CN213804641U - Novel environment-friendly heat energy high-utilization dipping and drying production line - Google Patents

Abstract

The utility model discloses a novel environment-friendly heat energy high-utilization dipping and drying production line, which comprises a base, a drying shell, a conveyor belt, a drying device, wherein the drying shell and the conveyor belt are arranged on the base, the drying shell is a cuboid shell, two ends of the drying shell in the length direction are provided with avoidance openings, the belt surface of the conveyor belt passes through the avoidance openings at the end part of the drying shell and penetrates through the drying shell, the drying device is arranged on the drying shell, the dipping paper is conveyed by the conveyor belt and passes through the drying shell, the drying device can dry the dipping paper, when the hot air is discharged sequentially by a first ventilation hood, a fourth ventilation hood and a seventh ventilation hood, the heat of the hot air is reduced, when the dipping paper is conveyed by the conveyor belt, the dipping paper is blown and dried by sequentially the seventh ventilation hood, the fourth ventilation hood and the first ventilation hood, so as to preheat the dipping paper, avoid the impregnated paper to be damaged at high temperature.

Description

Novel environment-friendly heat energy high-utilization dipping and drying production line

Technical Field

The utility model relates to a drying line technical field, concretely relates to novel high flooding drying line that utilizes of environmental protection heat energy.

Background

At present, a drying box is widely used on a dipping production line, air is supplied into the drying box through an air heater, if the air heater stops working, the retention time of hot air in the drying box is short, if the air heater always works, resource waste is caused, the environment is not saved enough, the utilization rate of the hot air is low, and therefore an environment-friendly drying production line is needed.

SUMMERY OF THE UTILITY MODEL

For solving the not enough of prior art, the utility model aims at providing a novel high flooding drying production line that utilizes of environmental protection heat energy.

In order to achieve the technical purpose, the utility model adopts the following technical scheme.

A novel high-utilization impregnation drying production line of environmental protection heat energy, it includes:

the drying device is arranged on the drying shell, impregnated paper can be dried by the drying device when the impregnated paper is conveyed by the conveying belt and passes through the drying shell;

the drying device comprises a hot air drying component, the hot air drying component is arranged on the drying shell and is close to the top of the drying shell, the hot air drying component comprises an air inlet pipe, an exhaust fan, a first ventilating hood, a second ventilating hood, a first exhaust fan, a first communicating pipe, a third ventilating hood, a second exhaust fan, a second communicating pipe, a first filtering chamber, a first exhaust pipe, a fourth ventilating hood, a fifth ventilating hood, a third exhaust fan, a third communicating pipe, a sixth ventilating hood, a fourth exhaust fan, a fourth communicating pipe, a second filtering chamber, a second exhaust pipe, a seventh ventilating hood, a eighth ventilating hood, a fifth exhaust fan, a fifth communicating pipe, a ninth ventilating hood, a sixth exhaust fan, a sixth guiding pipe and a second guiding pipe, the air inlet pipe is vertically arranged above the drying shell, the bottom of the air inlet pipe is communicated with the exhaust fan, the first ventilating hood is communicated with the bottom of the exhaust fan, the first ventilating hood extends into the drying shell, and an electric heating sheet for heating air is arranged in the air inlet pipe, the first exhaust fan, the second exhaust fan, the third exhaust fan, the fourth exhaust fan, the fifth exhaust fan, the sixth exhaust fan are installed at the side wall of the drying shell, the first exhaust fan, the second exhaust fan are oppositely arranged, the third exhaust fan, the fourth exhaust fan are oppositely arranged, the fifth exhaust fan and the sixth exhaust fan are oppositely arranged, the second ventilation hood is communicated with the first exhaust fan, the third ventilation hood is communicated with the second exhaust fan, the second ventilation hood and the third ventilation hood are close to the first ventilation hood, one end of the first communication pipe is communicated with the first exhaust fan, the other end of the first communication pipe is communicated with the first filtration chamber, the first filtration chamber is arranged at the top of the drying shell, one end of the second communication pipe is communicated with the second exhaust fan, the other end of the second communication pipe is communicated with the first filtration chamber, one end of the first exhaust pipe is communicated with the first filtration chamber, the other end of the first ventilation hood is communicated with the fourth ventilation hood, the ventilation wind direction of the fourth ventilation hood faces downwards, the fifth ventilation hood is communicated with the third exhaust fan, the sixth exhaust fan is communicated with the fourth exhaust fan, the fifth ventilation hood, the sixth exhaust fan is communicated with the sixth exhaust fan, the sixth exhaust fan is communicated with the sixth exhaust fan, and the sixth exhaust fan, the sixth exhaust fan are communicated with the first ventilation hood, the third ventilation hood is communicated with the second ventilation hood, the third ventilation hood is communicated with the third ventilation hood, the third ventilation hood is communicated with the second ventilation hood, the third ventilation hood, the second ventilation hood is communicated with the second ventilation hood, the third ventilation hood is communicated with the second ventilation hood, the third ventilation hood is communicated with the second ventilation hood, the first ventilation hood, the second ventilation hood is communicated with the third ventilation hood is communicated with the second ventilation hood, the third ventilation hood, the second ventilation hood is communicated with the second ventilation hood, the first ventilation hood, the second ventilation hood is communicated with the second ventilation hood, the six ventilating hoods are close to the four ventilating hoods, one end of the three communicating pipe is communicated with the three exhaust fans, the other end of the three communicating pipe is communicated with the second filtering chamber, the second filtering chamber is arranged at the top of the drying shell, one end of the four communicating pipe is communicated with the four exhaust fans, the other end of the four communicating pipe is communicated with the second filtering chamber, the other end of the two exhaust pipe is communicated with the seventh ventilating hood, the ventilating wind direction of the seventh ventilating hood faces downwards, the eight ventilating hoods are communicated with the five exhaust fans, the nine ventilating hoods are communicated with the six exhaust fans, the eight ventilating hoods are close to the seventh ventilating hoods, one end of the five communicating pipe is communicated with the five exhaust fans, the other end of the five communicating pipe is communicated with the bottom of the first guiding pipe, one end of the six communicating pipe is communicated with the six exhaust fans, the other end of the six guiding pipe is communicated with the bottom of the first guiding pipe, the first guiding pipe is vertically arranged, and the side wall of the first guiding pipe is communicated with the side wall of the air inlet pipe through the second guiding pipe.

As a further improvement of the technical scheme, a transmission air draft mechanism for driving an exhaust fan, an exhaust fan I, a communication pipe I, an exhaust fan II, an exhaust fan III, an exhaust fan IV, an exhaust fan V and an exhaust fan IV to work is arranged on a drying shell, the transmission air draft mechanism comprises a motor, a transmission driving part, a rotating shaft I, a belt wheel II, a belt wheel III, a belt wheel IV, a fan blade I, a fan blade II, a fan blade III, a rotating shaft II, a belt wheel V, a belt wheel VI, a belt wheel VII, a belt wheel VIII, a fan blade IV, a fan blade V and a fan blade VI, the motor is arranged at the top of the drying shell, an output shaft of the motor is vertically downward, an output shaft end of the motor is connected with the transmission driving part, the rotating shaft I and the rotating shaft II are also connected with the transmission driving part, the motor can drive the transmission driving part to work and drive the rotating shaft I and the rotating shaft II to rotate, the rotating shaft I and the rotating shaft II are horizontally arranged and vertical to the length direction of the drying shell, two side walls of the drying shell in the length direction are respectively provided with a first mounting plate and a second mounting plate, a first rotating shaft and a second rotating shaft respectively penetrate through the first mounting plate and the second mounting plate, a belt wheel is sleeved at the end part of the first rotating shaft, a fifth belt wheel is sleeved at the end part of the second rotating shaft, the first mounting plate is movably connected with a third rotating shaft, a fourth rotating shaft and a fifth rotating shaft, the second mounting plate is movably connected with a sixth rotating shaft, a seventh rotating shaft and an eighth rotating shaft, the second belt wheel, the third belt wheel and the fourth belt wheel are respectively sleeved on the third rotating shaft, the fourth rotating shaft and the fifth rotating shaft, the sixth belt wheel, the seventh belt wheel and the eighth belt wheel are respectively sleeved on the sixth rotating shaft, the seventh rotating shaft and the eighth rotating shaft, the first fan blade, the second fan blade and the third fan blade are respectively sleeved on the third rotating shaft, the fourth rotating shaft and the fifth rotating shaft, the fourth fan blade, the fifth fan blade and the sixth fan are respectively sleeved on the sixth rotating shaft, the seventh rotating shaft and the eighth rotating shaft, the first belt wheel, the third belt and the fourth belt are driven by a belt, the belt wheel five, the belt wheel six, the belt wheel seven and the belt wheel eight are in belt transmission, the fan blade I, the fan blade II and the fan blade III respectively supply air to the exhaust fan I, the exhaust fan III and the exhaust fan five, and the fan blade IV, the fan blade V and the fan blade VI respectively supply air to the exhaust fan II, the exhaust fan IV and the exhaust fan six.

As the further improvement of the technical scheme, the transmission driving part comprises a connecting shaft, a first bevel gear, a second bevel gear and a third bevel gear, the connecting shaft is coaxially and fixedly connected to the output shaft end of the motor, one set of bevel gear is arranged at the end part of the connecting shaft, the second bevel gear and the third bevel gear are respectively sleeved on the first rotating shaft and the second rotating shaft, the second bevel gear and the third bevel gear are meshed with the first bevel gear, a ninth belt wheel is sleeved on the connecting shaft, a ninth rotating shaft is vertically arranged at the top of the drying shell, a tenth belt wheel is sleeved on the ninth rotating shaft, a seventh fan blade is further sleeved on the ninth rotating shaft, the tenth belt wheel and the ninth belt are in belt transmission, and the seventh fan blade can supply air to the exhaust fan.

As a further improvement of the technical scheme, a third electromagnetic valve is arranged at the upper end opening of the first flow guide pipe, a temperature sensor is arranged at the bottom of the first flow guide pipe, a second electromagnetic valve is arranged at the end of the second flow guide pipe and close to the air inlet pipe, a first electromagnetic valve is arranged at the upper end opening of the air inlet pipe, and the temperature sensor can detect the temperature of air flowing through the first flow guide pipe.

As a further improvement of the technical scheme, a collecting tank, a first filtering chamber and a second impurity removing chamber are arranged on the base, an opening at the upper end of the first flow guide pipe is communicated with the first filtering chamber, the second impurity removing chamber and the collecting tank in sequence, and an alkaline substance used for neutralizing the polluted gas is arranged in the second impurity removing chamber.

Compared with the prior art, the utility model, the progress and the advantage of gain lie in the utility model discloses in the use, hot-air is in proper order through draft hood one, draft hood four, when seven discharges of draft hood, hot-air's heat reduces, impregnated paper is when the conveyer belt is carried, impregnated paper loops through draft hood seven, draft hood four, draft hood one dries, thereby can preheat impregnated paper, it is impaired to avoid impregnated paper high temperature, when detection temperature is higher, close solenoid valve three, solenoid valve one, open solenoid valve two, hot-air can be through honeycomb duct one, honeycomb duct two flows to the air-supply line, thereby recycle hot-air, environmental protection more.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below. It is obvious that the drawings described below are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be obtained from these drawings without inventive effort.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is the installation schematic diagram of the drying device of the utility model.

Fig. 3 is the schematic structural diagram of the drying device of the present invention.

Fig. 4 is a schematic view of the hot air drying assembly of the present invention.

Fig. 5 is a schematic view of the connection between the air inlet pipe and the flow guide pipe of the present invention.

Fig. 6 is a schematic view of the driving ventilation mechanism of the present invention.

Fig. 7 is a schematic view of the driving member of the present invention.

Labeled as:

10. a base; 110. drying the shell; 120. a conveyor belt; 130. a first mounting plate; 140. a second mounting plate;

20. a drying device; 210. a hot air drying component; 211. an air inlet pipe; 212. an exhaust fan; 213. a first ventilation cover; 214. a second ventilation hood; 215. an exhaust fan I; 216. a first communicating pipe; 217. a third ventilation hood; 218. a second exhaust fan; 219. a second communicating pipe; 220. a first filtering chamber; 221. a first exhaust pipe; 222. a fourth ventilation hood; 223. a fifth ventilating hood; 224. a third exhaust fan; 225. a third communicating pipe; 226. a sixth ventilation hood; 227. a fourth exhaust fan; 228. a communicating pipe IV; 229. a second filtering chamber; 230. a second exhaust duct; 231. a ventilation cover seventh; 232. eighthly, ventilating hoods; 233. a fifth exhaust fan; 234. a fifth communicating pipe; 235. a ninth ventilation hood; 236. sixth exhaust fan; 237. a sixth communicating pipe; 238. a flow guide pipe I; 239. a second flow guide pipe; 240. a first electromagnetic valve; 241. a second electromagnetic valve; 242. a temperature sensor; 243. a third electromagnetic valve; 250. a driving air draft mechanism; 251. a motor; 252. a transmission driving part; 253. a first rotating shaft; 254. a first belt wheel; 255. a second belt wheel; 256. a third belt wheel; 257. a belt wheel IV; 258. a first fan blade; 259. a second fan blade; 260. fan blade three; 261. a second rotating shaft; 262. a fifth belt wheel; 263. a sixth belt wheel; 264. a seventh belt wheel; 265. a belt wheel eight; 266. fan blades IV; 267. fan blades five; 268. fan blades six; 269. a connecting shaft; 270. a ninth belt wheel; 271. ten belt wheels; 272. a seventh fan blade; 273. a first bevel gear; 274. a second bevel gear; 275. a third bevel gear;

30. a collection tank; 310. a first filtering chamber; 320. and a second impurity removal chamber.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; for a better understanding of the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar parts; in the description of the present invention, it should be understood that if the terms "upper", "lower", "left", "right", "inner", "outer", etc. are used to indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of description, but it is not indicated or implied that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are used only for illustrative purposes and are not to be construed as limiting the present patent, and the specific meaning of the terms will be understood by those skilled in the art according to the specific circumstances.

In the description of the present invention, unless otherwise explicitly specified or limited, the term "connected" or the like, if appearing to indicate a connection relationship between the components, is to be understood broadly, for example, as being either a fixed connection, a detachable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through one or more other components or may be in an interactive relationship with one another. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 to 7, a novel environment-friendly dipping and drying production line with high heat utilization comprises:

the drying device comprises a base 10, a drying shell 110, a conveying belt 120 and a drying device 20, wherein the drying shell 110 and the conveying belt 120 are arranged on the base 10, the drying shell 110 is a cuboid shell, two ends of the drying shell 110 in the length direction are provided with avoidance openings, a belt surface of the conveying belt 120 penetrates through the avoidance openings at the end part of the drying shell 110 and penetrates through the drying shell 110, the drying device 20 is arranged on the drying shell 110, and when impregnated paper is conveyed by the conveying belt 120 and passes through the drying shell 110, the drying device 20 can dry the impregnated paper;

the drying device 20 comprises a hot air drying component 210, the hot air drying component 210 is mounted on the drying shell 110 and is close to the top of the drying shell 110, the hot air drying component 210 comprises an air inlet pipe 211, an exhaust fan 212, a first ventilating hood 213, a second ventilating hood 214, a first exhaust fan 215, a first communicating pipe 216, a third ventilating hood 217, a second exhaust fan 218, a second communicating pipe 219, a first filtering chamber 220, a first exhaust pipe 221, a fourth ventilating hood 222, a fifth ventilating hood 223, a third exhaust fan 224, a third communicating pipe 225, a sixth ventilating hood 226, a fourth exhaust fan 227, a fourth communicating pipe 228, a second filtering chamber 229, a second exhaust pipe 230, a seventh ventilating hood 231, an eighth ventilating hood 232, a fifth exhaust fan 233, a fifth communicating pipe 234, a ninth ventilating hood 235, a sixth exhaust fan 236, a sixth communicating pipe 237, a first guiding pipe 238 and a second guiding pipe 239, the air inlet pipe 211 is vertically arranged above the drying shell 110, and the, a first ventilating hood 213 is communicated with the bottom of the exhaust fan 212, the first ventilating hood 213 extends into the drying shell 110, an electric heating sheet for heating air is arranged in the air inlet pipe 211, a first exhaust fan 215, a second exhaust fan 218, a third exhaust fan 224, a fourth exhaust fan 227, a fifth exhaust fan 233 and a sixth exhaust fan 236 are arranged on the side wall of the drying shell 110, the first exhaust fan 215 and the second exhaust fan 218 are oppositely arranged, a third exhaust fan 224 and the fourth exhaust fan 227 are oppositely arranged, the fifth exhaust fan 233 and the sixth exhaust fan 236 are oppositely arranged, the second ventilating hood 214 is communicated with the first exhaust fan 215, the third ventilating hood 217 is communicated with the second exhaust fan 218, the second ventilating hood 214 and the third ventilating hood 217 are close to the first ventilating hood 213, one end of a communicating pipe 216 is communicated with the first exhaust fan 215, the other end of the communicating pipe is communicated with the first filtering chamber 220, the first filtering chamber 220 is arranged at the top of the drying shell 110, one end of the communicating pipe 219 is communicated with the second exhaust fan 218, the second exhaust fan 218, The other end of the first exhaust pipe 221 is communicated with the first filter chamber 220, the other end of the first exhaust pipe 221 is communicated with the fourth ventilation hood 222, the ventilation wind direction of the fourth ventilation hood 222 faces downwards, the fifth ventilation hood 223 is communicated with the third exhaust fan 224, the sixth ventilation hood 226 is communicated with the fourth exhaust fan 227, the fifth ventilation hood 223 and the sixth ventilation hood 226 are close to the fourth ventilation hood 222, one end of a communication pipe three 225 is communicated with the third exhaust fan 224, the other end of the communication pipe three is communicated with a second filter chamber 229, the second filter chamber 229 is arranged at the top of the drying shell 110, one end of the communication pipe four 228 is communicated with the fourth exhaust fan 227, the other end of the communication pipe four is communicated with a second filter chamber 229, one end of a second exhaust pipe 230 is communicated with the second filter chamber 229, the other end of the second ventilation pipe seven 231 is communicated with a ventilation hood seven 231, the ventilation wind direction of the seventh ventilation hood 231 faces downwards, the eighth ventilation hood 232 is communicated with the fifth exhaust fan 233, the ninth ventilation hood 235 is communicated with the sixth exhaust fan 236, the eighth ventilation hood 232 and the ninth ventilation hood 235 is close to the seventh ventilation hood 231, one end of a communication pipe five 234 is communicated with an exhaust fan five 233, the other end of the communication pipe five 234 is communicated with the bottom of a flow guide pipe one 238, one end of a communication pipe six 237 is communicated with an exhaust fan six 236, the other end of the communication pipe six is communicated with the bottom of the flow guide pipe one 238, the flow guide pipe one 238 is vertically arranged, the side wall of the flow guide pipe one 238 is communicated with the side wall of an air inlet pipe 211 through a flow guide pipe two 239, an exhaust fan 212 works, air enters through the air inlet pipe 211 and is heated by an electric heating sheet and then is exhausted through a vent pipe one 213, then the air enters through a communication pipe one 216 and a communication pipe two 219 into a filter chamber one 220, the air is filtered through the filter chamber one 220 and then is exhausted through the exhaust pipe one 221, then the air enters through a communication pipe three 225 and a communication pipe four 228 into a filter chamber two 229 and then is exhausted through an exhaust pipe two 230, then the air enters through the communication pipe five communication pipe 234 and the communication pipe six 237 and the flow guide pipe one 238 and then is exhausted through the flow guide pipe one 238, and the hot air sequentially passes through the vent cover one 213 and the vent pipe two 213 and the filter chamber four 228, When the fourth ventilation hood 222 and the seventh ventilation hood 231 are discharged, the heat of hot air is reduced, and when impregnated paper is conveyed by the conveying belt 120, the impregnated paper is blown and dried sequentially through the seventh ventilation hood 231, the fourth ventilation hood 222 and the first ventilation hood 213, so that the impregnated paper can be preheated, and the impregnated paper is prevented from being damaged at high temperature.

As shown in fig. 6-7, a driving air-extracting mechanism 250 for driving the exhaust fan 212, the first exhaust fan 215, the first communicating pipe 216, the second exhaust fan 218, the third exhaust fan 224, the fourth exhaust fan 227, the fifth exhaust fan 233 and the sixth exhaust fan 236 to operate is disposed on the drying housing 110, the driving air-extracting mechanism 250 includes a motor 251, a driving member 252, a first rotating shaft 253, a first belt pulley 254, a second belt pulley 255, a third belt pulley 256, a fourth belt pulley 257, a first fan blade 258, a second fan blade 259, a third fan blade 260, a second rotating shaft 261, a fifth belt pulley 262, a sixth belt pulley 263, a seventh belt pulley 264, an eighth belt pulley 265, a fourth fan blade 266, a fifth fan blade 267 and a sixth fan blade 268, the motor 251 is mounted on the top of the drying housing 110, an output shaft of the motor 251 is oriented vertically downward, an output shaft end of the motor 251 is connected with the driving member 252, the first rotating shaft 253 and the second rotating shaft 261 are also connected with the driving member 252, the motor 251 can drive the driving member 252 to operate and drive the driving member 252 to operate the motor 251 to drive the first rotating shaft 253, the first rotating shaft 215 to operate, The first rotating shaft 261 rotates, the first rotating shaft 253 and the second rotating shaft 261 are horizontally arranged and are perpendicular to the length direction of the drying shell 110, two side walls of the length direction of the drying shell 110 are respectively provided with a first mounting plate 130 and a second mounting plate 140, the first rotating shaft 253 and the second rotating shaft 261 respectively penetrate through the first mounting plate 130 and the second mounting plate 140, the first belt wheel 254 is sleeved at the end part of the first rotating shaft 253, the fifth belt wheel 262 is sleeved at the end part of the second rotating shaft 261, the third rotating shaft, the fourth rotating shaft and the fifth rotating shaft are movably connected to the first mounting plate 130, the sixth rotating shaft, the seventh rotating shaft and the eighth rotating shaft are movably connected to the second mounting plate 140, the second belt wheel 255, the third belt wheel 256 and the fourth belt 257 are respectively sleeved on the third rotating shaft, the fourth rotating shaft and the fifth rotating shaft, the sixth belt 263, the seventh belt 264 and the eighth belt 265 are respectively sleeved on the sixth rotating shaft, the seventh rotating shaft and the eighth rotating shaft, the first fan blades 258, the second fan 259 and the third fan 260 are respectively sleeved on the third rotating shaft and the fourth rotating shaft, On the fifth rotating shaft, a fan blade four 266, a fan blade five 267 and a fan blade six 268 are respectively sleeved on the sixth rotating shaft, the seventh rotating shaft and the eighth rotating shaft, a belt transmission is adopted among a belt wheel 254 and a belt wheel 255, a belt wheel 256 and a belt wheel 257, a belt transmission is adopted among a belt wheel five 262, a belt wheel six 263, a belt wheel seven 264 and a belt wheel eight 265, a fan blade 258, a fan blade two 259 and a fan blade three 260 respectively supply air to an exhaust fan 215, an exhaust fan three 224 and an exhaust fan five 233, and a fan blade four 266, a fan blade five 267 and a fan blade six 268 respectively supply air to an exhaust fan two 218, an exhaust fan four 227 and an exhaust fan six 236.

More specifically, the transmission driving member 252 includes a connecting shaft 269, a first bevel gear 273, a second bevel gear 274, and a third bevel gear 275, the connecting shaft 269 is coaxially and fixedly connected to an output shaft end of the motor 251, the first bevel gear 273 is sleeved at an end of the connecting shaft 269, the second bevel gear 274 and the third bevel gear 275 are respectively sleeved at ends of the first rotating shaft 253 and the second rotating shaft 261, the second bevel gear 274 and the third bevel gear 275 are engaged with the first bevel gear 273, the motor 251 can drive the connecting shaft 269 to rotate, thereby drive bevel gear 273, bevel gear two 274, bevel gear three 275 and rotate to drive pivot 253, pivot two 261 rotate, the cover is equipped with the nine 270 of band pulley on the connecting axle 269, and the top of stoving casing 110 is vertical to be provided with the nine pivot, and the cover is equipped with ten 271 of band pulley on the nine pivot, still overlaps on the nine pivot to be equipped with flabellum seven 272, passes through belt drive between ten 271 of band pulley, the nine 270 of band pulley, and flabellum seven 272 can supply wind to exhaust fan 212.

As shown in fig. 5, an electromagnetic valve three 243 is disposed at an upper opening of the first flow guide pipe 238, a temperature sensor 242 is disposed at a bottom of the first flow guide pipe 238, an electromagnetic valve two 241 is disposed at an end of the second flow guide pipe 239, the electromagnetic valve two 241 is close to the air inlet pipe 211, an electromagnetic valve one 240 is disposed at an upper opening of the air inlet pipe 211, the temperature sensor 242 can detect a temperature of air flowing through the first flow guide pipe 238, when the detected temperature is high, the electromagnetic valve three 243 and the electromagnetic valve one 240 are closed, the electromagnetic valve two 241 is opened, and hot air can flow into the air inlet pipe 211 through the first flow guide pipe 238 and the second flow guide pipe 239, so that the hot air is recycled and is more environment-friendly.

More specifically, the base 10 is provided with the collecting tank 30, the first filtering chamber 310 and the second impurity removing chamber 320, an opening at the upper end of the first guiding pipe 238 is sequentially communicated with the first filtering chamber 310, the second impurity removing chamber 320 and the collecting tank 30, air is easy to generate polluting gas after being soaked and dried, and an alkaline substance used for neutralizing the polluting gas is arranged in the second impurity removing chamber 320, so that the soaked air is filtered and purified, and pollution is avoided.

The working principle is as follows:

in the using process of the utility model, the air enters through the air inlet pipe 211 and is discharged through the first ventilating hood 213 after being heated by the electric heating sheet, then the air enters into the first filtering chamber 220 through the first communicating pipe 216 and the second communicating pipe 219, the air is discharged through the first exhaust pipe 221 after being filtered by the first filtering chamber 220, then the air enters into the second filtering chamber 229 through the third communicating pipe 225 and the fourth communicating pipe 228, then the air is discharged through the second exhaust pipe 230, then the air enters into the first guiding pipe 238 through the fifth communicating pipe 234 and the sixth communicating pipe 237, then the air is discharged through the first guiding pipe 238, the hot air sequentially passes through the first ventilating hood 213, the fourth ventilating hood 222 and the seventh ventilating hood 231, the heat of the hot air is reduced, when the impregnated paper is conveyed by the conveyer belt 120, the impregnated paper sequentially passes through the seventh ventilating hood 231, the fourth ventilating hood 222 and the first ventilating hood 213 for drying, thereby the impregnated paper can be preheated, the high temperature of the impregnated paper is avoided being damaged, when the detection temperature is higher, the electromagnetic valve three 243 and the electromagnetic valve one 240 are closed, the electromagnetic valve two 241 is opened, the hot air can flow to the air inlet pipe 211 through the flow guide pipe one 238 and the flow guide pipe two 239, and therefore the hot air is recycled, the environment is protected, when the detection temperature is lower, the electromagnetic valve three 243 and the electromagnetic valve one 240 are opened, the electromagnetic valve two 241 is closed, and the air is discharged through the upper end opening of the flow guide pipe one 238.

It should be understood that the above-described embodiments are merely illustrative of the preferred embodiments of the present invention and the technical principles thereof. It will be understood by those skilled in the art that various modifications, equivalents, changes, and the like can be made to the present invention. However, these modifications are within the scope of the present invention as long as they do not depart from the spirit of the present invention. In addition, certain terms used in the specification and claims of the present application are not limiting, but are used merely for convenience of description.

Claims (5)

1. The utility model provides a novel dry production line of high utilization impregnation of environmental protection heat energy which characterized in that, it includes:

the drying device is arranged on the drying shell, impregnated paper can be dried by the drying device when the impregnated paper is conveyed by the conveying belt and passes through the drying shell;

the drying device comprises a hot air drying component, the hot air drying component is arranged on the drying shell and is close to the top of the drying shell, the hot air drying component comprises an air inlet pipe, an exhaust fan, a first ventilating hood, a second ventilating hood, a first exhaust fan, a first communicating pipe, a third ventilating hood, a second exhaust fan, a second communicating pipe, a first filtering chamber, a first exhaust pipe, a fourth ventilating hood, a fifth ventilating hood, a third exhaust fan, a third communicating pipe, a sixth ventilating hood, a fourth exhaust fan, a fourth communicating pipe, a second filtering chamber, a second exhaust pipe, a seventh ventilating hood, a eighth ventilating hood, a fifth exhaust fan, a fifth communicating pipe, a ninth ventilating hood, a sixth exhaust fan, a sixth guiding pipe and a second guiding pipe, the air inlet pipe is vertically arranged above the drying shell, the bottom of the air inlet pipe is communicated with the exhaust fan, the first ventilating hood is communicated with the bottom of the exhaust fan, the first ventilating hood extends into the drying shell, and an electric heating sheet for heating air is arranged in the air inlet pipe, the first exhaust fan, the second exhaust fan, the third exhaust fan, the fourth exhaust fan, the fifth exhaust fan, the sixth exhaust fan are installed at the side wall of the drying shell, the first exhaust fan, the second exhaust fan are oppositely arranged, the third exhaust fan, the fourth exhaust fan are oppositely arranged, the fifth exhaust fan and the sixth exhaust fan are oppositely arranged, the second ventilation hood is communicated with the first exhaust fan, the third ventilation hood is communicated with the second exhaust fan, the second ventilation hood and the third ventilation hood are close to the first ventilation hood, one end of the first communication pipe is communicated with the first exhaust fan, the other end of the first communication pipe is communicated with the first filtration chamber, the first filtration chamber is arranged at the top of the drying shell, one end of the second communication pipe is communicated with the second exhaust fan, the other end of the second communication pipe is communicated with the first filtration chamber, one end of the first exhaust pipe is communicated with the first filtration chamber, the other end of the first ventilation hood is communicated with the fourth ventilation hood, the ventilation wind direction of the fourth ventilation hood faces downwards, the fifth ventilation hood is communicated with the third exhaust fan, the sixth exhaust fan is communicated with the fourth exhaust fan, the fifth ventilation hood, the sixth exhaust fan is communicated with the sixth exhaust fan, the sixth exhaust fan is communicated with the sixth exhaust fan, and the sixth exhaust fan, the sixth exhaust fan are communicated with the first ventilation hood, the third ventilation hood is communicated with the second ventilation hood, the third ventilation hood is communicated with the third ventilation hood, the third ventilation hood is communicated with the second ventilation hood, the third ventilation hood, the second ventilation hood is communicated with the second ventilation hood, the third ventilation hood is communicated with the second ventilation hood, the third ventilation hood is communicated with the second ventilation hood, the first ventilation hood, the second ventilation hood is communicated with the third ventilation hood is communicated with the second ventilation hood, the third ventilation hood, the second ventilation hood is communicated with the second ventilation hood, the first ventilation hood, the second ventilation hood is communicated with the second ventilation hood, the six ventilating hoods are close to the four ventilating hoods, one end of the three communicating pipe is communicated with the three exhaust fans, the other end of the three communicating pipe is communicated with the second filtering chamber, the second filtering chamber is arranged at the top of the drying shell, one end of the four communicating pipe is communicated with the four exhaust fans, the other end of the four communicating pipe is communicated with the second filtering chamber, the other end of the two exhaust pipe is communicated with the seventh ventilating hood, the ventilating wind direction of the seventh ventilating hood faces downwards, the eight ventilating hoods are communicated with the five exhaust fans, the nine ventilating hoods are communicated with the six exhaust fans, the eight ventilating hoods are close to the seventh ventilating hoods, one end of the five communicating pipe is communicated with the five exhaust fans, the other end of the five communicating pipe is communicated with the bottom of the first guiding pipe, one end of the six communicating pipe is communicated with the six exhaust fans, the other end of the six guiding pipe is communicated with the bottom of the first guiding pipe, the first guiding pipe is vertically arranged, and the side wall of the first guiding pipe is communicated with the side wall of the air inlet pipe through the second guiding pipe.

2. The novel environment-friendly heat energy high-utilization impregnation drying production line as claimed in claim 1, wherein a driving air draft mechanism for driving an exhaust fan, a first communicating pipe, a second exhaust fan, a third exhaust fan, a fourth exhaust fan, a fifth exhaust fan and a sixth exhaust fan to work is arranged on the drying shell, the driving air draft mechanism comprises a motor, a driving part, a first rotating shaft, a first belt wheel, a second belt wheel, a third belt wheel, a fourth belt wheel, a first fan blade, a second fan blade, a third rotating shaft, a fifth belt wheel, a sixth belt wheel, a seventh belt wheel, an eighth belt wheel, a fourth fan blade, a fifth fan blade and a sixth fan blade, the motor is arranged at the top of the drying shell, an output shaft of the motor is vertically downward, an output shaft end of the motor is connected with the driving part, the first rotating shaft and the second rotating shaft are also connected with the driving part, the motor can drive the driving part to work and drive the first rotating shaft and the second rotating shaft to rotate, the first rotating shaft and the second rotating shaft are horizontally arranged and are vertical to the length direction of the drying shell, two side walls of the drying shell in the length direction are respectively provided with a first mounting plate and a second mounting plate, the first rotating shaft and the second rotating shaft respectively penetrate through the first mounting plate and the second mounting plate, the belt wheel is sleeved at the end part of the first rotating shaft, the fifth belt wheel is sleeved at the end part of the second rotating shaft, the third rotating shaft, the fourth rotating shaft and the fifth rotating shaft are movably connected on the first mounting plate, the sixth rotating shaft, the seventh rotating shaft and the fifth rotating shaft are movably connected on the second mounting plate, the third rotating shaft, the seventh rotating shaft and the eighth rotating shaft are respectively sleeved on the second rotating shaft, the third rotating shaft, the fourth rotating shaft and the fifth rotating shaft, the sixth belt wheel, the seventh belt wheel and the eighth belt wheel are respectively sleeved on the sixth rotating shaft, the seventh rotating shaft and the eighth rotating shaft, the first fan blade, the second fan blade and the third fan are respectively sleeved on the third rotating shaft, the fourth rotating shaft and the fifth rotating shaft, the fourth fan blade and the sixth shaft respectively, the first belt wheel, the second belt wheel, the third belt wheel and the fourth belt wheel are in belt transmission, the fifth belt wheel, the sixth belt wheel, the seventh belt wheel and the eighth belt wheel are in belt transmission, the first fan blade, the second fan blade and the third fan blade respectively supply air to the first exhaust fan, the third exhaust fan and the fifth exhaust fan, and the fourth fan blade, the fifth fan blade and the sixth fan blade respectively supply air to the second exhaust fan, the fourth exhaust fan and the sixth exhaust fan.

3. The novel environment-friendly heat energy high-utilization dipping and drying production line as claimed in claim 2, wherein the transmission driving part comprises a connecting shaft, a first bevel gear, a second bevel gear and a third bevel gear, the connecting shaft is coaxially and fixedly connected to an output shaft end of the motor, the bevel gears are sleeved on the end portion of the connecting shaft, the second bevel gear and the third bevel gear are respectively sleeved on the end portions of the first rotating shaft and the second rotating shaft, the second bevel gear and the third bevel gear are meshed with the first bevel gear, a ninth belt wheel is sleeved on the connecting shaft, a ninth rotating shaft is vertically arranged at the top of the drying shell, a tenth belt wheel is sleeved on the ninth rotating shaft, a seventh fan blade is further sleeved on the ninth rotating shaft, the tenth belt and the ninth belt are driven by a belt, and the seventh fan blade can supply air to the exhaust fan.

4. The novel environment-friendly high-heat-utilization dipping and drying production line as claimed in claim 2, wherein a third electromagnetic valve is arranged at the upper opening of the first flow guide pipe, a temperature sensor is arranged at the bottom of the first flow guide pipe, a second electromagnetic valve is arranged at the end of the second flow guide pipe, the second electromagnetic valve is close to the air inlet pipe, a first electromagnetic valve is arranged at the upper opening of the air inlet pipe, and the temperature sensor can detect the temperature of air flowing through the first flow guide pipe.

5. The novel environment-friendly high-heat-utilization dipping and drying production line as claimed in claim 1, wherein the base is provided with a collecting tank, a first filtering chamber and a second impurity removing chamber, an upper end opening of the first flow guide pipe is sequentially communicated with the first filtering chamber, the second impurity removing chamber and the collecting tank, and an alkaline substance for neutralizing the polluted gas is filled in the second impurity removing chamber.

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