JP2021049317A - Dryer - Google Patents

Abstract

To provide a dryer capable of spraying a chemical.SOLUTION: A dryer 1 is for drying a predetermined object. The dryer 1 comprises a housing 20 defining a drying space D capable of housing an object, an exhaust fan 22 for supplying air into the drying space D, a gas heater 21 for heating air to be supplied into the drying space D, and a mist generation part 23 for spraying a chemical into the drying space.SELECTED DRAWING: Figure 1

Description

Embodiments of the present invention relate to a dryer.

Conventionally, a dryer for drying an object such as clothes or bedding containing water by washing or the like has been known. In addition, deodorants and disinfectants are used for futons and mattresses as clothing and bedding for the purpose of suppressing bad odors and preventing the growth of bacteria. Anti-tick agents are used for the purpose of preventing the reproduction of mites. These chemicals were stored in a container provided with a spray nozzle, sold, and manually sprayed on a dried object.

Japanese Unexamined Patent Publication No. 2000-157795 Japanese Unexamined Patent Publication No. 2000-288297 Utility Model Registration No. 3086128

The problem to be solved by the invention is to provide a dryer capable of spraying a drug.

The dryer of the embodiment is a dryer that dries a predetermined object, and has a housing in which a drying space capable of accommodating the object is defined and a fan for supplying air into the drying space. A heating unit that heats the air supplied into the drying space and a spraying unit that sprays the drug into the drying space.

It is a perspective view which shows the structure of the dryer which concerns on 1st Embodiment. It is a front view which shows the structure of the dryer which concerns on 1st Embodiment. It is a top view which shows the structure of the dryer which concerns on 1st Embodiment. It is a back view which shows the structure of the dryer which concerns on 1st Embodiment. It is a perspective view which shows the structure of the movable mounting part which concerns on 1st Embodiment. It is a side view which shows the structure of the movable mounting part which concerns on 1st Embodiment. It is a rear view which shows the structure of the movable mounting part which concerns on 1st Embodiment. It is a front view which shows the movable mounting part on which the futon which concerns on 1st Embodiment is placed. It is a side view which shows the movable mounting part on which the futon which concerns on 1st Embodiment is placed. FIG. 2 is a cross-sectional view taken along the line AA'of FIG. FIG. 2 is a cross-sectional view taken along the line BB'of FIG. It is a top view which shows the dryer which permeated a part of the structure which concerns on 1st Embodiment. It is a block diagram which shows the structure of the control part which concerns on 1st Embodiment. It is a flowchart which shows the operation of the control part which concerns on 1st Embodiment. It is a block diagram which shows the structure of the control part which concerns on 2nd Embodiment. It is a flowchart which shows the operation of the control part which concerns on 2nd Embodiment. It is a block diagram which shows the structure of the fog generation part which concerns on 3rd Embodiment. It is a figure for demonstrating the dryer which concerns on 4th Embodiment. It is a figure for demonstrating the inside of the case of the fog generation part which concerns on 4th Embodiment. It is a rear view which shows the structure of the dryer which concerns on 4th Embodiment. It is a figure for demonstrating the dryer which concerns on 5th Embodiment. It is a back view which shows the structure of the dryer which concerns on 5th Embodiment.

Hereinafter, details of the embodiment of the present invention will be described with reference to the drawings.

<First Embodiment>
(overall structure)
First, the overall configuration of the dryer according to the present embodiment will be described. 1 to 4 are a perspective view, a front view, a plan view, and a rear view showing the configuration of the dryer, respectively.

As shown in FIGS. 1 to 4, the dryer 1 according to the present embodiment is housed in the main body 2 and the main body 2, and is movablely mounted for mounting a futon to be dried by the dryer 1. A resting portion 3 is provided. The main body 2 includes a housing 20, a gas heater 21, an exhaust fan 22, a fog generation unit 23, a flow path switching unit 24 (see FIGS. 3 and 4), a control unit 25, and a bottom surface unit 26 (FIG. 6). , FIG. 10) and a door portion 29.

The housing 20 is formed in a substantially rectangular parallelepiped shape as a whole, and a dry space D is defined inside in cooperation with the bottom surface portion 26 and the door portion 29. The movable mounting portion 3 is housed in the drying space D. The gas heater 21 heats the air with a gas burner. The exhaust fan 22 has a check damper 221 for preventing the backflow of air, takes in the air in the dry space D, and discharges the air to the outside through the check damper 221. The gas heater 21 may be replaced by another device that heats the air by another method.

The mist generation unit 23 includes a liquid storage tank in which a liquid containing a chemical such as a deodorant, a disinfectant, and an anti-tick agent is stored, and a liquid provided at the bottom of the liquid storage tank and stored in the liquid storage tank. It is configured as an ultrasonic atomizer having an ultrasonic vibrator that generates ultrasonic waves, and the liquid storage tank is fluidly connected to an intake flow path 202 (see FIGS. 10 to 12) described later by a connecting pipe 231. Will be done. The flow path switching unit 24 switches the air flow path as described later according to the size of the futon to be dried by the dryer 1. In the present embodiment, the fog refers to a group of fine particles (for example, a central particle size of about 3 μm) which are extremely fine droplets that can be generated by ultrasonic waves. As an ultrasonic atomizer capable of generating such mist, for example, an ultrasonic atomizer unit HMC-2400, 2401 manufactured by Honda Electric Co., Ltd., which realizes a central particle size of about 3 μm, can be used.

The gas heater 21, the exhaust fan 22, and the fog generating unit 23 are provided in the housing 20 so as to be located above the drying space D. The fog generating section 23 is positioned at the foremost position, the gas heater 21 is positioned at the rearmost position, and the exhaust fan 22 is positioned between the fog generating section 23 and the gas heater 21 in the front-rear direction. Further, the flow path switching portion 24 is provided on the back surface of the housing 20.

The control unit 25 has an operation panel 251 for the user to perform an instruction operation regarding the operation of the dryer 1, is positioned in front of the fog generation unit 23 and above the drying space D, and the operation panel 251. Is provided so that it faces forward. The control unit 25 controls the operations of the gas heater 21, the exhaust fan 22, the fog generation unit 23, and the flow path switching unit 24 based on the operations performed on the operation panel 251.

The door portion 29 is provided so as to be openable and closable so as to block the drying space D from the front, and a part thereof is formed as a transparent window portion 291 such as glass, and the user opens and closes the door portion 29. It has a grip portion 292 for making it.

The movable mounting portion 3 is configured to be movable back and forth as described in detail later, and the user opens the door portion 29 and moves the movable mounting portion 3 housed in the drying space D forward. A futon is placed on the movable mounting portion 3, the movable mounting portion 3 is moved rearward, and the movable mounting portion 3 is housed in the drying space D again to close the door portion 29. After that, the user can operate the operation panel 251 to cause the dryer 1 to perform a desired drying operation.

The bottom surface portion 26 forms the bottom surface of the housing 20, and functions as a runway of the movable mounting portion 3 when the movable mounting portion 3 is moved back and forth. The bottom surface portion 26 will be described in detail later together with the description of the movable mounting portion 3.

(Movable mounting part)
The configuration of the movable mounting portion will be described. 5 and 7 are a perspective view, a side view, and a rear view showing the configuration of the movable mounting portion, respectively. 8 and 9 are a front view and a side view showing a movable mounting portion on which the futon is mounted, respectively. 8 and 9 show a state in which a single-sized futon is placed.

As shown in FIGS. 5 to 7, the movable mounting portion 3 includes a mounting portion 31 and a pedestal portion 32. As a whole, the mounting portion 31 is formed in a hollow substantially triangular columnar shape in which the upper surface and the bottom surface are laid so as to face in the front-rear direction and one side surface facing the apex formed at the acute angle is directed downward. In the following description, the front side of the upper surface and the bottom surface of the triangular prism is the front surface of the mounting portion 31, the other is the back surface of the mounting portion 31, and one side surface of the mounting portion 31 as a triangular prism facing downward is the mounting portion 31. The bottom surface is used, and the other two sides as triangular prisms are the side surfaces of the mounting portion 31. The pedestal portion 32 is formed in a substantially rectangular parallelepiped shape as a whole, and the bottom surface of the mounting portion 31 is connected to the upper surface thereof.

As shown in FIGS. 8 and 9, the user sets the futon to be dried with the lateral width direction of the futon F facing the front-rear direction of the mounting portion 31 and the side surface of the mounting portion 31 as the mounting surface. At this time, the futon F is in a state in which its flat surface portion is bent along the side surface of the mounting portion 31.

Two restraining portions 33a and 33b are provided symmetrically on the front surface of the mounting portion 31, and a grip portion 34 for allowing the user to move the movable mounting portion 3 back and forth is provided. Each of the two restraining portions 33a and 33b is provided corresponding to each of the two side surfaces of the mounting portion 31. Each of the two restraining portions 33a and 33b has a base portion 330 formed in a long flat plate shape and a protruding portion 331 formed as a flat plate protruding rearward from the end portion of the base portion 330 in the out-of-plane direction of the base portion 330. And have. Each of the two restraining portions 33a and 33b has a base 330 of the mounting portion 31 so that the plane of the protruding portion 331 and the side surface of the corresponding mounting portion 31 face each other in parallel with each other separated by a predetermined distance. It is provided on the front. The effects of these two suppressing portions 33a and 33b will be described in detail later. Further, in the following description, when the two suppression units 33a and 33b are not distinguished, they are simply referred to as the suppression unit 33.

The mounting portion 31 is formed in a hollow substantially triangular columnar shape as described above by being formed in a shape in which the flat plate-shaped member forming the side surface is bent so that the bending line facing the front-rear direction is positioned at the upper end. The internal space is divided into a front first space P1 and a rear second space P2 by a partition 35. The position of the compartment 35 in the front-rear direction is matched to the short width of the single-sized futon, and the length of the entire mounting portion 31 in the front-rear direction is matched to the short width of the double-sized futon. It has become a thing. This allows the drying of different sized duvets, as described in detail later. Further, it is also possible to dry not only the futon but also other mat-like members in which the fiber material is formed in the mat-like shape such as carpet, rug, and mattress.

Further, as shown in FIG. 6, punching hole groups 311a and 311b are provided on both side surfaces of the mounting portion 31 to communicate each of the first space P1 and the second space P2 with the outside of the mounting portion 31. These punching hole groups 311a and 311b are provided over a predetermined distance from the uppermost end of the mounting portion 31, and the predetermined distance is set to half or more of the longitudinal width of the futon. The punching hole group 311a is provided so as to cover substantially the entire area of the first space P1 in the front-rear direction thereof, and similarly, the punching hole group 311b covers substantially the entire area of the second space P2 in the front-rear direction thereof. It is provided as follows. In the following description, when the punching hole groups 311a and 311b are not distinguished, they are simply referred to as the punching hole group 311.

As described above, the pedestal portion 32 is formed in a hollow substantially rectangular parallelepiped shape, and is a connecting flow path T1 (FIG. 6) connecting the vertical flow path 203 (see FIGS. 10 to 12) and the first space P1 described later. (See) is defined inside the pedestal portion 32, and a communication hole 329 (see FIGS. 5 and 7) for communicating the connection flow path T1 and the vertical flow path 203 is provided on the back surface of the pedestal portion 32. A communication hole 318 (see FIG. 5) for communicating the first space P1 and the connection flow path T1 is provided on the bottom surface of the mounting portion 31, and the second space P2 and the exhaust flow flow are provided on the back surface of the mounting portion 31. A communication hole 319 (see FIGS. 5 and 7) for communicating with the road is provided.

The pedestal portion 32 is provided with a protruding portion 320 having a front end portion protruding downward over substantially the entire left-right direction on the bottom surface thereof. The pedestal portion 32 has two front wheel casters 321a and 321b provided on both left and right sides on the front side, specifically, the protrusion 320, and two rear wheel casters 322a and 322 provided on both left and right sides on the rear side.

As shown in FIG. 6, the bottom surface portion 26 forming the bottom surface of the housing 20 is formed in a flat plate shape as a whole, and a protruding portion 260 projecting upward over substantially the entire left-right direction is formed on a part of the front end portion of the bottom surface portion 26. Is provided, and an auxiliary caster 261 is provided on the protruding portion 260 so that the upper end thereof abuts on the bottom surface of the pedestal portion 32. The two front wheel casters 321a and 321b are provided so as to run on the installation surface of the dryer 1, whereas the two rear wheel casters 322a and 322b are provided so as to run on the bottom surface portion 26. Therefore, the two rear wheel casters 322a and 322b are provided so that their lower ends are located above the lower ends of the two front wheel casters 321a and 321b by the thickness of the bottom surface portion 26.

According to the protrusion 260 provided on the bottom surface 26, the two rear wheel casters 322a and 322b are restricted from being in front of the protrusion 260, so that the user moves the movable mounting portion 3 forward. When it is made to move, it is prevented that the entire movable mounting portion 3 comes out of the dry space D.

(Flower path in dryer)
The flow path in the dryer will be described. 10 and 11 are a cross-sectional view taken along the line AA'and a cross-sectional view taken along the line BB'of FIG. 2, respectively. FIG. 12 is a plan view showing a dryer through which a part of the configuration is permeated. In addition, in FIG. 12, a gas heater, an exhaust fan, and a dryer through which a fog generating portion is transmitted are shown.

As shown in FIGS. 10 to 12, the housing 20 is provided with a flat plate portion on which the gas heater 21, the exhaust fan 22, and the fog generating portion 23 are placed, and a drying space D so as to be parallel to the flat plate portion. A horizontal space different from the dry space D is defined between the flat plate portion provided so as to be closed from above. Further, this horizontal space is divided into two spaces and used as an exhaust flow path 201 and an intake flow path 202.

Further, in the drying space D, along the back surface in the drying space D, it extends in the vertical direction, that is, in the vertical direction, and is communicated with the exhaust flow path 201 so as to substantially form a part of the exhaust flow path 201. The flow path 203 is formed. The vertical flow path 203 is a gap between a flat plate portion forming the back surface of the housing 20 and a flat plate portion parallel to the flat plate portion, and a rectangular cross section elongated in the left-right direction when viewed from above extends in the vertical direction. It is formed as an existing space.

The vertical flow path 203 is formed so as to communicate with the exhaust flow path 201 at the upper end thereof and not to communicate with the intake flow path 202. Further, the vertical flow path 203 includes a communication hole 203a for communicating the connection flow path T1 formed in the pedestal portion 32 of the movable mounting portion 3 and the vertical flow path 203, and the mounting portion 31 of the movable mounting portion 3. A communication hole 203b for communicating the second space P2 formed in the above and the vertical flow path 203 is formed.

When the movable mounting portion 3 is completely accommodated in the drying space D so that the door portion 29 can be closed, it is formed in the communication hole 329 formed on the back surface of the pedestal portion 32 and the vertical flow path 203. The communication holes 203a are close to each other so that at least a part of them overlap in the vertical and horizontal directions, and the communication holes 319 formed on the back surface of the mounting portion 31 and the communication holes 203b formed in the vertical flow path 203 are vertically and vertically arranged. They are close to each other so that at least a part of them overlap in the left-right direction. As a result, as shown in FIG. 10, each of the connection flow path T1 and the second space P2 is communicated with the vertical flow path 203.

As shown in FIG. 12, communication holes 21a, 22a, 231a are formed in the flat plate portion on which the gas heater 21, the exhaust fan 22, and the fog generating portion 23 are placed in the housing 20. The communication hole 21a is formed corresponding to the gas heater 21 so that the air heated by the gas heater 21 can be taken into the intake flow path 202. The communication hole 22a is formed corresponding to the exhaust fan 22, and is formed so that the air in the exhaust flow path 201 can be taken in by the exhaust fan 22. The communication hole 231a is formed corresponding to the connection pipe 231. One end of the connection pipe 231 is connected to the liquid storage tank of the fog generation unit 23, and the other end is the intake flow path 202 via the communication hole 231a. Is fluidly connected to.

In the intake flow path 202, an inflow hole group 202a is formed in which the intake flow path 202 and the drying space D are communicated with each other and the air heated by the gas heater 21 flows into the drying space. The inflow hole group 202a is a plurality of punching holes formed in a flat plate portion provided so as to close the drying space D from above and the horizontal space from below, and these punching holes are dried. It is formed over substantially the entire horizontal direction of the space D. Thereby, for example, it is possible to reduce the variation in temperature in the drying space D as compared with the case where the punching holes are formed so as to be close to one side in the left-right direction.

A plurality of inflow hole groups 202a may be formed at different positions in the front-rear direction. Further, when a plurality of inflow hole groups 202a are formed, it is desirable that the opening ratio of the inflow hole group 202a and the region where the punching holes are formed are larger on the front side than on the rear side. As a result, the amount of hot air blown out from the air source, that is, the side close to the vertical flow path 203 can be reduced, and the temperature distribution in the drying space D can be made more even in the front-rear direction.

When the exhaust fan 22 is operated in the dryer 1, the space inside the movable mounting portion 3 becomes negative pressure via the exhaust flow path 201 and the vertical flow path 203, and is provided on both side surfaces of the mounting portion 31. The air in the dry space D is taken into the movable mounting portion 3 through the punching hole groups 311a and 311b. As a result, the inside of the drying space D becomes a negative pressure, and the air outside the dryer 1 passing through the gas heater 21 is taken into the drying space D through the intake flow path 202 communicated with the drying space D by the inflow hole group 202a. Will be done.

When the gas heater 21 is operating in a state where air flows into the drying space D, the air heated by the gas heater 21 flows into the drying space D as hot air, and this hot air flows into the movable mounting portion 3. The futon F is dried by passing through the placed futon F, flowing into the movable mounting portion 3, and then being discharged to the outside of the dryer 1.

When the fog generation unit 23 is operating in a state where air flows into the dry space D, the air containing the fog generated by the fog generation unit 23 flows into the dry space D via the intake flow path 202. By passing the air containing the mist through the futon F, chemicals such as deodorant, disinfectant, and anti-tick agent can penetrate into the futon F, and the chemicals can be sprayed. Can be automated.

By using the mist generation unit 23 as an ultrasonic mist, a finer mist can be generated, whereby the atomized chemicals adhere to the surface of the futon F in a water-dropped state. This can be prevented, and the drug can be more efficiently permeated into the futon F. Further, the spraying of the chemicals by the mist generating unit 23 can also be applied to drying clothes and the like. Further, the inflow position of the fog generated by the fog generation unit 23 into the intake flow path 202, that is, the connection position of the connection pipe 231 may be positioned on the upstream side of the intake flow path 202, and the fog generated by this may be positioned. Can be diffused more evenly in the dry space D.

(Effect of suppression part)
The effect obtained by the restraining portion provided on the movable mounting portion will be described.

As described above, when the hot air in the drying space D flows into the space in the movable mounting portion 3 through the punching hole group 311 and passes through the futon F, the futon F is dried. That is, when the futon F is dried, it is desirable to place the futon F on the placing portion 31 so that the punching hole group 311 into which the hot air flows is closed by the futon F.

In the blockage of the punching hole group 311 by the futon F, the front-rear end of the placed futon F rises due to swelling or distortion of the end of the futon F, that is, separated from the side surface of the mounting portion 31. There is a tendency for gaps to form. In this case, at the front and rear ends of the futon F, the hot air in the dry space D does not pass through the futon F but flows into the space inside the movable mounting portion 3 from a part of the punching hole group 311. , The drying rate of the futon F will decrease.

According to the suppressing portion 33, as shown in FIGS. 8 and 9, the protruding portion 331 guides the front end portion of the futon F so as not to be separated from the side surface of the mounting portion 31, so that the drying rate is reduced. Can be reduced. Here, the protruding portion 331 is formed so that the distance from the side surface of the mounting portion 31 is equal to or less than the average thickness of the futon F. Further, the restraining portion 33 may be provided at the rear end portion of the mounting portion 31, and the separating distance of the protruding portion 331 from the mounting portion 31 can be adjusted by the user according to the thickness of the futon F. 33 may be configured. Further, the restraining portion 33 may be provided on only one of the two side surfaces of the mounting portion 31 divided by the bending line.

Further, the restraining portion 33 may be any as long as it can prevent the front-rear end of the futon F from being separated from the side edge of the mounting portion 31, for example, both ends at the front-rear end of the mounting portion 31. It may be a band-shaped member in which both ends are connected at different positions in the vertical direction at the front-rear end of the mounting portion 31.

(Configuration and operation of flow path switching section)
The configuration and operation of the flow path switching unit will be described.

As shown in FIGS. 4, 10 to 12, the flow path switching unit 24 is attached to a mounting base 240 fixed to the back side of the housing 20, a drive unit 241 provided on the mounting base 240, and a drive unit 241. It has a shaft 243 to which one end is connected and a closing portion 242 connected to the other end of the shaft 243.

The drive unit 241 is a motor provided on the mounting base 240 with the rotation axis direction oriented in the left-right direction, and the drive unit 241 and the shaft 243 are conversion mechanisms 244 that convert rotational motion into linear motion (see FIG. 10). Connected via. The shaft 243 is movably supported in the front-rear direction by the mounting base 240. The closing portion 242 is formed so that the communication hole 203b provided in the vertical flow path 203 can be closed from the rear.

The flow path switching unit 24 can switch between a closed state in which the communication hole 203b is closed and an open state in which the communication hole 203b is opened by moving the shaft 243 back and forth by the drive unit 241. Further, the flow path switching unit 24 switches between the closed state and the open state, so that the first flow path in which air passes only through the first space P1 and is discharged to the outside of the dryer 1 and the air is first. It is possible to switch to a second flow path that passes through the space P1 and the second space P2 and is discharged to the outside of the dryer 1.

By operating the operation panel 251 the user switches to the first flow path when the single-sized futon F is placed on the movable mounting portion 3 so as to overlap the front-rear width of the first space P1. , When the double-sized futon F is placed on the movable mounting portion 3 so as to overlap not only the first space P1 but also at least a part of the front-rear width of the second space P2, it is switched to the second flow path. be able to. As a result, the flow path when the air passes through the space in the movable mounting portion 3 can be made to correspond to the size of the futon F.

Further, according to the flow path switching unit 24 provided in the housing 20, compared with the case where the mechanism for switching the flow path when passing through the space in the movable mounting unit 3 is provided on the movable mounting unit 3 side. , The dry space D can be used more effectively, and since it is easier to secure a power source, electrification is also easy. The flow path switching portion 24 may be provided in the housing 20 and may be configured so that either one of the communication holes 203a and 203b can be opened and closed.

(Configuration and operation of control unit)
The configuration and operation of the control unit will be described. FIG. 13 is a block diagram showing the configuration of the control unit. FIG. 14 is a flowchart showing the operation of the control unit.

As shown in FIG. 13, the control unit 25 further includes a CPU (Central Processing Unit) 252, a RAM (Random Access Memory) 253, a storage device 254, and an input / output IF (Interface) 255 in addition to the operation panel 251.

The CPU 252 cooperates with the RAM 253 to execute an operation described later. The storage device 254 stores data related to the execution of an operation described later. The input / output IF 255 is an interface for connecting the operation panel 251 as an input / output device.

The operation panel 251 includes a ventilation button for instructing the ventilation operation described later, a size button for setting the size of the futon to be dried, and a spray button for setting whether or not to perform the spraying operation described later. It shall be provided with a lamp or a 7-segment display indicating a state of instruction by a button. Further, the control unit 25 is provided with a payment machine (not shown), and the control unit 25 operates the dryer 1 by inserting a predetermined coin, and executes one ventilation operation prior to the operation. It shall be set to be possible.

As shown in FIG. 14, the control unit 25 first determines whether or not the remaining number of ventilation operations is one or more (S101).

When the remaining number of times is one or more (S101, YES), the control unit 25 determines whether or not the ventilation button is pressed on the operation panel 251 (S102).

When the ventilation button is pressed (S102, YES), the control unit 25 causes the dryer 1 to perform a ventilation operation (S103). Here, according to the ventilation operation, only the exhaust fan 22 is operated for a predetermined time, for example, about 15 seconds in order to reduce the odor remaining in the drying space D due to the previous drying of the futon F, particularly the spraying of the chemicals. .. In addition, the remaining number of times is reduced by 1 with the ventilation operation.

Next, the control unit 25 determines whether or not a coin has been inserted into the checkout machine as a trigger for starting operation (S104).

When coins are inserted into the checkout machine (S104, YES), the control unit 25 determines whether or not a single size is selected as the size of the futon F to be dried by the size button (S105).

When the single size is selected (S105, YES), the control unit 25 causes the dryer 1 to perform the first drying operation (S106). Here, according to the first drying operation, the gas heater 21 and the exhaust fan 22 are operated after the flow path switching portion 24 is switched to the closed state.

Next, the control unit 25 determines whether or not the spraying operation is set (S107).

When the spraying operation is set (S107, YES), the control unit 25 causes the dryer 1 to execute the spraying operation (S108). Here, according to the spraying operation, the exhaust fan 22 and the fog generating unit 23 are operated. Next, the control unit 25 resets the remaining number of times and sets it to 1 (S109).

On the other hand, when the setting for the spraying operation is not made (S107, NO), the control unit 25 causes the dryer 1 to execute the cooling operation for operating only the exhaust fan 22 (S110), resets the remaining number of times, and 1 Is set to (S109).

Further, in step S105, when the single size is not selected, that is, when the double size is selected (S105, NO), the control unit 25 causes the dryer 1 to execute the second drying operation (S111). .. Here, according to the second drying operation, the gas heater 21 and the exhaust fan 22 are operated after the flow path switching portion 24 is switched to the open state.

Further, in step S104, when coins are not inserted into the checkout machine (S104, NO), the control unit 25 again determines whether or not the remaining number of ventilation operations is 1 or more (S101).

Further, in step S102, when the ventilation button is not pressed (S102, NO), the control unit 25 determines whether or not a coin has been inserted into the checkout machine (S104).

Further, in step S101, when the remaining number of ventilation operations is less than 1, that is, 0 (S101, NO), the control unit 25 determines whether or not coins have been inserted into the checkout machine (S104).

In this way, after the drying operation, the atomized chemicals are chemically changed by heat by causing the dryer 1 to perform a spraying operation in which the gas heater 21 is not operated and only the exhaust fan 22 and the mist generating unit 23 are operated. Can be prevented from occurring. In the present embodiment, the spraying operation also serves as the above-mentioned cooling operation, but it may be separately executed after the cooling operation.

Further, prior to the drying operation, the ventilation operation of operating only the exhaust fan 22 can be performed according to the operation of the user, so that the drying caused by the previous drying of the futon F or the spraying of the chemicals on the futon F It is possible to reduce the odor in the space D from adhering to the user's futon F.

<Second embodiment>
In the first embodiment, when the mist generator 23 configured as an ultrasonic atomizer sprays a liquid containing a chemical such as a deodorant, a disinfectant, and an anti-mite agent after the first or second drying operation. As described above, the agent may be sprayed prior to these drying actions. In the present embodiment, a dryer that sprays the chemicals prior to the drying operation will be described.

FIG. 15 is a block diagram showing a configuration of a control unit according to the present embodiment. As shown in FIG. 15, the dryer according to the present embodiment includes a control unit 25'having an operation panel 251'in place of the control unit 25, as compared with the dryer 1 according to the first embodiment. Is different. The operation panel 251'provides a ventilation button, a size button, and a lamp (or a 7-segment display) as well as an operation panel 251 of the first embodiment, and includes a cancel button instead of a spray button.

The cancel button switches the setting for performing the spraying operation (hereinafter referred to as the spraying setting) from ON to OFF, and when the cancel button is pressed, the drying operation is performed without the spraying operation. Become. Therefore, in this embodiment, the spray setting is turned on by default. When the spray setting is ON, the lamp of the operation panel 251'is lit, when the spray setting is OFF, the lamp is extinguished, and the lamp blinks during the spray operation. It is preferable that the user can easily grasp the state of drug spraying.

The dryer according to the present embodiment performs a drying operation in response to the insertion of coins. Therefore, the cancel button can be pressed without inserting coins, and when pressed, the spray setting is switched off for a certain period of time (for example, 10 seconds), and when coins are inserted within the switching time. , The drying operation is performed without the spraying operation.

The agent used in the present embodiment is, for example, a mite-proofing agent to which a deodorant and a sterilizing agent are added. It is preferable that it also has an effect of suppressing the work. Further, since the chemical is sprayed before the drying operation, it is preferable that the chemical is not easily denatured by the heat during drying, in other words, the denaturement does not occur until the effect disappears.

The operation of the control unit 25'will be described. FIG. 16 is a flowchart showing the operation of the control unit. Only the processes of steps S201 to S203 shown in FIG. 16 will be described, and the other processes of steps S101 to S106 and S111 are the same as those of the control unit 25 according to the first embodiment. The description is omitted.

As shown in FIG. 16, in the process of step S104 for determining whether or not a coin has been inserted into the checkout machine, when it is determined that a coin has been inserted (S104, YES), the cancel button is pressed on the control unit 25'. It is determined whether or not the spray setting is turned off by being pressed (S201).

When the spraying setting is not OFF (S201, NO), the control unit 25'operates the exhaust fan 22 and the fog generating unit 23 to execute the spraying operation (S202), and the size of the futon F is a single size. The process proceeds to step S105 for determining whether or not is selected.

On the other hand, when the spraying setting is OFF (S201, YES), the control unit 25'determines whether or not the single size is selected as the size of the futon F without executing the spraying operation step S105. Move to the processing of.

After the first or second drying operation (S106 or S111) is performed through the process of step S105, the control unit 25'makes the dryer perform a cooling operation for operating only the exhaust fan 22, and resets the remaining number of times. Then, it is set to 1 (S203), and this flow ends.

When the chemicals are sprayed after the drying operation, the chemicals may adhere to the surface of the futon F and a slight dampness may be generated immediately after the removal, but according to the present embodiment described above, the sprayed chemicals are used. While maintaining the effects of mite-proofing, deodorizing, and sterilizing, it is possible to reliably remove the dampness of the futon F after drying.

In the first and second embodiments, it has been explained that the drug is a mixed solution of an anti-mite agent, a deodorant, and a disinfectant, but even if the user selects these agents individually. Good. In this case, a plurality of mist generating units 23 are provided for each drug, and on the operation panel 251,251', a "tick-proof button", a "deodorant button", and a "sterilization button" indicating whether or not to spray each drug are provided. Etc., or by default to the spraying operation of these chemicals, a "tick-proof cancel button", a "deodorant cancel button", a "sterilization cancel button", etc. are provided. The control units 25 and 25'select a fog generation unit 23 that operates while determining the pressed button, and operates the selected fog generation unit 23 and the exhaust fan 22 to cause the dryer to perform the spraying operation. .. By doing so, the drug desired by the user can be sprayed on the futon F. It should be noted that, with the spraying of the drug as an extra charge, the control units 25 and 25'are further determined whether or not the charge corresponding to the pressed button has been charged, and the spraying operation is performed only when it is determined that the medicine has been sprayed. You may do it.

<Third embodiment>
In the first embodiment, it has been described that the mist generation unit 23 includes a liquid storage tank and an ultrasonic vibrator to atomize the chemicals by ultrasonic waves, but the fine particles contained in the mist are not generated by ultrasonic waves. By generating using a nozzle such as a spray nozzle, a mist (hereinafter referred to as mist) composed of fine particles having a larger particle size may be generated. In the present embodiment, a dryer that mists and sprays the drug will be described.

FIG. 17 is a block diagram showing a configuration of a fog generation unit according to the present embodiment. As shown in FIG. 17, as compared with the dryer 1 according to the first embodiment, the dryer according to the present embodiment stores the mist instead of the mist generating unit 23 having the liquid storage tank and the ultrasonic vibrator. It differs in that it has a liquid tank 232, a supply unit 233, and a nozzle 234, and is provided with a mist generating unit 23'that can spray mist during a spraying operation.

The liquid storage tank 232 stores a liquid containing a chemical such as a deodorant, a disinfectant, and an anti-tick agent. The supply unit 233 is a so-called compressor that is driven and controlled by the control unit 25 to supply compressed air to the nozzle 234. The amount of sprayed liquid and the particle size may be adjusted by adjusting the pressure of the supply unit 233, or the pressure may be adjusted by using a pressure reducing valve. The nozzle 234 is fluidly connected to each of the liquid storage tank 232 and the supply unit 233 via a tube, and sucks up the chemicals in the liquid storage tank 232 according to the supply of compressed air by the supply unit 233 to form a mist. It is a so-called two-fluid nozzle for spraying. The mist sprayed here includes a group of fine particles having a larger central particle size (for example, a central particle size of about 12 μm) than the fine particles generated by ultrasonic waves. As the two-fluid nozzle, for example, Eco Nozzle (registered trademark) EN-2 manufactured by Anest Iwata Coating Solutions Co., Ltd., which realizes a central particle size of about 12 μm, can be used.

According to the present embodiment described above, since the mist having a larger particle size of the fine particles contained than the mist generated by ultrasonic waves can be sprayed, it surely adheres to the futon F and the futon F. The effect of the drug given to the drug can be further enhanced. Further, depending on the type of mite-proofing agent, atomization by ultrasonic waves may not be possible, but according to the present embodiment, the agent containing the mite-proofing agent can be mist-ized, so that the futon is like a liquid spray. It becomes possible to spray on F.

Although it has been described that the nozzle 234 is a two-fluid nozzle in the present embodiment, a one-fluid nozzle that sprays a liquid preferably in a full cone shape by applying a hydraulic pressure using a liquid pump or the like instead of the supply unit 233 is used. You may use it.

Further, in the above-described first to third embodiments, it has been described that the exhaust fan 22 is used to create a negative pressure in the drying space D to flow the air in the dryer 1, but the present invention is not limited to this. A supply fan may be used instead of the exhaust fan 22 to pressurize the air by sending air into the drying space D to cause the air in the dryer to flow. In this case, by providing a supply fan upstream of the gas heater 21, hot air can be supplied to the drying space D via the gas heater 21, the communication hole 21a, and the intake flow path 202. On the other hand, on the contrary, the gas heater 21 and the supply fan may be provided at the position of the exhaust fan 22 so that the hot air is supplied from the movable mounting portion 3 to the drying space D.

<Fourth Embodiment>
In the first to third embodiments, it has been described that the atomized drug is sprayed into the dry space D from above via the connecting pipe 231 and the intake flow path 202, but the present invention is not limited to this, and the atomized drug is sprayed from below. It may be sprayed. In the present embodiment, a dryer for spraying the drug from below will be described.

FIG. 18 is a diagram for explaining the dryer according to the present embodiment, and FIG. 19 is a diagram for explaining the inside of the housing of the fog generating unit according to the present embodiment. FIG. 20 is a rear view showing the configuration of the dryer according to the present embodiment. In addition, in FIG. 18, a part of the lower back surface of the dryer 1'according to the present embodiment is shown in a vertical cross section. As shown in FIGS. 18 and 19, in the dryer 1'according to the present embodiment, the fog generating unit 23'is provided in front of the exhaust fan 22 as compared with the dryer according to the third embodiment. The difference is that it is provided on the lower back surface of the dryer 1'.

As shown in FIGS. 18 to 20, the fog generation unit 23'provides a housing 236 that penetrates the vertical flow path 203 from the back surface of the dryer 1'and reaches the inside of the drying space D, and is inside the housing 236. The nozzle 234 is stored in the space. In this embodiment, the housing 236 is provided adjacent to one side of the flow path switching portion 24 in the left-right direction (see FIG. 20). The nozzle 234 is installed so that its ejection port 234a faces upward, and the tube 235a and the tube 235b are individually connected to each other. The tube 235a is connected to the supply unit 233 and supplies compressed air to the nozzle 234. On the other hand, the tube 235b is connected to the liquid storage tank 232 and supplies the liquid drug to the nozzle 234. In the present embodiment, the liquid storage tank 232 and the supply unit 233 are installed outside the dryer 1', but they may be installed inside the dryer 1'or attached to the back surface.

According to the present embodiment described above, the mist-ized drug can be sprayed upward from the ejection port 234a using the compressed air supplied from the tubes 235a and 235b. The agent sprayed upward reaches the upper part of the drying space D, and is diffused over the entire drying space D by the flow of hot air from the inflow hole group 202a (for example, the airflow rotating around the movable mounting portion 3), and the futon F. It can adhere evenly to the whole.

From the viewpoint of uniform spraying of the drug, it is preferable to provide the housing 236 substantially in the center of the dryer 1'in the left-right direction. However, in the present embodiment, since the flow path switching portion 24 is located on the back surface of the dryer 1', the nozzle 234 is positioned next to the flow path switching portion 24 together with the housing 236. In such a case, the angle of the nozzle 234 may be set so that the ejection port 234a faces upward and substantially in the center in the left-right direction.

<Fifth Embodiment>
In the fourth embodiment, since the flow path switching unit 24 is located on the back surface of the dryer 1', the housing 236 is positioned next to the flow path switching unit 24, but if there is no flow path switching unit 24, the housing 236 is positioned next to the flow path switching unit 24. It may be provided substantially in the center of the dryer 1'in the left-right direction. In the present embodiment, a dryer having no flow path switching portion 24 and having a housing 236 substantially in the center in the left-right direction will be described.

FIG. 21 is a diagram for explaining the dryer according to the present embodiment, and FIG. 22 is a rear view showing the configuration of the dryer according to the present embodiment. As shown in FIG. 21, in the dryer 1 ″, the communication hole 323 is provided on the lower surface of the pedestal portion 32 of the movable mounting portion 3, and the communication hole 262 and the lower exhaust flow path 263 are provided on the bottom surface portion 26 of the main body portion 2. , And an opening 264 is provided, and the first space P1 of the movable mounting portion 3 communicates with the vertical flow path 203 through these, which is different from the dryer 1'according to the fourth embodiment. In such a case, a gap can be defined between the movable mounting portion 3 and the back inner wall portion of the main body portion 2 in the front-rear direction. Therefore, as shown in FIG. 22, even if the housing 236 is positioned substantially in the center of the dryer in the left-right direction, as shown in FIG. 21, the drug is surely moved upward without contacting the movable mounting portion 3. Can be sprayed. In the dryer 1 ″ according to the present embodiment, the hot air flowing into the vertical flow path 203 is discharged to the outside through the exhaust flow path 201 formed above the intake flow path 202 and the communication hole 22a. On the other hand, hot air from the gas heater 21 flows into the intake flow path 202 formed below the exhaust flow path 201 via the intake flow path 204 penetrating the exhaust flow path 201, and enters the drying space D from the inflow hole group 202a. It will flow in. In addition, since the intake flow path 204 is arranged at different positions in the left-right direction from the cut surface in FIG. 21, it is virtually shown by a alternate long and short dash line for explanation.

The five embodiments of the present invention are presented as examples and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other embodiments, and various omissions, replacements, and changes can be made without departing from the gist of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are also included in the scope of the invention described in the claims and the equivalent scope thereof.

1,1', 1'' Dryer 20 Housing 21 Heating unit (gas heater)
22 Exhaust fan 23,23'Fog generator

Claims (5)

A dryer that dries a predetermined object,
A housing in which a dry space that can accommodate the object is defined, and
A fan for supplying air into the drying space and
A heating unit that heats the air supplied into the drying space,
A dryer provided with a spraying portion for spraying the drug in the drying space. The drug is a liquid
The spraying portion has a liquid storage tank for storing a liquid drug and an ultrasonic vibrator for generating ultrasonic waves in the liquid stored in the liquid storage tank, and the drug is atomized by the ultrasonic vibrator. The dryer according to claim 1, wherein the generated mist is sprayed in the drying space. A control unit that controls the operation of the fan, the heating unit, and the spraying unit is further provided.
Claim 1 or claim, wherein the control unit executes a drying operation for operating the fan and the heating unit, and then executes a spraying operation for operating the fan and the spraying unit after the drying operation. Item 2. The dryer according to item 2. A control unit that controls the operation of the fan, the heating unit, and the spraying unit is further provided.
1 or claim 1, wherein the control unit executes a spraying operation for operating the fan and the spraying unit, and then executes a drying operation for operating the fan and the heating unit after the spraying operation. Item 2. The dryer according to item 2. The dryer according to claim 3, wherein the control unit executes a ventilation operation in which the fan is operated without operating the heating unit prior to the drying operation.

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