KR200393308Y1 - The process apparatus for excrementitious matter of domestic animals - Google Patents

Abstract

The present invention relates to an improvement of the design application of the pre-owned livestock manure processing device for drying and processing the manure of livestock containing a large amount of water to compost, more specifically, the direction of progress of each manure conveying pipe connected to the upper and lower stages The manure separation structure at the end ensures that the manure can be discharged to the next stage through the manure dropping pipe without being pressed against the end where the manure is blocked, so as to prevent overload of the conveying screw and maintain the uniformity of the manure conveyance. The manure accumulation sensor of manure is placed on the inner wall of the pipe so that the rotational speed of the transfer screw can be adjusted according to the manure accumulation amount so that the amount of feeding can be automatically adjusted according to the supply of manure to maintain the smoothness of manure transfer. In addition, the manure crushing structure is placed in place on the transfer screw, so that the manure is not crushed and finely crushed. Safety in handling by constructing a flue-type gas discharge pipe that can discharge gas in the combustion state on the outside of the gas containing tank by pursuing the manure transfer to reduce the transfer resistance. It is possible to pursue the increase of the amount of gas and gas purification, and it provides cooling and water reduction function before the finished manure is discharged to the outside by applying a blower that can blow air into the final stage of manure conveying pipe. The present invention relates to a livestock manure processing apparatus which allows the discharged manure to be easily collected and handled and to maintain an appropriate compost form in which microorganisms survive.

Description

Livestock manure processing equipment {THE PROCESS APPARATUS FOR EXCREMENTITIOUS MATTER OF DOMESTIC ANIMALS}

The present invention relates to an improvement of the design application of the pre-owned livestock manure processing device for drying and processing the manure of livestock containing a large amount of water to compost, more specifically, the direction of progress of each manure conveying pipe connected to the upper and lower stages The manure separation structure at the end ensures that the manure can be discharged to the next stage through the manure dropping pipe without being pressed against the end where the manure is blocked, so as to prevent overload of the conveying screw and maintain the uniformity of the manure conveyance. The manure accumulation sensor of manure is placed on the inner wall of the pipe so that the rotational speed of the transfer screw can be adjusted according to the manure accumulation amount so that the amount of feeding can be automatically adjusted according to the supply of manure to maintain the smoothness of manure transfer. In addition, the manure crushing structure is placed in place on the transfer screw, so that the manure is not crushed and finely crushed. Safety in handling by constructing a flue-type gas discharge pipe to discharge gas in the combustion state outside the gas receiving tank by pursuing the manure transfer smoothly by reducing the transfer resistance. It is possible to pursue the increase of the amount of gas and gas purification, and it provides cooling and water reduction function before the finished manure is discharged to the outside by applying a blower that can blow air into the final stage of manure conveying pipe. The present invention relates to a livestock manure processing apparatus which allows the discharged manure to be easily collected and handled and to maintain an appropriate compost form in which microorganisms survive.

Recently, the Ministry of Environment has installed village sewerage facilities in small villages scattered in the upper water supply area as part of the preservation policy of clear water, but the investment cost is excessive compared to the pollution level. The cause is much more serious, but there are insufficient active countermeasures.

Livestock manure is quantitatively smaller than living sewage in terms of emissions, but is very high in terms of pollution load. to be.

Conventional treatment methods for livestock manure were mixed with sawdust, dried, and then sprayed on agricultural land. However, these methods involve various problems such as the purchase of sawdust and treatment after mixing with manure. Is not used well, and the reason for this is that sawdust, chaff, or lime are added to solidify the livestock manure, so the cost of maturation of livestock manure increases, increasing the economic burden on livestock farmers. Because.

Recently, the government has invested enormous funds to install livestock waste treatment facilities, but it has not been properly operated due to the overloading measures and other inappropriate management.

In particular, as a method for maturing livestock manure in livestock manure, fermentation by adding chaff or sawdust is generally used. In this way, when the solid material of livestock manure is matured, the scale of livestock manure treatment facility is very large. There is a disadvantage that the construction cost is very high.

Therefore, the livestock waste treatment facility has a problem that the livestock manure treatment facility must be very small in size to provide a device with low maintenance cost, construction cost, and treatment cost by miniaturizing the livestock manure processing facility in accordance with the reality of Korea.

In addition, recently, a boiler drying apparatus was developed to dry livestock manure with high pressure steam as a heat source to dry the livestock manure, and it has been spread to farms, but the installation area is excessive because it requires a boiler facility. In addition, the mechanical equipment is complicated and frequently occurs, and when the drying operation is completed through the boiler drying apparatus, the worker has to artificially discharge the fixed shaft powder each time, which has a disadvantage in that the work is cumbersome and the workability is lowered.

In consideration of the above problems, the manure is composed of a single manure conveying pipe connected to a single line, a conveying screw responsible for conveying manure in the manure conveying pipe, a driving motor for driving the manure, and manure on the outer circumferential surface of the manure conveying pipe. Heater for heating and drying of the gas, a gas discharge structure for discharging the boil-off gas containing water generated in some of the manure conveying pipe to the outside, and the exhaust gas is collected and heated to a high temperature to remove moisture and deodorize the atmosphere There has been proposed a livestock manure treatment device including a purification structure for releasing the furnace. However, the structure has the following problems.

⊙ There is a problem that the manure is hardened by pressing the manure at the end of the manure conveying pipe where the transfer screw is mounted.It causes an overload on the transfer screw, which increases the incidence of failure of the device as well as the manure that is pressed. By narrowing the passageway of the drop tube, there was a problem of impeding the manure transport or irregularizing the transport amount.

⊙ Also, the rotational speed of the feed screw is all set the same, and there is no structure to detect the amount of manure accumulated in the manure conveying pipe of each stage, so each manure transfer is carried out for various reasons such as manure input conditions and clogging of the dropping pipe. If there is a difference in the amount of intake of manure in the pipe, the load applied to each drive motor is different, which may cause waste of power and overload, and the manure transfer is not smooth, and thus the reliability of the device is deteriorated.

⊙ In addition, spiral feed vanes are formed on the entire shaft of the feed screw to achieve the purpose of simply manure conveying. Therefore, when manure is conveyed, the manure is agglomerated, making it difficult to introduce air into the manure. As the contact area with the inner wall of the transfer pipe increases, the transfer resistance increases, so that the consumption of power increases and the entry of heat into the manure becomes difficult, resulting in a decrease in drying efficiency.

⊙ In addition, by placing the exhaust delay structure and the ignition heater inside the gas storage tank, the processing speed of the exhaust gas is delayed and the purification efficiency is low due to the reduction of the space where gas can be accommodated. As combustion occurs inside the gas tank, the surface temperature of the gas storage tank rises and there is a risk of burns in handling, and there is a hassle to install a separate fire protection system on the surface to prevent this.

⊙ In addition, in the prior application, only manure drying was prioritized, and microorganisms in the manure disappeared due to excessive heat drying, making it unsuitable for composting. .

The present invention was devised to solve and solve all the problems caused by the existing livestock manure treatment device as described above,

The purpose of the present invention is to prevent the overload of the conveying screw and maintain the uniformity of the manure conveyance by allowing the manure to be discharged to the next stage smoothly without being stuck to the end of the manure being blocked. According to the rotational speed of the feed screw to adjust the feed amount automatically according to the supply of manure to maintain the smoothness of the manure transfer, the manure is conveyed in a finely crushed state without agglomeration transfer resistance It is possible to pursue the smoothness of manure transport through the reduction of the gas, and to increase the safety of gas purification structure and increase the gas purification amount, and to reduce the cooling and moisture before the treated manure is discharged to the outside. The manure discharged to give the function is easy to collect and handle and the compost is suitable for microorganism survival. To provide a manure processing device that can maintain the state will have its object,

The purpose of the present invention as described above,

A manure separation structure installed at the end of each manure conveying pipe in the direction of travel, a manure load sensor of the manure installed on the inner wall of the manure dropping pipe, and a manure crushing structure formed in place of the transfer screw, and a chimney shape outside the gas storage tank. Can be achieved through a blower installed in the gas discharge pipe and the manure transport pipe of the final stage,

Hereinafter, the configuration of the present invention in detail based on the accompanying drawings as follows.

1 is a cross-sectional view showing the overall configuration of an embodiment of the present invention,

The upper manure conveying pipe (1) having a manure dropping pipe (1 ') connected to the upper side of the hopper (H) and connected to the next manure conveying pipe (1') at the bottom of the other end, and the upper manure conveying pipe (1). In the state that the tip is connected to the manure dropping pipe (1 ') of the multi-stage intermediate side manure conveying pipe (2) consisting of zigzag connected to each other through a manure dropping pipe (2') formed at the bottom of each rear end; The other end is connected to the manure dropping pipe (2 ') of the manure dropping pipe (2) of the middle side and the lowest manure transfer pipe (3) having a manure discharge pipe (3') exposed to the outside at the bottom once; It is built inside the top, bottom and middle side manure conveying pipes (1), (2), (3) and rotates to allow variable speed through a plurality of driving motors (M), and performs a transfer of manure. A transfer screw 4; The uppermost, lowermost and middle side manure conveying tubes (1), (2), is fixed to the outer peripheral surface of the fixed length to a predetermined length and each of the upper side, the middle side manure conveying tubes (1), (2) A plurality of transfer pipe heaters 5 for heating and drying the manure by heating, a plurality of gas discharge ports 6 configured to be exposed to the outside on the upper side of the middle manure transfer pipe 2, and the gas discharge ports 6 The inlet fan (7) for forcibly supplying the boil-off gas generated in the intermediate manure transfer pipe (2) to the gas purification structure (40) to be described later through a connecting pipe (7 ') coupled to the In structure;

The case 11 and the case on the housing 11 which is installed in communication with the inner end of the upper end, the lower end, and the middle side manure conveying pipes 1, 2, and 3 in the advancing direction; A manure separation structure 10 configured to be bent vertically on one inner wall and composed of a manure separation piece 12 having a lower end portion between the transfer blades 4 'of the transfer screw 4;

The middle side manure conveying pipe (2) is fixed to the inner wall of the manure dropping pipe (2 ') of some of the plurality of sensing rods 21 having a multi-stage sensing height and the corresponding middle manure conveying pipe (2) A load amount detecting sensor 20 for detecting the amount of manure accumulated in the water to adjust the rotational speed of the transfer screw 4;

A manure crushing structure (30) composed of crushed pieces (31) which are arranged in place of the conveying screw (4) and are divided at regular angles on the outer circumferential surface of the shaft portion (4 ") and twisted at a predetermined angle;

A gas receiving tank 41 connected to the intake fan 7 and having an empty inside, a gas discharge pipe 42 installed on an upper surface of the gas receiving tank 41 in communication with the outside, and the gas discharge pipe ( 42 is fixed to the inside of the gas discharge delay member 43 having a semi-circular delay plate 43B is fixed to the zigzag in a state spaced at equal intervals on the outer circumferential surface of the support bar (43A) and the gas discharge pipe ( A gas purifying structure 40 fixed to an outer circumferential surface of the 42 and including an ignition heater 44 for heating the gas passing through the gas discharge pipe 42 above the ignition point;

It is installed in a state connected to the inside of the lower manure transport pipe (3) is characterized in that it comprises a blower 50 for supplying the outside air to the inside of the lower manure transport pipe (3) .

1 and 9 illustrate a structure for recycling heat emitted from the gas discharge pipe 42.

Among them, in FIG. 1, a pipe 60 capable of moving heat is connected to the heating coil 61 wound on the manure supply pipe P of the manure storage tank T from the gas discharge pipe 42 to install the gas discharge pipe 42. The manure supply pipe (P) can be heated using the exhaust heat of) to preheat the manure and thaw the manure during the winter season.

Meanwhile, in FIG. 9, as in FIG. 10, a heating coil 5B is installed inside the electric heater 5B ′ to install a combined heater 5A that can combine electricity and discharge heat, and move the heat therein. 60 is connected from the gas discharge pipe 42 to the heating coil 5B of each combined heater 5A, and the upper and middle manure conveying pipes 1 and 2 are discharged using the discharge heat of the gas discharge pipe 42. ) Heating allows the selective use of electricity and heat to seek to save electrical energy and recycle thermal energy.

<Not shown in the drawing>

(C) is electrically connected to the drive motor (M), the transfer tube heater (5), the intake fan (7), and the accumulation amount sensor 20 and shows a controller for controlling the operation, respectively.

When explaining the operation of the subject innovation constituted as described above in detail.

First, the present invention is installed to supply the manure stored in the manure storage tank (T) as shown in Figure 1 to the hopper (H) through the manure supply pipe (P) in which the automatic transport structure is installed and the top, bottom and middle Side manure conveying pipes (1), (2), and (3) are installed horizontally, but manure dropping pipes (1 ') and (2') are configured vertically so that the manure transported at any stage automatically falls to the next stage. It is configured to be moved while moving.

In addition, each drive motor M for driving the transfer screw 4 of the uppermost, lowermost and middle manure conveying pipes 1, 2, and 3 is independent by the control of the controller C. It is required to apply a structure that can have a rotating speed and is endowed with a deceleration function.

The uppermost, lowermost, and middle side manure conveying pipes (1), (2), and (3) were combined in a total of eight stages in the drawing. Of course.

In addition, the application position and the number of components of the gas outlet 6 are applied to the middle manure conveying pipe 2 where gas is generated the most during the treatment process, but the application area and the number of the gas outlet 6 may be adjusted as necessary. It may be different.

The manure separating structure 10 is installed in all the manure conveying pipe and the case 11 constitutes a gas outlet 6 to which the connection pipe 7 'is connected and the manure separating piece welded to the inner wall of the case 11 ( 12) the lower end is located between the transfer blades 4 'of the transfer screw 4 to remove the manure that is conveyed together in a stuck state and detached from the transfer screw 4, and smoothly does not stick to the blocked end. 1 ') (2') allows release to the next stage.

The accumulation amount sensor 20 is a sensor for detecting the accumulation position of the manure through the detection of water, the viscosity of the middle side of the manure conveying pipe (2) to increase the transfer resistance (??) during the processing of the manure Applicable to some, but not limited to, may be applied to other manure transport pipe as needed.

 The manure crushing structure 30 applied to the conveying screw 4 is formed in approximately two places, and if the number of components is greater than that, the crushing force increases but the conveying force may be lowered.

The shredding piece 31 of the manure crushing structure 30 is configured to be twisted in the same direction as the feed wing so as to exert a certain conveying function at the same time as the shredding.

The manure treatment process of the present invention configured as described above is as follows.

When the manure collected in the manure storage tank (T) is introduced into the hopper (H) of the upper manure conveying pipe (1) through the manure supply pipe (P), the manure dropping pipe (1) is rotated by the rotation of the conveying screw (4). The manure is gradually heated and dried due to the heat imparted by the transfer tube heater 5 during the process of moving slowly toward the ')'.

The manure moved to the manure dropping pipe 1 'is dropped into the middle manure conveying pipe 2 while being vertically dropped, and the manure dropped into the manure dropping pipe 2' by the rotation of the feed screw 4 rotated as described above. While slowly moving toward), the process of moving while heating and drying at an appropriate temperature through the heater 61 is repeated in multiple stages.

The manure passing through the manure dropping tube 2 ′ of the middle manure conveying pipe 2 is introduced into the lowest manure conveying pipe 3 through which the outside air is introduced by the blower 50 and moves together with the inlet air. While finally discharged to the outside through the manure discharge pipe (3 '),

At this time, the treated manure passing through the lower manure transport pipe (3) is accelerated by evaporation of moisture due to cooling due to the inflow air, and the discharged manure is kept in a moist state that maintains proper humidity without being excessively exhausted. It is easy to handle in the process of collection and packaging, and it can contain the appropriate microorganisms to meet the requirements of the compost.

Meanwhile, the manure passing through the uppermost, lowermost, and middle manure conveying pipes (1), (2), and (3) is moved to an agglomerated state with excessive viscosity, and the manure crushing structure configured on the conveying screw (30) (30). Air is introduced into the crushed and broken pieces at the same time as the crushed pieces 31 are reduced, so that the transfer resistance and rotational overload are reduced, the transfer is smooth and the entry of heat into the manure is easy, so that the drying efficiency can be increased. do.

In addition, there is a difference in the amount of manure inflow in each manure transport pipe due to various reasons such as unevenness of manure input, and due to the excessive amount of manure in any manure transport pipe, the water level surface of the manure rises as shown in FIG. When contacted with the arbitrary sensing rod 21 of (20), the detection signal is transmitted to the controller (C) to rotate the drive motor and the transfer screw (4) at the additional rising rotation speed set in the sensing rod 21, the manure conveyed amount Raise the body to relieve backlog.

 The sensing rod 21 is composed of a plurality of the height of the end of each sensing rod 21 is configured differently to detect a variety of abnormal accumulation level, the higher the accumulation level is the relative rotation speed of the transfer screw Is increased.

Meanwhile, the middle side manure conveying pipe 2 corresponds to the middle part of the treatment process, in which gas is most generated during the treatment process, and gas containing moisture generated while passing through this portion is suction force of the suction fan 7. Through the connecting pipe (7 ') through the gas receiving tank 41 of the gas purification structure 40 is introduced into the gas discharge delay member (43) and then slowly passes through the gas discharge pipe 42 inside the water is removed and At the same time, the gas discharge pipe 42 is ignited and burned by the ignition heater 44 that heats the temperature at about 400 to 600 ° C.

As the gas is burned, the contained odor is eliminated and a heat source that can be recycled is created.

The gas passes through the semicircular delay plate 43B while the traveling direction is changed in a zigzag, and thus the discharge speed delay and the passage length are extended to minimize the amount of gas discharged into the unburned state.

In the above, an embodiment of the present invention has been described with reference to livestock manure, but is not limited thereto, and can be used as a facility that can be installed as various food waste dumping bins or vegetable dumping bins and dried to produce compost as compost. It is natural that a person having ordinary knowledge in the technical field to which the present invention belongs, and the like changed and modified without departing from the technical idea of the present invention belong to the scope of the present invention.

The present invention as described above can be smoothly discharged to the next step through the dropping pipe without pressing the end of the manure is blocked, it is possible to prevent the overload of the transfer screw and to maintain the uniformity of the manure transfer amount,

In addition, by adjusting the rotational speed of the feed screw according to the amount of manure accumulation, the transfer amount is automatically adjusted according to the supply of manure to maintain the smoothness of the manure transfer, and in the state of finely crushing the manure during transfer. As it is being conveyed, it is possible to pursue the manure conveyance smoothly by reducing the conveyance resistance.

In addition, since the gas is burned and discharged from the outside of the gas holding tank, it is possible to pursue an increase in the handling safety and gas purification amount of the gas purification structure.

In addition, it is a useful design that can maintain the appropriate compost form that the discharged manure is easy to handle handling and microorganisms survive by giving cooling and moisture reduction function before the discharged manure is discharged to the outside.

1 is an exemplary view showing the overall configuration of an embodiment of the present invention.

Figure 2 is a perspective view of the main incision showing the manure separation structure and the amount of load sensor is a main part of the present invention.

3 is a longitudinal cross-sectional view of FIG. 2.

Figure 4 is a sectional view of the main part showing an operating state of the manure feed rate control sensor, which is a main part of the present invention.

Figure 5 is a perspective view showing a feed screw to which the manure crushing structure is a main part of the present invention.

6 is a sectional view of the main parts of FIG. 5;

Figure 7 is a main part cutaway cross-sectional view showing a gas purification structure of a main part of the present invention.

8 is a perspective view showing a gas discharge delay structure applied to the gas purification structure of FIG.

9 is an exemplary view showing another configuration example of the exhaust heat recycling structure applied to the present invention.

10 is a cross-sectional view illustrating a configuration example of a combined heater applied to FIG. 9.

<Description of the code | symbol about the principal part of drawing>

1: uppermost manure conveying tube 1 ': manure dropping tube

2: Middle side manure conveying pipe 2 ': Manure dropping pipe

3: lowest manure transfer pipe 3 ': manure discharge pipe

4: Feeding screw 4 ': Feeding wing

4 ": Shaft 5: Feed tube heater

6: gas outlet 7: intake fan

7 ': connector 10: manure separation structure

11: Case 12: manure separation

20: Weight detection sensor 21: Detection rod

30: manure crushing structure 31: crushed pieces

40: gas purification structure 41: gas receiving tank

42: gas discharge pipe 43: gas discharge delay member

43A: Support Rod 43B: Delay Plate

44: ignition heater 50: blower

60: pipe 61: heating coil

Claims (3)

The upper manure conveying tube 1 having a manure dropping tube 1 'connected to the upper side of the hopper H and connected to the next manure conveying tube at the bottom of the other end, and the upper manure conveying tube 1; In the state that the front end is connected to the manure dropping pipe (1 ') and the multi-stage intermediate side manure conveying pipe (2) consisting of zigzag connected to each other via a manure dropping pipe (2') formed at the bottom of each rear end, and the The lowermost manure conveying tube 3 having the other end connected to the manure dropping tube 2 'of the middle manure conveying tube 2 and having a manure discharge tube 3' exposed to the outside at the bottom; It is built in the lower and middle manure conveying pipes (1), (2), (3) and a plurality of conveyances that are arranged to rotate the speed variable through a plurality of drive motors (M) to carry the manure transfer A screw 4; It is fixed to the outer circumferential surface of the uppermost, lowermost and middle side manure conveying tube (1), (2), (3) fixed length to each of the upper side, the middle side manure conveying tube (1), (2), (3) a plurality of transfer pipe heaters (5) for heating and drying the manure, a plurality of gas outlets (6) configured to be exposed to the outside on the upper side of the manure transfer pipe (2), and An intake fan 7 for forcibly supplying the boil-off gas generated in the middle manure conveying pipe 2 to the gas purifying structure 40 described later through a connecting pipe 7 'coupled to the gas outlet 6. In the known structure containing; The case 11 and the case on the housing 11 which is installed in communication with the inner end of the upper end, the lower end, and the middle side manure conveying pipes 1, 2, and 3 in the advancing direction; A manure separation structure 10 configured to be bent vertically on one inner wall and composed of a manure separation piece 12 having a lower end portion between the transfer blades 4 'of the transfer screw 4; The middle side manure conveying pipe (2) is fixed to the inner wall of the manure dropping pipe (2 ') of some of the plurality of sensing rods 21 having a multi-stage sensing height and the corresponding middle manure conveying pipe (2) A load amount detecting sensor 20 for detecting the amount of manure accumulated in the water to adjust the rotational speed of the transfer screw 4; A manure crushing structure (30) composed of crushed pieces (31) which are arranged in place of the conveying screw (4) and are divided at regular angles on the outer circumferential surface of the shaft portion (4 ") and twisted at a predetermined angle; A gas receiving tank 41 connected to the intake fan 7 and having an empty inside, a gas discharge pipe 42 installed on an upper surface of the gas receiving tank 41 in communication with the outside, and the gas discharge pipe ( 42 is fixed to the inside of the gas discharge delay member 43 having a semi-circular delay plate 43B is fixed to the zigzag in a state spaced at equal intervals on the outer circumferential surface of the support bar (43A) and the gas discharge pipe ( A gas purifying structure 40 fixed to an outer circumferential surface of the 42 and including an ignition heater 44 for heating the gas passing through the gas discharge pipe 42 above the ignition point; Livestock, characterized in that installed in the state connected to the lower manure transport pipe (3) and comprises a blower (50) for supplying the outside air to the inside of the lower manure transport pipe (3), respectively Manure processing device. The method of claim 1; The heating coil 61 is wound around the manure supply pipe P of the manure storage tank T, and a pipe 60 capable of moving the heat of the gas discharge pipe 42 is connected to and installed as a discharge heat of the gas discharge pipe 42. Livestock manure processing apparatus, characterized in that configured to heat the manure supply pipe (P). The method of claim 1; An electric heater 5B 'and a heating coil 5B provided therein are provided with a combined heater 5A that can combine electricity and discharge heat with the top and middle manure conveying pipes 1 and 2 of the electric heater 5B'. The pipe 60, which is mounted on the surface and can move the heat of the gas discharge pipe 42, is connected to and installed to connect the upper and middle manure transport pipes 1 and 2 to the discharge heat of the gas discharge pipe 42. Livestock manure processing apparatus, characterized in that configured to be heated.