JP3218231U - Blower - Google Patents

Abstract

To provide a blower device that is compact and takes up little space. An air supply device is provided on the upstream side of the wind-up device, and a supply cylinder is provided on the downstream side of the wind-up device. The wind-up device 1 includes a wind-up device main body 4 formed of a box-shaped housing, a conical air supply guide portion 5, and a fan. The supply cylinder 3 forms a slit 8 in the gravity direction of the outer periphery thereof. The upper end is closed and the lower end is connected to the air supply guide unit 5. [Selection] Figure 1

Description

  The present invention relates to a blower that mainly blows out cool air from a supply cylinder having a blowing slit in the direction of gravity.

The portable cold air generator described in Patent Document 1 below stores a cold insulation material inside the apparatus main body, takes in the outside air by a blower, and places the outside air cooled by the cold insulation material through a hose at a necessary place. To supply.
Moreover, the simple air conditioning apparatus of patent document 2 provides a heat exchanger or a heater in a main body housing, and discharge | releases cool air or warm air outside from a blower outlet by a fan.

JP, 2014-44043, A JP 2002-349898 A

The cold air generator or air conditioner described in each of the above patent documents contains a cold insulation material, a heat exchanger, or a heater inside, and discharges cool air or warm air through a hose or blower from a blower or a fan. It is.
All of these have the disadvantage that the main body of the apparatus must be large.
Therefore, an object of the present invention is to provide a blower that is compact and does not take up much space and has a good appearance.

The invention described in claim 1 is an air blower in which an air supply device 2 is provided on the upstream side of the wind-up device 1 and a supply cylinder 3 is erected in the direction of gravity on the downstream side of the wind-up device 1.
The wind-up device 1 includes a wind-up device body 4 formed of a box-shaped housing, and a conical shape or a pyramid shape that is connected to the downstream side of the wind-up device body 4 and whose axis is positioned in the direction of gravity and whose upper end side is reduced. An air supply guide portion 5, a fan 6 that is built in the air supply guide portion 5 and pushes the air supply upward from below, and a suction portion 7 provided at the lower end of the air supply guide portion 5,
The supply cylinder 3 is formed with a blow slit 8 in the direction of gravity on the outer periphery thereof, the upper end is closed, and the lower end is connected to the supply guide unit 5;
The configuration is such that the outside air sucked from the air supply device 2 is blown out from the blowout slit 8 of the supply cylinder 3 through the suction portion 7, the air supply guide portion 5, and the fan 6 of the wind-up device 1. It is an air blower.

  The air supply device 2 of the invention according to claim 2 comprises a heat exchanger 2a for cooling the outside air, and a flexible duct 10 to which the heat exchanger 2a and the wind generator 1 are connected. Item 2. The air blower according to Item 1.

  According to the third aspect of the present invention, a branch chamber 24 is interposed between the heat exchanger 2a and the plurality of wind generators 1, and cool air flowing out of the heat exchanger 2a is sent to each wind generator 1. It distributes, It is an air blower of Claim 2.

According to a fourth aspect of the present invention, the air supply device 2 includes a box-shaped cooling device main body 2b having an air supply hole 11 on the outer periphery, a plurality of shelves 13 arranged in the cooling device main body 2b, and each shelf. 13 and a plurality of cooling agents 14 detachably stored in 13,
The blower according to claim 1, wherein the outside air sucked from the air supply holes 11 is cooled by the cooling agent 14.

  According to the first aspect of the present invention, the air supply guide portion 5 of the wind-up device 1 is formed in a conical shape or a pyramid shape, and a fan 6 that pushes the air supply upward from below is disposed therein. The lower end of the supply cylinder 3 is connected to the guide unit 5. Therefore, the air supply is guided to the inner periphery of the conical or pyramidal air generating device 1, gradually converges, and smoothly discharged to the outside from the slit 8 of the air supply cylinder 3. Therefore, it becomes an air blower with a large air volume.

  The invention described in claim 2 is such that a heat exchanger 2 a forming the air supply device 2 is connected to the wind-up device 1 through the flexible duct 10. Therefore, it is possible to arrange the heat exchanger 2a by effectively using a narrow space as appropriate.

  According to the third aspect of the present invention, a branch chamber 24 is interposed between the heat exchanger 2a and the plurality of wind generators 1, and cool air flowing out of the heat exchanger 2a is sent to each wind generator 1. To distribute. Therefore, according to this device, the cool air from one heat exchanger 2a can be supplied to a plurality of wind generators to cool a plurality of locations.

  According to the fourth aspect of the present invention, the cooling agent 14 is removably accommodated in the shelf 13 of the box-shaped cooling device main body 2b forming the air supply device 2. Then, the outside air sucked from the air supply holes 11 is cooled by the cold insulation agent 14. Therefore, the entire blower can be made compact with space saving.

The perspective view which shows 1st Embodiment of the air blower of this invention. The disassembled perspective view of the wind raising apparatus 1 used for the air blower. The perspective view of the fan 6 used for the apparatus. The principal part longitudinal cross-sectional view of the same apparatus. Sectional drawing of the principal part of 2nd Embodiment of the air blower of this invention. FIG. The perspective view which shows 3rd Embodiment of the air blower of this invention.

Next, an embodiment of the present invention will be described based on the drawings.
FIG. 1 is an overall perspective view of a first embodiment of the present invention, FIG. 2 is an exploded view of a main part of the wind generating device 1, and FIG. 3 is a bottom view of a fan 6 used in the device. FIG. 4 is a longitudinal sectional view of the apparatus.
The blower of the present invention is mainly a cold air device that supplies cold air, but can be used as a device that supplies warm air instead. Furthermore, the outside air can be supplied as it is in a specific direction.

In the blower of this embodiment, an air supply device 2 is provided on the upstream side of the wind-up device 1, and a supply cylinder 3 is erected in the direction of gravity on the downstream side of the wind-up device 1. The supply cylinder 3 has a blow slit 8 formed in the direction of gravity on the outer periphery thereof, has an upper end closed by an end lid 9, and a lower end connected to the air supply guide unit 5.
The wind generator main body 4 constituting the wind generator 1 is formed of a box-shaped casing, and a coupler 19a is provided at one end as a connecting portion of the flexible duct 10. A conical air supply guide 5 whose axis is positioned in the direction of gravity and whose upper end is reduced is connected to the downstream side of the wind generator main body 4. The air supply guide unit 5 is not limited to a conical shape, and may be a pyramid shape such as a hexagonal pyramid.

An embedded fan 6 is housed inside the air supply guide section 5. As shown in FIGS. 2 and 3, the fan 6 has a fan motor 6a at the top and a wing 6b at the bottom. The fan 6 is formed with a vent 6c in an annular shape. The fan 6 pushes up the air supply from below to above.
The fan 6 is placed on the intermediate holder 20, and the intermediate holder 20 is attached to the lower support 21.

  As shown in FIG. 4, the lower support 21 has an annular suction portion 7 formed in a V shape whose cross section opens outward. A large number of small holes 7 a are formed on the upper side of the V-shape of the suction portion 7.

In this embodiment, a heat exchanger 2 a is used as the air supply device 2.
The outside air cooled by the heat exchanger 2 a is supplied to the wind generator main body 4 through the flexible duct 10. Then, the cold air is guided to the air supply guide unit 5 through the suction unit 7 and the embedded fan 6 of the wind generator 1. Next, cold air is supplied from the air supply guide 5 to the supply cylinder 3, and the cold air is discharged to the outside from the slit 8 of the supply cylinder 3.

That is, the cold air supplied from the flexible duct 10 is guided from the inside of the intermediate holding body 20 through the ventilation hole 6 c of the fan 6 to the supply cylinder 3 through the small hole 7 a of the suction portion 7, and the slit 8 of the supply cylinder 3. Cold air is discharged to the outside.
Further, four casters 18 project from the lower surface of the wind generator main body 4 so that the blower can be moved to a desired position.

  In this embodiment, although not shown in the drawings, the supply cylinder 3 can be swung freely with respect to the air supply guide portion 5 or the wind generator main body 4. For that purpose, as an example, a known fan neck swing mechanism can be applied, that is, a worm is attached to the rotating shaft of the fan motor 6a, and at least the supply cylinder 3 and the supply air via a worm gear and a crank mechanism engaged with the worm. The upper part 5b of the guide part 5 can be swung freely around its axis.

  In FIG. 2, an activation sensor 15 and a power supply display 16 are provided on a part of the outer periphery of the intermediate holder 20. The activation sensor 15 is irradiated with infrared rays via an infrared remote controller (not shown), and the air supply device 2 and the fan motor 6a of the fan 6 shown in FIG. 2 are driven to discharge cool air from the slit 8 of the supply cylinder 3. Can do.

  Next, FIG.5 and FIG.6 is 2nd Embodiment of this invention, and the points from which this form differs from the said 1st Embodiment are the structures of the air supply apparatus 2. FIG. In this embodiment, the cooling device main body 2 b as the air supply device 2 is provided with a plurality of shelves 13 shown in FIG. 6, and the cooling agent 14 is detachably inserted into each shelf 13. The cold-reserving agent 14 is pre-cooled in a household refrigerator or a commercial refrigerator.

  The cooling device body 2b is provided with hinges 19 at both ends thereof, and closes the side lid 17 so as to be openable and closable with respect to the cooling device body 2b. A large number of air supply holes 11 are provided in the side lid 17, and outside air can be guided to the air supply guide unit 5 through the gaps. In addition, an air supply apparatus and a wind raising apparatus can also be integrated.

  Next, FIG. 7 shows a third embodiment of the present invention, in which a branch chamber 24 is interposed between the heat exchanger 2a and the plurality of wind-up devices 1, whereby one heat exchanger. The cool air flowing out from 2a can be distributed to each wind generator 1.

  The present invention can be mainly used for a blower that blows cooling air. However, the present invention is not limited to cooling air, and can be used as a device for blowing normal air, warm air, or the like.

DESCRIPTION OF SYMBOLS 1 Winding device 2 Air supply device 2a Heat exchanger 2b Cooling device main body 3 Supply cylinder 4 Winding device main body 5 Air supply guide part 5a Lower part 5b Upper part

6 Fan 6a Fan motor 6b Wing 6c Ventilation hole 7 Suction part 7a Small hole 8 Slit 9 End cover 10 Flexible duct 11 Air supply hole 13 Shelf

14 Coolant 15 Start sensor 16 Power indicator 17 Side cover 18 Caster 19 Hinge 19a Coupler 20 Intermediate holder 21 Lower support 24 Branch chamber

Claims (4)

In the blower in which the air supply device (2) is provided on the upstream side of the wind-up device (1) and the supply cylinder (3) is erected in the direction of gravity on the downstream side of the wind-up device (1)
The wind-up device (1) is connected to the wind-up device main body (4) formed of a box-shaped housing and the downstream side of the wind-up device main body (4), the axis is positioned in the direction of gravity, and the upper end side is reduced. A cone-shaped or pyramid-shaped air supply guide (5), a fan (6) which is built in the air supply guide (5) and pushes up the air from below, and an air supply guide (5 A suction part (7) provided at the lower end of
The supply cylinder (3) is formed with a blow slit (8) in the direction of gravity on the outer periphery thereof, the upper end is closed, and the lower end is connected to the supply guide part (5),
The outside air sucked from the air supply device (2) is blown out through the suction portion (7), the air supply guide portion (5), and the fan (6) of the wind generator (1). A blower characterized in that it is blown out from (8).   The air supply device (2) includes a heat exchanger (2a) for cooling outside air, and a flexible duct (10) to which the heat exchanger (2a) and the wind generator (1) are connected. The air blower according to claim 1.   A branch chamber (24) is interposed between the heat exchanger (2a) and the plurality of wind generators (1), and cool air flowing out from the heat exchanger (2a) is supplied to each wind generator (1). The air blower according to claim 2, wherein the air blower is distributed. The air supply device (2) includes a box-shaped cooling device main body (2b) having air supply holes (11) on the outer periphery, a plurality of shelves (13) arranged in the cooling device main body (2b), A plurality of cooling agents (14) that are detachably stored in the shelf (13);
The blower according to claim 1, wherein the outside air sucked from the air supply hole (11) is cooled by the cold insulation agent (14).

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