DE202013100371U1 - Automatic dewatering device for the air compressor - Google Patents

Abstract

An "automatic dewatering device for the air compressor" is as follows: one side of the solenoid valve is connected to the extension tube and the other side to the throttle. The opening and closing of the solenoid valve is controlled by the circuit board; the circuit board is in the box. When the bottom cover is locked, the circuit board connects to the electric wire of the solenoid valve. Through the circuit board, the solenoid valve is opened or closed. The box containing the circuit board is installed on one side of the air compressor. The electrical cables of the circuit board are included in the switch box of the compressor as a power supply; then the extension tube of the solenoid valve is screwed onto the discharge opening of the air tank of the extension tube. Whenever the air compressor is started, the circuit board is controlled by the solenoid valve and the drainage paths are opened for 3-5 seconds. The accumulated water in the air tank can drain and the amount of leaking water is controlled by the throttle. Thus, the automatic ...

Description

Designation: Automatic dewatering device for the air compressor Content of the construction:

This invention is an "automatic dewatering device for the air compressor". Whenever the air compressor is started, the solenoid valve is controlled by the circuit board and the drainage paths are opened for 3-5 seconds. The water in the air tank is drained away and a choke regulates the amount of runoff.

Description of previous constructions:

Compressed air is created by compressing the air around the air compressor. Every time the air compressor takes in air and expels, the water in the air tank of the air compressor will collect the dust and dirt from the air. The accumulated dirt in the air tank must be drained every day. Normally, a drain valve is installed under the air reservoir of the air compressor. The drain valve must be opened manually on a regular basis to allow the drainage of the water. Later, the valve must be closed again. Today, automation of operations and non-personnel work play an important role in all industries. If water draining from the air compressor is still to be done by persons, it is extremely inefficient, as carelessness can lead to economic loss. Employees in the industry, who are responsible for manufacturing the air compressor, are seeking to improve efficiency so that the residual fluid in the air reservoir of the air compressor can drain completely. In addition, workers are keen to solve the problem of inefficiency caused by human activity.

Content of the new construction:

Since it is necessary in the conventional air compressors to drain the accumulated water regularly, this can lead to high losses. Due to the many years of experience working with the air compressor and the development of technology, the inventor was able, after continuous research, to develop an "automatic dewatering device for the air compressor". Whenever the air compressor is started, the accumulated water in the air tank can automatically run off and so the air in the air compressor is better and the service life is extended. The problem of inefficiency due to manual drainage is thereby solved.

The "automatic dewatering device for the air compressor in this invention" is composed as follows: one side of the solenoid valve is connected to the extension tube and the other side to the throttle. The opening and closing of the solenoid valve is controlled by the circuit board. The circuit board is in the box; when the bottom cover is locked, the circuit board connects to the electric wire of the solenoid valve. The circuit board either opens or closes the solenoid valve. The box is installed on one side of the air compressor, the electric cables of the circuit board are enclosed in the switch box of the compressor as a power supply. Then, the extension tube of the solenoid valve is screwed onto the drainage port of the air tank of the extension tube. Whenever the air compressor is started, the solenoid valve's circuit board is electrically controlled and the drainage paths are opened for 3-5 seconds. The accumulated water and the dirt in the air tank can drain. The amount of leaking water is controlled by the throttle. The main object of this invention is to provide an "automatic dewatering device for the air compressor". Whenever the air compressor is started, the solenoid valve is controlled by the circuit board and the drainage paths are opened for 3-5 seconds. The accumulated water and dirt in the air reservoir of the air compressor can thus leak out, and the problem of inefficiency caused by the human operation in leaking is solved. The structure is easy to install and automatic leakage is possible. Another object of this invention is to provide an "automatic dewatering apparatus for the air compressor" wherein the throttle controls the amount of discharge according to the volume of the air tank. As the liquid leaks, the leakage of the gas is also avoided to increase the economic benefit.

Description of the construction:

The and 2 show the structure of the "automatic dewatering device for the air compressor". One side of the solenoid valve ( 10 ) is with the extension tube ( 20 ) and the other side with the throttle ( 30 ) connected. The electric cables ( 11 ) of the solenoid valve ( 10 ) are connected to the circuit board ( 40 ) connected. Opening (about 3-5 seconds) and closing the solenoid valve ( 10 ) is passed through the circuit board ( 40 ) controlled;
On the circuit board ( 40 ) there are several electronic control parts (not shown in the figure) that are in the box ( 50 ). Through the screws ( 51 ) the bottom cover ( 52 ) screwed up. The circuit board ( 40 ) is connected to the electric cable ( 11 ) of the solenoid valve ( 10 ) connected. The solenoid valve ( 10 ) is passed through the circuit board ( 40 ) (about 3-5 seconds) and closed again.

The . 3 and show an implementation example of the incorporation and utility of this invention. Inside is a box ( 50 ) with the circuit board ( 40 ), which by bolts ( 53 ) and nuts ( 54 ) on one side of the compressor ( 61 ) of the air compressor ( 60 ) is installed. The electric cables ( 41 ) of the circuit board ( 40 ) are placed in the control box ( 611 ) of the compressor ( 61 ) included as power supply. The extension tube ( 20 ) of the solenoid valve ( 10 ) is placed on the drain ( 63 ) of the air tank ( 62 ) of the air compressor ( 60 ) screwed up.

Above is the description of the "automatic dewatering device for the air compressor" and the positions of the elements. The action is explained as below:
He is composed by the above elements. Whenever the compressor ( 61 ) of the air compressor ( 60 ) is started, the circuit board ( 40 ) through the solenoid valve ( 10 ) open for 3-5 seconds. The dirt and polluted water in the air tank ( 62 ) run out of. The discharge amount is determined by the throttle ( 30 ) controlled. When draining the liquid, the loss of the gas is avoided and thus an automatic draining is possible. The aim is to achieve a simple structure and easy installation. Furthermore, the drain does not have to be initiated manually.

It is particularly important to note that it is on the above-mentioned circuit board ( 40 ) are several electronic control parts (not shown in the figure). In this invention, they are not particularly limited. Therefore, the shape of the air compressor ( 60 ) not explained here.

List of Figures:

shows a three-dimensional exploded view of this invention.

Figure 3 shows the three-dimensional composite view of this invention.

shows the three-dimensional view of an implementation example of this invention.

shows the side view of an implementation example of this invention.

Claims (1)

An "automatic dewatering device for the air compressor" is as follows: one side of the solenoid valve is connected to the extension tube and the other side to the throttle. The opening and closing of the solenoid valve is controlled by the circuit board; the circuit board is in the box. When the bottom cover is locked, the circuit board connects to the electric wire of the solenoid valve. Through the circuit board, the solenoid valve is opened or closed. The box containing the circuit board is installed on one side of the air compressor. The electrical cables of the circuit board are included in the switch box of the compressor as a power supply; then the extension tube of the solenoid valve is screwed onto the discharge opening of the air tank of the extension tube. Whenever the air compressor is started, the circuit board is controlled by the solenoid valve and the drainage paths are opened for 3-5 seconds. The accumulated water in the air tank can drain and the amount of leaking water is controlled by the throttle. Thus, the automatic dehydration of the solenoid valve takes place.

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