CN203730245U - Automatic water drainage control device of air compressor system - Google Patents

Abstract

The utility model discloses an automatic water drainage control device of an air compressor system. The automatic water drainage control device of the air compressor system comprises a direct current supply unit, an automatic water drainer and a direct-current electromagnetic valve, wherein the direct current supply unit is provided with a carrier, at least one dry battery and a direct current connecting portion; the dry batteries are arranged on the carrier and provide direct current; the direct current connecting portion is electrically connected to the dry batteries; the automatic water drainer is provided with a water draining outlet and a water level sensing portion; the water level sensing portion is electrically connected with the direct current connecting portion and senses the water level in the automatic water drainer; the direct-current electromagnetic valve is provided with a water inlet valve opening, a water outlet valve opening and an electromagnetic control portion; the water inlet valve opening is connected with the water draining outlet; and the electromagnetic control portion is electrically connected with the direct current connecting portion and is driven by the water level sensing portion so as to control connection or disconnection of the water inlet valve opening and the water outlet valve opening. Because the automatic water drainage control device is provided with the direct current supply unit, and the automatic water drainer and the direct-current electromagnetic valve are powered by the direct current, the cost can be reduced, and the convenience and the using safety can be improved.

Description

The automatic drainage control device of air compression system

Technical field

The utility model relates to air compression system, refers to especially a kind of automatic drainage control device of air compression system.

Background technique

Air compression system (dairy products and brewage processing procedure gas for example, medical gas and breath, packing and instrument control gas, semiconductor electronic manufacture gas ... etc.) facility that comprise an extracting air, one is connected in these facility and compresses airborne solid impurity in order to filter, oil content or the compressed-air filter of moisture content, and one be connected in this compressed-air filter and in order to the automatic drainage control device of Storage and draining liquid, and due in this automatic drainage control device in order to store liquid, detecting liquid water level height, and the automatic water trap of discharge liquid, and the required power supply of the solenoid valve of controlling this automatic water trap discharge liquid is all to use Ac, therefore, in reality, use situation still to there is following defect.

One, cost are high.When the power supply of this automatic water trap and solenoid valve is Ac, because Ac is not easy storage, and cannot move arbitrarily, therefore Ac activity is fixed on specific place, make this automatic water trap and solenoid valve must carry out the distribution of specific range, just can obtain Ac, thereby highlight the defect that cost is high, particularly, when air compression system is used at large factory building, required wire rod cost certainly will increase greatly.

Two, use inconvenience.When the power supply of this automatic water trap and solenoid valve is Ac, between this automatic water trap and solenoid valve and Ac activity, need to carry out wiring operation, once after wiring operation completes, this air compression system only can move in the length range of wire, highlights awkward defect.

Three, Security is not enough.When the power supply of this automatic water trap and solenoid valve is Ac, between this automatic water trap and solenoid valve and Ac activity, need to carry out wiring operation, once after wiring operation completes, if the wire insulation processing increasing is improper, easily produce safety problem.

Model utility content

Technical problem to be solved in the utility model is to provide a kind of automatic drainage control device of air compression system, and it mainly uses direct current by this automatic drainage control device, to reduce costs, to promote convenience of use and to improve safety in utilization.

For addressing the above problem, the utility model provides a kind of automatic drainage control device of air compression system, comprise: a direct current feeding unit, has a carrier, is at least onely located at this carrier and provides galvanic dryelement cell and a direct current that is electrically connected this dryelement cell meets portion; One automatic water trap, has a drain outlet and and is electrically connected the level sensing unit that this direct current connects portion and this automatic water trap water level inside height of sensing; One DC electromagnetic valve, water inlet valve port, a water outlet valve port and with this drain outlet of connection are electrically connected this direct current and meet portion and be subject to this level sensing unit to drive to control the Electromagnetic Control portion whether this water inlet valve port is communicated with water outlet valve port.

Preferably, the direct current portion of connecing of this direct current feeding unit is a terminal board.

Preferably, this DC electromagnetic valve is self-holding electromagnetic valve, when this Electromagnetic Control portion is driven by this level sensing unit, is to control this water inlet valve port to be communicated with water outlet valve port, when this Electromagnetic Control portion is not driven by this level sensing unit, be to control this water inlet valve port not to be communicated with water outlet valve port.

Preferably, this DC electromagnetic valve is provided in a side of in the carrier of this direct current feeding unit, and the water inlet valve port of this DC electromagnetic valve and water outlet valve port are all exposed to this carrier.

Preferably, this carrier has one first space and a second space, and it is accommodating that this first space supplies this DC electromagnetic valve and this direct current to meet portion, and this second space is accommodating for this dryelement cell.

Accompanying drawing explanation

Fig. 1 is the utility model the first embodiment's configuration Block Diagram.

Fig. 2 is model utility the first embodiment's stereogram, shows that automatic drainage control device and compressed-air filter connect the state of establishing.

Fig. 3 is the utility model the first embodiment's side view.

Fig. 4 is the side view at another visual angle of the utility model the first embodiment.

Fig. 5 is the utility model the second embodiment's three-dimensional exploded view, shows that carrier has one first space and a second space, and for this DC electromagnetic valve and this direct current, to meet portion accommodating in this first space, and this second space is for the accommodating state of this dryelement cell.

Description of reference numerals

Direct current feeding unit 10

Carrier 11

The first space 111

Second space 112

Assembly 113,114,115

Dryelement cell 12

Anodal 121

Negative pole 122

Direct current meets portion 13

Wire 14

Automatic water trap 20

Drain outlet 21

Level sensing unit 22

Drainage inlet 23

Wire 24

DC electromagnetic valve 30

Water inlet valve port 31

Water outlet valve port 32

Electromagnetic Control portion 33

Wire 34

Compressed-air filter 40

Embodiment

Consult shown in Fig. 1 to 4, the automatic drainage control device of a kind of air compression system that the utility model the first embodiment provides, it is mainly comprised of a direct current feeding unit 10, an automatic water trap 20 and a DC electromagnetic valve 30, wherein:

This direct current feeding unit 10, has a carrier 11, four and is located at this carrier 11 and provides galvanic dryelement cell 12 and a direct current that is electrically connected this dryelement cell 12 meets portion 13; In the present embodiment, respectively this dryelement cell 12 is series connection shape, and every dryelement cell 12 voltages are 1.5 volts (V), and it is a terminal board that this direct current meets portion 13, and respectively the positive pole 121 after 12 series connection of this dryelement cell and negative pole 122 are all to see through a wire 14 to be connected to this direct current and to meet portion 13.

This automatic water trap 20, has a drain outlet 21 and and is electrically connected the level sensing unit 22 that this direct current connects portion 13 and these automatic water trap 20 water level inside height of sensing; In the present embodiment, this automatic water trap 20 has more a drainage inlet 23 that is arranged in compressed-air filter 40, filters the airborne moisture content of compression flow in this automatic water trap 20 for this compressed-air filter 40; In addition, this level sensing unit 22 is electrically connected this direct current by wire 24 and meets portion 13.

This DC electromagnetic valve 30, water inlet valve port 31, a water outlet valve port 32 and with this drain outlet 21 of a connection are electrically connected this direct current and meet portion 13 and be subject to this level sensing unit 22 to drive to control the Electromagnetic Control portion 33 whether this water inlet valve port 31 is communicated with water outlet valve port 32; In the present embodiment, this DC electromagnetic valve 30 is self-holding electromagnetic valve, when this Electromagnetic Control portion 33 is driven by this level sensing unit 22, to control this water inlet valve port 31 to be communicated with water outlet valve port 32, when this Electromagnetic Control portion 33 is not driven by this level sensing unit 22, be to control this water inlet valve port 31 not to be communicated with water outlet valve port 32; In addition, this Electromagnetic Control portion 33 is electrically connected this direct current by wire 34 and meets portion 13.

The above is structure and the configuration explanation thereof of the utility model first each main member of embodiment.As for the utility model the first embodiment's effect, do following explanation.

One, cost are low.Because the utility model is provided with this direct current feeding unit 10, and the power supply of this automatic water trap 20 and DC electromagnetic valve 30 is set as to direct current, therefore, this direct current feeding unit 10 is configurable at this automatic water trap 20, this compressed-air filter 40, or this automatic water trap 20, the adjacent place of compressed-air filter 40, and do not need to carry out the wiring operation of large distance, just can obtain power supply, thereby there is lower-cost effect, no matter be when air compression system is used at large factory building or little factory building, its required wire rod cost not only unanimously and all lower.

Two, easy-to-use.Because the utility model is provided with this direct current feeding unit 10, and the power supply of this automatic water trap 20 and DC electromagnetic valve 30 is set as to direct current, therefore, this direct current feeding unit 10 is configurable at this automatic water trap 20, this compressed-air filter 40, or this automatic water trap 20, the adjacent place of compressed-air filter 40, and can be along with this automatic water trap 20, compressed-air filter 40 moves and displacement, after once this automatic water trap 20 and DC electromagnetic valve 30 are completed with these direct current feeding unit 10 wiring operation, this air compression system can at random move, and needn't be limited to the length of wire, promote the convenience on using.

Three, Security is better.Because the utility model is provided with this direct current feeding unit 10, and the power supply of this automatic water trap 20 and DC electromagnetic valve 30 is set as to direct current, therefore, the configurable adjacent place at this automatic water trap 20, this compressed-air filter 40 or this automatic water trap 20, compressed-air filter 40 of this direct current feeding unit 10, and do not need to carry out the wiring operation of large distance, also therefore the use length of wire is extremely short, the walking of easily carrying out insulation processing and can not hindering personnel, can effectively promote the Security in use.

It is worth mentioning that, because the utility model is provided with this direct current feeding unit 10, and the power supply of this automatic water trap 20 and DC electromagnetic valve 30 is set as to direct current, therefore, this DC electromagnetic valve 30 is direct current supply, and there is preferably power supply reliability, and can use and control operation at the air compression system of outbalance, be for example applied in the air compression system into medical gas and breath.Secondly, this DC electromagnetic valve 30 has more and is difficult for heating, the advantage that hoisting capacity is larger.Simultaneously, in the present embodiment, this DC electromagnetic valve 30 is self-holding electromagnetic valve, and whether the control that is subject to the level sensing unit 22 of this automatic water trap 20 is switched on and can be completed this water inlet valve port 31 and whether be communicated with water outlet valve port 32 and move, valve element position does not need electricity to keep, and with energy saving, and can not consider temperature rise, thereby the coil life-span is long, in high low temperature, the air compression system occasion such as explosion-proof, there is higher-security.

Consult shown in Fig. 5, the automatic drainage control device of a kind of air compression system that the utility model the second embodiment provides, it is comprised of direct current feeding unit 10, automatic water trap 20 and DC electromagnetic valve 30 equally, because its configuration and effect are same as the first embodiment, therefore repeat no more, be as for second embodiment's difference:

This DC electromagnetic valve 30 is provided in a side of in the carrier 11 of this direct current feeding unit 10, and the water inlet valve port 31 of this DC electromagnetic valve 30 and water outlet valve port 32 are all exposed to this carrier 11, in the present embodiment, this carrier 11 is by three-member type assembly 113, 114, 115 institutes form, two assemblies 113 wherein, 114 formation 2 first spaces 111 and wherein two assemblies 114, 115 form a second space 112, it is accommodating that this 2 first space 111 supplies this DC electromagnetic valve 30 and this direct current to meet portion 13 respectively, this second space 112 is accommodating for this dryelement cell 12, use the another kind of enforcement state of reaching, and promote the aesthetic property of this automatic drainage control device simultaneously, it is worth mentioning that, this direct current that is contained in this first space 111 connects in portion 13 can have circuit design, usings as the electric power transfer between dryelement cell 12, automatic water trap 20 and DC electromagnetic valve 30 and the transmission of controlling signal.

In sum, the various embodiments described above and diagram are only the preferred embodiment of the utility model, when can not with the scope implemented of restriction the utility model, the equalization of generally doing according to the utility model claim changes and modifies, and all should belong in the scope that the utility model patent contains.

Claims (5)

1. an automatic drainage control device for air compression system, is characterized in that: comprise:

One direct current feeding unit, has a carrier, is at least onely located at this carrier and provides galvanic dryelement cell and a direct current that is electrically connected this dryelement cell meets portion;

One automatic water trap, has a drain outlet and and is electrically connected the level sensing unit that this direct current connects portion and this automatic water trap water level inside height of sensing;

One DC electromagnetic valve, water inlet valve port, a water outlet valve port and with this drain outlet of connection are electrically connected this direct current and meet portion and be subject to this level sensing unit to drive to control the Electromagnetic Control portion whether this water inlet valve port is communicated with water outlet valve port.

2. the automatic drainage control device of air compression system as claimed in claim 1, is characterized in that: the direct current portion of connecing of described direct current feeding unit is a terminal board.

3. the automatic drainage control device of air compression system as claimed in claim 1, it is characterized in that: described DC electromagnetic valve is self-holding electromagnetic valve, when this Electromagnetic Control portion is driven by this level sensing unit, to control this water inlet valve port to be communicated with water outlet valve port, when this Electromagnetic Control portion is not driven by this level sensing unit, be to control this water inlet valve port not to be communicated with water outlet valve port.

4. the automatic drainage control device of air compression system as claimed in claim 1, is characterized in that: described DC electromagnetic valve is provided in a side of in the carrier of this direct current feeding unit, and the water inlet valve port of this DC electromagnetic valve and water outlet valve port are all exposed to this carrier.

5. the automatic drainage control device of air compression system as claimed in claim 4, it is characterized in that: described carrier has one first space and a second space, it is accommodating that this first space supplies this DC electromagnetic valve and this direct current to meet portion, and this second space is accommodating for this dryelement cell.