JPH03284503A - Pneumatic transport system for refuse - Google Patents

Abstract

PURPOSE:To save energy in a refuse air-transport system having primary and secondary collecting centers in large-sized buildings by connecting both the centers in parallel to a secondary transport pipe and a sucking connection pipe, conducting primary collection by sucking operation of the secondary center, and then closing the sucking connection pipe to perform secondary collection. CONSTITUTION:In case of air transport to a primary collecting center, a refuse transport pipe 6 is connected to a sucking connection pipe 18 in series by a remote operation valve 7, and the sucking connection pipe 18 is made into a negative pressure by the blower 13 of a secondary collecting center 17 to collect the refuse to the primary center 8 through the refuse transport pipe 6. Then, the sucking connection pipe 18 is closed to suck and transfer the refuse in the primary collecting center 8 to the secondary collecting center 17. According to this constitution, energy can be saved.

Description

DETAILED DESCRIPTION OF THE INVENTION "Field of Industrial Application" The present invention relates to a pneumatic waste transport system, and in particular to a technology for pneumatically transporting thrown waste to a collection center at a destination using a laid pipeline. It is related to.

``Conventional technology'' Pneumatically transports large amounts of waste from large-scale buildings and household waste to collection centers using underground pipelines. Examples of nostem include the one shown in Figure 2.

In Figure 2, numeral 1 is a large-scale building, 2 is a construction site,
3 is a storage and discharger, 4 is an intake port, 5 is a garbage input post, 6 is a garbage transport pipe, 7 is a remote control valve, 8 is a primary collection center, 9 is a separator, 10 is a large storage and discharger, 11 is a dust remover, 12 is a deodorizing device, 13 is a blower (floor), 14
is a discharge silencer, 15 is a conhair, 16 is a secondary transport pipe,
17 is a secondary collection center.

In these pneumatic waste transport systems, when waste is being collected in the input chutes 2 and garbage input bosses 5 installed at multiple locations, the primary collection center 8 is put into operation, and the air blower 13 blows each garbage transport pipe 6. At the same time as suctioning the internal air of The garbage stored in one or more of the garbage containers 5 is carried by this air flow and sequentially transported to the primary collection center 8 through the garbage transportation pipe 6. At the primary collection center 8, it is passed through the separator 9 to separate the solids. The solid content is stored in a large storage and discharger 3, and the gas content is sent to a dust remover 11 and a deodorizing device 12 for dust removal and deodorization, and the separated air is discharged via a silencer 14. The dust separated by the dust remover 11 is conveyed by the conveyor 15 to the large storage and discharge machine 1O, where it is stored.

Such garbage collection and transportation work is carried out in one storage/discharge machine 3 or garbage input box 5 for, for example, several minutes to several tens of minutes, and then the garbage is sequentially stored in the large storage/discharge machine 10.

On the other hand, when transporting garbage from one primary collection center 8 to the next collection site, for example, the secondary collection center 17,
Either the garbage stored in the large storage/discharge machine 10 is transferred to a garbage truck or sent to the primary collection center 8.
is connected to a secondary collection center 17 having the same function through a secondary transport pipe 16, the secondary collection center 17 is put into operation, and the waste temporarily stored in the primary collection centers 8 at multiple locations is pneumatically transported. thing? This is how it is done.

[Problems to be solved by invention F] However, the garbage temporarily stored at the primary collection center 8,
If the waste is to be transferred to another location by a garbage truck,
Because the waste transfer work is involved, it is not possible to take advantage of the sanitary, non-polluting, labor-saving, and other features of the pneumatic waste transportation system. 17, it is possible to take advantage of the features of the pneumatic waste transportation system, but the number of waste collection centers is equal to the number of M4! I9, large storage and discharge machine 10, dust remover 11, deodorizing device 12, blower 13
, the discharge siren 14, etc. are required, which increases the equipment cost and increases the restrictions on expansion of the pneumatic conveyance system.

The present invention has been made in view of the above circumstances, and makes it possible to operate a primary collection center by utilizing the functions of a secondary collection center, and minimizes energy loss in that case. This enables smooth air transportation.

"Means for Solving the Problems" The present invention proposes a means for solving these problems, in which garbage that has been put in and stored at multiple locations is pneumatically transported to the primary collection center. This is a pneumatic waste transportation system that pneumatically transports temporarily stored waste to a secondary collection center. There is a secondary transport pipe laid in parallel between them for transporting waste, and an intake connecting pipe whose cross-sectional area is larger than that of the secondary transport pipe. and a waste transport pipe are connected in series, and the waste input and stored at the plurality of locations is accumulated at the primary collection center, and then the intake connecting pipe is closed and the waste is transferred to the secondary collection center via the secondary transport pipe. The waste pneumatic transportation system is configured to pneumatically transport up to

``Operation'' Pneumatic transport of waste using the waste pneumatic transport system is carried out by putting the secondary collection center into operation, and when collecting waste to the primary collection center, an intake connecting pipe with a large cross-sectional area is used. This reduces energy loss in the pipes between the primary and secondary collection centers and allows efficient pneumatic transport through the waste transport pipes.

By using the functions of the secondary collection center to drive the primary collection center, the functions of the primary collection center are simplified and the equipment costs of the primary collection center are reduced.
Economic efficiency is significantly improved when multiple primary collection centers are established.

When pneumatically transporting accumulated waste to a secondary collection center, this is reliably carried out using secondary transport pipes with a small cross-sectional area.

"Embodiment" Hereinafter, one embodiment of the pneumatic waste transport nostem according to the present invention will be described based on FIG. 1.

In this embodiment, the same reference numerals are given to parts common to the above-described example in FIG. 2 to simplify the explanation. In this embodiment, after the garbage that has been input and stored at multiple locations is pneumatically transported to the primary collection center 8 and accumulated, the accumulated garbage in the primary collection center 8 is transferred to the secondary collection center. It will be air transported again until 17.

To explain the details, as shown in FIG. 1, between the primary collection center 8 and the secondary collection center 17 at multiple locations, there is a secondary transport pipe 16 for transporting waste,
An intake connecting pipe 18 having a larger cross-sectional area than the secondary transport pipe 16 is installed in parallel, and the cross-sectional area of the intake connecting pipe 18 is, for example, several times or more the cross-sectional area of the secondary transport pipe 16. In addition, the secondary transport pipe 16 can also be used as a part of the intake connecting pipe 18. In this case, switching of the pipelines is performed by opening and closing remote control valves 7 placed at key locations.

Further, as shown in FIG. 1, the primary collection center 8 in this embodiment includes a dust remover 11, a deodorizing device 12, a blower, etc., as is clear from a comparison with FIG.
13, the installation of the discharge silencer 14 and the conveyor 15 is omitted, while the secondary collection center 17 has a separator 9,
In addition to the large storage and discharge machine 1O, there are 11 dust removers and 1 deodorizer.
2. A blower (floor) I3, a discharge silencer 14, a conveyor 15, etc. are installed, and one secondary collection center 17 is connected to a plurality of (three in the illustrated example) primary collection centers 8.

In the vicinity of the large storage and discharge machine 10, there is a transfer conveyor 19 used when transferring the stored waste.
will be placed. Note that the reference numeral 20 is a garbage truck.

In the pneumatic waste transport nostem constructed in this way, the waste that has been put into the storage/discharge machine 3 and the waste input boss 5 of the large-scale building 1 is transferred to the primary collection center 8.
In the case of pneumatic transportation up to the point where the secondary collection center 17 is in operation, this is carried out by putting the secondary collection center 17 into operation.

That is, the garbage transport pipe 6 and the intake connecting pipe 18 in one primary collection center 8 that collects garbage are connected in series by switching the remote control valve 7, and the intake air is connected by operating the blower 13 in the secondary collection center 17. Connecting pipe 1
By setting 8 to a reduced pressure atmosphere and inhaling the waste transport pipe 6 through the intake connecting pipe 18, an air flow is generated in the waste transport pipe 6, and as explained below in the example of FIG. The collected garbage inputted into the storage/discharge machine 3 or the garbage input box 5 is pneumatically transported to the primary collection center 8, where the solid content and gas content are separated, and only the solid content is transferred to the large storage/discharge machine. At the same time, the gas is temporarily stored in the secondary collection center 17 for dust removal and deodorization. In this case, the intake pipe path becomes long due to the presence of the intake connecting pipe 18, but by increasing its cross-sectional area, the flow velocity of the air flow is reduced and energy loss during intake is suppressed. becomes possible.

Next, from the primary collection center 8 to the secondary collection center 17
When transporting waste by air, the passage of the intake connecting pipe 18 is closed and the secondary transport pipe 16 having a smaller cross-sectional area is used.

One of the primary collection centers 8 and the secondary collection center 17 from which waste is to be transported by air are connected by switching the remote control valve 7, and the operation of the secondary collection center 17 allows the secondary transport pipe to be connected to the secondary collection center 17. 16 is made into a reduced pressure atmosphere, an air flow is generated in the secondary transport pipe 16, and the waste temporarily stored in the large storage and discharge machine 10 of the primary collection center 8 is carried by the air flow, and the waste is transferred to the secondary collection center 17. A large storage discharger 10, a dust remover 11, a deodorizing device 12, a blower 13, a discharge silencer I
4, the solid content and gas content are separated, the solid content is stored in the large storage and discharge machine 10, and is appropriately transferred to a waste incineration furnace or the like by the waste collecting grass 20. The secondary transport pipe 16 in this case can have the same inner diameter as the waste transport pipe 6.

In addition, in the above-mentioned intake connecting pipe 18, since the energy loss of the pipe is determined depending on the distance and cross-sectional area between the plurality of primary collection centers 8 and the secondary collection center 17, the secondary collection Although it is necessary to satisfy the conditions for operating the primary collection center 8 by intake air from the center 17, there are other methods besides making the intake connection pipe 18 independent and simply having a cross-sectional area several times that of the secondary transport pipe 16. It is possible to install two or more secondary transport pipes 16 of the same diameter and use them together to create an intake connecting pipe 18 with a large cross-sectional area.
Further, in that case, it becomes possible to sequentially switch the pipes that share the pneumatic transport of waste, or to prepare a spare pipe for pneumatic transport of waste.

"Effects of the Invention" As explained above, the waste pneumatic transportation system according to the present invention provides the following excellent effects.

■ Waste that has been input and stored at multiple locations is pneumatically transported to a primary collection center and a secondary collection center, so it is pneumatically transported and processed within installed pipelines, making it sanitary, pollution-free, and labor-saving. By taking full advantage of its features, smooth and reliable pneumatic transportation can be carried out.

■ Between the primary collection center and the secondary collection center, in addition to the secondary transport pipe for pneumatic transportation of waste, an air intake connection pipe with a large cross-sectional area is installed in parallel to operate the primary collection center. Therefore, energy loss can be kept to a minimum, it is less affected by distance, there is a high degree of freedom in air transport to remote areas, and the equipment at the primary collection center can be simplified. It is possible to save equipment costs and improve economic efficiency when multiple units are installed.

[Brief explanation of the drawing]

FIG. 1 is a wiring diagram showing an embodiment of the pneumatic waste transportation system according to the present invention, and FIG. 2 is a wiring diagram showing a conventional example of the pneumatic waste transportation system. 1...Large-scale building, 2...Input chute, 3...Storage and discharge machine, 4...Intake port, 5... Garbage input post, 6... Garbage transport pipe, 7... Remote control valve, 8... Primary collection center 9... Separator, 10... ...Large storage and discharge machine, 11...Dust remover, 12...Deodorizing device, 13...Blower, ]4...Discharge silencer , 15... Conveyor, 16... Secondary transport pipe, 17... Secondary collection center 18... Intake connection pipe, 19...・Transfer conveyor, 20... Garbage truck.

Claims (1)

[Claims] A waste pneumatic transportation system that pneumatically transports waste that has been input and stored at multiple locations to a primary collection center, and then pneumatically transports temporarily stored garbage at the primary collection center to a secondary collection center, which includes the input and storage locations and the primary collection center. A waste transport pipe installed between the primary collection center and the secondary collection center, a secondary transport pipe installed in parallel between the primary collection center and the secondary collection center to transport waste, and a secondary transport pipe with a larger cross-sectional area than the secondary transport pipe. In addition to having an intake connecting pipe, the intake connecting pipe and the waste transport pipe are connected in series during operation of the secondary collection center,
Garbage air is characterized in that after the garbage input and stored at the plurality of locations is accumulated at a primary collection center, the intake connecting pipe is closed and the garbage is pneumatically transported to the secondary collection center by the secondary transport pipe. transportation system.