KR102007158B1 - Apparatus for double ducts steam jacket in feed manufacturing facility - Google Patents

Abstract

The present invention relates to a double duct steam jacket of grain feed manufacturing equipment, which is installed in all or part of a duct connected between a cooler for drying and cooling an inputted raw material and a cyclone for collecting fine dust, and dries inner residual. The double duct steam jacket of grain feed manufacturing equipment comprises a steam jacket, a steam supplying unit, a condensate water discharging unit, and a controlling unit. The steam jacket forms a steam pipe inside by surrounding the outer circumference of the duct and forming a double duct, includes a temperature gauge for measuring inner temperature of the steam pipe, and has a plurality of inlet sockets and outlet sockets such that steam of high temperature received in the steam pipe through the inlet sockets increases the inner temperature of the duct to dry the residual and condensate water is discharged through the outlet sockets. The steam supplying unit generates steam of high temperature and supplies the steam to the inside of the steam jacket through a steam supplying pipe connected to the inlet sockets. The condensate water discharging unit is connected to the outlet sockets and discharges the condensate water generated in the steam pipe through a condensate water discharging pipe. The controlling unit receives a measuring signal of the temperature gauge and controls steam supply and discharge of the condensate water by controlling valves installed in the steam supplying unit and the condensate water discharging unit. The present invention can minimize cleaning cycles.

Description

Dual duct steam jacketing device of grain feed manufacturing equipment {APPARATUS FOR DOUBLE DUCTS STEAM JACKET IN FEED MANUFACTURING FACILITY}

The present invention relates to a feed manufacturing equipment, and more particularly, a double duct generated in the drying and cooling process of the grain feed manufacturing equipment to dry the residue attached to the inside of the duct with steam so that no residue remains in the duct. A steam jacket device.

In general, the feed used for domestic animals such as cattle, pigs, chickens, etc. are domestically processed and manufactured through a complex manufacturing process using raw grains such as beans, corn, wheat, and barley as raw materials.

The feed is mainly produced in various product forms such as mash, pellet, crumble, and supplied to the livestock farm. As the powder feed is pulverized, the surface area becomes wider, so the digestive enzymes act more easily, and the utilization of nutrients is increased, and the particles are uniform, so that the blending ratio of the mixed feed is high, the moisture distribution is uniform, Less separation Pellet feed is made into pellets of a certain size by applying temperature and pressure to the powder using a pellet machine, which is easy to handle and manage, does not generate dust, and ingestion time is shortened. Crumble feed is made by crushing pellets into pieces of constant size by passing them through a crumbler machine.

The form of these feed products is determined by the needs of various customers and consumers, the stages of growth of the livestock and the nutrient balance, and the most important determinant is to increase feed intake by increasing the feed intake through the use of good flavor and digestibility. It is to promote. In order to increase the feed intake of livestock, each feed manufacturing plant has a good digestion rate and strives to improve feed performance by balancing nutrients.

For example, FIG. 1 is a view showing a conventional feed production device disclosed in Patent Document 1. As shown in FIG. Referring to Figure 1, the conventional feed production apparatus is a pellet machining center (10) and a pellet machining center (10) for producing a bar shape of a predetermined length after cooking the grain powder pulverized by the mill with a high temperature steam Cooler 30 for drying and cooling by blowing high pressure air to the pellet feed discharged through the crumbler 20 and the crumbler 20 to crush the discharged feed, and dried and cooled to a certain level through the cooler It comprises a conveying conveyor 40 for transporting the feed, and a loading portion 50 containing the feed conveyed by the transport conveyor 40.

In addition, the high-pressure air supplied into the cooler 30 is dried and cooled, and then transferred to the duct 32 by the blowing fan 70. The air fed through the duct 32 has a large amount of feed fine powder. Since it is included through the cyclone (60) of the feed is contained in the air feed is filtered through the discharge pipe 62 is discharged to the atmosphere.

At this time, the inside of the cooler 30 is a high temperature state of about 70 ~ 80 ℃, dew condensation (dew condensation) occurs by the difference between the hot air and the outside temperature inside the cooler 30, especially in winter, becomes more severe, Due to this, in the drying and cooling process, the wet and sticky grain fine particles including moisture are transferred to the cyclone 60 through the duct 32 by the blower fan 70, or bent. It remains attached as it accumulates on the part.

Due to this, there is a problem that the drying efficiency of the feed is reduced, the worker has to clean frequently, and there is a risk of a safety accident during the cleaning and operation of the worker for the duct located in the high altitude.

Republic of Korea Patent Publication No. 10-1628337 (2016.06.08.published)

The present invention has been made to solve all the above problems, by installing a double duct steam jacket in the vertical or bending portion of the duct connecting the cooler and the cyclone to supply high-temperature steam to increase the temperature inside the duct , Dry the sticky residue inside the duct so that no residue is left, so that the fine grains can be smoothly transferred to the cyclone, increase the drying efficiency and raw material recovery rate, minimize the cleaning cycle, maintain a clean working environment, The purpose of the present invention is to provide a double duct steam jacketing device of a feed manufacturing facility that can prevent safety accidents in advance.

The present invention provides a dual duct steam jacketing apparatus of a feed manufacturing facility, which is installed in all or a part of a duct connected between a cooler in which an input raw material is dried and cooled and a cyclone collecting fine powder to dry residues therein. Steam pipes are formed inside by forming a double duct around the outer periphery of the pipe, and a temperature gauge for measuring the temperature inside the steam pipe is installed, and a plurality of inlet sockets and outlet sockets are formed to enter the steam pipe through the inlet socket. A steam jacket in which the heated steam increases the internal temperature of the duct to dry the residue and discharges the condensate through the discharge socket; A steam supply unit generating high temperature steam and supplying steam to the inside of the steam jacket through a steam supply pipe connected to the inlet socket; A condensate discharge unit connected to the discharge socket to discharge condensate generated in the steam pipe through the condensate discharge pipe; And a control unit for receiving a measurement signal of a temperature gauge and controlling a valve installed at a steam supply unit and a condensate discharge unit to control steam supply and condensate discharge.

According to the present invention, by installing a double duct steam jacket in the vertical portion or the bending portion of the duct connecting the cooler and the cyclone to supply high temperature steam to increase the temperature inside the duct, thereby drying the sticky residue inside the duct This ensures that no residue remains, so that the fine grains are smoothly transported to the cyclone, increasing the drying efficiency and material recovery rate, minimizing the cleaning cycle, maintaining a clean work environment, and preventing workers' accidents. It works.

1 is a view showing a conventional feed production apparatus.
2 is a view showing a feed production facility is installed a double duct steam jacket device according to an embodiment of the present invention.
3 is a view showing a double duct steam jacket device installed in the bent portion of the duct according to the embodiment of the present invention.
4 is a cross-sectional view of portion A of FIG. 3 in accordance with an embodiment of the present invention.

Hereinafter, with reference to the drawings will be described in detail with respect to the specific content for carrying out the double duct steam jacket apparatus of the grain feed production equipment according to the present invention.

The dual duct steam jacketing device of the grain feed manufacturing equipment according to the present invention is to dry the residues attached to the inside of the ducts during the drying and cooling process of the grain feed manufacturing equipment by using steam to leave no residues in the ducts Grain raw materials such as soybean, corn, wheat and barley, which are crushed through a crusher, are fed, and steam is mixed in an expander to expand and form at high pressure. After being put into the cooler 30, the high pressure air is blown to the cooler 30 to dry and cool the raw material to separate the feed and the air. Referring to FIG. 2, the feed discharged from the cooler 30 is transferred. The air, which is fed to the loading unit through a conveying means such as a conveyor, is connected between the cooler 30 and the cyclone 60 by the suction force of the blowing fan 70. Is transported to the cyclone 60 via the duct 32, the air is discharged to the atmosphere through the discharge pipe 62 after collecting the feed fine powder contained in the air in the cyclone (70).

3 and 4, the steam jacket 100 is provided with a stainless steel steam pipe 110 formed in an annular shape so as to surround the outer circumference of the duct 32, so that the duct 32 has an internal duct And, the steam pipe 110 is an external duct to form a double duct. Such a steam jacket 100 may be installed in all or part of the duct 32, but in particular the steam jacket 100 is a vertical portion (32a) of the duct 32, which is mainly stacked with a wet and sticky feed fines or It is preferable to be provided in the bent part 32b.

The steam pipe 110 is provided with a temperature gauge 120 for measuring the internal temperature of the steam pipe 110, the temperature gauge 120 transmits a measurement signal for the measured temperature to the control unit, a plurality of inlet socket ( 111 and the discharge socket 112 is formed, the high temperature steam of about 100 ° C introduced into the steam pipe 110 through the inlet socket 111 increases the internal temperature of the duct 32 to remove the residue. The dried and removed, and the steam used for drying is condensed and the condensed water is discharged through the discharge socket 112.

The steam jacket 100 is formed such that the steam pipe 110 is partitioned by an annular partition wall 113 to be divided into a plurality of compartments 114 along a longitudinal direction, and each inlet compartment 114 has an inlet socket ( 111 and the discharge socket 112 and the temperature gauge 120, the control unit receives a measurement signal for the internal temperature of the steam pipe 110 for each compartment 114, the individual for each compartment 114 Temperature control and condensate discharge allow for precise and even temperature control, increased residue removal rates, and elimination of dark areas along the length of the steam jacket.

The steam jacket 100 is formed so that the heat insulating material 130 surrounds the outer periphery, the heat retention is performed to the steam pipe 110 heated by steam, the residue removal rate is increased, the heat insulating material 130 is a glass wool It is preferable to use in thickness.

In addition, the steam jacket 100 can be opened and closed check opening 140 on one side can be checked and maintenance by the operator.

The steam supply unit 200 generates a high-temperature steam to supply steam to the inside of the steam jacket through the steam supply pipe 210 connected to the inlet socket 111, the main steam 205 for generating steam is formed, The steam supply pipe 210 is provided with various valves for controlling the inflow and blocking of steam, a pressure reducing valve, a pressure gauge, and the like, and are controlled by the controller. In addition, the steam supply pipe 210 is branched into a plurality of steam branch pipes 220, a valve is installed for each steam branch pipe 220, the end of the steam branch pipe 220 is made of a flexible hose 230, flexible It can be flexibly flexed to cope with the water hammer (vibrating water hammer) to vibrate the pipe, it is easy to pipe work in a narrow place, the construction and maintenance can be made conveniently.

The condensate discharge unit 300 is connected to the discharge socket 112 to discharge the condensate generated by condensation inside the steam pipe 110 through the condensate discharge pipe 310 to the outside through the condensate line 305, the condensate discharge pipe The valve 310 is provided with various valves for controlling the discharge and blocking of the condensate, and a steam trap 301 for preventing the discharge of steam and discharging only the condensate. In addition, the condensate discharge pipe 310 is branched into a plurality of condensate distributor 320, a valve is installed for each condensate distributor 320, the end of the condensate distributor 320 is made of a flexible hose 330 flexible It can be flexibly flexed to cope with the water hammer (vibrating water hammer) to vibrate the pipe, it is easy to pipe work in a narrow place, the construction and maintenance can be made conveniently.

The control unit (not shown) receives a measurement signal for the internal temperature of the steam pipe 110 of the temperature gauge 120 installed in the steam jacket 100 from time to time, and if the measurement signal value is less than the reference value steam supply unit 200 By opening the valve of the main steam 205 to supply the high temperature steam generated in the steam jacket 100 to dry the internal residue of the duct 32 to remove, if the measured signal value is higher than the reference value steam supply unit Blocking the valve of the 200 to block the supply of steam to the steam jacket (100).

In addition, the condensed water generated inside the steam pipe 110 is a cause of the water hammer, so the condensed water should be removed when it occurs, the control unit is generated in the steam pipe 110 by opening the valve of the condensate discharge unit 300 Drain the condensate. At this time, when the steam is discharged together, since the thermal efficiency is lowered, only the condensed water is automatically discharged by the steam trap 301.

In addition, the upper and lower sides of the duct 32 wrapped by the steam jacket 100, that is, the upper and lower air outlets and the air inlets of the double ducts formed together with the duct 32 and the steam jacket 100. Each temperature sensor 35 is installed to check and check the internal temperature of the duct 32 from time to time, the temperature sensor 35 transmits a measurement signal to the control unit, the control unit compares the measured signal value with the upper limit value When the upper limit value is exceeded, the steam supply by the steam supply unit 200 may be cut off and an emergency alarm may be sounded to prevent an accident. In contrast, when the measured signal value is lower than the lower limit value, the amount of steam supplied from the steam supply unit 200 may be increased. It will be possible to increase the drying efficiency.

As a result, the dual duct steam jacket device of the feed production equipment according to the present invention by installing a double duct steam jacket in the vertical portion or the bending portion of the duct connecting the cooler and the cyclone to supply high-temperature steam to increase the temperature inside the duct By drying the sticky residue inside the duct so that no residue remains, grain fines can be smoothly transferred to the cyclone, increasing the drying efficiency and material recovery rate, minimizing the cleaning cycle, maintaining a clean working environment, The worker's safety accident can be prevented beforehand.

In the present invention, the above embodiment is an example, and the present invention is not limited thereto. Anything that has substantially the same configuration as the technical idea described in the claims of the present invention and achieves the same effect is included in the technical scope of the present invention.

1. Feed manufacturing equipment 10. Pellet machining center
20. Crumbler 30. Cooler
32. Ducts 32a. Vertical section
32b. Bending Part 35. Temperature Sensor
40. Transfer conveyor 50. Loading part
60. Cyclone 62. Outlet line
70.Blowing Fan 100.Steam Jacket
110. Steam pipe 111. Inlet socket
112. Exhaust socket 113. Bulkhead
114. Compartment compartment 120. Temperature gauge
130. Insulation 140.
200. Steam supply 205. Main steam
210. Steam supply pipe 220. Steam branch pipe
230. Flexible hose 300. Condensate outlet
301. Steam Traps 305. Condensate Lines
310. Condensate discharge pipe 320. Condensate water discharge pipe
330. Flexible hose

Claims (5)

In the dual duct steam jacketing device of the grain feed manufacturing equipment installed in the vertical portion or the bent portion of the duct connected between the cooler in which the injected raw material is dried and cooled and the cyclone for collecting the grain fine powder, to dry the residue therein,
A steam duct is formed inside by forming a double duct around the outer circumference of the duct, and a temperature gauge for measuring the temperature of the steam duct is installed, and a plurality of inlet and outlet sockets are formed to enter the steam duct through the inlet socket. Inlet high temperature steam increases the internal temperature of the duct to dry the residue, condensate is discharged through the discharge socket, and a checker opening is formed on one side to open and close the steam jacket for inspection and maintenance by the operator. ;
Generates high temperature steam to supply steam to the inside of the steam jacket, is branched into a plurality of steam branch pipes and connected to an inlet socket provided in each compartment, a valve is installed for each steam branch pipe, and an end of the steam branch pipe Steam supply consisting of a flexible hose;
The condensate generated in the steam pipe is discharged, branched into a plurality of condensate distributors, connected to the discharge socket provided in each compartment, a valve is provided for each condensate distributor, and the end of the condensate distributor consists of a flexible hose. Condensate discharge unit is installed, the steam trap for preventing the discharge of steam and discharge only the condensate; And
Receiving a measurement signal of the temperature gauge, including a control unit for controlling the steam supply and condensate discharge by controlling the valve installed in the steam supply and the condensate discharge,
The steam jacket is a steam pipe is partitioned by an annular partition wall is formed a plurality of compartments along the longitudinal direction, each compartment is provided with an inlet socket, an outlet socket and a temperature gauge, the control unit inside each compartment It is possible to control the temperature of each compartment and discharge condensate by receiving the temperature gauge measurement signal for temperature, so that the temperature control and residue removal rate can be increased and the dark area can be solved according to the length of the steam jacket.
Temperature sensors are installed in the upper and lower ducts of the steam jacket to check and check the temperature inside the duct.The temperature sensor transmits the measurement signal to the control unit.The control unit compares the measured signal value with the upper limit value to determine the upper limit value. If it exceeds, it cuts off the steam supply by the steam supply, prevents an accident by sounding an emergency alarm, and on the contrary, when the measured signal value is lower than the lower limit, the grain is controlled to increase the drying efficiency by increasing the amount of steam supplied from the steam supply. Double duct steam jacketing device of feed manufacturing equipment.
delete delete delete delete

Images