CN215630410U - Bent room pipeline system - Google Patents
Bent room pipeline system Download PDFInfo
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- CN215630410U CN215630410U CN202121684693.2U CN202121684693U CN215630410U CN 215630410 U CN215630410 U CN 215630410U CN 202121684693 U CN202121684693 U CN 202121684693U CN 215630410 U CN215630410 U CN 215630410U
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Abstract
The utility model relates to the technical field of bent house pipeline arrangement, and discloses a bent house pipeline system which comprises a plurality of upper flow guide pipes and a plurality of lower flow guide pipes, wherein the left end of each upper flow guide pipe is connected with a first main pipeline, the left end of each lower flow guide pipe is connected with the first main pipeline, the first main pipeline is respectively connected with a steam unit and a fresh air unit through independent pipelines, the lower side of each upper flow guide pipe is provided with an upper flow distribution pipe which is transversely distributed, the upper flow distribution pipes are connected with the upper flow guide pipes through upper connecting pipes, the upper side of each lower flow guide pipe is provided with lower flow distribution pipes which are transversely distributed, the lower flow distribution pipes are connected with the lower flow guide pipes through lower connecting pipes, a plurality of left flow distribution pipes are distributed on the left side wall of a bent house, a plurality of right flow distribution pipes are distributed on the right side wall of the bent house, and each upper connecting pipe, each lower connecting pipe and each left connecting pipe are provided with a control valve. The utility model has the advantages of uniform and stable air intake, capability of promoting the rapid and uniform distribution of the temperature and humidity of each area in the koji room and capability of locally adjusting the temperature and humidity.
Description
Technical Field
The utility model relates to the technical field of bent house pipeline arrangement, in particular to a bent house pipeline system.
Background
The koji room is a room for making wine making koji seeds, the best effect can be achieved only in a stable environment in the production process of koji seeds, and stable and proper temperature and humidity need to be kept in the koji room. The yeast seeds are placed on the yeast rack in the yeast room, the yeast seeds can be heated after being fermented under the action of microorganisms, and the temperature and humidity of the environment around the yeast seeds are greatly different due to the fact that the space in the yeast room is large and the number of the yeast racks is large, so that the temperature and humidity are generally regulated and controlled through manual operation modes of regularly turning over the yeast, moving the yeast, gathering the yeast and the like, and the temperature and humidity around each yeast rack tend to be consistent. But the manual yeast turning efficiency is low and the workload is large.
SUMMERY OF THE UTILITY MODEL
In order to solve the problems of temperature and humidity adjustment in the koji room in the prior art, the utility model provides a koji room pipeline system which has uniform and stable air inlet and can effectively and quickly adjust the temperature and humidity in the koji room.
In order to achieve the purpose, the utility model adopts the following technical scheme:
a bent room pipeline system comprises a plurality of upper flow guide pipes arranged at the top of a bent room and a plurality of lower flow guide pipes arranged at the bottom of the bent room, wherein the left end of each upper flow guide pipe is connected with a first main pipeline, the left end of each lower flow guide pipe is connected with the first main pipeline, the first main pipeline is respectively connected with a steam unit and a fresh air unit through independent pipelines, a valve A is arranged between the steam unit and the first main pipeline, a valve C is arranged between the fresh air unit and the first main pipeline, upper flow distribution pipes which are transversely distributed are arranged at the lower side of the upper flow guide pipes, the upper flow distribution pipes are connected with the upper flow guide pipes through upper connecting pipes, lower flow distribution pipes which are transversely distributed are arranged at the upper side of the lower flow guide pipes, the lower flow distribution pipes are connected with the lower flow guide pipes through lower connecting pipes, a plurality of left flow distribution pipes are distributed on the left side wall of the bent room, and a plurality of right flow distribution pipes are distributed on the right side wall of the bent room, the left shunt tubes are communicated with the first main pipeline through the left connecting pipe, the end parts of the right shunt tubes are connected with the upper shunt tube or the lower shunt tube through the control valves, a plurality of air holes are formed in the upper shunt tubes, the lower shunt tubes, the left shunt tubes and the right shunt tubes, and the control valves are arranged on the upper connecting pipe, the lower connecting pipe and the left connecting pipe. When the temperature and the humidity in the koji room are lower than set values, the valve A is opened, the valve C is closed, steam is introduced into the whole pipeline system through a steam unit, and the steam enters the upper side, the lower side, the left side and the right side of the koji room in an all-around manner, so that the temperature and the humidity of the koji room are rapidly increased, and the temperature and the humidity rapidly reach a proper state; temperature and humidity sensors are arranged at different positions in the bending room, and when the local temperature and humidity of the bending room are detected to be lower than a set value, control valves on the upper shunt pipe, the lower shunt pipe, the left shunt pipe and the right shunt pipe at corresponding positions can be opened (the control valves at other positions are closed), so that the local temperature and humidity of the bending room can be regulated and controlled through the upper shunt pipe, the lower shunt pipe, the left shunt pipe and the right shunt pipe; when the temperature (or the humidity) in the koji room is detected to be higher than a set value, the valve A is closed, the valve C is opened, and the fresh air unit introduces air into the pipeline in the koji room for circulation, so that the temperature (or the humidity) in the koji room is reduced and tends to be consistent (the fresh air unit has a simple air circulation mode and a circulation dehumidification mode).
Preferably, the left end of each upper flow guide pipe is located at the upper side of the left connecting pipe and connected with a second main pipe, a valve B is arranged at the position, located between the second main pipe and the first main pipe, of each upper flow guide pipe, an air inlet end pipeline of the fresh air handling unit is connected with the second main pipe, a valve D is arranged on the pipeline of the air inlet end of the fresh air handling unit, and an air outlet end pipeline of the fresh air handling unit is connected with the first main pipe. When the temperature and the humidity in the koji room are detected to be lower than the set values, closing the valve C and opening the valve A, and supplying steam into the koji room through the whole pipeline system by the steam unit; when the temperature in the koji room is detected to be higher than a set value, the valve A and the valve B are closed, the valve C and the valve D are opened, and the circulation ventilation and the cooling of the koji room and the outside air are realized through the work of the fresh air handling unit.
Preferably, the pipeline at the air outlet end of the fresh air unit is connected with a heater in parallel, and the pipeline of the heater is provided with a valve E. When the humidity in the koji room is detected to be proper and the temperature is lower than a set value, the valve D and the valve E are opened, the valve A, the valve B and the valve C are closed, the heater works, and the fresh air handling unit circulates in the koji room to heat.
Preferably, the upper end of right branch pipe is passed through control valve and is passed through with last honeycomb duct intercommunication, and every goes up the last reposition of redundant personnel branch pipe on the honeycomb duct and has a plurality of roots, and every goes up the honeycomb duct and all is equipped with a set of vertical shunt tubes in the position that lies in between arbitrary adjacent two last shunt tubes, and vertical shunt tubes will bend the spatial separation in the room and become a plurality of bent framves and store the chamber, and the vertical shunt tubes of every group include two vertical shunt tubes, and the lateral wall of vertical shunt tubes is equipped with the drainage hole that the chamber distributes is stored to the bent frame of orientation, and the upper end of every vertical shunt tube all is equipped with the control valve. The vertical shunt tubes are arranged to separate the space in the bent room, so that the air supply and the adjustment can be carried out at the positions between two adjacent bent frames.
Preferably, the lower extreme of right branch pipe passes through control valve and honeycomb duct intercommunication down, and the branch pipe of shunting on every goes up the honeycomb duct has a plurality of, and the position that lies in between arbitrary two adjacent lower shunt tubes on the honeycomb duct of every is equipped with a set of vertical shunt tubes, and vertical shunt tubes will bend the spatial separation in the room and become a plurality of curved framves and store the chamber, and every vertical shunt tubes of group includes two vertical shunt tubes, and the lateral wall of vertical shunt tubes is equipped with the drainage hole that the chamber distributes is stored to curved framves of orientation, and the lower extreme of every vertical shunt tubes all is equipped with the control valve. The vertical shunt tubes are arranged to separate the space in the bent room, so that the air supply and the adjustment can be carried out at the positions between two adjacent bent frames.
Therefore, the utility model has the advantages of uniform and stable air intake, uniform temperature and humidity in the koji room and capability of adjusting the local temperature and humidity of the koji room according to requirements.
Drawings
FIG. 1 is a schematic diagram of a structure of the present invention.
Fig. 2 is a bent room piping system of embodiment 1.
Fig. 3 is a bent room piping system of embodiment 2.
In the figure: bent room 1, go up honeycomb duct 2, honeycomb duct 3 down, first main line 4, steam unit 5, valve A6, go up shunt tubes 7, go up connecting pipe 8, shunt tubes 9 down, connecting pipe 10 down, left shunt tubes 11, right shunt tubes 12, left connecting pipe 13, control valve 14, second main line 15, valve B16, new fan group 17, valve C18, valve D19, heater 20, valve E21, vertical shunt tubes 22, bent frame storage chamber 23.
Detailed Description
The utility model is further described with reference to the accompanying drawings and the detailed description below:
example 1: referring to fig. 1 and 2, a curved house piping system comprises a plurality of upper flow guide pipes 2 disposed on the top of a curved house 1 and a plurality of lower flow guide pipes 3 disposed on the bottom of the curved house, the left end of each upper flow guide pipe is connected to a first main pipe 4, the left end of each lower flow guide pipe is connected to the first main pipe, the first main pipe is connected to a steam unit 5 and a fresh air unit 17 through independent pipes, a valve a6 is disposed between the steam unit 5 and the first main pipe, a valve C18 is disposed between the fresh air unit 17 and the first main pipe 4, the lower side of the upper flow guide pipe 1 is provided with upper flow distribution pipes 7 which are transversely distributed, the upper flow distribution pipes 7 are connected to the upper flow guide pipes through upper connection pipes 8, the upper side of the lower flow guide pipes 3 is provided with lower flow distribution pipes 9 which are transversely distributed, the lower flow distribution pipes are connected to the lower flow guide pipes through lower connection pipes 10, and a plurality of left flow distribution pipes 11 are distributed on the left side wall of the curved house 1, a plurality of right shunt tubes 12 are distributed on the right side wall of the bent room 1, a left shunt tube 11 is communicated with a first main pipeline through a left connecting tube 13, the upper end of the right shunt tube 12 is connected with an upper shunt tube through a control valve 14, a plurality of air holes are formed in the upper shunt tube 7, the lower shunt tube 9, the left shunt tube 11 and the right shunt tube 12, and a control valve is arranged on each upper connecting tube 8, the lower connecting tube 10 and the left connecting tube 13.
A second main pipeline 15 is connected to the upper side part of the left connecting pipe 13 at the left end of each upper draft tube 2, a valve B16 is arranged at the part of each upper draft tube 2 between the second main pipeline 15 and the first main pipeline 4, the pipeline at the air inlet end of the fresh air handling unit 17 is connected with the second main pipeline, a valve D19 is arranged on the pipeline at the air inlet end of the fresh air handling unit 17, the pipeline at the air outlet end of the fresh air handling unit 17 is connected with the first main pipeline, and a valve C18 is arranged on the pipeline at the air outlet end of the fresh air handling unit; the pipeline at the air outlet end of the fresh air handling unit 17 is connected with a heater 20 in parallel, and the pipeline of the heater is provided with a valve E21; every goes up the reposition of redundant personnel branch pipe on the honeycomb duct and has a plurality of roots, every goes up honeycomb duct 2 and lies in arbitrary adjacent two positions of going up between shunt tubes 7 and all is equipped with a set of vertical shunt tubes 22, vertical shunt tubes 22 will bend the spatial separation in the room and become a plurality of bent framves and store chamber 23, every vertical shunt tubes of group includes two vertical shunt tubes, the lateral wall of vertical shunt tubes is equipped with the drainage hole that the chamber distributes is stored to the bent frame of orientation, the upper end of every vertical shunt tube all is equipped with the control valve. The valve A, the valve B, the valve C, the valve D, the valve E and the control valve in the embodiment are all electric control valves.
Example 2: the differences between example 2 and example 1 are as follows: the lower end of the right shunt pipe 12 is communicated with the lower shunt pipes 3 through a control valve 14, a group of vertical shunt pipes 22 are arranged on the position, between any two adjacent lower shunt pipes 9, of each lower shunt pipe 3, each vertical shunt pipe 22 divides the space in the curved room into a plurality of curved rack storage cavities 23, each group of vertical shunt pipes comprises two vertical shunt pipes, drainage holes distributed towards the curved rack storage cavities are formed in the side walls of the vertical shunt pipes, and the lower end of each vertical shunt pipe is provided with a control valve; the rest of the technical scheme in the embodiment 2 is the same as that in the embodiment 1.
The right shunt 12 can also be connected as follows: the upper end of the right shunt pipe 12 is connected with the upper diversion pipe through a control valve, the lower end of the right shunt pipe 12 is connected with the lower diversion pipe through a control valve, and the switch of the corresponding control valve is selected as required to realize the connection state of the right shunt pipe.
The principle of the utility model is as follows with reference to the attached drawings: (1) when the temperature and the humidity in the koji room are detected to be lower than set values, closing the valve C, the valve D and the valve E, opening the valve A, and supplying steam to the koji room through the steam unit through the whole pipeline system; (2) when the temperature and the humidity in the koji room are detected to be higher than set values, closing the valve A, the valve B and the valve E, opening the valve C and the valve D, and realizing the external circulation cooling and dehumidification of the koji room and the outside air through the work of a fresh air unit (the fresh air unit starts a dehumidification mode), wherein if the humidity is too high, the fresh air unit carries out the internal circulation dehumidification, and if the temperature is too high, the fresh air unit (the dehumidification mode is closed) carries out the external circulation cooling; (3) when the temperature in the koji room is detected to be lower than a set value, opening the valve D and the valve E, closing the valve A, the valve B and the valve C, operating the heater, and heating the koji room by the internal circulation of the fresh air handling unit; (4) when the humidity in the koji room is detected to be lower than a set value, the valve B and the valve E are closed, the valve A, the valve C and the valve D are opened, water vapor is supplied to the koji room through the steam unit through the whole pipeline system, and the humidity in the koji room is improved through the outer circulation of the fresh air unit and the water vapor of the steam unit while the temperature is kept appropriate. The position homoenergetic between four lateral walls and the adjacent bent frame in bent room ventilates, exhausts through the pipeline that corresponds, can realize whole quick adjustment temperature, the humidity in bent room, also can be according to detecting the local temperature humidity difference in bent room, adjusts temperature, humidity to the part, and it is very convenient to adjust.
In the description of the present invention, it should be understood that the directions and positional relationships indicated, such as up, down, left, right, and the like, are based on the directions and positional relationships shown in the drawings, and are only for the sake of clarity to describe the technical aspects of the present invention, and do not indicate or imply that the indicated devices or elements must have a specific direction, be configured and operated in a specific direction, and are not to be construed as limiting the present invention.
The above is only a specific embodiment of the present invention, but the technical features of the present invention are not limited thereto. Any simple changes, equivalent substitutions or modifications made based on the present invention to solve the same technical problems and achieve the same technical effects are within the scope of the present invention.
Claims (5)
1. A bent room pipeline system is characterized by comprising a plurality of upper flow guide pipes arranged at the top of a bent room and a plurality of lower flow guide pipes arranged at the bottom of the bent room, wherein the left end of each upper flow guide pipe is connected with a first main pipeline, the left end of each lower flow guide pipe is connected with the first main pipeline, the first main pipeline is respectively connected with a steam unit and a fresh air unit through independent pipelines, a valve A is arranged between the steam unit and the first main pipeline, a valve C is arranged between the fresh air unit and the first main pipeline, upper flow distribution pipes which are transversely distributed are arranged at the lower side of the upper flow guide pipes, the upper flow distribution pipes are connected with the upper flow guide pipes through upper connecting pipes, lower flow distribution pipes which are transversely distributed are arranged at the upper side of the lower flow guide pipes, the lower flow distribution pipes are connected with the lower flow guide pipes through lower connecting pipes, a plurality of left flow distribution pipes are distributed on the left side wall of the bent room, and a plurality of right distribution pipes are distributed on the right side wall of the bent room, the left shunt tubes are communicated with the first main pipeline through the left connecting pipe, the end parts of the right shunt tubes are connected with the upper shunt tube or the lower shunt tube through the control valves, a plurality of air holes are formed in the upper shunt tubes, the lower shunt tubes, the left shunt tubes and the right shunt tubes, and the control valves are arranged on the upper connecting pipe, the lower connecting pipe and the left connecting pipe.
2. The bent room pipeline system according to claim 1, wherein a second main pipeline is connected to a portion of the left end of each upper flow guide pipe, which is located at an upper side of the left connection pipe, a valve B is disposed on a portion of each upper flow guide pipe, which is located between the second main pipeline and the first main pipeline, an air inlet end pipeline of the fresh air handling unit is connected to the second main pipeline, a valve D is disposed on an air inlet end pipeline of the fresh air handling unit, and an air outlet end pipeline of the fresh air handling unit is connected to the first main pipeline.
3. A bent room pipe system according to claim 2, wherein the pipe of the air outlet end of the fresh air handling unit is connected in parallel with a heater, and the pipe of the heater is provided with a valve E.
4. A curved room pipe system according to claim 1, 2 or 3, wherein the upper end of the right shunt pipe is connected with the upper flow guide pipe through a control valve, a plurality of upper shunt branch pipes are arranged on each upper flow guide pipe, a group of vertical shunt pipes are arranged on each upper flow guide pipe at the position between any two adjacent upper shunt pipes, the vertical shunt pipes divide the space in the curved room into a plurality of curved frame storage cavities, each group of vertical shunt pipes comprises two vertical shunt pipes, the side walls of the vertical shunt pipes are provided with drainage holes distributed towards the curved frame storage cavities, and the upper end of each vertical shunt pipe is provided with a control valve.
5. A curved room pipe system according to claim 1, 2 or 3, wherein the lower end of the right shunt pipe is connected with the lower flow guide pipe through a control valve, a plurality of lower shunt branch pipes are arranged on each lower flow guide pipe, a group of vertical shunt pipes are arranged on each lower flow guide pipe at the position between any two adjacent lower shunt pipes, the vertical shunt pipes divide the space in the curved room into a plurality of curved frame storage cavities, each group of vertical shunt pipes comprises two vertical shunt pipes, the side walls of the vertical shunt pipes are provided with drainage holes distributed towards the curved frame storage cavities, and the lower end of each vertical shunt pipe is provided with a control valve.
Priority Applications (1)
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CN202121684693.2U CN215630410U (en) | 2021-07-23 | 2021-07-23 | Bent room pipeline system |
Applications Claiming Priority (1)
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CN202121684693.2U CN215630410U (en) | 2021-07-23 | 2021-07-23 | Bent room pipeline system |
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CN215630410U true CN215630410U (en) | 2022-01-25 |
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CN202121684693.2U Active CN215630410U (en) | 2021-07-23 | 2021-07-23 | Bent room pipeline system |
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- 2021-07-23 CN CN202121684693.2U patent/CN215630410U/en active Active
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