New energy methane tank
Technical Field
The invention relates to a novel energy acquisition device, in particular to a new energy methane tank.
Background
And (3) new energy: also known as unconventional energy sources. Refers to various forms of energy sources other than traditional energy sources. The energy to be popularized is energy which is just developed and utilized or is actively researched, such as solar energy, geothermal energy, wind energy, ocean energy, biomass energy, nuclear fusion energy and the like.
Along with the continuous development of industry, the use of the energy is more extensive, but the production of the energy most derives from the non-renewable energy, in order to reduce the use of the non-renewable energy, it is urgent to develop novel energy mode, in crops producing area, use the form of fermentation to retrieve abandonment agricultural product and produce marsh gas, can not cause destruction to the environment, can produce clean energy simultaneously, but traditional methane-generating pit has marsh gas production inefficiency, waste residue cleaning process difficulty, the operation process is complicated, therefore need to develop a new energy methane-generating pit that can efficient production marsh gas, the security is high, can effectively clear up the reaction clout.
Disclosure of Invention
(1) Technical problem to be solved
The invention aims to overcome the defects of low methane generation efficiency, difficult waste residue cleaning process and complex operation process of the traditional methane tank, and the technical problem to be solved is to provide the new energy methane tank which can generate methane with high efficiency, has high safety and can effectively clean reaction excess materials.
(2) Technical scheme
In order to solve the technical problem, the invention provides a new energy methane tank which comprises a reactor, a feed inlet, a collecting frame, a stirring mechanism and a swinging mechanism, wherein the feed inlet is formed in the left side of the top of the reactor, the collecting frame is arranged on the right side of the reactor, through holes are formed in the right side of the bottom of the reactor and the left side of the bottom of the collecting frame, the reactor and the collecting frame are communicated through the through holes, and the stirring mechanism and the swinging mechanism are arranged in the reactor.
Preferably, rabbling mechanism is equipped with a plurality of stirring vane including bearing frame, bull stick, stirring vane, fixed block and hand pole in the inner wall embedding bearing frame at reactor top, the bull stick is equipped with in the bearing frame, is located the bull stick of reactor internal position and evenly is equipped with a plurality of stirring vane, and the top of bull stick is equipped with the fixed block, and the right side of fixed block is connected with hand pole.
Preferably, swing mechanism is including the dead lever, the sleeve, the loop bar, the cam, contact wheel, first spring, connecting rod and puddler, the vertical dead lever that is connected with of roof left deviation and right deviation position symmetry in the middle part of reactor, the bottom of dead lever is equipped with the sleeve, be equipped with complex loop bar with it in the sleeve, the middle part that the bull bar is located reactor inner wall position is equipped with the cam, the one end that the loop bar is close to the bull bar is equipped with and contacts the wheel with cam complex, the one end that the cam was kept away from to the loop bar on left and right sides all is connected with first spring, the other end of first spring and the interior wall connection of reactor.
Preferably, still including waste residue push mechanism, waste residue push mechanism is including first electronic reel, small-size reel, first acting line, first slide rail, first slider, catch plate and second spring, collect the left side at frame top and install first electronic reel, be equipped with small-size reel on the collection frame, small-size reel is located the top on the left side of through-hole, around having first acting line on the first electronic reel, be connected with first slide rail between the inside wall of reactor, the gliding style is equipped with first slider on the first slide rail, small-size reel is walked around to the tail end of first acting line and is connected with the right side of first slider, the bottom of first slider is connected with the catch plate, be connected with first spring between the right flank of first slider and the interior right side wall of reactor.
Preferably, still including the waste residue and draw the mechanism, the waste residue is installed and is drawn the mechanism to the inner wall of collection frame, the waste residue is drawn the mechanism including the second slide rail, the second slider, the electronic reel of second, the second is acted as go-between and the otter board, the vertical second slide rail that is connected with of the interior right side wall of collection frame, the gliding formula is equipped with the second slider on the second slide rail, the electronic reel of second is installed at the top of second slide rail, around there being the second on the electronic reel of second and acting as go-between, the other end that the second acted as go-between is connected on the second slider, the left side of second slider is connected.
Preferably, the reactor further comprises a sealing ring, wherein the sealing ring is arranged on the inner wall of the reactor and is positioned at the bottom of the bearing seat.
Preferably, the hand-operated hand.
Preferably, the device also comprises a brush, and the bottom of the push plate is connected with the brush.
Preferably, the device further comprises a stop block, and the stop block matched with the pushing plate is arranged on the left side of the bottom of the first sliding block.
The working principle is as follows: after the biogas collecting device is arranged at a specific position, a certain amount of biogas fermentation product is added into the reactor through the feed inlet, an operator controls the stirring mechanism to work, the stirring mechanism works to stir the biogas fermentation product, meanwhile, the stirring mechanism drives the swinging mechanism to work, the biogas fermentation product in the reactor is fully treated under the mutual cooperation of the stirring mechanism and the swinging mechanism, the biogas generated after the treatment enters the collecting frame through the through hole, and the operator can collect the biogas in the collecting frame, so that the effect of efficiently collecting the biogas can be achieved.
Because rabbling mechanism is including bearing frame, bull stick, stirring vane, fixed block and hand pole, the inner wall embedding bearing frame at reactor top is equipped with the bull stick in the bearing frame, evenly is equipped with a plurality of stirring vane on being located the bull stick of reactor internal position, and the top of bull stick is equipped with the fixed block, and the right side of fixed block is connected with the hand pole. After a certain amount of biogas fermentation materials are added into the reactor, an operator rotates the hand-operated lever by hand, the hand-operated lever rotates by taking the fixed block as a fulcrum, the rotating lever is driven to rotate, the rotating lever rotates to drive the stirring blades to rotate, the stirring blades rotate to fully stir the biogas fermentation materials, and the stability of biogas production is ensured.
Because swing mechanism is including the dead lever, the sleeve, the loop bar, the cam, contact wheel, first spring, connecting rod and puddler, the vertical dead lever that is connected with of the middle part left side and the right side position symmetry of roof in the reactor, the bottom of dead lever is equipped with the sleeve, be equipped with complex loop bar with it in the sleeve, the middle part that the bull stick is located reactor inner wall position is equipped with the cam, the one end that the loop bar is close to the bull stick is equipped with and contacts the wheel with cam complex, the one end that the cam was kept away from to the loop bar on left and right sides all is connected with first spring, the other end of first spring and the interior wall connection of reactor. When the stirring mechanism works, the rotating rod is driven to rotate, the rotating rod drives the cam to rotate, when the farthest end of the cam rotates to contact the contact wheel on the left side, the contact wheel on the left side moves leftwards under the action of the cam, the contact wheel moves leftwards to drive the sleeve rod to move leftwards, the sleeve rod moves leftwards to drive the connecting rod on the left side to move leftwards, the connecting rod on the left side moves leftwards to drive the stirring rod on the left side to move leftwards, at the moment, the first spring on the left side is compressed, when the farthest end of the cam rotates to contact the right contact wheel, the right contact wheel drives the right stirring rod to move rightwards, the left first spring resets to drive the left stirring rod to move rightwards, therefore, the left and right stirring rods are driven to move left and right by the continuous movement of the cam, the stirring rods move left and right to stir the biogas fermentation products, the effect of the auxiliary stirring mechanism is achieved, and the using effect of the biogas fermentation device is improved.
Because still including waste residue push mechanism, waste residue push mechanism is including first electronic reel, small-size reel, first acting line, first slide rail, first slider, slurcam and second spring, collect the left side at frame top and install first electronic reel, be equipped with small-size reel on the collection frame, small-size reel is located the top on the left side of through-hole, around having first acting line on the first electronic reel, be connected with first slide rail between the inside wall of reactor, the gliding style is equipped with first slider on the first slide rail, small-size reel is walked around to the tail end of first acting line and is connected with the right side of first slider, the bottom of first slider is connected with the slurcam, be connected with first spring between the right flank of first slider and the interior right side wall of reactor. When invalid methane fermentation products need to be taken out, the first electric reel can be started, the first electric reel receives the first pull wire, the first pull wire drives the first sliding block to move rightwards along the first sliding rail, the first sliding block moves rightwards to drive the pushing plate to move rightwards, the invalid methane fermentation products can be pushed away from the reactor and are led out to the collecting frame through the through hole by moving the pushing plate rightwards, the second spring compresses, the first electric reel is controlled to release the first pull wire again after the pushing plate moves rightwards to a proper position, the pushing plate is driven to move leftwards under the action of the second spring, and therefore the invalid methane fermentation products can be pushed away from the reactor completely, and the effect of the reactor on the effective methane fermentation products can be improved.
Because still including the waste residue and draw the mechanism, the waste residue is installed to the inner wall of collecting the frame and is drawn the mechanism, the waste residue is drawn the mechanism including the second slide rail, the second slider, the electronic reel of second, the second is acted as go-between and the otter board, the vertical second slide rail that is connected with of the interior right side wall of collecting the frame, the gliding style is equipped with the second slider on the second slide rail, the electronic reel of second is installed at the top of second slide rail, around there being the second on the electronic reel of second and acting as go-between, the other end that the second was acted as go-between is connected on the second slider, the left side of. The second electric winding wheel is started to collect the second stay wire, the second stay wire drives the screen plate to move upwards, invalid methane fermentation materials pushed by the waste residue pushing mechanism are collected to the top of the collecting frame and taken out by an operator, the influence on the fermentation process caused by accumulation of the invalid methane fermentation materials can be prevented, the second electric winding wheel can be controlled to put the second stay wire after the invalid methane fermentation materials on the screen plate are taken out, and the second electric winding wheel can be closed after the screen plate is reset.
Because still including the sealing washer, the inner wall of reactor is equipped with the sealing washer, and the sealing washer is located the bottom of bearing frame. The sealing ring improves the sealing effect of the reactor and effectively prevents the generated methane from overflowing.
Because the hand-operated rod also comprises a protective sponge, the hand-operated rod is sleeved with the protective sponge. The protection sponge can protect the hands of an operator.
Because the hair brush is also included, the bottom of the pushing plate is connected with the hair brush. The brush can be better to the inefficacy marsh gas fermentation thing that needs the clearance in the reactor clean up, improves waste residue push mechanism's result of use.
Because still including the dog, the left side of first slider bottom is equipped with the dog with catch plate complex. The baffle block can limit the push plate, so that the push plate can efficiently push the invalid methane fermentation material.
(3) Advantageous effects
The invention performs stirring fermentation treatment on the biogas fermentation product added into the reactor through the mutual matching of the stirring mechanism and the swinging mechanism, and simultaneously achieves the effects of efficiently generating biogas, having high safety and effectively cleaning reaction excess materials by utilizing the optimization of the waste residue pushing mechanism and the waste residue extracting mechanism.
Drawings
Fig. 1 is a first front view structure diagram of the present invention.
Fig. 2 is a second front view structure diagram of the present invention.
Fig. 3 is a third schematic view of the present invention.
The labels in the figures are: 1-reactor, 2-feed inlet, 3-collection frame, 4-through hole, 5-stirring mechanism, 51-bearing seat, 52-rotating rod, 53-stirring blade, 54-fixed block, 55-hand rod, 6-swinging mechanism, 61-fixed rod, 62-sleeve, 63-sleeve rod, 64-cam, 65-contact wheel, 66-first spring, 67-connecting rod, 68-stirring rod, 7-waste residue pushing mechanism, 71-first electric reel, 72-small reel, 73-first pull wire, 74-first slide rail, 75-first slide block, 76-push plate, 77-second spring, 8-waste residue extraction mechanism, 81-second slide rail, 82-second slide block, 83-second electric reel, 84-second pull wire, 85-screen plate, 9-sealing ring, 10-protective sponge, 11-brush, 12-stop block.
Detailed Description
The invention is further described below with reference to the figures and examples.
Example 1
A new energy methane tank is shown in figures 1-3 and comprises a reactor 1, a feed inlet 2, a collecting frame 3, a stirring mechanism 5 and a swinging mechanism 6, wherein the feed inlet 2 is formed in the left side of the top of the reactor 1, the collecting frame 3 is arranged on the right side of the reactor 1, through holes 4 are formed in the right side of the bottom of the reactor 1 and the left side of the bottom of the collecting frame 3, the reactor 1 and the collecting frame 3 are communicated through the through holes 4, and the stirring mechanism 5 and the swinging mechanism 6 are arranged inside the reactor 1.
Example 2
A new energy methane tank is shown in figures 1-3 and comprises a reactor 1, a feed inlet 2, a collecting frame 3, a stirring mechanism 5 and a swinging mechanism 6, wherein the feed inlet 2 is formed in the left side of the top of the reactor 1, the collecting frame 3 is arranged on the right side of the reactor 1, through holes 4 are formed in the right side of the bottom of the reactor 1 and the left side of the bottom of the collecting frame 3, the reactor 1 and the collecting frame 3 are communicated through the through holes 4, and the stirring mechanism 5 and the swinging mechanism 6 are arranged inside the reactor 1.
Rabbling mechanism 5 is including bearing frame 51, bull stick 52, stirring vane 53, fixed block 54 and hand pole 55, the inner wall embedding bearing frame 51 at reactor 1 top, is equipped with bull stick 52 in the bearing frame 51, evenly is equipped with a plurality of stirring vane 53 on the bull stick 52 that is located reactor 1 internal position, and the top of bull stick 52 is equipped with fixed block 54, and the right side of fixed block 54 is connected with hand pole 55.
Example 3
A new energy methane tank is shown in figures 1-3 and comprises a reactor 1, a feed inlet 2, a collecting frame 3, a stirring mechanism 5 and a swinging mechanism 6, wherein the feed inlet 2 is formed in the left side of the top of the reactor 1, the collecting frame 3 is arranged on the right side of the reactor 1, through holes 4 are formed in the right side of the bottom of the reactor 1 and the left side of the bottom of the collecting frame 3, the reactor 1 and the collecting frame 3 are communicated through the through holes 4, and the stirring mechanism 5 and the swinging mechanism 6 are arranged inside the reactor 1.
Rabbling mechanism 5 is including bearing frame 51, bull stick 52, stirring vane 53, fixed block 54 and hand pole 55, the inner wall embedding bearing frame 51 at reactor 1 top, is equipped with bull stick 52 in the bearing frame 51, evenly is equipped with a plurality of stirring vane 53 on the bull stick 52 that is located reactor 1 internal position, and the top of bull stick 52 is equipped with fixed block 54, and the right side of fixed block 54 is connected with hand pole 55.
Swing mechanism 6 is including dead lever 61, sleeve 62, loop bar 63, cam 64, contact wheel 65, first spring 66, connecting rod 67 and puddler 68, the vertical connection that the middle part of roof was inclined to the left and inclined to the right position symmetry in reactor 1 is with dead lever 61, the bottom of dead lever 61 is equipped with sleeve 62, be equipped with complex loop bar 63 with it in the sleeve 62, the middle part that bull stick 52 is located reactor 1 inner wall position is equipped with cam 64, the one end that the loop bar 63 is close to bull stick 52 is equipped with and contacts wheel 65 with cam 64 complex, the one end that cam 64 was kept away from to loop bar 63 on the left and right sides all is connected with first spring 66, the other end of first spring 66 and the interior wall connection of reactor 1.
Example 4
A new energy methane tank is shown in figures 1-3 and comprises a reactor 1, a feed inlet 2, a collecting frame 3, a stirring mechanism 5 and a swinging mechanism 6, wherein the feed inlet 2 is formed in the left side of the top of the reactor 1, the collecting frame 3 is arranged on the right side of the reactor 1, through holes 4 are formed in the right side of the bottom of the reactor 1 and the left side of the bottom of the collecting frame 3, the reactor 1 and the collecting frame 3 are communicated through the through holes 4, and the stirring mechanism 5 and the swinging mechanism 6 are arranged inside the reactor 1.
Rabbling mechanism 5 is including bearing frame 51, bull stick 52, stirring vane 53, fixed block 54 and hand pole 55, the inner wall embedding bearing frame 51 at reactor 1 top, is equipped with bull stick 52 in the bearing frame 51, evenly is equipped with a plurality of stirring vane 53 on the bull stick 52 that is located reactor 1 internal position, and the top of bull stick 52 is equipped with fixed block 54, and the right side of fixed block 54 is connected with hand pole 55.
Swing mechanism 6 is including dead lever 61, sleeve 62, loop bar 63, cam 64, contact wheel 65, first spring 66, connecting rod 67 and puddler 68, the vertical connection that the middle part of roof was inclined to the left and inclined to the right position symmetry in reactor 1 is with dead lever 61, the bottom of dead lever 61 is equipped with sleeve 62, be equipped with complex loop bar 63 with it in the sleeve 62, the middle part that bull stick 52 is located reactor 1 inner wall position is equipped with cam 64, the one end that the loop bar 63 is close to bull stick 52 is equipped with and contacts wheel 65 with cam 64 complex, the one end that cam 64 was kept away from to loop bar 63 on the left and right sides all is connected with first spring 66, the other end of first spring 66 and the interior wall connection of reactor 1.
Still including waste residue push mechanism 7, waste residue push mechanism 7 is including first electronic reel 71, mini reel 72, first acting line 73, first slide rail 74, first slider 75, push plate 76 and second spring 77, collect the left side at frame 3 top and install first electronic reel 71, be equipped with mini reel 72 on the collection frame 3, mini reel 72 is located the top that inclines of through-hole 4, first electronic reel 71 is gone up around there being first acting line 73, be connected with first slide rail 74 between the inside wall of reactor 1, it is equipped with first slider 75 to slide on first slide rail 74, the tail end of first acting line 73 is walked around mini reel 72 and is connected with the right side of first slider 75, the bottom of first slider 75 is connected with push plate 76, be connected with first spring 66 between the right flank of first slider 75 and the interior right side wall of reactor 1.
Still extract mechanism 8 including the waste residue, it draws mechanism 8 to collect the inner wall of frame 3 and install the waste residue, the waste residue draws mechanism 8 including the second slide rail 81, the second slider 82, the electronic reel 83 of second, the second is acted as go-between 84 and otter board 85, the vertical second slide rail 81 that is connected with of the interior right side wall of collecting frame 3, the gliding style is equipped with second slider 82 on second slide rail 81, the electronic reel 83 of second is installed at the top of second slide rail 81, around there being the second on the electronic reel 83 to act as go-between 84, the other end that the second acted as go-between 84 is connected on second slider 82, the left side of second slider 82 is connected with otter board 85.
The reactor also comprises a sealing ring 9, wherein the sealing ring 9 is arranged on the inner wall of the reactor 1, and the sealing ring 9 is positioned at the bottom of the bearing seat 51.
Also comprises a protective sponge 10, and the protective sponge 10 is sleeved on the hand-operated lever 55.
Also comprises a hairbrush 11, and the bottom of the pushing plate 76 is connected with the hairbrush 11.
A stop 12 is further included, and the left side of the bottom of the first slide block 75 is provided with the stop 12 matched with the pushing plate 76.
The working principle is as follows: after the biogas collecting device is arranged at a specific position, a certain amount of biogas fermentation product is added into the reactor 1 through the feed inlet 2, an operator controls the stirring mechanism 5 to work, the stirring mechanism 5 works to stir the biogas fermentation product, meanwhile, the stirring mechanism 5 drives the swinging mechanism 6 to work, the biogas fermentation product in the reactor 1 is fully treated under the mutual cooperation of the stirring mechanism 5 and the swinging mechanism 6, the biogas generated after the treatment enters the collecting frame 3 through the through hole 4, the operator can collect the biogas in the collecting frame 3, and thus the effect of efficiently collecting the biogas can be achieved.
Because rabbling mechanism 5 is including bearing frame 51, bull stick 52, stirring vane 53, fixed block 54 and hand pole 55, the inner wall embedding bearing frame 51 at reactor 1 top is equipped with bull stick 52 in the bearing frame 51, evenly is equipped with a plurality of stirring vane 53 on the bull stick 52 that is located reactor 1 internal position, and the top of bull stick 52 is equipped with fixed block 54, and the right side of fixed block 54 is connected with hand pole 55. After a certain amount of biogas fermentation product is added into the reactor 1, an operator rotates the hand lever 55 by hand, the hand lever 55 rotates by taking the fixed block 54 as a fulcrum, the rotating lever 52 is driven to rotate, the rotating lever 52 rotates to drive the stirring blades 53 to rotate, the stirring blades 53 rotate to fully stir the biogas fermentation product, and the stability of biogas production is ensured.
Because swing mechanism 6 is including dead lever 61, sleeve 62, loop bar 63, cam 64, contact wheel 65, first spring 66, connecting rod 67 and puddler 68, the vertical connection that the middle part of roof was inclined to the left and inclined to the right position symmetry in reactor 1 is with dead lever 61, the bottom of dead lever 61 is equipped with sleeve 62, be equipped with complex loop bar 63 with it in the sleeve 62, the middle part that the bull stick 52 is located reactor 1 inner wall position is equipped with cam 64, the one end that the loop bar 63 is close to bull stick 52 is equipped with and contacts wheel 65 with cam 64 complex, the one end that cam 64 was kept away from to loop bar 63 on the left and right sides all is connected with first spring 66, the other end of first spring 66 and the inner wall connection of reactor 1. When the stirring mechanism 5 works to drive the rotating rod 52 to rotate, the rotating rod 52 rotates to drive the cam 64 to rotate, when the farthest end of the cam 64 rotates to contact with the contact wheel 65 on the left side, the contact wheel 65 on the left side moves leftwards under the action of the cam 64, the contact wheel 65 moves leftwards to drive the sleeve rod 63 to move leftwards, the sleeve rod 63 moves leftwards to drive the connecting rod 67 on the left side to move leftwards, the connecting rod 67 on the left side moves leftwards to drive the stirring rod 68 on the left side to move leftwards, the first spring 66 on the left side compresses, when the farthest end of the cam 64 rotates to contact with the contact wheel 65 on the right side, the contact wheel 65 on the right side drives the stirring rod 68 on the right side to move rightwards, the first spring 66 on the left side resets to drive the stirring rod 68 on the left side to move rightwards, the effect of the auxiliary stirring mechanism 5 is achieved, and the using effect of the invention is improved.
Because still including waste residue push mechanism 7, waste residue push mechanism 7 is including first electronic reel 71, mini reel 72, first acting line 73, first slide rail 74, first slider 75, push plate 76 and second spring 77, collect the left side at frame 3 top and install first electronic reel 71, be equipped with mini reel 72 on the collection frame 3, mini reel 72 is located the top that leans on of through-hole 4, first electronic reel 71 is gone up around first acting line 73, be connected with first slide rail 74 between the inside wall of reactor 1, the gliding formula is equipped with first slider 75 on first slide rail 74, the tail end of first acting line 73 is walked around mini reel 72 and is connected with the right side of first slider 75, the bottom of first slider 75 is connected with push plate 76, be connected with first spring 66 between the right side face of first slider 75 and the interior right side wall of reactor 1. When the invalid biogas fermentation products need to be taken out, the first electric reel 71 can be started, the first electric reel 71 receives the first pull wire 73, the first pull wire 73 drives the first slide block 75 to move rightwards along the first slide rail 74, the first slide block 75 moves rightwards to drive the push plate 76 to move rightwards, the invalid biogas fermentation products can be pushed away from the reactor 1 and are led out to the collecting frame 3 through the through hole 4 when the push plate 76 moves rightwards, the second spring 77 is compressed at the moment, the first electric reel 71 is controlled to release the first pull wire 73 again after the push plate 76 moves rightwards to a proper position, the push plate 76 is pulled to move leftwards under the action of the second spring 77, and the invalid fermentation products can be completely pushed away from the reactor 1 by repeating the operation steps, so that the reactor 1 can be improved to fully ferment the valid biogas fermentation products.
Because still extract the mechanism 8 including the waste residue, it draws the mechanism 8 to collect the inner wall of frame 3 and install the waste residue, the waste residue draws the mechanism 8 including the second slide rail 81, the second slider 82, the electronic reel 83 of second, the second is acted as go-between 84 and otter board 85, the vertical second slide rail 81 that is connected with of the interior right side wall of collecting frame 3, the gliding formula is equipped with second slider 82 on the second slide rail 81, the electronic reel 83 of second is installed at the top of second slide rail 81, around there being the second on the electronic reel 83 to act as go-between 84, the other end that the second acted as go-between 84 is connected on second slider 82, the left side of second slider 82 is connected with otter board 85. The second electric reel 83 is started to take the second pull wire 84, the second pull wire 84 drives the screen plate 85 to move upwards, invalid methane fermentation products pushed by the waste residue pushing mechanism 7 are placed at the top of the collecting frame 3 and taken out by an operator, the influence on the fermentation process caused by the accumulation of the invalid methane fermentation products can be prevented, the second electric reel 83 can be controlled to release the second pull wire 84 after the invalid methane fermentation products on the screen plate 85 are taken out, and the second electric reel 83 can be closed after the screen plate 85 is reset.
Because still including sealing washer 9, the inner wall of reactor 1 is equipped with sealing washer 9, and sealing washer 9 is located the bottom of bearing frame 51. The sealing ring 9 improves the sealing effect of the reactor 1 and effectively prevents the produced methane from overflowing.
Because still including protection sponge 10, the cover has protection sponge 10 on the hand rocker 55. The protective sponge 10 can protect the hands of an operator.
Because the brush 11 is further included, the brush 11 is attached to the bottom of the push plate 76. The brush 11 can better clean the invalid biogas fermentation product needing to be cleaned in the reactor 1, and the using effect of the waste residue pushing mechanism 7 is improved.
Since the stopper 12 is further included, the stopper 12 engaged with the push plate 76 is provided on the left side of the bottom of the first slider 75. The stopper 12 can limit the pushing plate 76, so that the pushing plate 76 can efficiently push the invalid biogas fermentation product.
The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.