CN218465804U

CN218465804U - Soft methane reaction device

Info

Publication number: CN218465804U
Application number: CN202221898452.2U
Authority: CN
Inventors: 魏志峰
Original assignee: Shenzhen Lingjie Network Technology Co ltd
Current assignee: Shenzhen Lingjie Network Technology Co ltd
Priority date: 2022-07-22
Filing date: 2022-07-22
Publication date: 2023-02-10
Anticipated expiration: 2032-07-22

Abstract

The utility model discloses a software marsh gas reaction unit, reaction bag including the software structure, the inside hollow structure that is of reaction bag, reaction bag one side is equipped with feed inlet and bin outlet, the feed inlet is equipped with the inlet pipe, the bin outlet is located reaction bag lower extreme, just the bin outlet is equipped with ejection of compact subassembly, the reaction bag upper end is equipped with gas outlet and pressurization subassembly, the pressurization subassembly can extrude the reaction bag, the gas outlet passes through the pipeline and is connected with catch water, just catch water is connected with desulphurization unit. The utility model provides a soft body marsh gas reaction device, which adopts a reaction bag with small soft body, and can satisfy the existing fermentation reaction of a small amount of domestic garbage, thereby producing marsh gas for people to use.

Description

Soft methane reaction device

Technical Field

The utility model relates to a marsh gas reaction unit technical field especially relates to a software marsh gas reaction unit.

Background

With the increasing attention paid to environmental protection, some clean energy sources and renewable energy sources are also continuously paid attention by people, such as wind power generation, photovoltaic power generation, methane power generation and the like, wherein the wind power generation and the photovoltaic power generation are easily affected by regions and weather, so that the power generation effect is poor, and the methane power generation can not be affected by regions and weather, so that large-scale methane reaction tanks are arranged in rural areas and other areas to ferment some domestic garbage, animal wastes, plants and the like, so as to generate methane for utilization.

The existing methane tank is mainly built by bricks and concrete, occupies a large ground, is suitable for fermenting a large amount of domestic garbage, animal excrement, plants and the like together, cannot be carried or transferred, and is only suitable for being used in rural areas and other areas.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a soft body marsh gas reaction device, which adopts a small-sized soft reaction bag, can satisfy the existing fermentation reaction of a small amount of domestic garbage, thereby producing marsh gas for people to use.

The utility model discloses a technical scheme that a software marsh gas reaction unit adopted is:

the utility model provides a software marsh gas reaction unit, includes the reaction bag of software structure, the inside hollow structure that is of reaction bag, reaction bag one side is equipped with feed inlet and bin outlet, the feed inlet is equipped with the inlet pipe, the bin outlet is located reaction bag lower extreme, just the bin outlet is equipped with ejection of compact subassembly, reaction bag upper end is equipped with gas outlet and pressure components, the pressure components can extrude the reaction bag, the gas outlet passes through the pipeline and is connected with catch water, just catch water is connected with desulphurization unit.

As the preferred scheme, inlet pipe one end is for leaking hopper-shaped, still includes the apron, apron and inlet pipe one end interference fit, just the apron is close to inlet pipe one end and is equipped with the catch bar, the catch bar extends to in the inlet pipe, the apron is kept away from inlet pipe one end and is equipped with the handle.

As preferred scheme, the inlet pipe both sides all are equipped with the location rope, location rope one end and reaction bag fixed connection, the other end with reaction bag fixed connection is kept away from to the inlet pipe, the location rope is used for pulling fixed inlet pipe.

As a preferred scheme, ejection of compact subassembly includes material pipe and drain pipe, material pipe and bin outlet intercommunication, the drain pipe sets up in material pipe top, just drain pipe and material pipe intercommunication, the drain pipe one end is kept away from to the material pipe is equipped with first valve, the drain pipe is kept away from material pipe one end and is equipped with the second valve.

As preferred scheme, the drain pipe is located the inlet pipe below, just be equipped with transparent material's liquid level detection pipe between drain pipe and the inlet pipe, liquid level detection pipe one end and drain pipe intercommunication, just the liquid level detection pipe other end is separated with the inlet pipe.

As a preferred scheme, the surface of the liquid level detection pipe is provided with a pressure relief hole, the pressure relief hole is positioned above the second valve, and the pressure relief hole is communicated with the liquid level detection pipe.

As preferred scheme, the reaction bag top is equipped with the rope fastening, the pressure components includes a plurality of balancing weight, balancing weight both ends and rope fastening can dismantle and be connected.

The utility model discloses a software marsh gas reaction unit's beneficial effect is: when the device is used, the household garbage and the zymophyte are added into the reaction bag through the feeding pipe, the household garbage and the zymophyte carry out biological reaction in the reaction bag, so that gas such as methane, hydrogen sulfide, carbon dioxide and the like is generated, the reaction bag can expand when the gas such as the methane, the hydrogen sulfide, the carbon dioxide and the like is generated, the pressurizing assembly is arranged above the reaction bag, pressure is applied to the reaction bag through the pressurizing assembly, so that the gas in the reaction bag is discharged from the gas outlet in an extruding mode, the gas outlet is connected with the steam-water separator through a pipeline, the discharged gas is subjected to water-vapor separation, the gas is dried, the dried gas is introduced into the desulfurization device, the hydrogen sulfide in the gas is filtered, finally the gas passing through the desulfurization device is communicated with methane equipment such as a methane furnace, a methane lamp and the like, the methane in the gas can be utilized, and residues which cannot be fermented and decomposed are left after the household garbage in the reaction bag is reacted for a period of time, the residues which can be discharged through the opening at the lower end of the reaction bag and the discharge assembly, so that the inner part of the reaction bag is in an empty state, and the next reaction bag can be conveniently treated. Through the structure, the reaction and gas storage of the methane are arranged in the same reaction bag, so that the reaction device of the methane can be more convenient and smaller compared with the traditional structure, the existing small amount of domestic garbage can be subjected to fermentation reaction, and the methane is generated for people to use.

Drawings

Fig. 1 is a schematic structural diagram of the soft methane reaction device of the utility model.

FIG. 2 is a schematic view of the reaction bag structure of the soft methane reaction device of the present invention.

Fig. 3 is a schematic structural diagram of a discharging component of the soft methane reaction device of the utility model.

Fig. 4 is a schematic diagram of the cover plate structure of the soft methane reaction device of the present invention.

Detailed Description

The invention will be further elucidated and described with reference to a specific embodiment and a drawing of the description, in which:

referring to fig. 1 and 2, a soft biogas reaction apparatus includes a reaction bag 10 having a soft structure, the reaction bag 10 has a hollow structure, a feed inlet 101 and a discharge outlet 102 are disposed on one side of the reaction bag 10, the feed inlet 101 is provided with a feed pipe 11, the discharge outlet 102 is disposed at the lower end of the reaction bag 10, the discharge outlet is provided with a discharge component 12, the upper end of the reaction bag 10 is provided with a gas outlet 103 and a pressurizing component 13, the pressurizing component 13 can extrude the reaction bag 10, the gas outlet 103 is connected to a steam-water separator 15 through a pipeline 14, and the steam-water separator 15 is connected to a desulfurization device 16.

When the domestic garbage fermentation device is used, domestic garbage and zymophyte are added into the reaction bag 10 through the feeding pipe 11, the domestic garbage and the zymophyte carry out biological reaction in the reaction bag 10, so that gas such as methane, hydrogen sulfide, carbon dioxide and the like is generated, when the gas such as the methane, the hydrogen sulfide, the carbon dioxide and the like is generated, the reaction bag 10 is expanded, the pressurizing assembly 13 is arranged above the reaction bag 10, the pressurizing assembly 13 applies pressure to the reaction bag 10, so that the gas in the reaction bag 10 is discharged from the gas outlet 103 in a squeezing mode, the gas outlet 103 is connected with the steam-water separator 15 through the pipeline 14, the discharged gas is subjected to steam-water separation, the gas is dried, the dried gas is introduced into the desulfurizing device 16, the hydrogen sulfide in the gas is filtered, finally the gas passing through the desulfurizing device 16 is communicated with methane equipment such as a methane furnace, a methane lamp and the like, so that the methane in the gas can be utilized, and after the domestic garbage in the reaction bag 10 is reacted for a period of time, residues which can be discharged from the reaction bag 10 in a reaction bag 12, so that the domestic garbage can be conveniently discharged and the domestic garbage under the fermentation process.

Through the structure, the reaction and gas storage of the methane are arranged in the same reaction bag 10, so that the reaction device of the methane is more convenient and smaller than the traditional structure, the existing small amount of domestic garbage can be fermented and reacted, and the methane is generated for people to use.

Referring to fig. 3 and 4, one end of the feeding tube 11 is funnel-shaped, and further includes a cover plate 111, the cover plate 111 is in interference fit with one end of the feeding tube 11, a push rod 112 is disposed on one end of the cover plate 111 close to the feeding tube 11, the push rod 112 extends into the feeding tube 11, and a handle 113 is disposed on one end of the cover plate 111 away from the feeding tube 11.

When one end of the feeding pipe 11 is set to be funnel-shaped, mainly, in order to bring convenience to people to throw household garbage into the feeding pipe 11, the cover plate 111 is correspondingly matched with the end of the feeding pipe 11, the push rod 112 is arranged at one end, close to the end of the feeding pipe 11, of the cover plate 111, people can push the household garbage into the feeding pipe 11 by holding the handle 113, and further push the household garbage in the feeding pipe 11 into the reaction bag 10, so that the purpose of throwing the household garbage is achieved, meanwhile, when the household garbage in the reaction bag 10 reacts, the push rod 112 can be inserted into the feeding pipe 11, the cover plate 111 and the feeding pipe 11 are in interference fit, the purpose of sealing is achieved, and the generated gas is prevented from being discharged from the discharging pipe.

Inlet pipe 11 both sides all are equipped with location rope 114, location rope 114 one end and reaction bag 10 fixed connection, reaction bag 10 fixed connection is kept away from with inlet pipe 11 to the other end, location rope 114 is used for pulling fixed inlet pipe 11, location rope 114 through both sides can play the effect of dragging to the both sides of inlet pipe 11, thereby ensure that inlet pipe 11 both sides atress is balanced, play balanced purpose, avoid inlet pipe 11 to take place the condition of skew, influence subsequent feeding.

Referring to fig. 3, discharging assembly 12 includes a material pipe 121 and a liquid outlet pipe 122, material pipe 121 is communicated with the discharge opening, liquid outlet pipe 122 is disposed above material pipe 121, and liquid outlet pipe 122 is communicated with material pipe 121, a first valve 123 is disposed at one end of material pipe 121 far from liquid outlet pipe 122, and a second valve 124 is disposed at one end of liquid outlet pipe 122 far from material pipe 121.

The first valve 123 and the second valve 124 can be used for opening or closing the material pipe 121 and the liquid outlet pipe 122 respectively, the material pipe 121 is positioned below the liquid outlet pipe 122 and is mainly used for discharging waste materials precipitated at the bottom of the reaction bag 10, the liquid outlet pipe 122 is mainly used for discharging liquid generated after reaction, when only the liquid needs to be discharged, only the second valve 124 can be opened, so that the liquid is under the action of the internal pressure of the reaction bag 10 and is discharged from the liquid outlet pipe 122, and when the reaction bag 10 is used for biochemical garbage fermentation, the first valve 123 and the second valve 124 can be closed to achieve the purpose of sealing.

The liquid outlet pipe 122 is located below the feeding pipe 11, a liquid level detection pipe 125 made of transparent material is arranged between the liquid outlet pipe 122 and the feeding pipe 11, one end of the liquid level detection pipe 125 is communicated with the liquid outlet pipe 122, and the other end of the liquid level detection pipe 125 is separated from the feeding pipe 11. Because the reaction bag 10 is in a sealed state when reacting, and gas is generated during the reaction, the pressure inside the reaction bag 10 is increased, so that the liquid in the liquid inlet pipe rises, and the liquid level detection pipe 125 is positioned above the liquid inlet pipe and is made of transparent material, so that people can observe the rising height of the liquid in the liquid inlet pipe from the outside, and judge whether the second valve 124 needs to be opened for pressure relief and the like. Meanwhile, the liquid level detection tube 125 is located between the liquid outlet tube 122 and the feeding tube 11, and the other end of the liquid level detection tube 125 is separated from the feeding tube 11, so that the liquid level detection tube 125 and the feeding tube 11 are not communicated, and the lower end of the feeding tube 11 can be supported.

And still can be with drain pipe 122 towards material pipe 121 one side to when drain pipe 122 is receiving the waste liquid, can not receive the restriction of below material pipe 121, can place the collection of container or external pipeline and carry out the waste liquid.

Pressure relief hole 126 has been seted up on liquid level detection pipe 125 surface, and pressure relief hole 126 is located second valve 124 top, and pressure relief hole 126 and liquid level detection pipe 125 intercommunication can promote liquid and flow out from pressure relief hole 126 when reaction bag 10 internal pressure is too big to play the purpose of preliminary pressure relief.

Reaction bag 10 top is equipped with the knot 104, and pressure components 13 includes a plurality of balancing weight, and the balancing weight both ends can be dismantled with knot 104 and be connected to can be according to the reaction condition of reality and the quantity of required air output adjustment balancing weight, cause different extrusion degree to reaction bag 10, thereby play the purpose of control.

The utility model provides a software marsh gas reaction unit, when using, in adding domestic waste and fermentation tubes into the reaction bag through the inlet pipe, make domestic waste and fermentation tubes carry out biological reaction in the reaction bag, thereby produce methane, gas such as hydrogen sulfide and carbon dioxide, because methane, when gas such as hydrogen sulfide and carbon dioxide produced, the expanded condition can take place for the reaction bag, and the reaction bag top is equipped with the pressure components, exert pressure to the reaction bag through the pressure components, thereby pass through extruded mode with the gas in the reaction bag, discharge in the gas outlet, and the gas outlet passes through the pipeline and is connected with catch water, the gas separation of gas carries out steam-water separation, carry out drying process to gas, and gas after the drying lets in the desulphurization unit again, hydrogen sulfide in the gas filters, at last will pass through desulphurization unit's gas and marsh gas equipment, for example, marsh gas stove, marsh gas lamp etc. communicate, make methane in the gas can be utilized, and after the domestic waste in the reaction bag of a period of reaction bag, can's residue that the fermentation can't carry out, accessible reaction bag lower extreme discharge assembly discharge state, make the empty of the domestic waste carry out the fermentation and handle. Through the structure, the reaction and gas storage of the methane are arranged in the same reaction bag, so that the reaction device of the methane can be more convenient and smaller compared with the traditional structure, the existing small amount of domestic garbage can be subjected to fermentation reaction, and the methane is generated for people to use.

It should be finally noted that the above embodiments are only used to illustrate the technical solutions of the present invention, but not to limit the scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced equivalently without departing from the spirit and scope of the technical solutions of the present invention.

Claims

1. The utility model provides a software marsh gas reaction unit, its characterized in that, reaction bag including the software structure, the inside hollow structure that is of reaction bag, reaction bag one side is equipped with feed inlet and bin outlet, the feed inlet is equipped with the inlet pipe, the bin outlet is located the reaction bag lower extreme, just the bin outlet is equipped with ejection of compact subassembly, the reaction bag upper end is equipped with gas outlet and pressurization subassembly, the pressurization subassembly can extrude the reaction bag, the gas outlet passes through the pipeline and is connected with catch water, just catch water is connected with desulphurization unit.

2. The soft body biogas reaction device of claim 1, wherein one end of the feeding pipe is funnel-shaped, further comprising a cover plate, the cover plate is in interference fit with one end of the feeding pipe, a push rod is arranged at one end of the cover plate close to the feeding pipe, the push rod extends into the feeding pipe, and a handle is arranged at one end of the cover plate far away from the feeding pipe.

3. The soft marsh gas reaction device of claim 2, wherein the feed pipe is provided with positioning ropes on both sides, one end of the positioning rope is fixedly connected with the reaction bag, the other end of the positioning rope is fixedly connected with the feed pipe far away from the reaction bag, and the positioning ropes are used for pulling and fixing the feed pipe.

4. The soft methane reaction device according to claim 1, wherein the discharge assembly comprises a material pipe and a liquid outlet pipe, the material pipe is communicated with the discharge port, the liquid outlet pipe is arranged above the material pipe and is communicated with the material pipe, a first valve is arranged at one end of the material pipe, which is far away from the liquid outlet pipe, and a second valve is arranged at one end of the liquid outlet pipe, which is far away from the material pipe.

5. The soft body biogas reaction device of claim 4, wherein the liquid outlet pipe is located below the feeding pipe, and a liquid level detection pipe made of transparent material is arranged between the liquid outlet pipe and the feeding pipe, one end of the liquid level detection pipe is communicated with the liquid outlet pipe, and the other end of the liquid level detection pipe is separated from the feeding pipe.

6. The soft biogas reaction device as recited in claim 5, wherein the liquid level detection pipe has a pressure relief hole on its surface, the pressure relief hole is located above the second valve, and the pressure relief hole is communicated with the liquid level detection pipe.

7. The soft marsh gas reaction device of claim 1, wherein a rope buckle is provided above the reaction bag, the pressurizing assembly comprises a plurality of balancing weights, and two ends of the balancing weights are detachably connected with the rope buckle.