KR200459103Y1 - Shock generating device for storage valve - Google Patents

Abstract

The present invention relates to an impact generating device for a storage valve, and in particular, a driving device for driving a storage valve installed at an end of a storage tank in an automatic garbage collection facility, wherein the storage valve is coupled to one end of the storage valve. Drive means for opening and closing in a storage tank; The driving means is controlled to open and close the storage valve in the storage tank, and when the closing is performed, the driving means is driven in a forward and reverse direction for a predetermined number of times to apply an impact to the storage valve to remove the food waste remaining on the storage valve, and then to drive the driving valve. And means for controlling the means to close the reservoir valve in the reservoir.

According to the present invention as described above it is possible to improve the airtightness of the storage tank and the storage valve by removing the food waste attached to the storage valve by generating a shock and vibration for a predetermined time immediately after closing the storage valve.

Collection facility, storage valve, food waste, shock, vibration, airtight

Description

Shock generator for storage valve {SHOCK GENERATING DEVICE FOR STORAGE VALVE}

The present invention relates to a driving device for driving a storage valve for supplying and blocking waste to the main passage, and more specifically, to open the storage valve to discharge the waste into the main passage, and then impact the storage valve immediately before the closing of the storage valve. And it relates to a shock generating device for the storage valve to generate a vibration to remove food waste.

In general, the automatic waste collection and treatment facility has a fixed system for transporting to a central storage area by using an inlet and an underground pipeline, and a mobile system consisting of an inlet and an underground pipeline only.

In such automatic waste collection facilities, the distance from which garbage can be collected depends on the diameter of the pipe, but usually 1.5 to 2 km is known as the system limit. In addition, certain areas are divided into sections, which are determined by considering the blower's ability during operation. After the section valve, the pipeline is usually called the main pipeline and is connected to the central storage station. In addition, the storage capacity of the inlet has a storage capacity of 12 hours for general waste, and it is impossible to collect garbage in case of an accident caused by an electrical breakdown or damage to the facility, which requires more than 12 hours in the main pipeline or central storage area.

As apartments and residential complexes have become more complex and larger in recent years, in order to apply the automatic garbage collection facility to such a larger and larger system, it is necessary to build a central storage center in the middle of the region to reduce the length of the pipeline. It is required to estimate the storage capacity of the inlet appropriate for the feed. In the waste collection system in the area of automatic waste collection system in the wide area, one central storage facility is applied, and the number of central storage sites is reduced by the aversion of the hate facility and the so-called NIMBY (Not In My Back Yard) phenomenon. As it moves, the length of the pipeline increases, the number of inputs increases, and thus the uptime increases, making it difficult to transport and collect all the garbage generated in the region.

1 is a process flow diagram of a waste transportation line from the input facilities of sections A and A 'to the central storage area B in the automatic waste collection facility 1. That is, the waste discharged to the waste inlet 10 in the sections A and A 'is collected into the central storage box B through the main passage 20 after a predetermined period.

In this case, the order in which the waste accumulated in the inlet 10 in each section (A, A ') is transferred to the central storage (B) is as follows.

First, the food waste and the general waste discharged from the respective sections A and A 'are transferred to the corresponding waste containers 40 and 50 through the pipeline switching valve 30 in the central storage area B, respectively. At this time, the conveyance of the waste is conveyed by the air suction using the blower 60 provided in the central storage (B), the number of containers (40, 50) in the storage (B) is determined according to the waste capacity discharged In the case of large amounts of waste, the number is increased.

The waste accumulated in the containers 40 and 50 is a transportation means in which the container lift apparatus 65 for lifting the containers 40 and 50 and the containers 40 and 50 lifted from the container lift apparatus 65 are loaded. 70 is transferred to the final treatment plant.

In addition, the air sucked into the blower 60 is passed through the filter device 80 and the odor removing device 90 provided at the rear end of the blower 60, dust, rubble debris, odors, etc. scattered during transport of the waste After it is removed, it is released to the atmosphere.

Meanwhile, as shown in FIG. 2, the storage valve 13 is installed in the storage tank 11 of the sections A and A '.

The storage valve 13 is usually formed in a disc shape and is operated by driving means 15 for driving the storage valve 13.

However, since the storage valve 13 closes the storage tank 11 at the bottom of the storage tank 11 in the conventional automatic waste collecting facility 1, food waste in the garbage adheres to the surface and the rim, and is particularly open. Since the slant has a predetermined angle at the time, the garbage slips through the storage valve 13, thereby causing a problem of always being polluted.

In addition, due to the food waste attached to the surface and the rim of the storage valve 13, the storage tank does not achieve airtightness, and there is a problem in that the durability of the storage valve is shortened due to the damage caused by friction.

The present invention has been made to solve the above-mentioned conventional problems, the purpose is to generate a shock and vibration for a certain time immediately before closing after opening the storage valve to remove the food waste attached to the storage valve to the storage tank and storage The present invention provides an impact generator for a storage valve that can be improved to improve airtightness of a valve.

In order to achieve the above object, the present invention is constructed as follows.

An impact generating device for a storage valve according to the present invention is a driving device for driving a storage valve installed at an end of a storage tank in an automatic garbage collection facility, which is coupled to one end of the storage valve to open and close the storage valve in the storage tank. Drive means for making; By controlling the driving means to open and close the storage valve in the storage tank, when closing the drive means in the forward and reverse direction for a predetermined number of times to impact the storage valve to remove food waste and then control the driving means to control the storage And control means for closing the valve in the reservoir. Therefore, the present invention can improve the airtightness of the storage tank and the storage valve by removing the food waste attached to the storage valve by generating a shock and vibration for a predetermined time immediately after closing the opening of the storage valve.

And, preferably, the shock generating device for the storage valve of the present invention further comprises a vibration generating means to apply a vibration to the storage valve.

In addition, preferably the drive means of the present invention is a forward and reverse rotation motor that is rotated forward and reverse under the control of the control means. Therefore, the present invention can easily remove food waste from the storage valve by applying a strong impact to the storage tank using the forward and reverse rotation motor.

In addition, preferably the vibration generating means of the present invention is an ultrasonic generator for generating ultrasonic waves under the control of the control means. Therefore, the present invention can easily detach food waste from the storage valve by generating vibration using ultrasonic waves.

Preferably, the control means generates the vibration by operating the vibration generating means simultaneously with driving the driving means in the forward and reverse directions for a predetermined number of times or more. Therefore, the present invention can increase the desorption capacity of food waste by generating vibrations with impact.

According to the shock generation device for a storage valve of the present invention configured as described above, by generating a shock and vibration for a predetermined time immediately after closing the storage valve, the food waste attached to the storage valve is released to the airtight of the storage tank and the storage valve Can improve.

Hereinafter, with reference to the accompanying drawings, the configuration of the shock generation device for a storage valve according to the present invention in detail as follows.

In the following description of the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to intention or custom of a user or an operator. Therefore, the definition should be based on the contents throughout this specification.

3 is a conceptual diagram showing the configuration of the shock generation device for a storage valve according to the present invention, Figure 4 is a conceptual diagram showing the configuration of a shock generation device for a storage valve according to another embodiment of the present invention.

In FIG.3 and FIG.4, the same code | symbol is attached | subjected about the structure same as the conventional thing, and the duplication description is abbreviate | omitted.

As shown in FIG. 3 and FIG. 4, the shock generating device 100 for a storage valve according to the present invention includes a storage valve 110, a driving means 120, and a control means 130.

First, the storage valve 110 is formed in a disk shape to open and close the storage tank (11 in Figure 1) of a metal material.

In addition, the driving means 120 is installed on the side of the storage tank 11 so that the rotary shaft 121 is coupled to one end of the current valve 110. At this time, the driving means 120 is preferably a forward and reverse rotation motor which is rotated forward and backward at a predetermined angle under the control of the control means 130 to be described below, depending on the selection, a hydraulic cylinder, a pneumatic cylinder may be used.

In addition, the control means 130 is a controller, and controls the drive means 120 to open and close the storage valve 110 in the storage tank 11, when the drive means 120 is closed in a forward and reverse direction for a predetermined number of times. After impacting the storage valve 110 to remove food waste, the driving means 120 is controlled to close the storage valve 110 in the storage tank 11. Here, the predetermined number of times is preferably 3 to 5 times to enable the operation within 1 to 2 seconds.

On the other hand, the shock generating device 100 for a storage valve according to the present invention may further include a vibration generating means 140 to apply a vibration to the storage valve 110, as shown in FIG.

At this time, the vibration generating means 140 is preferably an ultrasonic generator for generating ultrasonic waves under the control of the control means 130, the vibration generating means 140 is a storage valve 110 without interference with the garbage of the storage tank (11). Attached to the bottom of the

On the other hand, when the vibration generating means 140 is installed, the control means 130 drives the driving means 120 in the forward and reverse directions for a predetermined number of times and simultaneously operates the vibration generating means 140 to generate vibration.

In addition, the driving means 120, the control means 130, and the vibration generating means 140 are operated through separate power supply.

Hereinafter, the operation of the shock generation device for a storage valve according to the present invention in detail with reference to the accompanying drawings as follows.

5 and 6 is an operation state diagram for explaining the operation of the shock generation device for a storage valve according to the present invention.

First, the control means 130 controls the driving means 120 so that the storage valve 110 keeps the storage tank 11 closed at the end of the storage tank 11. At this time, the waste tank 11 is loaded with waste (W).

In this state, after a certain period of time, the waste W of the storage tank 11 is collected through the main conduit 20 to the central storage area B. The driving means 120 is operated by the control means 130 to operate the storage valve. 110 is rotated, thereby opening the end of the storage tank (11).

At the same time, the blower 60 is operated to suck air through the main pipe 20 and the waste inlet 10.

For this reason, the waste W falling from the storage tank 11 is collected by the intake air generated in the main pipe 20 through the main pipe 20 to the central storage cabinet B.

On the other hand, when a certain amount of time elapses and the waste of the storage tank 11 is discharged, the control means 130 controls the driving means 120 and the vibration generating means 140, respectively, the driving means 120 three to five times By driving in the forward and reverse directions, the storage valve 110 collides with the storage tank 11 to generate an impact, and ultrasonic waves are generated in the vibration generating means 140 to generate vibration in the storage valve 110.

Then, shock and vibration energy are generated in the storage valve 110, and the food waste attached to the surface and the edge of the storage valve 110 is detached therefrom.

Then, the control means 130 stops the ultrasonic generation of the vibration generating means 140, the storage valve 110 through the drive means 120 closes the storage tank (11).

Therefore, it is possible to maintain the airtightness of the storage valve and the storage tank by desorbing the food waste, which is generated by impact and vibration on the storage valve immediately after closing of the garbage.

An embodiment of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Therefore, such improvements and modifications fall within the protection scope of the present invention as long as it is obvious to those skilled in the art.

1 is a device layout showing the automatic garbage collecting facility according to the prior art,

2 is a side cross-sectional view showing the configuration of a conventional storage valve;

3 is a conceptual view showing the configuration of a shock generating device for a storage valve according to the present invention,

4 is a conceptual view showing the configuration of a shock generation device for a storage valve according to another embodiment of the present invention,

5 and 6 is an operation state diagram for explaining the operation of the shock generation device for a storage valve according to the present invention.

<Explanation of symbols on main parts of the drawings>

1: Automatic garbage collection facility 10: Inlet

11: storage tank 13, 110: storage valve

20: main pipeline 30: pipeline switching valve

30, 40: container 50: transport means

60: suction blower 100: shock generator for the storage valve

120: drive means 130: control means

140: vibration generating means

Claims (5)

In the drive device for driving the storage valve is installed at the end of the storage tank of the automatic garbage collection facility, A drive unit which is installed in a side of the storage tank as a forward and reverse motor that is rotated forward and backward according to external control, and whose rotation shaft is coupled to one end of the storage valve to open and close the storage valve in the storage tank; An ultrasonic generator for generating ultrasonic waves under external control, the ultrasonic generator being attached to a bottom surface of the storage valve which does not interfere with the garbage of the storage tank and applying vibration to the storage valve; And By controlling the drive means to open and close the storage valve in the storage tank, when closing the drive means in the forward and reverse direction three to five times within 1 to 2 seconds and at the same time operating the vibration generating means to generate vibration by the vibration And a control means for controlling the driving means to apply a shock to the valve to remove the food waste, thereby closing the storage valve in the storage tank. delete delete delete delete

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