CN202317342U - Sealing bin with automatic leakage-discharge device - Google Patents

Abstract

The utility model relates to a sealing bin, and in particular relates to a sealing bin with an automatic leakage-discharge device. The structure of the sealing bin comprises a sealing bin body. The sealing bin further comprises an automatic leakage-drainage device, wherein the automatic leakage-drainage device comprises a liquid sensor, a control circuit, an intake tube, a one-way valve, a drain pipe and an electromagnetic valve; the liquid sensor is arranged in the sealing bin body and is electrically connected with the control circuit; the intake tube is communicated with an air inlet arranged on the sealing bin body, and the one-way valve is arranged in the intake tube; and the drain pipe is communicated with a liquid discharge opening arranged on the sealing bin body, and the electromagnetic valve is arranged on the drain pipe and is electrically connected with the control circuit. According to the sealing bin disclosed by the utility model, based on the prior art, the automatic leakage-discharge device is additionally arranged on the sealing bin body, and can automatically discharge leaked liquid when the liquid sensor detects that the liquid is leaked into the sealing bin body. The sealing bin disclosed by the utility model has the characteristics of simple structure, reutilization and good liquid leakage resisting effect.

Description

A kind of have a gas-tight silo that automatic row's neglected loading is put

Technical field

The utility model relates to a kind of row's neglected loading to be put, and particularly relates to a kind of gas-tight silo that automatic row's neglected loading is put that has.

Background technology

Gas-tight silo of the prior art, its structure includes the gas-tight silo body, and normal conditions are the gas-tight silo body of cuboid.

The gas-tight silo of said structure is the structure of sealing; When design, do not considered the solution when liquid infiltrates the gas-tight silo body; Yet the sealing storehouse in use can't reach sealing fully, when liquid infiltrates, will influence the water-tight performance in sealing storehouse, thereby makes the gas-tight silo that need more renew; Not only increase use cost, but also waste time and energy.

Therefore, for addressing the above problem, provide a kind of technology with gas-tight silo that automatic row's neglected loading puts particularly important.

Summary of the invention

The purpose of the utility model is to avoid weak point of the prior art and provides a kind of simple in structure, and is reusable, and anti-fluid seepage effective have a gas-tight silo that automatic row's neglected loading is put.

The purpose of the utility model realizes through following technical scheme:

A kind of gas-tight silo that automatic row's neglected loading is put that has is provided, includes the gas-tight silo body, wherein, also include automatic row's neglected loading and put, said automatic row's neglected loading is put and is included liquid sensor, control circuit, air inlet pipe, check valve, discharging tube and magnetic valve; Said liquid sensor is arranged in the said gas-tight silo body and with said control circuit and is electrically connected; Said air inlet pipe is connected with the air inlet of said gas-tight silo body setting, and said check valve is arranged at said air inlet pipe; Said discharging tube is connected with the leakage fluid dram of said gas-tight silo body setting, and said magnetic valve is arranged at said discharging tube and is electrically connected with said control circuit.

Wherein, said liquid sensor is arranged at the intrinsic bottom of said gas-tight silo.

Wherein, said liquid sensor is arranged at the bottom under relative with said air inlet in the said gas-tight silo body.

Wherein, said liquid sensor is to be provided with two liquid sensor.

Wherein, said air inlet is arranged at the top of said gas-tight silo body, and said leakage fluid dram is arranged at the bottom of said gas-tight silo body.

Wherein, said air inlet and said leakage fluid dram are on the same diagonal of said gas-tight silo body.

Wherein, said air inlet pipe stretches in the said gas-tight silo body.

Wherein, said air inlet pipe is provided with said air inlet is vertical.

Wherein, said discharging tube is provided with said leakage fluid dram is vertical.

The beneficial effect of the utility model:

The utility model a kind of has the gas-tight silo that automatic row's neglected loading is put, and includes the gas-tight silo body, wherein, also includes automatic row's neglected loading and puts, and this is arranged neglected loading automatically and puts and include liquid sensor, control circuit, air inlet pipe, check valve, discharging tube and magnetic valve; Liquid sensor is arranged in the gas-tight silo body and with control circuit and is electrically connected; Air inlet pipe is connected with the air inlet of gas-tight silo body setting, and check valve is arranged at air inlet pipe; Discharging tube is connected with the leakage fluid dram of gas-tight silo body setting, and magnetic valve is arranged at discharging tube and is electrically connected with control circuit.The utility model is set up automatic row's neglected loading and is put in the gas-tight silo of prior art, in the time of in liquid sensor has detected liquid infiltration gas-tight silo body, the liquid that the compressed air that feeds through air inlet will infiltrate is discharged voluntarily.Have simple in structure, reusable, and anti-fluid seepage good effectiveness.

Description of drawings

Utilize accompanying drawing that utility model is described further; But the embodiment in the accompanying drawing does not constitute any restriction to the utility model; For those of ordinary skill in the art, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to following accompanying drawing.

Fig. 1 is the structural representation that the utility model a kind of has the gas-tight silo that automatic row's neglected loading puts.

Fig. 2 is the structural representation that the utility model a kind of has the duty one of the gas-tight silo that automatic row's neglected loading puts.

Fig. 3 is the structural representation that the utility model a kind of has the duty two of the gas-tight silo that automatic row's neglected loading puts.

Fig. 4 is the structural representation that the utility model a kind of has the duty three of the gas-tight silo that automatic row's neglected loading puts.

Fig. 5 is the structural representation that the utility model a kind of has the duty four of the gas-tight silo that automatic row's neglected loading puts.

In Fig. 1, Fig. 2, Fig. 3, Fig. 4 and Fig. 5, include:

1---air inlet pipe,

2---check valve,

3---gas-tight silo body, 31---air inlet, 32---leakage fluid dram,

4---liquid sensor,

5---control circuit,

6---discharging tube,

7---magnetic valve,

8---liquid.

The specific embodiment

In conjunction with following examples the utility model is further described.

Embodiment 1

The utility model a kind of has one of specific embodiment of the gas-tight silo that automatic row's neglected loading puts; As shown in Figure 1, include gas-tight silo body 3, above-mentioned technical characterictic is identical with the structure of gas-tight silo of the prior art; Because gas-tight silo of the prior art does not have and automatic row's neglected loading is set puts; So in the time of in liquid infiltrates gas-tight silo, can't carry out liquid row leakage, thereby influence the transaction capabilities of gas-tight silo and the interior workpiece of gas-tight silo etc.

The improvements of the utility model are: this has gas-tight silo that automatic row's neglected loading puts and also includes automatic row's neglected loading and put, and arranges neglected loading automatically and puts and include liquid sensor 4, control circuit 5, air inlet pipe 1, check valve 2, discharging tube 6 and magnetic valve 7; Liquid sensor 4 is arranged in the gas-tight silo body 3 and with control circuit 5 and is electrically connected; Air inlet pipe 1 is connected with the air inlet 31 that gas-tight silo body 3 is provided with, and check valve 2 is arranged at air inlet pipe 1; Discharging tube 6 is connected with the leakage fluid dram 32 that gas-tight silo body 3 is provided with, and magnetic valve 7 is arranged at discharging tube 6 and is electrically connected with control circuit 5.Air inlet pipe 1 is for being used for the pipeline to gas-tight silo body 3 supplied with compressed air.

The utility model is set up automatic row's neglected loading and is put on the basis of the gas-tight silo of prior art, in the time of in liquid sensor 4 has detected liquid 8 infiltration gas-tight silo bodies 3, the liquid 8 that the compressed air that feeds through air inlet 31 will infiltrate is discharged voluntarily.Have simple in structure, reusable, and anti-liquid 8 seepage good effectiveness.

Operation principle: to shown in Figure 5, infeed compressed air to gas-tight silo body 3 through air inlet pipe 1 like Fig. 1.When liquid sensor 4 nothings have detected infiltration liquid 8; Control circuit 5 control magnetic valves 7 are in closed condition, at this moment, owing to feed compressed air in the gas-tight silo body 3; So pressure and compressed-air actuated pressure in the gas-tight silo body 3 are consistent, and then reduce to infiltrate the possibility of liquid 8.When liquid 8 infiltrates in the gas-tight silo body 3; Liquid 8 can be immersed into liquid sensor 4; Liquid sensor 4 sends to control circuit 5 with detection signal, and therefore control circuit 5 can detect liquid 8 and infiltrate gas-tight silo body 3, when control circuit 5 detects the phenomenon that infiltration liquid 8 is arranged; Can open by control magnetic valve 7, let liquid 8 flow out.When liquid 8 flowed out, the pressure in the gas-tight silo body 3 reduced, and compressed air can get in the gas-tight silo body 3 through air inlet pipe 1 and check valve 2 supplies, in order to replenish the pressure in the gas-tight silo body 3, so that liquid Final 8 system is discharged outside the gas-tight silo body 3.After liquid 8 was discharged fully, control circuit 5 was kept magnetic valve 7 and is opened a period of time, let the compressed air of supply that liquid sensor 4 is dried up.After liquid sensor 4 was dried up, control circuit 5 control magnetic valves 7 cut out, thereby accomplished row's leakage process automatically.

Concrete, liquid sensor 4 is arranged at the bottom in the gas-tight silo body 3.Be convenient to infiltrating the detection of liquid 8.

Concrete, air inlet 31 is arranged at the top of gas-tight silo body 3, and leakage fluid dram 32 is arranged at the bottom of gas-tight silo body 3.Rationally be provided with according to gas-liquid density, increase work efficiency.

Concrete, air inlet 31 and leakage fluid dram 32 are on the same diagonal of gas-tight silo body 3.Be convenient to the smooth and easy of discharge opeing.

Concrete, air inlet pipe 1 stretches in the gas-tight silo body 3.Make the compressed air that gets into through air inlet pipe 1 can directly act on liquid 8, avoid gas to move upward.

Concrete, air inlet pipe 1 and air inlet 31 vertical settings.Air inlet is effective.

Concrete, discharging tube 6 and leakage fluid dram 32 vertical settings.Discharge opeing is effective.

Embodiment 2

The utility model a kind of have the gas-tight silo that automatic row's neglected loading puts the specific embodiment two; As shown in Figure 1, the main technical schemes of present embodiment is identical with embodiment 1, in the present embodiment unaccounted characteristic; Adopt the explanation among the embodiment 1, no longer give unnecessary details at this.The difference of present embodiment and embodiment 1 is: liquid sensor 4 is arranged in the gas-tight silo body 3 bottom under relative with air inlet 31.Be convenient to after liquid 8 is discharged gas-tight silo body 3 fully, control circuit 5 is kept magnetic valve 7 and is opened a period of time, lets the compressed air of supply directly act on liquid sensor 4, and it is dried up as early as possible.

Embodiment 3

The utility model a kind of have the gas-tight silo that automatic row's neglected loading puts the specific embodiment three; As shown in Figure 1, the main technical schemes of present embodiment is identical with embodiment 1, in the present embodiment unaccounted characteristic; Adopt the explanation among the embodiment 1, no longer give unnecessary details at this.The difference of present embodiment and embodiment 1 is: liquid sensor 4 is for being provided with two liquid sensor 4.These liquid sensor of two, 4 distributed and arranged are in gas-tight silo body 3.In addition, according to the size of gas-tight silo body 3, this liquid sensor 4 can also be set to other quantity.

Should be noted that at last; Above embodiment is only in order to explain the technical scheme of the utility model; But not to the restriction of the utility model protection domain, although with reference to preferred embodiment the utility model has been done explanation at length, those of ordinary skill in the art is to be understood that; Can make amendment or be equal to replacement the technical scheme of the utility model, and not break away from the essence and the scope of the utility model technical scheme.

Claims (9)

1. one kind has the gas-tight silo that automatic row's neglected loading is put, and includes the gas-tight silo body, it is characterized in that: also include automatic row's neglected loading and put, said automatic row's neglected loading is put and is included liquid sensor, control circuit, air inlet pipe, check valve, discharging tube and magnetic valve; Said liquid sensor is arranged in the said gas-tight silo body and with said control circuit and is electrically connected; Said air inlet pipe is connected with the air inlet of said gas-tight silo body setting, and said check valve is arranged at said air inlet pipe; Said discharging tube is connected with the leakage fluid dram of said gas-tight silo body setting, and said magnetic valve is arranged at said discharging tube and is electrically connected with said control circuit.

2. a kind of gas-tight silo that automatic row's neglected loading is put that has according to claim 1, it is characterized in that: said liquid sensor is arranged at the intrinsic bottom of said gas-tight silo.

3. a kind of gas-tight silo that automatic row's neglected loading is put that has according to claim 2 is characterized in that: said liquid sensor is arranged at the bottom under relative with said air inlet in the said gas-tight silo body.

4. a kind of gas-tight silo that automatic row's neglected loading is put that has according to claim 1, it is characterized in that: said liquid sensor is to be provided with two liquid sensor.

5. a kind of gas-tight silo that automatic row's neglected loading is put that has according to claim 1, it is characterized in that: said air inlet is arranged at the top of said gas-tight silo body, and said leakage fluid dram is arranged at the bottom of said gas-tight silo body.

6. a kind of gas-tight silo that automatic row's neglected loading is put that has according to claim 5, it is characterized in that: said air inlet and said leakage fluid dram are on the same diagonal of said gas-tight silo body.

7. a kind of gas-tight silo that automatic row's neglected loading is put that has according to claim 1, it is characterized in that: said air inlet pipe stretches in the said gas-tight silo body.

8. a kind of gas-tight silo that automatic row's neglected loading is put that has according to claim 1, it is characterized in that: said air inlet pipe is provided with said air inlet is vertical.

9. a kind of gas-tight silo that automatic row's neglected loading is put that has according to claim 1, it is characterized in that: said discharging tube is provided with said leakage fluid dram is vertical.

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