CN108979851B - Generating device and unit installation mechanism - Google Patents

Abstract

The invention relates to a generating set and a unit installation mechanism, wherein the unit installation mechanism comprises: the oil tank seat is used for being connected with the generator set, the oil tank seat is arranged on the anti-leakage base, and the anti-leakage base is provided with a containing groove which corresponds to the oil tank seat. When the unit installation mechanism is used, the oil tank seat is firstly arranged on the leakage-proof base, and then the generator unit to be installed is connected with the oil tank seat. Therefore, when the oil leakage phenomenon occurs between the generator set and the oil tank seat, oil can directly fall into the accommodating groove of the leakage-proof base through the oil tank seat and is stored, so that the oil is prevented from directly leaking into the external environment.

Description

Generating device and unit installation mechanism

Technical Field

The invention relates to the technical field of unit power generation, in particular to a power generation device and a unit installation mechanism.

Background

Traditionally, a generator set often needs to be connected to an oil tank for operation, and the oil tank for assembly with the generator set is often formed by welding a common steel plate. However, the degree of sealing of such tanks is quite limited. Therefore, when the generator set is matched with the oil tank, oil leakage phenomenon can often occur. At this time, the oil can be directly leaked to the outside of the whole unit, thereby causing serious pollution to the working environment.

Disclosure of Invention

Accordingly, it is necessary to provide a power generation device and a unit installation mechanism capable of avoiding direct leakage of oil into the external environment.

The technical scheme is as follows:

a unit mounting mechanism comprising: the oil tank seat is used for being connected with the generator set, the oil tank seat is arranged on the anti-leakage base, and the anti-leakage base is provided with a containing groove which corresponds to the oil tank seat.

When the unit installation mechanism is used, the oil tank seat is firstly arranged on the leakage-proof base, and then the generator unit to be installed is connected with the oil tank seat. Therefore, when the oil leakage phenomenon occurs between the generator set and the oil tank seat, oil can directly fall into the accommodating groove of the leakage-proof base through the oil tank seat and is stored, so that the oil is prevented from directly leaking into the external environment.

The technical scheme is further described as follows:

the unit installation mechanism further comprises an inductor, wherein the inductor is arranged on the leakage-proof base, and the inductor and the oil tank base are correspondingly arranged.

The anti-leakage base is provided with a chute corresponding to the inductor, and the inductor is slidably arranged on the anti-leakage base.

The unit installation mechanism further comprises a sound insulation cover, a sliding rail is further arranged in the accommodating groove, the sound insulation cover and the oil box seat are connected with the leakage-proof base through the sliding rail, and the sound insulation cover is located between the oil box seat and the leakage-proof base.

The unit installation mechanism further comprises an erection block, the erection block is arranged on the oil tank seat, and the oil tank is arranged inside the accommodating groove through the erection block and is arranged at intervals with the bottom wall of the accommodating groove.

The unit installation mechanism further comprises an oil scraping plate, the oil scraping plate is arranged on the sound insulation cover, the oil scraping plate is located between the sound insulation cover and the bottom wall of the accommodating groove, and the oil scraping plate is in interference fit with the bottom wall of the accommodating groove.

The power generation device comprises a unit installation mechanism, an installation box body and a power generation unit, wherein the power generation unit is arranged on the unit installation mechanism, and the unit installation mechanism is arranged inside the installation box body.

When the power generation device is used, the power generation unit is arranged inside the installation box body through the unit installation mechanism, so that the direct oil leakage can be avoided, the normal work of other parts can be influenced inside the installation box body, and the oil can be directly leaked to the external environment.

The power generation device further comprises a mounting plate, a mounting opening for mounting the unit mounting mechanism is formed in the side portion of the mounting box body, the mounting plate is movably mounted on the side portion of the mounting box body, and the mounting plate corresponds to the mounting opening.

The power generation device further comprises a first supporting block and a second supporting block, wherein the first supporting block and the second supporting block are arranged at the bottom of the installation box body, and the first supporting block and the second supporting block are respectively positioned at two sides of the installation opening.

The power generation device further comprises a silencer, a sound insulation layer is coated on the inner side wall of the installation box body, a wind gap is formed in the installation box body, and the silencer is installed on the installation box body through the wind gap.

Drawings

FIG. 1 is a schematic view of a unit mounting mechanism according to an embodiment;

FIG. 2 is a schematic diagram of a power generation device according to an embodiment;

FIG. 3 is a cross-sectional view of a power generation device according to another embodiment;

FIG. 4 is a schematic view of a first noise muffler according to an embodiment;

fig. 5 is a schematic structural view of a second noise silencer according to another embodiment.

Reference numerals illustrate:

100. the oil tank seat, 110, the erection block, 200, the leakage prevention base, 210, the accommodating groove, 220, the inductor, 230, the sound insulation cover, 231, the oil scraping plate, 240, the sliding rail, 300, the installation box, 301, the air inlet box, 302, the air exhaust box, 310, the installation plate, 320, the first support block, 330, the second support block, 340, the sealing plate, 400, the generator set, 500, the silencer, 510, the first noise silencer, 511, the sound absorption box, 512, the first sound insulation plate, 513, the first ventilation hole, 520, the second noise silencer, 521, the bending plate, 522, the installation groove, 523, the second sound insulation plate, 524, the second ventilation hole, 525, the fixing plate, 526, the connecting piece, 527, the cover plate, 600, the air inlet, 610, the air inlet, 620, the air outlet, 630 and the installation opening.

Detailed Description

The present invention will be further described in detail with reference to the drawings and the detailed description, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the detailed description and specific examples are intended for purposes of illustration only and are not intended to limit the scope of the invention.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

The terms "first" and "second" in this specification do not denote a particular quantity or order, but rather are used for distinguishing between similar or identical items.

As shown in fig. 1, in one embodiment, a unit mounting mechanism includes: the oil tank base 100 is used for being connected with the generator set 400, the oil tank base 100 is arranged on the anti-leakage base 200, the anti-leakage base 200 is provided with a containing groove 210, and the containing groove 210 corresponds to the oil tank base 100. The oil tank base 100 is detachably mounted on the leakage preventing base 200. Specifically, in consideration of the disassembly and assembly of the oil tank base 100 and the leakage preventing base 200, after the oil tank base 100 is installed inside the receiving groove 210, the oil tank base 100 can protrude from the leakage preventing base 200, thereby facilitating the assembly and disassembly of the oil tank base 100 and the leakage preventing base 200. More specifically, the oil tank base 100 and the anti-leakage base 200 are rectangular plates, that is, the oil tank base 100 can be sleeved inside the anti-leakage base 200 through the accommodating groove 210. Therefore, the design mode of the anti-leakage base 200 realizes the installation of the generator set 400 and the oil tank on one hand, saves the processing materials of the anti-leakage base 200 on the other hand, and reduces the processing cost.

When the unit installation mechanism is used, the oil tank base 100 is firstly arranged on the leakage-proof base 200, and then the generator unit 400 to be installed is connected with the oil tank base 100. Therefore, when the oil leakage occurs between the generator set 400 and the oil tank base 100, the oil can directly drop into the accommodating groove 210 of the anti-leakage base 200 through the oil tank base 100 and be stored, so that the oil is prevented from directly leaking into the external environment.

As shown in fig. 1 and 2, in one embodiment, according to the actual working condition, after the generator set 400 is connected to the tank base 100. According to the specific installation position of the oil tank base 100 or the area where the oil tank base 100 and the generator set 400 are prone to leak oil, the anti-leakage base 200 is provided with a containing groove 210 corresponding to the oil tank base, so that the leaked oil can directly drop into the containing groove 210, and the oil is prevented from leaking into the external environment. This is just one example, for example: according to the actual working conditions, the size of the generator set 400 or the size of the oil tank base 100 may be changed, so that a first auxiliary sliding rail, a second auxiliary sliding rail and a liquid storage box may be additionally arranged on the anti-leakage base 200, and the first auxiliary sliding rail and the second auxiliary sliding rail are correspondingly arranged at intervals on the surface of the anti-leakage base 200. A space is reserved between the oil tank base 100 and the anti-leakage base 200, and the first auxiliary sliding rail and the second auxiliary sliding rail are both positioned between the oil tank base 100 and the anti-leakage base 200. The liquid storage box is slidably arranged on the first auxiliary sliding rail and the second auxiliary sliding rail, so that the liquid storage box can slide on the leakage-proof base 200. Meanwhile, the liquid storage box can be adjusted in a targeted mode according to an actual oil leakage area.

In one embodiment, the unit mounting mechanism further includes an inductor 220. The inductor 220 is mounted on the anti-leakage base 200, and the inductor 220 is disposed corresponding to the fuel tank base 100. The sensor 220 is used for detecting oil leakage between the oil tank base 100 and the leakage preventing base 200. Specifically, depending on the actual operating conditions, it is sometimes desirable for multiple gensets 400 to operate simultaneously. Therefore, when an oil leakage occurs in a certain generator set 400, the oil leakage cannot be found in time. At this time, through adding the inductor 220 on unit installation mechanism to can carry out real-time supervision to the generating set 400, when the oil leak phenomenon appears, the alarm operation can be made immediately to the inductor 220, thereby can in time overhaul the generating set 400 that appears the oil leak, avoid causing the pollution of large tracts of land to operational environment.

In one embodiment, the leakage preventing base 200 is provided with a chute corresponding to the sensor 220, and the sensor 220 is slidably mounted in the chute. Specifically, in the present embodiment, the uncertainty of the oil leakage area of the oil tank is considered. Therefore, the anti-leakage base 200 is provided with the moving ground chute for the inductor 220, so that on one hand, the inductor 220 can be regulated and controlled in a targeted manner according to the easy-leakage area of the oil tank, and on the other hand, the detection dead angle on the unit installation mechanism can be avoided by changing the position of the inductor 220, and the detection effect of the inductor 220 is ensured.

In one embodiment, the crew mounting mechanism further comprises a sound shield 230. The inside slide rail 240 that still is equipped with of storage tank 210, sound insulation cover 230 with oil tank seat 100 all passes through slide rail 240 with leak protection base 200 links to each other, just sound insulation cover 230 is located oil tank seat 100 with leak protection base 200 between. In particular, in the present embodiment, since the generator set 400 generates large operation noise when operating, the propagation of the noise of the generator set 400 can be effectively blocked by the soundproof cover 230. More specifically, in the present embodiment, the sound insulation cover 230 collides with the tank mount 100. The sound insulation cover 230 is further provided with a buffer layer, so that the shaking of the oil tank base 100 along with the generator set 400 can be effectively avoided. At the same time, the oil outlet between the oil tank base 100 and the generator set 400 is more gentle.

In one embodiment, the crew mounting mechanism further comprises a mounting block 110. The mounting block 110 is mounted on the oil tank base 100, and the oil tank is mounted inside the accommodating groove 210 through the mounting block 110 and is spaced from the bottom wall of the accommodating groove 210. The unit mounting mechanism also includes a wiper plate 231. The oil scraping plate 231 is mounted on the sound insulation cover 230, the oil scraping plate 231 is located between the sound insulation cover 230 and the bottom wall of the accommodating groove 210, and the oil scraping plate 231 is in interference fit with the bottom wall of the accommodating groove 210. Specifically, in one embodiment, the tank base 100 is integrally installed inside the receiving groove 210. By additionally providing the mounting block 110 between the oil tank base 100 and the anti-leakage base 200, the sound insulation cover 230 can drive the oil scraping plate 231 to move between the oil tank base 100 and the anti-leakage base 200. When the residual oil in the accommodating groove 210 needs to be cleaned, the sound insulation cover 230 can slide on the sliding rail 240, so that the oil scraping plate 231 is driven to move, and the oil can flow out from the oil drain hole at the side part of the leakage prevention base 200 under the action of the oil scraping plate 231. Therefore, the above embodiment can clean the oil without disassembling the oil tank base 100 and the leakage preventing base 200.

In one embodiment, a power generation device includes the unit mounting mechanism, a mounting case 300, and a power generation unit 400. The generator set 400 is mounted on the set mounting mechanism, which is mounted inside the mounting case 300. When the power generation device is used, the power generation unit 400 is arranged inside the installation box 300 through the unit installation mechanism, so that the direct oil leakage inside the installation box 300 can be avoided from affecting the normal operation of other components, and the oil can be prevented from directly leaking into the external environment.

In one embodiment, the power generation device further includes a mounting plate 310. The side of the installation box 300 is provided with an installation opening 630 for installing the unit installation mechanism, the installation plate 310 is movably installed on the side of the installation box 300, and the installation plate 310 corresponds to the installation opening 630. The power generation device further includes a first support block 320 and a second support block 330. The first support block 320 and the second support block 330 are both mounted at the bottom of the mounting box 300, and the first support block 320 and the second support block 330 are respectively located at two sides of the mounting opening 630. Specifically, in the present embodiment, in order to avoid the generation of large noise by the generator set 400, the generator set 400 is mounted inside the mounting case 300. Because of the large size of the generator set 400, it is very inconvenient to handle. Therefore, in the present embodiment, the mounting opening 630 is formed at the side of the mounting box 300, and the first support block 320 and the second support block 330 are additionally formed at the bottom of the mounting box 300. Thus, after the generator set 400 is mounted on the set mounting mechanism, the set mounting mechanism can be directly pushed, and the generator set can enter the mounting box 300 from the side of the mounting box 300. The installation difficulty of the power generation device is greatly reduced.

As shown in fig. 3, in one embodiment, the power generation device further includes a muffler 500. The inner side wall of the installation box 300 is coated with a sound insulation layer, the installation box 300 is provided with a wind gap 600, and the silencer 500 is arranged on the installation box 300 through the wind gap 600. Specifically, the side wall of the installation case 300 adopts the sealing plate 340, so that the air flow inside the installation case 300 can be prevented from being discharged from the side of the installation case 300, thereby reducing the sound emission decibel of noise at the side of the installation case 300. At this time, an air flow is generated near the tuyere 600, so that most of noise generated from the generator is discharged from the tuyere 600 along with the air flow. Since the tuyere 600 is provided at the top of the case, when noise is transmitted from the inside of the installation case 300 to the outside, the transmission direction of the noise is toward the direction away from the working area, thereby reducing the damage of the noise to the human ear.

As shown in fig. 3 to 5, in one embodiment, the installation housing 300 includes an inlet housing 301 and an outlet housing 302. The air inlet 600 comprises an air inlet 610 and an air outlet 620, the air inlet box 301 is connected with the air exhaust box 302, the air inlet 610 is formed at the top of the air inlet box 301, and the air outlet 620 is formed at the top of the air exhaust box 302. The installation box 300 is sleeved outside the generator, at this time, the noise uses gas as a propagation medium, and the top of the installation box 300 is provided with the air inlet 610 and the air outlet 620, so that the gas flow inside the installation box 300 is increased, and the convergence of the noise can be effectively avoided, namely, the pronunciation decibel of the noise is reduced. The inside of the sealing plate 340 of the installation case 300 is coated with a sound insulation layer (high density rock wool). Meanwhile, the micro punching plate is additionally arranged in the packaging plate, so that double filtration of noise is realized, and the noise is effectively blocked. Specifically, in the present embodiment, it is considered that the generator set 400 needs to perform cooling heat exchange during operation. Therefore, the installation box 300 is further provided with an exhaust box for installing the water tank core, so that the whole coverage of the installation box 300 to the generator set 400 is realized, and the sound insulation effect of the installation box 300 is greatly improved. More specifically, the generator set 400 is installed in the air inlet box, the water tank core is installed in the air outlet box, a baffle is further arranged between the air inlet box and the air outlet box, and the generator set 400 is connected with the water tank core through a water pipe. This design of the present embodiment can effectively avoid noise from propagating from the air inlet box 301 to the air outlet box 302. An air outlet 620 is formed at the end of the air exhaust box 302, that is, the heat generated by the water tank core can be exhausted through the air outlet 620. According to the actual working condition, the silencer 500 can be additionally arranged at the air outlet 620, so that the noise at the air outlet 620 is avoided from being too large.

As shown in fig. 3-4, in one embodiment, muffler 500 includes a first noise muffler 510. The first noise silencer 510 is detachably mounted on the top of the air inlet box 301 through the air inlet 610. The first noise silencer 510 includes a silencing box 511 and a plurality of first sound insulation boards 512, the first sound insulation boards 512 are arranged at intervals inside the silencing box 511, a plurality of first ventilation holes 513 are formed in the silencing box 511 and the first sound insulation boards 512, and openings are formed in the end portions of the silencing box 511. Specifically, in this embodiment, the end of the sound-reducing body 511 is provided with a flange, so that the sound-reducing body 511 is connected to the top of the air inlet box 301 more tightly, and a sound leakage phenomenon is avoided. When the first noise silencer 510 is installed on the air inlet box 301, a layer of sound insulation filter screen is additionally installed on the top of the air inlet box 301, so that on one hand, the noise inside the air inlet box 301 can be prevented from being transmitted to the outside, and on the other hand, the outside dust can be prevented from falling into the first noise silencer 510. More specifically, in order to ensure the heat exchange efficiency of the generator set 400, a fan is further disposed inside the air inlet box 301, where the fan is disposed corresponding to the first noise silencer 510. That is, the first noise silencer 510 can be quickly exchanged with the air flow inside the air inlet box 301 by the fan. The sound-deadening box 511 and the first sound-insulating plate 512 are provided with a plurality of first ventilation holes 513, so that when noise propagates to the outside through the first noise silencer 510, the air flow forms turbulence near the plurality of first ventilation holes 513, and when the noise propagates by taking air as a medium, the noise can be deadened under the action of the turbulence of the air, thereby eliminating the noise.

As shown in fig. 3 and 5, in one embodiment, muffler 500 further includes a second noise muffler 520. The air inlet box 301 is provided with a mounting opening 630, the mounting opening 630 is located between the air inlet 610 and the air outlet 620, and the second noise silencer 520 is detachably mounted on the air inlet box 301 through the mounting opening 630. Specifically, in the present embodiment, the noise processing mechanism described above eliminates noise by the first noise muffler 510 and the second noise muffler 520 on the one hand, and absorbs noise by the side wall of the intake box 301 and the side wall of the exhaust box 302 on the other hand. If the opening sizes of the air inlet 610 and the mounting opening 630 on the air inlet box 301 are designed to be too large, the noise absorption of the side wall of the mounting box 300 is greatly reduced. At this time, the noise is processed only by the first noise silencer 510 and the second noise silencer 520, and the predetermined processing effect is far from being achieved. Therefore, in this embodiment, the noise treatment effect of the noise treatment mechanism is best when the area ratio of the air outlet area to the tank core is 1.2:1.

In one embodiment, the second noise muffler 520 includes a bent plate 521 and a plurality of second baffle plates 523. The bending plate 521 is provided with a mounting groove 522, the second sound insulation plates 523 are disposed at intervals inside the mounting groove 522, and the bending plate 521 and the second sound insulation plates 523 are provided with a plurality of second ventilation holes 524. Specifically, in this embodiment, the end of the bent plate 521 is provided with a flange, so that the bent plate 521 is connected to the top of the air inlet box 301 more tightly, and the phenomenon of sound leakage is avoided. When the second noise silencer 520 is mounted on the air inlet box 301, a layer of sound insulation filter screen is additionally arranged on the top of the air inlet box 301, so that on one hand, the noise inside the air inlet box 301 can be prevented from being transmitted to the outside, and on the other hand, the outside dust can be prevented from falling into the second noise silencer 520. The bending plate 521 and the second sound-insulating plate 523 are respectively provided with a plurality of second ventilation holes 524, so that when noise is transmitted to the outside through the second noise silencer 520, air flow forms turbulence near the second ventilation holes 524, and noise can be eliminated under the effect of air turbulence when the noise is transmitted by taking air as a medium, thereby eliminating the noise.

In one embodiment, the second noise silencer 520 further includes a fixing plate 525. The fixing plate 525 is mounted on the side portion of the bending plate 521, and the second sound insulation plate 523 is attached to the plate surface of the fixing plate 525. Specifically, the fixing plate 525 can increase the contact area between the second noise silencer 520 and the air inlet box 301, i.e. make the installation of the second noise silencer 520 in the air inlet box 301 more firm. On the other hand, the inner side surface of the fixing plate 525 is also provided with a second ventilation hole 524, and the fixing plate 525 and the second sound insulation plate 523 mutually collide to form a plurality of installation dead angles. Thus, when the noise enters the second noise muffler 520, the above-described embodiment achieves cyclic absorption of the noise, and improves the noise absorption effect of the second noise muffler 520.

In one embodiment, the fixing plate 525 is provided with a connector 526. The bending plate 521 is provided with a plurality of mounting holes corresponding to the connecting members 526. Specifically, the connector 526 is a bolt or a screw. According to the actual working conditions, the fixing plate 525 is matched with the mounting holes at different positions by changing the connecting piece 526, so that the fixing of the fixing plate 525 at different positions on the bending plate 521 is realized, and the insertion depth of the second noise silencer 520 on the air inlet box 301 can be changed. I.e., the mode of the second noise muffler 520 for noise treatment is changed, and the applicability of the second noise muffler 520 is improved.

In one embodiment, the second noise silencer 520 further includes a cover plate 527, the cover plate 527 is installed inside the installation groove 522, and the cover plate 527 is installed on the second sound insulation plate 523. Specifically, in the present embodiment, the area of the first noise damper 510 is smaller than the size of the tank core. Therefore, when the second noise silencer 520 is installed, the area ratio of the air outlet area of the air inlet box 301 to the core of the water tank is 1.2:1. A cover plate 527 is added to the second noise silencer 520, that is, when the second noise silencer 520 is installed in the air inlet box 301, the cover plate 527 can cover a part of the air outlet area of the second noise silencer 520. While the processing areas of the bending plate 521 and the second sound insulation plate 523 of the second noise damper 520 located inside the air inlet housing 301 are not affected. Such an embodiment as described above improves the noise handling effect of the noise handling mechanism while ensuring that the area ratio of the air outlet area of the air inlet box 301 to the tank core is 1.2:1.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. A unit mounting mechanism, comprising:

the oil tank seat is used for being connected with a generator set, a containing groove is formed in the oil tank seat, the containing groove corresponds to the oil tank seat, a sliding rail is further arranged in the containing groove, the sound insulation cover and the oil tank seat are connected with the oil tank seat through the sliding rail, the sound insulation cover is located between the oil tank seat and the oil tank seat, the oil scraping plate is arranged on the sound insulation cover, the oil scraping plate is located between the sound insulation cover and the bottom wall of the containing groove, the oil scraping plate is in interference fit with the bottom wall of the containing groove, and a buffer layer is further arranged on the sound insulation cover.

2. The assembly mounting mechanism of claim 1, further comprising an inductor mounted on the leak resistant base, the inductor being disposed in correspondence with the tank mount.

3. The assembly mounting mechanism of claim 2, wherein the leak-proof base is provided with a chute corresponding to the sensor, and the sensor is slidably mounted within the chute.

4. The assembly mounting mechanism of claim 1, wherein the oil tank mount protrudes from the leak-proof mount.

5. The unit mounting mechanism of claim 1, further comprising a mounting block mounted on the oil tank mount, the oil tank mount being mounted inside the receiving pocket by the mounting block and spaced from a bottom wall of the receiving pocket.

6. A power generation device comprising the unit mounting mechanism according to any one of claims 1 to 5, further comprising a mounting box and a power generator unit, the power generator unit being mounted on the unit mounting mechanism, the unit mounting mechanism being mounted inside the mounting box.

7. The power generation device of claim 6, further comprising a mounting plate, wherein a mounting opening for mounting the unit mounting mechanism is provided in a side portion of the mounting box, the mounting plate is movably mounted in a side portion of the mounting box, and the mounting plate corresponds to the mounting opening.

8. The power generation device of claim 7, further comprising a first support block and a second support block, wherein the first support block and the second support block are mounted at the bottom of the mounting box, and the first support block and the second support block are respectively located at two sides of the mounting opening.

9. The power generation device of claim 6, further comprising a muffler, wherein an acoustic barrier is coated on an inner side wall of the mounting case, a tuyere is provided on the mounting case, and the muffler is mounted on the mounting case through the tuyere.

10. The power generation device according to claim 9, wherein the installation box body comprises an air inlet box body and an air exhaust box body, the air inlet opening comprises an air inlet and an air exhaust opening, the air inlet box body is connected with the air exhaust box body, the air inlet opening is formed in the top of the air inlet box body, and the air exhaust opening is formed in the top of the air exhaust box body;

the air inlet box body is also provided with a mounting opening, and the mounting opening is positioned between the air inlet and the air outlet;

the silencer comprises a first noise silencer and a second noise silencer, the first noise silencer is detachably arranged at the top of the air inlet box body through the air inlet, and the second noise silencer is detachably arranged on the air inlet box body through the mounting opening.