JPH066087Y2 - Dust disposal system - Google Patents

Description

[Detailed Description of the Invention] (Industrial application field) The present invention is used in the technical field of dust disposal equipment in buildings such as middle- and high-rise houses, and particularly relates to a dust disposal system for discharging dust by vacuum. .

(Prior Art) In a conventional dust disposal system, a dust chute is erected independently for each floor, and a storage tank is continuously installed at the lower end of each dust chute. The house holds dust for each floor. Then, the dust collected in this storage tank is loaded by a vacuum supply device on a dust collection vehicle that circulates in an appropriate time cycle, and transferred to a final treatment facility such as an incinerator.

(Problems to be solved by the invention) However, the storage tank is usually limited in capacity to 1 m ³ to 2 m ³ in consideration of the suction force of the vacuum supply device, and therefore the dust storage capacity is 8 times the number of houses. The limit is around the door. Therefore, if the building becomes even taller or the houses on each floor become larger, the number of installed dust chutes must increase with the increase in the number of storage tanks installed. In addition to being bulky, it is difficult to arbitrarily select the installation location, and in particular, it is not easy to adjust the appearance of the housing part.

In view of the above-mentioned conventional problems, the present invention provides a dust disposal system capable of suppressing the addition of dust chutes even if the number of storage tanks installed increases.

(Means for Solving the Problems) The dust disposal system of the present invention comprises a dust chute for dropping dust from each floor of a middle- and high-rise building, and a receiving port rotatably connected to the lower end of the dust chute. A distribution chute whose discharge port can be swung around the axis of the dust chute by a rotating means, and a valve-equipped input port which can be connected to the discharge chute of the distribution chute are provided in the upper part and a valve-equipped discharge port in the lower part. A plurality of storages are provided on the same circumference around the axis of the dust chute, and are sucked and discharged through an annular collecting pipe connected to the valved discharge port by a vacuum supply device. It is composed of a tank.

(Operation) The operation by the above means is 1 from each floor of the middle- and high-rise buildings.
The dust dropped on the dust chute of the book, after entering the inlet of the distribution chute from the lower end of the dust chute,
It is housed in a desired storage tank on the orbit of the discharge port of the distribution chute, and then sequentially switched to be distributed to other storage tanks.

Embodiment An embodiment of the present invention will be described below with reference to the drawings.

The dust disposal system 1 shown in FIG. 1 and FIG. 2 is mainly composed of a dust chute 2, a distribution chute 3, and a plurality of storage tanks 4, 4.

The dust chute 2 is provided to drop dust from each floor of a middle-high-rise building (the entire illustration is omitted). The dust chute 2 penetrates the floors 5, 5 ... Appropriate parts of the section are fixed to the floor 5 (not shown), and a loading port 6 with a lid is attached to each floor.

The distribution chute 3 is for sequentially distributing the dust collected from the dust chute 2 to the storage tanks 4, 4, ..., The lower end portion 2a of the dust chute 2 is rotatably connected to the reception port 3a, and the reception port 3a. The discharge port 3b is provided so as to be rotatable around the axis X of the dust chute 2 by the rotating means 7 provided in the vicinity of. The rotating means 7 is composed of, for example, a worm gear mechanism 7a and a reversible motor M with a reduction gear, and is supported by a bracket 8 fixed to a building.

The storage tank 4 is for temporarily storing the dust thrown in from the distribution chute 3. In this example, the eight storage tanks 4, 4, ... Have the same circumference around the axis X of the chute 2. It is arranged on an abutment 9 provided above and in a lower floor of the building. Further, a valved inlet 4a is provided above each of the storage tanks 4, 4 so as to be connected to the outlet 3b on the orbit of the outlet 3b of the distribution chute 3. further,
A discharge port 4 with a valve is provided outside the lower part of each storage tank 4, 4.
b, 4b ... Are provided, and the respective outlets with valves are connected to an outdoor docking station (not shown) via the annular collecting pipe 10. Also, the inlet with valve 4
A cylinder device C for opening and closing the valve is connected to each of a and the discharge port 4b with the valve. Then, the dust in each of the storage tanks 4, 4 ... Is collected in the dust collection vehicle via the annular collecting pipe 10 and the docking station by a vacuum supply device (not shown) provided in the dust collection vehicle or the docking station or the like. It

The reversible motor M with a speed reducer of the rotating means 7 and the cylinder devices C, C ... Of each storage tank 4 are linked to a control device (not shown) that operates by detecting the amount of dust stored in each storage tank 4. ing. Here, the method of storing dust in the storage tanks 4, 4, ... Is preset when the distribution chute 3 is rotated and sequentially switched every time one storage tank 4 becomes full. Each method can be considered in which all storage tanks 4, 4, ... Are averagely stored by switching at different time periods, and may be appropriately set in consideration of various conditions.

The connection between the lower end portion 2a of the dust chute 2 and the receiving port 3a of the distribution chute 3 and the distribution chute 3
The connecting portion between the discharge port 3b and the valved charging port 4a of the storage tank 4 has an open structure in which they are opposed to each other with a slight gap therebetween, or an airtight structure using a sliding contact flange or the like.

In addition, the number of storage tanks 4 to be installed can be freely increased or decreased as long as structural conditions on the building side other than the present embodiment are allowed.

Next, the operation and action of the dust disposal system configured as described above will be described.

The dust thrown from the lid-equipped charging ports 6, 6 ...
It is stored in the storage tank 4 via the dust chute 2 and the distribution chute 3.

Then, when the dust in the storage tank 4 reaches the preset storage amount, the cylinder device C is operated by the signal of the control device to close the valved inlet 4a, and then open the valved outlet 4b. The dust in the storage tank 4 is sucked by a vacuum supply device (not shown) and is collected by a dust collection vehicle (not shown) via the annular collecting pipe 10 and an outdoor docking station (not shown).

On the other hand, the distribution chute 3 is sequentially switched to the next storage tank 4 each time one storage tank 4 becomes full in accordance with a preset program, or to the storage tanks 4, 4, ... By sequentially switching, dust is stored in all storage tanks 4, 4, ... On average.

(Effect of the Invention) As described above, according to the present invention, the distribution chute is provided at the lower end of the dust chute so that the distribution chute can rotate, and the plurality of storage tanks arranged on the same circumference by the rotation of the distribution chute. Since the dust is stored in the building sequentially, even if the building gets higher and the houses on each floor become larger, and the amount of dust discarded from each house increases greatly, add storage tanks as much as possible. Therefore, it is not necessary to add a dust chute, and even if the number of storage tanks is increased, it is not necessary to change the turning mechanism of the distribution chute. Further, since the dust is dropped from the outlet of the distribution chute through the valved inlet provided at the top of each storage tank, it is not necessary to connect the outlet of the distribution chute and the storage tank with a special connecting mechanism. .

Therefore, not only is the facility cost reduced, but the dust chute is easily installed in the house, and the appearance of the house can be kept beautiful.

Furthermore, a valve-equipped inlet is provided at the top of the storage tank, and a valve-equipped outlet is provided at the bottom of the storage tank. The dust can be smoothly transported in vacuum.

[Brief description of drawings]

1 and 2 show an embodiment of the present invention, FIG. 1 is a plan view of a dust disposal system, and FIG. 2 is II- in FIG.
It is the side view notched by the II line. 1 ... Dust disposal system, 2 ... Dust chute 2a ... Bottom part, 3 ... Distribution chute 3a ... Inlet, 3b ... Discharge port 4 ... Storage tank, X ... Shaft center

Claims (1)

[Scope of utility model registration request] 1. A dust chute for dropping dust from each floor of a middle- and high-rise building, and a receiving port rotatably connected to a lower end portion of the dust chute, and the discharge port is a shaft of the dust chute by a rotating means. A distribution chute that can swivel around a center, a valve-equipped inlet that can be connected to the discharge port of the distribution chute, and a valve-shaped discharge port are provided in the lower part, and the dust chute is centered on the axis. And a plurality of storage tanks disposed on the same circumference and sucked and discharged through an annular collecting pipe that is communicated with the valve-equipped discharge port by a vacuum supply device. Processing system.