CN111871356A

CN111871356A - Energy-efficient type agitator for organic waste treatment

Info

Publication number: CN111871356A
Application number: CN202010788617.XA
Authority: CN
Inventors: 王云
Original assignee: Huzhou Langpei Intelligent Technology Co Ltd
Current assignee: Huzhou Langpei Intelligent Technology Co Ltd
Priority date: 2020-08-07
Filing date: 2020-08-07
Publication date: 2020-11-03

Abstract

The invention discloses an efficient energy-saving stirrer for organic waste treatment, which comprises a stirring box, wherein a feeding pipe is connected above the inner wall of the stirring box, a discharging pipe is connected below the inner wall of the stirring box, the top in the stirring box is rotatably connected with a plurality of stirring rods through a rotating shaft, a cavity is formed in the upper end of the stirring box, the upper end of the rotating shaft penetrates through the top in the stirring box and extends into the cavity, and a sector gear is fixedly connected to the upper end of the rotating shaft. According to the invention, the temperature in the stirring box rises, so that the memory spring extends, the toothed plate drives the sector gear to rotate, and under the action of the heat dissipation plate, the temperature controller can intermittently electrify the electromagnetic block, so that the permanent magnetic plate can slide back and forth on the inner wall of the cavity under the action of the magnetic repulsion force of the electromagnetic block and the elastic force of the memory spring, and further the stirring rod can continuously stir the organic waste, the heat in the stirring box is effectively utilized, a driving mechanism such as a motor is not needed, and the stirring rod is energy-saving and environment-friendly.

Description

Energy-efficient type agitator for organic waste treatment

Technical Field

The invention relates to the technical field of organic waste treatment, in particular to a high-efficiency energy-saving stirrer for organic waste treatment.

Background

Among municipal solid wastes, organic wastes account for a considerable part, but the utilization rate is low, and with the gradual reduction of effective energy, people look to convert and utilize the organic wastes.

In to organic waste processing process, organic waste piles up and reacts together, in order to accelerate organic waste's reaction efficiency, adopt the motor to stir organic waste as actuating mechanism usually, adopt the motor to stir not only extravagant electric power resource to organic waste, moreover the vibrations that produce when the motor rotates are great, cause noise pollution easily, and can release a large amount of heats at organic waste fermentation digestion in-process, at present directly discharge to the air to these heats, and then cause the waste of the energy once more, be unfavorable for the environmental protection.

Therefore, an efficient energy-saving stirrer for organic waste treatment is provided.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides an efficient energy-saving stirrer for organic waste treatment.

In order to achieve the purpose, the invention adopts the following technical scheme:

an efficient energy-saving stirrer for organic waste treatment comprises a stirring box, wherein an inlet pipe is connected above the inner wall of the stirring box, a discharging pipe is connected below the inner wall of the stirring box, an exhaust pipe is connected above the inner wall of the stirring box, a plurality of stirring rods are rotatably connected at the top of the inner part of the stirring box through a rotating shaft, a cavity is formed in the upper end of the stirring box, the upper end of the rotating shaft penetrates through the top of the inner part of the stirring box and extends into the cavity, a sector gear is fixedly connected at the upper end of the rotating shaft, a permanent magnet plate is fixedly connected at the inner wall of the cavity through a memory spring and is in sliding connection with the inner wall of the cavity, a toothed plate meshed with the sector gear is fixedly connected with the side wall of the permanent magnet plate, an electromagnetic block is fixedly connected at the notch of the sector gear and is in homopolar repulsion with the, the inner wall of the cavity far away from the toothed plate is fixedly connected with a heat dissipation plate.

Preferably, the inner wall of the stirring box is connected with a heat conducting rod, and the heat conducting rod is connected with a memory spring.

Preferably, the inner wall of the stirring box is provided with a spiral air outlet cavity, the inner wall of the spiral air outlet cavity is communicated with an exhaust pipe, and a water pipe is connected in the spiral air outlet cavity.

The invention has the following beneficial effects:

1. by arranging the memory spring, the permanent magnet plate, the toothed plate, the heat conducting rod and the sector gear, when the temperature in the stirring box rises, the temperature on the memory spring reaches the abnormal temperature under the action of the heat conducting rod, so that the memory spring extends to push the permanent magnet plate to slide leftwards on the inner wall of the cavity, so that the toothed plate drives the sector gear to rotate, the rotating shaft and the stirring rod are driven to rotate, and the organic waste in the stirring box is stirred;

2. because the temperature in the stirring box is transmitted into the cavity through the memory spring, the temperature in the cavity is increased, the temperature on the temperature controller is higher than the critical value, the temperature controller is electrified, and then the electromagnetic block is electrified to generate magnetism, when the sector gear rotates to enable the electromagnetic block to be aligned with the permanent magnet plate, the magnetic repulsion force between the electromagnetic block and the permanent magnet plate is far larger than the elastic force of the memory spring, the memory spring is contracted, the permanent magnet plate drives the toothed plate to slide rightwards, and further drives the sector gear to rotate reversely, when the temperature controller rotates to the heat dissipation plate, the temperature at the heat dissipation plate is lower, and further the temperature on the temperature controller is lower than the critical value, the power on the temperature controller is cut off, and further the magnetism on the electromagnetic block disappears, the magnetic repulsion force between the electromagnetic block and the permanent magnet plate disappears, and further the memory spring extends again, so that the toothed plate, when the electric permanent magnet plate rotates to be aligned with the magnetism again, the temperature controller is far away from the radiating fins at the moment, the temperature on the temperature controller rises again, the magnetism is generated on the electromagnetic block again, the permanent magnet plate slides leftwards again under the action of magnetic repulsion force, and the operation is repeated, so that the permanent magnet plate slides leftwards and rightwards in the cavity in a reciprocating manner to drive the sector gear to rotate back and forth, the stirring rod continuously stirs the organic waste, the reaction efficiency is improved, the heat in the stirring box is effectively utilized, driving mechanisms such as a motor are not needed, and the energy-saving and environment-friendly effects are achieved;

3. through setting up the spiral and going out gas cavity and water pipe, heat in the exhaust gas can heat the water in the water pipe in following the blast pipe, and under the effect in spiral play gas cavity, the gaseous exhaust time in the blast pipe has been prolonged, not only can carry out even heating to the organic waste in the agitator tank, accelerate the reaction efficiency to organic waste, can also carry out long-time heating to the water in the water pipe, effectual heat to in the gas utilizes, further avoid the consumption of the energy.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view taken along line A-A in the first embodiment of the present invention;

fig. 3 is a schematic structural diagram of a second embodiment of the present invention.

In the figure: 1 stirring box, 2 feeding pipes, 3 discharging pipes, 4 exhaust pipes, 5 rotating shafts, 6 stirring rods, 7 cavities, 8 sector gears, 9 memory springs, 10 permanent magnet plates, 11 toothed plates, 12 electromagnetic blocks, 13 temperature controllers, 14 heat dissipation plates, 15 heat conduction rods, 16 spiral air outlet cavities and 17 water pipes.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, but rather should be construed as broadly as the present invention is capable of modification in various respects, all without departing from the spirit and scope of the present invention.

Example one

Referring to fig. 1-2, a high-efficiency energy-saving stirrer for organic waste treatment, comprising a stirring box 1, wherein a feeding pipe 2 is connected above the inner wall of the stirring box 1, a discharging pipe 3 is connected below the inner wall of the stirring box 1, an exhaust pipe 4 is connected above the inner wall of the stirring box 1, a plurality of stirring rods 6 are rotatably connected at the top of the stirring box 1 through a rotating shaft 5, a cavity 7 is formed at the upper end of the stirring box 1, the upper end of the rotating shaft 5 penetrates through the top of the stirring box 1 and extends into the cavity 7, a sector gear 8 is fixedly connected at the upper end of the rotating shaft 5, a permanent magnet plate 10 is fixedly connected at the inner wall of the cavity 7 through a memory spring 9, further, the memory spring 9 is made of nickel-titanium memory alloy material, the metamorphosis temperature of the nickel-titanium memory alloy material is 40 ℃, when the temperature inside the stirring box 1 reaches the metamorphosis temperature of the memory, the memory spring 9 is kept in an initial state, the permanent magnet plate 10 is in sliding connection with the inner wall of the cavity 7, the side wall of the permanent magnet plate 10 is fixedly connected with a toothed plate 11 meshed with the sector gear 8, the notch of the sector gear 8 is fixedly connected with an electromagnetic block 12, and the same poles of the electromagnetic block 12 and the permanent magnet plate 10 repel each other, it should be noted that when the electromagnetic block 12 and the permanent magnet plate 10 are in positive alignment, the magnetic repulsion force between the electromagnetic block 12 and the permanent magnet plate 10 is far greater than the elastic force of the memory spring 9, and then the permanent magnet plate 10 slides rightwards under the action of the magnetic repulsion force, the side wall of the sector gear 8 is fixedly connected with a temperature controller 13, the temperature controller 13 is coupled with the electromagnetic block 12, the inner wall of the cavity 7 far away from the toothed plate 11 is fixedly connected with a heat dissipation plate 14, further, the temperature controller 13 can control the on-off of the current on the electromagnetic block 12 according to, when the memory spring 9 deforms, the overall temperature in the cavity 7 reaches the critical value of the temperature controller 13, at this time, current passes through the electromagnetic block 12, and when the temperature controller 13 rotates to the heat dissipation plate 14, the current on the electromagnetic block 12 is cut off at this time because the temperature at the heat dissipation plate 14 is lower than the critical value of the temperature controller 13.

The inner wall of the stirring box 1 is connected with a heat conducting rod 15, and the heat conducting rod 15 is connected with the memory spring 9.

In this embodiment, when organic waste reacts in the stirring tank 1 to generate a large amount of heat, the heat conducting rod 15 transfers the heat in the stirring tank 1 to the memory spring 9 and the cavity 7, and when the temperature on the memory spring 9 reaches the abnormal temperature, the memory spring 9 extends, so that the permanent magnet plate 10 drives the toothed plate 11 to slide leftwards on the inner wall of the cavity 7, and further drives the sector gear 8 meshed and connected with the toothed plate 11 to rotate forwards, and further drives the stirring rod 6 to rotate forwards in the stirring tank 1, so as to stir the organic waste in the stirring tank 1;

when the sector gear 8 rotates to drive the electromagnetic block 12 to rotate to be opposite to the permanent magnetic plate 10, because the temperature in the cavity 7 reaches a critical value of the temperature controller 13 at the moment, current passes through the electromagnetic block 12 and generates magnetism, and the magnetic repulsion force between the electromagnetic block 12 and the permanent magnetic plate 10 is far larger than the elastic force of the memory spring 9, the permanent magnetic plate 10 drives the toothed plate 11 to slide rightwards, and then the sector gear 8 is driven to rotate reversely, and the stirring rod 6 rotates reversely in the stirring box 1;

when the sector gear 8 rotates reversely to make the temperature controller 13 located at the heat dissipation plate 14, because the temperature at the heat dissipation plate 14 is lower, the temperature on the temperature controller 13 is lower than the critical value, and then the circuit of the electromagnetic block 12 is disconnected and the magnetism disappears, so that the magnetic repulsion force between the electromagnetic block 12 and the permanent magnetic plate 10 disappears, and then the permanent magnetic plate 10 drives the toothed plate 11 to slide leftwards again under the elastic force of the memory spring 9, and then the sector gear 8 drives the stirring rod 6 to rotate forwards again, when the electromagnetic block 12 rotates forwards with the permanent magnetic plate 10 again, the permanent magnetic plate 10 drives the toothed plate 11 to slide rightwards again under the action of the magnetic repulsion force, and the above-mentioned operations are repeated, so that the permanent magnetic plate 10 drives the toothed plate 11 to slide leftwards and rightwards in the inner wall of the cavity 7 in a reciprocating manner, and drives the sector gear 8 to rotate forwards and backwards constantly, and then drives the stirring rod 6 to rotate forwards and backwards, the reaction efficiency is accelerated.

Example two

Referring to fig. 3, the difference from the first embodiment is that a spiral air outlet cavity 16 is formed in the inner wall of the stirring box 1, the inner wall of the spiral air outlet cavity 16 is communicated with the exhaust pipe 4, and a water pipe 17 is connected in the spiral air outlet cavity 16.

In this embodiment, the heat part that organic waste reaction produced in agitator tank 1 can be followed blast pipe 4 and discharged, under the effect of spiral air outlet cavity 16, the contact time of gas and 1 inner wall of agitator tank has been prolonged, and then make the heat in the gas carry out the abundant heating to organic waste, accelerate organic waste's reaction efficiency, can also carry out long-time heating to the water in the water pipe 17 simultaneously, effectual heat to in the gas utilizes, further avoid the consumption of the energy, environmental protection is effectual.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides an energy-efficient type agitator for organic waste treatment, includes agitator tank (1), agitator tank (1) inner wall top is connected with inlet pipe (2), agitator tank (1) inner wall below is connected with discharging pipe (3), agitator tank (1) inner wall top is connected with blast pipe (4), its characterized in that, top rotates through pivot (5) in agitator tank (1) and is connected with a plurality of puddlers (6), cavity (7) have been seted up to agitator tank (1) upper end, pivot (5) upper end runs through agitator tank (1) interior top and extends to in cavity (7), pivot (5) upper end fixedly connected with sector gear (8), cavity (7) inner wall passes through memory spring (9) fixedly connected with permanent magnetism board (10), permanent magnetism board (10) and cavity (7) inner wall sliding connection, permanent magnetism board (10) lateral wall fixedly connected with toothed plate (11) with sector gear (8) meshing, fixedly connected with electromagnetism piece (12) is located to sector gear (8) breach, just electromagnetism piece (12) and permanent magnetism board (10) homopolar repulsion, sector gear (8) lateral wall fixedly connected with temperature controller (13), temperature controller (13) and electromagnetism piece (12) coupling are connected, pinion rack (11)'s inner wall fixedly connected with heating panel (14) are kept away from in cavity (7).

2. The energy-efficient mixer for organic waste disposal according to claim 1, wherein a heat conduction rod (15) is connected to an inner wall of said mixing tank (1), and said heat conduction rod (15) is connected to a memory spring (9).

3. The efficient energy-saving stirrer for treating organic waste according to claim 1, wherein the inner wall of the stirring tank (1) is provided with a spiral gas outlet cavity (16), the inner wall of the spiral gas outlet cavity (16) is communicated with the exhaust pipe (4), and the spiral gas outlet cavity (16) is internally connected with a water pipe (17).