CN211134905U - Energy-saving smoke exhaust system for banburying workshop - Google Patents

Abstract

The utility model discloses an energy-saving smoke exhaust system for an internal mixing workshop, which comprises a first smoke exhaust machine, wherein the side wall surface of the first smoke exhaust machine is connected with a cooling structure, and the cooling structure is connected with an energy-saving system; the cooling structure mainly includes: the first air inlet duct, the cooling water tank and the drying box; the first air inlet duct is connected to an air outlet of the first range hood, the cooling water tank is sleeved on the outer wall surface of the first air inlet duct, and the drying box is connected to one end of the first air inlet duct; the energy-saving system mainly comprises: second air inlet wind channel, wind-force amplifier, connection wind channel, the utility model relates to a banburying workshop technical field that discharges fume, simple structure, the maintenance is simple, and can realize that a circuit drives multiple equipment and discharge fume, has practiced thrift the energy consumption, has realized the environmental protection to strengthened the dynamics of discharging fume, thoroughly relatively with the flue gas exhaust workshop, certain degree has reduced the harm of flue gas to operating personnel is healthy.

Description

Energy-saving smoke exhaust system for banburying workshop

Technical Field

The utility model relates to a banburying workshop system technical field of discharging fume specifically is an energy-conserving system of discharging fume in banburying workshop.

Background

The smoke of rubber refining contains various toxic and appropriate gases, and substances such as hydrogen sulfide, sulfur dioxide, volatile organic compounds and the like in the smoke cause great pollution to the environment and serious harm to human health. With the steady development of national economy and the acceleration of industrial modernization pace, especially the rapid development of the automobile industry, the continuous growth of the tire rubber industry is promoted, a large amount of smoke is generated in the rubber mixing process, and if the smoke is not discharged out of a workshop in time, the health of operators can be harmed.

The current smoke ventilator in banburying workshop needs every fume extractor all to connect the power, makes workshop power consumption increase, has increased the energy consumption, unsatisfied environmental protection requirement to fume extractor's the dynamics of discharging fume is limited, can't discharge the flue gas thoroughly relatively, and certain degree has endangered operating personnel's is healthy.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art, the utility model provides an energy-conserving system of discharging fume in banburying workshop has solved current smoke ventilator in banburying workshop and has required every fume extractor all to connect the power, makes workshop power consumption increase, has increased the energy consumption, unsatisfied environmental protection requirement to fume extractor's the dynamics of discharging fume is limited, can't discharge the flue gas thoroughly relatively, has endangered the healthy problem of operating personnel to a certain extent.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: an energy-saving smoke exhaust system of an internal mixing workshop comprises a first smoke exhaust machine, wherein the side wall surface of the first smoke exhaust machine is connected with a cooling structure, and the cooling structure is connected with an energy-saving system;

the cooling structure mainly includes: the first air inlet duct, the cooling water tank and the drying box;

the first air inlet duct is connected to an air outlet of the first range hood, the cooling water tank is sleeved on the outer wall surface of the first air inlet duct, and the drying box is connected to one end of the first air inlet duct;

the energy-saving system mainly comprises a second air inlet duct, a wind power amplifier, a connecting duct, a plurality of L-type supports with the same structure, a plurality of bearings with the same structure, a plurality of rotating shafts with the same structure, a plurality of fans with the same structure, a plurality of gear boxes with the same structure, a generator set and a second smoke exhaust fan;

the second air inlet duct is connected to one end of the drying box, the wind power amplifier is fixed to the inner wall face of the second air inlet duct, the connecting duct is connected to one end of the second air inlet duct, the L-type support is fixed to the inner wall face of the connecting duct, the air outlet is formed in the upper wall face of the connecting duct, the bearings are sleeved with the L-type support, the rotating shaft is sleeved with the bearings, the outer wall face of the bearings is sleeved with the fans, the outer wall face of the rotating shaft is sleeved with the fans, the gear box is inserted into the gears, one end of the rotating shaft is connected to the generator set, the generator set is connected to the output end of the gear box, and the second smoke exhaust fan is connected to the.

Preferably, wall all is equipped with four bases that the structure is the same under first smoke ventilator and the second induced-draft fan, four the base supports first smoke ventilator and second induced-draft fan, four wall all pastes insulating subsides under the base.

Preferably, a water inlet is formed in the upper wall surface of the cooling water tank, and a water outlet is formed in the lower wall surface of the cooling water tank.

Preferably, the first air inlet duct, the second air inlet duct and the connecting duct are of horn-shaped structures, and a sealing ring is arranged between the second air inlet duct and the connecting duct.

Preferably, a stabilizing frame is arranged between each of the gear boxes and the connecting air duct.

Preferably, the second air inlet duct and the outer wall surface of the connecting duct are both provided with a fixing frame.

Advantageous effects

The utility model provides an energy-conserving system of discharging fume in banburying workshop possesses following beneficial effect simple structure, and the maintenance is simple, and can realize that a circuit drives many equipment and discharge fume, has practiced thrift the energy consumption, has realized the environmental protection to strengthened the dynamics of discharging fume, thoroughly relatively with the flue gas exhaust workshop, reduced the harm of flue gas to operating personnel is healthy to a certain extent, the effectual solution mentions in the background art: the current smoke ventilator in banburying workshop needs every fume extractor all to connect the power, makes workshop power consumption increase, has increased the energy consumption, unsatisfied environmental protection requirement to fume extractor's the dynamics of discharging fume is limited, can't discharge the flue gas thoroughly relatively, and the problem that operating personnel's is healthy has been endangered to a certain extent.

Drawings

Fig. 1 is the utility model relates to an energy-conserving smoke exhaust system's of banburying workshop schematic structure.

Fig. 2 is the utility model discloses an energy-conserving smoke exhaust system's in banburying workshop front view.

Fig. 3 is the utility model relates to an energy-conserving discharge fume system's in banburying workshop left side looks cross-sectional view.

Fig. 4 is the utility model relates to an energy-conserving discharge fume system's in banburying workshop left side looks cross-sectional view.

Fig. 5 is a partial enlarged view of the energy-saving smoke exhaust system of the banburying workshop according to fig. 1 of the present invention.

In the drawing, 1-a first smoke exhaust ventilator, 2-a first air inlet duct, 3-a cooling water tank, 4-a drying box, 5-a second air inlet duct, 6-a wind power amplifier, 7-a connecting duct, 8-L type supports, 9-a bearing, 10-a rotating shaft, 11-a fan, 12-a gear box, 13-a generator set, 14-a second smoke exhaust ventilator, 15-an air outlet, 16-a base, 17-an insulating paste, 18-a water inlet, 19-a water outlet, 20-a sealing ring, 21-a stabilizing frame and 22-a fixing frame are arranged.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: an energy-saving smoke exhaust system for an internal mixing workshop.

Example (b): an energy-saving smoke exhaust system of an internal mixing workshop comprises a first smoke exhaust machine 1, wherein the side wall surface of the first smoke exhaust machine 1 is connected with a cooling structure, and the cooling structure is connected with an energy-saving system;

wherein, it is required to be noted that: the first range hood 1 is mainly used for installing a cooling structure, and an energy-saving structure is connected with the cooling structure;

the cooling structure mainly comprises: a first air inlet duct 2, a cooling water tank 3 and a drying box 4; the first air inlet duct 2 is connected with an air outlet of the first range hood 1, the cooling water tank 3 is sleeved on the outer wall surface of the first air inlet duct 2, and the drying box 4 is connected with one end of the first air inlet duct 2;

wherein, it is required to be noted that: first with first smoke exhauster 1 connection power, operation personnel control first smoke exhauster 1 work, the flue gas in banburying workshop this moment is inhaled first smoke exhauster 1 air outlet by first smoke exhauster 1, subsequently the flue gas enters into first air inlet duct 2 in, as preferred, further, 2 both ends in first air inlet duct are loudspeaker column structure, be convenient for collect wind, through cooling water tank 3, under cooling water tank's effect, hot flue gas is cooled off, as preferred, further, cooling water tank 3 upper wall is equipped with water inlet 18, cooling water tank 3 lower wall is equipped with delivery port 19, be used for changing the cooling water, the temperature of flue gas has been reduced, the harm to follow-up device has been reduced, cold flue gas passes through the drying cabinet afterwards, the drying cabinet has absorbed the moisture in the cold flue gas, become dry flue gas, this moment still keep original wind speed.

The energy-saving system mainly comprises a second air inlet duct 5, a wind power amplifier 6, a connecting duct 7, a plurality of L-type supports 8 with the same structure, a plurality of bearings 9 with the same structure, a plurality of rotating shafts 10 with the same structure, a plurality of fans 11 with the same structure, a plurality of gear boxes 12 with the same structure, a generator set 13 and a second smoke exhauster 14, wherein the second air inlet duct 5 is connected to one end of a drying box 4, the wind power amplifier 6 is fixed to the inner wall surface of the second air inlet duct 5, the connecting duct 7 is connected to one end of the second air inlet duct 5, the plurality of L-type supports 8 are fixed to the inner wall surface of the connecting duct 7, an air outlet 15 is formed in the upper wall surface of the connecting duct 7, the plurality of bearings 9 are sleeved at one end of the plurality of L-type supports 8, the plurality of rotating shafts 10 are sleeved on the outer wall surfaces of the plurality of bearings 9, the plurality of fans 11 are sleeved on the outer wall surfaces of the plurality of rotating shafts 10, the plurality of gear boxes 12 are.

Wherein, it is required to be noted that: then the flue gas enters a second air inlet duct 5, the wind speed is amplified through a wind power amplifier 6 fixed on the inner wall of the second air inlet duct 5, the amplified wind enters a connecting duct 7, preferably, further, the second air inlet duct 5 and the connecting duct 7 have horn-shaped structures at two ends for facilitating wind collection, a sealing ring 20 is arranged between the second air inlet duct 5 and the connecting duct 7 for preventing wind leakage at the joint and influencing the working effect, preferably, further, fixing frames 22 are arranged on the outer wall surfaces of the second air inlet duct 5 and the connecting duct 7 for fixing the second air inlet duct 5 and the connecting duct 7, and the wind blows a plurality of fans 11 sleeved on rotating shafts 10 to rotate, the fans 11 drive a plurality of rotating shafts 10 with the same structure to rotate, the rotating shafts 10 drive a gear box 12 connected at one end of the rotating shafts 10 to work, preferably, further, all be equipped with firm frame 21 between a plurality of gear boxes 12 and the connection wind channel 7 for it is fixed to gear box 12, realized converting wind energy into mechanical energy, connect the generating set 13 work of gear box 12 output afterwards, be fixed in the generator that a plurality of structure is the same in the generating set 13, realized converting mechanical energy into electric energy, make the second smoke ventilator 14 work of connecting at generating set 13, a circuit control first smoke ventilator 1 and second smoke ventilator 14 work, operating personnel can be connected economizer system and seted up air outlet 15 in connecting the wind channel 7 upper wall, realize that many equipment are discharged fume to the workshop simultaneously.

In the specific implementation process, four bases 16 with the same structure are arranged on the lower wall surfaces of the first smoke exhaust machine 1 and the second smoke exhaust machine 14, the four bases 16 support the first smoke exhaust machine 1 and the second smoke exhaust machine 14, and insulating stickers 17 are attached to the lower wall surfaces of the four bases 16 to prevent the first smoke exhaust machine 1 and the second smoke exhaust machine 14 from leaking electricity.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. An energy-saving smoke exhaust system of an internal mixing workshop comprises a first smoke exhaust machine (1) and is characterized in that the side wall surface of the first smoke exhaust machine (1) is connected with a cooling structure, and the cooling structure is connected with an energy-saving system;

the cooling structure mainly includes: a first air inlet duct (2), a cooling water tank (3) and a drying box (4);

the first air inlet duct (2) is connected to an air outlet of the first range hood (1), the cooling water tank (3) is sleeved on the outer wall surface of the first air inlet duct (2), and the drying box (4) is connected to one end of the first air inlet duct (2);

the energy-saving system mainly comprises a second air inlet duct (5), a wind power amplifier (6), a connecting duct (7), a plurality of L-type supports (8) with the same structure, a plurality of bearings (9) with the same structure, a plurality of rotating shafts (10) with the same structure, a plurality of fans (11) with the same structure, a plurality of gear boxes (12) with the same structure, a generator set (13) and a second smoke exhaust machine (14);

second air inlet duct (5) are connected in drying cabinet (4) one end, wind power amplifier (6) are fixed in second air inlet duct (5) internal face, connect wind channel (7) and connect in second air inlet duct (5) one end, a plurality of L type support (8) are fixed in and are connected the interior lateral wall face of wind channel (7), connect wind channel (7) and go up the wall and seted up air outlet (15), a plurality of bearing (9) suit in a plurality of L type support (8) one end, a plurality of pivot (10) suit in a plurality of bearing (9) outer wall face, a plurality of fan (11) equidistance suit in a plurality pivot (10) outer wall face, a plurality of gear box (12) cartridge in a plurality of pivot (10) one end, generating set (13) are connected in a plurality of gear box (12) output, second smoke ventilator (14) are connected in generating set (13) output.

2. The energy-saving smoke exhaust system for the internal mixing workshop according to claim 1, wherein four bases (16) with the same structure are arranged on the lower wall surfaces of the first smoke exhaust machine (1) and the second smoke exhaust machine (14), the four bases (16) support the first smoke exhaust machine (1) and the second smoke exhaust machine (14), and insulating pasters (17) are pasted on the lower wall surfaces of the four bases (16).

3. The energy-saving smoke exhaust system for the mixing workshop according to claim 1, wherein the upper wall surface of the cooling water tank (3) is provided with a water inlet (18), and the lower wall surface of the cooling water tank (3) is provided with a water outlet (19).

4. The energy-saving smoke exhaust system for the internal mixing workshop according to claim 1, wherein two ends of the first air inlet duct (2), the second air inlet duct (5) and the connecting duct (7) are of horn-shaped structures, and a sealing ring (20) is arranged between the second air inlet duct (5) and the connecting duct (7).

5. The energy-saving smoke exhaust system for the internal mixing workshop according to claim 1, wherein a stabilizing frame (21) is arranged between each of the gear boxes (12) and the connecting air duct (7).

6. The energy-saving smoke exhaust system for the internal mixing workshop according to claim 1, wherein the outer wall surfaces of the second air inlet duct (5) and the connecting duct (7) are provided with fixing frames (22).

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