CN204811621U - Tobacco deinsectization equipment - Google Patents

Abstract

The utility model provides a tobacco deinsectization equipment, two high frequency deinsectization workshop sections adopt, the high -frequency wave of first shielding deinsectization workshop section can heat the frequency of going out except that the worm's ovum, the high -frequency wave of secondary shielding deinsectization workshop section removes adult frequency can heating to go out, the frequency division deinsectization, selection to the worm medium of need heating is more accurate, strengthened and exterminateed the effect, tobacco bale by each section detects the emergence that the post -trigger high frequency is responded to to the sensor simultaneously, high frequency generating device's transmit power density has been reduced, exterminate through the insect pest heating of high -frequency wave in with the tobacco, can not cause chemical drug residue, and the deinsectization is effectual.

Description

One grows tobacco vermin exterminating apparatus

Technical field

The utility model relates to tobacco tobacco leaf deinsectization technique, particularly be tobacco vermin exterminating apparatus by physical means deinsectization.

Background technology

Tobacco leaf itself is rich in a large number of nutrients, and be easy to that worm occurs and become, cause tobacco leaf impaired, Quality Down, silk production rate is low; And worm corpse, worm's ovum and filiform easily hide in tobacco leaf, not easily reject in Cigarette processing process, sucked after being involved in cigarette and can endanger consumer health.Thus, the control of tobacco leaf insect pest is still the important process of tobacco storage industry and cigarette enterprise so far.

At present, disinsection method is as follows the most widely in tobacco business employing:

1) chemical fumigation method utilizes hypertoxic gas (conventional aluminum phosphate, smelly methane etc.) to kill worm, though this method insecticidal effect is better, toxicity is large, high to temperature environment requirement, and medicament chance water is easily on fire.

2) pyrethroid desinsection is mainly used in the production environment desinsection of cigarette and tobacco redrying, its advantage is that toxicity is small, kill adult effective, be applicable to the place that someone works, it is the main desinsection mode of current production of cigarettes process, but lower to the activity ratio of worm's ovum, and worm easily develops immunity to drugs.

These methods are dispelled worm efficiency and medicament discharges density and time relationship is very large.Medicament discharges density and time and increases, and tobacco leaf medicament residue can be caused again to pollute, affect consumer health, and due to factors such as the variation of polypide and pesticide resistance, dosage and the method for routine can not meet desinsection requirement.

Microwave desinsection method is technology emerging in recent years, microwave is a kind of wavelength is 1mm ~ 1m, frequency is the electromagnetic wave of 300MHz ~ 300GHz, it can penetrate biological tissue or organic substance is inner, increase molecular motion, generation fuel factor and non-thermal effect are to reach the effect of kill harmful biology, the method has the advantages such as heating is quick, nontoxic pollution-free, but general poor effect, be mainly reflected in:

1) penetration power of microwave (uhf electromagnetic wave) is limited, and hiding part insect can not be removed;

2) microwave realizes owing to adopting waveguide or microwave antenna, and its medium selectivity is not strong, easily damages tobacco leaf;

3) owing to can produce the diffusion of a large amount of steam during heating, steam is comparatively large to effect of microwave, easily causes the decay of microwave or the corrosion to microwave antenna, thus greatly lowers treatment effect;

4) heating using microwave is uneven, easily causes free surface moisture change in tobacco leaf, affects quality of tobacco;

5) end that microwave desinsection method is typically chosen in tobacco leaf circulation carries out desinsection, and before namely Cigarette processing is produced, and certainly, the process points of desinsection equipment is the closer to technique prime, more favourable to production and operation.

Utility model content

Object to be solved in the utility model is to provide one and grows tobacco vermin exterminating apparatus, the insect pest heating in tobacco is killed, chemicals can not be caused to remain, and deinsectization is effective by high frequency waves.

For solving the problem, the utility model proposes one and to grow tobacco vermin exterminating apparatus, comprising deinsectization part and translator unit; Described translator unit carries out deinsectization in order to have the tobacco bale of tobacco to transport through deinsectization part packing; Described deinsectization part comprises:

First shielding deinsectization workshop section, its entrance and exit is equipped with shielding curtain, its inside is provided with the first tobacco bale detecting sensor, tobacco bale is sent to the first shielding deinsectization workshop section and carries out deinsectization by translator unit, tobacco bale is through the shielding curtain of this section of entrance, and the first tobacco bale detecting sensor is responded to tobacco bale and produces the first induced signal;

First high frequency generating apparatus, receives described first induced signal and the corresponding inside in the first shielding deinsectization workshop section produces the first deinsectization high frequency waves, and these the first deinsectization high frequency waves are configured in the frequency in order to go out except tobacco worm's ovum in tobacco bale;

Secondary shielding deinsectization workshop section, its entrance and exit is equipped with shielding curtain, its inside is provided with the second tobacco bale detecting sensor, outlet tobacco bale out from the first shielding deinsectization workshop section is sent to secondary shielding deinsectization workshop section and carries out deinsectization by translator unit, tobacco bale is through the shielding curtain of this section of entrance, and the second tobacco bale detecting sensor is responded to tobacco bale and produces the second induced signal;

Second high frequency generating apparatus, receives described second induced signal and the corresponding inside in secondary shielding deinsectization workshop section produces the second deinsectization high frequency waves, and these the second deinsectization high frequency waves are configured in the frequency in order to go out except tobacco adult in tobacco bale.

According to an embodiment of the present utility model, described first high frequency generating apparatus comprises the first capacitance cathode plate and the first electric capacity negative plate that are separately positioned on the inner both sides of the first shielding deinsectization workshop section, and connects the first radio-frequency generator of the first capacitance cathode plate; This first radio-frequency generator receives described first induced signal thus produce high-frequency electric field between the first capacitance cathode plate and the first electric capacity negative plate.

According to an embodiment of the present utility model, described second high frequency generating apparatus comprises the second capacitance cathode plate and the second electric capacity negative plate that are separately positioned on the inner both sides of secondary shielding deinsectization workshop section, and connects the second radio-frequency generator of the second capacitance cathode plate; This second radio-frequency generator receives described second induced signal thus produce high-frequency electric field between the second capacitance cathode plate and the second electric capacity negative plate.

According to an embodiment of the present utility model, described first tobacco bale detecting sensor and the second tobacco bale detecting sensor are photoelectric sensor.

According to an embodiment of the present utility model, described translator unit comprises the first banded conveyer and the second banded conveyer; The conveyer belt of described first banded conveyer be arranged on deinsectization part front and back position, in order to tobacco bale transmission is entered deinsectization part and is sent to equipment outlet by from deinsectization part tobacco bale out; The conveyer belt of described second banded conveyer be arranged on deinsectization part bottom position, in order to tobacco bale is carried out transmitting in deinsectization part and tobacco bale is sent out deinsectization part.

According to an embodiment of the present utility model, described deinsectization part also comprises output workshop section, its entrance and exit is equipped with shielding curtain, its inside is provided with the 3rd tobacco bale detecting sensor, outlet tobacco bale out from secondary shielding deinsectization workshop section is sent to and exports workshop section by translator unit, tobacco bale is through the shielding curtain of this section of entrance, and the 3rd tobacco bale detecting sensor is responded to tobacco bale and produces the 3rd induced signal; Second banded conveyer receives described 3rd induced signal and the transfer rate of corresponding its conveyer belt of quickening.

According to an embodiment of the present utility model, described first shielding deinsectization workshop section and secondary shielding deinsectization workshop section adjoin, and secondary shielding deinsectization workshop section and output workshop section adjoin, and each adjacent adjacent part of two sections shares a shielding curtain.

According to an embodiment of the present utility model, the conveyer belt being arranged on deinsectization part front and back position of described first banded conveyer extends laterally to the same side of equipment relative to deinsectization part.

According to an embodiment of the present utility model, the porch of the described deinsectization part described tobacco bale that is also provided with to lead enters the guide pad of the first shielding deinsectization workshop section.

According to an embodiment of the present utility model, also comprise switch board, it is arranged on the side of deinsectization part, in order to supply unit, the control device of arranging apparatus.

After adopting technique scheme, the utility model has following beneficial effect compared to existing technology: adopt two high frequency deinsectization workshop sections, the high frequency waves of the first shielding deinsectization workshop section can heat the frequency of going out except worm's ovum, the high frequency waves of secondary shielding deinsectization workshop section can heat the frequency of going out except adult, frequency division deinsectization, more accurate to the selection of the worm medium that need heat, enhance killing effect, simultaneously by the generation of trigger higher frequency after the tobacco bale detecting sensor induction of each section, reduce the transmitting power density of high frequency generating apparatus.

Accompanying drawing explanation

Fig. 1 is the structural representation of the tobacco vermin exterminating apparatus of the utility model embodiment.

Embodiment

For enabling above-mentioned purpose of the present utility model, feature and advantage become apparent more, are described in detail embodiment of the present utility model below in conjunction with accompanying drawing.

Set forth a lot of detail in the following description so that fully understand the utility model.But the utility model can be much different from alternate manner described here to implement, those skilled in the art can when doing similar popularization without prejudice to when the utility model intension, and therefore the utility model is by the restriction of following public concrete enforcement.

Referring to Fig. 1, tobacco vermin exterminating apparatus of the present utility model comprises deinsectization part and translator unit.Wherein, translator unit is used to transmit tobacco bale 3, and in FIG, translator unit comprises the first banded conveyer and the second banded conveyer (only conveyer belt being shown in figure).The tobacco bale 3 of the part that what the first banded conveyer transmitted is outside deinsectization part, be included in the front conveyer belt 11 before deinsectization part, tobacco bale 3 enters into deinsectization part (figure forms by 21,22,23) along with the transmission of front conveyer belt 11, also comprise the rear conveyer belt 12 after deinsectization part, tobacco bale 3 is out sent out by this rear conveyer belt 12 afterwards from deinsectization part, can say, the entrance of front conveyer belt 11 is entrances of this equipment, and the outlet of rear conveyer belt 12 is outlets of this equipment.In a preferred embodiment, front conveyer belt 11 and rear conveyer belt 12 extend laterally to the same side of equipment relative to deinsectization part, namely the entrance of front conveyer belt 11 and the outlet of rear conveyer belt 12 are in the same side of this equipment, convenient operation, and space is laid in minimizing.Second banded conveyer is used to transmit the tobacco bale 3 in deinsectization part, and the conveyer belt 13 of the second banded conveyer is arranged on the bottom position of deinsectization part.

It should be noted that, compared to existing deinsectization method, equipment of the present utility model is especially suitable for the deinsectization that tobacco exists with packetized form, from the angle of prevention, the best desinsection point of Redrying Factory is that tobacco leaf is put into before redrying produces, because the tobacco leaf of this point is to be bundled into and to become the form of bag to occur, volume is larger, mass flow is uneven, difficulty is brought to general disinsection method desinsection, and the utility model is by high-frequency heating insect pest, penetration power is strong, directly can process tobacco bale 3, manufacturing procedure is unpacked without the need to increasing, reduce workload and labour intensity, meet industry characteristic and the application of tobacco business production and processing operation.

Continue referring to Fig. 1, deinsectization part comprises the first shielding deinsectization workshop section 21, first high frequency generating apparatus, secondary shielding deinsectization workshop section 22, second high frequency generating apparatus (the first high frequency generating apparatus and the second high frequency generating apparatus are arranged in the switch board 5 of figure, thus not shown).The higher frequency of the first shielding deinsectization workshop section 21, secondary shielding deinsectization workshop section 22 is different, its frequency and power are by setting parameter, the selection of higher frequency can according to the laboratory report of the moisture content for different polypide, wherein, the higher frequency setting of the first shielding deinsectization workshop section 21 is mainly for worm's ovum, and the higher frequency of the first shielding deinsectization workshop section 21 is mainly for adult, divide double diffusion, reduce the power density of switch board, improve treatment effeciency, enhance killing effect.Be appreciated that, first shielding deinsectization workshop section 21 shields with the external world mutually with secondary shielding deinsectization work 22, they be equipped with barricade up and down, entrance and exit part then by shielding curtain cover, can for the discrepancy of tobacco bale 3, the space of the first shielding deinsectization workshop section 21 and secondary shielding deinsectization work 22 is a bit larger tham the volume of tobacco bale 3, it is namely a space shielded completely during high-frequency heating, the frequency of high-frequency heating is generally at 3 ~ 30MHz, owing to being in radio communication frequency range, therefore arrange shielding device to shield, effectively can prevent and treat the infringement of electromagnetic field to operating personnel simultaneously, radiation is little, safety is high, thus achieve frequency electromagnetic waves is applied in tobacco desinsection.

Frequency electromagnetic waves Heating selectivity is strong, dielectric heating technology is also referred to as cool-drying technology, compared to microwave technology, its frequency that is dry and heating is different because of physical characteristic (loss factor) difference of medium, suitable frequency can be selected only optionally to heat for particular medium, and other irrelevant media are not heated, this guarantees tobacco tobacco leaf does not change temp. and humidity because of desinsection technique, thus ensure that the quality of tobacco leaf.Heating process and the heat-conductive characteristic of medium own have nothing to do, and can reach assigned temperature fast, and there will not be tobacco leaf internal-external temperature difference to cause the loss of moisture, affect quality of tobacco, thus can improve the quality of products.

Concrete, the entrance and exit of the first shielding deinsectization workshop section 21 is equipped with shielding curtain (not shown), the first tobacco bale detecting sensor is provided with (not shown in the inside of the first shielding deinsectization workshop section 21, be arranged on the position near this section of entry mask curtain, detect entering of tobacco bale 3), preferably, this the first tobacco bale detecting sensor is a photoelectric sensor, when tobacco bale 3 via translator unit transport through shielding curtain after enter into the first shielding deinsectization workshop section 21, first tobacco bale detecting sensor detects the change of the light produced due to the appearance of tobacco bale 3, thus produce the first induced signal and this first induced signal is sent to the first high frequency generating apparatus, first high frequency generating apparatus receives the first induced signal, thus produce the first deinsectization high frequency waves in the inside of the first shielding deinsectization workshop section, these the first deinsectization high frequency waves are configured in the frequency in order to go out except tobacco worm's ovum in tobacco bale 3, namely according to moisture in worm's ovum on fixed heating frequency, the electromagnetic wave of this frequency can penetrate tobacco leaf, tobacco leaf medium does not absorb energy, thus do not produce fuel factor, and the worm's ovum in tobacco leaf due to moisture content in body, far above tobacco leaf, electromagnetic wave absorption produces rapidly fuel factor, then causing biological effect causes dehydration dead.

Further, first high frequency generating apparatus comprises the first capacitance cathode plate of being separately positioned on the first inner both sides of shielding deinsectization workshop section 21 and the first electric capacity negative plate (lays respectively on two madial walls of the first shielding deinsectization workshop section 21, first capacitance cathode plate is positioned on the sidewall of switch board 5), and connect the first radio-frequency generator of the first capacitance cathode plate; This first radio-frequency generator receives described first induced signal thus produce high-frequency electric field between the first capacitance cathode plate and the first electric capacity negative plate.

The entrance and exit of secondary shielding deinsectization workshop section 22 is equipped with shielding curtain, the second tobacco bale detecting sensor is provided with (not shown in the inside of secondary shielding deinsectization workshop section 22, be arranged on the position near this section of entry mask curtain, detect entering of tobacco bale 3), preferably, this the second tobacco bale detecting sensor is similarly a photoelectric sensor, when tobacco bale 3 via translator unit transmission from first shielding deinsectization workshop section 21 out then enter into secondary shielding deinsectization workshop section 22, second tobacco bale detecting sensor detects the change of the light produced due to the appearance of tobacco bale 3, thus produce the second induced signal and this second induced signal is sent to the second high frequency generating apparatus, second high frequency generating apparatus receives the second induced signal, thus produce the second deinsectization high frequency waves in the inside of secondary shielding deinsectization workshop section 22, these the second deinsectization high frequency waves are configured in the frequency in order to go out except tobacco adult in tobacco bale 3, namely according to moisture in adult on fixed heating frequency, the electromagnetic wave of this frequency can penetrate tobacco leaf, tobacco leaf medium does not absorb energy, thus do not produce fuel factor, and adult (such as beetle) in tobacco leaf due to moisture content in body far high.

Further, described second high frequency generating apparatus comprises the second capacitance cathode plate of being separately positioned on the inner both sides of secondary shielding deinsectization workshop section 22 and the second electric capacity negative plate (lays respectively on two madial walls of secondary shielding deinsectization workshop section 22, first capacitance cathode plate is positioned on the sidewall of switch board 5), and connect the second radio-frequency generator of the second capacitance cathode plate; This second radio-frequency generator receives described second induced signal thus produce high-frequency electric field between the second capacitance cathode plate and the second electric capacity negative plate.The higher frequency that first radio-frequency generator occurs and the frequency that the second radio-frequency generator occurs generally can be chosen as different, certainly, also same frequency can be set to, go out except more thorough to insect pest, but the power attenuation of radio-frequency generator can be reduced, namely, two radio-frequency generators successively trigger along with tobacco bale 3 change in location.

Be appreciated that, after tobacco bale 3 leaves the detection range of photoelectric sensor, radio-frequency generator can receive the signal of change, thus stop producing high-frequency electric field, save the cost of electricity.Heating process is easy to control, is energized with regard to rapid temperature increases, and power-off just stops heating up, and thus can realize regulating temperature rise instantaneously, realizes automation and the On-line Control of production.

In a preferred embodiment, deinsectization part also comprises the output workshop section 23 be arranged on after secondary shielding deinsectization workshop section 22, the entrance and exit exporting workshop section 23 is equipped with shielding curtain, exporting the inside of workshop section 23, to be provided with the 3rd tobacco bale detecting sensor (not shown, be arranged on the position near this section of entry mask curtain, detect entering of tobacco bale 3), preferably, 3rd tobacco bale detecting sensor is similarly a photoelectric sensor, outlet from secondary shielding deinsectization workshop section 22 tobacco bale 3 is out sent to and exports workshop section 23 by translator unit, tobacco bale 3 is through the shielding curtain of this section of entrance, 3rd tobacco bale detecting sensor is responded to tobacco bale 3 and produces the 3rd induced signal, second banded conveyer receives described 3rd induced signal and the transfer rate of its conveyer belt 13 of corresponding quickening, the conveyer belt 13 of the second banded conveyer pulls out the tobacco bale 3 after desinsection fast, the transfer rate of the second banded conveyer is set by frequency converter, its running frequency is far above the first banded conveyer, that is in the transfer rate of deinsectization part higher than the transfer rate outside deinsectization part, prevent over-heating, simultaneously, arrange the benefit exporting workshop section to be, its shielding curtain can prevent tobacco bale 3 from the outlet of secondary shielding deinsectization workshop section 22 out time electromagnetic leakage, as an outlet transition active section.

In FIG, first shielding deinsectization workshop section 21 and secondary shielding deinsectization workshop section 22 adjoin, and share same shielding curtain at adjoiner, secondary shielding deinsectization workshop section 22 and output workshop section 23 adjoin, and share same shielding curtain at adjoiner, that is the first shielding deinsectization workshop section 21, secondary shielding deinsectization workshop section 22, output workshop section 23 are close-connected successively.

Preferably, the described tobacco bale 3 that is also provided with in the porch of deinsectization part to lead enters the guide pad 4 of the first shielding deinsectization workshop section 21, guarantees that sheet tobacco bale 3 can accurately be entered by the shielding curtain of the entrance of the first shielding deinsectization workshop section 21.

In addition; vermin exterminating apparatus of the present utility model also comprises switch board 5; be arranged on the side of deinsectization part; in order to supply unit, the control device of arranging apparatus; this control device comprises the first radio-frequency generator, the second radio-frequency generator, the first banded conveyer; second banded conveyer, frequency converter, and various protection circuits etc.

The utility model adopts two high frequency deinsectization workshop sections, the high frequency waves of the first shielding deinsectization workshop section can heat the frequency of going out except worm's ovum, the high frequency waves of secondary shielding deinsectization workshop section can heat the frequency of going out except adult, frequency division deinsectization, more accurate to the selection of the worm medium that need heat, enhance killing effect, simultaneously by the generation of trigger higher frequency after the tobacco bale detecting sensor induction of each section, reduce the transmitting power density of high frequency generating apparatus.

Although the utility model with preferred embodiment openly as above; but it is not for limiting claim; any those skilled in the art are not departing from spirit and scope of the present utility model; can make possible variation and amendment, the scope that therefore protection domain of the present utility model should define with the utility model claim is as the criterion.

Claims (10)

1. one to grow tobacco vermin exterminating apparatus, it is characterized in that, comprise deinsectization part and translator unit; Described translator unit carries out deinsectization in order to have the tobacco bale of tobacco to transport through deinsectization part packing; Described deinsectization part comprises:

First shielding deinsectization workshop section, its entrance and exit is equipped with shielding curtain, its inside is provided with the first tobacco bale detecting sensor, tobacco bale is sent to the first shielding deinsectization workshop section and carries out deinsectization by translator unit, tobacco bale is through the shielding curtain of this section of entrance, and the first tobacco bale detecting sensor is responded to tobacco bale and produces the first induced signal;

First high frequency generating apparatus, receives described first induced signal and the corresponding inside in the first shielding deinsectization workshop section produces the first deinsectization high frequency waves, and these the first deinsectization high frequency waves are configured in the frequency in order to go out except tobacco worm's ovum in tobacco bale;

Secondary shielding deinsectization workshop section, its entrance and exit is equipped with shielding curtain, its inside is provided with the second tobacco bale detecting sensor, outlet tobacco bale out from the first shielding deinsectization workshop section is sent to secondary shielding deinsectization workshop section and carries out deinsectization by translator unit, tobacco bale is through the shielding curtain of this section of entrance, and the second tobacco bale detecting sensor is responded to tobacco bale and produces the second induced signal;

Second high frequency generating apparatus, receives described second induced signal and the corresponding inside in secondary shielding deinsectization workshop section produces the second deinsectization high frequency waves, and these the second deinsectization high frequency waves are configured in the frequency in order to go out except tobacco adult in tobacco bale.

2. tobacco vermin exterminating apparatus as claimed in claim 1, it is characterized in that, described first high frequency generating apparatus comprises the first capacitance cathode plate and the first electric capacity negative plate that are separately positioned on the inner both sides of the first shielding deinsectization workshop section, and connects the first radio-frequency generator of the first capacitance cathode plate; This first radio-frequency generator receives described first induced signal thus produce high-frequency electric field between the first capacitance cathode plate and the first electric capacity negative plate.

3. tobacco vermin exterminating apparatus as claimed in claim 1, it is characterized in that, described second high frequency generating apparatus comprises the second capacitance cathode plate and the second electric capacity negative plate that are separately positioned on the inner both sides of secondary shielding deinsectization workshop section, and connects the second radio-frequency generator of the second capacitance cathode plate; This second radio-frequency generator receives described second induced signal thus produce high-frequency electric field between the second capacitance cathode plate and the second electric capacity negative plate.

4. tobacco vermin exterminating apparatus as claimed in claim 1, it is characterized in that, described first tobacco bale detecting sensor and the second tobacco bale detecting sensor are photoelectric sensor.

5. tobacco vermin exterminating apparatus as claimed in claim 1, it is characterized in that, described translator unit comprises the first banded conveyer and the second banded conveyer; The conveyer belt of described first banded conveyer be arranged on deinsectization part front and back position, in order to tobacco bale transmission is entered deinsectization part and is sent to equipment outlet by from deinsectization part tobacco bale out; The conveyer belt of described second banded conveyer be arranged on deinsectization part bottom position, in order to tobacco bale is carried out transmitting in deinsectization part and tobacco bale is sent out deinsectization part.

6. tobacco vermin exterminating apparatus as claimed in claim 5, it is characterized in that, described deinsectization part also comprises output workshop section, its entrance and exit is equipped with shielding curtain, its inside is provided with the 3rd tobacco bale detecting sensor, outlet tobacco bale out from secondary shielding deinsectization workshop section is sent to and exports workshop section by translator unit, and tobacco bale is through the shielding curtain of this section of entrance, and the 3rd tobacco bale detecting sensor is responded to tobacco bale and produces the 3rd induced signal; Second banded conveyer receives described 3rd induced signal and the transfer rate of corresponding its conveyer belt of quickening.

7. tobacco vermin exterminating apparatus as claimed in claim 6, is characterized in that, described first shielding deinsectization workshop section and secondary shielding deinsectization workshop section adjoin, and secondary shielding deinsectization workshop section and output workshop section adjoin, and each adjacent adjacent part of two sections shares a shielding curtain.

8. tobacco vermin exterminating apparatus as claimed in claim 5, it is characterized in that, the conveyer belt being arranged on deinsectization part front and back position of described first banded conveyer extends laterally to the same side of equipment relative to deinsectization part.

9. tobacco vermin exterminating apparatus as claimed in claim 1, is characterized in that, the porch of the described deinsectization part described tobacco bale that is also provided with to lead enters the guide pad of the first shielding deinsectization workshop section.

10. tobacco vermin exterminating apparatus as claimed in claim 1, it is characterized in that, also comprise switch board, it is arranged on the side of deinsectization part, in order to supply unit, the control device of arranging apparatus.