CN209602183U - A kind of oxygen-enriched molten gas pond - Google Patents

Abstract

The utility model discloses a kind of oxygen-enriched molten gas ponds, belong to technical field of sewage.It includes molten gas Chi Benti, the water inlet pipe being connected with molten gas pond bodies top and the oxygen-enriching mechanism being connected with this body sidewall of molten gas pond.The utility model mainly passes through the oxygen in aerator when into underwater in the ontology of molten gas pond, utilize multiple connecting rods on molten gas pond body interior partition, multiple fixed columns, two Rotational Cylindricals, screw rod, movable block, two traction ropes, mutual cooperation between two lock nuts and multiple permeable holes, the size in barrier shape gap is formed by change multiple connecting rods and multiple fixed columns, make water and oxygen by the size in the barrier shape gap in variation to carry out unified cutting to the bubble in water, the bubble for forming oxygen in water becomes unified, then it is stirred using rabbling mechanism, then come into full contact with contact of the oxygen with water, improve the dissolved efficiency of oxygen in water, finally improve the clean effect in molten gas pond.

Description

A kind of oxygen-enriched molten gas pond

Technical field

The utility model relates to a kind of oxygen-enriched molten gas ponds, belong to technical field of sewage.

Background technique

In sewage treatment, according to double-film theory and Henry's law, the effect of the size of oxygen bubble size to water remediation Fruit has critically important influence, and the size of bubble is smaller more advantageous to the effect of water remediation.Under natural conditions, only in water body Natural dissolved oxygen be the removal that cannot achieve black smelly magazine, oxygenation measure need to be taken just can guarantee deodorization except raw meat.Oxygenation is usually adopted It is realized with the mode of aeration, guarantees to reach suitable dissolved oxygen amount when being unevenly distributed above and below river embankment river anoxic or dissolved oxygen.

Currently, existing oxygenation way mainly uses aerator to realize, but aerator squeezes into oxygen in water, oxygen State in water be it is not of uniform size, i.e., bubble varies, thus contact of the oxygen with water be it is insufficient, then make oxygen The dissolved efficiency of gas in water reduces, and finally reduces the clean effect in molten gas pond.

Summary of the invention

Technical problem to be solved by the utility model is to provide a kind of oxygen-enriched molten gas ponds, it solves existing oxygenation Machine squeezes into oxygen in water, the state of oxygen in water be it is not of uniform size, i.e., bubble varies, therefore oxygen and water connect Touching be it is insufficient, then reduce oxygen dissolved efficiency in water, the problem of finally making the clean effect in molten gas pond reduces.

Technical problem to be solved in the utility model takes following technical scheme to realize:

A kind of oxygen-enriched molten gas pond, including molten gas Chi Benti, the water inlet pipe being connected with molten gas pond bodies top and with molten gas The oxygen-enriching mechanism that this body sidewall of pond is connected, it is characterised in that: the molten gas pond is set inside the body partition, and the partition will Molten gas pond ontology is divided into gas-liquid mixed area and stirring area, and multiple permeable holes are equidistantly equipped on the partition, each described The both ends in water hole have been respectively fixedly connected with fixed column, and common rotation is connected with connecting rod between every two adjacent fixed column, multiple At barrier shape, one end of the partition is fixedly connected with screw rod for the connecting rod assembly, divides in the two opposite side walls of the partition It is not rotatably connected to Rotational Cylindrical, connecting rod described in two of them is fixed in Rotational Cylindrical jointly, is also rotated in two Rotational Cylindricals It is connected with traction rope, one end of two traction ropes is fixedly connected with movable block jointly, and the movable block is socketed in screw rod On, the fixed mechanism of fixed movable block is also threaded on the screw rod respectively, the inside of the stirring area is additionally provided with stirring Mechanism.

As preferred embodiment, the oxygen-enriching mechanism includes aerator, pipeline, valve and pressure gauge, and the one of the aerator End is connected by pipeline with molten gas pond ontology, and is located at the top of partition, and the valve and pressure gauge are sequentially arranged at pipeline On.

Using the above scheme, the oxygen that aerator can be made to generate enters in the ontology of molten gas pond by pipeline, and through over-voltage Power table judge the output pressure of oxygen, to carry out the oxygen in regulation pipeline by valve at any time.

As preferred embodiment, each pore size of the barrier shape is respectively less than the aperture of permeable hole.

It using the above scheme, can be with unified big after each pore size cutting that fence of the oxygen in varied is formed Small oxygen enters in stirring area by permeable hole.

As preferred embodiment, the fixed mechanism includes two lock nuts, and two lock nuts are located at movement The both ends of block.

Using the above scheme, it can use the relative position of two lock nuts and movable block, to limit movable block in spiral shell Movement on bar.

As preferred embodiment, the rabbling mechanism includes agitating shaft and the stirring blade that is fixed on agitating shaft, described molten The bottom of gas pond ontology is additionally provided with the motor for driving agitating shaft.

Using the above scheme, it can star motor, drive agitating shaft rotation, drive the rotation of stirring blade, stirring blade While rotation, further by water oxygen and water adequately mixed, final realization oxygen and water sufficiently connect Touching, improves the dissolved efficiency of oxygen in water, finally improves the clean effect in molten gas pond.

The beneficial effects of the utility model are: the utility model, which mainly passes through the oxygen in aerator, is entering molten gas pond sheet When underwater in body, multiple connecting rods on molten gas pond body interior partition, multiple fixed columns, two Rotational Cylindricals, screw rod, movements are utilized Mutual cooperation between block, two traction ropes, two lock nuts and multiple permeable holes, to change multiple connecting rods and multiple fixations Column is formed by the size in barrier shape gap, makes water and oxygen by the size in the barrier shape gap in variation come in water Bubble carries out unified cutting, and the bubble for forming oxygen in water is become unified, is then stirred using rabbling mechanism, then Contact of the oxygen with water is come into full contact with, the dissolved efficiency of oxygen in water is improved, finally improves the decontamination effect in molten gas pond Fruit.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the structural schematic diagram of part A in Fig. 1；

Fig. 3 is the position view of permeable hole in the utility model on partition, fixed column, connecting rod and Rotational Cylindrical.

In figure: molten gas pond ontology 1, partition 3, gas-liquid mixed area 4, stirring area 5, permeable hole 6, fixed column 7, connects water inlet pipe 2 Bar 8, screw rod 9, Rotational Cylindrical 10, traction rope 11, movable block 12, aerator 13, motor 14, pressure gauge 15, lock nut 16, stirring Axis 17, stirring blade 18.

Specific embodiment

In order to which the technical means, creative features, achievable purpose and effectiveness to the utility model are easy to understand, tie below Conjunction is specifically illustrating, and the utility model is further described.

As shown in Figure 1-3, a kind of oxygen-enriched molten gas pond, including molten gas pond ontology 1, be connected at the top of molten gas pond ontology 1 Water inlet pipe 2 and the oxygen-enriching mechanism being connected with 1 side wall of molten gas pond ontology, the inside of molten gas pond ontology 1 are equipped with partition 3, and partition 3 will Molten gas pond ontology 1 is divided into gas-liquid mixed area 4 and stirring area 5, is equidistantly equipped with multiple permeable holes 6, each permeable hole on partition 3 6 both ends have been respectively fixedly connected with fixed column 7, and common rotation is connected with connecting rod 8 between every two adjacent fixed column 7, multiple Connecting rod 8 is combined into barrier shape, and one end of partition 3 is fixedly connected with screw rod 9, and rotation connects respectively in the two opposite side walls of partition 3 It is connected to Rotational Cylindrical 10, two of them connecting rod 8 is fixed on jointly in Rotational Cylindrical 10, is also rotatably connected to traction in two Rotational Cylindricals 10 Rope 11, one end of two traction ropes 11 is fixedly connected with movable block 12 jointly, and movable block 12 is socketed on screw rod 9, on screw rod 9 It is also threaded with the fixed mechanism of fixed movable block 12 respectively, the inside of stirring area 5 is additionally provided with rabbling mechanism.

Oxygen-enriching mechanism includes aerator 13, pipeline, valve and pressure gauge 15, and one end of aerator 13 passes through pipeline and molten gas Pond ontology 1 is connected, and is located at the top of partition 3, and valve and pressure gauge 15 are sequentially arranged on pipeline.

Each pore size of barrier shape is respectively less than the aperture of permeable hole 6.

Fixed mechanism includes two lock nuts 16, and two lock nuts 16 are located at the both ends of movable block 12.

Rabbling mechanism includes agitating shaft 17 and the stirring blade 18 that is fixed on agitating shaft 17, the bottom of molten gas pond ontology 1 It is additionally provided with the motor 14 for driving agitating shaft 17.

The bottom of molten gas pond ontology 1 is additionally provided with the drainpipe for 1 internal water of molten gas pond ontology to be discharged, and drainpipe is located at The side of motor 14 also is provided with valve on drainpipe, opens valve, and ontology 1 internal water in molten gas pond sends molten gas pond through drainpipe The outside of ontology 1.

Working principle: when in use, the valve being first turned on water inlet pipe, water enters molten gas pond ontology 1 by water inlet pipe In, then start aerator 13, and open valve, when the oxygen of generation enters underwater in molten gas pond ontology 1 by pipeline, utilizes Multiple connecting rods 8 on 1 internal partition 3 of molten gas pond ontology, 7, two Rotational Cylindricals 10 of multiple fixed columns, screw rod 9, movable block 12, two Mutual cooperation of a traction rope 11, two between lock nut 16 and multiple permeable holes 6, to change multiple connecting rods 8 and multiple solid Fixed column 7 is formed by the size in barrier shape gap, makes water and oxygen by the size in the barrier shape gap in variation come to water In bubble carry out unified cutting, the bubble for forming oxygen in water is become unified, is then stirred using rabbling mechanism, Then it comes into full contact with contact of the oxygen with water, improves the dissolved efficiency of oxygen in water, finally improve going for molten gas pond Dirty effect.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described above.Current row The technical staff of industry it should be appreciated that the present utility model is not limited to the above embodiments, do not depart from the spirit of the present invention and Under the premise of range, the utility model also has various changes and improvements, these changes and improvements both fall within claimed Within the scope of utility model.The protection scope of the present invention is defined by the appended claims and their equivalents.

Claims (5)

1. a kind of oxygen-enriched molten gas pond, including molten gas Chi Benti, the water inlet pipe being connected with molten gas pond bodies top and with molten gas pond The oxygen-enriching mechanism that this body sidewall is connected, which is characterized in that the molten gas pond is set inside the body partition, and the partition will be molten Gas pond ontology is divided into gas-liquid mixed area and stirring area, and multiple permeable holes are equidistantly equipped on the partition, each described permeable The both ends in hole have been respectively fixedly connected with fixed column, and common rotation is connected with connecting rod, Duo Gesuo between every two adjacent fixed column Connecting rod assembly is stated into barrier shape, one end of the partition is fixedly connected with screw rod, distinguishes in the two opposite side walls of the partition It is rotatably connected to Rotational Cylindrical, connecting rod described in two of them is fixed in Rotational Cylindrical jointly, and also rotation connects in two Rotational Cylindricals It is connected to traction rope, one end of two traction ropes is fixedly connected with movable block jointly, and the movable block is socketed on screw rod, The fixed mechanism of fixed movable block is also threaded on the screw rod respectively, the inside of the stirring area is additionally provided with blender Structure.

2. the oxygen-enriched molten gas pond of one kind according to claim 1, it is characterised in that: the oxygen-enriching mechanism includes aerator, pipe One end of road, valve and pressure gauge, the aerator is connected by pipeline with molten gas pond ontology, and is located at the top of partition, The valve and pressure gauge are sequentially arranged on pipeline.

3. the oxygen-enriched molten gas pond of one kind according to claim 1, it is characterised in that: each gap of the barrier shape is big The small aperture for being respectively less than permeable hole.

4. the oxygen-enriched molten gas pond of one kind according to claim 1, it is characterised in that: the fixed mechanism includes two locking screws Cap, and two lock nuts are located at the both ends of movable block.

5. the oxygen-enriched molten gas pond of one kind according to claim 1, it is characterised in that: the rabbling mechanism includes agitating shaft and consolidates The bottom of the stirring blade being scheduled on agitating shaft, the molten gas pond ontology is additionally provided with the motor for driving agitating shaft.