CN217951845U - Inverter mounting bracket and combined bracket - Google Patents

Abstract

The utility model discloses an inverter mounting bracket, which comprises a supporting component for mounting an inverter and a base component which is arranged at the bottom end of the supporting component and used for fixing the supporting component; wherein, can place 1 at least balancing weight on the base subassembly. In this application, can place 1 at least balancing weight on the base subassembly, because the setting of balancing weight for the whole focus of installing support reduces, and the base subassembly need not that rag bolt is fixed also can be stable puts in subaerially, in the use, if need change the mounted position of dc-to-ac converter installing support, only need with dc-to-ac converter installing support integral movement to assigned position can, it is comparatively convenient.

Description

Inverter mounting bracket and combined bracket

Technical Field

The utility model relates to an inverter technical field, in particular to dc-to-ac converter installing support.

Background

The inverter is a converter for converting direct current into alternating current, and has wide application in various industries; generally, the inverter needs to be fixedly installed in cooperation with a mounting bracket.

Patent document CN202022307334.7 discloses an inverter mounting bracket, wherein mention is made of: the bracing piece of dc-to-ac converter installing support is provided with two, and two bracing pieces set up in the bottom of mounting panel along the length direction interval of mounting panel, and two bracing pieces are the telescopic link, and the bottom of every bracing piece all is provided with the fixed plate, and the fixed plate passes through rag bolt to be fixed subaerial, through the flexible height of adjusting two telescopic links to adjust the mounting height and the installation angle of dc-to-ac converter.

In the prior art, the inverter mounting bracket needs to be fixed on the ground by installing the anchor bolts on the fixing plate, so that when the inverter mounting bracket needs to be moved, the anchor bolts need to be removed, and when the inverter mounting bracket is moved to a new position, the anchor bolts are reinstalled on the fixing plate, and when the inverter mounting bracket is moved to a new position, holes need to be newly punched in the mounting position to insert the anchor bolts, which is very inconvenient.

Therefore, it is urgently required to provide an inverter mounting bracket which is convenient for replacing the mounting position.

SUMMERY OF THE UTILITY MODEL

Among to prior art, the inconvenient technical problem who changes mounted position of dc-to-ac converter installing support, the utility model provides an inverter installing support.

The utility model discloses a following technical scheme realizes:

an inverter mounting bracket comprises a supporting component for mounting an inverter, and a base component arranged at the bottom end of the supporting component and used for fixing the supporting component; wherein, can place 1 at least balancing weight on the base subassembly.

Further, the base component comprises a left base body and a right base body, and the left base body and the right base body are respectively hinged with the bottom end of the supporting component; and the balancing weight is placed in a structure formed by enclosing the left seat body and the right seat body.

Further, the supporting component comprises a supporting part, a front upright post and a rear upright post;

the upper end of the front upright post is connected with the supporting part, and the lower end of the front upright post is hinged with the left seat body and the right seat body;

the upper end of the rear upright post is connected with the supporting part, and the lower end is hinged with the left seat body and the right seat body.

Furthermore, the height of the rear upright post can be adjusted, and the rear upright post can be locked at different heights;

the upper end of the front upright post is connected with the supporting part in a hinged mode, the upper end of the rear upright post is connected with the supporting part in a rotatable mode, and the connection is used for adapting to the lifting or descending of the end part of the supporting part when the rear upright post is at different heights.

Further, the rear upright post comprises an outer tube and an inner post; the lower end of the outer tube is hinged with the left seat body and the right seat body, the upper end of the inner column is rotatably connected with the supporting part, and the lower end of the inner column is inserted into the outer tube;

the outer tube is provided with a plurality of clamping positions along the height direction, the inner column is provided with a clamping part, and the outer tube further comprises a clamping piece, wherein the clamping part is communicated with one of the plurality of clamping positions and is clamped by the clamping piece.

Further, the supporting part sets up the bar hole, and the inner prop upper end sets up the screw hole, and the pole portion of screw pass the bar hole and with screw hole threaded connection, the pole portion of screw is downthehole mobile in the bar, and mobilizable scope is restricted within the profile range in bar hole.

Furthermore, a first fixing hole is formed in the wall body of the outer pipe, a plurality of second fixing holes are formed in the inner column along the height direction, and the first fixing hole is communicated with the plurality of second fixing holes Kong Zeyi and is fixed through screws;

the distance between two adjacent second fixing holes is equal to the distance between two adjacent jacks.

The front upright post and the left seat body, the front upright post and the right seat body, the outer tube and the left seat body and the outer tube and the right seat body are fixedly connected through at least 1 connecting rod respectively. Furthermore, the left seat body is provided with a first weight removing part which is formed by removing partial materials of the left seat body; and/or the right seat body is provided with a second weight removing part which is formed by removing partial materials of the right seat body.

Simultaneously, still provide a combined support, include at least 2 above-mentioned inverter mounting bracket.

Compared with the prior art, the utility model has the advantages of:

1. in the prior art, the inverter mounting bracket needs to be fixed on the ground by mounting anchor bolts on the fixing plate, when the inverter mounting bracket needs to be moved, the anchor bolts need to be removed, and when the inverter mounting bracket moves to a new position, the anchor bolts need to be remounted on the fixing plate, and when the inverter mounting bracket moves to a new position, holes need to be newly punched in the mounting position to insert the anchor bolts, which is very inconvenient;

in this application, can place 1 at least balancing weight on the base subassembly, because the setting of balancing weight for the whole focus of installing support reduces, and the base subassembly need not that rag bolt is fixed also can be stable puts in subaerially, in the use, if need change the mounted position of dc-to-ac converter installing support, only need with dc-to-ac converter installing support integral movement to assigned position can, it is comparatively convenient.

Drawings

FIG. 1 is a schematic view of the structure of embodiment 1;

FIG. 2 is a schematic view of another perspective structure of FIG. 1;

FIG. 3 is a partial schematic view of another alternate view of the structure of FIG. 1;

FIG. 4 is a schematic view of the structural installation of embodiment 1;

fig. 5 is a schematic structural installation diagram of embodiment 2.

Reference numbers in the figures: the support component (1), the base component (2), the storage tank (3), the balancing weight (4), the supporting part (6), the front column (7), the rear column (8), the outer tube (9), the inner column (10), the jack (13), the left seat body (16), the right seat body (17), the first weight removing part (19), the second weight removing part (20), the connecting rod (21), the bolt (22), the first fixing hole (23), the second fixing hole (24), the screw (25), the strip-shaped hole (26) and the screw (27).

Detailed Description

The following non-limiting detailed description of the present invention is provided in connection with the preferred embodiments and accompanying drawings. In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

Example 1

As shown in fig. 1, an inverter mounting bracket according to a preferred embodiment of the present invention includes a support assembly 1 for mounting an inverter, and a base assembly 2 disposed at a bottom end of the support assembly 1 and used for fixing the support assembly 1; wherein, can place 1 at least balancing weight 4 on the base subassembly 2.

The support assembly 1 generally includes a plate-shaped structure for placing and mounting the inverter, and besides, the plate-shaped structure may have a plurality of engaging members, which may be one of the prior art, such as a wall-mounted bracket, for engaging and mounting the inverter on the engaging members, and further, the plate-shaped structure may be provided with a plurality of bolt holes, through which the inverter may be fixed.

The base component 2 is arranged at the lower end of the support component 1, when the inverter mounting bracket is used, the base component 2 is directly contacted with the ground, and the support component 1 is arranged away from the ground through the base component 2; the base component 2 is provided with a structure for placing the balancing weight 4, and the structure can be a groove, a plane, a bulge or other common structures in the prior art.

The balancing weight 4 can be a cuboid, or a cube, or any geometric shape, the balancing weight 4 should be made of materials with high density, such as steel, iron and the like, the number of the balancing weight 4 can be adjusted and determined according to actual conditions, for example, when the inverter mounting bracket is arranged in a region with strong wind power, the number of the balancing weight 4 can be increased, and when the inverter mounting bracket is in a windless environment, the number of the balancing weight 4 can be reduced.

Referring to fig. 2 to 4, when the inverter mounting bracket is used, the support assembly 1 is disposed on the base assembly 2, the inverter is disposed on the support assembly 1, the counterweight 4 is disposed on the base assembly 2, and preferably, the counterweight 4 is disposed at the bottom end of the base assembly 2.

In the prior art, the inverter mounting bracket needs to be fixed on the ground by installing foundation bolts on the fixing plate, and the foundation bolts are screwed into the ground, so that the fixing plate is fixed on the ground, and the inverter mounting bracket is further fixed on the ground; when the inverter mounting bracket needs to be replaced by a new mounting position, the foundation bolt needs to be detached from the original mounting position, the inverter mounting bracket is moved to the new mounting position, the foundation bolt is remounted on the fixing plate and screwed into the ground again, and when the inverter mounting bracket is replaced by a new mounting position, namely when the inverter mounting bracket is moved to a new position, the ground where the mounting position is located needs to be perforated again to insert the foundation bolt, so that great inconvenience is brought.

In the application, at least 1 balancing weight 4 can be arranged on the base component 2, the overall gravity center of the mounting bracket is reduced due to the arrangement of the balancing weights 4, and the base component 2 can be stably placed on the ground without being fixed to the ground through foundation bolts; in the using process, if the mounting position of the inverter mounting bracket needs to be replaced, only the counterweight block 4 needs to be taken down, the inverter mounting bracket is integrally moved to a new mounting position, and the counterweight block 4 is placed on the base assembly 2 again; or, directly mention the whole dc-to-ac converter installing support that has balancing weight 4, move and put down after the new mounted position can, compare in prior art, the dc-to-ac converter installing support of this embodiment, when changing the mounted position, saved and punched hole again subaerial, reinserted rag bolt on the dc-to-ac converter installing support, in the drilling of rethread rag bolt screw in ground, wait a series of operation processes, the dc-to-ac converter installing support of this embodiment changes the mounted position more convenient.

Furthermore, how to save the space occupied by the inverter mounting bracket in the direction perpendicular to the heights of the front upright post 7 and the rear upright post 8 in the process of storage or transportation is a technical problem to be solved.

Referring to fig. 2 to 3, the base assembly 2 includes a left base 16 and a right base 17, and the left base 16 and the right base 17 are respectively hinged to the bottom end of the support assembly 1; specifically, the support assembly 1 comprises a support part 6, a front upright post 7 and a rear upright post 8; the upper end of the front upright post 7 is connected with the supporting part 6, and the lower end is hinged with the left seat body 16 and the right seat body 17; the upper end of the rear upright post 8 is connected with the supporting part 6, and the lower end is hinged with the left seat body 16 and the right seat body 17; and a balancing weight is placed in a structure formed by enclosing the left seat body 16 and the right seat body 17.

The support portion 6 is used for placing the inverter, and as mentioned in the foregoing, the support assembly 1 generally comprises a plate-shaped structure for arranging the inverter, i.e., the support portion 6, and the support portion 6 may be a C-section steel structure, an L-section steel structure, or the like; for example, when the support part 6 is a C-shaped steel structure, the support part 6 is buckled with the front upright post 7 and the rear upright post 8; alternatively, a plurality of engaging members, i.e. one of the aforementioned wall-hanging racks and other prior arts, may be disposed on the supporting portion 6, and the engaging members are used for engaging and fixing the inverter on the supporting portion 6, and in addition, a plurality of bolt holes may be disposed on the supporting portion 6, so that the inverter can be fixed on the supporting portion 6 by bolts.

The front upright post 7 and the rear upright post 8 are both of a cylinder structure, the cross section of the cylinder structure can be a rectangular, square or any polygonal structure, two ends of the left seat body 16 and two ends of the right seat body 17 are respectively hinged with the lower ends of the front upright post 7 and the rear upright post 8, and the left seat body 16 and the right seat body 17 can rotate relative to the front upright post 7 and the rear upright post 8.

When the combined type weight-balancing device is used, the left seat body 16 and the right seat body 17 respectively rotate relative to the front upright post 7 until the left seat body 16 and the right seat body 17 are respectively vertical to the height direction of the front upright post 7, at the moment, the left seat body 16 and the right seat body 17 are positioned on the same plane, and at least 1 weight-balancing block 4 can be placed on the left seat body 16 and the right seat body 17; when the inverter bracket needs to be stored, transported and stored, the left seat body 16 and the right seat body 17 rotate relative to the front upright post 7 and the rear upright post 8 respectively until the left seat body 16 and the right seat body 17 rotate and turn up, so that the space of the left seat body 16 and the right seat body 17 when being laid on the ground is reduced, and the space occupied by the inverter bracket is reduced.

In this embodiment, since the two ends of the left seat 16 and the right seat 17 are hinged to the lower ends of the front upright 7 and the rear upright 8, the left seat 16 and the right seat 17 can be in two states of use and storage by adjusting the angles of the left seat 16 and the right seat 17 relative to the height direction of the front upright 7; when the left seat body 16 and the right seat body 17 are in a use state, the left seat body 16 and the right seat body 17 are vertical to the height direction of the front upright post 7 and the rear upright post 8, when the left seat body 16 and the right seat body 17 are in a storage state, the left seat body 16 and the right seat body 17 rotate relative to the front upright post 7 and the rear upright post 8 until the left seat body 16 and the right seat body are turned up, at the moment, the left seat body 16 and the right seat body 17 form an acute angle or an obtuse angle relative to the front upright post 7 and the rear upright post 8, and the space of the left seat body 16 and the right seat body 17 when the ground is paved is reduced; therefore, the present embodiment solves the technical problem of saving the space occupied by the inverter mounting bracket in the direction perpendicular to the height of the front and rear pillars 7, 8 during storage or transportation.

The angle of the inverter mounting bracket supporting part 6 is generally required to be adjustable so as to adapt to the requirements of different use working conditions, and the problem is solved by the following technical scheme.

With further reference to fig. 3, the rear uprights 8 are height-adjustable and lockable at different heights; the upper end of the front upright post 7 is connected with the supporting part 6 in a hinged mode, and the upper end of the rear upright post 8 is connected with the supporting part 6 in a rotatable mode; further, the rear pillar 8 includes an outer tube 9 and an inner pillar 10; the lower end of the outer tube 9 is hinged with a left seat body 16 and a right seat body 17, the upper end of the inner column 10 is rotatably connected with the support part 6, and the lower end of the inner column 10 is inserted into the outer tube 9; furthermore, the outer tube 9 is provided with a plurality of clamping positions along the height direction thereof, the inner column 10 is provided with a clamping part, and the outer tube further comprises a clamping piece, wherein the clamping part is communicated with one of the plurality of clamping positions and is clamped by the clamping piece; specifically, the engaging position is the insertion hole 13, the engaging portion is the engaging hole, and the engaging member is the plug 22.

Of course, in other alternative embodiments, a technical solution that the height of the front pillar 7 is adjustable may also be adopted, and the specific adjustable structure and action principle are similar to those in the present embodiment, and are not described herein again.

In this embodiment, the insertion holes 13 may be circular holes, square holes or any polygonal holes, preferably circular holes, and the insertion holes 13 are arranged in sequence along the height direction of the outer tube 9; the fastening holes may also be circular holes, square holes or any polygonal hole, preferably circular holes, and further preferably, the shape of the insertion hole 13 is the same as that of the fastening holes; the inner column 10 is a cylindrical structure, the cross section of which can be round, square and the like, the outer tube 9 is a hollow tubular structure, the outer profile of the cross section of the outer tube 9 can be round and square, preferably, the inner column 10 matches with the cross section of the outer tube 9, for example, the outer profile of the cross section of the outer tube 9 is round, and the cross section of the inner column 10 is round.

One end of the inner column 10 is inserted into the outer tube 9, the inner column 10 can stretch and retract relative to the outer tube 9, in the process that the inner column 10 stretches and retracts relative to the outer tube 9, a clamping hole is communicated with one of the jacks 13, when the clamping hole is communicated with one jack 13, the plug pin 22 penetrates through the jack 13 and extends into the clamping hole to be clamped with the clamping hole, and the inner column 10 and the outer tube 9 are preliminarily fixed; this embodiment is through the card hole with a plurality of jacks 13 alternative communicate with each other to through the mode that bolt 22 is fixed with inner prop 10 and outer tube 9 block, realize 8 height-adjustable's of back stand, adjust the fixed purpose after, it is unchangeable at front column 7 height, under the 8 height-adjustable's of back stand circumstances, change the angle between supporting part 6 for front column 7, back stand 8, with the requirement of adaptation different use condition, how to adjust the technical problem of inverter installing support supporting part 6 angle promptly this embodiment has been solved.

The inner column 10 and the outer tube 9 are primarily fixed only by the three of the clamping position, the clamping portion and the clamping piece, when the inverter mounting bracket bears an inverter with a large weight, the clamping position and the clamping portion are easily crushed, and the clamping piece is easily bent, so that the inverter mounting bracket fails, and therefore, after the height of the rear upright post 8 is adjusted, the position between the inner column 10 and the outer tube 9 needs to be further fixed, and the following technical scheme is specifically referred to.

Referring to fig. 3, a first fixing hole 23 is formed in a wall body of the outer tube 9, a plurality of second fixing holes 24 are formed in the inner column 10 along the height direction, and the first fixing hole 23 is communicated with one of the plurality of second fixing holes 24 and is fastened and fixed by a screw 25; the pitch of two adjacent second fixing holes 24 is equal to the pitch of two adjacent insertion holes 13.

The first fixing hole 23 is a through hole, the first fixing hole 23 and the insertion hole 13 may be on the same plane or different planes, and preferably, the first fixing hole 23 and the insertion hole 13 are on different planes; the second fixing holes 24 may be through holes or blind holes, the plurality of second fixing holes 24 are sequentially arranged along the height direction of the inner column 10, and the distance between two adjacent second fixing holes 24 is equal to the distance between two adjacent insertion holes 13.

When in use, the first fixing hole 23 is selectively communicated with one of the plurality of second fixing holes 24 in the process of extending and retracting the inner column 10 relative to the outer tube 9; when the engaging hole is communicated with a certain inserting hole 13, the first fixing hole 23 is communicated with a certain second fixing hole 24, and the screw 25 is inserted into the second fixing hole 24 through the first fixing hole 23 and is engaged with the second fixing hole 24.

In this embodiment, by the technical scheme that the screw 25 penetrates through the first fixing hole 23 to be inserted into a certain second fixing hole 24 and is clamped with the second fixing hole 24, in the process of telescopic adjustment of the inner column 10 relative to the outer tube 9, the clamping hole can be clamped and fixed with a certain jack 13 through the bolt 22, and the first fixing hole 23 can be clamped and fixed with a certain second fixing hole 24 through the screw 25; the screws 25 are used for auxiliary support, so that the situation that the acting force applied on the bolts 22 is too large to break and fail and the jacks 13 and the clamping holes are crushed under the condition that the weight of the inverter is large is avoided, and the purpose of further fixing the inverter mounting bracket is achieved.

In the foregoing, the upper end of the inner column 10 is rotatably connected to the support portion 6, and the specific structure thereof is as follows:

further referring to fig. 1 and 3, the support portion 6 is provided with a strip-shaped hole 26, the upper end of the inner column 10 is provided with a threaded hole, the rod portion of the screw 27 penetrates through the strip-shaped hole 26 and is in threaded connection with the threaded hole, the rod portion of the screw 27 is movable in the strip-shaped hole 26, and the movable range is limited within the outline range of the strip-shaped hole 26.

The strip-shaped holes 26 are strip-shaped through holes, which can be opened on the side walls or the top surface of the support portion 6, in this embodiment, the strip-shaped holes 26 are opened on the side walls of the support portion 6, that is, on the side walls of the C-shaped steel or the L-shaped steel in the foregoing process, a certain angle is formed between the extending direction of the strip-shaped holes 26 and the extending direction of the plate surface of the support portion 6, and the angle is set in practical situations; the shank of the screw 27 is always constrained inside the outline of the strip-shaped hole 26, and the head of the screw 27 is always constrained outside the strip-shaped hole 26 by the side wall of the support portion 6.

In use, during the extension and retraction of the inner post 10 with respect to the outer tube 9, the shank of the screw 27 slides within the profile of the strip-shaped hole 26, the head of the screw 27 sliding against the side wall of the support 6.

Furthermore, how to reduce the weight of the inverter mounting bracket is realized by the following technical scheme.

Referring to fig. 2, the left seat 16 is provided with a first removing-weight portion 19, and the first removing-weight portion 19 is formed by removing a part of the material of the left seat 16; and/or, the right seat body 17 is provided with a second weight-removing part 20, and the second weight-removing part 20 is formed by removing part of the material of the right seat body 17.

The first weight-removing part 19 can be a groove, a through hole, or other structures disposed on the left seat 16, the groove can be a square groove, a circular groove, or other common structures, the through hole can be a square through hole or a circular through hole, and the first weight-removing part 19 is formed by removing materials on the left seat 16; the second weight removal unit 20 is formed in the same manner, structure, and principle as the first weight removal unit 19.

Due to the arrangement of the first weight removing part 19 and the second weight removing part 20, the weight of the left seat body 16 and the right seat body 17 is reduced by removing partial materials, and the transportation and the carrying are more convenient, namely, the technical problem of how to reduce the weight of the inverter mounting bracket is solved in the embodiment.

Further, due to the arrangement of the first weight removing part 19 and the second weight removing part 20, the enclosed structure of the left seat body 16 and the right seat body 17 is a hollow plane.

Further, when the left seat 16 and the right seat 17 are in the use state, in order to avoid the left seat 16 and the right seat 17 from being converted from the use state to the storage state, the present embodiment further includes the following technical solutions.

Referring to fig. 2 to 3, the front pillar 7 and the left seat 16, the front pillar 7 and the right seat 17, the outer tube 9 and the left seat 16, and the outer tube 9 and the right seat 17 are respectively and fixedly connected by at least 1 connecting rod 21.

The connecting rod 21 is a rod, preferably a linear rod, and can be a hollow structure or a solid structure inside, and can be fixed between the front pillar 7 and the left seat 16, between the front pillar 7 and the right seat 17, between the outer tube 9 and the left seat 16, and between the outer tube 9 and the right seat 17 by fasteners, such as screws, bolts, and the like.

Due to the arrangement of the connecting rod 21, the front upright post 7 and the left seat body 16, the front upright post 7 and the right seat body 17, the outer tube 9 and the left seat body 16, and the outer tube 9 and the right seat body 17 are relatively fixed, so that the rotation of the left seat body 16 and the right seat body 17 relative to the front upright post 7 and the outer tube 9 is avoided, and the conversion from the use state to the storage state of the left seat body 16 and the right seat body 17 is further avoided; of course, the connecting rod 21 also has the effect of increasing the overall strength; further, in the process of switching the left seat 16 and the right seat 17 from the use state to the storage state, all the links 21 need to be removed.

The using and operating process of the inverter mounting bracket is as follows:

when the device is used, the left seat body 16 and the right seat body 17 rotate to be vertical to the height direction of the front upright post 7 and the rear upright post 8, at the moment, the left seat body 16 and the right seat body 17 are both attached to the ground, and then the space between the front upright post 7 and the left seat body 16, the space between the front upright post 7 and the right seat body 17, the space between the outer tube 9 and the left seat body 16, and the space between the outer tube 9 and the right seat body 17 are respectively and fixedly connected through at least 1 connecting rod 21; then, at least 1 weight 4 is placed on the structure enclosed by the left base 16 and the right base 17, and the inverter is placed and mounted on the support portion 6.

When the inverter is stored, the inverter is taken down from the supporting part 6, all the counter weights 4 are taken down from the structure enclosed by the left seat body 16 and the right seat body 17, and the connecting rod 21 is detached, so that the left seat body 16 and the right seat body 17 are turned upwards and turned up relative to the front upright post 7 and the rear upright post 8, and the inverter is stored.

Example 2

The present application also proposes a modular bracket comprising at least 2 of the inverter mounting brackets described in embodiment 1.

Referring to fig. 5, the plurality of inverter mounting brackets may be disposed in parallel or in opposite directions, or may be disposed in other combination arrangement forms, and the disposition form is determined according to actual use conditions, which is not limited herein.

The distance between every two adjacent inverter mounting brackets can be set according to actual use conditions, so that the inverter mounting bracket is compatible with specific inverters with different width sizes for use, and the inverters with different sizes can be mounted.

The plurality of support portions 6 are provided with 1 wall hanger and support the same inverter together.

The above examples only represent some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (8)

1. The inverter mounting bracket is characterized by comprising a support component (1) for mounting an inverter, and a base component (2) arranged at the bottom end of the support component (1) and used for fixing the support component (1); wherein, at least 1 balancing weight (4) can be placed on the base component (2);

the base component (2) comprises a left base body (16) and a right base body (17), and the left base body (16) and the right base body (17) are respectively hinged with the bottom end of the supporting component (1); a balancing weight is placed in a structure formed by enclosing the left seat body (16) and the right seat body (17);

the supporting component (1) comprises a supporting part (6), a front upright post (7) and a rear upright post (8); the upper end of the front upright post (7) is connected with the supporting part (6), and the lower end is hinged with the left seat body (16) and the right seat body (17); the upper end of the rear upright post (8) is connected with the supporting part (6), and the lower end is hinged with the left seat body (16) and the right seat body (17).

2. Inverter mounting bracket according to claim 1, characterised in that the rear pillar (8) is height adjustable and lockable at different heights;

the upper end of the front upright post (7) is connected with the supporting part (6) in a hinged mode, and the upper end of the rear upright post (8) is connected with the supporting part (6) in a rotatable mode.

3. The inverter mounting bracket according to claim 2, wherein the rear pillar (8) includes an outer tube (9) and an inner pillar (10); the lower end of the outer pipe (9) is hinged with the left seat body (16) and the right seat body (17), the upper end of the inner column (10) is rotatably connected with the supporting part (6), and the lower end of the inner column (10) is inserted into the outer pipe (9);

the outer tube (9) is provided with a plurality of clamping positions along the height direction, the inner column (10) is provided with a clamping part, and the outer tube further comprises a clamping piece, wherein the clamping part is communicated with one of the plurality of clamping positions and is clamped by the clamping piece.

4. The inverter mounting bracket according to claim 3, wherein the support portion (6) is provided with a strip-shaped hole (26), the upper end of the inner column (10) is provided with a threaded hole, the shaft portion of the screw (27) passes through the strip-shaped hole (26) and is in threaded connection with the threaded hole, the shaft portion of the screw (27) is movable in the strip-shaped hole (26), and the movable range is limited within the outline range of the strip-shaped hole (26).

5. The inverter mounting bracket according to claim 3 or 4, wherein a first fixing hole (23) is provided on a wall body of the outer tube (9), a plurality of second fixing holes (24) are provided in the inner column (10) in the height direction, and the first fixing hole (23) is communicated with one of the plurality of second fixing holes (24) and fixed by a screw (25);

the distance between two adjacent second fixing holes (24) is equal to the distance between two adjacent insertion holes (13).

6. The inverter mounting bracket according to claim 3 or 4, wherein the front pillar (7) and the left seat (16), the front pillar (7) and the right seat (17), the outer tube (9) and the left seat (16), and the outer tube (9) and the right seat (17) are fixedly connected by at least 1 connecting rod (21), respectively.

7. The inverter mounting bracket according to any one of claims 1 to 4, wherein the left seat body (16) is provided with a first weight removing portion (19), the first weight removing portion (19) being formed by removing a part of the material of the left seat body (16); and/or the right seat body (17) is provided with a second weight removing part (20), and the second weight removing part (20) is formed by removing partial materials of the right seat body (17).

8. A modular rack comprising at least 2 inverter mounting racks according to any of claims 1-7.

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