CN204610078U - Nano synergistic processor - Google Patents

Abstract

The utility model discloses a nanometer increase treater, it contains outer tube, water conservancy diversion nest of tubes, magnetization component, first connecting seat and second connecting seat. The outer tube has a first opening, a second opening and a magnetization space. The first opening and the second opening are communicated with the magnetization space and are respectively positioned at the first end and the second end of the outer tube. The guide pipe group is arranged in the magnetization space and comprises a pipe body, a guide structure and an elastic piece. The flow guide structure surrounds the pipe body and is provided with a groove. The elastic piece is arranged in the groove and connected with the inner wall of the outer pipe. The magnetizing element is arranged in the accommodating space of the tube body. The first connecting seat is fixed at the first end. The first connecting seat is provided with an oil inlet which is communicated with the first opening and the magnetization space. The oil inlet is smaller than the first opening. The second connecting seat is fixed at the second end. The second connecting seat comprises an oil outlet and is communicated with the second opening and the magnetization space. The oil outlet is smaller than the second opening. The utility model discloses but magnetic fuel makes the fuel molecule fine activation, and then can promote the combustion efficiency of fuel, and fuel-efficient subtracts carbon.

Description

Nano-synergistic processor

Technical field

The utility model relates to a kind of device for magnetizing and treating, and in particular to a kind of nano-synergistic processor.

Background technique

Along with environmental change is violent and the increase of use amount, the quantity of fuel oil reduces increasingly, therefore causes fuel price to rise violently, and thus makes many traffic tool using fuel oil as power raw material or burning machine be affected.

In addition, if burning is incomplete in the process of burning for fuel oil, then can increases the oil consumption of the traffic tool or burning machine itself, cause the utilization efficiency of fuel oil not good.On the other hand, the fuel oil of incomplete combustion can produce carbon distribution in the traffic tool or burning machine, and too much carbon distribution then can affect the running of the traffic tool or burning machine, even significantly shortens the life-span of the traffic tool or burning machine.Moreover, if be discharged in ambient air by the gas of incomplete combustion, then can cause environmental pollution.Therefore, how the utilization efficiency of promoting fuel combustion has become the relevant problem of dealer for actively solving at present.

Model utility content

Therefore, the purpose of this utility model is, provides a kind of nano-synergistic processor, the fuel such as its magnetisable fuel oil, and makes fuel molecule fine work, and then can promote the combustion efficiency of the fuel such as fuel oil, reduces carbon distribution and produces, reach the fuel-efficient object subtracting carbon.

According to above-mentioned purpose of the present utility model, a kind of nano-synergistic processor is proposed.This nano-synergistic processor comprises outer tube, honeycomb duct group, magnetized members, the first connecting base and the second connecting base.Outer tube has the first opening, the second opening and magnetization space.Wherein, the first opening and the second opening lay respectively at relative first end and second end of outer tube, and the first opening and the second open communication magnetize space.Honeycomb duct group is arranged in magnetization space, and honeycomb duct group comprises body, flow guide structure and elastic component.Body has containing space.Flow guide structure is around body, and the external side brim of flow guide structure has groove.Elastic component arranges in a groove and connects the inwall of outer tube.Magnetized members is arranged in containing space.First connecting base is fixed on first end, and the first connecting base has oiler.Oiler is communicated with the first opening and magnetization space, and the bore of oiler is less than the bore of the first opening.Second connecting base is fixed on the second end, and the second connecting base comprises oil outlet.Oil outlet is communicated with the second opening and magnetization space, and the bore of oil outlet is less than the bore of the second opening.

According to an embodiment of the present utility model, above-mentioned nano-synergistic processor also comprises the first ring seat and the second ring seat.First ring seat screw thread is arranged on first end, and the first connecting base screw thread is arranged on the first ring seat.Second ring seat screw thread is arranged on the second end, and the second connecting base screw thread is arranged on the second ring seat.

According to another embodiment of the present utility model, above-mentioned oiler is just to the first opening, and oil outlet is just to the second opening.

According to another embodiment of the present utility model, above-mentioned flow guide structure is helicoidal structure.

According to another embodiment of the present utility model, above-mentioned elastic component is rubber ring.

According to another embodiment of the present utility model, above-mentioned elastic component is connected to the inwall of outer tube by viscose glue.

According to another embodiment of the present utility model, the first above-mentioned connecting base has the first inward flange, and the second connecting base has the second inward flange, and the first inward flange covers a part for the first opening, and the second inward flange covers a part for the second opening.

From the above, the fuel oil flowed through in the magnetization space of outer tube is magnetized in the magnetic field that the utility model is produced by magnetized members.Whereby, when fuel oil can split into the fuel molecule of micron or nanosized grade behind magnetic field, these fuel molecules have the characteristic be easily combined with oxygen, therefore can promote the combustion efficiency of fuel oil, reduce carbon distribution and produce, and then reach fuel-efficient object.

On the other hand, the outer rim of the flow guide structure of honeycomb duct group of the present utility model is provided with elastic component, and therefore honeycomb duct group is firmly fixed on the inwall of outer tube by the elastic force of elastic component itself and frictional force, thus reaches the object of easy disassembly.On the other hand, by the elastic component between the inwall that is arranged on flow guide structure and outer tube, fuel oil can be avoided to flow through gap between flow guide structure and outer tube wall, and then guarantee that fuel oil flows along flow guide structure.

In addition, the first connecting base of the present utility model and the second connecting base are arranged on the two ends of outer tube respectively by the first ring seat and the second ring seat, therefore have the simple and easy-to-disassemble and assemble advantage of structure.In addition, by the design of the first inward flange of the first connecting base and the second inward flange of the second connecting base, the honeycomb duct group in outer tube can be stopped, and honeycomb duct group can be avoided to drop out outer tube because being subject to external force.

Accompanying drawing explanation

In order to more complete understanding embodiment and advantage thereof, referring now to carrying out following description by reference to the accompanying drawings, wherein:

Fig. 1 is the schematic perspective view of a kind of nano-synergistic processor according to a mode of execution of the present utility model;

Fig. 2 is the schematic internal view of a kind of nano-synergistic processor according to a mode of execution of the present utility model; And

Fig. 3 is the part A enlarged diagram of Fig. 2.

Embodiment

Please refer to Fig. 1 and Fig. 2, Fig. 1 and Fig. 2 is respectively schematic perspective view according to a kind of nano-synergistic processor of a mode of execution of the present utility model and schematic internal view.The nano-synergistic processor 100 of present embodiment can be mounted on the general traffic tool or other use on the products such as the burner of fuel oils or boiler.The nano-synergistic processor 100 mainly fuel that can be connected in the traffic tool, burner or boiler stores between groove and burner, and the fuel oil that fuel is stored in groove first after nano-synergistic processor 100 magnetizes, then can enter in burner.Fuel molecule can be decomposed to nano-scale by nano-synergistic processor 100, and then it is more thorough to make it burn, and reaches the object of saving fuel oil.

Continue referring to Fig. 1 and Fig. 2, the nano-synergistic processor 100 of present embodiment mainly comprises outer tube 110, honeycomb duct group 120, magnetized members 130, first connecting base 140 and the second connecting base 150.As shown in Figures 1 and 2, outer tube 110 has the first opening 110a, the second opening 110b and magnetization space 110c.First opening 110a and the second opening 110b lays respectively at relative first end 111 and second end 113 of outer tube 110, and the first opening 110a and the second opening 110b is communicated with magnetization space 110c.As shown in Figure 2, honeycomb duct group 120 is arranged in magnetization space 110c, and honeycomb duct group 120 comprises body 121, flow guide structure 123 and elastic component 125.Body 121 has containing space 121a, and containing space 121a is mainly used for holding magnetized members 130.In one embodiment, the two ends of body 121 are respectively equipped with end cap 122, and end cap 122 is mainly used for the containing space 121a of closed tube 121.That is, when magnetized members 130 is arranged in the containing space 121a of body 121, end cap 122 can be used to fixed magnetization element 130, and magnetized members 130 can be avoided to come off.Whereby, when magnetized members 130 changed by needs, only needing to open end cap 122 can directly substitute magnetized members 130.

Continue referring to Fig. 1 and Fig. 2, flow guide structure 123 is around body 121.In certain embodiments, the structure that is formed in one of flow guide structure 123 and body 121.In other embodiments, flow guide structure 123 is helicoidal structure.Shown in Fig. 2 and Fig. 3, wherein Fig. 3 is the part A enlarged diagram of Fig. 2.The external side brim of flow guide structure 123 has groove 123a.Groove 123a mainly can be used to accommodation and arranges elastic component 125.Whereby, when honeycomb duct group 120 is arranged on the magnetization space 110c of outer tube 110, honeycomb duct group 120 is resisted against the inwall of outer tube 110 by elastic component 125, and then is fixed in magnetization space 110c.That is, when honeycomb duct group 120 is arranged on magnetization space 110c, elastic component 125 is between the inwall of flow guide structure 123 and outer tube 110.Therefore, elastic component 125 is set in except the elastic force by itself except on flow guide structure 123, and the frictional force between the inwall of elastic component 125 and outer tube 110 also can make honeycomb duct group 120 securely be positioned to magnetize in the 110c of space.In some instances, elastic component 125 can be rubber ring.In other embodiments, before honeycomb duct group 120 being arranged on magnetization space 110c, viscose glue can be set on elastic component 125 surface, thus elastic component 125 bonding is arranged on the inwall of outer tube 110, and then lifting honeycomb duct group 120 is arranged on the steadiness in magnetization space 110c.

As shown in Figures 1 and 2, flow guide structure 123 is except can guiding fuel flow when fuel oil flows in magnetization space 110c, fuel oil also can be made to produce flow-disturbing motion, to increase the path length that fuel oil flows through in magnetization space 110c, and then increase the number of times of the magnetic field intercepts that fuel oil and magnetized members 130 produce, fuel oil can be magnetized fully.In addition, between the inwall due to flow guide structure 123 and outer tube 110, be provided with elastic component 125, and fuel oil can be avoided to flow through gap between flow guide structure 123 and outer tube wall by elastic component 125, therefore can guarantee that fuel oil flows along flow guide structure 123.

Please continue Fig. 1 and Fig. 2, the first connecting base 140 and the second connecting base 150 are arranged on first end 111 and second end 113 of outer tube 110 respectively by the first ring seat 160 and the second ring seat 170.As shown in Figure 2, the mode that the first ring seat 160 and the second ring seat 170 are threadably engaged, is sheathed on first end 111 and second end 113 of outer tube 110 respectively.In addition, the mode that the first connecting base 140 and the second connecting base 150 are threadably engaged equally is sheathed in the first ring seat 160 and the second ring seat 170 respectively.Whereby, the first connecting base 140 and the second connecting base 150 can firmly be combined with outer tube 110.

Continue referring to Fig. 2, the first connecting base 140 is incorporated into hydraulic fluid port 141.In the present embodiment, oiler 141 is for running through structure, and oiler 141 is communicated with the first opening 110a and the magnetization space 110c of outer tube 110.Second connecting base 150 comprises oil outlet 151.Oil outlet 151 is similarly and runs through structure, and oil outlet 151 is communicated with the second opening 110b and the magnetization space 110c of outer tube 110.Whereby, after fuel oil can flow through the first opening 110a by oiler 141 and enter magnetization space 110c, then flowed out from oil outlet 151 by the second opening 110b.In certain embodiments, oiler 141 is just to the first opening 110a, and oil outlet 151 is just to the second opening 110b.And the bore of oiler 141 is less than the bore of the first opening 110a, the bore of oil outlet 151 is less than the bore of the second opening 110b.Whereby, the honeycomb duct group 120 be arranged in magnetization space 110c can be avoided to drop out from oiler 141 or oil outlet 151 because being subject to external force.

In other embodiments, the periphery of oiler 141 can be provided with the first worm structure 141a, and the periphery of oil outlet 151 can be provided with the second worm structure 151a.Therefore, outside pipe joint directly can be threadedly engaged and be assembled in the first worm structure 141a and the second worm structure 151a, and nano-synergistic processor 100 can be made to reach the object be connected with exterior line.

As shown in Figure 2, in certain embodiments, the first connecting base 140 and the second connecting base 150 are respectively concave character type structure.First connecting base 140 has the first inward flange 140a, and the second connecting base 150 has the second inward flange 150a.When the first connecting base 140 and the second connecting base 150 are sheathed on first end 111 and second end 113 of outer tube 110 respectively, the first inward flange 140a covers a part of the first opening 110a, and the second inward flange 150a covers a part of the second opening 110b.Thus, the first inward flange 140a and the second inward flange 150a can be used to stop honeycomb duct group 120, drops out outer tube 110 from the first opening 110a or the second opening 110b to avoid honeycomb duct group 120.

From above-mentioned the utility model mode of execution, the fuel oil flowed through in the magnetization space of outer tube is magnetized in the magnetic field that the utility model is produced by magnetized members.Whereby, when fuel oil can split into the fuel molecule of micron or nanosized grade behind magnetic field, these fuel molecules have the characteristic be easily combined with oxygen, therefore can promote the combustion efficiency of fuel oil, reduce carbon distribution and produce, and then reach fuel-efficient object.

On the other hand, the outer rim of the flow guide structure of honeycomb duct group of the present utility model is provided with elastic component, and therefore honeycomb duct group is firmly fixed on the inwall of outer tube by the elastic force of elastic component itself and frictional force, reaches the object of easy disassembly whereby.On the other hand, by the elastic component between the inwall that is arranged on flow guide structure and outer tube, fuel oil can be avoided to flow through gap between flow guide structure and outer tube wall, and then guarantee that fuel oil flows along flow guide structure.

In addition, the first connecting base of the present utility model and the second connecting base are arranged on the two ends of outer tube respectively by the first ring seat and the second ring seat, therefore have the simple and easy-to-disassemble and assemble advantage of structure.In addition, by the design of the first inward flange of the first connecting base and the second inward flange of the second connecting base, the honeycomb duct group in outer tube can be stopped, and honeycomb duct group can be avoided to drop out outer tube because being subject to external force.

Although the utility model discloses as above with mode of execution; so itself and be not used to limit the utility model; any those skilled in the art; not departing from spirit and scope of the present utility model; when doing various variation and retouching, therefore protection domain of the present utility model is when being as the criterion depending on the claim person of defining.

Claims (7)

1. a nano-synergistic processor, is characterized in that, described nano-synergistic processor comprises:

Outer tube, it has the first opening, the second opening and magnetization space, and described first opening and described second opening lay respectively at relative first end and second end of described outer tube, and magnetize space described in described first opening and described second open communication;

Honeycomb duct group, it is arranged in described magnetization space, and described honeycomb duct group comprises;

Body, it has containing space;

Flow guide structure, it is around described body, and the external side brim of described flow guide structure has groove; And

Elastic component, it to be arranged in described groove and to connect the inwall of described outer tube;

Magnetized members, it is arranged in described containing space;

First connecting base, it is fixed on described first end, and described first connecting base has oiler, and described oiler is communicated with described first opening and described magnetization space, and the bore of described oiler is less than the bore of described first opening; And

Second connecting base, it is fixed on described second end, and described second connecting base comprises oil outlet, and described oil outlet is communicated with described second opening and described magnetization space, and the bore of described oil outlet is less than the bore of described second opening.

2. nano-synergistic processor as claimed in claim 1, it is characterized in that, described nano-synergistic processor also comprises:

First ring seat, its screw thread is arranged on described first end, and described first connecting base screw thread is arranged on described first ring seat; And

Second ring seat, its screw thread is arranged on described second end, and described second connecting base screw thread is arranged on described second ring seat.

3. nano-synergistic processor as claimed in claim 1, it is characterized in that, described oiler is just to described first opening, and described oil outlet is just to described second opening.

4. nano-synergistic processor as claimed in claim 1, it is characterized in that, described flow guide structure is helicoidal structure.

5. nano-synergistic processor as claimed in claim 1, it is characterized in that, described elastic component is rubber ring.

6. nano-synergistic processor as claimed in claim 1, it is characterized in that, described elastic component is connected to the described inwall of described outer tube by viscose glue.

7. nano-synergistic processor as claimed in claim 1, it is characterized in that, described first connecting base has the first inward flange, and described second connecting base has the second inward flange, and described first inward flange covers a part for the first opening, described second inward flange covers a part for the second opening.