CN211041608U - Novel clean energy-saving drying room - Google Patents

Abstract

The utility model discloses a novel energy-conserving baking house of clean type is including drying by the fire the room, be provided with the wind chamber in the drying by the fire the room, the both sides lateral wall of drying by the fire the room is equipped with the wind channel with wind chamber intercommunication, a plurality of air inlet fan of outside top fixedly connected with of drying by the fire the room, each air inlet fan and wind chamber intercommunication, a plurality of inner loop fan of top outside fixedly connected with of drying by the fire the room, the top of drying by the fire the room is equipped with a plurality of hydrofuge mouths, the inboard bottom of drying by the fire the room is equipped with the track that multiunit edge drying by the fire the room length extends, drying by the fire the car has been placed to the inboard of drying by the fire the room, drying by the fire the car bottom install with track complex gyro wheel. The drying room can seal the moisture exhaust port when the drying room is not used, and the cleanness of the air duct of the drying room is ensured.

Description

Novel clean energy-saving drying room

Technical Field

The utility model relates to a drying equipment, concretely relates to novel energy-conserving baking house of clean type.

Background

The hot air circulation system is widely applied to the fields of pharmacy, food, chemical industry and the like, hot air is blown into the circulation system through a fan, the hot air carries away moisture on the surfaces of medicinal materials and food when passing through the surfaces of the medicinal materials and the food, and then the hot air with the moisture is discharged out of the air circulation system through a moisture discharging port disc.

Although the hot air circulation system has high drying efficiency on medicinal materials, a hot air outlet of the hot air circulation system is easy to drop dust when the hot air circulation system is not used, so that a hot air channel of the whole hot air circulation system is polluted.

Disclosure of Invention

In order to overcome the not enough among the prior art, the utility model provides a novel energy-conserving baking house of clean type, it can seal the hydrofuge mouth when the baking house is not used, guarantees the cleanness in baking house wind channel.

In order to realize the above-mentioned purpose, the utility model discloses a novel energy-conserving baking house of clean type is including the baking house room, be provided with the wind chamber in the baking house room, the both sides lateral wall of baking house room is equipped with the wind channel with the wind chamber intercommunication, a plurality of air inlet fan of outside top fixedly connected with of baking house room, each air inlet fan and wind chamber intercommunication, a plurality of inner loop fan of top outside fixedly connected with of baking house room, the top of baking house room is equipped with a plurality of hydrofuge mouths, the inboard bottom of baking house room is equipped with the track that the multiunit extends along the baking house room length, the drying truck has been placed to the inboard of baking house room, the drying truck bottom install with track complex gyro wheel, fixed drying rack has all been placed to the both sides of baking house room, install the shielding device in the hydrofug.

Furthermore, the shielding device comprises an air outlet pipe, an eccentric plate is rotatably connected to the inner wall of the air outlet pipe, two eccentric shafts are integrally arranged on the eccentric plate and are arranged on the inner wall of the air outlet pipe in a relative rotating mode, one of the eccentric shafts penetrates out of the air outlet pipe, and one end of the eccentric shaft penetrates out of the air outlet pipe and is fixedly connected with a rotating wheel.

Further, fixed drying rack includes two backup pads, a plurality of heat exchange tube of fixedly connected with between two backup pads, the both ends of heat exchange tube respectively with the inside intercommunication of two backup pads, on two backup pads respectively fixedly connected with steam advance pipe and steam outlet pipe, steam advance pipe and steam outlet pipe respectively with the both ends intercommunication of each heat exchange tube, the welding has a plurality of fin on the perisporium of each heat exchange tube.

Furthermore, two limiting plates are fixedly connected to the inner wall of the moisture exhaust port, and the two limiting plates are respectively located on the upper side and the lower side of the eccentric plate.

Furthermore, the position where the eccentric shaft penetrates out of the air outlet pipe is provided with a deformation groove, two elastic sheets are inserted in the deformation groove, a protruding block is integrally arranged on the peripheral wall of the eccentric shaft, and the protruding block is abutted to the two elastic sheets.

Furthermore, the bottom side of the eccentric plate is integrally provided with a balancing weight.

Furthermore, an air inlet of the air inlet fan is fixedly connected with a high-efficiency filter screen.

Has the advantages that: the moisture exhaust port is provided with a shielding device, the shielding device is opened to exhaust moisture from the moisture exhaust port when the drying room is used, and the moisture exhaust port is shielded by the shielding device when the drying room is not used.

Drawings

The invention will be further described and illustrated with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of an oven chamber;

FIG. 2 is a cross-sectional view of an oven chamber;

FIG. 3 is a schematic view of the position relationship between the roller and the track;

FIG. 4 is a schematic view of the construction of a stationary drying rack;

FIG. 5 is a schematic view of the construction of the screening arrangement;

fig. 6 is a cross-sectional view of the screening arrangement.

Reference numerals: 1. a baking room; 2. a wind cavity; 3. an air intake fan; 4. an internal circulation fan; 5. a moisture removal port; 6. a track; 7. drying the vehicle; 8. a roller; 9. fixing a drying rack; 91. a support plate; 92. a heat exchange pipe; 93. a steam inlet pipe; 94. A vapor outlet pipe; 95. a heat sink; 10. a shielding device; 101. an air outlet pipe; 102. an eccentric plate; 103. an eccentric shaft; 104. a rotating wheel; 11. a limiting plate; 12. a deformation groove; 13. an elastic sheet; 14. a balancing weight; 15. a high-efficiency filter screen; 16. and (4) a convex block.

Detailed Description

The technical solution of the present invention will be more clearly and completely explained by the description of the preferred embodiments of the present invention with reference to the accompanying drawings.

Example (b): as shown in fig. 1, the novel clean energy-saving drying room comprises a drying room chamber 1, wherein the drying room chamber 1 is closed except for the front side, and the front side is hinged with a door (hidden in the figure) which can completely close the drying room chamber 1.

As shown in fig. 2, an air cavity 2 is arranged in the inner wall of the drying chamber 1, the middle part of the drying chamber 1 is hollow, and the hollow position in the middle part of the drying chamber 1 is used for placing a product to be dried. The both sides lateral wall of baking house 1 is equipped with the wind channel with 2 intercommunications in wind chamber, a plurality of air inlet fan 3 of outside top fixedly connected with of baking house 1, and the equal fixedly connected with high efficiency filter screen 15 of air outlet of every air inlet fan 3 is in order to avoid debris to blow in wind chamber 2 along air inlet fan 3, and each air inlet fan 3 communicates with 2 in wind chamber, and a plurality of air inlet fan 3 arrange along the length direction of baking house 1. Drying by the fire room 1's a plurality of inner circulating fan 4 of top outside fixedly connected with, inner circulating fan 4 blows left side wind direction right side, and drying by the fire room 1's top is equipped with a plurality of hydrofuge mouths 5, and a plurality of inner circulating fan 4 and hydrofuge mouth 5 all arrange along drying by the fire room 1's length direction, and air inlet fan 3, inner circulating fan 4 and hydrofuge mouth 5 have from the left side to set gradually.

As shown in fig. 2 and 3, the bottom of the inner side of the drying chamber 1 is provided with a plurality of groups of rails 6 extending along the length of the drying chamber 1, a drying vehicle 7 is placed on the inner side of the drying chamber 1, rollers 8 matched with the rails 6 are installed at the bottom of the drying vehicle 7, the rollers 8 are matched with the rails 6, the rollers 8 can drive the drying vehicle 7 to move along the length direction of the rails 6, and a product to be dried is placed on the top of the drying vehicle 7.

As shown in fig. 3, fixed drying rack 9 has all been placed to the both sides of drying rack in order to give the heating of air temperature in baking house room 1, reach the purpose that the medicinal material on the supplementary drying car 7 is dry with higher speed, fixed drying rack 9 includes two backup pads 91, a plurality of heat exchange tube 92 of fixedly connected with between two backup pads 91, the both ends of heat exchange tube 92 communicate with the inside of two backup pads 91 respectively, respectively fixedly connected with steam advances pipe 93 and steam exit tube 94 on two backup pads 91, steam advances pipe 93 and steam exit tube 94 communicates with the both ends of each heat exchange tube 92 respectively, the welding has a plurality of fin 95 on the perisporium of each heat exchange tube 92, in with the heat exchange tube 92 steam heat is scattered into in baking house room 1 through fin 95 fast.

As shown in fig. 5 and 6, a shielding device 10 is installed in the moisture exhaust opening 5, the shielding device 10 includes an air outlet pipe 101, the air outlet pipe 101 is communicated with the moisture exhaust opening 5, an eccentric plate 102 is rotatably connected to an inner wall of the air outlet pipe 101, a transverse cross-sectional shape of the eccentric plate 102 is circular, a counterweight 14 is integrally disposed at a bottom side of the eccentric plate 102 to assist the rotation of the eccentric plate 102, two eccentric shafts 103 are integrally disposed on a peripheral wall of the eccentric plate 102, the two eccentric shafts 103 are rotatably disposed on an inner wall of the air outlet pipe, the eccentric shafts 103 are fixedly connected to the rotating wheel 104, one of the eccentric shafts 103 penetrates through the air outlet pipe 101, and one end of the eccentric shaft 103 penetrating through the air outlet.

The eccentric plate 102 is originally in a horizontal state, and at this time, the eccentric plate 102 completely shields the air outlet pipe, and the drying room 1 does not work.

After the rotating wheel 104 is manually or mechanically controlled to rotate, the drying room 1 works, the eccentric plate 102 deflects, and a gap is generated between the eccentric plate 102 and the inner wall of the air outlet pipe, so that the air in the air cavity 2 can be discharged out of the drying room 1 from the moisture exhaust port 5 through the air outlet pipe.

As shown in fig. 6, after the drying chamber 1 does not work, in order to ensure that the eccentric plate 102 is in a horizontal state, a limiting plate 11 is fixedly connected to the inner wall of the air outlet pipe, the limiting plate 11 is located at the bottom side of the eccentric plate 102 and is abutted against the bottom side of the eccentric plate 102, and the limiting plate 11 also limits the eccentric plate 102 to rotate only clockwise; the inner wall of the air outlet pipe is also fixedly connected with another limiting plate 11, the limiting plate 11 is positioned on the upper side of the eccentric plate 102, after the eccentric plate 102 rotates clockwise by 90 degrees, the eccentric plate 102 is abutted against the limiting plate 11, the opening of the air outlet pipe is the largest, and the eccentric plate 102 can only rotate anticlockwise.

As shown in fig. 5 and 6, after the eccentric plate 102 is kept horizontal or rotated 90 degrees clockwise, the rotation of the eccentric plate 102 needs to be limited to avoid the random rotation of the eccentric plate 102. In order to realize the rotation limitation of the eccentric plate 102, a deformation groove 12 is arranged at the position where the eccentric shaft 103 penetrates out of the air outlet pipe, two elastic sheets 13 are inserted into the deformation groove 12, a protruding block 16 is integrally arranged on the peripheral wall of the eccentric shaft 103, the protruding block 16 is a square block, the protruding block 16 is square, the protruding block 16 is abutted against the two elastic sheets 13, after the eccentric shaft 103 rotates for 90 degrees, the two elastic sheets 13 limit the rotation of the eccentric shaft 103 once, and the elastic sheets 13 are preferably iron sheets.

The above detailed description merely describes the preferred embodiments of the present invention and does not limit the scope of the present invention. Without departing from the design concept and spirit scope of the present invention, the ordinary skilled in the art should belong to the protection scope of the present invention according to the present invention provides the text description and drawings to the various modifications, replacements and improvements made by the technical solution of the present invention. The scope of protection of the present invention is determined by the claims.

Claims (7)

1. Novel clean energy-saving drying room, which comprises a drying room chamber (1) and is characterized in that an air cavity (2) is arranged in the drying room chamber (1), air channels communicated with the air cavity (2) are arranged on the side walls of the two sides of the drying room chamber (1), a plurality of air intake fans (3) are fixedly connected to the top of the outer side of the drying room chamber (1), each air intake fan (3) is communicated with the air cavity (2), a plurality of internal circulating fans (4) are fixedly connected to the outer side of the top of the drying room chamber (1), a plurality of moisture discharging openings (5) are arranged at the top of the drying room chamber (1), a plurality of groups of tracks (6) extending along the length of the drying room chamber (1) are arranged at the bottom of the inner side of the drying room chamber (1), a drying trolley (7) is arranged on the bottom of the drying trolley (7), rolling wheels (8) matched with the tracks (6) are arranged on the bottom of the drying trolley (7), and fixed drying frames (9) are arranged on the two, a shielding device (10) is arranged in the moisture exhaust opening (5).

2. The novel clean energy-saving drying room as claimed in claim 1, wherein the shielding device (10) comprises an air outlet pipe (101), an eccentric plate (102) is rotatably connected to the inner wall of the air outlet pipe (101), two eccentric shafts (103) are integrally arranged on the eccentric plate (102), the two eccentric shafts (103) are relatively rotatably arranged on the inner wall of the air outlet pipe, one of the eccentric shafts (103) penetrates out of the air outlet pipe (101), and a rotating wheel (104) is fixedly connected to one end of the eccentric shaft (103) which penetrates out of the air outlet pipe (101).

3. The novel clean energy-saving drying room as claimed in claim 1, wherein the fixed drying rack (9) comprises two supporting plates (91), a plurality of heat exchange tubes (92) are fixedly connected between the two supporting plates (91), two ends of each heat exchange tube (92) are respectively communicated with the interiors of the two supporting plates (91), a steam inlet tube (93) and a steam outlet tube (94) are respectively fixedly connected to the two supporting plates (91), the steam inlet tube (93) and the steam outlet tube (94) are respectively communicated with two ends of each heat exchange tube (92), and a plurality of cooling fins (95) are welded on the peripheral wall of each heat exchange tube (92).

4. The novel clean energy-saving drying room as claimed in claim 2, wherein two limiting plates (11) are fixedly connected to the inner wall of the moisture exhaust opening (5), and the two limiting plates (11) are respectively located at the upper side and the lower side of the eccentric plate (102).

5. The novel clean energy-saving drying room as claimed in claim 2, wherein a deformation groove (12) is formed at the position where the eccentric shaft (103) penetrates out of the air outlet pipe, two elastic sheets (13) are inserted into the deformation groove (12), a protruding block (16) is integrally formed on the peripheral wall of the eccentric shaft (103), and the protruding block (16) is abutted against the two elastic sheets (13).

6. The new clean energy-saving drying room as claimed in claim 2, wherein the bottom side of the eccentric plate (102) is integrally provided with a weight block (14).

7. The novel clean energy-saving drying room as claimed in claim 2, wherein the air inlet of the air inlet fan (3) is fixedly connected with a high-efficiency filter screen (15).

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