WO2020242044A1

WO2020242044A1 - Device for removing water from umbrella

Info

Publication number: WO2020242044A1
Application number: PCT/KR2020/004778
Authority: WO
Inventors: 이경원
Original assignee: 이경원
Priority date: 2019-05-24
Filing date: 2020-04-08
Publication date: 2020-12-03
Also published as: KR20200134856A; KR102353607B1

Abstract

The present invention relates to a device for removing water from an umbrella and, more specifically, to a device for removing water from an umbrella, in which: a plurality of water removing parts for removing water from an umbrella through the jetting of compressed air are formed such that whether or not to operate the respective water removing parts is determined according to the length of the umbrella, thus enabling efficient removal of water from umbrellas of various lengths; and the compressed air is jetted by protrusion members that protrude to the inside of a main body part through which the umbrella passes, thus making it possible to effectively remove water from between folded portions of the umbrella.

Description

Umbrella Drainer

The present invention relates to an umbrella drainer, and more particularly, a plurality of drainage removal units for removing moisture from an umbrella through injection of compressed air are formed to determine whether to operate according to the length of the umbrella. It is an umbrella drainer that enables efficient removal of moisture from the umbrella and allows compressed air to be sprayed by a protruding member protruding into the main body through which the umbrella passes, thereby effectively removing moisture between folded parts of the umbrella. About.

Umbrella is used as a necessity for going out when it rains or snows, but if you bring an umbrella into the room when it rains, it may cause an accident by making the floor slippery, and there is a problem of contaminating the interior.

Accordingly, in buildings such as hotels, department stores, schools, shopping malls, and office buildings, a device for removing rainwater from an umbrella is installed and used as shown in the following patent document.

However, these devices do not properly remove the moisture from the umbrella, so most of the umbrellas are placed in separate plastics.In this case, the amount of vinyl used increases and it is difficult to process plastics. It is polluted, and there is a problem that it also pollutes the interior if the umbrella is dried separately indoors.

Therefore, there is a need to develop an umbrella drainage device that can quickly and efficiently remove moisture from the umbrella.

(Patent Document)

Registered Patent Publication No. 10-1526260 (registered on June 1, 2015) "Umbrella rainwater removal device using microfiber fabric"

The present invention was devised to solve the above problems,

The present invention is an umbrella biting unit that enables efficient water removal for umbrellas having various lengths by forming a plurality of water removal units to remove moisture from the umbrella through the injection of compressed air so that the operation of the umbrella is determined according to the length of the umbrella. The purpose is to provide an eliminator.

An object of the present invention is to provide an umbrella drain remover that enables efficient operation of the umbrella drain remover.

An object of the present invention is to provide an umbrella drain remover that enables effective removal of moisture between folded portions of an umbrella.

An object of the present invention is to provide an umbrella drain remover that allows a protruding member to be easily inserted between folded portions of the umbrella and to prevent damage to the protruding member.

An object of the present invention is to provide an umbrella drain remover that enables even water removal of the umbrella.

An object of the present invention is to provide an umbrella drain remover capable of removing water from a drain container to the outside without removing or tilting the drain container.

An object of the present invention is to provide an umbrella drainage device that enables effective and efficient removal of moisture by automatically adjusting the operating time of the drainage section according to the flow rate discharged from the drainage channel.

An object of the present invention is to provide an umbrella drain remover capable of preventing water from splashing out of the umbrella drain remover even when spraying compressed air.

The present invention is implemented by an embodiment having the following configuration in order to achieve the above object.

According to an embodiment of the present invention, the umbrella drainage remover according to the present invention comprises a body portion forming a passage through which an umbrella passes; A moisture removing unit formed inside the main unit to remove moisture from the umbrella passing through the main unit through injection of compressed air; A control unit for controlling the operation of the umbrella drainer; Includes; a drain unit for receiving and discharging the water removed from the umbrella, wherein the water removing unit detects the umbrella passing through the main body and automatically operates, and a plurality of the water removal units are arranged along the moving direction of the umbrella to operate according to the length of the umbrella. It is characterized in that it is formed.

According to another embodiment of the present invention, in the umbrella drainer according to the present invention, the moisture removal unit detects the umbrella passing through the lower side of the main body and sprays compressed air, and the first remover passes through the upper side of the main body. It characterized in that it comprises a second removal unit for detecting the umbrella and injecting compressed air.

According to another embodiment of the present invention, in the umbrella drainage remover according to the present invention, the control unit includes an umbrella detection module receiving a signal for detecting an umbrella from each drainage section, and an umbrella detection module from each drainage section. In this case, an operation start module that operates each water removal unit for a certain period of time, and when an umbrella detection signal from other water removal units is received during the operation of a specific water removal unit, the operation of the specific water removal unit is stopped and the other water removal unit is operated. It characterized in that it comprises an operation module.

According to another embodiment of the present invention, in the umbrella drainage remover according to the present invention, the moisture removal unit includes a sensor module formed at a predetermined depth of the body portion to detect an umbrella passing through the body portion; A protruding injection module formed to protrude to the inside of the main body to inject compressed air; It characterized in that it comprises a; is formed to penetrate the inner side of the body portion through injection module for injecting compressed air.

According to another embodiment of the present invention, in the umbrella drainage remover according to the present invention, the protruding injection module includes a protruding member formed to protrude a predetermined length from the inside of the main body, and supplied with compressed air to the inside; And an inlet pipe for fixing the protruding member to the main body and supplying compressed air into the protruding member, wherein the protruding member includes a bent body formed to have elasticity at one point of the protruding member and bent; It characterized in that it comprises a; is formed to pass through the protruding member to spray the compressed air through the umbrella.

According to another embodiment of the present invention, in the umbrella drainage remover according to the present invention, the protrusion member is formed in a plurality of each of the moisture removal portions, and the injection holes are at different positions toward the umbrella according to the position of the protrusion member. It characterized in that it is formed in.

According to another embodiment of the present invention, in the umbrella drainer according to the present invention, a pair of the protruding members is formed on the front and rear sides of each of the moisture removing units, and the protruding member on the front side is toward the rear side, and the protrusion member on the rear side is It is characterized in that the injection hole is formed through the front side.

According to another embodiment of the present invention, in the umbrella drainage remover according to the present invention, the protruding member is formed as an upper, middle, and lower protruding member according to the height formed in the main body, and the upper protruding member is in a downward direction. In, the middle protruding member is characterized in that the injection hole is formed in the center, the lower protruding member in the upper direction.

According to another embodiment of the present invention, in the umbrella drainer according to the present invention, the drainage portion is formed to be recessed at a predetermined depth below the passage through which the umbrella moves, so that the water removed from the umbrella is collected, and the drain hole is lowered. A drainage passage through which the collected water is discharged; A drain hole formed below the drainage channel to receive water passing through the drainage hole, wherein the drainage tube is formed through one side of the drainage tube to allow water from the drainage tube to be discharged to the outside And, it is characterized in that it comprises a slope formed to have a slope that is formed on the bottom of the drain pipe to decrease toward the drain hole side.

According to another embodiment of the present invention, in the umbrella drainage remover according to the present invention, the drainage portion is formed on the front and rear sides of the drainage channel to spray compressed air toward the center side in the front and rear direction of the drainage channel, and the It includes a flow sensor for measuring the flow rate passing through the drain hole, the drain passage has a slope that decreases toward the center from the front-rear direction of the main body, the drain hole is formed through the lowest point, and the control unit The flow rate information receiving module that receives the flow rate information measured by the sensor, and when an umbrella is detected in each of the moisture removal units, the moisture removal unit continues to operate until the flow rate received by the flow rate information receiving module reaches a constant flow rate. It characterized in that it comprises an operation extension module, and an automatic operation stop module for automatically stopping the operation of the water removal unit when the flow rate is less than a certain flow rate.

According to another embodiment of the present invention, in the umbrella drainage remover according to the present invention, the body portion is formed of a member having elasticity above the passage through which the umbrella moves to prevent water from splashing upward from the passage through which the umbrella moves. It characterized in that it comprises a blocking member.

The present invention can obtain the following effects by the configuration, combination, and use relationship that will be described below with the present embodiment.

The present invention has the effect of enabling efficient water removal for umbrellas having various lengths by forming a plurality of water removal units for removing moisture from the umbrella through the injection of compressed air so that the operation of the umbrella is determined according to the length of the umbrella. have.

The present invention allows the compressed air to be automatically injected in each of the moisture removal units according to the detection of the umbrella, and the compressed air is automatically sprayed sequentially at only one of the plurality of moisture removal units by the detection of the umbrella. There is an effect to enable the efficient operation of the.

The present invention has the effect of allowing the compressed air to be sprayed by a protruding member protruding into the body portion through which the umbrella passes, so that moisture can be effectively removed between folded portions of the umbrella.

The present invention has the effect of allowing the protruding member to be bent by elasticity so that it is easy to insert it into the folded portion of the umbrella and prevent the protruding member from being damaged even when the umbrella passes.

The present invention has the effect of forming a plurality of protruding members in each of the moisture removing portions, and forming spray holes at different positions according to the positions of the protruding members, thereby enabling even water removal of the umbrella.

The present invention has the effect of allowing the water from the drainage container to be removed to the outside without removing or tilting the drainage container.

The present invention has the effect of enabling effective and efficient removal of water by automatically adjusting the operating time of the water removal unit according to the flow rate discharged from the drainage channel.

The present invention has the effect of preventing water from splashing out of the umbrella drainer even when the compressed air is sprayed.

1 is a perspective view of an umbrella drainer according to an embodiment of the present invention

Figure 2 is a cross-sectional view showing the inner side of the main body portion to move the umbrella

3 is a cross-sectional view of the protruding member of FIG. 2

4 is a block diagram showing the configuration of an umbrella drain remover according to an embodiment of the present invention

5 is a cross-sectional view showing an inclined surface of a water drainage container

6 is a block diagram showing the configuration of a control unit of an umbrella drain remover according to another embodiment of the present invention

7 is a cross-sectional view of a drain portion of an umbrella drainer according to another embodiment of the present invention

* Description of symbols used in drawings

1: water removal unit

1': first removal unit 1": second removal unit

11: sensor module 11': first sensor 11": second sensor

13: protruding injection module 13': first protruding injection module 13": second protruding injection module

131: protruding member 131a: injection hole 131b: bent body 133: inlet pipe

15: through injection module 15': first through injection module 15": second through injection module

2: control unit

21: umbrella detection module 22: operation start module 23: exclusive operation module

24: flow information receiving module 25: operation extension module 26: automatic operation shutdown module

3: drain

31: drainage 311: drainage hole 32: drainage 321: slope

322: drain hole 33: ventilation hole 34: flow sensor

4: main body

41: cut-off brush 42: moving bounce 43: compression module 44: control box

U: umbrella U1: long umbrella U2: short umbrella

P: moving direction

Hereinafter, preferred embodiments of the umbrella drain remover according to the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, when it is determined that a detailed description of a known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted. Throughout the specification, when a part "includes" a certain component, it means that other components may be further included, and other components are not excluded unless specifically stated to the contrary. Terms such as "... unit" and "... module" mean a unit that processes at least one function or operation, which may be implemented by hardware or software or a combination of hardware and software.

Referring to Figures 1 to 5, the umbrella drain remover according to an embodiment of the present invention, the umbrella drain remover includes a body part 4 forming a passage through which the umbrella (U) passes; A moisture removal unit 1 formed inside the main body 4 to remove moisture from the umbrella U passing through the main body 4 through injection of compressed air; A control unit 2 for controlling the operation of the umbrella drainer; Includes; a drain portion 3 for receiving and discharging the water removed from the umbrella (U).

In particular, the umbrella drainage remover according to the present invention forms a plurality of drainage removal units 1 along the moving direction P of the umbrella U, and each drainage removal unit 1 operates according to the length of the umbrella. By doing so, it effectively and efficiently removes moisture from umbrellas of various lengths, such as long umbrellas and short umbrellas. Hereinafter, it is assumed that the moisture removal unit 1 includes a first removal unit 1 ′ and a second removal unit 1 ″ capable of removing water by detecting a long long umbrella and a short short umbrella, respectively. To be described as an example, this is only an embodiment, and the water removal unit 1 may be formed in various numbers, and each water removal unit 1 detects each of various lengths of umbrellas and operates separately. , Efficient water removal can be made possible.

For reference, hereinafter, the directions A, B, C, D, E, and F of FIG. 1 are defined as vertical, left, right, front and rear directions, respectively.

The moisture removal unit 1 is configured to remove moisture from the umbrella through injection of compressed air, and may be formed inside the main body 4 in which the umbrella moves, and on one or both sides of the passage through which the umbrella moves. Can be formed. As described above, the water removing unit 1 may be formed in a plurality according to the moving direction P of the umbrella so as to be operated according to the length of the umbrella, and each of the moisture removing units 1 is a sensor module 11 ) To detect an umbrella passing through each of the water removal units (1), and at this time, the sensor modules 11 of each of the water removal units (1) are formed at different heights to detect umbrellas of different lengths. To be. In addition, the water removal unit 1 includes a through injection module 15 formed through the inside of the main body 4 to inject compressed air, and protrudes a certain length into the inside of the main body 4 Including the protruding injection module 13, the compressed air can be injected even between the folded fabrics of the umbrella.

As described above, the water removing unit 1 may include a first removing unit 1 ′ and a second removing unit 1 ″. For example, the first removing unit 1 ′ is illustrated in FIG. 2. As shown in, the sensor module 11 is formed on the lower side to detect and operate the long umbrella U1, and the second removal unit 1" has a sensor module 11 formed on the upper side to have a length It detects the short umbrella (U2) and allows it to operate. When an umbrella is detected by the sensor module 11 in each of the first and second removing units 1 ′ and 1 ″, the first and second removing units 1 ′ and 1 ″ are operated for a certain period of time so that moisture from the umbrella can be sufficiently removed, while working with each other. When the operation of 1) is performed, the operation of the other water removal unit 1 is stopped so that only the water removal unit 1 in which the umbrella is located is operated, thereby preventing unnecessary operation and enabling efficient operation. The first and second removal units (1', 1") are only slightly different in positions of the sensor module 11, the protruding injection module 13, and the through injection module 15, but the specific configuration is the same, so hereinafter the same The contents will be explained together, and only the differences will be described separately.

The sensor module 11 is formed in each of the moisture removal units 1 to detect an umbrella, and an infrared module may be applied as an example, but is not limited thereto. The sensor module 11 may be formed at a different height for each of the moisture removing parts 1 to detect umbrellas of various lengths. For example, when the first and second removing

parts

1, 1" are formed, the first The first sensor 11 ′ of the first removal unit 1 ′ and the second sensor 11 ″ of the second removal unit 1 ″ may be included. Accordingly, the first sensor 11 ′ The long umbrella U1 is formed on the lower side of the passage through which the umbrella moves, and accordingly, the first removal unit 1'detects the long umbrella U1 by the first sensor 11'. In addition, the second sensor 11" is formed on the upper side of the passage through which the umbrella moves so that the short umbrella U2 can be detected, and accordingly, the second removal unit ( 1") is also able to remove moisture by operating on the short umbrella (U2). Therefore, the first and second removal units (1,1") drain the long umbrella (U1) and the short umbrella (U2). Each can be removed. In the case of a long umbrella (U1), there is relatively more water to be removed than a short umbrella (U2), so it is also effective in the case of a long umbrella (U1) by passing it through the second removal unit (1"). As described above, since the first and

second removal units

1 and 1" do not operate simultaneously and operate exclusively, respectively, the long umbrella U1 and the short umbrella ( Effective operation of the umbrella drainer can be achieved by removing the moisture from U2). In the case of a long umbrella (U1), effective moisture removal is also possible by allowing additional moisture to be removed from the second removal section (1"). Do it.

The protruding injection module 13 is configured to protrude into the inner space of the main body 4 through which the umbrella U passes to inject compressed air, and a plurality of the protruding injection modules 13 may be formed in each of the moisture removal units 1. The protruding injection modules 13 may be formed in various numbers and shapes, but in order to enable effective removal of moisture from the umbrella passing through each of the moisture removal units 1, a plurality of protruding injection modules 13 are spaced apart from each other at regular intervals in the vertical direction. In addition, a pair is formed on the front and rear sides of each of the water removal units 1 to allow the injection of compressed air from the front and rear sides to the umbrella U in the water removal unit 1. As an example, the protruding injection module 13 is formed in a pair in the front-rear direction at the upper, middle and lower positions, and at each upper, middle, and lower position, as shown in FIG. It is possible to make the injection of compressed air. In addition, the protruding injection module 13 may include a first protruding injection module 13 ′ of the first removing unit 1 ′ and a second protruding injection module 13 ″ of the second removing unit 1 ″. In addition, the second protruding injection module 13" for removing moisture from the short umbrella U2 is formed at narrower intervals from the upper side than the first protruding injection module 13 ′ for removing moisture from the long umbrella (U1). It is possible to make more effective water removal for the short umbrella (U2), and each water removal unit (1) can effectively inject compressed air to suit the length of the umbrella detected by each water removal unit (1). The protruding injection module 13 includes a protruding member 131 protruding from the inside of the main body 4 to the moving space of the umbrella U and the protruding member 131 as shown in FIG. It includes an inlet pipe 133 fixed to (4). Since the first and second protruding injection modules 13' and 13" have the same configuration, the description will be unified.

The protruding member 131 is formed to protrude to the inside of the body part 4, and is formed as a cylindrical member having an empty space therein to receive compressed air. The protruding member 131 may form a spray hole 131a penetrating to the outside so that compressed air supplied into the protruding member 131 can be sprayed into the space in which the umbrella U moves, and the protruding member 131 A bent body 131b having elasticity may be formed at one point of) to enable elastic bending of the protruding member 131. Accordingly, the protruding member 131 may be inserted into the fabric of the folded umbrella to allow the injection of compressed air to be made, thereby effectively removing moisture from the folded part of the umbrella. In addition, the protruding member 131 is an upper protruding member 131-1, a middle protruding member 131-2, and a lower protruding member 131-1 as shown in Fig. 3(a)(b)(c). 3), and can be formed at regular intervals on the upper side, the middle side, and the lower side, respectively, depending on the installation height. At this time, the upper protruding member (131-1) is formed in a downward direction, the middle protruding member (131-2) is formed in the middle direction, and the lower protruding member (131-3) is formed with a spray hole (131a) in the upper direction. It allows effective injection of compressed air toward U). In addition, each of the upper, middle, and lower protruding members (131-3) has a front protruding member (131-11, 131-21, 131-31) and rear protruding members (131-12, 131-22, 131-32), respectively, as shown in FIG. The front protruding member (131-11, 131-21, 131-31) forms an injection hole (131a) toward the rear, and the rear protruding member (131-12, 131-22, 131-32) is the injection hole (131a) toward the front side. To form a intensively spray compressed air to the umbrella (U) accommodated in each of the water removal unit (1). Thus, as an example, the upper front protrusion member 131-11 has a spray hole 131a formed in the lower rear direction as shown in FIG. 2, and the lower rear protrusion member 131-32 is the upper front side The injection hole (131a) is formed in the direction.

The injection hole 131a is formed through the protruding member 131 so that the compressed air in the protruding member 131 can be injected to the outside, and as shown in FIG. 3, a constant along the protruding member 131 It can be formed so that a plurality of intervals. As described above, the injection hole 131a may be formed at different positions according to the position of the protruding member 131 so that even and effective injection of compressed air toward the umbrella U may be performed.

The bent body 131b is formed of a member having elasticity at one point of the protruding member 131 to enable bending of the protruding member 131, and preferably at a point adjacent to the main body 4 Can be formed. Therefore, the bent body 131b allows the protruding member 131 to be freely bent by the elasticity of the bent body 131b, so that it can be easily entered into the folded portion of the umbrella U, and the protruding member ( 131) can be prevented from being damaged by colliding with the umbrella (U).

The inlet pipe 133 fixes the protruding member 131 to the main body 4, and an empty space therein communicates with the inside of the protruding member 131 so that compressed air flowing in the main body 4 It can be supplied into the protruding member 131.

The through-injection module 15 is formed to penetrate the main body 4 so as to inject compressed air into the main body 4 where the umbrella U moves, and is formed with a plurality of holes spaced apart from each other at a predetermined interval. Can be formed. The through injection module 15 may have first and second through injection modules 15 ′ and 15 ″ respectively formed in the first and

second removal units

1 and 1 ″, and the protruding injection module 13 and Likewise, it can be formed at a more upper point in the second removal part 1" than in the first removal part 1 ′.

The control unit 2 is configured to control the operation of the umbrella drainer, and may include an umbrella detection module 21, an operation start module 22, and an exclusive operation module 23 as shown in FIG. 4.

The umbrella detection module 21 is configured to receive a signal for detecting an umbrella by each sensor module 11, and a moisture removal unit by the operation start module 22 according to a signal detected by each sensor module 11 (1) make it work.

The operation start module 22 is configured to control the operation of each water removal unit 1 when an umbrella is detected by each sensor module 11, and supplies compressed air to each water removal unit 1 Can be adjusted. For example, when an umbrella is detected by the first sensor 11', it is compressed into the first removal unit 1', that is, the first protruding injection module 13' and the first through injection module 15'. Air can be supplied to be sprayed, and when an umbrella is detected by the second sensor 11", compressed air will be supplied to the second protruding injection module 13" and the second through injection module 15". The operation start module 22 allows the operation of the water removal unit 1 to continue for a certain period of time when an umbrella is detected, and when the umbrella is continuously detected even when a certain time elapses, The operation of the removal unit 1 can be continued, and if the umbrella is not detected, the operation of the water removal unit 1 can be automatically stopped, provided that while the operation of the water removal unit 1 is continued. When the operation of the other water removal unit 1 is started, the operation of the water removal unit 1 is stopped by the exclusive operation module 23.

The exclusive operation module 23 is configured so that only one of the plurality of water removal units 1 can operate, in other words, only the water removal unit 1 in which an umbrella is detected Allow spraying to take place. When the umbrella is detected by the umbrella detection module 21, the water removal unit 1 allows compressed air to be injected for a certain time from the water removal unit 1 where the umbrella is detected by the operation start module 22. , If the umbrella is moved to another water removal unit (1) before a certain period of time has elapsed, since unnecessary compressed air may be sprayed from the plurality of water removal units (1), compression in the existing water removal unit (1) The injection of air is stopped and the compressed air can be injected only to the water removal unit 1 where the umbrella currently exists. Therefore, the user can remove the water by moving the umbrella to the desired water removal unit 1 according to the length of the umbrella, and nevertheless, it is possible to reduce power consumption by blocking unnecessary injection of compressed air.

The drainage part 3 is configured to receive and discharge water removed from the umbrella U, and is formed at the lower end of the passage through which the umbrella moves as shown in FIG. 1 to form a passage through which water moves ( 31) and a drainage container 32 for receiving water flowing through the drainage passage 31 may be included.

The drainage passage 31 may be formed to be inclined toward the center to collect water removed from the umbrella at the lower end of the passage through which the umbrella moves, and a plurality of drainage holes 311 are formed through the drainage passage 31 so that the drainage passage 31 The water flowing through may be discharged to the drain container 32 through the drain hole 311.

In a configuration capable of receiving water discharged from the drainage passage 31 and discharging it to the outside, the drain container 32 may be configured to be detachable from the main body 4, preferably formed on one side. The water inside the drain container 32 may be discharged to the outside through the drain hole 322. A separate tube is connected to the drain hole 322 so that the water in the drain container 32 is always discharged to the outside. In some cases, the drain hole 322 is configured to open and close, so that the drain container 32 is Drainage can be made only when it is full. 5 is a cross-sectional view of the drain container 32, FIG. 5 (a) is a cross-sectional view viewed from the front, and FIG. 5 (b) is a cross-sectional view viewed from the side, and An inclined surface 321 is formed on the floor so as to have a slope that decreases toward the drain hole 322 regardless of which direction it is viewed. Therefore, the water accommodated in the drain container 32 always flows toward the drain hole 322 along the slope 321, and when a separate tube is connected to the drain hole 322, the water in the drain container 32 The drain hole 322 can be smoothly discharged, and even when the drain hole 322 is opened and closed, the water in the drain container 32 without the need to separate the drain container 32 or tilt the entire body 4 It can be easily discharged through the drain hole 322.

The main body 4 is configured to provide a passage through which the umbrella moves, and a moisture removal unit 1 is formed on one or both sides of the passage through which the umbrella moves to remove moisture from the umbrella through injection of compressed air. , A drainage part 3 is formed at the lower end of the passage through which the umbrella moves to accommodate and discharge the water removed from the umbrella. In addition, the main body 4 forms a blocking brush 41 on the upper side of the passage through which the umbrella moves, so that water removed from the umbrella can be prevented from splashing to the outside according to the injection of compressed air, and the umbrella moves. A predetermined space is formed on both sides of the passage to form a moving passage for compressed air. The blocking brush 41 is formed of a material having elasticity so that the movement of the umbrella U and the blocking of moisture can be simultaneously performed. Although omitted in FIG. 1, the passage through which the umbrella moves as shown in FIG. 2 It is formed over both sides so that moisture can be effectively blocked. In addition, the main body 4 may have a moving wheel 42 at its lower end to enable the movement of the main body 4, and a compression module for compressing and supplying air in the main body 4 ( 43) may be formed, and may include a control box 44 in which a switch, an earth leakage breaker, and the like are installed. Meanwhile, when the main body 4 is formed in a narrow space, the compressed air may be supplied through a separate pipe without forming the compression module 43 or the like in the main body 4.

Referring to Figures 6 to 7, the umbrella drainage remover according to another embodiment of the present invention, the umbrella drainage remover 1, the control unit 2, the drainage part 3 in the same manner as in one embodiment. ), including the body part 4, but allows the operation of the water removal part 1 to be automatically adjusted according to the flow rate of water discharged through the drain part 3.

In one embodiment, when an umbrella is detected in each of the water removal units 1, it operates for a certain period of time and automatically stops, but in this embodiment, depending on the amount of water discharged through the drainage unit 3, more precisely, the drainage passage By automatically controlling the operation of the water removal unit 1 according to the flow rate of water discharged through the drain hole 311 of (31), effective and convenient water removal is possible.

To this end, the control unit 2 further includes a flow rate information receiving module 24, an operation extension module 25, and an automatic operation stop module 26, and the drainage part 3 is the drainage passage 31 While changing the shape of the blow hole 33 and the flow sensor 34 to further include.

The flow rate information receiving module 24 is configured to receive information on the amount of water removed from the umbrella, and more precisely, to receive information on the flow rate passing through the drain hole 311 of the drainage passage 31. . Accordingly, the flow rate information receiving module 24 can receive flow rate information from the flow rate sensor 34 installed in the drain hole 311, and accordingly, the operation of the water removal unit 1 is automatically performed according to the flow rate. To be controlled.

The operation extension module 25 is configured to extend the operation of the water removal unit 1 according to flow rate information, and each water removal unit 1 is an operation start module when an umbrella is detected by the sensor module 11 ( 22) starts the operation to inject compressed air for a certain period of time. When the flow rate passing through the drain hole 311 is more than a certain value even after a certain period of time has elapsed, the operation time of the water removal unit 1 is extended. Therefore, it is possible to ensure a sufficient operation of the moisture removal unit 1 until the moisture of the umbrella is removed.

The automatic operation stop module 26 is configured to stop the operation of the moisture removal unit 1 when the flow rate information received by the flow rate information receiving module 24 is less than a predetermined value, and sufficient moisture is removed from the umbrella. When the flow rate of water passing through the drain hole 311 is reduced to less than a certain value, the operation of the water removal unit 1 is automatically stopped, thereby enabling sufficient removal of water from the umbrella and enhancing user convenience.

The drainage passage 31 is formed to be gathered toward the center as in an embodiment, and at the same time, as shown in FIG. 7, the drainage hole 311 is formed to have a lower slope from the front-rear direction toward the center. Allows to be formed. Therefore, only one drain hole 311 is formed at the lowest position of the drain passage 31, and through this, the flow rate discharged from the drain hole 311 is accurately measured, thereby controlling the operation of the water removal unit 1 It can be done exactly.

The ventilation hole 33 is formed on the drainage passage 31 so that the water in the drainage passage 31 can be quickly collected and discharged toward the drainage hole 311, and the water supply by measuring the flow rate of water removed from the umbrella The operation of the reject (1) can be adjusted more accurately and quickly, so that the operation of the water removal unit (1) can be made more efficiently. To this end, the blowing hole 33 is formed so as to penetrate the front and rear ends of the drainage passage 31 so that compressed air generated from the compression module 43 is injected in the direction of the drain hole 311 through the blowing hole 33. And, through this, water accommodated in the drainage passage 31 may be rapidly discharged into the drainage hole 311.

The flow sensor 34 is formed on one side of the drain hole 311 to measure the flow rate of water passing through the drain hole 311, so that the operation of the water removal unit 1 is controlled according to the measured flow rate. I can. The flow rate of water measured by the flow sensor 34 refers to the amount of water removed from the umbrella, and removes moisture by automatically operating the water removal unit 1 until the water removed from the umbrella falls below a certain value. Can be done effectively and conveniently. In addition, the water removed from the umbrella is collected and discharged into one drain hole 311 through the drainage passage 31 inclined toward the center, and is collected and discharged at a faster speed by the compressed air sprayed from the blowing hole 33. Since it can be measured accurately, the automatic operation of the water removal unit 1 according to the amount of water removed from the umbrella can be made more efficient.

In the above, the applicant has described various embodiments of the present invention, but such embodiments are only one embodiment that implements the technical idea of the present invention, and any changes or modifications may be made as long as the technical idea of the present invention is implemented. It should be construed as falling within the scope of

Claims

A body portion forming a passage through which an umbrella passes;

A moisture removing unit formed inside the main unit to remove moisture from the umbrella passing through the main unit through injection of compressed air;

A control unit for controlling the operation of the umbrella drainer;

Including; a drain unit for receiving and discharging the water removed from the umbrella,

The water removal unit,

An umbrella drainer, characterized in that a plurality of umbrellas are formed along the moving direction of the umbrella to detect and automatically operate the umbrella passing through the main body, and to operate according to the length of the umbrella.
The method of claim 1, wherein the water removal unit

An umbrella drainer comprising: a first removing unit for injecting compressed air by sensing an umbrella passing through the lower side of the body unit, and a second removing unit for injecting compressed air by detecting an umbrella passing through the upper side of the main unit.
The method of claim 1, wherein the control unit

An umbrella detection module that receives a signal to detect an umbrella from each drainage section, an operation start module that operates each drainage section for a certain period of time when an umbrella is detected by each drainage section, and the other during operation of a specific drainage section. An umbrella drainer, characterized in that it comprises an exclusive operation module for stopping the operation of the specific drainage section and operating the other drainage section when receiving an umbrella detection signal of the drainage removal unit.
The method of claim 1, wherein the water removal unit

A sensor module formed at a predetermined depth of the main body to detect an umbrella passing through the main body; A protruding injection module formed to protrude to the inside of the main body to inject compressed air; An umbrella drainer comprising: a through injection module formed to penetrate the inner side of the main body to inject compressed air.
The method of claim 4, wherein the protruding injection module

A protruding member formed to protrude a predetermined length from the inside of the main body and supplied with compressed air to the inside; Includes; an inlet pipe fixing the protruding member to the main body and supplying compressed air into the protruding member,

The protruding member,

A bent body formed to have elasticity at a point of the protruding member and bent; An umbrella drainer comprising: a spray hole formed to pass through the protruding member so that compressed air is sprayed into the umbrella.
The method of claim 5, wherein the protruding member

Make sure to form a plurality of each drainage part,

The spray hole is an umbrella drainer, characterized in that to be formed at different positions toward the umbrella according to the position of the protruding member.
The method of claim 6, wherein the protruding member

A pair is formed on the front and rear sides of each moisture removal unit,

An umbrella drain remover, characterized in that the protruding member on the front side is formed by passing through the spray hole to the rear side and the protruding member on the rear side to the front side.
The method of claim 7, wherein the protruding member

The upper, middle, and lower protruding members are formed according to the height formed in the body,

An umbrella drain remover, characterized in that the upper protruding member has a spray hole formed in the lower direction, the middle protruding member in the center, and the lower protruding member in the upper direction.
The method of claim 1, wherein the drainage part

A drainage passage formed to be recessed at a predetermined depth into a lower side of the passage through which the umbrella moves to collect water removed from the umbrella, and a drainage hole through the lower side to discharge the collected water; Includes; a drainage container formed under the drainage passage to receive water passing through the drainage hole,

The drain container,

Characterized in that it comprises a drain hole formed through one side of the drain container to allow water from the drain container to be discharged to the outside, and an inclined surface formed at the bottom of the drain container to have a slope that decreases toward the drain hole. Umbrella drainer.
The method of claim 9, wherein the drainage portion

A blow hole formed at the front and rear sides of the drainage channel to inject compressed air toward the central side in the front and rear direction of the drainage channel, and a flow sensor measuring a flow rate passing through the drainage hole,

The drainage passage has a slope that decreases toward the center from the front and rear directions of the main body, and a drainage hole is formed through it at the lowest point,

The control unit,

The flow rate information receiving module that receives the flow rate information measured by the flow sensor, and when an umbrella is detected in each of the moisture removal units, the operation of the water removal unit is operated until the flow rate received by the flow rate information receiving module reaches a constant flow rate. An umbrella drainer comprising a continuous operation extension module and an automatic operation stop module that automatically stops the operation of the water removal unit when the flow rate is less than a predetermined flow rate.
The method of claim 1, wherein the main body

An umbrella drainer comprising a blocking member formed of an elastic member on the upper side of the passage through which the umbrella moves and blocks water from splashing upward from the passage through which the umbrella moves.