TH, the grease may be applied to the first central inlet hole 413 and the first of the first retainer body 410. Grease is first introduced through the side inlet hole 414. A portion of the introduced grease is introduced into the first lower seating groove 412 through the flow path FL, and is directed to an absorption portion to be described later. The rest of the introduced grease flows into the second central storage groove 425-1 and the second side storage groove 426-1 of the second retainer body 220. The grease flowing into the second central storage groove 425-1 and the second side storage groove 426-1 flows into the second lower seating groove 422 through the flow path FL, and flows into the absorption portion described later. do. That is, the grease, which is firstly introduced into the absorption unit, and secondarily introduced into the second central storage groove 425-1 and the second side storage groove 426-1, temporarily stores the grease whose pressure has increased secondarily. . According to the present invention, even if the pressure of the grease temporarily increases, it can be absorbed.

On the other hand, the second retainer body 420 is similarly introduced through the second central inlet hole 423 and the second side inlet hole 424 of the second retainer body 420 and then the second central communication hole. Part of the grease is introduced into the second upper seating groove 421 through the flow path FL through the 413-1 and the second side communication hole 414-1, and the rest is the first retainer body 210 After flowing into the first central storage groove (415-1) and the first side storage groove (416-1) of, it flows into the first upper seating groove (411) through the flow path (FL).

At this time, grease may be introduced through the third inlet hole 425 of the second retainer body 420, and the grease introduced through the third inlet hole 425 is through the third communication hole 427 Part of the grease flows into the second upper seating groove 421 and the second lower seating groove 422 through the flow path FL and flows to the absorber, and the remainder is the third storage groove of the first retainer body 410 After flowing into 417, the first upper seating groove 411 and the first lower seating groove 312 are introduced through the flow path FL, and are introduced into the absorption unit.

Hereinafter, the buffer unit 500 provided between the first retainer body 410 and the second retainer body 420 will be described with reference to FIGS. 12 to 18.

The buffer part 500 includes a first upper seating groove 411 and a first lower seating groove 412 of the first retainer body 410 and a second upper seating groove 421 of the second retainer body 420 And are disposed in the second lower seating groove 422, respectively.

Such a buffer unit 500 is provided in the elastic storage unit 510 through which grease is introduced to expand and contract, the support ring 520 in which the elastic storage unit 510 is accommodated, and the support ring 520 It includes a foldable elastic portion 530 that provides an elastic force to the elastic storage portion 510. That is, the elastic storage portion 510 is disposed in the four seating grooves 411, 412, 421, 422, respectively, and the support ring 520 and the folded elastic portion 530 are disposed outside the elastic storage portion 510.

The elastic storage unit 510 includes an elastic storage unit body 510 made of an elastic material and having a hollow shape, and an entry hole 520 formed on one side of the elastic storage unit body 510 and through which grease enters and exits. That is, grease having an increased temporary pressure flows into the elastic storage body 510 using rubber or the like through the entrance hole 520. When the pressure returns to the normal state, the grease stored in the elastic storage body 510 flows out to the outside to properly maintain the grease pressure inside the cross roller bearing of the present invention.

Meanwhile, the elastic storage unit 510 is disposed inside the support ring 520, and the support ring 520 has a ring shape and a first support ring 521 and a second support ring 522 spaced apart at a predetermined interval. Includes. A bar-shaped connection frame 523 is provided between the first support ring 521 and the second support ring 522. The connection frame 523 is formed to be spaced apart at predetermined intervals in the circumferential direction of the first support ring 521 or the second support ring 522.

The foldable elastic parts 530 are disposed in the circumferential direction of the support ring 520 and formed in a wavy shape, and are respectively disposed in the space between the connection frames 523. That is, as shown, the folded elastic portion 530 has a ∧ shape and is disposed in the circumferential direction. The foldable elastic part 530 is disposed in the space of the connection frame 523. At this time, the distance between the connection frames 523 is formed longer than the horizontal distance in the ∧ shape of one unit among the foldable elastic parts 530. Due to this configuration, the foldable elastic portion 530 may be expanded in a horizontal direction and thus may respond to an increase in distance. In addition, a part of the folded elastic portion 530 in the circumferential direction is opened. This is to cope with the case that the foldable elastic part 530 contacts when the elastic storage part 510 is expanded and the foldable elastic part 530 is unfolded, and accordingly the distance increases. After the elastic storage part 510 is expanded, when the folded elastic part 530 returns by an elastic force, the foldable elastic part 530 presses the elastic storage part 510 to release the expanded elastic storage part 510. It will be restored.

Meanwhile, a connection part 540 is provided between the elastic storage parts 510. That is, even when the elastic storage unit 510 fluctuates or the elastic storage unit 510 on one side rotates, it is to absorb the elastic storage unit 510 so as to stably maintain the elastic storage unit 510.

The connection part 540 for this includes a ring-shaped elastic part 541 and a cover 542 provided on both sides of the elastic part 541 and fixed to the elastic storage part 510, respectively. In this case, the elastic portion 541 includes an elastic arc portion 5411 having an arc-shaped cross section having a specific circumferential length, and an extension portion 5412 extending in a horizontal direction from both sides of the elastic arc portion 5411. Include. The elastic arc portion 5411 may have an Ω shape as shown. The extension part 5412 extends in a horizontal direction from both sides of the elastic arc part 5411.

The cover 542 is disposed inside the extension part 5412. The cover 542 includes a first cover 542A provided on one side of the elastic part 541 and a second cover 542A provided on the other side of the elastic part 542 and having a symmetrical shape of the first cover 542A. Includes a cover 542B. That is, the cover 542 is disposed on both sides of the elastic portion 541 as shown in FIG. 13. The cover 542 has a symmetrical shape in a left and right direction, and a side surface of the cover 542 in the direction of the elastic portion 541 is opened. That is, the cover 542 has a hollow shape and includes a cover body 5241 in which the direction of the elastic portion 541 is opened. At this time, an interlocking protrusion 5242 protrudes on the cover body 5241.

The first opening portion 5413 formed in the circumferential direction is formed in the extension portion 5412 disposed on one side of the elastic portion 541 to insert the interlocking protrusion 5242 into the other portion of the elastic portion 541. A second opening portion 5414 formed in the direction of the elastic storage portion 510 is formed in the extension portion 5412 disposed on the side, and an interlocking protrusion 5242 is inserted therein.

That is, the first opening portion 5413 is formed in the circumferential direction, and the interlocking protrusion 5242 is inserted into the first opening portion 5413. Therefore, in FIG. 18, if the elastic storage part interlocked with the left cover 542A in the drawing rotates for some reason, the left cover 542A in the drawing rotates, and at this time, the interlocking protrusion 5242 also rotates. . However, since the interlocking protrusion 5242 rotates inside the first opening portion 5413, rotational displacement is limited. When the interlocking protrusion 5242 is to be rotated by more than the rotational displacement limited by the first opening 5413, the interlocking protrusion 5242 is caught by the inner surface of the first opening 5413 and the extension 5412 Is interlocked and rotates. The extension portion 5412 is formed integrally with the elastic arc portion 5411 so that the elastic arc portion 5411 also rotates, but its rotation range is considerably reduced. According to the present invention, even if there is rotation of the elastic storage unit, if it is within a certain range, rotation is allowed, and if it is above a certain range, its rotational displacement is elastically limited to achieve structural stability.

If there is a change between the elastic storage units, for example, when the distance between the elastic storage units increases, the interlocking protrusion 5242 is engaged in the first opening 5413 and the interlocking protrusion 5242 is also in the second opening 5412. ) Is engaged so that the increase between the elastic storage units causes the elastic arc portion 5411 to be elastically opened, thereby responding to this.

Conversely, when the distance between the elastic storage portions decreases, the elastic arc portion 5411 is elastically opened, and thus it is possible to respond to this.

Hereinafter, it will be described with reference to FIGS. 8 to 18 again.

As shown in FIG. 8, when the pressure of the grease filled on one side of the retainer 400 temporarily increases, the grease flows through the through hole TH of the retainer 400 to lower the pressure of the portion where the temporary pressure increases. If the pressure further increases, the grease is first introduced into the grease through, for example, the first central inlet hole 413 and the first side inlet hole 414 of the first retainer body 410. Some of the introduced grease is introduced into the first lower seating groove 412 through the flow path FL and is directed to the absorption part 500. The rest of the introduced grease flows into the second central storage groove 425-1 and the second side storage groove 426-1 of the second retainer body 220. The grease flowing into the second central storage groove 425-1 and the second side storage groove 426-1 flows into the second lower seating groove 422 through the flow path FL, and the absorber 500 Flows into. That is, grease that firstly flows into the absorption unit 500 and secondly flows into the second central storage groove 425-1 and the second side storage groove 426-1, thereby increasing the pressure secondarily. Temporarily save. According to the present invention, even if the pressure of the grease temporarily increases, it can be absorbed.

The grease introduced into each of the seating grooves flows toward the absorbing portion 500 provided in each of the seating grooves. The grease is directed toward the elastic storage unit 510 through an open portion (part O in FIG. 13) of the folded elastic portion 530 of the absorbing portion 500. Grease directed toward the elastic storage unit 510 is introduced into the elastic storage unit 510 through the access hole 512 of the elastic storage unit 510. The elastic storage part 510 is expanded by the introduced grease. The expanded elastic storage part 510 presses the foldable elastic part 530 as shown in FIG. 16 so that the foldable elastic part 530 is unfolded.

If the pressure of the grease whose temporary pressure has increased and the pressure of the grease falls, the unfolded elastic storage unit 530 compresses the expanded elastic storage unit 510 while returning by the elastic force, thereby filling the elastic storage unit 510 inside. The grease is discharged through the entrance hole 512. The discharged grease is discharged to the outside of the retainer 400 through the opposite process described above.

According to the present invention described above, even if the moving part rotates under various directions of force, the moving part can be stably supported. Meanwhile, as shown in FIG. 4, the moving part 120 may be forcibly rotated by a well-known electric motor M and a transmission belt V.

Hereinafter, a method of spraying water using the water spraying device 10 of the present invention will be described with reference to FIGS. 1 to 4.

As described above, water is supplied from the water supply unit 300 to the injection unit 100 by the control unit CON to spray water on the road side, but the pressure driving unit 200 is driven by the control unit CON The injection of water is started by supplying a fluid higher than a specific pressure to the master 100, and the supply of the fluid higher than a specific pressure is stopped to stop the water injection.

That is, as shown in FIG. 3, when fluid is introduced into the housing 110 through the fluid entry hole 115, the pressure of the housing 110 increases and the moving part 120 moves to the right side in the drawing. At this time, the moving part 120 is connected to the elastic part 130, but the moving part 120 moves to the right in the drawing because the pressure of the fluid exceeds the pulling force of the elastic part 130. At this time, when the moving part 120 moves to the right side in the drawing, it is separated from the temporary storage part 320 of the water supply part 300 and water supply is stopped. Meanwhile, the movement of the moving part 120 moves until the locking projection 123 contacts the first stopper 114.

In order to resume water supply, the fluid from the housing 110 is returned to the fluid transfer unit 210 side. To this end, the operation of the pump of the fluid transfer unit 210 may be stopped to allow the fluid to return, or the pump may be operated in the opposite direction to suck the fluid. When the fluid flows out of the housing 110, the pressure inside the housing 110 decreases. As a result, as shown in FIG. 4, a force for moving the moving part 120 to the right in the drawing is removed, so that the moving part 120 is pulled to the left in the drawing by the elastic part 130. At this time, since one side of the moving part 120 (in this embodiment, the left side of the drawing in the direction of the water supply part) is exposed to the water supply part 300, one side of the moving part 120 moves to the left side of the drawing It enters into the temporary storage part 320 of the supply part 300, and water communicates by this. Therefore, the water stored in the temporary storage unit 320 of the water storage unit 300 flows through the flow path 122 of the moving unit 120 to the road side through the discharge unit 113 of the housing 110. Is sprayed.

As described above, water is supplied to the injection unit 100 through the water supply unit 300. At this time, there is a concern that water may freeze when the temperature is low, such as in winter. To prevent this, when the control unit CON determines that the ambient temperature of the water spraying device 10 is below a specific temperature, the control unit CON controls the water supply unit 300 to dispense water to the spray unit 100. It is also possible to recover from. To this end, the controller CON receives information about the temperature from a widely known temperature sensor (not shown), and then reverses the driving direction of the transfer pump 310 of the water supply unit 300 when the temperature is below a set temperature. Freezing can be prevented by recovering water remaining in the moving part 120.

In addition, when the temperature is less than or equal to a set temperature, it is preferable that the control unit CON drives the heating unit H so that the water inside the transfer pump 310 is not frozen.

Although the present invention has been described in detail through specific examples, this is for explaining the present invention in detail, and the present invention is not limited thereto, and those of ordinary skill in the art within the spirit of the present invention It is clear that the transformation or improvement is possible.

All simple modifications to changes of the present invention belong to the scope of the present invention, and the specific scope of protection of the present invention will be made clear by the appended claims.

100: injection unit 110: housing
111: housing body 120: moving part
121: moving part main body 123: locking jaw
130: elastic part 200: pressure driving part
210: fluid transfer unit 230: connection pipe
300: water supply 310: transfer pump
400: retainer 410: first retainer body
420: second retainer body 500: absorbing part
510: elastic storage unit 520: support ring
520: folding elastic portion

Claims (9)

As an injection device 10 provided on the support part F installed on one side of the road R and spraying water to the road R side,
The spraying device 10 is installed on the support part (F) to spray water toward the road (R), a water supply part (300) for supplying water to the spraying part (100), It includes a pressure driving unit 200 acting on the side of the injection unit 100 to determine the operation of the injection unit 100, and a control unit (CON) for controlling the water supply unit 300 and the pressure driving unit 200,
The injection part 100 includes a hollow housing 110 installed on one side of the support part F, a moving part 120 installed inside the housing 110 and movable in a longitudinal direction, and the It is installed inside the housing 110 and includes an elastic part 130 for moving the moving part 120,
The moving part 120 is moved by the pressure driving part 200 to receive water from the water supply part 300 and spray water toward the road R,
The moving part 120 of the injection part 100 is installed inside the housing 110 and extends in the longitudinal direction, and one side is exposed from the housing 100 and disposed in the direction of the water supply part 300, and inside the flow path A moving part main body 121 on which 122 is formed, and a locking protrusion 123 protruding outside the moving part main body 121 and in contact with the inner surface of the housing 110,
The housing 110 includes a housing body 111 having an empty space 112 formed therein, and a housing body 111 protruding inwardly from an inner surface of the housing body 111 and spaced apart in a length direction, and the moving part 120 The first stopper 114 and the second stopper 115 to which the locking protrusion 123 is engaged, and a discharge portion formed on the inner side of the end of the housing body 111 in the water spray direction and the diameter increases toward the water spray direction 113, and a fluid entry hole 116 formed on one side of the housing body 111 and in communication with the inner surface and connected to the pressure driving unit 200,
The first stopper 114 is disposed in the direction of the discharge part 113, and the second stopper 115 is disposed in a direction opposite the discharge part 113 and is spaced apart from the first stopper 114 by a predetermined interval,
The elastic part 130 is disposed between the outer surface of the moving part main body 121 and the second stopper 115 and grips the moving part main body 121 to pull the moving part main body 121. . delete The method of claim 2,
Further comprising a cross roller bearing (CR) provided between the locking projection 123 and the inner surface of the housing body 111,
The cross roller bearing (CR) includes a retainer 400 disposed between a plurality of rollers (CR4),
The retainer 400 includes a first retainer body 410 and a second retainer body 420 in a plate shape to be coupled to each other,
A through hole (TH) in the side opposite to the second retainer body 420 of the first retainer body 410 and a first central inlet hole 413 and a first side inflow under the through hole (TH) A hole 414 is formed, and the first central inlet hole 413 is formed at a central point in the width direction as the lower side of the first retainer body 410, and the first side inlet hole 414 is a first central inlet A plurality of balls are provided on both sides in the width direction of the ball 413,
A first upper seating groove 411 and a first lower seating groove 412 recessed in the thickness direction on the side of the first retainer body 410 in the direction of the second retainer body 420 are formed by being spaced apart in the height direction Become,
A first central communication hole (413-1) is formed under the first lower seating groove 412 to communicate with the first central inlet hole (413), and the first central communication hole (413-1) First side communication holes (414-1) are formed on both sides in the width direction to communicate with the first side inlet hole (414), and the first central communication hole (413-1) and the first lower seating groove (412) ) A flow path FL is formed, and a flow path FL is formed between the first side communication hole 414-1 and the first lower seating groove 412,
A first central storage groove (451-1) is formed as a concave groove on the upper side of the first upper seating groove (411), and first side storage grooves (416-) on both sides of the first upper seating groove (411) in the width direction. 1) is formed as a concave groove, and a third storage groove 417 is formed in a concave groove between the first upper seating groove 411 and the first lower seating groove 412, and the first central storage groove 451- A water spraying device in which a flow path FL is formed between 1) and the first side storage groove 416-1, and the third storage groove 417 and the first upper seating groove 411. The method of claim 3,
A through hole (TH) in the side opposite to the first retainer body 410 of the second retainer body 420 and a second central inlet hole 423 and a second side inflow into the upper side of the through hole (TH) A hole 414 is formed, a third inflow hole 425 is formed between the through holes TH, and the second central inflow hole 423 is an upper side of the second retainer body 420 in the width direction It is formed at the point, the second side inlet hole 424 is provided in plurality on both sides of the width direction of the second central inlet hole 423,
The second upper seating groove 421 and the second lower seating groove 422 recessed in the thickness direction on the side of the second retainer body 420 in the direction of the first retainer body 410 are formed to be spaced apart in the height direction Become,
A second central communication hole 423-1 is formed on the upper side of the second upper seating groove 421 to communicate with the second central inlet hole 423, and the second central communication hole 423-1 Second side communication holes 424-1 are formed on both sides in the width direction to communicate with the second side inlet hole 424, and the second central communication hole 423-1 and the second lower seating groove 412 ) A flow path FL is formed, and a flow path FL is formed between the second side communication hole 424-1 and the second upper seating groove 421,
A third communication hole 427 is formed on the upper side of the second lower seating groove 422, and the second side storage grooves 426-1 are recessed on both sides of the second lower seating groove 422 in the width direction. Is formed, a second central storage groove (425-1) is formed under the second lower seating groove (422), the second central storage groove (452-1) and the second side storage groove (426-1) ) And the flow path FL is formed between the third communication hole 427 and the second lower seating groove 422,
Grease flows through the through hole TH of the first retainer body 410 and the through hole TH of the second retainer body 420,
After grease is introduced through the first central inlet hole 413 and the first side inlet hole 414 of the first retainer body 410, the first central communication hole 413-1 and the first side communication hole ( Part of the grease through 414-1) flows into the first lower seating groove 412 through the flow path FL, and the rest is the second central storage groove 425-1 of the second retainer body 220 And after flowing into the second side storage groove 426-1 and then flowing into the second lower seating groove 422 through the flow path FL,
After grease is introduced through the second central inlet hole 423 and the second side inlet hole 424 of the second retainer body 420, the second central communication hole 413-1 and the second side communication hole ( Through 414-1), some of the grease flows into the second upper seating groove 421 through the flow path FL, and the rest is with the first central storage groove 415-1 of the first retainer body 210 After flowing into the first side storage groove (416-1), it is introduced into the first upper mounting groove (411) through the flow path (FL),
After the grease flows through the third inlet hole 425 of the second retainer body 420, a part of the grease through the third communication hole 427 is passed through the flow path FL through the second upper mounting groove 421 ) And the second lower seating groove 422, and the rest flows into the third storage groove 417 of the first retainer body 410, and then the first upper seating groove 411 through the flow path FL. And a water spray device that flows into the first lower seating groove 312. The method of claim 3,
Further comprising a buffer unit 500 provided between the first retainer body 410 and the second retainer body 420,
The buffer part 500 includes a first upper seating groove 411 and a first lower seating groove 412 of the first retainer body 410 and a second upper seating groove 421 of the second retainer body 420 And are disposed in the second lower seating groove 422, respectively,
The buffer unit 500 includes an elastic storage unit 510 through which grease is introduced to expand and contract, a support ring 520 in which the elastic storage unit 510 is accommodated, and the support ring 520 Including a folded elastic portion 530 for providing an elastic force to the elastic storage portion 510,
The elastic storage unit 510 includes an elastic storage unit body 510 formed of an elastic material and having a hollow shape, and an entry hole 520 formed on one side of the elastic storage unit body 510 to allow grease to enter and exit,
The support ring 520 has a ring shape and is spaced apart by a predetermined distance between the first support ring 521 and the second support ring 522, and the first support ring 521 and the second support ring 522. It includes a bar-shaped connection frame 523 to connect, and the connection frame 523 is formed at a predetermined interval in the circumferential direction of the first support ring 521 or the second support ring 522,
The folded elastic parts 530 are disposed in the circumferential direction of the support ring 520 and formed in a wave shape, and are respectively disposed in the space between the connection frames 523,
A part of the circumferential direction of the foldable elastic part 530 is opened so that when the elastic storage part 510 is expanded, the foldable elastic part 530 comes into contact with the foldable elastic part 530, and the elastic storage part 510 expanded by the restoring force. Water spraying device to return it. The method of claim 5,
Further comprising a connection portion 540 disposed between the elastic storage portion 510,
The connection part 540 includes a ring-shaped elastic part 541 and a cover 542 provided on both sides of the elastic part 541 and fixed to the elastic storage part 510, respectively,
The elastic portion 541 includes an elastic arc portion 5411 having an arc-shaped cross section having a specific circumferential length, and an extension portion 5412 extending in a horizontal direction from both sides of the elastic arc portion 5411, and ,
The cover 542 includes a first cover 542A provided on one side of the elastic part 541 and a second cover 542A provided on the other side of the elastic part 542 and having a symmetrical shape of the first cover 542A. Including a cover (542B),
The cover 542 has a hollow shape and is disposed inside the extension part 5412 and includes a cover body 5241 with an open direction of the elastic part 541 and an interlocking protrusion 5242 protruding on the cover body 5241. Includes,
The first opening portion 5413 formed in the circumferential direction is formed in the extension portion 5412 disposed on one side of the elastic portion 541 to insert the interlocking protrusion 5242 into the other portion of the elastic portion 541. A water spraying device in which a second opening portion 5414 formed in the direction of the elastic storage portion 510 is formed in the extension portion 5412 disposed on the side to insert the interlocking protrusion 5242. The method of claim 1,
The water supply unit 300 is in communication with a transfer pump 310 that draws water from the water storage unit and transfers water to the injection unit 100, and the water is temporarily stored in communication with the transfer pump 310 so that the spray unit ( 100) and a temporary storage unit 320 in communication,
A water spraying device provided with a heating unit H interlocked with the control unit CON at one side of the transfer pump 310. delete delete

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