CN202900561U - Electromagnetic type pneumatic boosting water pump - Google Patents

Abstract

The utility model discloses an electromagnetic type pneumatic boosting water pump. The electromagnetic type pneumatic boosting water pump comprises a cylinder barrel, combined end covers and a pneumatic high-pressure electromagnetic valve, the combined end covers are fixed on the cylinder barrel through four pull rods, a drive piston is arranged in the cylinder barrel, the center of the drive piston is fixed on a boosting piston rod, the boosting piston rod is in transition fit with the center of each combined end cover, a round end cover is arranged on the top of each combined end cover, two liquid inlet and outlet passages are arranged in each cover wall and pass through a central hole of each round end cover to be communicated with a center of each combined end cover, two one-way valve groups are arranged in the liquid inlet and outlet passages at the bottoms of the combined end covers, a liquid outlet integrated block and a liquid inlet integrated block are arranged on the two one-way valve groups respectively, and the liquid outlet integrated block is connected with the pneumatic high-pressure electromagnetic valve. The electromagnetic type pneumatic boosting water pump is pneumatic and uses electromagnetic field signals for controlling an integrated circuit to achieve continuous acting, so that continuous power can be provided for the water pump.

Description

A kind of electromagnetic type Pneumatic booster water pump

Technical field

The utility model relates to a kind of suction booster field, is specifically related to a kind of electromagnetic type Pneumatic booster water pump.

Background technique

Nowadays, pressure pump of a great variety generally all increases pressure with electric water pump or liquid, and so neither environmental protection of effect, poor stability are wasted again resource, can't satisfy the occasion of requirements at the higher level.

The model utility content

The purpose of this utility model is to overcome the above problem that prior art exists, a kind of electromagnetic type Pneumatic booster water pump is provided, the utility model is take air pressure as driving, utilizes electromagnetic field signal controlling resistance intergrated circuit to reach continuous work done, can provide endlessly power for water pump.

For realizing above-mentioned technical purpose, reach above-mentioned technique effect, the utility model is achieved through the following technical solutions:

A kind of electromagnetic type Pneumatic booster water pump, comprise cylinder barrel, pneumatic high-voltage solenoid valve and two composite end caps, described composite end cap is fixed on the cylinder barrel by four pull bars, be provided with driven plunger in the described cylinder barrel, described driven plunger center is fixed on the charged piston bar, and make cylinder barrel form two chambers for air pressure, transition fit is adopted at described charged piston bar and composite end cap center, described composite end cap top is provided with the nose circle lid, and in tegmental wall, be provided with two liquid access ways, described liquid access way communicates with the composite end cap center by nose circle lid center hole, in the liquid access way of described composite end cap bottom, be provided with two groups of one-way valves, control liquid can only advance and can only go out, be respectively arranged with discharge opeing integrated package and feed liquor integrated package on described two groups of one-way valves, described feed liquor integrated package is provided with liquid entering hole, and described discharge opeing integrated package is connected with the pneumatic high-voltage solenoid valve, and described pneumatic high-voltage solenoid valve is provided with delivery outlet and high pressure liberation port.

Further, described driven plunger is concentric with the charged piston bar, is provided with seal ring and magnet ring on the described driven plunger.

Further, be provided with hydraulic seal in the described composite end cap, and cooperate with the charged piston bar to make and form two high-pressure chamber in the composite end cap.

Further, described pneumatic high-voltage solenoid valve is connected with electromagnetic field signal controlling resistance intergrated circuit.

Further, be provided with two magnetic switchs on the described pull bar, drive the pneumatic high-voltage electromagnetic valve work by with driven plunger induction occuring.

Further, described cylinder barrel two ends are provided with the first ventilating hole and the second ventilating hole, described the first ventilating hole be connected ventilating hole and be connected with two chambers in the cylinder barrel respectively.

The beneficial effects of the utility model are:

1, the resistance circuit that adopts of this pump just needs tens watts power consumption, has comprehensively greatly reduced energy consumption, the energy saving cost.

2, the inner flow passage design adopted of this pump has reached zero leakage, is desirable energy saving environmental protection product.

3, this pump also is applicable to hydraulic oil and obtains hydraulic power, need not energy consumption and get final product pressurize, and medium can not produce superheating phenomenon yet.

Above-mentioned explanation only is the general introduction of technical solutions of the utility model, for can clearer understanding technological means of the present utility model, and can be implemented according to the content of specification, below with preferred embodiment of the present utility model and cooperate accompanying drawing to be described in detail as follows.Embodiment of the present utility model is provided in detail by following examples and accompanying drawing thereof.

Description of drawings

Accompanying drawing described herein is used to provide further understanding of the present utility model, consists of the application's a part, and illustrative examples of the present utility model and explanation thereof are used for explaining the utility model, do not consist of improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is pump housing sectional view of the present utility model;

Fig. 2 is overall structure schematic diagram of the present utility model;

Pump housing sectional view when Fig. 3 is the utility model time-out;

Pump housing sectional view when Fig. 4 is the utility model the first working state;

Pump housing sectional view when Fig. 5 is the utility model the second working state.

Number in the figure explanation: 1, composite end cap, 2, the pneumatic high-voltage solenoid valve, 3, the liquid access way, 4, by nose circle lid, 5, electromagnetic field signal controlling resistance intergrated circuit, 6, driven plunger, 7, the charged piston bar, 8, magnet ring, 9, seal ring, 10, hydraulic seal, 11, one-way valve, 12, magnetic switch, 13, cylinder barrel, 14, pull bar, 15, the discharge opeing integrated package, 16, the feed liquor integrated package, 17, liquid entering hole, 18, delivery outlet, 19, the high pressure liberation port, 111, the first one-way valve, 112, the second one-way valve, 113, the 3rd one-way valve, 114, the 4th one-way valve, C, the first ventilating hole, D, the second ventilating hole.

Embodiment

Below with reference to the accompanying drawings and in conjunction with the embodiments, describe the utility model in detail.

With reference to Fig. 1 and shown in Figure 2, a kind of electromagnetic type Pneumatic booster water pump, comprise cylinder barrel 13, pneumatic high-voltage solenoid valve 2 and two composite end caps 1, described composite end cap 1 is fixed on the cylinder barrel 13 by 4 pull bars 14, be provided with driven plunger 6 in the described cylinder barrel 13, described driven plunger 6 centers are fixed on the charged piston bar 7, and make cylinder barrel 13 form two chambers for air pressure, described charged piston bar 7 adopts transition fit with composite end cap 1 center, described composite end cap 1 top is provided with nose circle lid 4, and in tegmental wall, be provided with two liquid access ways 3, described liquid access way 3 covers 4 center holes by nose circle and communicates with composite end cap 1 center, in the liquid access way 3 of described composite end cap 1 bottom, be provided with two groups of one-way valves 11, control liquid can only advance and can only go out, be respectively arranged with discharge opeing integrated package 15 and feed liquor integrated package 16 on described two groups of one-way valves 11, described feed liquor integrated package 16 is provided with liquid entering hole 17, described discharge opeing integrated package 15 is connected with pneumatic high-voltage solenoid valve 2, and described pneumatic high-voltage solenoid valve 2 is provided with delivery outlet 18 and high pressure liberation port 19.

Further, described driven plunger 6 is concentric with charged piston bar 7, and 6 are provided with seal ring 9 and magnet ring 8 on the described driven plunger.

A nearly step, be provided with hydraulic seal 10 in the described composite end cap 1, and cooperate with charged piston bar 7 and to make two high-pressure chamber of composite end cap 1 interior formation.

Further, described pneumatic high-voltage solenoid valve 2 is connected with electromagnetic field signal controlling resistance intergrated circuit 5.

Further, be provided with two magnetic switchs 12 on the described pull bar, drive 2 work of pneumatic high-voltage solenoid valve by with driven plunger 6 induction occuring.

Further, described cylinder barrel 13 two ends are provided with the first ventilating hole C and the second ventilating hole D, described the first ventilating hole C be connected ventilating hole D and be connected with two chambers in the cylinder barrel 13 respectively, by access air pressure driven plunger 6 is moved.

The working principle of the present embodiment is as follows:

The utility model is to utilize the enlarged bore piston sectional area of cylinder and the ratio of the smaller diameter rods sectional area that links with it, minor diameter is enhanced during work done back and forth n times of air pressure pressure at cylinder and is delivered to medium in the smaller diameter rods chamber, make medium have equally n times of air pressure pressure by combined type meaning one-way valve 11 its flow directions of control, then the gas that utilizes in driven plunger 6 magnet ring 8 installed and the electrical signal of two Magnetic Induction switches 12 to control the first ventilating hole C and the second ventilating hole D through intergrated circuit passes in and out, thereby make electromagnetic type Pneumatic booster water pump realize automatic cycle, increase for electromagnetic type is pneumatic; Water pump provides endlessly, and high-pressure medium is used.Following three kinds of use states are wherein arranged

1, stop position state: powered-down, 5 outages of electromagnetic field signal controlling resistance intergrated circuit, electromagnetic type Pneumatic booster water pump drives pneumatic high-voltage solenoid valve 2 and is in off-position, the first ventilating hole C of electromagnetic type Pneumatic booster water pump is in aeration status, electromagnetic type Pneumatic booster water pump drives driven plunger 6 and be positioned at left end under gas pressure, and Magnetic Induction switch 12 is the corresponding de-energized that is in also.Pneumatic high-voltage solenoid valve 2 is also outage simultaneously.As shown in Figure 3.

2, the first working state: when 5 energisings of electromagnetic field signal controlling resistance intergrated circuit, electromagnetic type Pneumatic booster water pump drives pneumatic high-voltage solenoid valve 2 and occurs to make 2 energisings of driving pneumatic high-voltage solenoid valve by the intergrated circuit energising under the induced action at magnetic switch 12 and pump housing magnet ring 8, the second ventilating hole D ventilation of electromagnetic type Pneumatic booster water pump, the first ventilating hole C exhaust, driven plunger 6 is displacement to the right under gas pressure, the suction suction that is produced when making 7 interlock of minor diameter charged piston bar is opened the first one-way valve 111 and is sucked liquid in the N chamber through liquid entering hole, the second one-way valve 112 is closed under suction simultaneously, makes the fluid preservation that is inhaled in the N chamber.And the M chamber is pressed on minor diameter charged piston bar 7 surfaces in driven plunger 6 by the pressure of the several times that produced by minor diameter charged piston bar 7 and major diameter driven plunger 6 sectional areas under the gas pressure and passes to the M chamber, this moment, the pump housing the 3rd one-way valve 113 was closed under pressure action, and the pump housing the 4th one-way valve 114 is opened under pressure action, liquid is transported to the inlet opening of pneumatic high-voltage solenoid valve 2, and pneumatic high-voltage solenoid valve 2 is at electromagnetic pilot closed in electrified state liberation port, through delivery outlet 18 outputs of pneumatic high-voltage solenoid valve 2.As shown in Figure 4.

3, the second working state: when 5 energisings of electromagnetic field signal controlling resistance intergrated circuit, electromagnetic type Pneumatic booster water pump drives high-pressure solenoid valve 2 and occurs to make 2 outages of driving pneumatic high-voltage solenoid valve by the intergrated circuit energising under the induced action at magnetic switch 12 and pump housing magnet ring 8, the first ventilating hole C ventilation of electromagnetic type Pneumatic booster water pump, the second ventilating hole D exhaust, driven plunger 6 under gas pressure to left dislocation, the suction suction that is produced when making 7 interlock of minor diameter charged piston bar is opened the 3rd one-way valve 113 and is sucked liquid in the M chamber through liquid entering hole, the 4th one-way valve 114 is closed under suction simultaneously, makes the fluid preservation that is inhaled in the M chamber.And the N chamber is pressed on minor diameter charged piston bar 7 surfaces in driven plunger 6 by the pressure of the several times that produced by minor diameter charged piston bar 7 and major diameter driven plunger 6 sectional areas under the gas pressure and passes to the N chamber, this moment, the pump housing the first one-way valve 111 was closed under pressure action, and the pump housing the second one-way valve 112 is opened under pressure action, liquid is transported to the inlet opening of pneumatic high-voltage solenoid valve 2, and pneumatic high-voltage solenoid valve 2 electromagnetic pilot closed in electrified state liberation ports, through delivery outlet 18 outputs of pneumatic high-voltage solenoid valve 2.As shown in Figure 5.

The above is preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (6)

1. electromagnetic type Pneumatic booster water pump, it is characterized in that: comprise cylinder barrel (13), pneumatic high-voltage solenoid valve (2) and two composite end caps (1), described composite end cap (1) is fixed on the cylinder barrel (13) by four pull bars (14), be provided with driven plunger (6) in the described cylinder barrel (13), described driven plunger (6) center is fixed on the charged piston bar (7), and make cylinder barrel (13) form two chambers for air pressure, described charged piston bar (7) adopts transition fit with composite end cap (1) center, described composite end cap (1) top is provided with nose circle lid (4), and in tegmental wall, be provided with two liquid access ways (3), described liquid access way (3) communicates with composite end cap (1) center by nose circle lid (4) center hole, in the liquid access way (3) of described composite end cap (1) bottom, be provided with two groups of one-way valves (11), control liquid can only advance and can only go out, be respectively arranged with discharge opeing integrated package (15) and feed liquor integrated package (16) on described two groups of one-way valves (11), described feed liquor integrated package (16) is provided with liquid entering hole (17), described discharge opeing integrated package (15) is connected with pneumatic high-voltage solenoid valve (2), and described pneumatic high-voltage solenoid valve (2) is provided with delivery outlet (18) and high pressure liberation port (19).

2. a kind of electromagnetic type Pneumatic booster water pump according to claim 1, it is characterized in that: described driven plunger (6) is concentric with charged piston bar (7), and (6) are provided with seal ring (9) and magnet ring (8) on the described driven plunger.

3. a kind of electromagnetic type Pneumatic booster water pump according to claim 1, it is characterized in that: be provided with hydraulic seal (10) in the described composite end cap (1), and cooperate with charged piston bar (7) to make and form two high-pressure chamber in the composite end cap (1).

4. a kind of electromagnetic type Pneumatic booster water pump according to claim 1, it is characterized in that: described pneumatic high-voltage solenoid valve (2) is connected with electromagnetic field signal controlling resistance intergrated circuit (5).

5. a kind of electromagnetic type Pneumatic booster water pump according to claim 1 is characterized in that: be provided with two magnetic switchs (12) on the described pull bar, drive pneumatic high-voltage solenoid valve (2) work by with driven plunger (6) induction occuring.

6. a kind of electromagnetic type Pneumatic booster water pump according to claim 1, it is characterized in that: described cylinder barrel (13) two ends are provided with the first ventilating hole (C) and the second ventilating hole (D), described the first ventilating hole (C) be connected ventilating hole (D) respectively with cylinder barrel (13) in two chambers be connected.

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