KR102032430B1 - Umbrella dehydrator - Google Patents

Abstract

The present invention relates to an umbrella dehydrator which uses an internal pressure to spray high-pressure air to efficiently dehydrate an umbrella. The umbrella dehydrator comprises: a housing having an umbrella insertion groove; an air supply means to supply air; a first and a second internal pressure generation unit to generate an internal pressure; and a spray unit to spray air to dehydrate an umbrella. Since air is sprayed by a pressure at which the air supply means supplies air and an internal pressure by a positive pressure state of the first and the second internal pressure generation unit, air is sprayed at a high spray pressure for a long period of time to sufficiently and efficiently dehydrate the umbrella by a small-capacity air supply means. The pressure is sequentially increased in the order of the air supply means, the first internal pressure generation unit, the second internal pressure generation unit, and a nozzle to spray high-pressure air downwards through the nozzle of the spray unit to spray air at a high pressure to efficiently dehydrate the umbrella. The air supply means operates at the moment when a user is recognized by a detection sensor formed on the housing to generate an internal pressure by a positive pressure in the first and the second internal pressure generation unit in advance to shorten work time for dehydrating the umbrella.

Description

Umbrella dehydrator

The present invention relates to an umbrella dewatering apparatus that can efficiently dehydrate the umbrella by spraying high pressure air using the internal pressure.

In general, when a user uses an umbrella in rainy weather, when entering a public place or a building where a large number of people gather, it is often necessary to carry an umbrella to prevent the loss of the umbrella.

In this case, if you move the building with the wet umbrella as it is, rain water from the umbrella slips the floor, causing accidents such as pedestrians falling down.

In particular, when such a pedestrian's slip accident occurs on the stairs or the like, it may cause a very fatal accident. In addition, the rainwater dropped to the floor is mixed with various contaminants separated from the shoes of the pedestrians, etc., so that the indoor floor is soiled, and a separate cleaning manpower is required to remove such contaminants.

Therefore, the situation is to provide a plastic bag at the building entrance to put the umbrella in the plastic bag to move within the building.

However, in the case of using the plastic bag as described above, it is necessary to introduce the umbrella to fit inside the plastic bag, which can be cumbersome, and in some cases, the umbrella is roughly introduced into the plastic bag and the rainwater of the umbrella when moving There is a problem flowing down from the plastic bag as it is. In addition, the used plastic bags are eventually thrown away as garbage, which may be harmful to the environment and require efforts to collect them. In addition, there is a problem in that resources are wasted.

In order to solve this problem, various techniques have been proposed in the related art.

That is, Republic of Korea Registered Room No. 20-2012-0002090 (hereinafter referred to as 'Patent Document 1') acts to dehydrate the water on the surface of the umbrella by rotating the case by the driving means when the umbrella is put in the case.

In addition, the Republic of Korea Patent No. 10-1336002 (hereinafter referred to as 'Patent Document 2') consists of a dewatering basket to move up and down by holding a wet umbrella in the upper portion of the outer cylinder portion by rotating the user by pressing the umbrella in the vertical direction It is configured to dehydrate the umbrella by manual method.

In addition, the Republic of Korea Patent Publication No. 10-2014-0119567 (hereinafter referred to as "Patent Document 3") is also configured to remove the moisture on the surface of the umbrella by rotating the umbrella.

However, when the umbrella is dehydrated by rotating the umbrella as described above, there is a problem that can lead to the loss of the umbrella of durability when rotating.

Recently, the Republic of Korea Registered Utility No. 20-0418374 (hereinafter referred to as 'Patent Document 4'), Republic of Korea Patent No. 10-1527602 (hereinafter referred to as 'Patent Document 5'), Republic of Korea Patent Registration 10-1790310 An apparatus for dewatering a wet umbrella surface by injecting air, such as arc (hereinafter referred to as "Patent Document 6"), has been proposed.

(Patent Document 1) KR20-2012-0002090 U Umbrella Dewatering Device

(Patent Document 2) KR10-1336002 B1 Push Type Umbrella Dewatering Device

(Patent Document 3) KR10-2014-0119567 A Umbrella Dewatering Device

(Patent Document 4) KR20-0418374 Y1 Umbrella Dewatering Device

(Patent Document 5) Umbrella Water Purifier Using KR10-1527602 B1 Air Nozzle

(Patent Document 6) KR10-1790310 Umbrella Drainer Using B1 Air Spray

However, in the case of Patent Documents 4 to 6 described above, water on the surface of the umbrella is removed only by the force of generating or inhaling air.

Therefore, when the pressure of the means for sucking air or for generating air is low, it is difficult to remove moisture from the surface of the umbrella, resulting in a problem that the efficiency is reduced.

Umbrella dewatering device according to the present invention for solving the above problems is stored so that the air supplied through the air supply means to generate a positive pressure in the first space portion of the first internal pressure generating portion, and constitutes the first internal pressure generating portion Positive pressure of the first and second internal pressure generating portions is higher than the pressure generated by the air supply means by a system in which the air in the first space portion is supplied to generate a positive pressure to the second space portion constituting the second internal pressure generating portion and injected through the injection portion The purpose of the present invention is to provide an umbrella dewatering device that can efficiently dehydrate the water sufficiently attached to the umbrella even with a small capacity of air supply means by spraying it for a long time with a high injection pressure because the air is made by the internal pressure according to the formation. .

Another object of the present invention is the amount of air supplied to the first space portion through the plurality of first air supply holes constituting the first internal pressure generating unit is supplied to the second space portion through the second air supply hole in the first space portion. The air volume supplied to the second space portion is larger than that of the air discharged through the injection portion, and the first and second air supply holes and the injection portion are configured so that the high pressure air is injected downward through the nozzle of the injection portion, so that By spraying air to effectively dehydrate the water of the umbrella.

It is still another object of the present invention that the first space portion of the first internal pressure generating portion is formed to be larger than the second space portion of the second internal pressure generating portion to increase the pressure of the air injected from the injection portion to efficiently dehydrate the umbrella. It is to make it possible.

Still another object of the present invention is to remove the moisture of the umbrella by operating the air supply means at the moment when the user is recognized by the sensing sensor formed in the housing so that the internal pressure according to the positive pressure in the first, second internal pressure generating unit in advance To save time.

According to the present invention, the air supplied through the air supply means is stored to generate a positive pressure in the first space part of the first internal pressure generating part, and the air of the first space part constituting the first internal pressure generating part constitutes the second internal pressure generating part. It is composed of a system that is supplied to generate a positive pressure in the second space portion and is injected through the injection portion because the air injection is made by the internal pressure according to the positive pressure generated in the first and second internal pressure generating portion higher than the pressure generated by the air supply means By spraying at a high injection pressure for a long time, even a small capacity air supply means can efficiently dehydrate the water sufficiently attached to the umbrella.

In addition, the amount of air supplied to the first space through the plurality of first air supply holes constituting the first internal pressure generating unit is greater than the amount of air supplied to the second space through the second air supply hole in the first space. The amount of air supplied to the second space portion is configured to be larger than the amount of air discharged through the injection portion, so that the air is injected at a high pressure by injecting the high pressure air downwardly through the nozzle of the injection portion by forming the first and second air supply holes and the injection portion. The water can be dehydrated efficiently.

In addition, since the first space portion of the first internal pressure generating unit is larger than the second space portion of the second internal pressure generating unit, the pressure of the air injected from the injection unit may be increased to efficiently dehydrate the umbrella.

In addition, the air supply means operates at the moment when the user is recognized by the sensing sensor formed in the housing so that the internal pressure according to the positive pressure is generated in advance in the first and second internal pressure generating portions, thereby shortening the working time of removing the moisture of the umbrella. It is a useful invention.

1 is a side view showing an umbrella dewatering device according to the present invention.
Figure 2 is an enlarged detailed view showing the main portion of the present invention.
3 is a plan view of FIG.

Hereinafter, the configuration of the present invention with reference to the accompanying drawings in more detail.

First, as shown in FIGS. 1 and 2, the housing 10 includes an umbrella insertion groove 11 for accommodating an umbrella in a wet state therein.

The umbrella insertion groove 11 is sufficient if the size of the umbrella can be inserted, the depth of the umbrella insertion groove 11 is not shown in the figure is made of a depth enough to insert all the cloth portion of the rain umbrella desirable.

Here, the housing 10 may further include a control unit (not shown in the drawing) capable of operating the present invention, and on one side, a sensor 12 for recognizing this when a person is near is to be configured. Can be.

In addition, the lower portion of the umbrella insertion groove 11 formed in the housing 10 may be a drain box 13 for receiving the water dehydrated from the wet umbrella.

Next, the air supply means 20 may be configured in various forms such as an air intake motor or a compressor that can intake external air as a configuration that is coupled to the housing 10 as shown in FIGS.

Next, the first internal pressure generating unit 30 is configured to receive the air supplied by the air supply means 20 to form a pressure therein.

Specifically, the air supplied through the first air supply hole 31 connected to the air supply means 20 is filled with the first space portion 32 is formed a pressure therein.

That is, excess air is supplied to the first space 32 to form an internal pressure by forming a positive pressure therein. In this case, the first air supply hole 31 has a plurality of small sized holes. consist of.

Next, the second internal pressure generating unit 40 is configured to receive pressure from the first space 32 constituting the first internal pressure generating unit 30 to form a pressure therein.

Specifically, a plurality of second air supply holes 41 are formed to be connected to the first space part 32 constituting the first internal pressure generation unit 30, and the air supplied from the first space part 32 is It consists of a second space portion 42 that is filled to form a pressure therein.

Here, the amount of air supplied to the first space portion 32 through the plurality of first air supply holes 31 constituting the first internal pressure generation unit 30 is the second air supply of the second space portion 40. The first and second air supply holes 31 and 41 are configured to be larger than the amount of air supplied to the second space 42 through the hole 41, and the first space portion of the first internal pressure generating unit 30 is provided. The size of the 32 may be larger than the size of the second internal pressure generating unit 42 of the second internal pressure generating unit 40.

Next, the injection unit 50 has a structure connected to the second space 42 of the second internal pressure generating unit 40 described above, and has a streamlined portion 52 for inducing air in the second space 42. And a nozzle 51 for injecting air guided by the streamlined portion 52 into the umbrella insertion groove 11 constituting the housing 10.

Here, the nozzle 51 of the injection unit 50 may be sprayed at a high pressure to remove the moisture of the umbrella.

Accordingly, the amount of air supplied to the second space portion 42 constituting the second internal pressure generating portion 40 is greater than the amount of air discharged through the injection portion 50. It is good to estimate the size and number so that high-pressure air can be injected.

In particular, when the general umbrella is folded, it is preferable that the eight injection parts 50 are formed in the circumferential direction of the umbrella in consideration of being configured to overlap eight fabrics based on the skeleton.

Meanwhile, in the present invention, the partition means 60 may be further included.

The partition means 60 is to allow the fabric of the umbrella to be unfolded without overlapping each other so that the injection portion 50 is formed as many as the number of the injection portion 50 is formed in the circumferential direction of the umbrella.

In particular, the partition means 60 is preferably extended so as to extend from the upper side to the umbrella center direction so that the umbrella can be mounted in the umbrella insertion groove 11 of the housing 10.

Looking at the effect of the present invention made of the configuration as described above are as follows.

First, the umbrella dewatering apparatus 100 according to the present invention is for dewatering the water on the surface of the umbrella by injecting air at high pressure.

That is, when a person using a mart or a shopping mall approaches the umbrella dewatering apparatus 100 according to the present invention, the sensor 12 formed in the housing 10 recognizes a person.

Then, the air supply means 20 is driven to suck the air, and the sucked air is supplied to the first space part 32 through the first air supply hole 31 of the first internal pressure generating part 30. do.

Here, the first space 32 of the first internal pressure generating unit 30 is moved by the second space 42 and the air by the second air supply hole 42 of the second internal pressure generating unit 40. Is connected.

However, since the first and second supply holes 31 and 41 are formed to have a larger amount of air flowing into the first space 32, the first space 31 when supplying air through the air supply means 20. ) Is filled with air to generate internal pressure due to the formation of a positive pressure.

In addition, the internal pressure corresponding to the positive pressure is also formed in the second space portion 42 of the second internal pressure generating unit 40 supplied with air from the first internal pressure generating unit 30 within a short time.

Here, the internal pressure generated due to the air flowing into the first space portion 32 of the first internal pressure generating portion 30 by the air supply means 20 is the second space portion of the second internal pressure generating portion 40. Internal pressure is applied to the 42, and the internal force generated in this way acts to inject air through the nozzle 51 of the injection unit 50.

Therefore, the present invention does not simply determine the air injection pressure by the pressure for supplying air from the air supply means 20, but the internal pressure generated in the first and second spaces 32 and 42 is applied to the nozzle 51. By the injection pressure is formed, even if the air supply means 20 having a small capacity by spraying high-pressure air through the nozzle 51 it is possible to efficiently dehydrate the umbrella.

Looking more closely at this,

According to the present invention, when air is supplied to the first space part 32 of the first internal pressure generating part 30 when the air is supplied through the air supply means 20, the first space is larger than the air pressure generated by the air supply means 20. The pressure generated by the positive pressure in the part 32 becomes higher.

In addition, the amount of air supplied to the second space portion 42 of the second internal pressure generation portion 40 is smaller than the amount of air supplied to the first space portion 32 of the first internal pressure generation portion 30.

Therefore, the internal pressure in the second space portion 42 constituting the second pressure resistance generation portion 40 is greater by the internal pressure generated in the first space portion 32 constituting the first internal pressure generation portion 30. Is formed.

In addition, when air is injected through the nozzle 51 of the injection unit 50 due to the internal pressure generated in the second space 42, the nozzle 51 is more than the amount of air flowing into the second space 42. The number of the injection units 50 and the size of the nozzles 51 were adjusted so that the amount of air injected through them was small.

Therefore, in order for the air to be discharged to the outside within a limited time, the pressure through the nozzle 51 is formed to be larger than the internal pressure generated in the second space portion 42, so as to supply the air to the air supply means 20 as described above. The air passing through the nozzle 51 is operated at a higher pressure than the pressure according to the pressure, thereby improving the efficiency of dehydrating the water of the umbrella.

In addition, in the present invention, since the size of the first space portion 32 of the first internal pressure generation unit 30 is larger than that of the second space portion 42 of the second internal pressure generation unit 40, The spraying speed and pressure of the air is increased toward the sand 50, and the streamlined portion 51 of the spraying portion 50 guides the air to the nozzle 51, which also improves the efficiency of dehydrating the moisture of the umbrella. It will work to increase.

In particular, the present invention does not operate after the user inserts the umbrella into the umbrella insertion groove 11 formed in the housing 10, as described above, if the person is adjacent to the umbrella dewatering device 100 according to the present invention air Since the supply means 20 is driven, the user can immediately dehydrate the umbrella without having to wait for a long time.

On the other hand, in the present invention, the partition means 60 for preventing the fabric of the umbrella overlaps the umbrella insertion groove 11 is configured to further extend in the direction of the center of the umbrella when extending downward, the number of the injection unit 50 Eight places are formed similarly to this.

Therefore, when the user inserts the umbrella into the umbrella insertion groove 11, the nozzles 51 of the injection unit 50 inject the air at high pressure to the individual fabrics while preventing the fabrics of the umbrellas from overlapping, thereby increasing the efficiency of dehydration. It becomes possible.

Of course, the water of the umbrella inserted into the umbrella insertion groove 11 as described above can be separately processed through the drain container 13 formed in the housing (10).

Although the above-described embodiments have been described with respect to the most preferred example of the present invention, it is not limited to the above embodiments, and various modifications are possible within the scope without departing from the technical spirit of the present invention. It is obvious to the engineers.

10: housing
11: Umbrella insertion groove 12: Sensor 13: Drain
20: air supply means
30: first internal pressure generating unit
31: first air supply hole 32: first space
40: second internal pressure generating unit
41: second air supply hole 42: second space part
50: injection unit
51 nozzle 52 streamlined portion
60: partition means
100: umbrella dewatering device

Claims (5)

A housing 10 including an umbrella insertion groove 11 into which an umbrella can be inserted;
An air supply means 20 coupled to an upper end of the housing 10 to supply air;
The first internal pressure generating unit 30 including the first space part 32 in which the air supplied through the plurality of first air supply holes 31 connected to the air supply means 20 is filled to form internal pressure by air. );
The second space portion 42 in which the air supplied through the plurality of second air supply holes 41 connected to the first space portion 31 of the first internal pressure generation unit 30 is filled to form internal pressure by air. A second internal pressure generation unit 40 formed of a cross section;
It is formed at the end of the second space portion 42 constituting the second internal pressure generating portion 40, the direction to spray the air of the second space portion 42 toward the umbrella insertion groove 11 of the housing 10 Consists of a plurality of injection portion 50 consisting of a bent nozzle 51;
The amount of air supplied to the first space 32 through the plurality of first air supply holes 31 formed in the first internal pressure generating unit 30 is the second air supply hole 41 in the first space 32. The amount of air supplied to the second space 42 through the (), and the amount of air supplied to the second space 42 is greater than the amount of air discharged through the nozzle 51 of the injection unit 50. The number and size of the nozzles 51 constituting the first and second air supply holes 31 and 41 and the injection unit 50 are formed,
The first space portion 32 of the first internal pressure generating portion 30 is larger than the second space portion 42 of the second internal pressure generating portion 40 umbrella dewatering device characterized in that formed.
According to claim 1, wherein the sensor 10 is attached to the housing 10 when the detection of the person is made by the air supply means before the user inserts the umbrella into the umbrella insertion groove 11 of the housing 10 ( 20) operating the umbrella dewatering device characterized in that the internal pressure is generated in the first, second internal pressure generating unit (30, 40).
delete delete The umbrella dewatering device according to claim 1, wherein a plurality of partition means (60) are formed in the umbrella insertion groove (11) formed in the housing (10) to prevent the fabrics of the umbrella from overlapping.

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