CN211914016U - Biochemical garbage treating machine - Google Patents

Abstract

The utility model relates to a refuse treatment technical field, concretely relates to rubbish biochemical treatment machine, it mainly includes: broken case sets up multistage breaker in the broken case, with the hyperbaric chamber that broken case is connected, and set up fermenter and the incomplete sediment case of hyperbaric chamber below, wherein multistage breaker carries out the breakage to rubbish from cooking to can fully the efficient carry out biochemical reaction in the later stage, and the hyperbaric chamber carries out the pressure heating to rubbish after the breakage, makes rubbish have initial temperature and carries out biochemical reaction with biochemical fungus in getting into the fermenting case, consequently the utility model discloses can carry out quick thorough clean processing to rubbish from cooking to the broken blind area of elimination.

Description

Biochemical garbage treating machine

Technical Field

The utility model relates to a refuse treatment technical field, concretely relates to rubbish biochemical treatment machine.

Background

The biochemical treatment of garbage aims at the characteristic that organic garbage can be biochemically decomposed, and adopts a biological strain means to ensure that the garbage generates a substance conversion process under the control of certain temperature and humidity so as to achieve the purpose of garbage reduction.

At present, the most common household garbage is kitchen garbage, and compared with other garbage, the kitchen garbage has the characteristics of high water content, high organic matter content, oil content and salt content, rich nutrition and the like, and has high recovery value. In the actual biochemical treatment process of the kitchen waste, the defects of overlong biochemical treatment time, overlarge energy consumption, poor effect and the like exist, because a large amount of water vapor can be generated in the biochemical treatment process of the waste, the defects that the water vapor is not discharged in time to influence the treatment effect and the like exist, and meanwhile, the water vapor has odor and is directly discharged into the air to cause secondary pollution to the environment.

SUMMERY OF THE UTILITY MODEL

The utility model provides a garbage biochemical treatment machine, which mainly carries out quick and thorough treatment on kitchen garbage through a multistage crushing device, a hyperbaric chamber and a fermentation barrel, thereby eliminating the crushing blind area.

In order to achieve the above object, the utility model provides a following technical scheme: a garbage biochemical treatment machine mainly comprises: the crushing box is arranged in a cavity, a feed inlet is formed in the top of the crushing box, a first discharge channel is formed in the bottom of the crushing box, and a first high-pressure sealing valve plate is arranged in the first discharge channel; a multi-stage crushing device disposed inside the crushing box; the high-pressure cabin is of a cylindrical structure which is longitudinally arranged below the crushing box, the top of the high-pressure cabin is communicated with the first discharge channel, the bottom of the high-pressure cabin is provided with a second discharge channel, and a second high-pressure sealing valve plate is arranged in the second discharge channel; the inner side wall of the hyperbaric chamber is fixedly provided with an electric heating body, the bottom of the inner wall of the hyperbaric chamber is provided with a drain pipe, and the drain pipe is provided with a drain valve; the fermentation barrel is arranged below the hyperbaric chamber, and the top of the fermentation barrel is communicated with the second discharging channel; a third discharge channel is arranged at the bottom of the fermentation barrel, and a discharge valve is arranged in the third discharge channel; an exhaust pipe is arranged on the inner wall of the top of the fermentation barrel, and an exhaust valve is arranged in the exhaust pipe; the inner side wall of the fermentation barrel is also provided with a bacterium adding port communicated with the outside, and the bacterium adding port is provided with a sealing valve; the top of the residue box is provided with a collecting port, and the collecting port is in sealing fit with the bottom end of the third discharge channel through a sealing ring.

Preferably, the multistage crushing device comprises a reciprocating rotating frame longitudinally arranged in the crushing box, the reciprocating rotating frame is of a rolling cage structure, the upper end and the lower end of the reciprocating rotating frame are respectively provided with a shaft head extending outwards, and the shaft heads are connected with the inner side wall of the crushing box through bearing frames; the crushing box is characterized by also comprising shaft holes coaxially penetrating through the inner walls of two opposite sides of the crushing box, and the axis of each shaft hole is vertically crossed with the rotation axis of the reciprocating rotating frame; optical axes are arranged in the shaft holes one by one, one ends close to the optical axes are respectively connected with swing arms, and the swing arms are arranged in parallel; one ends, far away from the optical axis, of the swing arms are connected with one another through connecting rods, and the connecting rods penetrate through the hollow-out areas of the reciprocating rotating frames; a driving motor is arranged outside the crushing box, and an output shaft of the driving motor is coaxially connected with any one of the optical shafts; the upper end and the lower end of the reciprocating rotating frame are respectively provided with a plurality of cutters extending to the periphery, the inner side wall of the crushing box is fixedly provided with a plurality of fixed cutters extending to the center corresponding to the upper end and the lower end of the reciprocating rotating frame, and the cutters and the fixed cutters form a shearing mechanism.

Preferably, two ends of each swing arm are respectively hinged with the corresponding optical axis and the corresponding connecting rod; the driving motor is connected with the outer side wall of the crushing box through an axial moving mechanism, the axial moving mechanism comprises a sliding rail arranged in parallel with the optical axis, the sliding rail is matched with a sliding block, and the driving motor is fixedly connected with the sliding block; still include the electric jar, the electric jar with slide rail parallel arrangement, and the stiff end of electric jar with sliding rail connected, the flexible end of electric jar with slider fixed connection.

Preferably, the device also comprises a control computer, wherein the control computer is provided with an input interface and an output interface, a pressure sensor and a first temperature sensor are fixedly arranged on the inner side wall of the high-pressure cabin, the pressure sensor, the first temperature sensor and the electric heating body are all connected with the control computer through wire holes penetrating through the inner wall of the high-pressure cabin, and high-temperature sealant is arranged in the wire holes; the first high-pressure sealing valve plate, the second high-pressure sealing valve plate, the discharge valve, the drain valve and the exhaust valve are respectively provided with a servo motor, and each servo motor and the electric heating body are respectively and electrically connected with an output interface of the control computer.

Preferably, a second temperature sensor is arranged inside the fermentation barrel and electrically connected with the input interface of the control computer; the biochemical indicator is electrically connected with the output end of the control computer.

The utility model has the advantages that: the kitchen garbage thrown into the crushing box through the feeding port is stirred by the multistage crushing device to complete the crushing process, after the first high-pressure sealing valve plate is opened, the crushed garbage falls into the high-pressure chamber, the high-pressure chamber is in a sealed state by closing the first sealing valve plate and the second sealing valve plate, the electric heating body works to heat, the garbage in the high-pressure chamber is subjected to high-pressure heating, the crushed garbage after high-pressure heating is in a dry state and a wet state, at the moment, the drainage valve is opened, water is drained into a sewer through the drainage pipe, after the pressure in the high-pressure chamber is released, the second high-pressure sealing valve plate is opened, the dried crushed garbage falls into the fermentation barrel, and is rapidly fermented for biological decomposition under the residual temperature of the crushed garbage, and when the fermentation speed is slow, biochemical bacteria can be supplemented through the bacteria adding port so as to enable the crushed garbage to better complete biochemical reaction in the fermentation barrel, after the biochemical reaction is finished, the discharge valve is opened, the fermented residual residues fall into the residue box, a user cleans the residual residues manually, the cleaned residual residues are far less than the quality of the once-thrown garbage in the feed inlet, and the decomposed garbage components are discharged in the forms of water, heat and gas. Through the device for kitchen garbage is decomposed by the efficient and is handled, has reduced the refuse treatment degree of difficulty, and liquid and gas through sewer discharge can not cause the influence to the environment, and a small amount of surplus residue has also reduced the degree of difficulty of rubbish secondary treatment, has consequently solved current garbage disposer's not enough.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

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

fig. 2 is the internal structure schematic diagram of the multistage crushing device of the present invention.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings of the present invention, and obviously, the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The first embodiment is as follows:

according to fig. 1, a garbage biochemical treatment machine mainly comprises: the crushing box 1 is a cavity, a feed inlet 2 is formed in the top of the crushing box 1, a first discharge channel 3 is formed in the bottom of the crushing box, and a first high-pressure sealing valve plate is arranged in the first discharge channel 3; a multistage crushing device disposed inside the crushing box 1; the high-pressure cabin 5 is a cylindrical structure which is longitudinally arranged below the crushing box 1, the top of the high-pressure cabin 5 is communicated with the first discharging channel 3, the bottom of the high-pressure cabin 5 is provided with a second discharging channel 6, and a second high-pressure sealing valve plate is arranged in the second discharging channel 6; an electric heating body is fixedly arranged on the inner side wall of the high-pressure cabin 5, a drain pipe 9 is arranged at the bottom of the inner wall of the high-pressure cabin 5, and a drain valve 10 is arranged on the drain pipe 9; a fermenter 11, the fermenter 11 being disposed below the hyperbaric chamber 5, and a top of the fermenter 11 being in communication with the second discharge channel 6; a third discharge channel 12 is arranged at the bottom of the fermentation barrel 11, and a discharge valve is arranged in the third discharge channel 12; an exhaust pipe 14 is arranged on the inner wall of the top of the fermentation barrel 11, and an exhaust valve 15 is arranged in the exhaust pipe 14; the inner side wall of the fermentation barrel 11 is also provided with a bacteria adding port communicated with the outside, and the bacteria adding port is provided with a sealing valve 17; the top of the residue box 18 is provided with a collection port 19, and the collection port 19 is in sealing fit with the bottom end of the third discharge channel 12 through a sealing ring.

In the above arrangement, garbage is fed into the crushing box 1 through the feeding port 2, the crushing process is completed under the stirring of the multistage crushing device, after the first high-pressure sealing valve plate is opened, the crushed garbage falls into the high-pressure chamber 5, the high-pressure chamber 5 is in a sealed state by closing the first sealing valve plate and the second sealing valve plate, the electric heating body works to generate heat to heat the garbage in the high-pressure chamber 5 at high pressure, the crushed garbage after high-pressure heating is in a dry state and a wet state, the drainage valve 10 is opened at the moment, water is drained into a sewer through the drainage pipe 9, after the pressure in the high-pressure chamber 5 is released, the second high-pressure sealing valve plate is opened, the dried crushed garbage falls into the fermentation barrel 11, the crushed garbage is rapidly fermented and biologically decomposed under the residual temperature of the crushed garbage, and when the fermentation speed is slow, biochemical bacteria can be supplemented through the bacteria adding port so as to enable the crushed garbage to better complete biochemical reaction in the fermentation barrel 11, after the biochemical reaction is finished, the discharge valve is opened, the fermented residual residues fall into the residue tank 18, a user cleans the residual residues manually, the cleaned residual residues are far less than the quality of the once-thrown garbage in the feed inlet 2, and the decomposed garbage components are discharged in the forms of water, heat and gas. Through the device for kitchen garbage is decomposed by the efficient and is handled, has reduced the refuse treatment degree of difficulty, and liquid and gas through sewer discharge can not cause the influence to the environment, and a small amount of surplus residue has also reduced the degree of difficulty of rubbish secondary treatment, has consequently solved current garbage disposer's not enough.

Example two:

according to fig. 2, the multistage crushing device comprises a reciprocating rotating frame 20 longitudinally arranged inside the crushing box 1, wherein the reciprocating rotating frame 20 is of a rolling cage structure, the upper end and the lower end of the reciprocating rotating frame are respectively provided with a shaft head 21 extending outwards, and the shaft heads 21 are connected with the inner side wall of the crushing box 1 through a bearing frame 22; the crushing box further comprises shaft holes coaxially penetrating through the inner walls of two opposite sides of the crushing box 1, and the axis of each shaft hole is vertically crossed with the rotation axis of the reciprocating rotating frame 20; optical axes 23 are arranged in the shaft holes one by one, one ends close to the optical axes 23 are respectively connected with swing arms 24, and the swing arms 24 are arranged in parallel; one ends of the swing arms 24 far away from the optical axis 23 are connected with each other through connecting rods 25, and the connecting rods 25 penetrate through the hollow area of the reciprocating rotating frame 20; a driving motor 26 is arranged outside the crushing box 1, and an output shaft of the driving motor 26 is coaxially connected with any one of the optical shafts 23; the upper end and the lower end of the reciprocating rotating frame 20 are respectively provided with a plurality of cutters 27 extending to the periphery, the inner side wall of the crushing box is fixedly provided with a plurality of fixed cutters 28 extending to the center corresponding to the upper end and the lower end of the reciprocating rotating frame 20, and the cutters 27 and the fixed cutters 28 form a shearing mechanism.

In the above arrangement, the driving motor 26 rotates the swing arm 24 through the optical axis 23, the connecting rod 25 connected with the swing arm 24 is driven by the swing arm 24 to swing and rotate on the reciprocating rotary frame 20, the reciprocating rotary frame 20 matched with the connecting rod 25 is continuously twisted in a reciprocating manner under the control of the connecting rod 25, the cutter 27 connected with the upper end and the lower end of the reciprocating rotary frame 20 is matched with the fixed cutter 28, the kitchen garbage is cut and crushed, and meanwhile, the kitchen garbage rolls in the crushing box 1 under the swinging and rotating action of the connecting rod 25, so that the cutting and crushing effects are ensured.

Example three:

two ends of each swing arm 24 are respectively hinged with the corresponding optical axis 23 and the corresponding connecting rod 25; the driving motor 26 is connected with the outer side wall of the crushing box 1 through an axial moving mechanism, the axial moving mechanism comprises a sliding rail 30 arranged in parallel with the optical axis 23, the sliding rail 30 is matched with a sliding block 29, and the driving motor 26 is fixedly connected with the sliding block 29; still include the electric jar, the electric jar with slide rail 30 parallel arrangement, and the stiff end of electric jar with slide rail 30 is connected, the flexible end of electric jar with slider 29 fixed connection.

In the above arrangement, the driving motor 26 reciprocates along the optical axis 23 direction through the cooperation of the sliding block 29 and the sliding rail 30, especially in the rotation process, when the driving motor 26 moves towards the direction close to the crushing box 1, the angle between the middle part of the connecting rod 25 and the hollow area in the middle part of the reciprocating rotating frame 20 changes, so as to increase the rotation amplitude of the rocker arm of the connecting rod 25, and when the swing amplitude of the connecting rod 25 increases, the swing amplitude generated by the reciprocating rotating frame 20 increases, so that the cutting knife 27 and the fixed knife 28 perform large-amplitude cutting operation; when the driving motor 26 moves away from the crushing box 1, the wave folding amplitude among the connecting rod 25, the swing arm 24 and the optical axis 23 is reduced and approaches to a straight line, and the swing rotation amplitude of the connecting rod 25 is reduced at the moment, so that the swing amplitude generated by the reciprocating rotating frame 20 is reduced, and the cutting knife 27 and the fixed knife 28 perform small-angle and high-frequency cutting tasks; through this setting, change the rotation range of rotatory frame repeatedly, consequently satisfied the kitchen waste cutting effect of various physical characteristics in broken case 1.

Example four:

the high-pressure cabin is characterized by further comprising a control computer 33, wherein the control computer 33 is provided with an input interface and an output interface, a pressure sensor and a first temperature sensor are fixedly arranged on the inner side wall of the high-pressure cabin 5, the pressure sensor, the first temperature sensor and the electric heating body are all connected with the control computer 33 through wire holes penetrating through the inner wall of the high-pressure cabin 5, and high-temperature sealant is arranged in the wire holes; the first high-pressure sealing valve plate, the second high-pressure sealing valve plate, the discharge valve, the drain valve 10 and the exhaust valve 15 are respectively provided with a servo motor, and each servo motor and the electric heating element are respectively electrically connected with an output interface of the control computer 33.

In the above arrangement, the control computer 33 controls the driving motor 26 and the electric cylinder to meet the requirement of crushing the garbage, and the control computer 33 collects the state in the high-pressure cabin 5 through the pressure sensor and the first temperature sensor to manage the operation of the electric heating element to meet the requirement of heating and pressurizing the garbage; in addition, the opening and closing states of the first high-pressure sealing valve plate, the second high-pressure sealing valve plate and the discharge valve are controlled, so that the flow direction of the garbage crushed aggregates is controlled, and meanwhile, the exhaust valve 15 and the drain valve 10 are controlled. The control computer 33 can be realized by a PLC programmed controller, and the control basis thereof can be mainly manual switch or automatic timing control, and the specific control scheme thereof is a means commonly used by those skilled in the art.

Example five:

a second temperature sensor is arranged inside the fermentation barrel 11 and is electrically connected with the input interface of the control computer 33; the biochemical indicator is electrically connected with the output end of the control computer 33.

In the above arrangement, the control computer 33 collects the biochemical reaction temperature in the fermentation vat 11 through the second temperature sensor, and when the reaction temperature drops, the control computer 33 displays the state through the biochemical indicator to remind the user to supplement biochemical bacteria to the fermentation vat 11, so as to complete the biochemical reaction.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (5)

1. A garbage biochemical treatment machine is characterized by comprising:

the crushing box is arranged in a cavity, a feed inlet is formed in the top of the crushing box, a first discharge channel is formed in the bottom of the crushing box, and a first high-pressure sealing valve plate is arranged in the first discharge channel;

a multi-stage crushing device disposed inside the crushing box;

the high-pressure cabin is of a cylindrical structure which is longitudinally arranged below the crushing box, the top of the high-pressure cabin is communicated with the first discharge channel, the bottom of the high-pressure cabin is provided with a second discharge channel, and a second high-pressure sealing valve plate is arranged in the second discharge channel; the inner side wall of the hyperbaric chamber is fixedly provided with an electric heating body, the bottom of the inner wall of the hyperbaric chamber is provided with a drain pipe, and the drain pipe is provided with a drain valve;

the fermentation barrel is arranged below the hyperbaric chamber, and the top of the fermentation barrel is communicated with the second discharging channel; a third discharge channel is arranged at the bottom of the fermentation barrel, and a discharge valve is arranged in the third discharge channel; an exhaust pipe is arranged on the inner wall of the top of the fermentation barrel, and an exhaust valve is arranged in the exhaust pipe; the inner side wall of the fermentation barrel is also provided with a bacterium adding port communicated with the outside, and the bacterium adding port is provided with a sealing valve;

the top of the residue box is provided with a collecting port, and the collecting port is in sealing fit with the bottom end of the third discharge channel through a sealing ring.

2. The biochemical garbage disposer of claim 1, wherein: the multistage crushing device comprises a reciprocating rotating frame longitudinally arranged in the crushing box, the reciprocating rotating frame is of a rolling cage structure, the upper end and the lower end of the reciprocating rotating frame are respectively provided with a shaft head extending outwards, and the shaft heads are connected with the inner side wall of the crushing box through bearing frames; the crushing box is characterized by also comprising shaft holes coaxially penetrating through the inner walls of two opposite sides of the crushing box, and the axis of each shaft hole is vertically crossed with the rotation axis of the reciprocating rotating frame; optical axes are arranged in the shaft holes one by one, one ends close to the optical axes are respectively connected with swing arms, and the swing arms are arranged in parallel; one ends, far away from the optical axis, of the swing arms are connected with one another through connecting rods, and the connecting rods penetrate through the hollow-out areas of the reciprocating rotating frames; a driving motor is arranged outside the crushing box, and an output shaft of the driving motor is coaxially connected with any one of the optical shafts; the upper end and the lower end of the reciprocating rotating frame are respectively provided with a plurality of cutters extending to the periphery, the inner side wall of the crushing box is fixedly provided with a plurality of fixed cutters extending to the center corresponding to the upper end and the lower end of the reciprocating rotating frame, and the cutters and the fixed cutters form a shearing mechanism.

3. The biochemical garbage disposer of claim 2, wherein: two ends of each swing arm are respectively hinged with the corresponding optical axis and the corresponding connecting rod; the driving motor is connected with the outer side wall of the crushing box through an axial moving mechanism, the axial moving mechanism comprises a sliding rail arranged in parallel with the optical axis, the sliding rail is matched with a sliding block, and the driving motor is fixedly connected with the sliding block; still include the electric jar, the electric jar with slide rail parallel arrangement, and the stiff end of electric jar with sliding rail connected, the flexible end of electric jar with slider fixed connection.

4. The biochemical garbage disposer of claim 3, wherein: the high-temperature ballast is characterized by further comprising a control computer, wherein the control computer is provided with an input interface and an output interface, a pressure sensor and a first temperature sensor are fixedly arranged on the inner side wall of the high-pressure cabin, the pressure sensor, the first temperature sensor and the electric heating body are all connected with the control computer through wire holes penetrating through the inner wall of the high-pressure cabin, and high-temperature sealant is arranged in the wire holes; the first high-pressure sealing valve plate, the second high-pressure sealing valve plate, the discharge valve, the drain valve and the exhaust valve are respectively provided with a servo motor, and each servo motor and the electric heating body are respectively and electrically connected with an output interface of the control computer.

5. The biochemical garbage disposer of claim 4, wherein: a second temperature sensor is arranged inside the fermentation barrel and is electrically connected with the control computer input interface; the biochemical indicator is electrically connected with the output end of the control computer.

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