CN109243821B - Adjustable mounting foot structure for capacitor - Google Patents

Abstract

The invention discloses an adjustable mounting foot structure for a capacitor, which comprises a mounting bottom plate and at least two mounting feet, wherein the mounting bottom plate is suitable for being clamped in a containing groove at the bottom of the capacitor, and a plurality of first fixing structures are arranged along the length direction of the bottom surface of the capacitor; the mounting feet comprise a connecting structure and a second fixing structure which are arranged on the mounting foot body, and a mounting structure which is used for mounting the mounting feet and fixing the mounting feet on an external structure, the two mounting feet are connected with the convex ribs in a hooking way through the connecting structure at the bottom of the capacitor and slide along the extending direction of the connecting convex ribs, and the positions of the two mounting feet and the mounting bottom plate are fixed by means of the cooperation of the first fixing structure and the second fixing structure, so that the purpose of adjustable mounting distance between the two mounting feet is realized, the compatibility of mounting size is enhanced, the mounting size requirements of different capacitors are met, the selectivity is high, the opportunity of replacing and selecting the capacitors of different factories is provided for users, and the use requirements of users are met.

Description

Adjustable mounting foot structure for capacitor

Technical Field

The invention relates to the technical field of capacitors, in particular to an adjustable mounting foot structure for a capacitor.

Background

A capacitor is an electronic component capable of storing electric charges and used in a large amount in power electronic equipment, and is widely used in the fields of blocking, coupling, yielding, filtering, tuning, energy conversion, control and the like in a circuit. Along with the increase of the power load, in order to reduce the loss of power transmission, improve the capacity of power transmission and compensate reactive power, a large number of capacitors are required to be installed, and the capacitors are easy to consume and need to be replaced in the use process, so that the installation requirements on a plurality of capacitors are convenient, stable and reliable.

For this reason, chinese patent document CN201796727U discloses an electrical appliance mounting foot with buckle, including the foot rest body, be equipped with the installation fixed orifices on the foot rest body and be equipped with capacitor bottom side half surrounding complex vertical backplate, vertical backplate lower extreme is equipped with the bearing bottom plate, is equipped with the recess that slides and inlay with capacitor bottom turn-ups between vertical backplate and the bearing bottom plate, is equipped with the backup pad on the hollow part in the middle of the bearing bottom plate, the tip of backup pad is equipped with the buckle with capacitor bottom plate turn-ups card. The two mounting feet are fastened and fixed on the two ends of the semicircle at the bottom of the capacitor in a surrounding mode, and then the mounting bolts penetrate through the mounting fixing holes to be fixed on the fixing frame, so that the mounting and fixing of the capacitor are realized.

For another example, chinese patent document CN106328371a discloses a fixing structure for capacitor installation, which includes a first mounting leg and a second mounting leg, the first mounting leg is provided with a first arc baffle and a first mounting hole, and an end of the first arc baffle is provided with a mounting leg connecting end; the second installation foot is provided with second arc baffle and second mounting hole, and second arc baffle tip is provided with the guide way, is provided with the rope of rolling up that passes the guide way and get back to the installation foot link on the installation foot link to guarantee the installation fixed reliability of first installation foot and second installation foot.

It can be seen from the structure of the above document that the following technical problems still exist in the existing capacitor mounting mode: the capacitor is characterized in that the capacitor is fixedly arranged at two ends of the bottom of the capacitor to form a semi-enclosed structure, the mounting feet and the capacitor are arranged on a user mounting rail, the size of the existing mounting feet is fixed, after the capacitors of other types or factories are selected and replaced, the mounting size of the mounting feet is often not matched with the mounting size of the mounting rail, the mounting width is limited, the mounting size is insufficient, other capacitors of different types cannot be arranged on the same mounting rail, the user can only replace the same product after the capacitors are damaged, the products with better performance cannot be selected, the selection opportunity is lost, the selectivity is single, the products cannot be updated, and the use requirements of the user cannot be well met.

Disclosure of Invention

Therefore, the invention solves the technical problems that the mounting feet in the prior art are semi-surrounding type and fixedly mounted at two ends of the bottom of the capacitor, and the mounting sizes are fixed, so that the mounting sizes of capacitors of other types or manufacturers cannot be compatible, the problem that users can only select to replace the same product as before and the selectivity is single and the use requirement of the users cannot be met is solved, and the invention provides the adjustable mounting foot structure for the capacitor, which is capable of movably adjusting the mounting positions, meets the requirements of the mounting sizes of capacitors of different types, has high selectivity and meets the use requirement of the users.

In order to solve the technical problem, the invention provides an adjustable mounting leg structure for a capacitor, the capacitor comprises a containing groove formed in the bottom surface and a connecting convex rib arranged around the periphery at the bottom, and the mounting leg structure comprises:

the mounting bottom plate is suitable for being arranged in the accommodating groove in a clamping manner, and a plurality of first fixing structures are arranged along the length direction of the bottom surface of the capacitor;

the installation foot is provided with two at least, including the installation foot body, the installation foot body is provided with colludes even connect protruding muscle and follow connect protruding muscle extending direction gliding connection structure, with first fixed knot constructs the cooperation with fixed the installation foot with mounting plate's second fixed knot constructs, and be used for with the installation foot installation is fixed in the mounting structure of outer structure.

As a preferable scheme, the first fixing structure is a clamping hole formed in the mounting base plate, a plurality of clamping holes are uniformly formed in the mounting base plate along the length direction of the bottom surface, and the second fixing structure is an elastic buckle which is arranged on the mounting foot body and is in buckling fit with the clamping holes.

As a preferable scheme, the mounting leg body is oppositely provided with two connecting structures, and the two connecting structures and the capacitor are correspondingly arranged relative to the connecting convex ribs on two sides of the bottom surface in the length direction.

As a preferable scheme, the mounting foot body is provided with a slot, and the elastic buckle is formed by extending the side edge of the slot along the length direction of the bottom surface.

Preferably, the elastic buckle comprises an extension plate arranged in the slotted hole, and a buckle protrusion which is formed at the tail end of the extension plate and extends towards the mounting bottom plate.

As a preferable scheme, the buckling protrusion is provided with a guiding inclined plane along one side or two sides of the length direction of the bottom surface.

As a preferable mode, the mounting structure is a mounting hole formed in the mounting script opposite to the outer side of the capacitor, and the mounting foot body is mounted on the external structure through a threaded connecting piece penetrating through the mounting hole

As a preferable scheme, the mounting hole is of a waist-shaped hole structure, and the distance between the circle centers of two semicircles is equal to the distance between two adjacent clamping holes.

As a preferable scheme, two mounting feet are arranged at two ends of the mounting feet corresponding to the length direction of the bottom surface; the mounting leg body is of a rectangular plate-shaped structure with the extending direction perpendicular to the length direction of the bottom surface.

As a preferable scheme, the two connecting structures are sliding rail structures oppositely arranged at two ends of the mounting foot body, and the sliding rail structures are provided with sliding cavities which are in sliding connection with the connecting convex ribs.

Compared with the prior art, the technical scheme of the invention has the following advantages:

1. according to the adjustable mounting foot structure for the capacitor, the mounting bottom plate is clamped in the accommodating groove at the bottom of the capacitor, the two mounting feet slide along the extending direction of the connecting convex ribs through the connecting structure, so that the mounting feet and the capacitor are reliably connected in a sliding mode and cannot be separated, the two mounting feet and the mounting bottom plate are fixed in relative positions through the matching of the first fixing structure and the second fixing structure, the two mounting feet after the disassembly can continue to move in position obviously, the design is beneficial in that the two slidable mounting feet replace the traditional fixed mounting feet, the two slidable mounting feet can be matched with and can be fixed at the bottom of the capacitor in a sliding mode, the purpose of adjusting the mounting distance between the two mounting feet is achieved, the mounting sizes of the two mounting feet can be adjusted specifically at the bottom of the capacitor according to the mounting requirements, the mounting size requirements of different capacitors are met, finally, the two mounting feet and the capacitor are fixed on an external mounting rail through the mounting structure, the capacitors of other manufacturers or types can be mounted on the same mounting rail, the mounting size is enhanced, the selectivity is high, the capacitor of different manufacturers can be selected, the user can be replaced, the user can replace the capacitor of different manufacturers, the capacitor manufacturers can be replaced, and the user can be replaced by the user, and the user can meet the requirements.

2. According to the adjustable mounting foot structure for the capacitor, the first fixing structure is the plurality of clamping holes uniformly arranged along the length direction of the bottom surface of the mounting bottom plate, the second fixing structure is the elastic buckles correspondingly arranged on the mounting foot body, the positions between the two mounting feet and the mounting bottom plate are fixed through the buckling cooperation of the elastic buckles and the clamping holes, so that the relative positions of the mounting feet and the bottom of the capacitor are fixed, the two mounting feet can slide and be adjusted at the bottom of the capacitor only when the elastic buckles are stirred to be separated from the clamping holes, the mounting distance is increased and decreased, the minimum distance of each sliding is the distance between the two clamping holes on the mounting bottom plate, the whole mounting size is continuously adjustable within the range of the bottom of the capacitor, the fixed mounting size is avoided, the capacitors of different manufacturers can be reasonably fixed on the outer structure through the aid of the two mounting feet, and the adjustable mounting foot structure is reasonable in design and reliable in cooperation.

3. According to the adjustable mounting leg structure for the capacitor, the two connecting structures are correspondingly arranged with the connecting ribs on the two sides of the capacitor in the length direction of the bottom surface, and the connecting structures preferably adopt the sliding rail structures which slide in a matched mode with the connecting ribs, so that the two mounting legs and the capacitor are reliably mounted together, the mounting bottom plate is firmly limited and clamped in the accommodating groove by the two mounting legs, the mounting stability is improved, the length direction of the bottom surface of the mounting bottom plate is consistent with the extending direction of the connecting ribs, and therefore the two mounting legs can be guaranteed to stably move along the length direction of the bottom of the capacitor to adjust positions.

4. According to the adjustable mounting leg structure for the capacitor, the elastic buckle comprises the extension plate arranged in the slotted hole and the buckle bulge formed at the tail end of the extension plate and extending towards the mounting bottom plate, when the elastic buckle is subjected to external large pushing force, the buckle bulge is used for stirring and adjusting among the plurality of clamping holes, the buckle force is transmitted and dispersed by the buckle bulge and the extension plate and is matched with the extension plate to buffer and deform in the slotted hole, so that the elastic buckle can provide good elastic deformation capacity and toughness, and is not easy to break, and the elastic buckle can be reliably stirred among the plurality of clamping holes to adjust and fix the moving positions of the two mounting legs.

5. According to the adjustable mounting foot structure for the capacitor, the guide inclined planes are arranged on one side or two sides of the bottom surface along the length direction of the bottom surface, so that the clamping protrusions can be clamped into or separated from the clamping holes more easily and smoothly, the clamping fit of the clamping protrusions is more convenient and efficient, the motion guiding function is achieved, when the adjustable mounting foot structure is specifically implemented, the guide inclined planes are arranged on one side of the clamping protrusions, namely, the guide mounting foot is subjected to unidirectional displacement adjustment at the bottom of the capacitor, or the guide inclined planes are arranged on two sides of the clamping protrusions, namely, the guide mounting foot is subjected to bidirectional displacement adjustment at the bottom of the capacitor, the arrangement mode is various, the practicability is high, and various use requirements of users are met.

6. According to the adjustable mounting foot structure for the capacitor, the mounting hole is of the waist-shaped hole structure, the circle center distance of the two semicircles on the mounting hole is equal to the distance between the two adjacent clamping holes, and the structure is arranged.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

FIG. 1 is a schematic perspective view of an adjustable mounting foot structure for a capacitor of the present invention;

FIG. 2 is a bottom view of an adjustable mounting foot structure for a capacitor of the present invention;

FIG. 3 is a schematic view of a partially enlarged structure of an adjustable mounting foot structure for a capacitor of the present invention;

FIG. 4 is a schematic diagram of a split structure of an adjustable mounting foot structure for a capacitor of the present invention;

reference numerals illustrate: 1-capacitor, 11-accommodation groove, 12-connection protruding muscle, 2-mounting plate, 21-first fixed knot constructs, 3-mounting foot, 31-connection structure, 32-elasticity buckle, 321-buckle arch, 33-mounting structure, 34-slotted hole.

Detailed Description

The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown.

In the description of the present invention, it should be noted that the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements.

Example 1

The present embodiment is specifically described below with reference to the accompanying drawings:

the embodiment provides an adjustable mounting leg structure for a capacitor as shown in fig. 1-4, wherein the capacitor 1 comprises a containing groove 11 formed on the bottom surface and a connecting convex rib 12 arranged around the periphery at the bottom; the mounting foot structure includes:

a mounting base plate 2 adapted to be engaged with the accommodating groove 11, and provided with a plurality of first fixing structures 21 along a longitudinal direction of a bottom surface of the capacitor 1;

the installation foot 3 is provided with two at least, including the installation foot body, the installation foot body is provided with colludes even connect protruding muscle 12 and follow connect the gliding connection structure 31 of protruding muscle 12 extending direction, with first fixed knot constructs 21 cooperation is in order to fix the installation foot 3 with the second fixed knot of mounting plate 2 constructs, and be used for with the installation foot 3 is installed and is fixed in the mounting structure 33 of external structure, external structure can select for user's mounting rail or mounting bracket or mounting platform.

In the above embodiment, the connection ribs 12 located at two sides of the capacitor extend along the length direction of the bottom surface of the capacitor, and the two mounting feet 3 slide along the extending direction of the connection ribs 12 at the bottom of the capacitor 1 through the connection structure 31, so that the mounting feet 3 and the capacitor 1 keep reliable sliding connection and cannot be separated, the two mounting feet 3 and the mounting baseplate 2 keep fixed relative positions through the cooperation of the first fixing structure 21 and the second fixing structure, the two mounting feet after the disassembly can continue to move in positions obviously, the design has the advantages that the two slidable mounting feet 3 replace the traditional fixed mounting feet, the sliding cooperation can be kept fixed at the bottom of the capacitor 1, the mounting distance between the two mounting feet 3 can be adjusted, the mounting size of the two mounting feet 3 can be adjusted specifically at the bottom of the capacitor according to the mounting requirement, the mounting size requirement of different capacitors is met, after the two mounting feet and the capacitor keep fixed relative positions, the two mounting feet and the capacitor are fixed to the external mounting rail through the mounting structure, the fact that other manufacturers can be mounted on the same mounting rail is guaranteed, the capacitor can be mounted with other manufacturers or the type of capacitors can be mounted, the two mounting feet can be selectively replaced by different manufacturers, the manufacturers can be realized, the user can be replaced with different manufacturers, and the requirements can be satisfied, and the practicality can be satisfied, and the customers can be replaced by different manufacturers.

The specific arrangement of the first fixing structure and the second fixing structure is described in detail below with reference to fig. 1 and 4:

the first fixing structure 21 is a clamping hole formed in the mounting bottom plate 2, the mounting bottom plate 2 is uniformly provided with a plurality of clamping holes along the length direction of the bottom surface, the second fixing structure is an elastic clamping buckle 32 which is arranged on the mounting bottom plate body and matched with the clamping holes in a clamping mode, the clamping fit between the elastic clamping buckle 32 and the clamping holes is enough to keep the position between the two mounting bottom plates 3 and the mounting bottom plate 2 fixed, the relative position fixation of the mounting bottom plates 3 and the bottom of the capacitor 1 is realized, the two mounting bottom plates can slide and be adjusted at the bottom of the capacitor only when the elastic clamping buckle is pulled out of the clamping holes, the adjustment and the adjustment of the size of the mounting space are realized, the minimum distance of each sliding is the distance between the two clamping holes on the mounting bottom plate 2, the whole mounting size is continuously adjustable within the bottom range of the capacitor 1, the length direction of the bottom surface of the capacitor is the adjustment moving direction of the two mounting bottom plates at the bottom of the capacitor, and the capacitor is not limited by the fixed mounting size, even if different capacitors are replaced, the reasonable design and the reasonable mounting position fixation can be realized on the external structure by the two mounting bottom plates 3.

In this embodiment, when the elastic buckle 32 on the mounting leg 3 is fixed with the buckle hole, when the fixing strength of the buckle structure is sufficiently high, the capacitor 1 and the two mounting legs 3 can be reliably limited to randomly generate displacement variation, and the elastic buckle can be stirred only when the acting force exceeding the fixing strength is applied, so that the mounting leg 3 is fixed to the external mounting rail, and the capacitor can be ensured not to generate position sliding phenomenon on the external mounting rail.

As shown in fig. 2-3, the mounting leg body is provided with two connecting structures 31 relatively, the two connecting structures 31 are correspondingly arranged with the connecting ribs 21 on two sides of the capacitor 1 along the length direction of the bottom surface, as a specific arrangement mode, the two connecting structures 31 are preferably arranged relatively in the sliding rail structures on two ends of the mounting leg body, the sliding rail structures are provided with sliding cavities in sliding connection with the connecting ribs 21, so that the two ends of the mounting leg body and the connecting ribs 21 on two sides of the bottom of the capacitor are respectively in sliding fit, the two mounting legs and the capacitor are reliably mounted together, and the mounting bottom plate 2 is firmly limited and clamped in the accommodating groove by the two mounting legs 3, thereby enhancing the mounting stability. It should be appreciated that the length direction of the bottom surface of the capacitor and the extending direction of the connecting ribs 21 are all in the same direction, so that the two mounting feet 3 are displaced and adjusted along the length direction of the bottom surface of the capacitor, and are limited to be displaced along the width direction and the height direction of the capacitor.

As an alternative way of the connection structure, the two connection structures 31 are hook structures oppositely arranged at two ends of the mounting pin body, and the two connection structures can be hooked on the connection ribs at two sides of the capacitor in a sliding manner through the hook structures, so that the sliding fit of the mounting pin body at the bottom of the capacitor is realized. Those skilled in the art can select the specific arrangement of the connection structure 31 according to the above description, and other equivalent embodiments of the connection structure will not be described in detail herein.

The following describes the specific arrangement of the elastic buckle in this embodiment in detail with reference to fig. 4:

the mounting leg body is provided with the slotted hole 34, the elastic buckle 32 is formed by extending the side edge of the slotted hole 34 along the length direction of the bottom surface, and the specific setting mode is that the elastic buckle 32 comprises an extending plate arranged in the slotted hole 34 and a buckle bulge 321 formed at the tail end of the extending plate and extending towards the mounting bottom plate 2.

As a preferred embodiment, the guiding inclined planes are disposed on one side or two sides of the bottom surface along the length direction of the fastening protrusion 321, so that the fastening protrusion can be fastened into or separated from the fastening hole more easily and smoothly, so that the fastening of the fastening protrusion and the fastening hole is more convenient and efficient, and the guiding inclined planes also play a role in guiding the movement of the sliding of the mounting leg 3, and the following setting modes are provided: when the guiding inclined plane is only arranged at one side of the buckling protrusion 321, the mounting feet 3 are guided to perform unidirectional displacement adjustment at the bottom of the capacitor 1, and the mounting distance between the two mounting feet at the bottom of the capacitor is adjusted in opposite directions; obviously, the setting mode of the guide inclined plane is not limited to the above one, and according to the setting of the guide inclined plane on two sides of the buckle protrusion 321, the guide mounting foot 3 is adjusted in a bidirectional displacement manner on the bottom of the capacitor 1, and the mounting distance between the two mounting feet on the bottom of the capacitor at this time can be adjusted in a bidirectional manner, so that the setting mode is various, the practicability is strong, and various use requirements of users are met.

The following describes the installation structure in detail with reference to fig. 1-2 and fig. 4:

the mounting structure 33 is a mounting hole formed in the outer side of the capacitor 1, the mounting leg body is mounted on the outer structure through a threaded connecting piece penetrating through the mounting hole, the threaded connecting piece can be preferably a screw or a bolt in the embodiment, when the mounting structure is mounted, the proper mounting size of the two mounting legs 3 at the bottom of the capacitor is adjusted firstly, and then the mounting legs 3 and the capacitor 1 are fixedly mounted on a mounting rail of a user through the screw.

As a preferred embodiment, the mounting hole 33 is a waist-shaped hole structure, the distance between the circle centers of two semicircles on the mounting hole is equal to the distance between two adjacent clamping holes, and the structure is arranged, when the screw is mounted in the mounting hole, according to the arrangement of the distance between the circle centers of two semicircles of the waist-shaped hole structure, the mounting position of the screw can be reasonably adjusted, the deviation of the mounting size is reduced, the mounting range is wider, and the mounting is convenient.

In the mounting leg structure provided in this embodiment, as shown in fig. 1, two mounting legs 3 are disposed at positions corresponding to two ends of the bottom surface in the length direction, for providing stress support and maintaining position balance at two ends of the bottom of the capacitor, the mounting leg body is a rectangular plate structure with an extending direction perpendicular to the length direction of the bottom surface, and the two mounting legs and the external mounting rail are mounted in the same direction.

In summary, when the user needs to replace one or more capacitor products different from the previous capacitor products after the capacitor 1 is damaged, two mounting feet 3 can be selectively mounted at the bottom of the capacitor, and according to the mounting size of the user mounting rail, the two mounting feet 3 are moved and adjusted to the corresponding mounting size, so that the mounting and fixing of different capacitors on the user mounting rail can be realized, the capacitor is not limited by the fixing size, more selection opportunities are provided for the user, and the capacitor is practical and reliable. The capacitor in this embodiment is preferably a power capacitor with a large volume, but may be another type of capacitor.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the invention.

Claims (10)

1. A adjustable mounting foot structure for condenser, condenser (1) are including holding groove (11) and the connection bead (12) that the bottom set up around the periphery that the bottom was seted up, its characterized in that: comprising

A mounting base plate (2) which is suitable for being arranged in the accommodating groove (11) in a clamping way, and a plurality of first fixing structures (21) are arranged along the length direction of the bottom surface of the capacitor (1);

the mounting leg (3), be provided with two at least, including the mounting leg body, the mounting leg body is provided with colludes link protruding muscle (12) and follow connect protruding muscle (12) extending direction gliding connection structure (31), with first fixed knot constructs (21) cooperation is in order to fix mounting leg (3) with the second fixed knot of mounting plate (2) constructs, and is used for with mounting leg (3) installation is fixed in outer structure's mounting structure (33).

2. The adjustable mounting foot structure for a capacitor of claim 1, wherein: the first fixing structure (21) is a clamping hole formed in the mounting base plate (2), a plurality of clamping holes are uniformly formed in the mounting base plate (2) along the length direction of the bottom surface, and the second fixing structure is an elastic buckle (32) which is arranged on the mounting foot body and is in buckle fit with the clamping holes.

3. The adjustable mounting foot structure for a capacitor of claim 2, wherein: the mounting leg body is provided with two relatively the connection structure (31), two connection structure (31) with condenser (1) for the connection protruding muscle of bottom surface length direction both sides corresponds the setting.

4. The adjustable mounting foot structure for a capacitor of claim 2, wherein: the mounting leg body is provided with a slot hole (34), and the elastic buckle (32) is formed by extending the side edge of the slot hole (34) along the length direction of the bottom surface.

5. The adjustable mounting foot structure for a capacitor of claim 4 wherein: the elastic buckle (32) comprises an extension plate arranged in the slotted hole (34), and a buckle protrusion (321) which is formed at the tail end of the extension plate and extends towards the mounting bottom plate.

6. The adjustable mounting foot structure for a capacitor of claim 5, wherein: the buckling bulge (321) is provided with a guiding inclined plane along one side or two sides of the length direction of the bottom surface.

7. An adjustable mounting foot structure for a capacitor as set forth in any one of claims 2-6 wherein: the mounting structure (33) is a mounting hole formed in the outer side of the capacitor (1) and corresponding to the mounting script, and the mounting foot body is mounted on the external structure through a threaded connecting piece penetrating through the mounting hole.

8. The adjustable mounting foot structure for a capacitor of claim 7 wherein: the mounting holes are of a waist-shaped hole structure, and the distance between the circle centers of two semicircles is equal to the distance between two adjacent clamping holes.

9. The adjustable mounting foot structure for a capacitor of claim 1, wherein: two mounting feet (3) are arranged at two ends of the bottom surface corresponding to the length direction; the mounting leg body is of a rectangular plate-shaped structure with the extending direction perpendicular to the length direction of the bottom surface.

10. The adjustable mounting foot structure for a capacitor of claim 2, wherein:

the two connecting structures (31) are sliding rail structures which are oppositely arranged at the two ends of the mounting leg body, and the sliding rail structures are provided with sliding cavities which are in sliding connection with the connecting convex ribs (12).