CN201860732U - Staggered air inlet and outlet device for afterheat shared channels of low-carbon compact tobacco curing barns - Google Patents

Abstract

The utility model relates to a staggered air inlet and outlet device for afterheat shared channels of low-carbon compact tobacco curing barns. The staggered air inlet and outlet device comprises afterheat shared channels, high-energy hot airflow inlets, air inlet and outlet shared channels, low-energy wet airflow outlets and airflow blocking walls, the high-energy hot airflow inlets are communicated with the afterheat shared channels, the air inlet and outlet shared channels are communicated with the high-energy hot airflow inlets, the low-energy wet airflow outlets are communicated with the air inlet and outlet shared channels, the airflow blocking walls are arranged on lower portions of the air inlet and outlet shared channels, air inlet and outlet shared doors are mounted on the air inlet and outlet shared channels, a center shaft is disposed on each air inlet and outlet shared door, and an electric actuator which can lead each air inlet and outlet shared door to axially rotate along each center shaft is arranged on one side of each center shaft. Coal consumption of each kilo of dry high-quality idiomatical tobaccos baked by the compact tobacco curing barns can be reduced by 40% at least, carbon emission can be reduced by 60% at least, and coal consumption and carbon emission of each kilo of dry tobaccos are reduced obviously.

Description

Low-carbon (LC) tobacco-leaf bulk curing barn waste heat sharing channel dislocation porting device

Technical field

The utility model relates to a kind of porting device of barn, is specifically related to a kind of low-carbon (LC) tobacco-leaf bulk curing barn waste heat sharing channel dislocation porting device.

Background technology

When tobacco flue-curing, the conventional heat supply energy is coal at present, and resource consumption is big, waste is seriously polluted.Doing a good job of it the tobacco flue-curing energy-saving and emission-reduction, walk to throw the road of low-carbon emission, high efficiency, sustainable development, is the inevitable choice of development modern tobacco agriculture, also can effectively drive the energy-saving and emission-reduction work of local agricultural simultaneously, promotes the agricultural production mode to change.

Summary of the invention

At the deficiencies in the prior art, the utility model provides a kind of low-carbon environment-friendly, protection environment, resource utilization height, energy savings, baking finished product high-quality, simple in structure, low-carbon (LC) tobacco-leaf bulk curing barn waste heat sharing channel dislocation porting device that baking efficient is high.

The technical solution of the utility model is achieved in that a kind of low-carbon (LC) tobacco-leaf bulk curing barn waste heat sharing channel dislocation porting device, comprise the waste heat sharing channel, the inlet port of the high-energy thermal current that is connected with the waste heat sharing channel, the porting common-use tunnel that is connected with the inlet port of high-energy thermal current, the outlet of the low-yield wet gas current that is connected with the porting common-use tunnel, and the air-flow blocking-up wall that is arranged on porting common-use tunnel bottom, the shared door of porting is installed on the described porting common-use tunnel, the shared door of porting is provided with axis, and a side of axis is provided with and can makes the YE of the shared door of porting along the axis axial rotation.

Described YE is connected with the bulk curing barn controller by lead.

The shared door of described porting is for realizing the door of opening and closing by the axial rotation of axis, shared mode of axially rotating along axis of porting is for being rotated counterclockwise or turning clockwise, the shared door of porting rotates to the upright position for opening, and the shared door of porting rotates to horizontal level for closing.

Half of its sinking pressed close to seal with air-flow blocking-up wall mutually when the shared door of described porting was opened, under the acting in conjunction of half that lift and barn circulating fan, make the shared shop front of porting form an air negative pressure district to the one side of barn air motion direction, the one side of barn air motion direction forms an air positive pressure district dorsad.

When the shared door of described porting was opened, the area of the inlet port of high-energy thermal current and the outlet of low-yield wet gas current equated with the area of section of waste heat sharing channel.

Half of its sinking lifted the cross section that the back forms and equated with the area of section of waste heat sharing channel when the shared door of described porting was closed.

The utlity model has following good effect: this product design is reasonable, build and install, use simple, can precisely control the high-energy thermal current of discharging and enter the amount of moisture of taking away when heat energy that barn brings and low-yield wet gas current are discharged barn by the high-energy barn, satisfy the baking process needs of low-carbon (LC) tobacco leaf condensed roasting baking room high-quality characteristic tobacco, significantly reduce dried cigarette coal consumption of kilogram and carbon emission amount, no matter barn outer air humidity size, do not need humidification in barn, just can get damp again dried muscle tobacco leaf.

Description of drawings

Fig. 1 is a plan structure schematic diagram of the present utility model.

Fig. 2 is a side-looking structural representation of the present utility model.

Structural representation when Fig. 3 closes for the shared door of the utility model porting.

The specific embodiment

As Fig. 1, shown in 2, a kind of low-carbon (LC) tobacco-leaf bulk curing barn waste heat sharing channel dislocation porting device, comprise waste heat sharing channel 1, the inlet port 2 of the high-energy thermal current that is connected with waste heat sharing channel 1, the porting common-use tunnel 5 that is connected with the inlet port 2 of high-energy thermal current, the outlet 4 of the low-yield wet gas current that is connected with porting common-use tunnel 5, and the air-flow blocking-up wall 3 that is arranged on porting common-use tunnel 5 bottoms, the shared door 7 of porting is installed on the described porting common-use tunnel 5, the shared door 7 of porting is provided with axis 8, and a side of axis 8 is provided with and can makes the shared door of porting 7 YEs 6 along axis 8 axial rotation.Described YE 6 is connected with the bulk curing barn controller by lead.

The shared door of described porting is for realizing the door of opening and closing by the axial rotation of axis, shared 7 modes of axially rotating along axis 8 of porting are for being rotated counterclockwise or turning clockwise, the shared door 7 of porting rotates to the upright position for opening, and the shared door 7 of porting rotates to horizontal level for closing.Half of its sinking pressed close to seal with air-flow blocking-up wall 3 mutually when the shared door of described porting 7 was opened, under the acting in conjunction of half that lift and barn circulating fan, make the shared door 7 of porting form an air negative pressure district towards the one side of barn air motion direction, the one side of barn air motion direction forms an air positive pressure district dorsad.When the shared door 7 of described porting was opened, the area of the inlet port 2 of high-energy thermal current and the outlet 4 of low-yield wet gas current equated with the cross section of waste heat sharing channel 1.Half of its sinking lifted the cross section that the back forms and equated with the cross section of waste heat sharing channel 1 when the shared door of described porting 7 was closed.

Embodiment 1: as Fig. 1, shown in 2, when the thermal current of high-energy barn discharge enters the bulk curing barn bottom by the waste heat sharing channel, by half blocking-up of shared door 7 sinkings of the porting of air-flow blocking-up wall and unlatching, inlet port by the high-energy thermal current enters barn, under the vacuum suction of the shared door of the porting of opening 7 half formation of lifting, quicken to flow, under drawing, taking out of barn circulating fan enter barn cigarette-filling house, carry out exchange heat with tobacco leaf, when being absorbed by tobacco leaf and become low-yield wet gas current with the moisture that tobacco leaf is discharged, gets back to heat energy the outlet of low-yield wet gas current, under the positive pressure of half formation that the shared door of the porting of opening lifts, enter the waste heat sharing channel, again by next barn utilization, when the humiture in this barn has satisfied the baking process needs of high-quality characteristic tobacco, the instruction of being sent by the bulk curing barn controller makes YE begin action, the shared door of porting is closed, the thermal current of discharging by the high-energy barn climb over air-flow blocking-up wall by the waste heat sharing channel directly by next barn utilization, tobacco leaf in the high-energy barn is finished dried muscle, when temperature drops to below 40 ℃ in the barn, the moisture that the wet gas current that low-yield barn is got rid of carries enters in the high-energy barn by the waste heat sharing channel, dried muscle tobacco leaf is got damp again, realize thus.

Embodiment 2: as shown in Figure 2, during the shared door of porting 7 complete openings, half of its sinking blocked the air communication mistake with air-flow blocking-up wall, under the acting in conjunction of half that it lifts and barn circulating fan, make the shared shop front of porting form an air negative pressure district to the one side of barn air motion direction, the one side of barn air motion direction forms an air positive pressure district dorsad.The inlet port of high-energy thermal current and the outlet of low-yield wet gas current equate with the area of section of waste heat sharing channel.

Embodiment 3: as shown in Figure 3, half of its sinking lifted the cross section that the back forms and equated with the area of section of waste heat sharing channel when the shared door of porting 7 was closed fully.

When the work of low-carbon (LC) tobacco-leaf bulk curing barn waste heat sharing channel dislocation porting device, the action of YE is accepted the instruction that the bulk curing barn controller sends and is finished.When the work of low-carbon (LC) tobacco-leaf bulk curing barn waste heat sharing channel dislocation porting device, tobacco leaf in the high-energy barn is finished dried muscle, the moisture that the wet gas current that low-yield barn is got rid of carries enters in the high-energy barn by the waste heat sharing channel, and dried muscle tobacco leaf is got damp again.

This product is by the switching and the unlatching size of the shared door of YE control porting that links to each other with the bulk curing barn controller, precisely the control high-energy thermal current of being discharged by the high-energy barn enters the amount of moisture of taking away when heat energy that barn brings and low-yield wet gas current are discharged barn, satisfy the baking process needs of low-carbon (LC) tobacco leaf condensed roasting baking room high-quality characteristic tobacco, can make the dried cigarette coal consumption of kilogram of the high-quality characteristic tobacco of tobacco leaf condensed roasting baking room reduce more than 40%, carbon emission reduces more than 60%, significantly reduces dried cigarette coal consumption of kilogram and carbon emission amount.

Claims (6)

1. low-carbon (LC) tobacco-leaf bulk curing barn waste heat sharing channel dislocation porting device, comprise waste heat sharing channel (1), the inlet port (2) of the high-energy thermal current that is connected with waste heat sharing channel (1), the porting common-use tunnel (5) that is connected with the inlet port (2) of high-energy thermal current, the outlet (4) of the low-yield wet gas current that is connected with porting common-use tunnel (5), and the air-flow blocking-up wall (3) that is arranged on porting common-use tunnel (5) bottom, it is characterized in that: the shared door of porting (7) is installed on the described porting common-use tunnel (5), the shared door of porting (7) is provided with axis (8), and a side of axis (8) is provided with and can makes the YE (6) of the shared door of porting (7) along axis (8) axial rotation.

2. low-carbon (LC) tobacco-leaf bulk curing barn waste heat sharing channel dislocation porting device according to claim 1, it is characterized in that: described YE (6) is connected with the bulk curing barn controller by lead.

3. low-carbon (LC) tobacco-leaf bulk curing barn waste heat sharing channel dislocation porting device according to claim 1, it is characterized in that: the shared door of described porting (7) is for realizing the door of opening and closing by the axial rotation of axis (8), the shared door of porting (7) along axis (8) axially the mode of rotation for being rotated counterclockwise or turning clockwise, the shared door of porting (7) rotates to the upright position for opening, and the shared door of porting (7) rotates to horizontal level for closing.

4. according to claim 1 or 3 described low-carbon (LC) tobacco-leaf bulk curing barn waste heat sharing channel dislocation porting devices, it is characterized in that: half of its sinking pressed close to seal with air-flow blocking-up wall (3) mutually when the shared door of described porting (7) was opened, under the acting in conjunction of half that lift and barn circulating fan, make the shared door of porting (7) form an air negative pressure district towards the one side of barn air motion direction, the one side of barn air motion direction forms an air positive pressure district dorsad.

5. according to claim 1 or 3 described low-carbon (LC) tobacco-leaf bulk curing barn waste heat sharing channel dislocation porting devices, it is characterized in that: when the shared door of described porting (7) was opened, the area of the outlet (4) of inlet port of high-energy thermal current (2) and low-yield wet gas current equated with the area of section of waste heat sharing channel (1).

6. according to claim 1 or 3 described low-carbon (LC) tobacco-leaf bulk curing barn waste heat sharing channel dislocation porting devices, it is characterized in that: the shared door of described porting (7) when closing half of its sinking lift the cross section that the back forms and equate with the area of section of waste heat sharing channel (1).

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