CN212253158U - Heating oil circuit system of poultry excrement high-temperature fermentation device - Google Patents
Heating oil circuit system of poultry excrement high-temperature fermentation device Download PDFInfo
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- CN212253158U CN212253158U CN202020955434.8U CN202020955434U CN212253158U CN 212253158 U CN212253158 U CN 212253158U CN 202020955434 U CN202020955434 U CN 202020955434U CN 212253158 U CN212253158 U CN 212253158U
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- oil
- bin body
- heating
- fermentation device
- poultry excrement
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Abstract
The utility model provides a heating oil circuit system of a high-temperature poultry excrement fermentation device, which comprises an oil tank, an oil inlet pipeline, an oil return pipeline and a bin body oil storage interlayer, wherein the oil return pipeline is provided with a circulating pump assembly; oil circuit circulation is realized between the oil tank and the bin body oil storage interlayer through an oil inlet pipeline and an oil return pipeline; and a plurality of heaters are uniformly distributed on two sides inside the bin body oil storage interlayer. The utility model discloses in, through the mode of evenly arranging a plurality of heaters in storehouse body oil storage intermediate layer, adopt the built-in heating methods in storehouse to heat circulating oil, can guarantee the homogeneity of heating to and add efficiency.
Description
Technical Field
The utility model mainly relates to the relevant technical field of poultry excrement treatment equipment, in particular to a heating oil circuit system of a poultry excrement high-temperature fermentation device.
Background
The poultry excrement treatment equipment is designed to meet the requirement of environmental protection. However, the existing poultry excrement treatment equipment has the problems that heating oil of a heating system is heated unevenly, electric quantity is consumed and the like. The reason why the heating oil is heated unevenly is that a local area of the cartridge body has poor fluidity due to the stagnation of the heating oil, and thus has less heat than other areas. The reason of consuming electric quantity is because the mobility of heating oil is strong, and the flow space is great, is carrying out the in-process that heats and the in-process that the oil feed was returned to the storehouse body, all can have the electric quantity consumption phenomenon. In order to increase the heating efficiency of the poultry excrement treatment equipment and reduce the power consumption, a novel energy-saving oil circuit device which can heat evenly in real time needs to be designed.
SUMMERY OF THE UTILITY MODEL
For solving the not enough of prior art, the utility model discloses combine prior art, from practical application starting, provide a birds excrement and urine high temperature fermentation device's heating oil piping system, it can solve inhomogeneous, the too big problem of electric quantity consumption of heating that birds excrement and urine treatment facility oil piping system exists.
In order to achieve the above purpose, the technical scheme of the utility model is as follows:
a heating oil circuit system of a high-temperature poultry excrement fermentation device comprises an oil tank, an oil inlet pipeline, an oil return pipeline and a bin body oil storage interlayer, wherein a circulating pump assembly is arranged on the oil return pipeline;
oil circuit circulation is realized between the oil tank and the bin body oil storage interlayer through an oil inlet pipeline and an oil return pipeline;
and a plurality of heaters are uniformly distributed on two sides inside the bin body oil storage interlayer.
The utility model discloses in, through the mode of evenly arranging a plurality of heaters in storehouse body oil storage intermediate layer, adopt the built-in heating methods in storehouse to heat circulating oil, can guarantee the homogeneity of heating to and add efficiency.
Furthermore, the heater is an electric heater and is fixedly arranged inside the bin body oil storage interlayer in a welding or threaded connection mode.
Further, install first gate valve on advancing oil pipe way, install the second gate valve on the oil return pipeline. The oil inlet pipeline and the oil outlet pipeline are heated to regulate the flow of oil through the structure of the gate valve.
Further, the circulating pump assembly is arranged into two sets which are connected in parallel, the two sets of circulating pump assemblies can be mutually standby, and the circulating pump assembly comprises a pump body and stop valves arranged at the front end and the rear end of the pump body. The two sets of circulating pump assemblies are mutually standby, and when one path of the circulating pump assemblies fails, the other path of the circulating pump assemblies is directly involved, so that continuous circulation of an oil path can be ensured.
Furthermore, the oil tank is arranged on the top of a bracket higher than the oil storage interlayer of the bin body in a welding or threaded connection mode. The oil tank sets up at the top, can conveniently heat the circulation flow of oil under the action of gravity.
Furthermore, 9 heaters are sequentially and equidistantly arranged on two sides of the oil storage interlayer of the bin body.
Furthermore, the oil tank is also connected with an oil drainage pipe. The oil quantity in the oil tank is adjusted through the oil drainage pipe, and oil drainage operation can be achieved.
Furthermore, single-layer plates are arranged in the front and the back of the bin body oil storage interlayer, the left side surface and the right side surface of the bin body oil storage interlayer comprise interlayers, the bottom of the bin body oil storage interlayer is semicircular, and the heater is matched with the cross section of the bin body oil storage interlayer in shape. The shape of the heater is adapted to the special oil storage interlayer structure of the bin body, and the heater adopts an L-shaped structure, so that the heater is convenient to install and heat uniformly.
Further, storehouse body oil storage intermediate layer is equipped with oil inlet and oil-out, the oil inlet sets up and is close to left and right sides face department on the front side top, and symmetric distribution just realizes both sides oil feed simultaneously with advancing oil piping connection.
Further, the oil outlet is arranged at the bottom close to the rear side face and connected with an oil return pipeline. The arrangement of the oil inlet and the oil outlet facilitates the overall circular flow of the hydraulic oil, and the heating is uniform.
The utility model has the advantages that:
1. the utility model discloses in, realize the oil circuit circulation through advancing oil pipe way, return oil pipe way between oil tank and the storehouse body oil storage intermediate layer, set up and realize the real-time heating of circulating oil at a plurality of heaters of storehouse body oil storage intermediate layer inside to guarantee that storehouse body inside heating oil is heated evenly, adopt the mode of built-in heater, compare traditional mode and can improve heating efficiency, reduce the electric quantity consumption, consequently, the utility model relates to an energy-saving, have the heating oil piping system of evenly implementing heating function.
2. In the utility model, the oil circuit system can be adjusted through the arranged valve structure, and the oil inlet and the oil outlet flow are adjusted; through the draining pipe that sets up, can carry out the draining operation.
3. The utility model discloses in, through set up two sets of circulating pump structures on returning oil pipe way, can each other be for reserve, when one of them set of circulating pump breaks down, another set of circulating pump can in time intervene to guarantee the continuous circulation of oil circuit.
4. The utility model discloses in, through the storehouse body of rational arrangement and the heater structure that suits, can guarantee the homogeneity of heating to and oil feed and oil return smoothly in real time.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention.
FIG. 2 is a schematic view of the structure of the present invention;
FIG. 3 is a left side view structure diagram of the present invention;
FIG. 4 is a schematic structural view of the outer wall of the interlayer of the bin body and the heater according to the present invention;
fig. 5 is a schematic view of the overlooking structure of the outer wall of the interlayer of the bin body and the heater of the utility model.
Detailed Description
The present invention will be further described with reference to the accompanying drawings and specific embodiments. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Furthermore, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teachings of the present invention, and these equivalents also fall within the scope defined in the present application.
As shown in figures 1-5, it is a schematic structural diagram related to the heating oil circuit system of the poultry excrement high-temperature fermentation device provided by the utility model.
The utility model mainly comprises an oil tank 1, an oil inlet pipeline 2, an oil return pipeline 3 and a bin body oil storage interlayer 17, wherein the oil return pipeline 3 is provided with a circulating pump assembly, and the circulating pump assembly provides power to realize the circulation of heating oil; one end of an oil inlet pipeline 2 is connected with an oil tank 1, the other end of the oil inlet pipeline is connected with an oil inlet of a bin body oil storage interlayer 17, one end of an oil return pipeline 3 is connected with the oil tank 1, the other end of the oil return pipeline is connected with an oil outlet of the bin body oil storage interlayer 17, a circulating pump assembly is arranged on the pipeline, and oil circuit circulation is realized between the oil tank 1 and the bin body oil storage interlayer 17 through the oil inlet pipeline 2 and the oil return pipeline; the utility model discloses an inside both sides equipartition of storehouse body oil storage intermediate layer 17 has a plurality of heaters 18. Specifically, 9 heaters 18 are uniformly arranged on two sides of the bin body oil storage interlayer 17 in sequence in a welding mode in the bin body, so that the heating oil can be heated in real time, and the heating oil in the bin body is uniformly heated. The heater 18 can be an electric heater, is fixedly arranged in the bin body oil storage interlayer 17 in a welding or threaded connection mode, and is controlled to be turned on and off by the starting end.
The utility model discloses an among the pipeline structure, install first gate valve 4 on advancing oil pipe way 2, install second gate valve 5 on the oil return pipe way 3. The flow regulation of the heating oil in the oil inlet pipeline 2 and the heating oil in the oil outlet pipeline 3 is realized through the structure of the gate valve.
As preferred, the utility model discloses in, the circulating pump subassembly sets up to parallelly connected two sets, and two sets of circulating pump subassemblies can each other be reserve, and two sets of circulating pump subassemblies are installed at two lateral conduits that connect out in parallel on returning oil pipe way 3, and one of them set of circulating pump subassembly is including setting up first stop valve 7, second stop valve 8 at both ends around the pump body, first oil pump blade 13, first oil pump motor 14, first manometer 16, and second set circulating pump subassembly is including setting up third stop valve 9, fourth stop valve 10 at both ends around the pump body, second oil pump blade 11, second oil pump motor 12, second manometer 15. The two sets of assemblies are mutually standby, so that when one set of assemblies is damaged or replaced, the other set of assemblies is used in an intervening manner and in a seamless connection manner, and the continuous circulation process of an oil way is ensured.
Preferably, the utility model discloses in, oil tank 1 is installed through welding or threaded connection's mode and is higher than 6 tops of support of storehouse body oil storage intermediate layer 17, and oil tank 1 sets up at the top, can make things convenient for the circulation flow of heating oil under the action of gravity.
The utility model discloses an oil tank 1 still is connected with the draining pipe, through the oil mass in draining pipe adjustment oil tank 1, can realize pressure regulation, draining operation.
As shown in the figure, the utility model discloses a storehouse body structure and heater are arranged and are placed specifically as follows: the front and the back of the bin body oil storage interlayer 17 are single-layer plates, the left and the right side surfaces of the bin body oil storage interlayer comprise interlayers, the bottom of the bin body oil storage interlayer is semicircular, and the heater 18 is matched with the cross section of the bin body oil storage interlayer 17 in shape like an L and is welded and fixed in the interlayer. The bin body oil storage interlayer 17 is provided with an oil inlet and an oil outlet, the oil inlet is arranged at the top end of the front side close to the left side surface and the right side surface and symmetrically distributed so as to be connected with the oil inlet pipeline 2 and realize simultaneous oil inlet at two sides. The oil outlet of the bin body oil storage interlayer 17 is arranged at the bottom close to the rear side face so as to be connected with the oil return pipeline 3 and realize smooth oil return in real time.
The utility model discloses a theory of operation does: heating oil flows along advancing oil pipe way 2 through the action of gravity in the oil tank 1, open the gate valve, and the circulating pump, at this moment, the oil inlet that heating oil passes through storehouse body oil storage intermediate layer 17 gets into storehouse body oil storage intermediate layer 17, treat that the oil mass is topped up and form a circulation back, open the switch of heater 18, heat the heating oil in storehouse body oil storage intermediate layer 17, make it reach the required temperature in fermentation storehouse, then continuously keep at this temperature, realize the even heating of heating oil, because it is very close to heating the position from storehouse internal portion, this kind of direct heating mode has reduced the heat consumption in the circulation process, so the electric quantity has been saved. Simultaneously, the continuous circulation of oil piping system heating oil also can maintain the equilibrium of each part temperature, if need adjust the flow, can realize through the gate valve of regulation oil way, if first set of circulating pump subassembly damages, can in time be changed into another set of circulating pump subassembly. In order to fully utilize the heat energy and transmit more heat energy to the heating cavity, the outer surface of the bin body can be provided with a heat-insulating layer. The system has the characteristics of simple structure, sufficient and uniform heating, high heat energy utilization rate, low power consumption and the like.
Claims (10)
1. A heating oil circuit system of a high-temperature poultry excrement fermentation device is characterized by comprising an oil tank, an oil inlet pipeline, an oil return pipeline and a bin body oil storage interlayer, wherein a circulating pump assembly is arranged on the oil return pipeline;
oil circuit circulation is realized between the oil tank and the bin body oil storage interlayer through an oil inlet pipeline and an oil return pipeline;
and a plurality of heaters are uniformly distributed on two sides inside the bin body oil storage interlayer.
2. The heating oil circuit system of the poultry excrement high-temperature fermentation device according to claim 1, wherein the heater is an electric heater and is fixedly installed inside the bin body oil storage interlayer in a welding or threaded connection mode.
3. The heating oil path system of the poultry excrement high-temperature fermentation device according to claim 1, wherein a first gate valve is installed on the oil inlet pipeline, and a second gate valve is installed on the oil return pipeline.
4. The heating oil path system of the poultry excrement high-temperature fermentation device according to claim 1, wherein the circulating pump assemblies are arranged in two sets in parallel, the two sets of circulating pump assemblies can be mutually standby, and each circulating pump assembly comprises a pump body and stop valves arranged at the front end and the rear end of the pump body.
5. The heating oil circuit system of the poultry excrement high-temperature fermentation device according to claim 1, wherein the oil tank is mounted on the top of a bracket higher than the storage oil interlayer of the storage bin body by welding or screwing.
6. The heating oil circuit system of the poultry excrement high-temperature fermentation device according to claim 1, wherein 9 heaters are sequentially and equidistantly installed on two sides of the oil storage interlayer of the bin body.
7. The heating oil path system of the poultry excrement high-temperature fermentation device according to claim 1, wherein an oil drainage pipe is further connected to the oil tank.
8. The heating oil circuit system of the poultry excrement high-temperature fermentation device according to claim 1, wherein the front and back of the bin body oil storage interlayer are single-layer plates, the left and right side surfaces of the bin body oil storage interlayer comprise interlayers, the bottom of the bin body oil storage interlayer is semicircular, and the heater is adapted to the cross-sectional shape of the bin body oil storage interlayer.
9. The heating oil circuit system of the poultry excrement high-temperature fermentation device according to claim 1, wherein the bin body oil storage interlayer is provided with an oil inlet and an oil outlet, the oil inlet is arranged at the top end of the front side close to the left side surface and the right side surface, and the oil inlet is symmetrically distributed and connected with an oil inlet pipeline to realize simultaneous oil inlet at two sides.
10. The heating oil circuit system of the poultry excrement high-temperature fermentation device according to claim 9, wherein the oil outlet is arranged at the bottom close to the rear side and connected with an oil return pipeline.
Priority Applications (1)
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CN202020955434.8U CN212253158U (en) | 2020-05-30 | 2020-05-30 | Heating oil circuit system of poultry excrement high-temperature fermentation device |
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CN202020955434.8U CN212253158U (en) | 2020-05-30 | 2020-05-30 | Heating oil circuit system of poultry excrement high-temperature fermentation device |
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2020
- 2020-05-30 CN CN202020955434.8U patent/CN212253158U/en active Active
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