JP3762582B2 - Stationary dryer - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a clothes dryer. In particular, the present invention relates to a stationary dryer that dries clothes in a stationary state without stirring.
[0002]
[Background Art and Problems to be Solved by the Invention]
The clothes dryer includes, for example, a general agitation type dryer that dries clothes while stirring the clothes in a rotating drum, and the above-described stationary type dryer. Since the stationary dryer dries the clothes in a stationary state without stirring, there is an advantage that the clothes are hardly damaged and are not easily deformed.
Some of these stationary dryers are realized in an apparatus called a human body press. This human body press machine hangs clothing on a holding body shaped like a human body, blows hot air from the inside of the holding body, and dries clothing or stretches clothes by using this hot air. A molding operation is performed. For example, the holding body is erected on a pedestal, and the surface of the holding body is covered with a breathable material, and hot air blown into the inside of the holding body can be blown out from the surface. Dry the clothes hung there.
[0003]
By the way, the human body press includes an exposed type that supports the holding body in an exposed state and an accommodation type that accommodates the holding body in a box-shaped cabinet. In the exposure type, since hot air blown from the surface of the holding body is released as it is into the room where the apparatus is installed, there is a problem that the ambient environment deteriorates, for example, the room temperature rises. In the accommodation type, hot air can be prevented from being released into the room, but it is troublesome to hang the clothes on the holding body.
[0004]
By the way, in any type of human body press, since there is usually a single holding body, a large number of devices are required to efficiently dry a large number of clothes, which is uneconomical.
Therefore, the inventors of the present application have considered a device in which a plurality of holding bodies are provided in a single cabinet and hot air sent by a single blower fan flows into each holding body via a branch duct. In this apparatus, an internal pressure is applied to the holding body by the hot air sent in, and a differential pressure is generated between the holding body and the surrounding atmospheric pressure. In response to this differential pressure, each holding body causes hot air to flow out, and the holding body swells like a balloon to hold the hung clothing in a predetermined shape.
[0005]
However, we encountered a problem that drying unevenness was caused by each holder. This is because air is sent to each holding body by a blower fan provided on the upstream side of the holding body, and as a result, a difference in the air flow occurs due to the flow path connected to each holding body, resulting in the pressure of air accumulated in the holding body. The flow rate and the like vary depending on each holding body. Therefore, the holding body swells and the amount of blown air varies, resulting in uneven drying.
[0006]
Accordingly, an object of the present invention is to solve the above technical problem and provide a stationary dryer that can dry clothes in a stationary state evenly.
[0007]
[Means for Solving the Problems and Effects of the Invention]
The aspect of the invention described in claim 1 is a stationary drier that dries clothes in a suspended state, a sealable drying chamber, an exhaust means for discharging the air in the drying chamber to the outside of the drying chamber, and the outside of the drying chamber In order to allow air sucked from the suction port to naturally flow into the drying chamber as the air in the drying chamber is exhausted by the exhaust means. An air inflow passage, heating means for heating the air flowing through the air inflow passage, and a bag for hanging clothes to be dried, which are connected to the air outlet and naturally flow into the drying chamber from the air outlet. A bag for hanging clothes that is inflated to a predetermined shape by air and that leaks air from the inflated bag almost evenly. The air in the drying chamber is caused to flow out of the apparatus by the exhaust means to reduce the pressure in the drying chamber to a negative pressure, and the air leaking from the clothes hung on the bag by the differential pressure generated inside and outside the bag Dry by A stationary dryer is provided.
[0008]
According to this aspect, the drying chamber is brought into a negative pressure state by the exhaust means. On the other hand, the inside of the clothes hanging bag communicates with the outside of the drying chamber through the air inflow path, and is at atmospheric pressure, for example. As a result, the bag can be inflated by the differential pressure inside and outside the bag, and the clothes can be dried by blowing air.
In particular, since air easily circulates in the drying chamber, the negative pressure state by the exhaust means is realized substantially uniformly regardless of the location. The atmospheric pressure in the bag is almost constant. Therefore, the differential pressure inside and outside the bag can be made substantially uniform, and as a result, the amount of air leaked out is uniform and uneven drying is unlikely to occur. Further, since the degree of swelling of the bag becomes uniform, the clothes can be evenly swelled, so that the bag can be dried more uniformly by the leaked air.
[0009]
Further, since the garment is dried in a negative pressure state, the moisture attached to the garment is likely to evaporate, resulting in easy drying.
According to a second aspect of the present invention, in the static dryer according to the first aspect, the air inflow path has a plurality of air outlets arranged above the drying chamber, and each air outlet is provided with each air outlet. Provided is a stationary dryer characterized in that a clothes hanging bag is connected.
According to this aspect, it is possible to dry a plurality of clothes at the same time. In addition, it is possible to dry a plurality of clothes that tend to cause unevenness without unevenness. Furthermore, the heating means and the drying chamber can be shared, and the structure can be simplified.
[0010]
According to a third aspect of the present invention, there is provided the stationary dryer according to the first or second aspect, wherein the clothes hanging bag is detachable from the outlet. I will provide a.
According to this aspect, the clothes can be taken in and out from the dryer while the clothes are hung on the bag. For example, by hanging clothes on a bag and attaching / detaching the bag to / from the air outlet, the clothes can be dried in a drying chamber. After drying, the clothes can be taken out together with the bag.
[0011]
Since clothes can be handled together with the bag, there is no risk of losing shape when putting in and out.
Since the clothes can be attached and detached together with the bag, it is easy to work because the clothes can be detached from the bag outside the drying chamber.
According to a fourth aspect of the present invention, there is provided the stationary dryer according to any one of the first to third aspects, wherein the clothing hanging bag includes a neck connected to the air outlet and a shoulder connected to the neck. And a bag-like body that covers the hanger and hangs downward from the hanger and allows air to pass therethrough in a predetermined manner.
[0012]
According to this aspect, the garment is suspended and supported by the hanger, and the bulge shape corresponding to the shape of the garment is obtained by the bag-like body. Air can be introduced from the outlet through the neck and shoulder into the bag-like body, and the air can be evenly distributed on the surface of the bag-like body through the inside to leak out.
Since the bag-like body has a simple structure and can be deformed into a shape corresponding to the clothing, it is not necessary to prepare a bag having a shape corresponding to the clothing.
[0013]
According to a fifth aspect of the present invention, in the static dryer according to any one of the first to fourth aspects, the drying chamber is provided with an opening / closing door for taking clothes in and out, and the air inflow path is , Having a duct formed at the upper part of the drying chamber with a blowout opening, the duct being configured to be able to be drawn out of the drying chamber with the opening / closing door of the drying chamber opened. A static dryer is provided.
According to this aspect, since the bag connected to the duct can be pulled out of the drying chamber, the bag can be attached and detached outside the drying chamber as long as the bag can be attached and detached, and can be easily operated.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a stationary dryer (hereinafter referred to as a dryer) according to an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a side sectional view of a schematic configuration of a dryer according to the present invention. FIG. 2 is a front view of the dryer shown in FIG.
The dryer 1 includes a box-shaped housing 2 that forms the outer shape of the apparatus, a drying chamber 3 provided inside the housing 2 for drying clothes, and a front opening of the drying chamber 3 that can be opened and closed. It has an openable door 4 provided. The dryer 1 can be dried in a state where clothes are suspended in the drying chamber 3.
[0015]
The drying chamber 3 has respective surface portions including an upper surface portion, a right side surface portion, a rear surface portion, a left side surface portion, and a lower surface portion. The upper surface portion and the rear surface portion are plate-like members formed separately from the housing 1, and the right side surface portion, the left side surface portion, and the lower surface portion are formed by the plate-like member of the housing 1. A space having a substantially rectangular parallelepiped shape is defined inside each of the surface portions and the opening / closing door 4 and clothes to be dried are accommodated in the space. When the open / close door 4 is closed, the inside of the drying chamber 3 is sealed with respect to the outside.
[0016]
The open / close door 4 is disposed on the front surface of the housing 2 and is supported so as to be rotatable about a rotation center axis (not shown) extending in the vertical direction. The rotation center axis is arranged along one end edge of the opening / closing door 4 extending in the vertical direction. By opening the door 4, clothes can be taken in and out from the inside of the drying chamber 3. In addition, a window is provided at the center of the opening / closing door 4, and the inside of the drying chamber 3 can be seen through this window, and FIG. 2 shows a state in which clothing is visible through the window.
[0017]
In the dryer 1 of the present invention, the following parts for drying the clothes in the drying chamber 3, that is, the fan device 5 as an exhaust means for discharging the air in the drying chamber 3 to the outside of the drying chamber 3, and the drying A housing 1 includes a suction duct 6 as an air inflow passage for allowing air from outside the chamber 3 to naturally flow into the drying chamber 3, and a steam radiator 7 as a heating means for heating the air flowing through the suction duct 6. Is provided inside. Further, the drying chamber 3 can be sealed as described above, and the interior of the drying chamber 3 is connected to the outlet 11 at the downstream end of the suction duct 6 and a plurality of bag-shaped clothes for hanging clothes to be dried. A hanging bag 8 (hereinafter referred to as a bag 8) is provided.
[0018]
In the bag 8, air can naturally flow into the inside from the air outlet 11 of the suction duct 6, and the air is inflated into a predetermined shape by the air so that the air leaks out almost uniformly from the inside of the inflated bag 8. .
In the dryer 1, when the fan device 5 is operated, the air in the drying chamber 3 is sucked out (see arrows F9 and F8), and the drying chamber 3 is set to a negative pressure, for example, 0.2 atm. On the other hand, the inside of the bag 8 communicates with the outside of the drying chamber 3 through the suction duct 6, and, for example, an atmospheric pressure of 1 atm is applied. In this state, air leaks from the bag 8 into the drying chamber 3 due to the differential pressure generated inside and outside the bag 8 (arrow F6), and the temperature is increased by the steam radiator 7 through the suction duct 6 into the bag 3. Air flows in (arrows F1 to F4). Moreover, the bag 8 is inflated by the above-described differential pressure, and the clothes hung on the bag 8 are inflated from the inside to stretch the bag, and the clothes are dried by the high-temperature air leaking from the inside of the clothes.
[0019]
This will be described in detail below.
The blower fan 5 is disposed behind the drying chamber 3. The blower fan 5 includes an impeller 50 that rotates to send air, a fan motor 51 that rotates the impeller 50, and a fan casing 52 that has a spiral chamber shape that surrounds the impeller 50 and forms an air flow path. Have. The impeller 50 is a rear-facing wing, that is, a turbofan having a wing shape such that the outer portion in the radial direction of the wing is located on the rear side with respect to the rotation direction of the impeller 50 rather than the inner portion. is there. Since this type of blower fan 5 is small and can obtain a large blown amount, it is preferable to make the inside of the drying chamber 3 have a negative pressure. As the blower fan 5, a type other than the turbo fan described above may be used.
[0020]
When the impeller 50 rotates, the air in the drying chamber 3 is provided in the housing 2 that is disposed at the bottom of the drying chamber 3 and removes lint and the like contained in the air, and the housing 2 that is behind the drying chamber 3. The air flows into the suction port 55 at the center of the fan casing 52 through the ventilated passage 54 (arrow F8). Then, the air flows out of the machine through the exhaust duct 57 from the discharge port 56 near the peripheral edge of the fan casing 52 by the impeller 50 (arrow F9). In this way, the pressure in the drying chamber 3 decreases as the air in the drying chamber 3 flows out of the apparatus. At this time, since the inside of the drying chamber 3 is a single room, the pressure in the drying chamber 3 is substantially constant regardless of the position in the room.
[0021]
A plurality of, for example, five bags 8 are arranged in the drying chamber 3 in the front-rear direction and are suspended from the upper portion of the drying chamber 3.
As shown in FIG. 3, the bag 8 is provided with a hook 40 for suspending in the drying chamber 3, a neck 41 that is an upper portion and a relatively narrow neck, and a lower neck 41. A hanger 43 having a shoulder 42 that is a relatively wide shoulder portion, and a bag-like body 44 that is covered with the hanger 43 and hangs downward from the hanger 43 and allows air to pass therethrough in a predetermined manner. The shoulder 42 of the hanger 43 is disposed at the upper end inside the bag-like body 44, and the neck 41 and the hook 40 of the hanger 43 protrude from the upper hole of the bag-like body 44.
[0022]
The upper part of the hook 40 is formed in a hook-like shape and is fixed to the hanger 43 at the lower part.
The neck 41 and the shoulder 42 of the hanger 43 are integrally formed. The hanger 43 is hollow and the inside of the hanger 43 is opened up and down. The neck 41 has an opening 45 for connecting to the air outlet 11 of the suction duct 6, and this opening 45 passes through the inside of the hanger 43 and communicates with the lower side of the hanger 43. The hook 40 extends upward through the inside of the opening 45. The shoulder 42 of the hanger 43 has a portion that is formed in an inclined shape and is supported by hanging clothes. Further, the shoulder 42 is formed with a plurality of holes 46 communicating between the inside and the outside.
[0023]
The bag-like body 44 is formed of a flexible and breathable cloth, for example, Tetron (trade name) which is a polyester synthetic fiber. This cloth can pass air from the inside of the bag-like body 44 to the outside.
The bag-like body 44 has an upper portion that covers a portion of the hanger 43 that has the hole 46 of the shoulder 42 and a lower portion that hangs down from the upper portion. The upper hole of the bag-like body 44 is formed in a size that allows the neck 41 to pass through while closely contacting the periphery of the neck 41. Further, the lower portion of the bag-like body 44 is sealed by being bound by a string 48 (this state is shown in FIG. 2). Thereby, the inside of the bag-like body 44 communicates with the outside only through the opening 45 of the neck 41. Note that the bag-like body 44 is formed of a breathable cloth as described above, and the air inside can leak out through the surface of the cloth. Moreover, if it is cloth, it will be easy to make it leak from the surface uniformly.
[0024]
The opening 45 of the bag 8 is connected to the air outlet 11 of the suction duct 6, and the air from the air outlet 11 flows into the bag 8 through the opening 45. At this time, the air flows into the bag-like body 44 through the inside of the hanger 43, and also flows into the gap between the bag-like body 44 and the hanger 43 covering the bag-like body 44 through the hole 46. Spreads evenly inside the body 44.
Further, the air from the suction duct 6 branches into each bag 8 and flows into the bags 8.
[0025]
Returning to FIG.
The suction duct 6 is disposed at the upper part in the drying chamber 3, the first duct 13 disposed above the drying chamber 3, the bent second duct 14 disposed at the rear of the drying chamber 3. And a third duct 15. The ducts 13, 14, and 15 are connected to each other so that air can flow through the ducts 13, 14, and 15. That is, the above-described suction port 12 facing the outside of the drying chamber 3 is provided at one end on the upstream side of the first duct 13, and the other end on the downstream side of the first duct 13 and the second duct. One end of 14 is connected. The other end of the second duct 14 is connected to an opening 16 formed in the rear surface portion of the drying chamber 3. A third duct 15 is disposed so as to be connectable to the opening 16. The third duct 15 is formed in a substantially rectangular parallelepiped box shape extending in the front-rear direction, formed on the rear surface thereof, and connected to the above-described opening 16 so as to be able to communicate with the above-described opening 16 and a plurality of lower surfaces formed on the lower surface. The air outlet 11 is provided. These air outlets 11 are arranged facing upward in the drying chamber 3.
[0026]
In the suction duct 6, as the air in the drying chamber 3 is exhausted by the operation of the fan device 5, air is sucked into the suction duct 6 from the suction port 12 (arrow F1). The sucked air passes through the first duct 13, the second duct 14, and the third duct 15 and naturally flows into the bag 8 in the drying chamber 3 from the air outlet 11.
In addition, the air passes through the inside of the steam radiator 7 in the middle of the first duct 13 of the suction duct 6 and the temperature is increased.
[0027]
The steam radiator 7 is supplied with high-temperature steam from an external heat source facility (not shown), and this steam passes through the pipe of the heater 7, so that the temperature of the air passing through the vicinity of the radiation fins provided on the pipe is adjusted. It can be raised by heat exchange action. The steam radiator 7 is driven or stopped by opening and closing a steam valve 9 made of an electromagnetic valve provided in the pipe to control the flow of steam.
As shown in FIG. 4, a connection mechanism for detachably connecting the bag 8 to the air outlet 11 is provided inside the third duct 15.
[0028]
A plurality of connection mechanisms are provided for each bag 8. The connecting mechanism includes a hook member 21 to which the hook 40 of the bag 8 is hooked, a support mechanism 22 that supports the hook member 21 so as to be displaceable in the vertical direction, and the hook member 21 to hold the hook member 21 in the upper position. And a tension spring 23 as an urging member that urges upward. When the hook member 21 is set to the upper position by the support mechanism 22, the bag 8 can be connected to the air outlet 11. Further, when the hook member 21 is lowered to the lower position against the urging force of the tension spring 23, the bag 8 can be separated from the air outlet 11, and the clothes can be attached and detached together with the bag 8.
[0029]
The support mechanism 22 has a plate-like base 24 standing in the third duct 15, a fulcrum shaft 25 provided on the base 24 and extending in the horizontal direction, for example, front and rear, and the fulcrum shaft 25 rotating. A lever 26 is rotatably supported as a center.
The lever 26 is a substantially triangular plate-like member, and a fulcrum shaft 25 is rotatably fitted to one end at one corner of the lever 26 so that one side of the lever 26 is a turning arm. The hook member 21 is fixed to the other end at the other corner.
[0030]
The hook member 21 is a shaft-like member extending in parallel with the fulcrum shaft 26, and one end is fixed to the lever 26, and the other end is bulged in the radial direction so that the hook 40 of the bag 8 does not inadvertently come off. Has been. Further, a contact member 27 erected on the lever 26 is provided in the vicinity of the hook member 21. When the hook member 21 is set to the upper position, the lever 26 can be pushed up by slightly lifting the hook 40 hooked on the hook member 21 and bringing the hook 40 into contact with the contact member 27. At this time, the hook 40 cannot be detached from the hooking member 21, so that when it is in the upper position, it is hooked and supported by the hooking member 21 as it is.
[0031]
One end of the tension spring 23 is attached to a pin 28 provided at a substantially central portion of the triangle of the lever 26, and the other end of the tension spring 23 is attached to a pin 29 provided on the base 24. The tension spring 23 forms a toggle mechanism with respect to the lever 26 so that both the upper position and the lower position can be stably maintained. That is, in the upper position, the tension spring 23 urges the lever 26 to rotate clockwise in FIG. 4, for example, so as to displace the hook member 21 upward. Further, in the intermediate rotation position of the lever 26 between the upper position and the lower position, for example, when the hook member 21 and the fulcrum shaft 25 are aligned in the horizontal direction, the fulcrum is on the line connecting the pair of pins 28 and 29. The shaft 25 is located, and the tension spring 23 is pulled more than the state in the upper position and the lower position. Further, in the lower position, the tension spring 23 urges the lever 26 to rotate counterclockwise in FIG. 4, for example, so as to displace the hook member 21 downward.
[0032]
By being biased by the tension spring 23 in this way, the hook member 21 is stably held at the upper position and the lower position.
In the lower position, the hook member 21 is positioned below the blower outlet 11, and the hook 40 can be easily attached and detached (this state is shown by a one-dot chain line in FIG. 4).
When changing from the lower position to the upper position, the contact member 27 may be pushed up by the hook 40 of the bag 8 against the urging of the tension spring 23. At this time, if the lever 26 moves to the upper position beyond the above-described intermediate rotation position, the tension spring 23 acts to pull the lever 26 upward, so that the hook member 21 is autonomously moved to the upper position thereafter. The bag 8 is connected to the outlet 11.
[0033]
In the upper position, the hook member 21 is located inside the third duct 15 above the air outlet 11. At this time, the upper end portion of the neck 41 that is the peripheral portion of the opening 45 of the bag 8 is pressed against the peripheral portion of the air outlet 11 by the urging of the tension spring 23, so that the neck 41 and the third duct 15 are brought into contact with each other. The air outlet 11 and the opening 45 are securely connected to each other without air leaking from between them.
Further, when changing from the upper position to the lower position, the bag 8 may be pulled down against the biasing force of the tension spring 23. At this time, when the lever 26 moves downward beyond the above-described intermediate rotational position, the tension spring 23 acts to pull the lever 26 downward, so that the hook member 21 autonomously reaches the lower position thereafter. Displace.
[0034]
Further, as shown in FIG. 5, the third duct 15 can be pulled out of the drying chamber 3 with the open / close door 4 being opened.
A linear motion displacement mechanism for displacing the third duct 15 in the front-rear direction is provided on the upper surface of the drying chamber 3.
This linear motion displacement mechanism is a linear motion bearing mechanism 31 (a part of which is simplified in FIG. 4) provided in a total of four pairs, two pairs on each of the left and right side surfaces of the third duct 15. And a ball screw mechanism 32 driven by a motor 35. The linear motion bearing mechanism 31 has a pair of slide rails that can move relative to each other through the rolling elements while sandwiching the rolling elements, and is arranged so that the direction of the relative linear movement is along the front-rear direction. One slide rail is fixed to the third duct 15, and the other slide rail is fixed to the upper surface of the drying chamber 3. The ball screw mechanism 32 is rotatably supported in the drying chamber 3 along the front-rear direction of the screw portion 34, and the nut portion 33 is fixed to the third duct 15 so as to be integrally displaceable.
[0035]
When the third duct 15 is located at the rearmost position, as shown in FIG. 1, the third duct 15 is disposed in the drying chamber 3, and the connection opening 17 of the third duct 15 and the opening of the drying chamber 3 are arranged. 16 are connected in a state where the peripheral edge portions are in contact with each other. In this state, the dryer 1 is operated. When the motor 35 is driven to displace the third duct 15 forward, the connection between the connection opening 17 of the third duct 15 and the opening 16 of the drying chamber 3 is released. And as shown in FIG. 5, when the 3rd duct 15 is located in the foremost position, the 3rd duct 15 will be pulled out of the drying chamber 3, and most of the some bags 8 will be with respect to a connection mechanism. The bag can be attached / detached outside the drying chamber 3, and the bag (the one arranged most rearward) inside the drying chamber 3 can be easily attached / detached from the outside of the drying chamber 3.
[0036]
Moreover, the dryer 1 has a control unit (not shown) including a microcomputer that controls the above-described units. An operation panel 10 provided with various switches, a temperature sensor (not shown), and the like are connected to the control unit. The control unit is stored in a signal from the operation panel 10, the temperature sensor, etc., or in a ROM or the like. Based on the program, the driving of the fan motor 51 of the fan device 5, the steam valve 9 of the steam radiator 7, the motor 35 of the linear displacement mechanism, and the like are controlled. The control unit has a built-in timer, and can control the operation of each unit according to the time measured by the timer.
[0037]
Next, the operation of the dryer 1 will be specifically described with reference to the flowchart of FIG.
First, set up your clothes. That is, clothes to be dried, which have been washed with water, such as a suit or a coat, are hung on the bag 8. The opening / closing door 4 is opened, the third duct 15 is pulled out of the drying chamber 3 by the motor 35, and the hook 40 of the bag 8 on which the above-described clothing is hung is hooked on each hook member 21, respectively. When the clothes to be dried are small, the bag 8 not covered with clothes is hooked on the remaining hook members 21 so that the bags 8 are hooked on all the hook members 21. Note that clothes may be directly hung on the bag 8 hooked on the hook member 21. And each of these bags 8 is lifted by manual operation as mentioned above, and is connected to the blower outlet 11. Next, the motor 35 is driven, the third duct 15 is accommodated in the drying chamber 3, the open / close door 4 is closed, and the drying chamber 3 is sealed.
[0038]
Operation is started by setting the degree of dryness (finished condition of the dried clothes) from the operation panel 10 and operating the operation switch (steps S1 and S2). The open / close door 4 is provided with a switch for detecting the open / close state. When the open / close door 4 is open, the operation is not started.
Here, the dryness is selected and set from three predetermined levels. The degree of dryness is set in three levels: “weak” with a relatively large amount of moisture adhering to clothing, “medium” with a middle amount of moisture, and “strong” with a relatively small amount of moisture. The finish of the dried clothes becomes moist as it increases. Thus, since a dryness can be changed, the finishing according to clothing and the finishing according to the user's liking can be realized. If the dryness is not set, it is automatically set to a preset dryness.
[0039]
After the operation is started, the temperature adjustment process is started (step S3). That is, the fan device 5 is operated. Thereby, the inside of the drying chamber 3 is made into a negative pressure. Along with this, air outside the machine flows into the bag 8 through the suction duct 6 and is exhausted outside the machine by the fan device 5 while leaking from the bag 8. Meanwhile, the air flowing into the bag 8 is warmed by the steam radiator 7. The temperature of the air is measured by a temperature sensor (not shown) provided in the second duct 14, and the steam valve 7 is opened and closed based on this temperature, whereby the steam radiator 7 is operated intermittently. The bag 8 is configured so that air of a predetermined temperature flows into the bag 8. The operation in this state is continued until the outlet temperature of the drying chamber 3 reaches a predetermined value (NO in step S4). Here, the above-described outlet temperature is measured using, for example, a temperature sensor (not shown) provided in the ventilation path 54.
[0040]
When the outlet temperature reaches a predetermined value (YES in step S4), the following operation is performed according to the preset dryness as described above (step S5 to step S9). That is, when the dryness is “weak”, the temperature adjustment process is ended after elapse of a first predetermined time, for example, 3 minutes from the time when the outlet temperature reaches a predetermined value. When the dryness is “medium”, the temperature adjustment process ends after the elapse of the second predetermined time, for example, 6 minutes from the time when the outlet temperature reaches the predetermined value. When the dryness is “strong”, the temperature adjustment process ends after the elapse of a third predetermined time, for example, 9 minutes from the time when the outlet temperature reaches the predetermined value.
[0041]
After completion of the temperature adjustment process, a cold air process for a predetermined time, for example, 1 minute is performed (step S10). In the cold air stroke, the operation of the steam radiator 7 is stopped and only the fan device 5 is operated. When the cold air stroke is finished, the control unit sounds a buzzer (not shown) to notify the user that the drying is completed.
Thereafter, the dried clothes can be taken out. That is, the door 4 is opened, the motor 35 is driven, and the third duct 15 is pulled out of the drying chamber 3. The bag 8 with clothes is pulled down by manual operation. Then, the clothes are removed from the hooking member 21 together with the bag 8. The clothes may be removed directly from the bag 8 that is hooked on the hook member 21.
[0042]
As described above, according to the present embodiment, since air easily circulates in the drying chamber 3, the negative pressure state by the fan device 5 is realized substantially uniformly regardless of the location in the drying chamber 3. Further, the atmospheric pressure in the bag 8 is substantially constant. Therefore, the differential pressure inside and outside the bag 8 can be made substantially uniform, and as a result, the amount of air leaked is uniform and uneven drying is unlikely to occur. In addition, since the degree of swelling of the bag 8 becomes uniform, the clothes can be uniformly swelled, and as a result, the bag 8 can be dried more uniformly by the leaking air.
[0043]
In particular, when a single suction duct 6 is provided for a plurality of bags 8, the pressure difference between the bags 8 tends to be different due to the flow of air. The present invention using a negative pressure is preferable because uneven drying is unlikely to occur.
Further, since the garment is dried in a negative pressure state, the moisture attached to the garment is likely to evaporate, resulting in easy drying.
Moreover, since the some bag 8 is each connected with the some blower outlet 11 in the drying chamber 3, a some clothing can be dried simultaneously. In addition, it is possible to dry a plurality of clothing that tends to cause uneven drying without unevenness. Furthermore, since the steam radiator 7 and the drying chamber 3 can be shared by a plurality of clothes, the structure of the dryer 1 can be simplified.
[0044]
In addition, since the bag 8 is detachable from the air outlet 11, the bag 8 and the bag 8 can be taken in and out of the drying chamber 3 with the clothes hung on the bag 8. For example, by hanging clothes on the bag 8 and attaching / detaching the bag 8 to / from the air outlet 11, the clothes can be dried in the drying chamber 3. After drying, the clothes may be taken out together with the bag 8.
In this way, since the clothes can be handled together with the bag 8, there is no possibility of losing shape when taking in and out.
[0045]
Since the clothes can be attached and detached together with the bag 8, it is easy to work because the clothes can be detached from the bag 8 outside the drying chamber 3.
In addition, since the bag 8 can be easily attached to and detached from the air outlet 11 rather than hanging the clothes on the bag 8, the time required to stop the dryer 1 for putting clothes in and out can be shortened. As a result, the dryer 1 can be operated for a long time, and a large amount of clothes can be dried. Therefore, it is preferable for a commercial dryer for drying a large amount of clothes.
[0046]
Further, since the bag 8 is composed of the hanger 43 and the bag-like body 44, the clothing is suspended and supported by the hanger 43, and an appropriate bulging shape corresponding to the shape of the clothing is obtained by the flexible bag-like body 44. Can do. Moreover, air can be introduced into the bag-like body 44 from the air outlet 11 through the neck 41 and the shoulder 42, and the air can be evenly distributed to the surface of the bag-like body 44 through the inside of the bag-like body 44 so as to leak uniformly.
Further, the bag-like body 44 has a simple structure and can be deformed into a shape corresponding to the clothing, so that it is not necessary to prepare the bag 8 having a shape corresponding to the clothing.
[0047]
Further, since the third duct 15 can be pulled out of the drying chamber 3, a plurality of bags 8 connected to the third duct 15 are collectively pulled out of the drying chamber 3, so that clothes and removable bags 8 can be drawn. Can be attached and detached outside the drying chamber 3 and is easy to attach and detach.
In addition, although the above-mentioned bag 8 was obstruct | occluded by the lower end part of the bag-shaped body 44 being tied with the string 48, it is not limited to this. For example, the opening provided in the bag-like body 44 may be closed with a hermetic fastener.
[Brief description of the drawings]
FIG. 1 is a left side cross-sectional view of a schematic configuration of a stationary dryer according to an embodiment of the present invention, showing a state where clothes are accommodated in a drying chamber.
FIG. 2 is a front view of the stationary dryer of FIG. 1, and the clothing inside is also illustrated.
FIG. 3 is a partial cross-sectional perspective view of the bag of FIG. 1;
4 is a front sectional view of the duct of FIG. 1. FIG.
FIG. 5 is a side sectional view of the stationary dryer of FIG. 1, showing a state in which clothes are pulled out of the drying chamber.
6 is a flowchart of the operation content of the static dryer shown in FIG.
[Explanation of symbols]
1 Static dryer
3 Drying room
4 Opening door
5 Fan device (exhaust means)
6 Suction duct (air inflow path)
7 Steam radiator (heating means)
8 Clothing bag
11 Air outlet
12 Suction port
15 Third duct
41 neck
42 shoulder
43 Hanger
44 Bag

Claims (5)

A stationary dryer that dries clothes and dries them,
A sealable drying chamber;
An exhaust means for discharging the air in the drying chamber to the outside of the drying chamber;
It has a suction port that faces the outside of the drying chamber and a blower port that faces the inside of the drying chamber. As the air in the drying chamber is exhausted by the exhaust means, the air sucked from the suction port naturally flows into the drying chamber from the blower port. An air inflow passage for
Heating means for heating the air flowing through the air inflow path;
A bag for hanging clothes to be dried, which is connected to an air outlet and is inflated to a predetermined shape by air naturally flowing into the drying chamber from the air outlet, and the air leaks from the inflated bag almost evenly. and a use bag,
By causing the air in the drying chamber to flow out of the apparatus by the exhaust means, the pressure in the drying chamber is reduced to a negative pressure, and the clothes hung on the bag due to the differential pressure generated inside and outside of the bag are caused by the air leaking from the inside static drier, characterized in that drying. In the stationary dryer according to claim 1,
The air dryer has a plurality of air outlets arranged above the drying chamber, and a clothes hanging bag is connected to each air outlet. The stationary dryer according to claim 1 or 2,
The clothes drying bag can be attached to and detached from the air outlet. The stationary dryer according to any one of claims 1 to 3,
The clothes-hanging bag includes a hanger having a neck connected to the air outlet and a shoulder connected to the neck, and a bag-like body that is placed on the hanger and hangs downward from the hanger and allows air to pass therethrough in a predetermined manner. A stationary dryer characterized by including. The stationary dryer according to any one of claims 1 to 4,
The drying chamber is provided with an open / close door for putting clothes in and out.
The air inflow path has a duct that is formed at the upper portion of the drying chamber and has a blowout opening.
The duct is capable of being pulled out of the drying chamber with the opening / closing door of the drying chamber being opened.

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