KR102260608B1 - umbrella dryer - Google Patents

Abstract

Umbrella drying apparatus according to the present invention by heating / pressurizing air to generate / supply a high-pressure hot air generating unit; and a hot air drying unit for drying the umbrella accommodated in the cylindrical space with a hot air vortex formed by spraying the high-pressure hot air supplied from the hot air generating unit into the cylindrical space. Here, the hot air drying unit is provided with the cylindrical space in which the umbrella spokes and the distal end of the umbrella are accommodated therein, and the inner side wall includes a housing in which a downward spiral vortex induction path is formed; a plurality of first hot air injection nozzles provided on the inner side wall of the housing and configured to spray high-pressure hot air at different heights of the first circumference of the cylindrical space to form a hot air vortex; and a second circumference symmetrical to the first circumference of the cylindrical space, and at a height different from the plurality of first hot air injection nozzles, provided on the inner side wall of the housing, to form a hot air vortex by injecting high-pressure hot air It may include a plurality of second hot air injection nozzles.

Description

Umbrella dryer {umbrella dryer}

The present invention relates to an umbrella drying apparatus, and more particularly, to an umbrella drying apparatus capable of quickly drying a wet umbrella by forming a hot air vortex inside the housing.

A typical user uses an umbrella outdoors on a rainy day and then enters the room after wiping off the water. Even after wiping off the water, the water remaining in the umbrella falls from the umbrella and contaminates the indoor floor. In this case, safety accidents such as slipping of pedestrians in water beyond the floor being polluted may occur.

Therefore, in case of rain, a device for storing the umbrella itself at the entrance of a building or building or equipment for supplying a plastic bag for storing an umbrella by preventing water from dripping from the umbrella are widely used. However, it is true that there is a limit to the number of devices that can be stored and stored, and the risk of loss is also large. And the plastic bag empty for storing umbrellas has a problem in that each umbrella consumes a plastic bag, which causes environmental pollution and high maintenance costs, and cannot prevent contamination of the indoor floor when the plastic is torn.

Accordingly, the technical problem to be solved by the present invention is to solve the problems of the above-described umbrella storage device and plastic bag supply device, and an umbrella that can be dried quickly while shaking off the moisture of the umbrella using a strong hot air vortex To provide a drying device.

The technical problems to be achieved by the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those of ordinary skill in the art to which the present invention belongs from the description below. will be able

Umbrella drying apparatus according to the present invention for solving the above technical problem, a hot air generator for generating / supplying high-pressure hot air by heating / pressurizing air; And it may include a hot air drying unit for drying the umbrella accommodated in the cylindrical inner space with a hot air vortex formed by spraying the high-pressure hot air supplied from the hot air generating unit into the cylindrical space.

The hot air dryer may include: a housing in which the cylindrical space in which the umbrella spokes and the distal part of the umbrella are accommodated therein, and a downward spiral vortex induction path is formed on the inner sidewall; a plurality of first hot air injection nozzles provided on the inner side wall of the housing and configured to spray high-pressure hot air at different heights of the first circumference of the cylindrical space to form a hot air vortex; and a second circumference symmetrical to the first circumference of the cylindrical space, and at a height different from the plurality of first hot air injection nozzles, provided on the inner side wall of the housing, to form a hot air vortex by spraying high-pressure hot air It may include a plurality of second hot air injection nozzles. The plurality of first and second hot air injection nozzles may spray high-pressure hot air obliquely downward to correspond to the formation direction of the vortex induction path at a corresponding height.

In the vortex induction path, the number per height in the upper part of the cylindrical space may be greater than the number per height in the lower part of the cylindrical space. At this time, in the plurality of first and second hot air jet nozzles, the number of nozzles per height in the upper part of the cylindrical space is equal to the number of nozzles per height in the lower part of the cylindrical space so as to correspond to a difference in the number per height of the vortex induction path. There may be more than the number, and the high-pressure hot air injection angle at the corresponding height may be changed to correspond to the difference in inclination angle according to the difference in the number per height of the vortex induction path.

The umbrella drying device may be controlled so that the plurality of first and second hot air injection nozzles alternately spray high-pressure hot air at a constant cycle.

The vortex induction path may be a round groove connected in a downward spiral to the inner sidewall of the housing. In this case, a protrusion may be formed on the lower side of the rounded groove to be higher than the inner side of the housing.

The vortex induction path may be a streamlined protrusion spirally connected to the inner sidewall of the housing, and may have an asymmetrical cross-section in which an upper protrusion angle of the protrusion is greater than a lower protrusion angle of the protrusion.

The umbrella drying device, a sensing unit for detecting a height range in which the umbrella spokes and the distal part of the umbrella are accommodated in the cylindrical space; And it may further include a control unit for changing the hot air jet nozzle for jetting hot air among the plurality of first and second hot air jet nozzles according to the height range sensed by the sensing unit.

Umbrella drying apparatus according to the present invention can provide an effect of quickly drying the umbrella by evaporating and wiping off the moisture on the umbrella using a hot air vortex.

1 is a block diagram of an umbrella drying apparatus 100 according to the present invention.
Figure 2 is a perspective view of the umbrella drying apparatus 100 according to the present invention.
3 is a conceptual diagram of the configuration of the hot air drying unit 140 of the umbrella drying apparatus 100 according to the present invention.
4 and 5 are conceptual views of the operation of the hot air drying unit 140 of the umbrella drying apparatus 100 according to the present invention.
6 is a structural change conceptual diagram of the hot air drying unit 140 of the umbrella drying apparatus 100 according to the present invention.
7 and 8 are conceptual views for explaining the cross-sectional structure of the vortex induction paths (145A and 145B) provided on the inner sidewall of the hot air drying unit 140 of the umbrella drying apparatus 100 according to the present invention.

In order to fully understand the present invention, the operational or functional advantages of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings illustrating preferred embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, the present invention will be described in detail by describing preferred embodiments of the present invention with reference to the accompanying drawings. The same reference numerals provided in the respective drawings may refer to the same members.

1 is a block diagram of an umbrella drying apparatus 100 according to the present invention. Figure 2 is a perspective view of the umbrella drying apparatus 100 according to the present invention. 3 is a conceptual diagram of the configuration of the hot air drying unit 140 of the umbrella drying apparatus 100 according to the present invention. 4 and 5 are conceptual views of the operation of the hot air drying unit 140 of the umbrella drying apparatus 100 according to the present invention. 6 is a structural change conceptual diagram of the hot air drying unit 140 of the umbrella drying apparatus 100 according to the present invention. 7 and 8 are conceptual views for explaining the cross-sectional structure of the vortex induction paths (145A and 145B) provided on the inner sidewall of the hot air drying unit 140 of the umbrella drying apparatus 100 according to the present invention.

The umbrella drying apparatus 100 can quickly dry the umbrella 200 inserted therein using a hot air vortex. The umbrella drying device 100 includes a case 110 , a sensing unit 120 , a hot air generating unit 130 , a hot air drying unit 140 , a draining unit 150 , a control unit 160 , and a pedestal 170 . do.

On the other hand, since the components of the umbrella drying apparatus 100 shown in the drawings are not essential, the umbrella drying apparatus 100 may have more components or have fewer components than that. This is the same for each component constituting the umbrella drying apparatus 100 . Hereinafter, each component will be described in more detail.

The case 110 forms the main body or exterior of the umbrella drying apparatus 100, and other components of the umbrella drying apparatus 100 are mounted therein. In FIG. 2 , the case 110 is divided into a first case 111 and a second case 112 , and an umbrella movement path 113 is formed between the first case 111 and the second case 112 . do.

On the other hand, unlike shown in Figure 2, in another embodiment of the present invention, the movement path of the umbrella is not formed, and the wet umbrella is inserted into the cylindrical drying space from the upper part and the dried umbrella is taken out from the drying space upward. may have

The sensing unit 120 may detect an entrance of the umbrella 200 for drying or detect that the umbrella 200 is discharged after drying is completed. The entry of the umbrella 200 may be detected by the first sensor 121 , and the discharge of the umbrella 200 may be detected by the second sensor 122 .

The control unit 160 operates the hot air generating unit 130 when the entry of the umbrella 200 is detected by the sensing unit 120 to form a hot air vortex in the hot air drying unit 140, When the discharge of the umbrella 200 is sensed by the sensing unit 120 , the operation of the hot air generating unit 130 may be stopped.

The hot air generator 130 may heat and compress air to generate high-pressure hot air and supply it to the hot air dryer 140 . The hot air drying unit 140 may dry the umbrella 200 accommodated or inserted in the cylindrical space with a hot air vortex formed by spraying a high-pressure hot product supplied from the hot air generating unit 130 into a cylindrical space. .

Since hot air is sprayed at high pressure in the hot air drying unit 140, the water droplets of the umbrella 200 can be primarily shaken off, and quick drying is performed by evaporating the moisture remaining in the umbrella 200 with the high temperature of the hot air. can And since the hot air vortex generated by the hot air drying unit 140 rotates downward spirally, the hot air can be evenly sprayed between the fabrics 240 of the umbrella 200 . At this time, if the user rotates the umbrella 200 in a state in which the umbrella 200 is inserted into the hot air drying unit 140 , this effect may be further increased.

On the other hand, in the umbrella 200, the handle 210 and a part of the umbrella stand 220 extending from the handle 210 are exposed, and the umbrella spokes 230 and the fabric 240 are the inner space of the hot air drying unit 140. It is preferable to be inserted into The umbrella movement path 113 is formed in the upper portion of the hot air drying unit 140 and only a narrow space is opened, so that the hot air vortex generated in the hot air drying unit 140 is intensively sprayed only on the umbrella 200 . can

The drainage unit 150 discharges moisture generated during the drying process. The control unit 160 controls the overall operation of the umbrella drying device (100). The pedestal 170 supports the case 110 and helps to maintain the umbrella drying apparatus 100 in a stable state.

Hereinafter, the configuration and function of the hot air drying unit 140, which is a key component of the umbrella drying apparatus 100 according to the present invention, will be looked at in more detail.

The hot air drying unit 140 is provided with a cylindrical space 146 in which the umbrella spokes 130 and the fabric 240 of the umbrella 200 are accommodated therein, and the inner side wall 142 has a downward spiral vortex induction path ( and a housing 141 in which 145 is formed. The hot air drying unit 140 is provided on the inner side wall 142 of the housing 141 , and a plurality of first hot air injection nozzles for spraying high-pressure hot air at different heights to the first circumference of the cylindrical space 146 . (143).

The hot air drying unit 140 is provided on the inner side wall 142 of the housing 141 and disperses high-pressure hot air at different heights on a second circumference symmetrical to the first circumference of the cylindrical space 146 . It may include a plurality of second hot air injection nozzles 144 that do. At this time, the plurality of second hot-air injection nozzles 144 are provided at a height that does not overlap with the plurality of first hot-air injection nozzles 143 .

The first hot air injection nozzle 143 and the second hot air injection nozzle 144 may each spray the high-pressure hot air obliquely downward to correspond to the formation direction of the vortex induction path 145 at the corresponding height. The high-pressure hot air sprayed by such a matching structure can easily generate a hot air vortex.

In addition, the control unit 160 may inject the high-pressure hot air from the plurality of first hot-air injection nozzles 143 and then the plurality of second hot-air injection nozzles 144 may inject the high-pressure hot air. This is to ensure that the hot air vortex can be better transmitted between the fabrics 240 of the umbrella 200 by increasing irregularities in the hot air spraying rather than continuously continuing the hot air spraying. This is because drying of the umbrella 200 can be made faster.

4 and 5, by spraying hot air along the texture of the vortex induction path 145 at a height where the plurality of first hot air injection nozzles 143 and second hot air injection nozzles 144 intersect with each other Inside the cylindrical space 146 , a hot air vortex rotating downward of the cylindrical space 146 may naturally occur. On the other hand, unlike shown in the drawings, in another embodiment of the present invention, three or more hot air jet nozzle groups may be installed so that the circumference of the cylindrical space 146 is symmetrical. For example, the hot air spray nozzle group of such a bogut may be provided every 120 degrees or every 90 degrees in the cylindrical space 146 .

Meanwhile, in the vortex induction path 145 , the number per height in the upper portion of the cylindrical space 146 may be greater than the number per height in the lower portion of the cylindrical space 146 . Accordingly, the number of the plurality of first hot air injection nozzles 143 and the second hot air injection nozzles 144 per height in the upper portion of the cylindrical space 146 is the number per height in the lower portion of the cylindrical space 146 . can be more

Since it is wider than the distal end 240 at the lower portion of the cylindrical space 146 of the distal end 240 of the umbrella 200 at the upper portion of the cylindrical space 146 , it is stronger at the upper portion of the cylindrical space 146 . This is to dry the umbrella 200 more quickly by spraying a hot air vortex.

The difference in the number of vortex induction paths 145 per height means that the distance between the vortex induction paths in the upper part of the cylindrical space 146 is greater than the interval between the vortex induction paths in the lower part of the cylindrical space 146 . It is narrow and means that the degree of downward inclination of the eddy current induction path in the upper part of the cylindrical space 146 is lower than the downward inclination of the vortex induction path in the lower part of the cylindrical space 146 . In the first and second hot air jet nozzles 143 and 144 , in the first and second hot air injection nozzles 143 and 144 , between the nozzles in the height direction in the upper part of the cylindrical space 146 to correspond to the difference in the height direction of the vortex induction path 145 The spacing may be narrower than the spacing between nozzles in the height direction in the lower portion of the cylindrical space 146 .

Corresponding to this structure, the plurality of first hot-air injection nozzles 143 and the second hot-air injection nozzles 144 have to change the injection angles at the corresponding heights. That is, the injection angles of the plurality of first hot-air injection nozzles 143 and second hot-air injection nozzles 144 are increased toward the lower portion of the cylindrical space 146 . And the number per height (ie, density) of the plurality of first hot air injection nozzles 143 and second hot air injection nozzles 144 and the vortex induction path 145 increases toward the upper portion of the cylindrical space 146 . .

On the other hand, the sensing unit 120 may detect a height range in which the umbrella spokes 230 and the distal part 240 of the umbrella 200 are accommodated in the hot air drying unit 140 in the cylindrical space 146 . . Although not shown in the drawing, the sensing unit 120 includes a plurality of sensing elements for sensing the umbrella spokes 230 and the distal portion 240 of the umbrella 200 at a predetermined height in the cylindrical space 146 . may include

Then, the control unit 160 is the plurality of first and second according to the height range in which the umbrella spoke 230 and the distal part 240 of the umbrella 200 sensed by the sensing unit 160 are accommodated. Among the hot air injection nozzles 143 and 144, the hot air injection nozzle for injecting hot air may be varied. Control of whether the hot air injection nozzle is sprayed with hot air may be performed by electrical valves (not shown) that are opened/blocked in response to a control signal of the controller 160 .

For example, when it is sensed that the umbrella rib 230 and the distal part 240 do not reach the lower part of the cylindrical space 146 , the control unit 160 controls the umbrella rib 230 and the distal part 240 . The hot air may not be sprayed through the hot air spray nozzle corresponding to the undetected height range. In the case of a short umbrella, it is not necessary to spray hot air at a height without a fabric part. That is, the hot air spray height range may vary depending on the length of the umbrella. According to this operation mechanism, it is possible to intensively dry the umbrella according to the length of the umbrella.

Referring to FIG. 7 , the vortex induction path 145A may be a rounded groove 145A-1 connected to the inner side wall 142 of the housing 141 in a downward spiral. In this case, a protrusion 145A-2 may be formed at a lower portion of the groove 145A-1 to be higher than the inner sidewall 142 . This is to improve the drying speed of the umbrella 200 by inducing the hot air vortex from the inside of the housing 141 toward the center of the housing 141 by the protrusion 145A-2.

Referring to FIG. 8 , the vortex induction path 145 may be a streamlined protrusion 145B helically connected to the inner sidewall 142 of the housing 141 . In this case, it is preferable that the protrusion angle of the upper part 145B-1 of the protrusion part 145B is greater than the protrusion angle of the lower part 145B-2. This, as in the structure of Figure 7, inducing the hot air vortex inside the housing 141 toward the center of the housing 141 by the protrusion 145B to improve the drying speed of the umbrella 200 it is for

As described above, although the present invention has been described with reference to limited embodiments and drawings, the present invention is not limited to the above embodiments, and various modifications and variations from these descriptions are provided by those skilled in the art to which the present invention pertains. This is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the following claims as well as the claims and equivalents.

100: umbrella dryer 110: case
120: sensing unit 130: hot air generating unit
140: hot air drying unit 150: drainage unit
160: control unit 170: pedestal
200: umbrella

Claims (4)

delete a hot air generator for generating/supplying high-pressure hot air by heating/pressurizing air; and
It includes a hot air drying unit for drying the umbrella accommodated in the cylindrical space with a hot air vortex formed by spraying high-pressure hot air supplied from the hot air generating unit into a cylindrical space,
The hot air drying unit,
a housing having the cylindrical space in which the umbrella spokes and the distal end of the umbrella are accommodated therein, and a downward spiral vortex induction path is formed on the inner side wall;
a plurality of first hot air injection nozzles provided on the inner side wall of the housing and configured to spray high-pressure hot air at different heights of the first circumference of the cylindrical space to form a hot air vortex; and
A plurality of portions provided on the inner side wall of the housing and spraying high-pressure hot air at a second circumference symmetrical to the first circumference of the cylindrical space and at a different height from the plurality of first hot air injection nozzles to form a hot air vortex Including a second hot air injection nozzle of,
The plurality of first and second hot air injection nozzles,
At regular intervals, alternately spraying high-pressure hot air downward to correspond to the formation direction of the vortex induction path at a corresponding height,
In the vortex induction path,
The spacing in the height direction in the upper part of the cylindrical space is narrower than the spacing in the height direction in the lower part of the cylindrical space,
In the plurality of first and second hot air injection nozzles,
The spacing between nozzles in the height direction in the upper part of the cylindrical space is narrower than the spacing between nozzles in the height direction in the lower part of the cylindrical space so as to correspond to the difference in spacing in the height direction of the vortex induction path,
The high-pressure hot air injection angle at the corresponding height is changed to correspond to the difference in inclination angle according to the difference in the height direction of the vortex induction path,
The vortex induction path is,
It is a round groove connected in a downward spiral to the inner side wall of the housing,
On the lower side of the round groove,
The umbrella drying device, characterized in that the protrusion is formed higher than the inner side of the housing.
a hot air generator for generating/supplying high-pressure hot air by heating/pressurizing air; and
It includes a hot air drying unit for drying the umbrella accommodated in the cylindrical space with a hot air vortex formed by spraying high-pressure hot air supplied from the hot air generating unit into a cylindrical space,
The hot air drying unit,
a housing having the cylindrical space in which the umbrella spokes and the distal end of the umbrella are accommodated therein, and a downward spiral vortex induction path is formed on the inner side wall;
a plurality of first hot air injection nozzles provided on the inner side wall of the housing and configured to spray high-pressure hot air at different heights of the first circumference of the cylindrical space to form a hot air vortex; and
A plurality of portions provided on the inner side wall of the housing and spraying high-pressure hot air at a second circumference symmetrical to the first circumference of the cylindrical space and at a different height from the plurality of first hot air injection nozzles to form a hot air vortex Including a second hot air injection nozzle of,
The plurality of first and second hot air injection nozzles,
At regular intervals, alternately spraying high-pressure hot air downward to correspond to the formation direction of the vortex induction path at a corresponding height,
In the vortex induction path,
The spacing in the height direction in the upper part of the cylindrical space is narrower than the spacing in the height direction in the lower part of the cylindrical space,
In the plurality of first and second hot air injection nozzles,
The spacing between nozzles in the height direction in the upper part of the cylindrical space is narrower than the spacing between nozzles in the height direction in the lower part of the cylindrical space so as to correspond to the difference in spacing in the height direction of the vortex induction path,
The high-pressure hot air injection angle at the corresponding height is changed to correspond to the inclination angle difference according to the difference in the height direction of the vortex induction path,
The vortex induction path is,
It is a streamlined protrusion connected in a downward spiral to the inner side wall of the housing,
An umbrella drying device, characterized in that the protrusion angle of the upper portion of the protrusion has an asymmetrical cross section greater than the protrusion angle of the lower portion of the protrusion. delete

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