CN114870548A - Ground dust removal device for research and development of synchronous brushless alternating-current generator - Google Patents

Abstract

The invention discloses a field dust removal device for research and development of a synchronous brushless alternating-current generator, and relates to the technical field of dust removal equipment. The dust removal device for the research and development site of the synchronous brushless alternating-current generator comprises a box body, a box door and a partition plate, wherein the box door is hinged to the surface of the box body, the partition plate is arranged in the middle of an inner cavity of the box body, and an air inlet assembly is embedded and connected to the bottom of one side wall of the box body and is used for sucking air containing dust from the outside; the novel dust removal device is characterized in that a washing filter assembly is arranged on one side of the bottom of the inner cavity of the box body and used for washing sucked air containing dust, so that the effect of efficient and rapid dust removal can be achieved, a dehumidifying assembly is arranged on one side of the top surface of the partition plate and used for dehumidifying the dust-removed air, and the novel dust removal device can be used for dedusting the dust-contained air, so that the content of air dust can be prevented from being reduced, and the research and development test precision of the synchronous brushless alternating-current generator can be further ensured.

Description

Ground dust removal device for research and development of synchronous brushless alternating-current generator

Technical Field

The invention relates to the technical field of dust removing equipment, in particular to a field dust removing device for research and development of a synchronous brushless alternating-current generator.

Background

The brushless generator is actually composed of two generators, one serving as an exciter, the other serving as a main generator, and a rotating rectifier composed of diodes (or thyristors). The field winding of the main generator is on the rotor and the armature winding is on the stator (the electrical output to be generated). The armature winding of the exciter is on the rotor and the field winding is on the stator.

The field dust removal device for the research and development of the existing synchronous brushless alternating current generator is used, and the dust removal effect is insufficient, so that indoor dust can easily enter the motor, the test data of the generator can be influenced, and the research and development of the synchronous brushless alternating current generator can be influenced.

Disclosure of Invention

Solves the technical problem

Aiming at the defects of the prior art, the invention provides a field dust removal device for research and development of a synchronous brushless alternating-current generator, which solves the problems that dust removal treatment can be carried out on air containing dust, so that the content of the dust in the air can be prevented from being reduced, and the research and development test precision of the synchronous brushless alternating-current generator is ensured.

Technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a ground dust removal device for research and development of a synchronous brushless alternating-current generator comprises a box body, a box door and a partition plate, wherein the box door is hinged to the surface of the box body, the partition plate is arranged in the middle of an inner cavity of the box body, and an air inlet assembly is embedded and connected to the bottom of one side wall of the box body and is used for sucking air containing dust from the outside;

the box inner chamber bottom one side is installed and is washed filtering component, it is used for washing the processing to the inspiratory air that contains the dust to wash filtering component to can play the effect of high-efficient quick dust removal, dehumidification subassembly is installed to baffle top surface one side, dehumidification subassembly is used for carrying out dehumidification processing to the air after removing dust, dehumidification subassembly one side is equipped with drying assembly, drying assembly is used for the further drying of the air after the dehumidification, the second wind scooper is installed to the drying assembly output, second wind scooper top peg graft in box top surface one side, the second wind scooper is used for discharging the clean air after the drying again.

Furthermore, the air inlet assembly comprises a first air guide cover, a fan is installed in the middle of an inner cavity of the first air guide cover, the fan is used for sucking outside air into the inner cavity of the first air guide cover, an air supply pipe is installed at the output end of the first air guide cover, the air supply pipe is used for guiding the sucked air to the next procedure, and a first grating plate is installed at the input end of the first air guide cover.

Further, washing filtering component includes the water tank, the water tank is used for other equipment fixing to can hold certain required water of washing again, water tank top surface both sides are inlayed respectively and are connected with first intake pipe and first outlet duct, the water tank inner chamber is equipped with the multiunit pipe to multiunit pipe input switches on continuously through first shunt, first shunt input with first intake pipe output switches on continuously, the pipe bottom is inlayed and is connected with the multiunit blast pipe, the blast pipe is arranged in the leading-in aquatic that holds to the water tank inner chamber of the air that contains the dust in with the pipe.

Furthermore, two sides of the middle of the plurality of groups of guide pipes are connected with the top surface of the inner cavity of the water tank through a bracket.

Furthermore, the top and the bottom of one side wall of the water tank are respectively connected with a water inlet pipe and a blow-off pipe in a conduction manner, and one ends of the water inlet pipe and the blow-off pipe are respectively connected with a first valve in series.

Further, the dehumidification subassembly includes the dehumidification case, dehumidification case both sides wall is inlayed respectively and is connected with second intake pipe and second outlet duct, the dehumidification incasement chamber is equipped with the multiunit coil pipe, the multiunit the coil pipe input switches on through the second shunt pipe and links to each other, the confession cold pipe is installed to the second shunt pipe input, the multiunit the coil pipe output switches on through the collection pipe and links to each other, the recovery tube is installed to the collection pipe output.

Furthermore, a drain pipe is embedded and connected to one side of the bottom of the dehumidification tank, and one end of the drain pipe is connected with a second valve in series.

Further, drying component includes the heating cabinet, the top of heating cabinet one side is inlayed and is connected with the third inlet duct, heating cabinet top surface and keep away from third inlet duct one side and inlay and be connected with the third outlet duct, multiunit baffling board is installed respectively to heating cabinet inner chamber bottom and bottom, the baffling board is used for buckling the water conservancy diversion to the air of circulation, reaches the time effect that the air stops at the heating cabinet, U type frame is installed to baffling board one side to the electrical heating stick is installed to U type frame inner chamber, the electrical heating stick is used for carrying out heat treatment to the air of flowing through.

Furthermore, the electrical heating rods are specifically provided with a plurality of groups, and the plurality of groups of electrical heating rods are distributed in a linear array manner.

Furthermore, a second grating plate is installed at the top of the inner cavity of the second air guide cover and used for preventing external foreign matters from entering the second air guide cover.

Advantageous effects

The invention has the following beneficial effects:

(1) the ground dust removal device for research and development of the synchronous brushless alternating-current generator can suck outside air into the first air guide cover through the fan in the air inlet assembly, then guide the air to the next procedure through the air supply pipe, and then prevent outside foreign matters with large particle size from entering the inner cavity of the first air guide cover through the first grid plate, so that the use safety of equipment is improved.

(2) This synchronous brushless alternator research and development uses ground dust collector, when needs wash the air that contains the dust, through the water tank among the washing filtering component, can be to other equipment fixing, can hold certain required water of washing again, then through first intake pipe, can carry the wind of the dust that contains to each pipe respectively through first shunt tubes, then it is effective to pass through the blast pipe, again can with the air water conservancy diversion in the pipe to the water tank in, and then can make the water in the water tank carry out the washing processing to the air of pouring into, so that can reach the effect to air filtration processing, guarantee the precision of synchronous brushless alternator research and development test, through first outlet duct, can derive the air after filtering to next process.

(3) This synchronous brushless alternator research and development uses ground dust collector, when needs dehumidify to the air after filtering, through the cooling pipe in the dehumidification subassembly, but external air conditioning, then through the second shunt tubes with air conditioning water conservancy diversion to each coil pipe in, thereby can make coil pipe outer wall surface temperature low, when the air flow that flows in from the second intake pipe flows through the coil pipe, the temperature of air can be reduced, thereby can make the moisture in the air meet the condensation set, and then can form the water droplet and collect in dehumidification bottom of the case portion, so that can reach the effect to air dehumidification, through collection pipe and recovery tube, again can be with the air conditioning derivation of flowing through in the coil pipe, open the second valve through the rotation, thereby can be through the water discharge of drain pipe with dehumidification incasement bottom storage.

(4) This synchronous brushless alternator research and development uses place dust collector, when needs are to the further drying of air after the dehumidification, through third inlet duct and the third outlet duct in the drying subassembly, can be with the leading-in and derivation heating cabinet of air, through the baffling board, can buckle the water conservancy diversion to the air of circulation, thereby reach the time effect that the air stops at the heating cabinet, then through the electrical heating stick on the U type frame, can carry out the heat treatment to the air of flowing through, and then can improve the effect of air drying, through being linear array distribution multiunit electrical heating stick, can improve drying subassembly convection current through the air drying effect, and then reduce the moisture in the air.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

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

FIG. 2 is a schematic sectional view of the case according to the present invention;

FIG. 3 is a schematic cross-sectional view of an air intake assembly according to the present invention;

FIG. 4 is a schematic view of the inner cavity of the water washing filter assembly of the present invention;

FIG. 5 is a schematic view of the inner chamber structure of the dehumidifying module according to the present invention;

FIG. 6 is a schematic cross-sectional view of a drying assembly according to the present invention.

In the figure, 1, a box body; 2. a box door; 3. a partition plate; 4. an air intake assembly; 401. a first wind scooper; 402. a fan; 403. an air supply pipe; 404. a first grid plate; 5. washing the filter assembly with water; 501. a water tank; 502. a first intake pipe; 503. a first air outlet pipe; 504. a conduit; 505. a first shunt pipe; 506. an exhaust pipe; 507. a support; 508. a water inlet pipe; 509. a blow-off pipe; 510. a first valve; 6. a dehumidification assembly; 601. a dehumidification box; 602. a second intake pipe; 603. a second air outlet pipe; 604. a coil pipe; 605. a second shunt pipe; 606. a cold supply pipe; 607. a header; 608. a recovery pipe; 609. a drain pipe; 610. a second valve; 7. a drying assembly; 701. a heating box; 702. a third intake pipe; 703. a third air outlet pipe; 704. a baffle plate; 705. a U-shaped frame; 707. an electrical heating rod; 8. and a second wind scooper.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.

Referring to fig. 1 to fig. 6, an embodiment of the present invention provides a technical solution: a ground dust removal device for research and development of a synchronous brushless alternating-current generator comprises a box body 1, a box door 2 and a partition plate 3, wherein the surface of the box body 1 is hinged with the box door 2, the partition plate 3 is installed in the middle of the inner cavity of the box body 1, an air inlet assembly 4 is embedded and connected at the bottom of one side wall of the box body 1, and air containing dust outside can be sucked in through the air inlet assembly 4;

the air drying device is characterized in that a washing filter assembly 5 is installed on one side of the bottom of an inner cavity of the box body 1, air containing dust conveyed by the air inlet assembly 4 can be washed by water through the washing filter assembly 5, so that efficient and rapid dust removal can be achieved, a dehumidifying assembly 6 is installed on one side of the top surface of the partition plate 3, the air after dust removal can be dehumidified through the dehumidifying assembly 6, so that the humidity of the air after washing can be reduced, a drying assembly 7 is arranged on one side of the dehumidifying assembly 6, the air after dehumidification can be further dried through the drying assembly 7, a second air guide cover 8 is installed at the output end of the drying assembly 7, the top end of the second air guide cover 8 is connected to one side of the top surface of the box body 1 in a plug-in mode, and the dried clean air can be discharged again through the second air guide cover 8.

Specifically, the air intake assembly 4 includes a first air guiding cover 401, a fan 402 is installed in the middle of an inner cavity of the first air guiding cover 401, the fan 402 is used for sucking outside air into the inner cavity of the first air guiding cover 401, an air supply pipe 403 is installed at an output end of the first air guiding cover 401, the air supply pipe 403 is used for guiding the sucked air to a next process, and a first grid plate 404 is installed at an input end of the first air guiding cover 401.

In this embodiment, when the external air needs to be purified, the fan 402 in the air intake assembly 4 can suck the external air into the first air guiding cover 401, and then the air can be guided to the next process through the air supply pipe 403, and then the external large-particle-size foreign matter can be prevented from entering the inner cavity of the first air guiding cover 401 through the first grid plate 404, so that the use safety of the device is improved.

Specifically, washing filtering component 5 includes water tank 501, water tank 501 is used for other equipment fixing to can hold certain required water of washing again, water tank 501 top surface both sides are inlayed respectively and are connected with first intake pipe 502 and first outlet duct 503, the water tank 501 inner chamber is equipped with multiunit pipe 504 to multiunit pipe 504 input switches on continuously through first shunt pipe 505, first shunt pipe 505 input with first intake pipe 502 output switches on continuously, pipe 504 bottom is inlayed and is connected with multiunit blast pipe 506, blast pipe 506 is arranged in the leading-in aquatic that holds to water tank 501 inner chamber of the air that contains the dust in with pipe 504.

In this embodiment, when the air that contains the dust washes, through water tank 501 among the washing filtering component 5, can be to other equipment fixing, can hold certain required water that washs again, then through first intake pipe 502, can carry the wind of the dust that contains to each pipe 504 respectively through first shunt tubes 505, then use through blast pipe 506, again can with the air water conservancy diversion in the pipe 504 to the water tank 501 in, and then can make the water in the water tank 501 carry out the washing processing to the air of pouring into, so as to reach the effect to air filtration processing, guarantee the precision of synchronous brushless alternator research and development test, through first outlet duct 503, can derive the air after filtering to next process.

Specifically, two sides of the middle of the plurality of sets of the guide pipes 504 are connected with the top surface of the inner cavity of the water tank 501 through brackets 507.

In this embodiment, the catheter 504 can be fixed by the bracket 507, and the stability of the catheter 504 can be improved.

Specifically, the top and the bottom of one side wall of the water tank 501 are respectively connected with a water inlet pipe 508 and a sewage pipe 509 in a conduction manner, and one ends of the water inlet pipe 508 and the sewage pipe 509 are respectively connected with a first valve 510 in series.

In this embodiment, by rotating the first valve 510, the clean water can be introduced into the water tank 501 through the water inlet pipe 508, and the sewage of the cleaning air can be led out through the sewage discharge pipe 509.

Specifically, the dehumidifying component 6 includes a dehumidifying box 601, two side walls of the dehumidifying box 601 are respectively embedded and connected with a second air inlet pipe 602 and a second air outlet pipe 603, an inner cavity of the dehumidifying box 601 is provided with a plurality of groups of coils 604, input ends of the plurality of groups of coils 604 are connected through a second shunt pipe 605, an input end of the second shunt pipe 605 is provided with a cooling supply pipe 606, output ends of the plurality of groups of coils 604 are connected through a collecting pipe 607, and an output end of the collecting pipe 607 is provided with a recovery pipe 608.

In this embodiment, when needing to dehumidify the air after filtering, through the cooling pipe 606 among the dehumidification subassembly 6, but external air conditioning, then through second shunt tubes 605 with air conditioning water conservancy diversion to each coil pipe 604 in, thereby can make coil pipe 604 outer wall surface temperature low, when the air that flows in from second intake pipe 602 flows through coil pipe 604, the temperature of air can be reduced, thereby can make the moisture in the air meet the condensation set, and then can form the water droplet and collect in dehumidification case 601 bottom, so that can reach the effect to air dehumidification, through header 607 and recovery tube 608, again can derive the air conditioning that flows through in the coil pipe 604.

Specifically, a drain pipe 609 is connected to one side of the bottom of the dehumidification tank 601 in an embedded manner, and a second valve 610 is connected to one end of the drain pipe 609 in series.

In this embodiment, the second valve 610 is opened by rotation, so that the water stored in the bottom of the dehumidifying tank 601 can be discharged through the drain pipe 609.

Specifically, the drying component 7 includes a heating box 701, a third air inlet pipe 702 is connected to the top of one side of the heating box 701 in an embedded manner, a third air outlet pipe 703 is connected to the surface of the top of the heating box 701 in an embedded manner and is far away from one side of the third air inlet pipe 702, a plurality of groups of baffle plates 704 are respectively installed at the bottom and the bottom of the inner cavity of the heating box 701, the baffle plates 704 are used for bending and guiding the circulating air to achieve the effect of the air staying in the heating box 701 for a certain time, a U-shaped frame 705 is installed on one side of the baffle plates 704, an electric heating rod 707 is installed in the inner cavity of the U-shaped frame 705, and the electric heating rod 707 is used for heating the air flowing through.

In this embodiment, when the air after dehumidification needs to be further dried, the air can be guided into and out of the heating box 701 through the third air inlet pipe 702 and the third air outlet pipe 703 in the drying assembly 7, the circulating air can be bent and guided through the baffle plate 704, so that the retention time of the air in the heating box 701 is reached, then the air flowing through can be heated through the electric heating rod 707 on the U-shaped frame 705, and the air drying effect can be further improved.

Specifically, the electrical heating rods 707 are provided with a plurality of groups, and the plurality of groups of electrical heating rods 707 are distributed in a linear array.

In this embodiment, the plurality of groups of electric heating rods 707 are distributed in a linear array manner, so that the drying effect of the drying assembly 7 on the air flowing through the drying assembly can be improved, and the moisture in the air can be reduced.

Specifically, a second grating plate is installed at the top of the inner cavity of the second air guiding cover 8, and the second grating plate is used for preventing external foreign matters from entering the second air guiding cover 8.

In this embodiment, the second grid plate can prevent external foreign matters from entering the second wind scooper 8.

When the air purifier is used, when external air needs to be purified, external air can be sucked into the first air guide cover 401 through the fan 402 in the air inlet assembly 4, then the air can be guided to the next procedure through the air supply pipe 403, and then external foreign matters with large particle sizes can be prevented from entering the inner cavity of the first air guide cover 401 through the first grid plate 404, so that the use safety of equipment is improved; when air containing dust needs to be washed, the water tank 501 in the washing filter assembly 5 can be used for installing other equipment and containing certain water required for washing, then the air containing dust can be respectively conveyed into each conduit 504 through the first shunt pipe 505 through the first air inlet pipe 502, then the air in the conduit 504 can be guided into the water tank 501 through the exhaust pipe 506, further the water in the water tank 501 can be used for washing the injected air, so that the effect of air filtering treatment can be achieved, the precision of research and development tests of the synchronous brushless alternating-current generator is ensured, the filtered air can be guided out to the next procedure through the first air outlet pipe 503, the conduit 504 can be installed and fixed through the bracket 507, the use stability of the conduit 504 can be improved, and by rotating the first valve 510, clean water can be guided into the water tank 501 through the water inlet pipe 508, but also leads out the sewage of the cleaning air through a sewage discharge pipe 509; when the filtered air needs to be dehumidified, the filtered air can be externally connected with cold air through the cold supply pipe 606 in the dehumidification component 6, and then the cold air is guided to each coil pipe 604 through the second shunt pipe 605, so that the surface temperature of the outer wall of each coil pipe 604 is low, when the air flowing in from the second air inlet pipe 602 flows through the coil pipes 604, the temperature of the air can be reduced, so that the water in the air meets condensation and is collected, water drops can be formed and collected at the bottom of the dehumidification box 601, the air dehumidification effect can be achieved, the cold air flowing through the coil pipes 604 can be guided out through the collection pipe 607 and the recovery pipe 608, and the water stored at the bottom in the dehumidification box 601 can be discharged through the drain pipe 609 by rotating to open the second valve 610; when the air after dehumidification is further dried, the air can be guided into and out of the heating box 701 through the third air inlet pipe 702 and the third air outlet pipe 703 in the drying component 7, the circulating air can be bent and guided through the baffle plate 704, so that the time effect of the air staying in the heating box 701 is achieved, then the air flowing through can be heated through the electric heating rods 707 on the U-shaped frame 705, and the air drying effect can be improved.

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.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. The utility model provides a synchronous brushless alternator research and development is with ground dust collector, includes box (1), chamber door (2) and baffle (3), box (1) surface hinged joint has chamber door (2), box (1) inner chamber mid-mounting has baffle (3), its characterized in that: an air inlet component (4) is embedded and connected to the bottom of one side wall of the box body (1), and the air inlet component (4) is used for sucking air containing dust from the outside;

the dust removal box is characterized in that a water washing filter assembly (5) is installed on one side of the bottom of an inner cavity of the box body (1), the water washing filter assembly (5) is used for washing sucked air containing dust, so that the dust removal effect can be achieved efficiently and quickly, a dehumidifying assembly (6) is installed on one side of the top surface of the partition plate (3), the dehumidifying assembly (6) is used for dehumidifying the dust-removed air, a drying assembly (7) is arranged on one side of the dehumidifying assembly (6), the drying assembly (7) is used for further drying the dehumidified air, a second air guide cover (8) is installed at the output end of the drying assembly (7), the top end of the second air guide cover (8) is inserted into one side of the top surface of the box body (1), and the second air guide cover (8) is used for discharging the dried clean air again.

2. The device for dedusting a synchronous brushless alternator development site as recited in claim 1, wherein: the air inlet assembly (4) comprises a first air guide cover (401), a fan (402) is installed in the middle of an inner cavity of the first air guide cover (401), the fan (402) is used for sucking outside air into the inner cavity of the first air guide cover (401), an air supply pipe (403) is installed at the output end of the first air guide cover (401), the air supply pipe (403) is used for guiding the sucked air to the next procedure, and a first grid plate (404) is installed at the input end of the first air guide cover (401).

3. The device for dedusting a synchronous brushless alternator development site as recited in claim 1, wherein: washing filtering component (5) include water tank (501), water tank (501) are used for other equipment fixing to can hold certain required water of washing again, water tank (501) top surface both sides are inlayed respectively and are connected with first intake pipe (502) and first outlet duct (503), water tank (501) inner chamber is equipped with multiunit pipe (504) to multiunit pipe (504) input switches on through first shunt tubes (505) and links to each other, first shunt tubes (505) input with first intake pipe (502) output switches on and links to each other, pipe (504) bottom is inlayed and is connected with multiunit blast pipe (506), blast pipe (506) are arranged in the leading-in aquatic to water tank (501) inner chamber holding of the air that contains the dust in with pipe (504).

4. The device for dedusting a synchronous brushless alternator development site as recited in claim 3, wherein: and two sides of the middle part of each group of guide pipes (504) are connected with the top surface of the inner cavity of the water tank (501) through a bracket (507).

5. The device for dedusting a synchronous brushless alternator development site as recited in claim 3, wherein: the water tank is characterized in that the top and the bottom of one side wall of the water tank (501) are respectively connected with a water inlet pipe (508) and a sewage discharge pipe (509) in a conduction mode, and one ends of the water inlet pipe (508) and the sewage discharge pipe (509) are connected with a first valve (510) in series.

6. The device for dedusting a synchronous brushless alternator development site as recited in claim 1, wherein: dehumidification subassembly (6) are including dehumidification case (601), dehumidification case (601) both sides wall is inlayed respectively and is connected with second intake pipe (602) and second outlet duct (603), dehumidification case (601) inner chamber is equipped with multiunit coil pipe (604), multiunit coil pipe (604) input switches on continuously through second shunt tubes (605), confession cold tube (606) are installed to second shunt tubes (605) input, the multiunit coil pipe (604) output switches on continuously through header (607), recovery tube (608) are installed to header (607) output.

7. The device for dedusting a synchronous brushless alternator development site as recited in claim 6, wherein: one side of the bottom of the dehumidifying box (601) is connected with a drain pipe (609) in an embedded mode, and one end of the drain pipe (609) is connected with a second valve (610) in series.

8. The device for dedusting a synchronous brushless alternator development site as recited in claim 1, wherein: drying component (7) are including heating cabinet (701), it is connected with third inlet duct (702) to inlay at heating cabinet (701) one side top, heating cabinet (701) top surface, and keep away from third inlet duct (702) one side and inlay and be connected with third outlet duct (703), multiunit baffling board (704) are installed respectively to heating cabinet (701) inner chamber bottom and bottom, baffling board (704) are used for buckling the water conservancy diversion to the air of circulation, reach the time effect that the air stops at heating cabinet (701), U type frame (705) are installed to baffling board (704) one side to electric heating rod (707) are installed to U type frame (705) inner chamber, electric heating rod (707) are used for carrying out the heat treatment to the air of flowing through.

9. The device for dedusting a synchronous brushless alternator development site as recited in claim 8, wherein: the electric heating rods (707) are specifically provided with a plurality of groups, and the plurality of groups of electric heating rods (707) are distributed in a linear array manner.

10. The device for dedusting a synchronous brushless alternator development site as recited in claim 1, wherein: and a second grating plate is arranged at the top of the inner cavity of the second air guide cover (8), and is used for preventing external foreign matters from entering the second air guide cover (8).

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