CN111849720A - Method for manufacturing solar household methane tank in alpine region - Google Patents

Abstract

The invention discloses a method for manufacturing a solar household methane tank in alpine regions, which comprises a base, wherein a greenhouse frame is arranged above the base, the bottom of the greenhouse frame is connected with the base, the greenhouse frame is a half spherical frame, a light-transmitting film covers the greenhouse frame, a methane tank is also arranged on the base, the methane tank is positioned in the greenhouse frame, a light-transmitting frame is connected above the methane tank, a soft air bag is arranged on the light-transmitting frame, a first rotary drum and a second rotary drum are connected on the light-transmitting frame, a first heat-preserving roll is connected on the first rotary drum, a second heat-preserving roll is connected on the second rotary drum, a first rotating mechanism and a second rotating mechanism are also arranged on the light-transmitting frame, the other end of the first rotary drum is connected with the first rotating mechanism, the other end of the second rotary drum is connected with the second rotating mechanism, a feed pipe is arranged on the methane tank, a discharge pipe is also arranged, solves the problems that the existing household biogas generates less biogas in alpine regions and is even difficult to generate biogas.

Description

Method for manufacturing solar household methane tank in alpine region

Technical Field

The invention relates to a manufacturing method, in particular to a manufacturing method of a solar household methane tank in a severe cold area.

Background

Household biogas is few in quantity in alpine regions, and less biogas can be produced in winter. The main reason is that weather is cold in winter in alpine regions, the temperature is often below zero, domestic household biogas digesters are generally underground, heating facilities are not provided, the temperature of biogas slurry in the biogas digester is lower than 8 ℃, anaerobic microorganisms producing biogas are in a dormant state, and if no external heating source is provided, the temperature in the biogas digester cannot be maintained at more than 10 ℃ by heat preservation. The solar heat collector is generally used for utilizing solar energy, the heating medium is antifreeze solution, a heating coil pipe is arranged in the methane tank, and a circulating pump and a set of temperature control device are used for controlling circulation. The heating method is not popularized in alpine regions, and the main reason is that the investment cost and the operation cost of the heating method are high.

Disclosure of Invention

The invention aims to solve the technical problem that the existing household biogas generates less biogas in alpine regions and is even difficult to generate biogas, and aims to provide a method for manufacturing a solar household biogas digester in alpine regions, which solves the problem that the existing household biogas generates less biogas in alpine regions and is even difficult to generate biogas.

The invention is realized by the following technical scheme:

a method for manufacturing a solar household methane tank in alpine regions is characterized by comprising a base, wherein a greenhouse frame is arranged above the base, the bottom of the greenhouse frame is connected with the base, the greenhouse frame is a half spherical frame, a light-transmitting film covers the greenhouse frame, a methane tank is further arranged on the base, the methane tank is positioned inside the greenhouse frame, a light-transmitting frame is connected above the methane tank, a soft air bag is arranged on the light-transmitting frame, a first rotary drum and a second rotary drum are connected on the light-transmitting frame, a first heat-preserving roll is connected on the first rotary drum, a second heat-preserving roll is connected on the second rotary drum, a first rotating mechanism and a second rotating mechanism are further arranged on the light-transmitting frame, the other end of the first rotary drum is connected with the first rotating mechanism, the other end of the second rotary drum is connected with the second rotating mechanism, a feed pipe is arranged on the methane tank, a discharge pipe is further arranged on the, still be equipped with solar cell panel on the base, solar cell panel is located the greenhouse frame outside, still is equipped with the electric energy bin on the base, solar cell panel and electric energy bin electric connection.

The working principle of the invention is as follows: the number of the methane tanks arranged by a user in the alpine region is small, and the methane tanks can produce little methane even difficultly produce methane in winter, so that the arranged methane tanks are difficult to use in large quantities in the alpine region. The main reason that the methane tank is rarely used in the alpine region is that the weather in winter in the alpine region is cold, the temperature is often below zero, the household methane tank in China is generally underground, no heating and warming facilities are provided, the temperature of the methane liquid in the methane tank is lower than 8 ℃, anaerobic microorganisms producing methane are in a dormant state, and if no external heating source is provided, the temperature in the methane tank cannot be maintained above 10 ℃ only by heat preservation. The solar heat collector is generally used for utilizing solar energy, the heating medium is antifreeze solution, a heating coil pipe is arranged in the methane tank, and a circulating pump and a set of temperature control device are used for controlling circulation. The heating method is difficult to popularize in alpine regions, the main reason is that the investment cost of the heating method is high, the operation cost is also high, the existing method for manufacturing the solar household methane tank in the alpine regions is provided, a large flat ground is screened in the alpine regions, a base is arranged on the flat ground, a warm shed frame is connected onto the base, the bottom of the warm shed frame is connected with the upper end face of the base, the methane tank is arranged on the base, the methane tank is wrapped by the warm shed frame, so that the methane tank is positioned between the base and the warm shed frame, the warm shed frame is covered by a light-transmitting film, the warm shed frame is covered by the light-transmitting film, the methane tank is covered, the methane tank is conveniently irradiated with sunlight into the methane tank through the light-transmitting film, a large amount of methane liquid is placed in the methane tank, the methane liquid is input from a feed pipe, the fermented methane liquid is output through a discharge pipe, the biogas slurry is generally black or dark brown, the biogas slurry can easily absorb heat energy of solar radiation, so that the temperature in the biogas slurry is increased, the temperature in the biogas is increased to more than 10 ℃, so that anaerobic microorganisms can conveniently move, and a large amount of biogas can be conveniently generated, the transparent frame is provided with the soft air bag, when sunlight in alpine regions is dissipated, the temperature loss can be reduced through the warm shed frame, but the temperature outside the transparent frame begins to fall, the upper part of the biogas digester is wrapped through the soft air bag, so that the temperature loss from the upper part of the transparent frame of the biogas digester can be reduced, the transparent frame is also provided with the first rotary drum and the second rotary drum, when sunlight irradiates in alpine regions, the first rotary drum is driven to rotate through the first rotating mechanism, the first heat-preserving roll connected with the first rotary drum is packed up, the second rotary drum is driven to rotate through the second rotating mechanism, and the second heat-preserving roll connected with the second rotary drum, the first heat-preservation roll and the second heat-preservation roll are folded, so that sunlight passes through the light-transmitting frame and directly irradiates into the methane tank, the methane liquid fully absorbs the sunlight, the temperature of the methane liquid is further raised, when no sunlight irradiates in a high and cold area, the first rotating drum is driven to rotate reversely through the first rotating mechanism, the first heat-preservation roll connected with the first rotating drum is unfolded, the second rotating drum is driven to rotate reversely through the second rotating mechanism, the second heat-preservation roll connected with the second rotating drum is unfolded, the light-transmitting frame is covered by unfolding the first heat-preservation roll and the second heat-preservation roll, the temperature is further reduced from dissipating to the outside through the light-transmitting frame, the temperature in the methane tank is conveniently maintained, the activity of anaerobe in the methane liquid is conveniently maintained, the methane can be continuously generated, the methane can be continuously used in the high and cold area, the methane base is further provided with a solar cell panel, when the high and, through solar cell panel with the continuous electric energy that turns into of solar energy, keep through passing through the electric energy bin with the electric energy of conversion, when the temperature was not enough to support anaerobic microorganisms in the methane-generating pit activity, through the electric energy conversion heat energy with storing, the temperature in the methane-generating pit is maintained to the optimization, be convenient for lasting support anaerobic microorganisms produces marsh gas, and then make the methane-generating pit that alpine region set up be convenient for continuously use, the problem that present family uses marsh gas at alpine region production marsh gas less, even be difficult to produce marsh gas is solved.

Further, first rotation mechanism includes first motor, first axis of rotation, first motor is connected with the printing opacity frame, first motor one end is connected with first axis of rotation, the first axis of rotation other end is connected with first rotary drum, through the first motor that sets up on the printing opacity frame, first motor drives first axis of rotation rotatory, first axis of rotation drives first rotary drum rotatory, it is rotatory through first motor forward, drive first rotary drum and pack up first heat preservation book, through first motor reverse rotation, it expandes first heat preservation book to drive first rotary drum.

Further, the second slewing mechanism includes the second motor, the second axis of rotation, the second motor is connected with the printing opacity frame, second motor one end is connected with the second axis of rotation, the second axis of rotation other end is connected with the second rotary drum, through the second motor that sets up on the printing opacity frame, the second motor drives the second axis of rotation rotatory, the second axis of rotation drives the second rotary drum rotatory, it is rotatory through second motor forward, it packs up the second heat preservation book to drive the second rotary drum, through second motor reverse rotation, it expandes with the second heat preservation book to drive the second rotary drum.

Furthermore, a first heat preservation layer is arranged between the methane tank and the base, a second heat preservation layer is arranged on the outer side of the methane tank, and the first heat preservation layer and the second heat preservation layer are arranged to reduce the temperature loss from the bottom and the side of the methane tank, so that the temperature in the methane tank can be maintained conveniently.

Furthermore, be equipped with a plurality of fixation clamp on the printing opacity frame, be convenient for fix the printing opacity frame through the fixation clamp that sets up, when having avoided high and cold area to blow cold wind, lead to the printing opacity frame to warp, damage even.

Furthermore, a third heat-insulating layer is arranged on the outer sides of the feeding pipe and the discharging pipe, and the temperature in the feeding pipe and the discharging pipe can be kept conveniently through the arranged third heat-insulating layer, so that the loss of the temperature of the methane tank from the feeding pipe and the discharging pipe is reduced.

Furthermore, a plurality of emptying pipes are arranged on the discharge pipe, the other ends of the emptying pipes are positioned outside the greenhouse frame, a fourth heat-insulating layer is arranged on the outer sides of the emptying pipes, discharging is facilitated through the arranged emptying pipes, and particularly when biogas slurry in the biogas tank needs to be integrally replaced, an underground operator does not need to clear the biogas tank through the biogas tank provided by the invention, so that the accident that the operator enters the biogas tank and is subjected to toxic harm and suffocation is structurally avoided.

Compared with the prior art, the invention has the following advantages and beneficial effects:

1. according to the manufacturing method of the solar household methane tank in the alpine region, the methane tank arranged on the base is convenient to preserve heat through the arranged greenhouse frame, the light-transmitting film and the light-transmitting frame, when sunlight irradiates in the alpine region, the sunlight is convenient to irradiate into the methane tank through the light-transmitting film and the light-transmitting frame, the temperature of the methane tank is convenient to rise, and then anaerobic microorganisms are convenient to ferment;

2. The invention relates to a method for manufacturing a solar household methane tank in alpine regions, which comprises the steps that through a first rotating mechanism and a second rotating mechanism, when sunlight irradiates in the alpine regions, a first rotating drum and a second rotating drum are driven to rotate in a forward direction, so that a first heat-preservation roll and a second heat-preservation roll are collected, the sunlight irradiates into the methane tank conveniently, and when no sunlight irradiates, the first rotating drum and the second rotating drum are driven to rotate in a reverse direction, so that the first heat-preservation roll and the second heat-preservation roll are unfolded;

3. according to the manufacturing method of the solar household methane tank in the alpine region, the temperature in the methane tank is convenient to maintain through the first heat preservation layer, the second heat preservation layer, the third heat preservation layer and the fourth heat preservation layer, and the loss of the temperature from the methane tank, the discharge pipe and the discharge pipe is avoided.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic side view of the structure of the present invention;

fig. 3 is a schematic view of a first rotating mechanism and a second rotating mechanism of the present invention.

Reference numbers and corresponding part names in the drawings:

1-a base, 2-a greenhouse frame, 3-a light-transmitting film, 4-a methane tank, 5-a light-transmitting frame, 6-a soft air bag, 7-a first rotary drum, 8-a second rotary drum, 9-a first heat-preservation roll, 10-a second heat-preservation roll, 11-a feeding pipe, 12-a discharging pipe, 13-a first motor, 14-a first rotary shaft, 15-a second motor, 16-a second rotary shaft, 17-a first heat-preservation layer, 18-a second heat-preservation layer, 19-a fixed clamp, 20-a third heat-preservation layer, 21-an emptying pipe and 22-a fourth heat-preservation layer.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to examples and accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention and are not meant to limit the present invention.

Example 1

As shown in figures 1-3, the invention relates to a method for manufacturing a solar household methane tank in alpine regions, which comprises a base 1, a greenhouse frame 2 is arranged above the base 1, the bottom of the greenhouse frame 2 is connected with the base 1, the greenhouse frame 2 is a half spherical frame, a light-transmitting film 3 covers the greenhouse frame 2, a methane tank 4 is also arranged on the base 1, the methane tank 4 is positioned in the greenhouse frame 2, a light-transmitting frame 5 is connected above the methane tank 4, a soft air bag 6 is arranged on the light-transmitting frame 5, a first rotary drum 7 and a second rotary drum 8 are connected on the light-transmitting frame 5, a first heat-preserving roll 9 is connected on the first rotary drum 7, a second heat-preserving roll 10 is connected on the second rotary drum 8, a first rotating mechanism and a second rotating mechanism are also arranged on the light-transmitting frame 5, the other end of the first rotary drum 7 is connected with the first rotating mechanism, the other end of the second rotary drum 8 is connected with the second rotating mechanism, still be equipped with discharging pipe 12 on the methane-generating pit 4, the inlet pipe 11, the discharging pipe 12 other end are located the warms up canopy frame 2 outsidely, still are equipped with solar cell panel on the base 1, and solar cell panel is located warms up canopy frame 2 outsidely, still is equipped with the electric energy bin on the base 1, solar cell panel and electric energy bin electric connection.

The specific implementation mode of the invention is as follows: the number of the methane tanks arranged by a user in the alpine region is small, and the methane tanks can produce little methane even difficultly produce methane in winter, so that the arranged methane tanks are difficult to use in large quantities in the alpine region. The main reason that the methane tank is rarely used in the alpine region is that the weather in winter in the alpine region is cold, the temperature is often below zero, the household methane tank in China is generally underground, no heating and warming facilities are provided, the temperature of the methane liquid in the methane tank is lower than 8 ℃, anaerobic microorganisms producing methane are in a dormant state, and if no external heating source is provided, the temperature in the methane tank cannot be maintained above 10 ℃ only by heat preservation. The solar heat collector is generally used for utilizing solar energy, the heating medium is antifreeze solution, a heating coil pipe is arranged in the methane tank, and a circulating pump and a set of temperature control device are used for controlling circulation. The heating method is difficult to popularize in alpine regions, the main reason is that the investment cost of the heating method is high, the operation cost is also high, a solar household methane tank manufacturing method in the alpine regions is arranged at present, a large flat ground is screened in the alpine regions, a base is arranged on the flat ground, a greenhouse frame is connected onto the base, the bottom of the greenhouse frame is connected with the upper end face of the base, the methane tank is arranged on the base, the methane tank is wrapped by the greenhouse frame, the methane tank is located between the base and the greenhouse frame, the greenhouse frame is covered with a light-transmitting film, the greenhouse frame is covered by the light-transmitting film, the methane tank is further covered by the methane tank, and the sunlight is convenient to irradiate the methane tank through the light-transmitting film while the methane tank is covered by the light-transmitting film.

A large amount of biogas slurry is placed in a biogas pool, the biogas slurry is input from a feed pipe, the fermented biogas slurry is output through a discharge pipe, the biogas slurry is generally black or dark brown, the biogas slurry can easily absorb heat energy of solar radiation, and then the temperature in the biogas slurry is increased, so that the temperature in the biogas is increased to more than 10 ℃, so that the movement of anaerobic microorganisms is facilitated, and further a large amount of biogas is conveniently generated, a soft air bag is arranged on a light-transmitting frame, when sunlight in a high and cold area is dissipated, the dissipation of the temperature can be reduced through a warm shed frame, but the temperature outside the light-transmitting frame begins to fall, the upper part of the biogas pool is wrapped through the soft air bag, so that the temperature can be reduced from the upper part of the light-transmitting frame of the biogas pool, a first rotary drum and a second rotary drum are further arranged on the light-transmitting frame, when the sunlight irradiates in the high and cold area, the, the second rotating cylinder is driven to rotate through the second rotating mechanism, the second rotating cylinder is used for collecting a second heat-preservation roll connected with the second rotating cylinder, and the first heat-preservation roll and the second heat-preservation roll are collected, so that sunlight penetrates through the light-transmitting frame to directly irradiate into the methane tank, the methane tank can fully absorb the sunlight, and the temperature of the methane tank can be increased.

When no sunlight irradiates in the alpine region, the first rotating mechanism drives the first rotating drum to rotate reversely, the first rotating drum is unfolded to form a connected first heat-preservation roll, the second rotating mechanism drives the second rotating drum to rotate reversely, the second rotating drum is unfolded to form a connected second heat-preservation roll, the first heat-preservation roll and the second heat-preservation roll are unfolded to cover the light-transmitting frame, so that the temperature is reduced to be dissipated to the outside through the light-transmitting frame, the temperature in the methane tank is maintained, the activity of anaerobic organisms in the methane liquid is maintained, the methane is continuously generated, the methane is continuously used in the alpine region, a solar cell panel is further arranged on the base, when sunlight irradiates in the alpine region, the solar energy is continuously converted into electric energy through the solar cell panel, the converted electric energy is stored through the electric energy storage tank, when the temperature in the methane tank is not enough to support the activity of the anaerobic microorganisms, the stored electric energy is converted into heat energy, the temperature in the methane tank is maintained optimally, anaerobic microorganisms are supported for producing methane for a long time, the methane tank arranged in the alpine region is convenient to use continuously, and the problem that the existing household methane generates less methane in the alpine region and is even difficult to generate methane is solved.

Example 2

Based on embodiment 1, as shown in fig. 3, the method for manufacturing a solar household methane tank in an alpine region according to the present invention includes a first rotating mechanism including a first motor 13 and a first rotating shaft 14, the first motor 13 is connected to a transparent frame 5, one end of the first motor 13 is connected to the first rotating shaft 14, the other end of the first rotating shaft 14 is connected to a first rotating drum 7, a second rotating mechanism including a second motor 15 and a second rotating shaft 16, the second motor 15 is connected to the transparent frame 5, one end of the second motor 15 is connected to the second rotating shaft 16, and the other end of the second rotating shaft 16 is connected to a second rotating drum 8.

The specific implementation mode of the invention is as follows: the first rotating mechanism comprises a first motor and a first rotating shaft, the first motor is connected with the light-transmitting frame, one end of the first motor is connected with the first rotating shaft, the other end of the first rotating shaft is connected with the first rotary drum, the first motor drives the first rotating shaft to rotate through the first motor arranged on the light-transmitting frame, the first rotating shaft drives the first rotary drum to rotate, the first rotary drum is driven to pack up the first heat-preservation roll through the forward rotation of the first motor, the first rotary drum is driven to unfold the first heat-preservation roll through the reverse rotation of the first motor, the second rotating mechanism comprises a second motor and a second rotating shaft, the second motor is connected with the light-transmitting frame, one end of the second motor is connected with the second rotating shaft, the other end of the second rotating shaft is connected with the second rotary drum, the second motor drives the second rotating shaft to rotate through the second motor arranged on the light-transmitting frame, the second rotating shaft drives the second rotary drum to, the second motor rotates forwards to drive the second rotary drum to pack up the second heat-preservation roll, and the second motor rotates backwards to drive the second rotary drum to unfold the second heat-preservation roll.

Example 3

Based on the above embodiments, as shown in fig. 1-2, the method for manufacturing a solar household methane tank in a severe cold region of the present invention includes disposing a first thermal insulation layer 17 between the methane tank 4 and the base 1, disposing a second thermal insulation layer 18 outside the methane tank 4, and disposing a plurality of fixing clips 19 on the transparent frame 5.

The specific implementation mode of the invention is as follows: the first heat preservation layer is arranged between the methane tank and the base, the second heat preservation layer is arranged on the outer side of the methane tank, the temperature loss from the bottom and the side of the methane tank is reduced through the arranged first heat preservation layer and the second heat preservation layer, the temperature in the methane tank is convenient to maintain, the light transmission frame is provided with the plurality of fixing clamps, the light transmission frame is convenient to fix through the arranged fixing clamps, and the light transmission frame is prevented from being deformed or even damaged when cold wind blows in a severe cold area.

Example 4

Based on the above embodiment, as shown in fig. 2, the method for manufacturing a solar household methane tank in a severe cold area of the present invention includes providing a third insulating layer 20 on the outer sides of a feeding pipe 11 and a discharging pipe 12, providing a plurality of evacuation pipes 21 on the discharging pipe 12, locating the other ends of the evacuation pipes 21 outside the greenhouse frame 2, and providing a fourth insulating layer 22 on the outer sides of the evacuation pipes 21.

The specific implementation mode of the invention is as follows: the third heat preservation layer is arranged on the outer sides of the feeding pipe and the discharging pipe, the temperature in the feeding pipe and the discharging pipe is convenient to keep through the arranged third heat preservation layer, the loss of the temperature of the methane tank from the feeding pipe and the discharging pipe is further reduced, the discharging pipe is provided with a plurality of emptying pipes, the other ends of the emptying pipes are located outside the greenhouse frame, the fourth heat preservation layer is arranged on the outer sides of the emptying pipes, the discharging is convenient through the arranged emptying pipes, and particularly when the methane liquid in the methane tank needs to be integrally replaced, through the methane tank arranged in the methane tank, underground operators do not need to clear the methane tank, and therefore the accidents that the operators are harmed and suffocated when entering the methane tank are structurally avoided.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (7)

1. A method for manufacturing a solar household methane tank in alpine regions is characterized by comprising a base (1), a greenhouse frame (2) is arranged above the base (1), the bottom of the greenhouse frame (2) is connected with the base (1), the greenhouse frame (2) is a half spherical frame, a light-transmitting film (3) covers the greenhouse frame (2), a methane tank (4) is further arranged on the base (1), the methane tank (4) is located inside the greenhouse frame (2), a light-transmitting frame (5) is connected above the methane tank (4), a soft air bag (6) is arranged on the light-transmitting frame (5), a first rotary drum (7) and a second rotary drum (8) are connected onto the light-transmitting frame (5), a first heat-preserving roll (9) is connected onto the first rotary drum (7), a second heat-preserving roll (10) is connected onto the second rotary drum (8), a first rotating mechanism and a second rotating mechanism are further arranged on the light-transmitting frame (5), the other end of the first rotary drum (7) is connected with the first rotating mechanism, the other end of the second rotary drum (8) is connected with the second rotating mechanism, a feeding pipe (11) is arranged on the methane tank (4), a discharging pipe (12) is further arranged on the methane tank (4), the feeding pipe (11), the other end of the discharging pipe (12) is located outside the warm shed frame (2), a solar cell panel is further arranged on the base (1), the solar cell panel is located outside the warm shed frame (2), an electric energy storage box is further arranged on the base (1), and the solar cell panel is electrically connected with the electric energy storage box.

2. The method for manufacturing the solar household methane tank in the alpine region according to claim 1, wherein the first rotating mechanism comprises a first motor (13) and a first rotating shaft (14), the first motor (13) is connected with the light-transmitting frame (5), one end of the first motor (13) is connected with the first rotating shaft (14), and the other end of the first rotating shaft (14) is connected with the first rotating drum (7).

3. The method for manufacturing the solar household methane tank in the alpine region according to claim 1, wherein the second rotating mechanism comprises a second motor (15) and a second rotating shaft (16), the second motor (15) is connected with the transparent frame (5), one end of the second motor (15) is connected with the second rotating shaft (16), and the other end of the second rotating shaft (16) is connected with the second rotating drum (8).

4. The method for manufacturing the solar household methane tank in the alpine region according to claim 1, wherein a first heat-insulating layer (17) is arranged between the methane tank (4) and the base (1), and a second heat-insulating layer (18) is arranged outside the methane tank (4).

5. The method for manufacturing the solar household methane tank in the alpine region according to claim 1, wherein a plurality of fixing clips (19) are arranged on the light-transmitting frame (5).

6. The method for manufacturing the solar household methane tank in the alpine region according to claim 1, wherein a third insulating layer (20) is arranged on the outer sides of the feeding pipe (11) and the discharging pipe (12).

7. The method for manufacturing the solar household methane tank in the alpine region according to claim 1, wherein a plurality of emptying pipes (21) are arranged on the discharge pipe (12), the other ends of the emptying pipes (21) are positioned outside the greenhouse frame (2), and a fourth heat-insulating layer (22) is arranged on the outer sides of the emptying pipes (21).

Images