CN115989044A - Processed wind generating device - Google Patents

Abstract

A convenient-to-use treatment air generator capable of blowing treatment air to any part of an object to perform deodorization is provided. An ionizer (2) as a process air generating device is provided with an air blowing fan, an air passage, and a discharging device inside a housing (10). A connecting part (14) for connecting a power cable (11) is provided on the side of the outlet (5) of the ionizer (2), and has a hook (6) and an outline (10 e) as a locking part for detachably mounting the ionizer (2) on the support. A groove (29) is formed in the outer surface of the housing (10), and the groove (29) extends from the outlet side to the opposite side of the outlet side and is used for fitting the power cable (11).

Description

Processed wind generating device

Technical Field

The present invention relates to a treated air generator for sending treated air having a deodorizing effect.

Background

Conventionally, as an apparatus for removing odor and bacteria attached to a wig or the like, a deodorizing and sterilizing apparatus for a wig or the like of patent document 1 is known. The deodorizing and bacteria removing device for wigs and the like described in patent document 1 includes: a mounting table on which an object to be deodorized or sterilized such as a wig is mounted; an ozone generating unit that generates ozone from oxygen in the air; and a blower fan. The mounting table is formed in a hemispherical shape and has an air outlet. The ozone generated by the ozone generating unit is contained in an air flow (hereinafter referred to as "wind") by the air blowing fan and is blown out from the air outlet of the mounting table.

Documents of the prior art

Patent literature

Patent document 1: japanese Utility model publication No. 3067653 "

Disclosure of Invention

Problems to be solved by the invention

However, in the apparatus of patent document 1, the ozone generating unit is provided inside the mounting table, and the blower fan is provided inside the base portion. Therefore, the wind containing ozone cannot be blown to any part of the object, and the convenience of use cannot be said to be good.

An object of one aspect of the present invention is to provide a convenient-to-use process air generator capable of blowing process air to an arbitrary position of an object to perform deodorization.

Means for solving the problems

In order to solve the above-described problems, a process air generator according to one aspect of the present invention is a process air generator that sends out process air that is air containing particles, and includes: a blowing unit which sucks air from the suction port; an air passage for guiding the air sucked by the air blower to a blow-out port; a discharge unit disposed facing the air passage and configured to generate particles by discharge; a connection unit provided on the outlet side of the processed air generator where the outlet is located, the connection unit being connected to a power cable; a casing having the suction port and the discharge port, and housing the blower, the air passage, and the discharge unit; a locking part which enables the processing wind generating device to be detachably arranged on the support body; and a groove portion formed on an outer surface of the casing, and into which the power cable extending from the outlet port side toward an opposite side to the outlet port side is fitted.

Effects of the invention

According to an aspect of the present invention, the following effects are achieved: the treatment air generator can blow treatment air to any position of an object to perform deodorization, and is convenient to use.

Drawings

Fig. 1 is a perspective view of an ionizer according to this embodiment.

Fig. 2 is a schematic cross-sectional view of the cutting plane D1 of fig. 1.

Fig. 3 is a schematic cross-sectional view of the cutting plane D2 of fig. 1.

Fig. 4 is an enlarged view of the area A1 of fig. 2.

Fig. 5 is a perspective view of an artificial hair storage device in which the ionizer according to the present embodiment is mounted.

Fig. 6 shows an example of the 1 st setting part in which the ion generator is set to the base part using the external shape of the lower part.

Fig. 7 is a view showing an example in which the ionizer is disposed at the 2 nd disposition portion of the base portion using a hook.

Fig. 8 is a view showing an example in which the ionizer is disposed at the 3 rd disposed part of the base part using a hook.

Fig. 9 is a view showing an example of the use of the ionizer removed from the base portion by hand.

Detailed Description

Hereinafter, an embodiment of the present invention will be described in detail. In the present embodiment, a treatment wind generating device mounted on an artificial hair storage device (deodorizing device) capable of storing artificial hair (wig) as a symmetric object while deodorizing the artificial hair is exemplified. Further, as the processing wind generating device, an ion generator that sends an ion wind as a processing wind having deodorizing, sterilizing, and static eliminating effects to the object is exemplified.

(1. Brief description of the Artificial Hair storage device 100)

Fig. 5 is a perspective view of an artificial hair storage device 100 on which the ionizer according to the present embodiment is mounted. As shown in fig. 5, the artificial hair storage device 100 includes an ionizer 2 as a treatment wind generating device and a base portion 3.

The ion generator 2 generates ions by electric discharge and sends out an ion wind as a processing wind. As the generated ion, a positive (+) ion (e.g., H) may be mentioned ⁺ (H ₂ O) _m (m is an arbitrary natural number)) or a negative (-) ion (e.g., O) ^2- (H ₂ O) _n (n is an arbitrary natural number)) or both.

In addition, artificial hair is easily damaged when stored in an electrically charged state. Therefore, when the object is artificial hair, the ionizer 2 that sends out ion wind capable of removing electricity in addition to deodorization is effective, and deterioration of the artificial hair can be suppressed by removing electricity. In addition, regardless of whether the hair is artificial hair, it is preferable that the ion generator 2 is capable of removing bacteria in addition to deodorization, and that the ion wind that can remove bacteria is sent out is effective.

The base part 3 holds the artificial hair 4 and allows the ionizer 2 to be detachably provided. The base unit 3 can be provided with the ion generator 2 at a plurality of positions different in the position of the artificial hair 4 to which the ion wind sent from the ion generator 2 is blown.

(2. Base part 3)

As shown in fig. 5, the base portion 3 has an artificial hair holding portion 15, an arm portion 16, a leg portion 17, a suspending portion 18, and a plurality of setting portions 19. The artificial hair holding portion 15 holds the artificial hair 4 from the inside (see fig. 6). In the example of fig. 5, the artificial hair holding part 15 has a1 st frame 15a and a 2 nd frame 15b each formed in an elliptical shape. The artificial hair 4 is held from the inside by locally contacting the inner surfaces of the artificial hair 4 with 4 curved frame portions constituted by combining the 1 st frame 15a and the 2 nd frame 15b.

As shown in fig. 5, the arm portion 16 extends upward of the artificial hair holding portion 15, and its upper end portion is located higher than the artificial hair holding portion 15. The arm portion 16 secures a space above the artificial hair holding portion 15 so that the ionizer 2 can be disposed above the artificial hair holding portion 15. In the example of fig. 5, the arm portion 16 is formed in an arc shape curved outward.

The leg portion 17 is provided at a lower portion of the base portion 3 so that the base portion 3 can stand autonomously. By providing the leg portions 17, the artificial hair storage device 100 can be used in a state of being placed on a table or the like. In the example of fig. 5, the leg portion 17 has 4 legs 17a.

The suspending portion 18 is a hook-shaped member provided upward at an upper portion of the base portion 3 so that the base portion 3 can be suspended. By providing the hanging part 18, the artificial hair storage device 100 can be used in a state of being hung on a clothes rail of a wardrobe or the like (see fig. 8). The suspending portion 18 is provided at the upper end of the arm portion 16.

The suspending portion 18 is preferably provided so that the open portion 18a faces the arm portion 16 side. Thus, the artificial hair storage device 100 can be easily suspended from a clothes rail or the like of a wardrobe in a state where the arm portion 16 side is positioned on the depth side of the wardrobe and the artificial hair holding portion 15 side is positioned on the front side of the wardrobe (see fig. 8). By suspending the artificial hair storage device 100 with the artificial hair holding portion 15 side facing the front surface side of the wardrobe, it is possible to easily carry out the placement of the artificial hair 4 on the artificial hair holding portion 15 and the removal of the artificial hair 4 placed (held) on the artificial hair holding portion 15.

The setting part 19 sets the ionizer 2 detachably to the base part 3. The setting portion 19 is provided at a plurality of positions of the base portion 3 in order to set the ion generator 2 at a plurality of positions of the base portion. The ion wind sent from the ion generators 2 provided in the respective setting sections 19 is blown to different portions of the artificial hair 4. In the example of fig. 5, the setting portion 19 is provided at 3 as the 1 st setting portion 19A to the 3 rd setting portion 19C.

The 1 st setting part 19A is provided below the artificial hair holding part 15, and the ionizer 2 is provided below the artificial hair holding part 15 with the wind direction directed upward. More specifically, the 1 st setting portion 19A is constituted by a recess 23 formed in the central portion of the 4 legs 17a of the leg portion 17. The shape of the inside of the recess 23 corresponds to the outer shape (corresponding to the 1 st locking portion) of the lower portion of the housing 10 described later of the ion generator 2, and the ion generator 2 can be stably held. Although not shown, a recess is formed in a portion where the 1 st frame 15a and the 2 nd frame 15b, which are bottom portions of the recess 23, intersect. In a state where the first setting portion 19A is provided, the hook 6 of the ionizer 2 is received in the concave portion.

The 2 nd setting part 19B is provided at the upper end of the arm part 16, and the ionizer 2 is provided at the upper end of the arm part 16 with the wind direction directed downward. More specifically, the 2 nd installation portion 19B is formed by a hook 24 formed downward at the upper end portion of the arm portion 16. By hooking the hook 6 of the ionizer 2 to the hook 24, the ionizer 2 can be held in a suspended state.

The hook 24 is preferably provided such that the open portion 24a faces the side opposite to the arm portion 16. In the configuration in which the open portion 24a faces the arm portion 16 side, the ionizer 2 needs to be lifted and hung after being once drilled from below the hook 24. However, by orienting the open portion 24a to the opposite side of the arm portion 16, the ionizer 2 can be easily hung without having to drill from below the hook 24. A hook 21 is provided on the arm portion 16, and the hook 21 can be used to hang the power supply cable 11 of the ionizer 2 provided on the 2 nd installation portion 19B.

The 3 rd setting part 19C is provided inside the upper part of the artificial hair holding part 15, and the ionizer 2 is provided inside the upper part of the artificial hair holding part 15 with the wind direction directed downward. More specifically, the 3 rd setting part 19C is constituted by the hook 25 formed on the 2 nd frame 15b of the artificial hair holding part 15. By hooking the hook 6 of the ionizer 2 to the hook 25, the ionizer 2 can be held in a suspended state.

As with the hook 24, the hook 25 is preferably provided such that the open portion 25a faces the side opposite to the arm portion 16. By orienting the open portion 25a to the opposite side of the arm portion 16, the ionizer 2 can be easily hung up without having to drill from below the hook 25. A hook 22 is provided on the 2 nd frame 15b, and the hook 22 can be used to hang up the power supply cable 11 of the ionizer 2 provided in the 3 rd installation section 19C.

(3. Ionizer 2)

Fig. 1 is a perspective view of an ionizer 2 according to the present embodiment. Fig. 2 is a schematic cross-sectional view of the cutting plane D1 of fig. 1. Fig. 3 is a schematic cross-sectional view of the cutting plane D2 of fig. 1. Fig. 4 is an enlarged view of the area A1 of fig. 2.

As shown in fig. 1, in the present embodiment, the ion generator 2 has a bell-shaped housing 10, and the air outlet 5 is provided on a circular surface of the housing 10 on the mouth side of the bell shape. On the curved surface of the casing 10 on the opposite side to the air outlet 5, a hook 6 (locking part, 2 nd locking part) for suspending the ion generator 2 is provided. For convenience of explanation, the side where the air outlet 5 is provided is referred to as "up" and the curved surface side where the hook 6 is provided is referred to as "down".

A suction port 7 is formed in a side wall of the casing 10 that connects the side of the blow-out port 5 and the side of the opposite side where the hook 6 is located. The suction port 7 is provided in a lower portion of the side wall of the casing 10. As shown in fig. 3, the lower portion of the side wall of the housing 10 has a narrowed shape in which 2 opposing surfaces are close to each other. The suction port 7 is provided so as to face both sides of the narrowed portion.

As shown in fig. 2 and 3, a discharge device (discharge portion) 8, an air blowing fan (air blower) 9, an air passage 12, and the like are provided inside the casing 10. The discharge device 8 generates particles (particles for performing at least deodorization) by electric discharge. In the present embodiment, ions for deodorization, sterilization, and neutralization are generated. The blower fan 9 sucks air from the suction port 7, and the air passage 12 guides the sucked air to the blow-out port 5. Air passage 12 is formed to connect suction port 7 and discharge port 5, and blower fan 9 is disposed in air passage 12. The discharge device 8 is disposed facing the air passage 12, and the discharge portion 8a for discharging ions is located in the air passage 12.

In the present embodiment, a sirocco fan is provided as the blower fan 9. The discharge portion 8a of the discharge device 8 includes 2 brush electrodes 8b as electrodes. Positive ions are generated by electric discharge from one brush electrode 8b, and negative ions are generated by electric discharge from the other brush electrode 8 b.

When the blower fan 9 is driven, air is sucked from the suction port 7, and the sucked air is sent out to the air passage 12. The air sent out to air duct 12 contains ions emitted from discharge device 8, becomes an ion wind, and is blown out from outlet 5.

The hook 6 is a locking portion for suspending the ionizer 2 and detachably mounting the ionizer 2 on the base portion 3. The ion generator 2 is provided to the base portion 3 by using the hook 6, thereby realizing a detachable arrangement. In the present embodiment, the hook 6 is a rotatable hook that supports and rotates the ionizer 2 (housing 10), and is rotatable in a suspended state.

In the present embodiment, the ionizer 2 has an outer shape (1 st locking portion) 10e of the lower portion of the housing 10 as a locking portion different from the hook 6. The outer shape 10e corresponds to the inner shape of the recess 23 (see fig. 5) constituting the 1 st installation portion 19A of the base portion 3 described above. The ion generator 2 is provided to the base unit 3 by using the outer shape 10e of the lower portion of the housing 10, thereby realizing a detachable arrangement. By matching the inner shape of the recess 23 with the outer shape 10e of the lower portion of the housing 10, the ion generator 2 can be stably held by the base portion 3.

In the present embodiment, the blower fan 9 is disposed on the lower side, which is the opposite end side from the air outlet 5, and therefore the center of gravity of the ionizer 2 is located on the lower side. This allows the ionizer 2 to be held more stably when it is installed in the 1 st installation portion 19A of the base portion 3.

As shown in fig. 1, an operation unit 20 that receives an operation such as turning on and off the ionizer 2 is also provided on the upper surface of the ionizer 2 in which the air outlet 5 is formed. The air outlet 5 is located on one side in the radial direction of the upper surface of the ion generator 2 (on the upper surface, at a position offset to one side, or on one side of the center of the upper surface), and an operation unit 20 is provided on the other side. By providing the air outlet 5 on one side in this way, the operation portion 20 and the like can be disposed on the other side, and the size of the product can be reduced. A recess 10a recessed radially inward is formed in an upper portion of a sidewall of the housing 10 located below the operation portion 20.

By forming such a recess 10a, a protruding portion 10b protruding outward in the radial direction is formed below the operation portion 20. A circuit board 13 for driving the discharge device 8 and the blower fan 9 is disposed on the lower surface side of the operation unit 20 inside the protruding portion 10b. A connection portion 30 for connecting the power cable 11 is provided on a lower surface 10c of the protruding portion 10b (a surface of the recess 10a facing the opposite side of the outlet 5).

As shown in fig. 4, the connection portion 30 includes a substrate-side connection terminal (connection portion) 31 connected to the circuit substrate 13. The substrate-side connection terminal 31 is located inside the opening 10d formed in the lower surface 10c of the protruding portion 10b. The cable-side connection terminal 32 provided at one end of the power cable 11 is inserted into the connection portion 30 from below the protruding portion 10b through the opening 10d provided in the lower surface 10c, and is connected to the substrate-side connection terminal 31.

By providing the recess 10a and providing the connection portion 30 with the opening 10d formed in the lower surface 10c thereof in this manner, the direction in which the power cable 11 is connected can be set to a direction going from the opposite side (lower side) of the air outlet 5 to the air outlet 5 (direction going to the upper side). Accordingly, when the ionizer 2 is viewed from the side where the air outlet 5 is located, the connection portion of the power cable 11 does not bulge out toward the outside of the housing 10, and the product size can be reduced. Further, since the side (lower side) of the concave portion 10a opposite to the air outlet 5 is a smooth curved surface, the cable-side connection terminal 32 can be smoothly inserted into the opening 10d, as compared with a case where the lower side of the concave portion 10a is a vertical surface.

As shown in fig. 2, in the present embodiment, the air passage 12 is located on one side when viewed from the side, and a recess 10a is formed on the other side. In other words, when the ionizer 2 is viewed from the side of the air outlet 5, the air passage 12 is located on one side, and the recess 10a is present on the other side. The air passage 12 is disposed on one side, and a free space is created on the other side, and the recess 10a is provided by using the free space. This makes it possible to optimize the component layout and to reduce the product size. In the present embodiment, since the sirocco fan is used as the blower fan 9 as described above, the air passage 12 can be easily arranged on one side, and the product size can be reduced.

As shown in fig. 4, the opening 10d is provided with a rib 34 as a reinforcing structure surrounding the substrate-side connection terminal 31. The rib 34 may be formed integrally with the housing 10, or may be formed by fitting a separate member into the opening 10d. The board-side connection terminal 31 can be protected by providing the rib 34 in the opening 10d and surrounding the board-side connection terminal 31 with the rib 34. This prevents disconnection between the substrate-side connection terminal 31 and the circuit substrate 13 due to twisting of the cable-side connection terminal 32 when the power cable 11 is attached to the connection portion 30 or when the ionizer 2 is held.

A dedicated AC adapter (not shown) is provided at the other end of the power cable 11, and AC (alternating current) power is converted into DC (direct current) power and supplied to the circuit board. A USB terminal (not shown) may be provided at the other end of the power cable 11, and the USB terminal may be connected to the AC adapter.

As shown in fig. 1, a groove 29 into which power cable 11 is fitted is formed on the outer surface of case 10. The groove 29 extends from the outlet 5 side toward the opposite side to the outlet 5 side. In the configuration in which the connection portion 30 is provided on the side where the air outlet 5 is located, the power cable 11 extends from the side where the air outlet 5 is located, and therefore, may be an obstacle when the ionizer 2 is used by being held by hand. However, by forming the groove 29 on the outer surface of the casing 10 and fitting the power cable 11 into the groove 29, a feeling of use comparable to a configuration in which the power cable 11 extends from the end side (lower side) opposite to the side (upper side) where the outlet 5 is located can be obtained. Further, since the end of the groove 29 is exposed to the recess 10a, the power cable 11 can be directly fitted into the groove 29 from the recess 10a.

As shown by the broken line in fig. 2, the ionizer 2 may include a lid 35 that closes the recess 10a, the groove 29, or both. By closing the recess 10a with the lid 35, entry of water, dust, or the like from the opening 10d into the inside can be suppressed. By closing the groove portion 29 with the lid portion 35, the power cable 11 can be reliably fitted into the groove portion 29. Further, by blocking the recess 10a and the groove 29 with the lid 35, the appearance of the ionizer 2 can be improved. Further, a rib may be provided on a portion facing the groove portion 29 inside the cover 35 (on the groove portion 29 side). By providing the rib, the power cable 11 can be press-fitted into the groove portion 29 by the rib.

(4. Use example)

Fig. 6 to 9 are diagrams showing usage examples of the ionizer 2. Fig. 6 shows an example in which the ion generator 2 is disposed in the 1 st disposed portion 19A of the base portion 3 using the external shape 10e of the lower portion. As shown in fig. 6, the blow-out port 5 is provided at the lower portion of the base portion 3 so as to face upward, and thereby the ion wind can be blown to the inner surface of the artificial hair 4 held by the artificial hair holding portion 15. This allows the inner surface (scalp side surface) of the artificial hair 4 to be effectively deodorized, sterilized, and electrically removed. This method of use can effectively deodorize, for example, a scalp odor attached to the inside of the artificial hair 4.

Fig. 7 shows an example in which the ion generator 2 is provided to the 2 nd providing portion 19B of the base portion 3 using the hook 6. As shown in fig. 7, the ion generator 2 is used by being disposed at the upper portion of the base portion 3 with the blow-out port 5 facing downward, and thus, the ion wind can be blown to the outer surface of the artificial hair 4 held by the artificial hair holding portion 15. This allows efficient deodorization, sterilization, and static elimination of the outer side of the artificial hair 4. This method of use can effectively deodorize smoke, for example, attached to the outside of the artificial hair 4.

Fig. 8 shows an example in which the ionizer 2 is disposed at the 3 rd disposed part 19C of the base part 3 using the hook 6. The base unit 3 is suspended by the suspending unit 18. As shown in fig. 8, the ion generator 2 is used by being provided at the middle portion of the base portion 3 with the air outlet 5 facing downward, whereby ion wind can be blown toward the tips of the artificial hair 4 held by the artificial hair holding portion 15. Further, by using the base unit 3 in a suspended state, even the artificial hair 4 for long hair can be blown with ion wind to the hair tips. Thus, even in the case of the artificial hair 4 for long hair, the ions can be efficiently distributed over the hair tip to perform deodorization, sterilization, and static elimination.

Further, since the hook 6 of the ion generator 2 is a rotating hook, when used in a state suspended from the base portion 3 as shown in the drawings of fig. 7 and 8, the direction of the air outlet 5 can be manually changed. This makes it possible to change the convection region of ions. As described later, a barrier (louver) may be provided in the outlet 5 of the ionizer 2 to blow out the ion wind obliquely to the normal direction of the surface on which the outlet 5 is formed. With this configuration, the ion generator 2 can be rotated by the wind force of the ion wind blown out from one side, and the convection region of the ions can be further expanded.

Fig. 9 shows an example of use of the ionizer 2 detached from the base portion 3 by hand. As shown in fig. 9, the ionizer 2 may be used with it. This allows the artificial hair 4 to be deodorized and discharged with emphasis on any part. Further, the artificial hair 4 held by the artificial hair holding portion 15 may be combed while being blown with ion wind (while releasing ion wind toward the artificial hair 4).

(5. Modification)

The ion generator 2 may have a barrier structure for sending the ion wind obliquely to a normal direction of a surface on which the air outlet is located, in the air outlet 5. By providing the air outlet 5 with the grill structure, the ionizer 2 can be rotated by the air (ion wind) blown out from the air outlet 5. In addition to the above-described configuration in which the barrier is provided, an air outlet for blowing air for rotating the ionizer 2 may be separately provided on a side wall (outer peripheral surface of the housing) of the housing 10 of the ionizer 2. With this configuration, the ionizer 2 can be rotated by the wind generated by the blower fan 9. Instead of using wind, a driving unit for rotating the ionizer 2 by a motor may be provided near the hook 6.

In the present embodiment, the ion generator 2 is exemplified as the treatment wind generating device, but the treatment wind generating device may be any discharge device that generates particles such as ions, electrons, ozone, radicals, active species, and charged particles (charged particles) by discharge. When ions are generated as an example of charged particles, both positive ions and negative ions may be generated, or either positive ions or negative ions may be generated.

In the present embodiment, the rotatable hook 6 and the outer shape 10e of the lower portion of the housing 10 are exemplified as the locking portion which detachably mounts the ionizer 2 on the base portion 3. However, the locking portion is not limited to these, and may be any as long as the ionizer 2 is detachably provided on the base portion 3, and may be, for example, a hook that does not rotate, a locking using a surface fastener, or the like.

In the present embodiment, the artificial hair storage apparatus 100 mounted to hold and store a wig (artificial hair) is illustrated, but the object to be treated by the ion wind is not limited to a wig. For example, the present invention can be mounted on a device for holding and storing a hat, a helmet, shoes, boots, or the like.

[ conclusion ]

A processed wind generating device (ionizer 2) according to claim 1 of the present invention is a processed wind generating device that sends out processed wind as air containing particles, and includes: an air blowing unit (air blowing fan) that sucks air from the suction port 7; an air passage 12 for guiding the air sucked by the blower to a blow-out port; a discharge unit (discharge device 8) which is disposed facing the air passage 12 and generates particles by discharge; a connection unit 30 provided on the side of the outlet 5 where the outlet 5 of the processed air generating apparatus is located, and connected to the power cable 11; a casing 10 having the suction port 7 and the blow port 5, and housing the blower, the air passage, and the discharger; a locking part (a hook 6, an external shape 10e at the lower part) which can be detachably arranged on the support body (the base part 3) of the processing wind generating device; and a groove 29 formed in an outer surface of the casing 10, and into which the power cable 11 extending from the outlet 5 side toward the opposite side to the outlet 5 side is fitted.

According to the above configuration, the process air generator is detachably provided to the support body by the locking portion, and is detachable from the support body. Therefore, the object can be deodorized by blowing the process air to any part of the object using the process air generator detached from the support. In the above configuration, since the connection portion 30 is provided on the side of the air outlet 5, the power cable 11 extends from the side of the air outlet 5, and may be an obstacle when the processed air generating apparatus is used by being held by hand. However, in the above configuration, since the groove portion 29 extending from the outlet port 5 side to the opposite side to the outlet port 5 side is formed in the outer surface of the casing 10, by fitting the power cable 11 into the groove portion 29, it is possible to obtain a feeling of use that is not inferior to a structure in which the power cable extends from the end portion side opposite to the outlet port 5. Thus, the treatment air generator can blow the treatment air to any position of the object to perform deodorization, and is convenient to use.

The processed wind generating device (ionizer 2) according to claim 2 of the present invention may be further configured as follows in embodiment 1: the cover 35 is provided to close the groove 29.

The processed wind generating device (ionizer 2) according to claim 3 of the present invention can be further configured as follows in the embodiment 1 or 2: a recess 10a that is recessed toward the inside of the casing 10 is provided on a side surface of the casing 10 that connects the side of the air outlet 5 to the side opposite to the side of the air outlet 5, the connection portion 30 is located on a surface (lower surface 10 c) of the recess 10a that faces the side opposite to the air outlet, and an end of the groove portion 29 is exposed to the recess 10a.

According to the above configuration, the recess 10a recessed toward the inside of the casing 10 is formed in the side surface of the casing 10 on the side of the outlet 5, and the connection portion 30 is located on the surface of the recess 10a facing the opposite side to the outlet 5. With this configuration, the direction in which the power cable 11 is connected can be set to a direction going from the opposite side of the air outlet 5 to the air outlet 5. Thus, when the process air generator is viewed from the side where the air outlet 5 is located, the connection portion of the power cable 11 does not bulge out to the outside of the casing 10, and the product size can be reduced. Further, since the end of the groove 29 is exposed to the recess 10a, the power cable 11 can be directly fitted into the groove 29 from the recess 10a.

The processed wind generating device (ionizer 2) according to claim 4 of the present invention can be further configured as follows in embodiment 3: a lid 35 for closing the recess 10a is provided.

The processed wind generating device (ionizer 2) according to claim 5 of the present invention may be configured as follows in any one of claims 1 to 4: the locking part includes a1 st locking part (an outer shape 10e of a lower part) provided in a state where the processing air generating device is placed on the support, and the air blowing part is located on an end side opposite to the air outlet 5.

The processed wind generating device (ionizer 2) according to claim 6 of the present invention may be configured as follows in any one of claims 1 to 5: the locking part comprises a 2 nd locking part which enables the processing wind generating device to be arranged in a state of being suspended from the support body.

The processed wind generating device (ionizer 2) according to claim 7 of the present invention may be further configured as follows in claim 6: the 2 nd locking part is provided to allow the process air generator to rotate with respect to the support.

The processed wind generating device (ionizer 2) according to claim 8 of the present invention may be further configured as follows in claim 6 or 7: when the process air generator is viewed from the outlet side, the outlet is located on one side.

The processed wind generating device (ionizer 2) according to claim 9 of the present invention may be further configured as follows in claim 7: the outlet has a grill structure for sending the processed air obliquely with respect to a normal direction of a surface on which the outlet is located.

The processed wind generating device (ionizer 2) according to claim 10 of the present invention may be configured as follows in claim 3 or 4: when the process air generator is viewed from the outlet side, the air passage is located on one side, and the recess is located on the other side.

The processed wind generating device (ionizer 2) according to claim 11 of the present invention may be further configured as follows in claim 3 or 4: the connection portion 30 includes a connection terminal (substrate-side connection terminal 31) located inside an opening 10d formed in a surface of the recess 10a facing the opposite side of the air outlet 5, and the opening 10d has a reinforcing structure (rib 34) surrounding the connection terminal.

The present invention is not limited to the above embodiments, and various modifications can be made within the scope shown in the claims, and embodiments obtained by appropriately combining technical means disclosed in different embodiments are also included in the technical scope of the present invention. Further, by combining the technical means disclosed in the respective embodiments, new technical features can be formed.

Description of the reference numerals

2 ion generator (processing wind generating device)

3. Base part

4. Artificial hair

5. Blow-out opening

7. Suction inlet

6 hook (stop part, no. 2 stop part)

8 discharge device (discharge part)

9 air supply fan (air supply part)

10. Shell body

10a recess

Part 10b

10c lower surface

10d opening part

The shape of the lower part 10e (locking part, no. 1 locking part)

11. Power cable

12. Wind path

30. Connecting part

20. Operation part

29. Groove part

30. Connecting part

31 substrate side connection terminal (connection terminal)

32 cable side connection terminal

34 Rib (strengthening structure)

35. Cover part

100. An artificial hair storage device.

Claims (11)

1. A processed air generating device for sending processed air as air containing particles, comprising:

a blowing unit which sucks air from the suction port;

an air passage for guiding the air sucked by the air blower to a blow-out port;

a discharge unit disposed facing the air passage and configured to generate particles by discharge;

a connection unit provided on the outlet side of the processed air generator where the outlet is located, the connection unit being connected to a power cable;

a casing having the suction port and the discharge port, and housing the blower, the air passage, and the discharge unit;

a locking part which enables the processing wind generating device to be detachably arranged on the support body; and

and a groove portion formed on an outer surface of the housing, and into which the power cable extending from the outlet port side toward an opposite side to the outlet port side is fitted.

2. A process wind generating device according to claim 1,

the cover portion is provided to close the groove portion.

3. A process wind generating device according to claim 1 or 2,

a concave portion that is recessed toward the inside of the casing is provided on a side surface of the casing that connects the outlet port side and an opposite side to the outlet port side, on the outlet port side of the side surface,

the connecting portion is located on a surface of the recess portion facing a side opposite to the air outlet,

the end of the groove is exposed to the recess.

4. A process wind generating device according to claim 3,

the cover portion is provided to close the recess.

5. A process wind generating device according to any one of claims 1 to 4,

the clamping part comprises a1 st clamping part which enables the processing wind generating device to be arranged in a state of being placed on the support body,

the air blowing section is located on an end side opposite to the air outlet.

6. A process wind generating device according to any one of claims 1 to 5,

the locking part comprises a 2 nd locking part which enables the processing wind generating device to be arranged in a state of being suspended from the support body.

7. A process wind generating device according to claim 6,

the 2 nd locking part is provided to allow the process air generator to rotate with respect to the support.

8. A process wind generating device according to claim 6 or 7,

when the process air generator is viewed from the outlet side, the outlet is located on one side.

9. A process wind generating device according to claim 7,

the outlet has a grill structure for sending the processed air obliquely with respect to a normal direction of a surface on which the outlet is located.

10. A process wind generating device according to claim 3 or 4,

when the process air generator is viewed from the outlet side, the air passage is located on one side, and the recess is located on the other side.

11. A process wind generating device according to claim 3 or 4,

the connection portion includes a connection terminal located inside an opening formed in a surface of the recess portion facing a side opposite to the air outlet,

the opening portion has a reinforcing structure surrounding the connection terminal.

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