CN117955319A - Inverter with high-temperature protection function - Google Patents

Abstract

The invention relates to the field of inverters, in particular to an inverter with a high-temperature protection function. Technical problems: after the desiccant saturated in water absorption opens the discharge port under the action of self gravity, part of the desiccant which is not saturated is discharged through the discharge port, so that the utilization rate of the desiccant is reduced. The technical proposal is as follows: an inverter with high temperature protection function comprises a box body and the like; the device also comprises a rectangular plate and the like; the box body is fixedly connected with two rectangular plates which are distributed up and down. According to the invention, the guide plates are positioned between two rows of large drying balls, so that the guide plates block air flow, the air flow is prevented from being blown into gaps between the large drying balls and small drying balls, and the inclined guide plates guide the air flow entering from the right side vent of the box body upwards, so that the air flow is opposite to the large drying balls, and the drying effect of the large drying balls on moist air flow is improved.

Description

Inverter with high-temperature protection function

Technical Field

The invention relates to the field of inverters, in particular to an inverter with a high-temperature protection function.

Background

The prior Chinese patent: CN117062397a discloses a photovoltaic inverter convenient to heat dissipation is dustproof, after its drier absorbs the moisture in the air, self weight increases, when the drier absorbs moisture to be close to saturation, the restriction piece switches on the discharge port, make the drier of absorbed moisture discharge from the discharge port, simultaneously deposit the drier inflow fixed box of incasement, reduce the drier in the fixed box and absorb water efficiency reduction because of absorbing water, lead to the drier to flow into the condition that holds the air filtration moisture's of case efficiency reduction, further reduce the electrical apparatus of photovoltaic switch and be stained with the condition that the moisture damages, improve photovoltaic switch's life.

However, not all the drying agents in the storage box can absorb water to a saturated state, and after the drying agents saturated in water absorb water under the action of self gravity, the limiting piece opens the discharge port, part of the drying agents which are not saturated are discharged through the discharge port, so that the utilization rate of the drying agents is reduced.

Disclosure of Invention

In order to overcome the defect that the utilization rate of the desiccant is reduced because part of unsaturated desiccant is discharged through the discharge port after the discharge port is opened by the limiting piece under the action of self gravity of the desiccant with saturated water, the invention provides the inverter with the high-temperature protection function.

The technical proposal is as follows: an inverter with high temperature protection function comprises a box body, a box door, a fan and an inverter main body; the rectangular ventilation openings on the left side and the right side of the box body are respectively provided with a screen; the box body is rotationally connected with a box door; a plurality of fans distributed left and right are fixedly connected in the box body; an inverter main body is fixedly connected in the box body; the device also comprises a rectangular plate, a rotating plate, a filter screen I, a fixed plate, a fixed rod, a filter screen II, a rotating wheel, a conveying belt, a connecting rod, a deflector rod, a storage hopper and a limiting plate; the box body is fixedly connected with two rectangular plates which are distributed up and down; the rectangular plate below is rotationally connected with a rotating plate through a torsion spring; the two rectangular plates are fixedly connected with a filter screen I; the box body is fixedly connected with two fixing plates which are distributed front and back; each fixing plate is fixedly connected with two fixing rods which are distributed up and down; the four fixing rods are fixedly connected with a filter screen II; each fixed rod is rotatably connected with a rotating wheel; a conveyer belt is wound on each of the two rotating wheels positioned on the same fixed plate; the two conveying belts are fixedly connected with a plurality of connecting rods; each connecting rod is fixedly connected with a plurality of deflector rods; a storage hopper for storing the amplified drying balls is fixedly connected in the box body.

Further, the device also comprises a temporary storage plate and a storage box; the rectangular plate on the upper side is fixedly connected with a temporary storage plate which is obliquely arranged at the left side lower than the right side; the box body is fixedly connected with a storage box for storing small drying balls; the storage box is composed of a plurality of partition plates, and two adjacent partition plates form a storage cavity.

Further, the device also comprises a linkage ball, a fixing frame, a convex plate, a spring body and a filter screen III; each connecting rod is fixedly connected with a plurality of linkage balls; the box body is fixedly connected with a fixing frame; the front side and the rear side of the fixing frame are fixedly connected with a plurality of convex plates respectively; the filter screen II is fixedly connected with a plurality of spring bodies; all the spring bodies are fixedly connected with a filter screen III.

Further, the bucket is disposed at a higher incline to the left than to the right.

Further, the device also comprises a flow guiding component; the flow guide assembly comprises a spring rod, a round rod and a flow guide plate; a plurality of spring rods which are distributed in a rectangular shape are fixedly connected in the box body; the telescopic ends of the two spring rods at the front side and the rear side are respectively fixedly connected with a round rod; the two round rods are fixedly connected with a plurality of guide plates, and the guide plates are obliquely arranged at the left side higher than the right side.

Further, the flow guiding component also comprises a barrier strip; each guide plate is fixedly connected with a plurality of baffle bars.

Further, the flow guiding component also comprises a linkage rod, a wedge block and a poking rod; the screen mesh of the vent on the right side of the box body is made of elastic materials; each round rod is fixedly connected with a linkage rod; each linkage rod is fixedly connected with a wedge block, and the wedge blocks are matched with the connecting rods; each guide plate is fixedly connected with a plurality of poking rods.

Further, the end of the poking rod is arranged in a conical shape.

Further, the barrier strips are arranged in a semi-cylindrical shape.

Further, the device also comprises a poking component; the stirring assembly comprises an electric push rod and a push plate; the rotating wheel slides on the corresponding fixed rod; an electric push rod is fixedly connected to the rear side of the box body; the telescopic end of the electric push rod is fixedly connected with a push plate, the push plate is in sliding connection with two fixed rods at the rear side, and the push plate is in rotary connection with two rotating wheels at the rear side.

Compared with the prior art, the invention has the following advantages: according to the invention, after the bottommost row of large drying balls are saturated by absorbing water, the rotating plate is pushed away under the action of self gravity, the torsion spring is compressed, so that the bottommost row of saturated large drying balls fall out between the filter screen I and the filter screen II, the rest of unsaturated large drying balls between the filter screen I and the filter screen II move downwards under the action of self gravity, and at the same time, the rotating plate is reset under the action of resilience force of the torsion spring to hold the rest of unsaturated large drying balls between the filter screen I and the filter screen II, so that the saturated large drying balls can fall down from between the filter screen I and the filter screen II, the unsaturated large drying balls remain between the filter screen I and the filter screen II and are continuously utilized to absorb water, and the utilization rate of the large drying balls is improved.

According to the invention, the guide plates are positioned between two rows of large drying balls, so that the guide plates block air flow, the air flow is prevented from being blown into gaps between the large drying balls and small drying balls, and the inclined guide plates guide the air flow entering from the right side vent of the box body upwards, so that the air flow is opposite to the large drying balls, and the drying effect of the large drying balls on moist air flow is improved.

According to the invention, the electric push rod is controlled to drive the rear rotating wheel and the conveying belt to reciprocate on the corresponding fixed rod, and the rear rotating wheel and the conveying belt are driven to reciprocate on the corresponding fixed rod by the connecting rod and the deflector rod, so that the connecting rod and the deflector rod reciprocate, and the deflector rod dials the large drying ball between the filter screen I and the filter screen II under the action of friction force between the deflector rod and the large drying ball, so that the large drying ball rotates, and the absorption efficiency of the large drying ball on moisture is improved.

Drawings

Fig. 1 is a schematic diagram of an inverter disclosure with high temperature protection according to the present invention;

fig. 2 is a schematic diagram of a partial structure of an inverter disclosure having a high temperature protection function according to the present invention;

Fig. 3 is a schematic diagram of a combined structure of a box, a storage bucket and a limiting plate of the inverter with high-temperature protection function;

Fig. 4 is a schematic diagram of a combined partial structure of a box, a rectangular plate, a rotating plate, a filter screen i, a fixed plate and a fixed frame of the inverter with high-temperature protection function;

Fig. 5 is a schematic diagram of a combined partial structure of a box, a rectangular plate, a rotating plate, a filter screen i, a fixed plate, a fixed rod, a filter screen ii, a rotating wheel and a conveyor belt disclosed by an inverter with a high-temperature protection function;

Fig. 6 is a schematic diagram of a combined partial structure of a filter screen ii, a conveyor belt, a connecting rod, a deflector rod and a storage bucket disclosed by an inverter with a high-temperature protection function;

FIG. 7 is a schematic diagram of a combined partial structure of a case, a temporary storage plate, and a storage case of an inverter with high temperature protection function according to the present invention;

FIG. 8 is a schematic diagram of a combined partial structure of a box, a conveyor belt, a connecting rod, and a deflector rod of an inverter with high temperature protection function of the present invention;

Fig. 9 is a schematic diagram of a combined partial structure of a conveyor belt, a connecting rod, a linkage ball, a fixing frame, a convex plate, a spring body and a filter screen iii disclosed by an inverter with a high-temperature protection function;

FIG. 10 is a schematic view of a first combined partial structure of a deflector assembly and a tank of the inverter with high temperature protection according to the present invention;

FIG. 11 is a schematic view of a second combined partial structure of a deflector assembly and a tank of the inverter with high temperature protection according to the present invention;

fig. 12 is a schematic diagram showing a combined partial structure of a toggle assembly and a case of an inverter with high temperature protection according to the present invention.

The marks of the components in the drawings are as follows: 1-box, 2-box door, 3-fan, 4-big dry ball, 5-little dry ball, 6-inverter main body, 101-rectangular plate, 102-rotating plate, 103-filter screen I, 104-fixed plate, 105-fixed rod, 106-filter screen II, 107-runner, 108-conveyer belt, 109-connecting rod, 1010-deflector rod, 1011-storage bucket, 1012-limiting plate, 1013-temporary storage plate, 1014-storage box, 1015-linkage ball, 1016-fixing rack, 1017-convex plate, 1018-spring body, 1019-filter screen III, 201-spring rod, 202-round rod, 203-deflector plate, 204-linkage rod, 205-wedge block, 206-baffle bar, 207-stab rod, 301-electric push rod, 302-push plate.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings, for the purpose of making the objects, technical solutions and advantages of the present invention more apparent. It is only stated that the terms of orientation such as up, down, left, right, front, back, inner, outer, etc. used in this document or the imminent present invention, are used only with reference to the drawings of the present invention, and are not meant to be limiting in any way.

Example 1

An inverter with high temperature protection function, as shown in fig. 1-12, comprises a box body 1, a box door 2, a fan 3 and an inverter main body 6; the rectangular ventilation openings on the left side and the right side of the box body 1 are respectively provided with a screen; the box body 1 is rotatably connected with a box door 2; two fans 3 distributed left and right are connected in the box body 1 through bolts; an inverter main body is connected in the box body 1 through bolts;

The device also comprises a rectangular plate 101, a rotating plate 102, a filter screen I103, a fixed plate 104, a fixed rod 105, a filter screen II 106, a rotating wheel 107, a conveying belt 108, a connecting rod 109, a deflector rod 1010, a storage bucket 1011 and a limiting plate 1012; the box body 1 is fixedly connected with two rectangular plates 101 which are distributed up and down; the lower rectangular plate 101 is rotationally connected with a rotating plate 102 through a torsion spring; the two rectangular plates 101 are fixedly connected with a filter screen I103; the box body 1 is fixedly connected with two fixing plates 104 which are distributed front and back; each fixing plate 104 is fixedly connected with two fixing rods 105 which are distributed up and down; the four fixing rods 105 are fixedly connected with a filter screen II 106; each fixed rod 105 is rotatably connected with a rotating wheel 107; a conveyer belt 108 is wound on each of two rotating wheels 107 positioned on the same fixed plate 104; the two conveying belts 108 are fixedly connected with a plurality of connecting rods 109; each connecting rod 109 is fixedly connected with a plurality of deflector rods 1010; a storage bucket 1011 for storing the large drying balls 4 is fixedly connected in the box body 1, and the large drying balls 4 can be pushed out of the storage bucket 1011 by using an electric telescopic rod.

Also included are a scratch pad 1013 and a storage bin 1014; the upper rectangular plate 101 is fixedly connected with a temporary storage plate 1013 which is obliquely arranged at the left side lower than the right side; the box body 1 is fixedly connected with a storage box 1014 for storing small drying balls 5; the storage tank 1014 is composed of a plurality of partition plates, and two adjacent partition plates form a storage chamber.

The device also comprises a linkage ball 1015, a fixing frame 1016, a convex plate 1017, a spring body 1018 and a filter screen III 1019; each connecting rod 109 is fixedly connected with a plurality of linkage balls 1015; the box body 1 is fixedly connected with a fixing frame 1016; the front side and the rear side of the fixing frame 1016 are fixedly connected with a plurality of convex plates 1017 respectively; the filter screen II 106 is fixedly connected with four spring bodies 1018; all spring bodies 1018 are fixedly connected with a filter screen III 1019.

The bucket 1011 is inclined higher on the left side than on the right side.

The working steps of the embodiment are as follows: when the novel refrigerator door is used, the refrigerator door 2 is opened manually, the inverter main body 6 is installed between the two fans 3 in the refrigerator body 1, then, the large drying balls 4 are orderly arranged in the storage hopper 1011, the storage hopper 1011 is obliquely arranged at the left side higher than the right side, the large drying balls 4 fall between the filter screen I103 and the filter screen II 106 under the action of self gravity, each row of large drying balls 4 drives the connecting rod 109 and the deflector 1010 to move downwards when falling, the connecting rod 109 drives the conveying belt 108 to rotate, the connecting rod 109 and the deflector 1010 separate each row of large drying balls 4 between the filter screen I103 and the filter screen II 106, the large drying balls 4 are orderly distributed between the filter screen I103 and the filter screen II 106, the limiting plate 1012 limits the front side and the rear side of the large drying balls 4, the large drying balls 4 are orderly arranged between the filter screen I103 and the filter screen II 106 until the large drying balls 4 are full of the area between the filter screen I103 and the filter screen II 106, as shown in fig. 3-4, and the refrigerator door 2 is closed.

Then, the fan 3 is controlled to start, the right fan 3 sucks air flow from the vent on the right side of the box body 1, the left fan 3 blows air flow from the vent on the left side of the box body 1, at this time, after the sucked air flow passes through the filter screen I103, the big drying ball 4 and the filter screen II 106 in sequence, moisture in the air flow is absorbed by the big drying ball 4, so that the dry air flow carries out high-temperature protection on the inverter main body 6, finally, the air flow is blown out from the vent on the left side of the box body 1, in the south area, the inverter is usually installed on a cool ground, because the water vapor in the air flow is concentrated under the air flow, the most lower row of big drying balls 4 firstly reaches a saturated state, after the most lower row of big drying balls 4 absorbs water and is saturated, the rotating plate 102 is pushed away under the action of self gravity, and the torsion spring is compressed, so that the most lower row of saturated big drying balls 4 falls out between the filter screen I103 and the filter screen II 106, the rest of unsaturated big drying balls 4 between the filter screen I103 and the filter screen II 106 move downwards under the action of self gravity, meanwhile, the rotating plate 102 resets under the action of resilience force of the torsion spring, the rest of unsaturated big drying balls 4 between the filter screen I103 and the filter screen II 106 are supported, therefore, only the saturated big drying balls 4 can fall out from between the filter screen I103 and the filter screen II 106, the unsaturated big drying balls 4 remain between the filter screen I103 and the filter screen II 106 and are continuously utilized to absorb water, the utilization rate of the big drying balls 4 is improved, after the saturated big drying balls 4 fall into the box 1, the box door 2 is opened manually, the saturated big drying balls 4 are taken away, and new big drying balls 4 are put into the storage hopper 1011.

Because gaps exist between the spherical large drying balls 4, part of moist air flow can be blown to the inverter main body 6 through the gaps, after the unsaturated large drying balls 4 between the filter screen I103 and the filter screen II 106 move downwards, before each row of large drying balls 4 of the storage hopper 1011 move downwards, the small drying balls 5 are smaller than the large drying balls 4 in size, so that the small drying balls 5 fall out of the storage box 1014 under the action of self gravity and fall into gaps among the rows of large drying balls 4 after being guided and separated by the inclined temporary storage plate 1013, and the gaps among the large drying balls 4 are filled, so that the large drying balls 4 between the filter screen I103 and the filter screen II 106 form a relatively tight drying wall, water vapor in the air flow is fully absorbed, and the drying effect is improved.

The unsaturated big drying ball 4 drives the connecting rod 109 and the deflector 1010 on the right side of the conveying belt 108 to move downwards when moving downwards, so that the connecting rod 109 drives the conveying belt 108 to rotate, the conveying belt 108 drives the connecting rod 109 on the left side to move upwards, the upwards moving connecting rod 109 drives the linkage ball 1015 to move, the upwards moving connecting rod 109 moves towards one side close to the filter screen III 1019 under the limit of the convex plate 1017 when passing through the convex plate 1017, the filter screen III 1019 extrudes the spring body 1018, the spring body 1018 is compressed, and the upwards moving connecting rod 109 pops up under the elastic force of the spring body 1018 when being separated from the convex plate 1017, so that impurities adhered on the filter screen III 1019 are shaken off, and the filtering effect of the filter screen III 1019 is improved.

Example 2

On the basis of the embodiment 1, as shown in fig. 10-11, the device also comprises a flow guiding component; the flow guiding component comprises a spring rod 201, a round rod 202 and a flow guiding plate 203; four rectangular spring rods 201 are fixedly connected in the box body 1; the telescopic ends of the two spring rods 201 at the front side and the rear side are respectively fixedly connected with a round rod 202; the two round bars 202 are fixedly connected with a plurality of guide plates 203, the guide plates 203 are obliquely arranged at the left side higher than the right side, and the guide plates 203 are positioned between two rows of large drying balls 4.

The flow directing assembly further includes a barrier 206; each baffle 203 is fixedly connected with a plurality of barrier strips 206.

The diversion assembly also comprises a linkage rod 204, a wedge block 205 and a poking rod 207; the screen mesh of the vent on the right side of the box body 1 is made of elastic materials; each round bar 202 is fixedly connected with a linkage bar 204; each linkage rod 204 is fixedly connected with a wedge block 205, and the wedge blocks 205 are matched with the connecting rods 109; each baffle 203 is fixedly connected with a plurality of poking rods 207.

The end of the poking rod 207 is arranged in a conical shape.

The barrier strips 206 are arranged in a semi-cylindrical shape.

The working steps of the embodiment are as follows: after the gap between the two rows of big drying balls 4 is plugged by the small drying balls 5, because the small drying balls 5 are arranged in a spherical shape, gaps still exist between the big drying balls 4 and the small drying balls 5, partial air flow can pass through the gaps between the big drying balls 4 and the small drying balls 5, so that water vapor in the air flow contacts the inverter main body 6 to influence the operation of the inverter, at the moment, the air flow is blocked by the air flow guide plate 203 because the air guide plate 203 is positioned between the two rows of big drying balls 4, the air flow is prevented from blowing into the gap between the big drying balls 4 and the small drying balls 5, and the air flow entering from the right side ventilation opening of the box body 1 is upwards guided by the inclined air guide plate 203, so that the air flow is opposite to the big drying balls 4, and the drying effect of the big drying balls 4 on moist air flow is improved.

Because the inverter is usually placed outdoors, especially in a photovoltaic inverter, at this time, the gravel mixed with air is easily sucked into the box 1 from the ventilation opening, the gravel in the air is blocked by the barrier strips 206, the gravel amount sucked into the box 1 is greatly reduced, and the barrier strips 206 are arranged in a semi-cylindrical shape, so that the blocked gravel can slide from between the barrier strips 206, and is not easy to be accumulated between the barrier strips 206.

After the connecting rod 109 contacts the wedge block 205 when moving downwards, the wedge block 205 is extruded, the wedge block 205 enables the linkage rod 204 to extrude the round rod 202 and the spring rod 201, the round rod 202 drives the guide plate 203 and the poking rod 207 to move rightwards, the spring rod 201 is compressed, the poking rod 207 extrudes a screen mesh of a right side vent of the box body 1, the screen mesh is adaptively deformed, the end part of the poking rod 207 is in a conical shape, the end part of the poking rod 207 punctures a plastic bag attached to the screen mesh, the plastic bag is prevented from covering the screen mesh, air inlet is influenced, after the connecting rod 109 moves downwards and is separated from the wedge block 205, the linkage rod 204 and the round rod 202 move leftwards rapidly under the action of the elasticity of the spring rod 201, the poking rod 207 is separated from the screen mesh, and the screen mesh resets under the action of self elasticity, so that impurities attached to the screen mesh are shaken off.

Example 3

Based on the embodiment 2, as shown in fig. 12, the device further comprises a poking component; the poking assembly comprises an electric push rod 301 and a push plate 302; the runner 107 slides on the corresponding fixed bar 105; the rear side of the box body 1 is connected with an electric push rod 301 through bolts; the telescopic end of the electric push rod 301 is fixedly connected with a push plate 302, the push plate 302 is in sliding connection with the two fixed rods 105 at the rear side, and the push plate 302 is in rotary connection with the two rotating wheels 107 at the rear side.

The working steps of the embodiment are as follows: because the big drying ball 4 and the small drying ball 5 are in a static state when absorbing moisture in the air flow between the filter screen I103 and the filter screen II 106, for the big drying ball 4, the right side is a windward side, moisture is absorbed more easily, and the left side is a leeward side, moisture is absorbed less, so that uneven absorption of moisture on the right side and the left side of the big drying ball 4 is caused, drying efficiency of the big drying ball 4 is reduced, when the big drying ball 4 and the small drying ball 5 dry the air flow, the electric push rod 301 is controlled to enable the push plate 302 to drive the rear rotating wheel 107 and the conveying belt 108 to reciprocate on the corresponding fixed rod 105, the rear rotating wheel 107 and the conveying belt 108 drive the front rotating wheel 107 and the conveying belt 108 through the connecting rod 109 and the deflector 1010, and thus the connecting rod 109 and the deflector 1010 reciprocate on the corresponding fixed rod 105, and the deflector 1010 stir the big drying ball 4 between the filter screen I103 and the filter screen II 106 under the friction force between the deflector 1010, so that the big drying ball 4 rotates, and the absorption efficiency of moisture of the big drying ball 4 is improved.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related arts are included in the scope of the present invention.

Claims (10)

1. An inverter with a high-temperature protection function comprises a box body (1), a box door (2), a fan (3) and an inverter main body (6); the rectangular ventilation openings on the left side and the right side of the box body (1) are respectively provided with a screen; the box body (1) is rotationally connected with a box door (2); a plurality of fans (3) distributed left and right are fixedly connected in the box body (1); an inverter main body (6) is fixedly connected in the box body (1); the method is characterized in that: the device also comprises a rectangular plate (101), a rotating plate (102), a filter screen I (103), a fixed plate (104), a fixed rod (105), a filter screen II (106), a rotating wheel (107), a conveying belt (108), a connecting rod (109), a deflector rod (1010), a storage bucket (1011) and a limiting plate (1012); the box body (1) is fixedly connected with two rectangular plates (101) which are distributed up and down; the rectangular plate (101) below is rotationally connected with a rotating plate (102) through a torsion spring; the two rectangular plates (101) are fixedly connected with a filter screen I (103) together; the box body (1) is fixedly connected with two fixing plates (104) which are distributed front and back; each fixing plate (104) is fixedly connected with two fixing rods (105) which are distributed up and down; the four fixing rods (105) are fixedly connected with a filter screen II (106) together; each fixed rod (105) is rotatably connected with a rotating wheel (107); a conveyer belt (108) is wound on each of two rotating wheels (107) positioned on the same fixed plate (104); the two conveying belts (108) are fixedly connected with a plurality of connecting rods (109) together; each connecting rod (109) is fixedly connected with a plurality of deflector rods (1010); a storage hopper (1011) for storing the drying balls (4) is fixedly connected in the box body (1).

2. The inverter with high temperature protection function according to claim 1, further comprising a temporary storage plate (1013) and a storage tank (1014); the upper rectangular plate (101) is fixedly connected with a temporary storage plate (1013) which is obliquely arranged at the left side lower than the right side; the box body (1) is fixedly connected with a storage box (1014) for storing small drying balls (5); the storage box (1014) is composed of a plurality of partition boards, and two adjacent partition boards form a storage cavity.

3. The inverter with high temperature protection function according to claim 1, further comprising a linkage ball (1015), a fixing frame (1016), a convex plate (1017), a spring body (1018) and a filter screen iii (1019); each connecting rod (109) is fixedly connected with a plurality of linkage balls (1015); the box body (1) is fixedly connected with a fixing frame (1016); the front side and the rear side of the fixed frame (1016) are fixedly connected with a plurality of convex plates (1017) respectively; the filter screen II (106) is fixedly connected with a plurality of spring bodies (1018); all the spring bodies (1018) are fixedly connected with a filter screen III (1019) together.

4. The inverter with high temperature protection function according to claim 1, wherein the bucket (1011) is provided at a higher inclination on the left side than on the right side.

5. The inverter with high temperature protection function according to any one of claims 1 to 4, further comprising a flow guiding assembly; the flow guide assembly comprises a spring rod (201), a round rod (202) and a flow guide plate (203); a plurality of rectangular spring rods (201) are fixedly connected in the box body (1); the telescopic ends of the two spring rods (201) at the front side and the rear side are respectively fixedly connected with a round rod (202) together; the two round rods (202) are fixedly connected with a plurality of guide plates (203) together, and the guide plates (203) are obliquely arranged with the left side higher than the right side.

6. The inverter with high temperature protection function according to claim 5, wherein the flow guiding assembly further comprises a barrier strip (206); each guide plate (203) is fixedly connected with a plurality of baffle strips (206).

7. The inverter with high temperature protection function according to claim 5, wherein the flow guiding assembly further comprises a linkage rod (204), a wedge block (205) and a poking rod (207); the screen mesh of the vent on the right side of the box body (1) is made of elastic materials; each round rod (202) is fixedly connected with a linkage rod (204); each linkage rod (204) is fixedly connected with a wedge block (205), and the wedge blocks (205) are matched with the connecting rods (109); each guide plate (203) is fixedly connected with a plurality of poking rods (207).

8. The inverter with high temperature protection function according to claim 7, wherein the end of the poking rod (207) is tapered.

9. The inverter with high temperature protection function according to claim 6, wherein the barrier strips (206) are arranged in a semi-cylindrical shape.

10. The inverter with high temperature protection function according to claim 1, further comprising a toggle assembly; the poking assembly comprises an electric push rod (301) and a push plate (302); the rotating wheel (107) slides on the corresponding fixed rod (105); an electric push rod (301) is fixedly connected to the rear side of the box body (1); the telescopic end of the electric push rod (301) is fixedly connected with a push plate (302), the push plate (302) is in sliding connection with the two fixed rods (105) at the rear side, and the push plate (302) is in rotary connection with the two rotating wheels (107) at the rear side.