CN209950239U - Proof room with airflow channel - Google Patents

Abstract

The utility model discloses a room of proofing with airflow channel, the power distribution box comprises a box body, the box has the inner chamber, the inner wall of box is equipped with airflow channel, airflow channel's air inlet and gas outlet all with the inner chamber intercommunication, airflow channel's inside is equipped with air exhaust device and humidification steam outlet duct along the air current direction in proper order, air exhaust device will the gaseous suction of inner chamber makes the interior air current that forms of airflow channel, humidification steam outlet duct is used for connecting steam generating device, humidification steam outlet duct can supply steam let in to in the airflow channel, let in to steam quilt in the airflow channel air current promotes to get into the inner chamber. When the air current was flowed through humidification steam outlet duct department, the air current can be taken away from humidification steam outlet duct exhaust steam, then discharges to the inner chamber of box through the gas outlet of inlet flow channel, and this steam plays the humidification effect, makes the box inner chamber keep sufficient humidity.

Description

Proof room with airflow channel

Technical Field

The utility model relates to a room of proofing especially relates to a room of proofing with airflow channel.

Background

The fermentation room in the prior art gradually reduces the humidity of the inner cavity along with the fermentation process, and fails to meet the technological requirements of certain products with higher humidity requirements.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model aims to provide a proofing room with an airflow channel, wherein the inner cavity of the proofing room can keep enough humidity in the proofing process.

The purpose of the utility model is realized by adopting the following technical scheme:

the utility model provides a room of proofreading with airflow channel, includes the box, the box has the inner chamber, the inner wall of box is equipped with airflow channel, airflow channel's air inlet and gas outlet all with the inner chamber intercommunication, airflow channel's inside is equipped with air exhaust device and humidification steam outlet duct along the air current direction in proper order, air exhaust device will the gas suction of inner chamber makes the air current that forms in the airflow channel, humidification steam outlet duct is used for connecting steam generating device, humidification steam outlet duct can supply steam to let in to in the airflow channel, let in to steam in the airflow channel is by air current in the airflow channel promotes to the entering the inner chamber.

Specifically, the inside of airflow channel is equipped with heating coil, heating coil is located air exhaust device with humidification steam outlet duct between.

Specifically, the heating and humidifying device comprises a main air inlet path, a heating branch path and a humidifying branch path, wherein an air inlet end of the main air inlet path is used for being connected with a steam generating device, the main air inlet path is connected with a main valve, respective air inlet ends of the heating branch path and the humidifying branch path are communicated with an air outlet end of the main air inlet path, an air outlet end of the heating branch path is communicated with an air inlet end of the heating coil, and an air outlet end of the humidifying branch path is the humidifying steam outlet pipe.

Specifically, a first manual flow valve and a first one-way pneumatic valve are connected in series in the heating branch, a first bypass is connected in parallel in the heating branch, and a first bypass valve is arranged on the first bypass.

Specifically, a second manual flow valve and a second one-way pneumatic valve are connected in series in the humidifying branch, a second bypass is connected in parallel in the humidifying branch, and a second bypass valve is arranged on the second bypass.

Specifically, the end intercommunication of giving vent to anger of heating coil has first drain pipe, first drain pipe is connected with first trap, first drain pipe connects in parallel has the third bypass, the third bypass is connected with the third bypass valve.

Specifically, the air outlet end of the main air inlet path is communicated with a second water drainage branch, the second water drainage branch is connected with a second water drainage valve, the second water drainage branch is connected with a fourth bypass in parallel, and the fourth bypass is connected with a fourth bypass valve.

Specifically, the lateral wall of box has the opening, open-ended edge articulates there is the door plant, the articulated shaft of door plant is located the plane that the lateral wall was located, and the articulated shaft inwards inclines from bottom to top, makes the door plant have the trend of spontaneous swing to closed state because of the focus skew, the contained angle of articulated shaft and vertical direction is a, and 3 is no less than 8 a.

Specifically, one side wall of the box body is provided with an air suction fan, and the other side wall opposite to the side wall is provided with an air inlet fan.

Specifically, each of the suction fans is matched with an intake fan, and the suction fan and the intake fan are opposite to each other.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the inner wall of the box body is provided with the airflow channel, and the air in the inner cavity of the box body is pumped into the airflow channel by the air pumping device to form airflow. The interior of the airflow channel is provided with a humidifying steam outlet pipe, and the humidifying steam outlet pipe is provided with a steam outlet. When the air current was flowed through humidification steam outlet duct department, the air current can be taken away from humidification steam outlet duct exhaust steam, then discharges to the inner chamber of box through the gas outlet of inlet flow channel, and this steam plays the humidification effect, makes the box inner chamber keep sufficient humidity.

Drawings

Fig. 1 is a perspective view of a proofing house of the present invention;

FIG. 2 is an interior view of the proving room of the present invention, the bottom wall of the proving room not being shown;

FIG. 3 is a view showing the internal structure of the airflow channel according to the present invention;

fig. 4 is a gas circuit system diagram of the proofing room of the present invention.

In the figure: 1. an air flow channel; 2. an air extraction device; 3. a humidifying steam outlet pipe; 4. a heating coil; 5. a main intake path; 51. a main valve; 6. a heating branch; 61. a first manual flow valve; 62. a first unidirectional pneumatic valve; 7. a humidifying branch; 71. a second manual flow valve; 72. a second unidirectional pneumatic valve; 8. a first bypass; 81. a first bypass valve; 9. a second bypass; 91. a second bypass valve; 100. a first drain line; 101. a first trap; 110. a third bypass; 111. a third bypass valve; 120. a second drain line; 121. a second trap; 130. a fourth bypass; 131. a fourth bypass valve; 14. a door panel; 15. an air extracting fan.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

Referring to fig. 1 and 2, the fermentation room of the embodiment comprises a box body (the bottom wall of the box body is not shown), and the box body is provided with an inner cavity. The inner wall of the box body is provided with an airflow channel 1, and an air inlet and an air outlet of the airflow channel 1 are communicated with the inner cavity. Referring to fig. 3, an air extractor 2 and a humidifying steam outlet pipe 3 are sequentially arranged in the air flow channel 1 along the air flow direction. The air extractor 2 extracts the air in the inner cavity, so that the air flow is formed in the air flow channel 1. The humidifying steam outlet pipe 3 is used for connecting a steam generating device, and the humidifying steam outlet pipe 3 can be used for leading steam into the airflow channel 1. The steam introduced into the air flow channel 1 is pushed into the inner cavity by the air flow in the air flow channel 1. In the present embodiment, the air extracting device 2 is an air extracting fan. By arranging the airflow channel 1 on the inner wall of the box body, the air in the inner cavity of the box body is pumped into the airflow channel 1 by the air pumping device 2, and airflow is formed. Airflow channel 1's inside is equipped with humidification steam outlet duct 3, and 3 departments of humidification steam outlet duct have steam to discharge, and when the air current was flowed through humidification steam outlet duct 3 departments, the air current can be taken away from 3 exhaust steam of humidification steam outlet duct, then discharges to the inner chamber of box through the gas outlet of inlet flow channel 1, and this steam plays the humidification effect, makes the box inner chamber keep sufficient humidity.

Specifically, referring to fig. 3, a heating coil 4 is disposed inside the airflow channel 1, and the heating coil 4 is located between the air extractor 2 and the humidifying steam outlet pipe 3. The heating coil 4 has an air inlet and an air outlet. The air inlet and the air outlet of the heating coil 4 are both arranged on the outer wall of the airflow channel 1. Through set up heating coil 4 between air exhaust device 2 and humidification steam outlet duct 3, make the gas that gets into airflow channel 1 earlier heated by heating coil 4, then flow to humidification steam outlet duct 3 departments for it is higher from the exhaust steam temperature of airflow channel 1 gas outlet, reduce the liquefaction degree of steam, thereby can increase the humidity of box inner chamber more effectively.

Specifically, see fig. 4, the utility model discloses a proof room includes air inlet main road 5, heating branch road 6 and humidification branch road 7. The air inlet end of the air inlet main path 5 is used for connecting a steam generating device. A main valve 51 is connected to the intake main passage 5. The respective air inlet ends of the heating branch 6 and the humidifying branch 7 are communicated with the air outlet end of the air inlet main path 5. The air outlet end of the heating branch 6 is communicated with the air inlet end of the heating coil 4 (in combination with fig. 3). The air outlet end of the humidifying branch 7 is a humidifying steam outlet pipe 3, and steam passes through the humidifying branch 7 and the humidifying steam outlet pipe 3 in sequence and then is introduced into the airflow channel 1. The heating branch circuit 6 and the humidifying branch circuit 7 are both connected with the main air inlet circuit 5, and the heating branch circuit 6 and the humidifying branch circuit 7 can be controlled in an overall mode through the control main valve 51, so that the control is convenient. And (4) reliability.

Specifically, referring to fig. 4, a first manual flow valve 61 and a first one-way pneumatic valve 62 are connected in series in the heating branch 6. The heating branch 6 is connected in parallel with a first bypass 8, and the first bypass 8 is provided with a first bypass valve 81. By adjusting the first manual flow valve 61, the steam flow of the heating branch 6 can be controlled, thereby adjusting the temperature of the proving room inner cavity. When the heating branch 6 cannot be conducted due to a fault, the first bypass valve 81 is opened, so that the first bypass 8 can be conducted, and the heating coil 4 is maintained to work normally.

Specifically, referring to fig. 4, a second manual flow valve 71 and a second one-way air-operated valve 72 are connected in series in the humidifying branch 7. The humidifying branch 7 is connected in parallel with a second bypass 9, and the second bypass 9 is provided with a second bypass valve 91. By adjusting the second manual flow valve 71, the steam flow of the humidifying branch 7 can be controlled, so that the humidity of the inner cavity of the fermentation room can be adjusted. When the humidifying branch 7 cannot be conducted due to a fault, the second bypass valve 91 is opened to conduct the second bypass 9, and the normal operation can be maintained.

Specifically, the air outlet end of the heating coil 4 is communicated with a first drain pipeline 100, and the first drain pipeline 100 is connected with a first drain valve 101. First drain line 100 is connected in parallel to third bypass 110, and third bypass valve 111 is connected to third bypass 110. The output end of the first drain pipeline 100 is arranged on the outer wall of the fermentation room box body, and after steam passes through the heating coil 4, part of the steam is condensed into water and flows into the first drain pipeline 100. Opening the first drain valve 101 opens the first drain line 100 to drain water out of the housing of the proofing house.

Specifically, the air outlet end of the main air inlet passage 5 is communicated with a second drain pipeline 120, and the second drain pipeline 120 is connected with a second drain valve 121. The second drain line 120 is connected in parallel to a fourth bypass 130, and the fourth bypass 130 is connected to a fourth bypass valve 131. Part of steam in the main intake path 5 will be condensed into water, and the condensed water will flow into the second drain pipe 120, and the second drain valve 121 is opened, so that the second drain valve 121 can be opened to discharge the water out of the fermenting chamber box.

In particular, see fig. 1, the side walls of the box have an opening, the edges of which are hinged with a door panel 14. The hinge axis (line a in fig. 1) of the door panels 14 is located in the plane of the side wall, and the hinge axis is inclined inward from bottom to top (i.e., toward the joint where the two door panels 14 are closed). The angle between the hinge axis and the vertical direction is a, and a is 4 °, so that the door panel 14 has a tendency of spontaneously swinging to a closed state due to the shift of the center of gravity.

Specifically, as shown in fig. 1, one side wall of the box body is provided with an air suction fan 15, and the other side wall opposite to the side wall is provided with an air inlet fan (not shown). Each of the suction fans 15 is matched with an intake fan (not shown), and the suction fans 15 and the intake fans are opposed to each other. After finishing proofing, start exhaust fan 15 and air inlet fan, make the gas in the room of proofing taken out by exhaust fan 15, the air that the fan of air inlet will proofed the room outside takes into proofed the room inner chamber, makes proofed the room and forms the convection current, makes the air in the room of proofing keep circulating.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (7)

1. A proofer's room with airflow channel, characterized by: the steam humidification box comprises a box body, the box has the inner chamber, the inner wall of box is equipped with airflow channel, airflow channel's air inlet and gas outlet all with the inner chamber intercommunication, airflow channel's inside is equipped with air exhaust device and humidification steam outlet duct along the air current direction in proper order, air exhaust device will the gaseous suction of inner chamber makes the airflow channel form the air current, humidification steam outlet duct is used for connecting steam generating device, humidification steam outlet duct can supply steam to let in to in the airflow channel, let in to steam in the airflow channel by air current in the airflow channel promotes to get into the inner chamber.

2. The proofer's room with airflow channel of claim 1, wherein: and a heating coil is arranged in the airflow channel and is positioned between the air extracting device and the humidifying steam outlet pipe.

3. The proofer's room with airflow channel of claim 2, wherein: the main air inlet end of the main air inlet path is used for being connected with a steam generating device, the main air inlet path is connected with a main valve, the heating branch path and the respective air inlet end of the humidifying branch path are communicated with the air outlet end of the main air inlet path, the air outlet end of the heating branch path is communicated with the air inlet end of the heating coil, and the air outlet end of the humidifying branch path is the humidifying steam outlet pipe.

4. A proofer's house having an airflow passage as in claim 3, wherein: the heating branch is connected with a first manual flow valve and a first one-way pneumatic valve in series, the heating branch is connected with a first bypass in parallel, and the first bypass is provided with a first bypass valve.

5. A proofer's house having an airflow passage as in claim 3, wherein: and a second manual flow valve and a second one-way pneumatic valve are connected in the humidifying branch in series, a second bypass is connected in parallel to the humidifying branch, and a second bypass valve is arranged on the second bypass.

6. A proofer's house having an airflow passage as in claim 3, wherein: the air outlet end of the heating coil is communicated with a first drain pipeline, the first drain pipeline is connected with a first drain valve, the first drain pipeline is connected with a third bypass in parallel, and the third bypass is connected with a third bypass valve.

7. A proofer's house having an airflow passage as in claim 3, wherein: the air outlet end of the air inlet main path is communicated with a second water drainage branch, the second water drainage branch is connected with a second water drainage valve, the second water drainage branch is connected with a fourth bypass in parallel, and the fourth bypass is connected with a fourth bypass valve.

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