CN103705120A - Pipeline machine - Google Patents

Abstract

The invention discloses a pipeline machine. The top or the upper portion of a water heater is communicated with a hot water faucet, and the bottom or the lower portion of the water heater is communicated with the inner bottom of a constant-pressure water storage box; the bottom of a water-steam separator is communicated with the top of the water heater through an overflow pipe, a gas phase cavity in the upper portion of the water-steam separator is communicated with a gas phase cavity in the upper portion of a water seal device, and condensate water in the water-steam separator can only flow into the water seal device when overflowing; a gas outlet of a gas inlet pipe extends into the water seal device, and a gas inlet of the gas inlet pipe is communicated with the atmosphere; the gas phase cavity in the upper portion of the water seal device is communicated with a gas phase cavity in the upper portion of a water return device, and overflowing water can only flow into the water return device; the bottom of the water return device is communicated with the inner bottom portion or the lower portion of the water heater from the lower portion through a water return pipe, and the gas phase cavity in the upper portion of the water return device is communicated with a gas phase cavity in the upper portion of the constant-pressure water storage box; the inlet of a one-way valve is communicated with the gas phase cavity in the upper portion of the constant-pressure water storage box or the gas phase cavity in the upper portion of the water return device or the gas phase cavity in the upper portion of the water seal device or the gas phase cavity in the upper portion of the water-steam separator, and the outlet of the one-way valve is communicated with the atmosphere. The pipeline machine can effectively solve the problem that bacteria of cold water or constant-temperature water output by the pipeline machine excess the standard.

Description

Pipeline machine

Technical field

The present invention relates to a kind of pipeline machine.

Background technology

Pipeline machine has another name called pipe-line drinker, is generally used for family, office etc.For inside, be provided with the pipeline machine of normal pressure storage tank, because storage tank is communicated with atmosphere, when user fetches water from pipeline machine, outside air will enter in storage tank, obviously, and outside air is difficult to guarantee containing bacterium, that is to say that bacterium can enter in storage tank, to pollute the water in storage tank.The normal-temperature water of pipeline machine or the import of cold water faucet are to be communicated with normal pressure storage tank, when user opens this tap water intaking, water in normal pressure storage tank just directly flows to depotition cock, or after refrigerating plant, flows to depotition cock again, and refrigerating plant without any sterilizing function.Therefore, for this pipeline machine, even if enter the drinking water of pipeline machine, can guarantee bacterium qualified, when the normal-temperature water flowing out or cold water water outlet but can not guarantee bacterium qualified from pipeline machine.

Summary of the invention

The object of this invention is to provide a kind of pipeline machine, the water in storage tank can not be subject to airborne germ contamination.

The technical scheme that realizes the object of the invention is: pipeline machine, comprises hot-water heating system, normal pressure storage tank, air inlet pipe, check valve, liquid packing, steam trap, water recovery apparatus, overflow pipe, hot water effluent's tap and return pipe; The top of described hot-water heating system or top are provided with the delivery port that is communicated with hot water effluent's tap; The bottom of described hot-water heating system or bottom are provided with pipeline connection to the inner bottom part of normal pressure storage tank; The bottom of described steam trap is communicated with the top of hot-water heating system by overflow pipe; The gas phase chamber on described steam trap top is communicated with the gas phase chamber on liquid packing top, and the condensed water in steam trap can only flow into liquid packing while overflowing; The gas outlet of described air inlet pipe is stretched in liquid packing, and the air inlet of air inlet pipe is communicated with atmosphere; The gas phase chamber on described liquid packing top is communicated with the gas phase chamber on water recovery apparatus top, and the spilling water of liquid packing can only flow into water recovery apparatus; The bottom of described water recovery apparatus is communicated to inner bottom part or the bottom of hot-water heating system from below by return pipe, the gas phase chamber on water recovery apparatus top is communicated with the gas phase chamber on normal pressure storage tank top; The import of described check valve is communicated with the upper gaseous phase chamber of normal pressure storage tank or water recovery apparatus or liquid packing or steam trap, and its outlet is communicated with atmosphere.

Preferred technical scheme: described liquid packing, steam trap and water recovery apparatus are replaced by multifunctional air and water shunt replacing; Described multifunctional air and water current divider comprises body, upper cover and air inlet pipe; Described body and upper cover sealed attachment; In described body, be provided with steam disengagement chamber, water seal cavity and backwater cavity, the upper gaseous phase in each chamber is communicated with and is communicated with the gas phase chamber on normal pressure storage tank top, and separate the bottom in each chamber; The bottom of described steam disengagement chamber is communicated with the top of hot-water heating system by overflow pipe; Condensed water in described steam disengagement chamber can only flow into water seal cavity while overflowing, and the overflow water of water seal cavity can only flow into backwater cavity; The gas outlet of described air inlet pipe is stretched in water seal cavity, and the air inlet of air inlet pipe is communicated with atmosphere; The bottom of described backwater cavity is communicated to inner bottom part or the bottom of hot-water heating system from below by return duct; The import of described check valve is communicated with the gas phase chamber on normal pressure storage tank top or is communicated with the gas phase chamber on multifunctional air and water current divider top, and the outlet of check valve is communicated with atmosphere.

More excellent technical scheme: described normal pressure storage tank and multifunctional air and water current divider are replaced by storage water tank; Described storage water tank comprises tank body, upper cover and air inlet pipe; Described tank body and upper cover sealed attachment; In tank body, be provided with water storage cavity, steam disengagement chamber, water seal cavity and backwater cavity, the upper gaseous phase in each chamber is communicated with, and separate the bottom in each chamber; The bottom of described steam disengagement chamber is communicated with the top of hot-water heating system through overflow pipe; Condensed water in described steam disengagement chamber can only flow into water seal cavity while overflowing, and the overflow water of water seal cavity can only flow into backwater cavity; The gas outlet of described air inlet pipe is stretched in water seal cavity, and the air inlet of air inlet pipe is communicated with atmosphere; The bottom of described backwater cavity is communicated to bottom or the bottom of hot-water heating system from below by return duct; The import of described check valve is communicated with the gas phase chamber of Multifunctional water storage upper box part, and its outlet is communicated with atmosphere.

The air inlet place of described air inlet pipe is provided with filter and/or sterilizer.

Filtering material in described filter adopts fiber filtering.

Sterilization material in described sterilizer adopts iodine resin.

Described filter comprises filter body, strainer cover, fiber filtering and sealing ring; Described filter body is tightly connected by the upper cover of sealing ring and liquid packing or multifunctional air and water current divider or storage water tank; Described strainer cover and filter body are fixedly connected; Described fiber filtering is arranged in filter body; Described strainer cover is provided with at least one spiracle; Described air inlet pipe is communicated with the bottom of filter body.

Described check valve comprises air admission hole, film, steam vent and limited post; Described air admission hole is communicated with the upper gaseous phase chamber of normal pressure storage tank or water recovery apparatus or liquid packing or steam trap or multifunctional air and water current divider or storage water tank; Described film is arranged on air admission hole top; Described steam vent is communicated with filter or sterilizer; The displacement of described limited post restriction film in the vertical direction.

Pipeline machine, also comprises normal-temperature water depotition cock or cold water depotition cock; The import of described normal-temperature water depotition cock or cold water depotition cock is communicated with the water storage cavity of normal pressure storage tank or storage water tank.

Pipeline machine, also comprises water refrigerating plant; The import of described water refrigerating plant is communicated with the water storage cavity of normal pressure storage tank or storage water tank, and the outlet of water refrigerating plant is communicated with normal-temperature water depotition cock or cold water depotition cock.

More excellent technical scheme: described water recovery apparatus and liquid packing are replaced by water seal water recovery apparatus; The gas outlet of described air inlet pipe is stretched in water seal water recovery apparatus, and the water inlet of return pipe also stretches in water seal water recovery apparatus, and the water inlet of return pipe is higher than the gas outlet of air inlet pipe; The gas phase chamber of described water seal water recovery apparatus internal upper part is communicated with the gas phase chamber on normal pressure storage tank top.

More excellent technical scheme: described water seal cavity and backwater cavity are replaced by water seal backwater cavity; The gas outlet of described air inlet pipe is stretched in water seal backwater cavity, and the water inlet of return pipe also stretches in water seal backwater cavity, and the water inlet of return pipe is higher than the gas outlet of air inlet pipe; The gas phase chamber of described water seal backwater cavity internal upper part is communicated with the gas phase chamber on normal pressure storage tank or water storage cavity top.

Adopted technique scheme, the present invention has following beneficial effect: (1) the present invention fills into the gas phase zone of normal pressure storage tank again after air being cleaned by the water in liquid packing, in liquid packing, germy water flows to hot-water heating system successively after water recovery apparatus and return duct, and eliminate bacterium wherein by hot-water heating system high temperature, cold water or the normal-temperature water that therefore can effectively solve pipeline machine go out the problem that water bacteria exceeds standard; The present invention is simultaneously simple in structure, and cost is low, easy to utilize.

(2) the air inlet place of air inlet pipe of the present invention is provided with filter and/or sterilizer, can make airborne bacterium further be removed or purify.

Accompanying drawing explanation

For content of the present invention is more easily expressly understood, according to specific embodiment also by reference to the accompanying drawings, the present invention is further detailed explanation, wherein below

Fig. 1 is the structural representation of embodiments of the invention 2.

Fig. 2 is the structural representation of embodiments of the invention 3.

Fig. 3 is the structural representation of embodiments of the invention 4.

Fig. 4 is the structural representation of embodiments of the invention 5.

Fig. 5 is the A place enlarged drawing of Fig. 4.

Fig. 6 is the structural representation of embodiments of the invention 6.

Fig. 7 is the B place enlarged drawing of Fig. 6.

Label in accompanying drawing is:

Hot-water heating system 1, normal pressure storage tank 2, air inlet pipe 4, check valve 5, air admission hole 5-1, film 5-2, steam vent 5-3, limited post 5-4, multifunctional air and water current divider 6, steam disengagement chamber 6-1, water seal cavity 6-2, backwater cavity 6-3, filter 7, filter body 7-1, strainer cover 7-2, fiber filtering 7-3, sealing ring 7-4, spiracle 7-5, overflow pipe 8, hot water effluent's tap 9, return pipe 10, normal-temperature water depotition cock 11, cold water depotition cock 12, water refrigerating plant 13.

The specific embodiment

(embodiment 1)

The pipeline machine of the present embodiment, comprises hot-water heating system 1, normal pressure storage tank 2, air inlet pipe 4, check valve 5, liquid packing, steam trap, water recovery apparatus, overflow pipe 8, hot water effluent's tap 9 and return pipe 10.

The top of hot-water heating system 1 or top are provided with the delivery port that is communicated with hot water effluent's tap 9.The bottom of hot-water heating system 1 or bottom are provided with pipeline connection to the inner bottom part of normal pressure storage tank 2.The bottom of steam trap is communicated with the top of hot-water heating system 1 by overflow pipe 8.The gas phase chamber on steam trap top is communicated with the gas phase chamber on liquid packing top, and the condensed water in steam trap can only flow into liquid packing while overflowing.The gas outlet of air inlet pipe 4 is stretched in liquid packing, and the air inlet of air inlet pipe 4 is communicated with atmosphere.The gas phase chamber on liquid packing top is communicated with the gas phase chamber on water recovery apparatus top, and the spilling water of liquid packing can only flow into water recovery apparatus.The bottom of water recovery apparatus is communicated to inner bottom part or the bottom of hot-water heating system 1 from below by return pipe 10, the gas phase chamber on water recovery apparatus top is communicated with the gas phase chamber on normal pressure storage tank 2 tops.The import of check valve 5 is communicated with the upper gaseous phase chamber of normal pressure storage tank 2 or water recovery apparatus or liquid packing or steam trap, and its outlet is communicated with atmosphere.

During product operation, hot-water heating system 1 energising, heating water wherein, the expansion water and steam producing in heating process will flow into cooling or condensation in steam trap by overflow pipe 8; When the water level in steam trap rises to the limit, will overflow and flow in liquid packing; When the water level in liquid packing rises to the limit, will overflow and flow in water recovery apparatus, at this moment in liquid packing, the gas outlet of air inlet pipe 4 be immersed in water; When user takes hot water, flow of hot water in hot-water heating system 1 is to hot water depotition cock 9, simultaneously, water in normal pressure storage tank 2 supplements to hot-water heating system 1, so there is certain negative pressure in the upper gaseous phase section of normal pressure storage tank 2, so extraneous air flows to bottom or the bottom of liquid packing through air inlet pipe 4, then through the water in liquid packing, flow to again the gas phase zone on its top, and continue to flow to the gas phase zone on normal pressure storage tank 2 tops; User takes the water of how many volumes away, just in normal pressure storage tank 2, supplements how many air; The air filling into due to the gas phase zone to normal pressure storage tank 2 is through the water in liquid packing, it to be cleaned, and airborne bacterium is removed or purifies, so can guarantee that the water in normal pressure storage tank 2 is not subject to airborne germ contamination; And germy water can flow to water recovery apparatus in liquid packing, then through return duct 10, flow to hot-water heating system 1 from the bottom of water recovery apparatus; Because the temperature in hot-water heating system 1 is very high, even if the water of inflow may contain bacterium, also can in high temperature, die, high-temperature sterilization.

(embodiment 2)

See Fig. 1, the present embodiment is substantially the same manner as Example 1, and difference is: also comprise normal-temperature water depotition cock 11.The import of normal-temperature water depotition cock 11 is communicated with normal pressure storage tank 2.

Liquid packing, steam trap and water recovery apparatus are replaced by multifunctional air and water current divider 6.Multifunctional air and water current divider 6 comprises body, upper cover and air inlet pipe.Body and upper cover sealed attachment.In body, be provided with steam disengagement chamber 6-1, water seal cavity 6-2 and backwater cavity 6-3, the upper gaseous phase in each chamber is communicated with and is communicated with the gas phase chamber on normal pressure storage tank 2 tops, and separate the bottom in each chamber.The bottom of steam disengagement chamber 6-1 is communicated with the top of hot-water heating system 1 by overflow pipe 8.Condensed water in steam disengagement chamber 6-1 can only flow into water seal cavity 6-2 while overflowing, and the overflow water of water seal cavity 6-2 can only flow into backwater cavity 6-3.The gas outlet of air inlet pipe 4 is stretched in water seal cavity 6-2, and the air inlet of air inlet pipe 4 is communicated with atmosphere.The bottom of backwater cavity 6-3 is communicated to inner bottom part or the bottom of hot-water heating system 1 from below by return duct 10.The import of check valve 5 is communicated with the gas phase chamber on normal pressure storage tank 2 tops or is communicated with the gas phase chamber on multifunctional air and water current divider 6 tops, and the outlet of check valve 5 is communicated with atmosphere.

(embodiment 3)

See Fig. 2, the present embodiment is substantially the same manner as Example 2, and difference is: normal pressure storage tank 2 and multifunctional air and water current divider 6 are replaced by storage water tank.Storage water tank comprises tank body, upper cover and air inlet pipe.Tank body and upper cover sealed attachment.In tank body, be provided with water storage cavity 3, steam disengagement chamber 6-1, water seal cavity 6-2 and backwater cavity 6-3, the upper gaseous phase in each chamber is communicated with, and separate the bottom in each chamber.The bottom of steam disengagement chamber 6-1 is communicated with the top of hot-water heating system 1 through overflow pipe 8.Condensed water in steam disengagement chamber 6-1 can only flow into water seal cavity 6-2 while overflowing, and the overflow water of water seal cavity 6-2 can only flow into backwater cavity 6-3.The gas outlet of air inlet pipe 4 is stretched in water seal cavity 6-2, and the air inlet of air inlet pipe 4 is communicated with atmosphere.The bottom of backwater cavity 6-3 is communicated to bottom or the bottom of hot-water heating system 1 from below by return duct 10.The import of check valve 5 is communicated with the gas phase chamber of Multifunctional water storage upper box part, and its outlet is communicated with atmosphere.

The import of normal-temperature water depotition cock 11 is communicated with the water storage cavity of storage water tank 3.

(embodiment 4)

See Fig. 3, the present embodiment is substantially the same manner as Example 3, and difference is: also comprise water refrigerating plant 13.Normal-temperature water depotition cock 11 is replaced by cold water depotition cock 12.The import of water refrigerating plant 13 is communicated with the water storage cavity 3 of storage water tank, and the outlet of water refrigerating plant 13 is communicated with cold water depotition cock 12.The present embodiment does not arrange.

(embodiment 5)

See Fig. 4, the present embodiment is substantially the same manner as Example 3, and difference is: the air inlet place of air inlet pipe 4 is provided with filter 7 and/or sterilizer.Filtering material in filter 7 adopts fiber filtering.Sterilization material in sterilizer adopts iodine resin.

In the present embodiment, extraneous air is processed through filter 7 and/or sterilizer, then through air inlet pipe 4, flows to bottom or the bottom of the water seal cavity 6-2 of storage water tank.Because the air that the gas phase zone of the water storage cavity 3 to storage water tank fills into is first processed through filter 7 and/or sterilizer, through the water in the water seal cavity 6-2 of storage water tank, it is cleaned, therefore airborne bacterium can further be removed or be purified again.

See Fig. 5, the filter 7 of the present embodiment comprises filter body 7-1, strainer cover 7-2, fiber filtering 7-3 and sealing ring 7-4.Filter body 7-1 is tightly connected by the upper cover of sealing ring 7-4 and liquid packing or multifunctional air and water current divider 6 or storage water tank.Strainer cover 7-2 and filter body 7-1 are fixedly connected.Fiber filtering 7-3 is arranged in filter body 7-1.Strainer cover 7-2 is provided with at least one spiracle 7-5.Air inlet pipe 4 is communicated with the bottom of filter body 7-1.

Check valve 5 comprises air admission hole 5-1, film 5-2, steam vent 5-3 and limited post 5-4.Air admission hole 5-1 is communicated with the upper gaseous phase chamber of normal pressure storage tank 2 or water recovery apparatus or liquid packing or steam trap or multifunctional air and water current divider 6 or storage water tank.Film 5-2 is arranged on air admission hole 5-1 top.Steam vent 5-3 is communicated with filter 7 or sterilizer.The displacement of limited post 5-4 restriction film 5-2 in the vertical direction.

Because film 5-2 can both produce a small amount of displacement with vertical direction in the horizontal direction, so during the oriented mobile trend of gas in storage water tank, film 5-2 will produce small moving up, can not seal its below steam vent 5-3, now check valve 5 in opening; During trend that the gas in storage water tank does not make progress mobile, steam vent below film 5-2 sticks downwards under Action of Gravity Field, now check valve 5 in closed condition, can prevent that outside air from freely entering storage water tank, thereby effectively prevent that the water in storage water tank from being polluted.

(embodiment 6)

See Fig. 6 and Fig. 7, the present embodiment is substantially the same manner as Example 5, and difference is: water seal cavity 6-2 and backwater cavity 6-3 are replaced by water seal backwater cavity 6-4.The gas outlet of air inlet pipe 4 is stretched in water seal backwater cavity 6-4, and the water inlet of return pipe 10 also stretches in water seal backwater cavity 6-4, and the water inlet of return pipe 10 is higher than the gas outlet of air inlet pipe 4.The gas phase chamber of water seal backwater cavity 6-4 internal upper part is communicated with the gas phase chamber on water storage cavity 3 tops.

Certainly, the present embodiment can be also substantially the same manner as Example 2, and difference is: water seal cavity 6-2 and backwater cavity 6-3 are replaced by water seal backwater cavity 6-4.The gas outlet of air inlet pipe 4 is stretched in water seal backwater cavity 6-4, and the water inlet of return pipe 10 also stretches in water seal backwater cavity 6-4, and the water inlet of return pipe 10 is higher than the gas outlet of air inlet pipe 4.The gas phase chamber of water seal backwater cavity 6-4 internal upper part is communicated with the gas phase chamber on normal pressure storage tank 2 tops.

Certainly, the present embodiment can also be substantially the same manner as Example 1, and difference is: water recovery apparatus and liquid packing are replaced by water seal water recovery apparatus.The gas outlet of air inlet pipe 4 is stretched in water seal water recovery apparatus, and the water inlet of return pipe 10 also stretches in water seal water recovery apparatus, and the water inlet of return pipe 10 is higher than the gas outlet of air inlet pipe 4.The gas phase chamber of water seal water recovery apparatus internal upper part is communicated with the gas phase chamber on normal pressure storage tank 2 tops.

Above-described specific embodiment; object of the present invention, technical scheme and beneficial effect are further described; institute is understood that; the foregoing is only specific embodiments of the invention; be not limited to the present invention; within the spirit and principles in the present invention all, any modification of making, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.

Claims (12)

1. pipeline machine, is characterized in that: comprise hot-water heating system (1), normal pressure storage tank (2), air inlet pipe (4), check valve (5), liquid packing, steam trap, water recovery apparatus, overflow pipe (8), hot water effluent's tap (9) and return pipe (10); The top of described hot-water heating system (1) or top are provided with the delivery port that is communicated with hot water effluent's tap (9); The bottom of described hot-water heating system (1) or bottom are provided with pipeline connection to the inner bottom part of normal pressure storage tank (2); The bottom of described steam trap is communicated with the top of hot-water heating system (1) by overflow pipe (8); The gas phase chamber on described steam trap top is communicated with the gas phase chamber on liquid packing top, and the condensed water in steam trap can only flow into liquid packing while overflowing; The gas outlet of described air inlet pipe (4) is stretched in liquid packing, and the air inlet of air inlet pipe (4) is communicated with atmosphere; The gas phase chamber on described liquid packing top is communicated with the gas phase chamber on water recovery apparatus top, and the spilling water of liquid packing can only flow into water recovery apparatus; The bottom of described water recovery apparatus is communicated to inner bottom part or the bottom of hot-water heating system (1) from below by return pipe (10), the gas phase chamber on water recovery apparatus top is communicated with the gas phase chamber on normal pressure storage tank (2) top; The import of described check valve (5) is communicated with the upper gaseous phase chamber of normal pressure storage tank (2) or water recovery apparatus or liquid packing or steam trap, and its outlet is communicated with atmosphere.

2. pipeline machine according to claim 1, is characterized in that: described liquid packing, steam trap and water recovery apparatus are replaced by multifunctional air and water current divider (6); Described multifunctional air and water current divider (6) comprises body, upper cover and air inlet pipe; Described body and upper cover sealed attachment; In described body, be provided with steam disengagement chamber (6-1), water seal cavity (6-2) and backwater cavity (6-3), the upper gaseous phase in each chamber is communicated with and is communicated with the gas phase chamber on normal pressure storage tank (2) top, and separate the bottom in each chamber; The bottom of described steam disengagement chamber (6-1) is communicated with the top of hot-water heating system (1) by overflow pipe (8); Condensed water in described steam disengagement chamber (6-1) can only flow into water seal cavity (6-2) while overflowing, and the overflow water of water seal cavity (6-2) can only flow into backwater cavity (6-3); The gas outlet of described air inlet pipe (4) is stretched in water seal cavity (6-2), and the air inlet of air inlet pipe (4) is communicated with atmosphere; The bottom of described backwater cavity (6-3) is communicated to inner bottom part or the bottom of hot-water heating system (1) from below by return duct (10); The import of described check valve (5) is communicated with the gas phase chamber on normal pressure storage tank (2) top or is communicated with the gas phase chamber on multifunctional air and water current divider (6) top, and the outlet of check valve (5) is communicated with atmosphere.

3. pipeline machine according to claim 2, is characterized in that: described normal pressure storage tank (2) and multifunctional air and water current divider (6) are replaced by storage water tank; Described storage water tank comprises tank body, upper cover and air inlet pipe; Described tank body and upper cover sealed attachment; In tank body, be provided with water storage cavity (3), steam disengagement chamber (6-1), water seal cavity (6-2) and backwater cavity (6-3), the upper gaseous phase in each chamber is communicated with, and separate the bottom in each chamber; The bottom of described steam disengagement chamber (6-1) is communicated with the top of hot-water heating system (1) through overflow pipe (8); Condensed water in described steam disengagement chamber (6-1) can only flow into water seal cavity (6-2) while overflowing, and the overflow water of water seal cavity (6-2) can only flow into backwater cavity (6-3); The gas outlet of described air inlet pipe (4) is stretched in water seal cavity (6-2), and the air inlet of air inlet pipe (4) is communicated with atmosphere; The bottom of described backwater cavity (6-3) is communicated to bottom or the bottom of hot-water heating system (1) from below by return duct (10); The import of described check valve (5) is communicated with the gas phase chamber of Multifunctional water storage upper box part, and its outlet is communicated with atmosphere.

4. according to the pipeline machine one of claims 1 to 3 Suo Shu, it is characterized in that: the air inlet place of described air inlet pipe (4) is provided with filter (7) and/or sterilizer.

5. pipeline machine according to claim 4, is characterized in that: the filtering material in described filter (7) adopts fiber filtering.

6. pipeline machine according to claim 4, is characterized in that: the sterilization material in described sterilizer adopts iodine resin.

7. pipeline machine according to claim 4, is characterized in that: described filter (7) comprises filter body (7-1), strainer cover (7-2), fiber filtering (7-3) and sealing ring (7-4); Described filter body (7-1) is tightly connected by sealing ring (7-4) and the upper cover of liquid packing or multifunctional air and water current divider (6) or storage water tank; Described strainer cover (7-2) is fixedly connected with filter body (7-1); Described fiber filtering (7-3) is arranged in filter body (7-1); Described strainer cover (7-2) is provided with at least one spiracle (7-5); Described air inlet pipe (4) is communicated with the bottom of filter body (7-1).

8. pipeline machine according to claim 7, is characterized in that: described check valve (5) comprises air admission hole (5-1), film (5-2), steam vent (5-3) and limited post (5-4); Described air admission hole (5-1) is communicated with the upper gaseous phase chamber of normal pressure storage tank (2) or water recovery apparatus or liquid packing or steam trap or multifunctional air and water current divider (6) or storage water tank; Described film (5-2) is arranged on air admission hole (5-1) top; Described steam vent (5-3) is communicated with filter (7) or sterilizer; The displacement of described limited post (5-4) restriction film (5-2) in the vertical direction.

9. according to the pipeline machine one of claims 1 to 3 Suo Shu, it is characterized in that: also comprise normal-temperature water depotition cock (11) or cold water depotition cock (12); The import of described normal-temperature water depotition cock (11) or cold water depotition cock (12) is communicated with the water storage cavity (3) of normal pressure storage tank (2) or storage water tank.

10. pipeline machine according to claim 9, is characterized in that: also comprise water refrigerating plant (13); The import of described water refrigerating plant (13) is communicated with the water storage cavity (3) of normal pressure storage tank (2) or storage water tank, and the outlet of water refrigerating plant (13) is communicated with normal-temperature water depotition cock (11) or cold water depotition cock (12).

11. pipeline machines according to claim 1, is characterized in that: described water recovery apparatus and liquid packing are replaced by water seal water recovery apparatus; The gas outlet of described air inlet pipe (4) is stretched in water seal water recovery apparatus, and the water inlet of return pipe (10) also stretches in water seal water recovery apparatus, and the water inlet of return pipe (10) is higher than the gas outlet of air inlet pipe (4); The gas phase chamber of described water seal water recovery apparatus internal upper part is communicated with the gas phase chamber on normal pressure storage tank (2) top.

12. according to the pipeline machine described in claim 2 or 3, it is characterized in that: described water seal cavity (6-2) and backwater cavity (6-3) are replaced by water seal backwater cavity (6-4); The gas outlet of described air inlet pipe (4) is stretched in water seal backwater cavity (6-4), and the water inlet of return pipe (10) also stretches in water seal backwater cavity (6-4), and the water inlet of return pipe (10) is higher than the gas outlet of air inlet pipe (4); The gas phase chamber of described water seal backwater cavity (6-4) internal upper part is communicated with the gas phase chamber on normal pressure storage tank (2) or water storage cavity (3) top.

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