CN219643785U - Inverter mounting structure - Google Patents

Abstract

The utility model discloses an inverter installation structure, which relates to the field of inverter installation and comprises positioning side plate pieces arranged on two sides of an inverter, wherein the distance between a pair of positioning side plate pieces can be adjusted, and the bottoms of the positioning side plate pieces are connected through movable plate pieces. The upper end and the lower end of the positioning side plate are all detachably connected with mounting pieces, an adjustable limiting structure is arranged on each mounting piece, and a through hole matched with the limiting structure is formed in the surface of the positioning side plate. The mounting structure adopted by the utility model has the advantage of portable operation, and the space can be quickly adjusted to be suitable for inverters with different specifications. If the inverter needs to be taken down, the work such as disassembly, maintenance, replacement and the like of the inverter can be rapidly performed while the stability of the whole installation structure is not affected. Meanwhile, the distance between the back surface and the mounting surface of the inverter is increased, so that the back surface of the inverter is in contact with air flow in the air, and comprehensive heat dissipation work is performed.

Description

Inverter mounting structure

Technical Field

The utility model relates to the field of inverter installation, in particular to an inverter installation structure.

Background

The inverter is a converter for converting direct current energy into alternating current with fixed frequency and fixed voltage or frequency and voltage. The inverter comprises an inverter bridge, control logic and a filter circuit. The device is widely applicable to air conditioners, home theatres, electric grinding wheels, electric tools, sewing machines, DVDs, VCDs, computers, televisions, washing machines, smoke exhaust hoods, refrigerators, video recorders, massagers, fans, illumination and the like.

At present, solar energy is used as a clean energy source, and the construction of a photovoltaic power station taking the solar energy as the energy source has become the best choice of the poverty-relieving engineering in a poverty-relieving mountain area. Photovoltaic power stations in poor mountainous areas are usually built in a severe environment, and inverters of the photovoltaic power stations have high stability in severe environments such as wind blowing, sun drying and rain.

The existing inverter needing to be installed outdoors generally adopts a bracket coated on the outer side of the inverter to be butted with a mounting surface so as to finish the outdoor installation of the inverter, the mounting structure is a fixed and unadjustable bracket structure, in the process of installing and dismantling the inverter, the specification of the inverter is different, the inverter cannot be adjusted according to the specification of the inverter, the mounting structure is mostly clung to a wall surface, the distance between the inverter clamped on the inner side of the inverter and the wall surface is relatively short, and the heat at the back of the inverter is not easy to dissipate.

Disclosure of Invention

In view of the above, the present utility model provides an inverter mounting structure.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an inverter mounting structure, is including installing in the location side plate piece of dc-to-ac converter both sides, a pair of location side plate piece adjustable interval, and a pair of the bottom of location side plate piece is connected through movable plate.

The upper end and the lower end of the positioning side plate are all detachably connected with mounting pieces, an adjustable limiting structure is arranged on the mounting pieces, through holes matched with the limiting structure are formed in the surfaces of the positioning side plate, and when the mounting pieces are in alignment connection with the positioning side plate, the limiting structure extends to the inner sides of the through holes.

Further, the positioning side plate piece comprises a side butt joint part which is vertically arranged, an arc-shaped diffusion part I is formed by extending the rear of the side butt joint part, and the rear end of the arc-shaped diffusion part I is bent to form a butt joint part which is in contact with the mounting surface.

Further, the mounting piece comprises an alignment part which can be connected with the mounting surface, an arc-shaped diffusion part II is formed by extending the front of the alignment part, a positioning pin is fixed at one end of the arc-shaped diffusion part II, a through hole matched with the positioning pin is formed in the surface of the side butt joint part, and when the positioning pin and the through hole are slidably mounted, the arc-shaped diffusion part I and the arc-shaped diffusion part II are symmetrically arranged by taking the side butt joint part as a central axis.

Further, the limit structure comprises a sleeve embedded in the first surface of the arc-shaped diffusion part and the second surface of the arc-shaped diffusion part, the inner side of the sleeve is slidably connected with a locking rod, one end of the locking rod extends to the outer side of the sleeve on the second surface of the arc-shaped diffusion part, and one end of the locking rod is fixed with a handle.

Further, the locking rod and the outer side wall of the sleeve pipe positioned on the two surfaces of the arc-shaped diffusion part are respectively fixed with a pressing block, the opposite sides of the two pressing blocks are connected through a reset spring, the locking rod is pulled, the distance between the two groups of pressing blocks is enlarged, and the reset spring is stretched until the end part of the locking rod is separated from the sleeve pipe positioned on the surface of the arc-shaped diffusion part.

Further, the movable plate comprises a first movable bottom plate and a second movable bottom plate which are respectively fixed at the bottoms of the pair of side butt joint parts, a pair of follow-up rods are fixed at the end parts of the first movable bottom plate, and a cavity capable of accommodating the sliding of the follow-up rods is formed in the second movable bottom plate.

Furthermore, the front ends of the side butt joint parts are fixedly connected with stop plates close to the lower parts.

In summary, the utility model has the technical effects and advantages that:

the mounting structure adopted by the utility model has the advantage of portable operation, and the space can be quickly adjusted to be suitable for inverters with different specifications. If the inverter needs to be taken down, the work such as disassembly, maintenance, replacement and the like of the inverter can be rapidly performed while the stability of the whole installation structure is not affected. Meanwhile, the distance between the back surface and the mounting surface of the inverter is increased, so that the back surface of the inverter is in contact with air flow in the air, and comprehensive heat dissipation work is performed.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic view of a second view structure according to the present utility model.

Fig. 3 is a schematic view of a third view structure according to the present utility model.

Fig. 4 is a schematic view of the transverse cross-sectional structure of the present utility model.

Fig. 5 is an enlarged schematic view of the portion a in fig. 4 according to the present utility model.

In the figure: 1. positioning the side plate member; 2. a mounting member; 3. a sleeve; 4. a locking lever; 5. briquetting; 6. a return spring; 7. a movable bottom plate I; 8. a movable bottom plate II; 9. a follower lever; 10. a stop plate; 11. a side butt joint part; 12. an arc-shaped diffusion part I; 13. an abutting portion; 21. an alignment part; 22. arc-shaped diffusion part II; 23. and (5) positioning pins.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples: referring to fig. 1 and 2, an inverter mounting structure includes positioning side plates 1 mounted on two sides of an inverter, a pair of positioning side plates 1 with adjustable spacing, and bottoms of the positioning side plates 1 connected by a movable plate. A pair of positioning side plates 1, the spacing of which can be adjusted to be suitable for inverters of different specifications,

the upper and lower both ends of location side plate 1 all are dismantled and are connected with installed part 2, are provided with adjustable limit structure on the installed part 2, and the through-hole with limit structure looks adaptation has been seted up on the surface of location side plate 1, and when installed part 2 was connected with location side plate 1 counterpoint, limit structure extended to the through-hole inboard.

In the installation process of the inverter, the installation piece 2 of the positioning side plate 1 on one side needs to be assembled, and then the alignment part 21 on the installation piece 2 is installed on the wall surface, so that the stability of the positioning side plate 1 is kept. Subsequently, the inverter can be placed inside the movable plate and the positioning side plate 1, and the pitch of the positioning side plate 1 on the other side can be adjusted according to the specification of the inverter to be suitable for inverters of different sizes.

When the positioning side plate 1 on the other side is slidingly adjusted to a designated position, the mounting piece 2 adapted to the side can be assembled on the positioning side plate 1, and then the mounting piece 2 is connected with the mounting surface in an aligned manner, so that the whole mounting structure, the inverter and the wall surface are mounted. The mounting structure has the advantage of portable operation, can rapidly adjust the interval to the adaptation is in the dc-to-ac converter of different specifications, and, at the in-process of dismantling the dc-to-ac converter, only need dismantle mounting 2 of one side, can slide positioning side plate 1, keep away from the dc-to-ac converter, can carry out the work such as dismantlement maintenance, the change of dc-to-ac converter fast when not influencing the stability of whole mounting structure.

Subsequently, the inverter may be placed inside the movable plate and the positioning side plate 1 that has been mounted, and the distance between the other positioning side plate 1 and the positioning side plate 1 that has been mounted is adjusted.

As shown in fig. 2 and 3, the positioning side plate 1 includes a side abutting portion 11 vertically disposed, and an arc-shaped diffusion portion 12 is formed by extending behind the side abutting portion 11, and a rear end of the arc-shaped diffusion portion 12 is bent to form an abutting portion 13 contacting with the mounting surface. When this mounting structure installs in the wall, butt portion 13 offsets with the wall, after the adaptation dc-to-ac converter is adjusted to location side plate 1, can install mounting 2 on location side plate 1, and this in-process need not to carry out the installation operation to location side plate 1 and installation face, along with mounting 2 installs on the wall, butt portion 13 on the location side plate 1 laminates with the wall, can keep the stability of location side plate 1, has portable installation's advantage.

As shown in fig. 2 and 3, the mounting member 2 includes an alignment portion 21 that is connectable to the mounting surface, and a threaded hole is provided in a surface of the alignment portion 21 so that a screw is inserted into the threaded hole to be connected to the mounting surface. The front of the alignment part 21 extends to form an arc-shaped diffusion part II 22. When the first positioning side plate 1 is installed, the positioning side plate 1 and the installation piece 2 are assembled and installed, and the alignment part 21 on the installation piece 2 is installed on the wall surface to keep the stability of the positioning side plate 1.

Subsequently, the inverter may be placed inside the movable plate and the positioning side plate 1 that has been mounted, and the distance between the other positioning side plate 1 and the positioning side plate 1 that has been mounted is adjusted. One end of the arc-shaped diffusion part II 22 is fixed with a locating pin 23, and the surface of the side butt joint part 11 is provided with a through hole matched with the locating pin 23.

It should be noted that, the through hole does not run through the upper and lower ends of the side butt joint portion 11, and when the positioning pin 23 and the through hole are slidably mounted, the mounting member 2 can effectively prevent the side butt joint portion 11 from sliding up and down and shifting, and has a limiting effect on the positioning side plate 1, so that the phenomenon that the positioning side plate 1 can be slidably taken down after the limiting structure is manually disassembled is effectively avoided. If the positioning side plate member 1 is to be removed, the mounting member 2 must be removed from the mounting surface.

The arc-shaped diffusion part I12 and the arc-shaped diffusion part II 22 are symmetrically arranged by taking the side butt joint part 11 as a central axis, so that the distance between the back surface and the mounting surface of the inverter can be increased, and the back surface of the inverter is beneficial to contacting air flow in the air, so that comprehensive heat dissipation work is carried out.

As shown in fig. 4 and 5, the limiting structure comprises a sleeve 3 embedded on the surfaces of the first arc-shaped diffusion part 12 and the second arc-shaped diffusion part 22, a locking rod 4 is slidably connected on the inner side of the sleeve 3, one end of the locking rod 4 extends to the outer side of the sleeve 3 on the surface of the second arc-shaped diffusion part 22, and a handle is fixed at one end of the locking rod 4. The locking rod 4 is transversely inserted into the two sleeves 3, so that the connection strength between the mounting piece 2 and the positioning side plate 1 can be maintained, the transverse stress structure is increased, the situation that the pressure formed by the installation of the inverter on the inner side of the positioning side plate 1 is concentrated on the positioning pin 23 is avoided, and the structural stability of the positioning side plate 1 and the mounting piece 2 is improved.

As shown in fig. 4 and 5, the locking rod 4 and the outer side wall of the sleeve 3 positioned on the surface of the second arc-shaped diffusion part 22 are both fixed with pressing blocks 5, opposite sides of the two pressing blocks 5 are connected through a return spring 6, when the locking structure is disassembled, the locking rod 4 can be pulled, the distance between the two groups of pressing blocks 5 is enlarged, and the return spring 6 is stretched until the end part of the locking rod 4 is separated from the sleeve 3 positioned on the surface of the first arc-shaped diffusion part 12. The installation piece 2 can be smoothly dismounted upwards or downwards, and the complete installation piece 2 and the positioning side plate piece 1 are dismounted.

As shown in fig. 2 and 3, when the first positioning side plate member 1 is installed, the inverter may be placed inside the movable plate member and the installed positioning side plate member 1, and then, the distance between the other positioning side plate member 1 and the installed positioning side plate member 1 may be adjusted. The movable plate comprises a first movable bottom plate 7 and a second movable bottom plate 8 which are respectively fixed at the bottoms of a pair of side butt joint parts 11, a pair of follow-up rods 9 are fixed at the end parts of the first movable bottom plate 7, and a cavity capable of accommodating the sliding of the follow-up rods 9 is formed in the second movable bottom plate 8. In the process of adjusting the distance, the first movable bottom plate 7 moves synchronously along with the positioning side plate pieces 1, and the follow-up rod 9 slides in the cavity formed by the second movable bottom plate 8 so as to be suitable for the two positioning side plate pieces 1 with different distances, so that the inverter is loaded, and the inverter is effectively prevented from falling.

As shown in fig. 2, the front ends of the side butt joint parts 11 are fixedly connected with stop plates 10 near the lower parts, and the purpose of the stop plates 10 is to prevent the inverter from deviating and falling when being mounted on the inner side of a frame structure formed by the positioning side plate parts 1 and the movable plate parts, so that the stop effect is achieved, and the stability of the inverter in use is ensured.

Finally, it should be noted that: the foregoing description of the preferred embodiments of the present utility model is not intended to be limiting, but rather, although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (7)

1. An inverter mounting structure, characterized in that: the inverter comprises positioning side plate pieces (1) arranged on two sides of an inverter, wherein the distance between a pair of positioning side plate pieces (1) can be adjusted, and the bottoms of the positioning side plate pieces (1) are connected through movable plate pieces;

the utility model discloses a locating side plate piece, including locating side plate piece (1), mounting (2) are all connected with to the upper and lower both ends dismantlement, be provided with adjustable limit structure on mounting (2), the through-hole with limit structure looks adaptation has been seted up on the surface of locating side plate piece (1), and when mounting (2) are connected with locating side plate piece (1) counterpoint, limit structure extends to the through-hole inboard.

2. The inverter mounting structure according to claim 1, wherein: the positioning side plate (1) comprises a side butt joint part (11) which is vertically arranged, an arc-shaped diffusion part I (12) is formed by extending the rear of the side butt joint part (11), and the rear end of the arc-shaped diffusion part I (12) is bent to form a butt joint part (13) which is in contact with a mounting surface.

3. The inverter mounting structure according to claim 2, wherein: the mounting piece (2) comprises a counterpoint portion (21) which can be connected with a mounting surface, an arc-shaped diffusion portion II (22) is formed by extending the front of the counterpoint portion (21), a positioning pin (23) is fixed at one end of the arc-shaped diffusion portion II (22), a through hole matched with the positioning pin (23) is formed in the surface of the side butt joint portion (11), and when the positioning pin (23) is slidably mounted with the through hole, the arc-shaped diffusion portion I (12) and the arc-shaped diffusion portion II (22) are symmetrically arranged by taking the side butt joint portion (11) as a central axis.

4. The inverter mounting structure according to claim 3, wherein: the limiting structure comprises a sleeve (3) embedded on the surfaces of a first arc-shaped diffusion part (12) and a second arc-shaped diffusion part (22), a locking rod (4) is connected to the inner side of the sleeve (3) in a sliding mode, one end of the locking rod (4) extends to the outer side of the sleeve (3) on the surface of the second arc-shaped diffusion part (22), and a handle is fixed to one end of the locking rod (4).

5. The inverter mounting structure according to claim 4, wherein: the locking rod (4) and the pressing blocks (5) are fixed on the outer side wall of the sleeve (3) positioned on the surface of the arc-shaped diffusion part II (22), the opposite sides of the pressing blocks (5) are connected through the reset springs (6), the locking rod (4) is pulled, the distance between the two groups of pressing blocks (5) is enlarged, the reset springs (6) are stretched until the end part of the locking rod (4) is separated from the sleeve (3) positioned on the surface of the arc-shaped diffusion part I (12).

6. The inverter mounting structure according to claim 1, wherein: the movable plate comprises a first movable bottom plate (7) and a second movable bottom plate (8) which are respectively fixed at the bottoms of a pair of side butt joint parts (11), a pair of follow-up rods (9) are fixed at the end parts of the first movable bottom plate (7), and a cavity capable of accommodating the sliding of the follow-up rods (9) is formed in the second movable bottom plate (8).

7. The inverter mounting structure according to claim 2, wherein: the front ends of the side butt joint parts (11) are fixedly connected with stop plates (10) near the lower parts.