JP2004144425A - Umbrella drier - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To resolve a problem in a conventional umbrella drier wherein a drying process takes time since air is blown on an inserted umbrella by an annular air blowing nozzle and the umbrella has to be inserted slowly or repeatedly to remove moisture adhered to the umbrella. <P>SOLUTION: The umbrella drier has a box body, a blower, a space provided in the box body for housing the umbrella in a closed state, an umbrella fabric turning means provided in the box body for turning a crease of fabric between a main frame and a main frame of the umbrella when the umbrella is housed, and an air flow jetting means for jetting air sent from the blower toward the umbrella. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an umbrella dehydrator for dehydrating water attached to an umbrella.
[0002]
[Prior art]
The conventional umbrella dewatering machine is provided with an annular blowing nozzle on the rim and the back side of the umbrella insertion port provided in the main body case, and a radial air flow from the blowing nozzle obliquely toward the umbrella insertion direction. When the wet umbrella is folded and inserted from the umbrella insertion port, the airflow blown out from the blowing nozzle at the mouth hits the umbrella and bounces off, collides with the blown airflow and becomes turbulent The fold of the umbrella is shaken, and the water attached to the umbrella cloth is shaken and wiped off by the air flow while shaking the umbrella cloth. It removes water.
[0003]
[Patent Document 1]
JP-A-2000-111250 (page 3-4, FIG. 1)
[0004]
[Problems to be solved by the invention]
Such an umbrella dewatering machine blows air on the umbrella inserted by the annular blowing nozzle, so to remove moisture attached to the umbrella, it must be inserted slowly or inserted many times. However, there is a problem that the dehydration process takes time.
[0005]
The present invention has been made to solve such a conventional problem, and an object of the present invention is to provide a dehydrator capable of removing water adhering to an umbrella in a short time.
[0006]
[Means for Solving the Problems]
A box, a blower, a space provided in the box, for storing the umbrella in a closed state, and a crease of the fabric between the ribs of the umbrella provided in the box, and when the umbrella is stored. It has an umbrella cloth turning means for turning up, and an air flow blowing means provided in the box body for blowing air blown from the blower toward the umbrella.
[0007]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiment 1 FIG.
FIG. 1 is a perspective view of an umbrella dewatering machine according to Embodiment 1 of the present invention, and FIG. 2 is a longitudinal sectional view of the umbrella dewatering machine according to Embodiment 1 of the present invention, taken along line AA. In FIG. 1, an umbrella dewatering machine 1 as a box is roughly divided in appearance, and has a top surface 4 provided with an opening 3 having a diameter of about φ100 mm to about φ120 mm for inserting an umbrella 2. An air flow jetting means storage unit 5 having air flow jetting means for blowing air onto the umbrella 2 inserted through the opening 3 to remove moisture attached to the surface, and provided below the air flow jetting means storage unit 5. And a blower storing section 6 provided with a blower for sending the air taken in to the air blower of the air blower storing section 5. The outer shell of the air flow jetting means housing 5 and the outer shell of the air blowing means housing 6 are connected by screws (see FIG. 2). The inner surface of the opening 3 is subjected to a water-repellent treatment.
[0008]
Next, the internal structure of the umbrella dewatering machine 1 according to the present invention will be described in detail with reference to the longitudinal sectional view of the umbrella dewatering machine shown in FIG. In the figure, when a blower 7 which is a blower provided in a blower housing 6 is operated, water is prevented from entering from the outside to the inside of the outer shell 8 of the outermost blower housing, thereby releasing air. The air taken in through an inlet 9 provided to open downward to take in air is taken in from a suction port 10 provided above the inlet 9 and a suction air having a sound absorbing structure 11 provided above. The air passes through the chamber 12 and is sucked into the blower 7 from a fan suction port 14 provided in a partition 13 below the suction air chamber 12.
[0009]
In the blower 7, the air suction port communicates with the suction air chamber 12, but the main body other than the air suction chamber 12 is housed in the exhaust chamber 15, and the packing material 16 provided on the upper part of the main body and the rubber bush provided on the lower part are provided. By means of 17, it is fixed to the partition wall 13 and the bottom surface 18 of the blower storing section in a vibration-proof state. In the umbrella dewatering machine 1 according to the first embodiment of the present invention, four blowers 7 are used.
[0010]
The air sucked into the blower 7 and blown out into the exhaust chamber 15 raises the static pressure in the exhaust chamber 15, and a part of the air is exhausted from a hole 20 provided in the inner side surface 19 of the exhaust chamber 15. Is blown out as a high-speed airflow having high kinetic energy, and most of the other air is blown to an air supply pipe 23 connected to an air outlet 22 provided at the upper part of the exhaust chamber 15 and one lower end thereof. You.
[0011]
The air supply pipe 23 is made of stainless steel having a diameter of 30 mm and a thickness of 0.5 mm whose surface is subjected to a water-repellent treatment, and the other upper end opposite to the outlet 22 extending to the vicinity of the opening 3 is closed. The air flowing through the air supply pipe 23 has a high speed having a high kinetic energy in the dehydration processing space 25 through a plurality of holes 24 provided between a lower end and an upper end of the air supply pipe 23. It is ejected as an air stream. These holes 24 are formed by using a laser so as to blow air toward the center of a square having four air supply pipes 23 as vertices, and are formed in the shaft 26 of the umbrella 2 approximately. A stream of air can be applied to the fabric along.
[0012]
In addition, four air supply pipes 23 are used in accordance with the number of the blowers 1, and these four air supply pipes 23 may be installed so as to be parallel to each other. The distance between the ends of the air supply pipe 23 connected to the air supply pipe 22 is set to about 70 mm to 90 mm (about 100 to 130 mm when considered diagonally), and the distance between the other ends of the air supply pipe 23 near the opening 3 is set to about 100 mm. Assuming that the length is 120 mm (about 140 mm to 170 mm when considered in a diagonal line), the inclination of the shaft 26 from the base of the foot 27 of the umbrella 2 to the dew end 29 through the ribs 28 and the fold 30 of the folded fabric and the shaft 26 And the dehydration efficiency is further improved.
[0013]
Further, among the plurality of holes 24 provided between the lower end and the upper other end of the air supply pipe 23, the pitch between the holes is wider toward the lower side and narrower toward the upper side. Also, holes 24 provided in two opposing air supply pipes 23 among the four air supply pipes 23 are shifted in height by １ ／.
[0014]
Next, the operation of each part of the umbrella dewatering machine 1 will be described based on the operation of actually inserting and removing the umbrella 2. As shown in FIG. 2, when the closed umbrella 2 is inserted from the upper opening 3 of the umbrella dehydrator 1 while holding the hand 31, the umbrella is inserted through the skirt portion 32 provided immediately below the opening 3. The first sensor 33 provided at the upper part in the umbrella dewatering machine 1 detects the presence of the inserted object, and the second sensor 34 provided at the lower part detects the further insertion. When both of these sensors detect an object, power is supplied to each of the four blowers 7, the blowers 7 are operated, blown, and dehydration of the umbrella 2 is started.
[0015]
By the way, when the umbrella 2 is pulled out, if a high-speed airflow ejected from the holes 24 provided in the two air supply pipes 23 facing each other collides, the airflow from the opening 3 toward the outside of the umbrella dehydrator 1 Occurs. Since this air flow carries water drops blown off from the umbrella 2, the user of the umbrella dehydrator 1 and the surroundings may be flooded. Therefore, as described above, by shifting the pitch of the holes 24 provided in two of the four air supply pipes 23 out of the four air supply pipes 23 by half, the holes 24 of the air supply pipes 23 The high-speed airflow spouted from the umbrella is staggered in the vertical direction, thereby suppressing the generation of the airflow toward the outside of the umbrella dewatering machine 1.
[0016]
FIG. 3 is a cross-sectional view of the umbrella dewatering machine according to Embodiment 1 of the present invention, taken along line BB. Since the holes 24 are shifted only in the height direction by shifting the pitch, the air flows from the two opposed air supply pipes 23 appear to be collinear when viewed from above, but when viewed from the side. It is staggered up and down.
[0017]
In addition to such a method, as means for preventing the collision of the high-speed airflow ejected from the holes 24 provided in the two opposed air supply pipes 23, the ejection direction of the horizontal high-speed airflow is changed. It is also possible to do.
[0018]
FIG. 4 is a cross-sectional view of the umbrella dewatering machine having another configuration according to the first embodiment of the present invention, taken along line BB. In the figure, the angle θ formed by the line connecting the centers of the two air supply pipes 23 facing each other and the high-speed air flow ejected from the hole 24a is 5 to 20 degrees. In this case, the direction of inclination of the airflow ejected from the holes 24 provided in the four air supply pipes 23 is on the front left as viewed from each of the holes 24, and each of the two air supply pipes is opposed to each other. The angle θ formed between the line connecting the center of the pipe 23 and the high-speed airflow ejected from the hole 24 is 5 to 20 degrees. By doing so, it is possible to prevent the high-speed airflow jetted from the holes 24 provided in the two air supply pipes 23 facing each other on the horizontal plane from colliding.
[0019]
In addition, the inclination direction of the airflow ejected from the holes 24 provided in the four air supply pipes 23 is on the front left side of all the air supply pipes 23 as viewed from the respective holes 24. Then, the umbrella 2 may rotate in a certain direction by blowing high-speed airflow. FIG. 5 is a cross-sectional view taken along the line BB of the umbrella dewatering machine of still another configuration according to the first embodiment of the present invention. So that the direction in which only a part of the air flow ejected from the holes 24 of the four air supply pipes 23 is inclined is opposite to the direction in which the other air flows are ejected from the holes 24b. The air supply pipe 23a is located on the right front as viewed from the center.
[0020]
In the umbrella dewatering machine 1 shown in FIGS. 3 to 5, the fold (fold) 29 of the fabric between two adjacent ribs 28 of the umbrella 2 stored inside is outside the ribs 28. Then, the fold 30 is sandwiched between the air supply pipes 23. Therefore, for example, taking the configuration of FIG. 5 as an example, the blowing is started, the hand 31 of the umbrella 2 is held, one of the four air-supply pipes 23 is used as the air-supply pipe 23b, and the successive folds are sequentially arranged. When the folds 30a, 30b, and 30c are used and the ribs next to the folds are the ribs 28a, 28b, 28c, and 28d, the umbrella 2 is turned clockwise in FIG. The parts up to 30b and the fold 30c are successively contacted and turned up. As a result, the air flow from the hole 24 of the air supply pipe 23b hits the cloth between the fold 30a and the rib 28a, the cloth between the fold 30b and the rib 28b, and the cloth between the fold 30c and the rib 28c successively. Is done.
[0021]
Subsequently, by turning the umbrella 2 to the left as viewed in the drawing, the folds 30c to 30b and 30a are successively brought into contact with the air supply pipe 23b and turned up. As a result, the air flow from the hole 24 of the air supply pipe 23b successively hits the cloth between the fold 30c and the rib 28d, the cloth between the fold 30b and the rib 28c, and the cloth between the fold 30a and the rib 28b. Since such an action occurs in all four air supply pipes 23, the entire umbrella 2 is dehydrated. In the figure, since the inclination of the air flow is extremely expressed, it seems that only one of the doughs is sprayed. However, as described above, it is about 5 to 20 degrees. Since the air flow of the cloth spreads, the air flow is blown to all sides of the fabric simply by changing the direction in which the umbrella 2 is turned.
[0022]
In addition to the dewatering of the cloth portion of the umbrella 2, as described with reference to FIG. 2, part of the air from the blower 7 is exhausted from the holes 20 provided on the inner side surface 19 of the exhaust chamber 15. The high-speed airflow having high kinetic energy is ejected to the portion 21. When the umbrella 2 is sufficiently inserted into the umbrella dewatering machine 1, the stone foot 27 reaches this exhaust space 21, and the high speed airflow from the hole 20 provided in the inner side surface 19 of the exhaust chamber 15 causes the stone foot. The water near 27 is dehydrated.
[0023]
FIG. 6 is a cross-sectional view taken along line CC of a portion of the exhaust chamber according to Embodiment 1 of the present invention. The four exhaust chambers 15 are arranged in a swastika shape, and a central space thereof is surrounded by an inner side surface 19 to form an exhaust space 21. One section of the exhaust space 21 is about 70 mm to 90 mm in accordance with the distance between the air supply pipes 23 described above.
[0024]
Although the umbrella 2 is thus dehydrated, since four blowers 7 are moved, noise is generated from the blowers 7 during operation. Therefore, as described above, by providing the blowing means at the lower part of the apparatus, the blowing means generating noise is kept away from the user, and the sound absorbing structure 11 is provided on the upper surface of the suction air chamber 12 in FIG. In particular, it is desirable that the sound absorbing structure 11 be provided in the upper surface of the suction air chamber 12 at a position facing the fan suction port 14 communicating with the exhaust chamber 15.
[0025]
When the dewatering is completed, the umbrella 2 can be pulled out smoothly without the dew tip 29 being caught by the function based on the shape of the skirt portion 32 provided below the opening 3 in FIG. The skirt portion 32 has a cylindrical shape, and the upper cylindrical opening has a diameter substantially the same as that of the opening 3, and the lower cylindrical opening has a shape similar to a funnel wider than this. The connecting portion of the skirt portion 32 with the opening 3 is designed to be as short as possible. By removing the umbrella 2, even if this portion becomes wet, the air blown out along the skirt portion 32 As a result, it dries as soon as possible.
[0026]
When the umbrella 2 is pulled out in this way, the second sensor 34 in FIG. 2 does not detect the presence of the object, and when the umbrella 2 is further pulled out, the first sensor 33 also does not detect the presence of the object. The operation of the blower 7 is stopped in a state where both of the sensors have stopped detecting the umbrella 2. Alternatively, the blower 7 is stopped for safety when the operation of the blower 7 continues for a certain period or more.
[0027]
As described above, since the air supply pipe 23 having the hole 24 provided along the shaft 26 of the umbrella 2 is installed, the air flow can be blown over the entire surface of the portion of the umbrella 2 that is desired to be dehydrated, and high dehydration performance can be obtained. Can be
[0028]
Further, in the embodiment of the present invention, since the pipe (the air supply pipe 23) is used in the ventilation path of the air blown to the umbrella 2, there is a hole 24 through which the air flow is ejected between the folds of the umbrella 2. Since the air supply pipe 23 can be installed and the air flow can be applied to the entire fabric of the umbrella 2, the dewatering ability is high.
[0029]
Furthermore, since a pipe (air supply pipe 23) is used for the ventilation path of the air blown to the umbrella 2, there is sufficient space between the air supply pipe 23 for ejecting the air flow and the outer shell of the air flow ejection means housing part 5. You can get space. Thanks to the presence of this space, it is possible to prevent the water blown off from the umbrella 2 from rebounding from the outer shell of the air flow jetting means storage unit 5 and reattaching to the umbrella 2, and to manufacture the pipe at a low cost. can do.
[0030]
However, it is not always the case that the dehydration process cannot be performed without a pipe. FIG. 3 is a transverse sectional view of the umbrella dewatering machine having a further different configuration along line BB in Embodiment 1 of the present invention. The umbrella dewatering machine 1 of this figure is provided with a ventilation passage 36 through which air from the blower 7 flows inside a convex portion 35 protruding inward from the outer shell 8 of the air flow ejection means housing portion. Has a blowing passage 37 for blowing out the air to the outside of the convex portion 35. Even with such a configuration, the distance l from the center of the umbrella 2 inserted into the umbrella dewatering machine 1 in FIG. 5 (the shaft 26 corresponds to this) to the air supply pipe, and the distance from the center of the umbrella 2 to the fold line If the distance n from the center of the umbrella 2 to the protrusion 35 is smaller than m, as in the relationship with the distance m, the air flow is applied to the entire surface of the cloth of the umbrella 2 as in the first embodiment of the present invention. be able to.
[0031]
Furthermore, among the functions of the umbrella dewatering machine 1 according to the first embodiment of the present invention, the function of blowing an airflow onto the umbrella and the function of entering the inside of the fold 30 of the umbrella 2 and turning the fabric over the fold between the folds Considering separately from the function of facilitating the flow of air, the hole 24 for blowing out the air flow and the blowing passage, such as a configuration in which the air supply pipe 23 is exposed and a configuration in which the ventilation passage 36 is provided in the projection 35. These functions can be achieved without integrating the 37 and the pipe or the convex portion which enters the inside of the fold 30 of the umbrella 2 to facilitate the air flow between the folds. That is, the umbrella cloth turning means (for example, such as a pipe) having a function of only guiding the air flow to the cloth between the ribs 28 and the folds 30 by contacting the cloth of the umbrella 2 and turning the fold tight. Umbrella cloth) is installed such that the distance from the center of the umbrella 2 to the umbrella cloth turning means is shorter than the distance m from the center of the umbrella 2 to the fold, and separately from the vicinity of the umbrella cloth turning means. Similarly, an umbrella dewatering machine having a high dewatering ability can be obtained even if the air flow jetting means for jetting the air flow is provided. Since the umbrella 2 in the closed state is spread from the foot 27 to the tip 29, in order for the fold 30 to come into contact with the umbrella cloth turning means, l, m, and n are the folds 30 near the tip 29. It must be set based on the position.
[0032]
In this case, depending on the positional relationship between the outer shell 8 of the blower storing section and the means for ejecting the airflow, the performance of the outer shell 8 of the blower storing section may be slightly reduced due to the rebound of the removed water. If a material or unevenness is provided on the inner wall that does not easily repel moisture, or if the inner wall is formed to have a shape that allows water to easily flow down, a decrease in performance can be suppressed. Also, the distance between the hole that blows out the air flow and the fabric of the umbrella increases, the flow velocity decreases, and if the blower is set to the same setting, it may not be possible to obtain sufficient kinetic energy. You can improve your ability.
[0033]
In addition, by applying a water-repellent treatment to the inner surface of the opening 3, the air supply pipe 23, and the skirt portion 32, the dehydration of one umbrella is completed. The moisture of the umbrella does not adhere to the umbrella later, leading to the stabilization of performance when used continuously.
[0034]
Furthermore, since the interval between the four air supply pipes 23 is configured such that the vicinity of the opening 3 is wide and the exhaust chamber 15 side is narrow, the silhouette is close to the silhouette of the fold 30 with the umbrella 2 closed. Like a typical umbrella, the length from the fold 30 to the rib 28 varies along the shaft 26, and the air flow over the entire fabric even in the state where the distance from the fold 30 to the rib 28 increases as the distance from the dew point 29 increases. Can be sprayed.
[0035]
In the plurality of holes 24 provided between the lower end and the upper end of the four air supply pipes 23, the pitch between the holes is wider toward the lower side (toward the exhaust chamber 15), and the pitch between the holes is higher at the upper side (the opening 3). (Closer), the pitch becomes narrower. Therefore, in the case of an umbrella in which the length from the fold 30 to the ribs 28 varies along the shaft 26 like a general umbrella, and the distance from the fold 30 to the ribs 28 becomes longer as the distance from the dew end 29 increases, A large amount of air is blown in the vicinity of the dew tip 29 where a large amount of moisture is generated, and a small amount of air is blown in the vicinity of the stone nose 27 where a small amount of moisture is attached. Therefore, efficient air blowing is performed so that the capacity of the blower does not need to be increased. It can be performed.
[0036]
Further, since the heights of the holes 24 provided in the two opposed air supply pipes 23 out of the four air supply pipes 23 are shifted, the spraying directions are not on the same straight line, and the air flows collide with each other. Thereby, it is possible to prevent the water removed from the umbrella 2 from jumping out of the opening 3.
[0037]
In addition, since the directions in which the air flows from the holes 24 provided in two of the four air supply pipes 23 out of the four air supply pipes 23 are shifted so as not to be on the same straight line on the horizontal plane, the air The water removed from the umbrella 2 due to the collision between the streams can be prevented from jumping out of the opening 3.
[0038]
Furthermore, since the air flows ejected from some holes are shifted in a different direction from the others so that the air flows ejected from all the holes 24 are not shifted in the same direction on the horizontal plane, It is possible to prevent the umbrella 2 from being pushed by the air flow and turned.
[0039]
It should be noted that the air flow jetting means and the air flow jetted from the hole 24 are shifted so as not to be on the same straight line as described above in the structure having the umbrella cloth turning means and the air feeding pipe 23 of this embodiment. In addition to the umbrella dewatering machine described above, the present invention can also be applied to an umbrella dewatering machine having an air flow jetting means in a ring shape having no umbrella cloth turning means and an umbrella dewatering machine having an air flow jetting means on a wall surface.
[0040]
Further, since the blower 7 is arranged below the umbrella dewatering machine 1, the influence of the operation noise of the blower 7 on the user can be suppressed.
[0041]
Further, since the sound absorbing structure 11 is provided at a position in the upper surface of the suction air chamber 12 opposite to the fan suction port 14 communicating with the exhaust chamber 15, the operating noise of the blower 7 can be efficiently absorbed and the noise can be suppressed. Can be.
[0042]
Also, below the opening 3, a skirt portion 32 having a cylindrical shape and an upper tube opening having substantially the same diameter as the opening 3 and a lower tube opening having a shape similar to a funnel wider than the opening 3 is provided. It is possible to prevent the dew tip 29 from being caught inside the umbrella dewatering machine 1 when it is pulled out, making it difficult to remove.
[0043]
Furthermore, since the blower 7 is started in a state where both the upper and lower sensors detect the umbrella 2, that is, in a state where the umbrella 2 is completely inserted, the airflow collides with the start without the umbrella 2. However, it is possible to prevent water from being spouted from the opening 3. Further, it is possible to prevent malfunction due to dust or the like.
[0044]
In addition, since the blower 7 is stopped in a state in which both the upper and lower sensors no longer detect the umbrella 2, that is, in a state in which the umbrella 2 is completely removed, dehydration is also performed during the removal operation.
[0045]
Further, when the umbrella 2 is pulled out while the airflow is being blown, the friction between the cloth of the umbrella 2 and the opening 3 or the upper cylindrical opening of the skirt portion 32 is reduced, and the umbrella 2 can be taken out with a small force. For example, when the mass of the umbrella 2 is about 400 g, in the state where the air flow is blown, the umbrella 2 can be taken out with almost the same force as the own weight 400 g, but in the state where the air flow is stopped, 500 g were required.
[0046]
Further, by providing an openable and closable lid in the opening 3, it is possible to prevent the trash from being mistaken for a trash can and discarding the trash, thereby preventing malfunction.
[0047]
Embodiment 2 FIG.
FIG. 8 is a perspective view of an umbrella dehydrator according to Embodiment 2 of the present invention, and FIG. 9 is a perspective view of another umbrella dehydrator according to Embodiment 2 of the present invention. Components having the same functions as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.
[0048]
FIG. 8 shows a configuration in which a window 39 whose inside can be seen is provided on the side surface of the outer shell of the air flow jetting means housing section 38. This window 39 is made of acrylic resin. Since it is possible to see how the water adhered to the umbrella 2 is removed through the window 39, it is possible to easily confirm whether or not a failure has occurred. In addition, since the air supply pipe 23 and the like can be seen, it can be prevented that the air supply pipe 23 and the like are mistaken for a trash can or the like, and are misused.
[0049]
FIG. 9 shows a case where a window 41 which can be opened and closed is provided on the side surface of the outer shell of the air flow jetting means housing section 40. Thus, the interior can be easily cleaned by opening the window 41.
[0050]
Embodiment 3 FIG.
FIG. 10 is a perspective view of an umbrella dewatering machine according to Embodiment 3 of the present invention. Components having the same functions as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.
[0051]
FIG. 10 shows a configuration in which a mechanism for expressing the advertisement 43 is provided on the side surface of the outer shell of the air flow jetting means housing section 42. Since the umbrella dewatering machine is sometimes used for leasing and the like, it is necessary to enhance its functions when not in use except in rainy weather. For this reason, if a mechanism for expressing the advertisement 43 is provided on the side surface, in addition to the enhancement of functions when not in use, the possibility of seeing the advertisement 43 during the drying waiting time of about 5 to 10 seconds even when in use is high. , Advertising effect is great.
[0052]
If the advertisement 43 is, for example, a leaflet, it is sufficient that the mechanism for expressing the advertisement has a surface on which such an advertisement can be attached. Further, if the advertisement 43 has such a property as to be displayed on the display, the display for displaying the image of the advertisement 43 is a mechanism for expressing the advertisement. In this case, it is necessary to provide a storage unit to store and repeatedly display the image, or to distribute the image by communication and update the advertisement with a new advertisement.
[0053]
【The invention's effect】
By doing so, it is possible to remove water adhering to the umbrella in a short time.
[Brief description of the drawings]
FIG. 1 is a perspective view of an umbrella dewatering machine according to Embodiment 1 of the present invention.
FIG. 2 is a vertical sectional view of the umbrella dewatering machine according to Embodiment 1 of the present invention, taken along line AA.
FIG. 3 is a cross-sectional view of the umbrella dewatering machine according to Embodiment 1 of the present invention, taken along line BB.
FIG. 4 is a transverse sectional view of the umbrella dewatering machine having another configuration according to the first embodiment of the present invention, taken along line BB.
FIG. 5 is a transverse sectional view taken along line BB of the umbrella dewatering machine of still another configuration according to Embodiment 1 of the present invention.
FIG. 6 is a cross-sectional view taken along line CC of the exhaust chamber according to Embodiment 1 of the present invention.
FIG. 7 is a cross-sectional view of the umbrella dewatering machine having a further different configuration taken along line BB in Embodiment 1 of the present invention.
FIG. 8 is a perspective view of an umbrella dewatering machine according to Embodiment 2 of the present invention.
FIG. 9 is a perspective view of another umbrella dewatering machine according to Embodiment 2 of the present invention.
FIG. 10 is a perspective view of an umbrella dewatering machine according to Embodiment 3 of the present invention.
[Explanation of symbols]
Reference Signs List 1 umbrella dehydrator, 2 umbrella, 3 opening, 4 top surface, 5 air flow jetting means storing section, 6 blowing means storing section, 7 blower, 8 outer shell, 9 intake, 10 suction port, 11 sound absorbing structure, Reference Signs List 12 suction air chamber, 13 partition, 14 fan suction port, 15 exhaust chamber, 16 packing material, 17 rubber bush, 18 bottom surface, 19 inner side surface, 20 holes, 21 exhaust space, 22 air outlet, 23 air supply pipe, 24 Hole, 25 dehydration treatment space, 26 shaft, 27 stone butt, 28 rib, 29 outcrop, 30 fold, 31 hand, 32 skirt, 33 first sensor, 34 second sensor, 35 convex, 36 ventilation Road, 37 outlet passage, 38 air flow outlet storage, 39 window, 40 air flow outlet, 41 window, 42 air flow outlet, 43 advertisement.

Claims (22)

Box and
A blower,
A space provided in the box body for storing a closed umbrella;
An umbrella cloth turning means provided in the box body and turning over a fold of the cloth between the ribs and the ribs of the umbrella when the umbrella is stored,
An umbrella dewatering machine, comprising: an air flow jetting means provided in the box body and jetting air blown from the blower toward the umbrella. The umbrella dehydrator according to claim 1, wherein the blower is provided at a lower part of the box. The umbrella dewatering machine according to any one of claims 1 to 2, wherein a plurality of air jetting means are provided along a shaft of the umbrella when the umbrella is stored. The umbrella dewatering device according to any one of claims 1 to 3, wherein the umbrella cloth turning means is provided at a position 50 mm to 85 mm away from a shaft of the umbrella when the umbrella is stored. Machine. The umbrella dewatering device according to any one of claims 1 to 4, wherein the air jetting means is provided at a position separated from the shaft of the umbrella by 50 mm to 85 mm when the umbrella is stored. Machine. The air flow jetting means provided at the upper part in the box body is provided at a position separated from the shaft of the umbrella when the umbrella is stored by 70 mm to 85 mm, and the air flow jetting means provided at the lower part is: The umbrella dewatering machine according to claim 5, wherein the umbrella dehydrator is provided so as to be located at a distance of 50 mm to 65 mm from the umbrella shaft. 7. The umbrella dewatering machine according to claim 1, wherein an amount of air blown from the air jetting means increases from a lower portion to an upper portion in the box. The umbrella dewatering machine according to any one of claims 1 to 7, wherein the blowing directions of the air flow blowing means whose blowing directions of the air flow are opposite to each other are shifted from the same straight line. The box has a first sensor and a second sensor provided below the first sensor, and both the first sensor and the second sensor are inside the box. The umbrella dewatering machine according to any one of claims 1 to 8, wherein the blower starts when the inserted object is detected. A first sensor and a second sensor provided below the first sensor are provided inside the box, and both the first sensor and the second sensor are provided in the box. The umbrella dewatering machine according to any one of claims 1 to 9, wherein the blower stops when the object inserted inside is no longer detected. The umbrella dewatering machine according to any one of claims 1 to 10, wherein the box is configured so that at least a part thereof can be viewed inside. Box and
A blower,
A space provided in the box body for storing a closed umbrella;
A plurality of holes are provided in the box in connection with the blower, and a plurality of holes are provided for ejecting air blown from the blower toward the umbrella along a shaft of the umbrella when the umbrella is stored. Umbrella dewatering machine, characterized in that it has a bent pipe. Box and
A blower,
A space provided in the box body for storing a closed umbrella;
A plurality of rolls are provided in the box body, for turning over the creases of the cloth between the ribs of the umbrella and the rib next to the ribs when the umbrella is stored, and blowing out the air blown from the blower toward the umbrella. An umbrella dewatering machine comprising: a pipe provided with a hole. 14. The umbrella dewatering machine according to claim 12, wherein the blower is provided at a lower part of the box. The umbrella dewatering machine according to any one of claims 12 to 14, wherein a plurality of holes are provided in the pipe along a shaft of the umbrella when the umbrella is stored. The umbrella dewatering machine according to any one of claims 12 to 15, wherein the pipe is provided at a position separated from the shaft of the umbrella by 50 mm to 85 mm when the umbrella is stored. The upper part of the pipe is provided so as to be located 70 mm to 85 mm away from the shaft of the umbrella when the umbrella is stored, and the lower part of the pipe is located 50 mm to 65 mm away from the umbrella shaft. The umbrella dewatering machine according to claim 16, wherein the umbrella dewatering machine is provided in the umbrella. 18. The umbrella dewatering machine according to claim 12, wherein a pitch of holes provided at an upper portion of the pipe is smaller than a pitch of holes provided at a lower portion of the pipe. 19. The umbrella dewatering machine according to any one of claims 12 to 18, wherein the pipes in which the blowing directions of the air flows ejected from the holes face each other deviate from the same straight line. A first sensor and a second sensor provided below the first sensor are provided inside the box, and both the first sensor and the second sensor are provided in the box. 20. The umbrella dewatering machine according to any one of claims 12 to 19, wherein the blower starts when an object inserted inside is detected. A first sensor and a second sensor provided below the first sensor are provided inside the box, and both the first sensor and the second sensor are provided in the box. The umbrella dewatering machine according to any one of claims 12 to 20, wherein the blower stops when the object inserted inside is no longer detected. The umbrella dewatering machine according to any one of claims 12 to 21, wherein the box is configured so that at least a part of the box can be viewed inside.

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