KR200176542Y1 - Recovery apparatus of waste materials - Google Patents

Abstract

PURPOSE: To provide a waste vacuum suction device that can suck waste with a simple structure.

Composition: A collecting container 4 having a space for collecting waste and having one side of the space covered with a screen filter 10, and a venturi nozzle mounted and fixed at a position in communication with the chamber 12. (18), the adjuster 20 inserted into the center of the venturi nozzle 18 to adjust the opening and closing degree of the central aperture, and a silencer 24 communicating with the outlet side of the venturi nozzle 18. One side of the container 4 is configured to have a recovery pipe 2 and an air supply pipe 26 connected to the adjuster 20, respectively.

Effect: Since the negative pressure for vacuum suction of waste is generated by compressed air, power consumption is not large. In addition, since compressed air passes through the silencer in the process of being exhausted, no noise is generated and the structure is simple, and maintenance is easy.

Description

Recovery apparatus of waste materials

The present invention relates to a waste recovery device that collects waste such as wet or dry dirt or by-products generated in a paint shop, a shipyard, a machining workshop, etc., and more specifically, waste by negative pressure generated by vacuum. It relates to a waste vacuum recovery apparatus that is to recover the suction.

The collection of wastes, especially dust, metal chips, suspended materials, etc., uses wind pressure as a power source, and it is a system that collects wastes by wind power generated through the operation of Roots Brower.

However, when the Roots Brower is used as a power source, the noise generated when a pair of gourd-shaped rotors rotate together is large, and the power consumption required for operation is low, resulting in low economic efficiency, electrical safety accidents, and excessive device volume. Due to the difficulty of mobile installation, and the complicated and sophisticated soccer team, the trouble is difficult to repair, which makes the maintenance difficult.

Therefore, the present invention aims to solve the above-mentioned problems by providing a waste vacuum suction device capable of vacuum sucking waste with a simple structure without depending on the Roots brower.

In accordance with the above object, the present invention has a space for collecting and collecting waste, and one side of the space is formed with a chamber covered with a filter net, a venturi nozzle mounted and fixed to a position communicating with the chamber, and the center of the venturi nozzle. It is composed of an adjuster inserted and adjusting the opening and closing of the central through hole, a silencer communicated to the outlet side of the venturi nozzle, one side of the container is connected to the return pipe, and the air supply pipe is connected to each other Becomes

In addition, the venturi nozzle may be arranged in parallel between the container and the silencer, a check valve may be interposed between the venturi nozzle and the silencer to improve the vacuum efficiency.

In addition, it is preferable to accommodate the float valve in the center of the chamber so that the passage with the venturi nozzle is blocked when the level rise due to the recovery of the wet waste proceeds above a certain level.

The apparatus of the present invention having the above-described configuration does not have a large power consumption because the negative pressure for vacuum suction of waste is generated by compressed air. In addition, since compressed air passes through the silencer in the process of being exhausted, no noise is generated and the structure is simple, and maintenance is easy.

1 is a cross-sectional view showing the configuration of the device of the present invention.

Figure 2 is a cross-sectional view showing a part of the main vent venturi nozzle of the device of the present invention.

3 is a cross-sectional view showing the noise means of the venturi nozzle shown in FIG.

4 is a plan view showing an application example of the present invention.

* Description of the symbols for the main parts of the drawings *

2: recovery pipe 4: recovery container

6: level gauge 8: drain valve

10 screen filter 12 chamber

16 intake hole 18 venturi nozzle

20: adjuster 22: check valve

24: silencer 26: air supply pipe

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing the structure of a vacuum recovery device according to the present invention, wherein a collecting container 4 having a collecting pipe 2 connected to one side has a water level gauge 6 on an outer circumferential surface thereof, and a drain valve 8 on the lower side thereof. It is installed.

The chamber 12 is provided with a chamber 12 surrounded by a screen filter 10, which has a float valve 14 at the center thereof.

In the container 4, the recovery pipe 2 is concealed by the damper 5 so that the waste recovered is not in contact with the screen filter 10 to be damaged.

On the other hand, the chamber 12 is communicated to the outside through the intake hole 16, and as a result, the interior of the container 4 is communicated to the outside via the intake hole 16.

Moreover, the outer side of the collecting container 4 via the intake hole 16 is formed with the negative pressure chamber 16, This negative pressure chamber 16 is opened to the outside through the venturi nozzle 18. As shown in FIG. And the adjuster 20 in the form of a needle valve is inserted into the central through hole of the venturi nozzle 18 to adjust the opening and closing of the center hole diameter of the venturi nozzle 18 through the position adjustment, the venturi nozzle ( In 18), the opposite side of the adjuster 20 communicates with the silencer 24 via the check valve 22.

The air supply pipe 26 communicates with the side of the adjuster 20, and the compressed air supplied through the air is controlled by the valve 28.

2 is a view showing the detailed configuration of the venturi nozzle 18, showing that the diameter of the side communicating with the silencer 24 is larger than the diameter of the side on which the adjuster 20 is installed. have.

As such, as the internal diameter of the venturi nozzle 18 is set differently for each position, the compressed air passes through the through hole controlled by the adjuster 20 at high speed, and the passage speed is slowed toward the enlarged portion. As a result, the noise generated by the exhaust gas is suppressed.

As shown in FIG. 3, the silencer 24 has a structure in which an inner center thereof is filled with the rock wool layer 240, and the sponge layer 242 and the rock wool layer 244 are surrounded around the venturi nozzle 18. Compressed air sent through the check valve 22 to the muffler 24 is discharged to the central rock surface 240 and spread around, so that the sound is dispersed by the porous sound wave of the rock surface 240, Acoustic wave attenuation is made by the difference in mass and porosity while passing through the sponge layer 242, and finally through the outlet 25 drilled on the side of the silencer 24 through the rock wool layer 244. Exhaust to the outside. Therefore, little noise is generated during the exhaust of the compressed air.

In the above-described device of the present invention, the venturi nozzles 18 may be arranged in parallel as shown in FIG. 3, and in this case, the check valve 22 may be added to each venturi nozzle 18. .

The check valve 22 immediately vents the venturi nozzle 18 when the pressure of the compressed air discharged from the venturi nozzle 18 becomes lower than the external atmospheric pressure in the step-wise negative pressure adjustment process by turning on and off each venturi nozzle 18. It works by closing it so that no outside air enters.

The device of the present invention can be used alone or in combination with a cyclone 27 and a bag filter chamber 28 used to recover waste of relatively large particles, as shown in FIG. An electronically controlled three-phase valve 30 is to be interposed at the front end of the recovery pipe 2.

The present invention of the above-described configuration is basically provided by evacuating the interior of the container 4 under the action of negative pressure caused when compressed air supplied through the air supply pipe 26 is exhausted via the venturi nozzle 18. As indicated by the arrows in FIG. 1, waste is collected through the recovery pipe 2.

In this way, the waste is collected by suction using vacuum, as well as the dry waste as well as the wet waste can be collected, and the collected waste is filtered by the screen filter 10 is accumulated inside the container (4). When the collected waste is full, the container 4 is opened and the waste is emptied.

In addition, when the waste collected is wet, water may accumulate inside the container 4, but the water may be filled up to a predetermined level or more by the water level gauge 6. The drain valve 8 can be drained by opening the drain in a timely manner. Furthermore, even if the drain is neglected, the float valve 14 stored in the center of the chamber 12 closes the intake hole 16 so that the venturi nozzle 18 can be drained. No water is pulled up and discharged.

And when using the device of the present invention with the cyclone 27 and the bag screen filter chamber 28 as shown in Figure 4 by operating the three-phase valve 30 to direct the waste directly to the recovery pipe (2) or Alternatively, it is more convenient to bypass the cyclone 27 to allow large particles of waste to be separated and then only the remaining waste to be collected by suction.

As described above, the present invention is a structure that collects waste by using vacuum, but unlike the conventional one, the negative pressure is generated only by supplying compressed air, so it is a simple structure that does not cause a failure, and the power consumption is not large, and the compression is exhausted. Since air is exhausted through the silencer, it does not generate noise to the surroundings.

Claims (2)

A container 4 having a space for collecting waste and having one side of the space covered with a screen filter 10, and a venturi nozzle 18 mounted and fixed to a position in communication with the chamber 12. ), A adjuster 20 inserted into the center of the venturi nozzle 18 to adjust the opening and closing degree of the central hole, and a silencer 24 communicating with the outlet side of the venturi nozzle 18. One side of the container (4) is a waste vacuum suction device of the configuration in which the recovery pipe (2), and the air supply pipe (26) in communication with each of the adjuster (20). The waste vacuum suction device according to claim 1, wherein the venturi nozzles (18) are arranged in parallel so that they can be stepped on and off.