CN219542129U - Monolithic capacitor pin welding fixture - Google Patents

Abstract

The utility model relates to a monolithic capacitor pin welding fixture, which comprises a capacitor body fixing mechanism, a lead fixing mechanism and a plurality of tin sheets; the capacitor body fixing mechanism is hinged with the lead fixing mechanism, the lead fixing mechanisms are arranged on two sides of the capacitor body fixing mechanism, the tin sheet is arranged between the capacitor body fixing mechanism and the lead fixing mechanism, and the lead fixing mechanism and the capacitor body fixing mechanism can be fixed on the same horizontal plane. This pin welding jig passes through capacitor body fixed establishment and lead wire fixed establishment's setting, and is fixed with the relative position of capacitor body and lead wire, has avoided the welding in-process to need the manual work to carry out the centre gripping to capacitor body and lead wire, has avoided the error that the manual work brought. Meanwhile, the tin sheet for welding is arranged between the two, so that the relative positions between the tin sheet and the capacitor body and between the tin sheet and the lead are also fixed, the solder deviation in the welding process is avoided, the welding quality is improved, and the welding efficiency is improved.

Description

Monolithic capacitor pin welding fixture

Technical Field

The utility model relates to the technical field of monolithic capacitor pin welding, in particular to a monolithic capacitor pin welding fixture.

Background

Monolithic capacitors are ceramic capacitors that are sintered from multiple layers of laminations into a monolithic structure, and in the course of decades, monolithic capacitors have been developed that differentiate between two types, with and without pins. The type with pins is a continuation of the traditional type of monolithic capacitors, and is distinguished by the lead-out mode, and is divided into monolithic capacitors with axial lead-out and monolithic capacitors with non-axial lead-out. In the traditional monolithic capacitor lead welding process, the capacitor body and the lead are usually required to be clamped and fixed manually, and when the capacitor body and the lead are clamped and welded manually, the labor cost is high, the operation is complex, the welding position is easy to deviate, the welding firmness of welding spots is inconsistent, and the welding quality is unstable.

Disclosure of Invention

First, the technical problem to be solved

In view of the above-mentioned drawbacks and shortcomings of the prior art, the present utility model provides a monolithic capacitor pin welding fixture, which solves the technical problem of unfixed welding positions.

(II) technical scheme

In order to achieve the above object, a monolithic capacitor pin soldering jig of the present utility model includes: a capacitor body fixing mechanism 1 and a lead fixing mechanism 2;

the capacitor body fixing mechanism 1 is hinged to the lead fixing mechanism 2, the lead fixing mechanism 2 is arranged on two sides of the capacitor body fixing mechanism 1, a plurality of tin sheets 3 are arranged between the capacitor body fixing mechanism 1 and the lead fixing mechanism 2 for welding the capacitor body 5 and the lead 4, the lead fixing mechanism 2 and the capacitor body fixing mechanism 1 can be fixed on the same horizontal plane, the capacitor body fixing mechanism 1 is used for fixing the capacitor body 5, and the lead fixing mechanism 2 is used for fixing the lead 4.

Optionally, the lead fixing mechanism 2 includes a first fixing fixture 21 and a second fixing fixture 22, the first fixing fixture 21 is disposed on one side of the capacitor body fixing mechanism 1, the second fixing fixture 22 is disposed on the other side of the capacitor body fixing mechanism 1, the first fixing fixture 21 and the second fixing fixture 22 are hinged to the capacitor body fixing mechanism 1, the first fixing fixture 21 and the second fixing fixture 22 can fix and clamp the lead 4, a part of the tin sheet 3 is disposed between the first fixing fixture 21 and the capacitor body fixing mechanism 1, and another part of the tin sheet 3 is disposed between the capacitor body fixing mechanism 1 and the second fixing fixture 22.

Optionally, a plurality of lead clamping grooves 23 are uniformly and symmetrically formed on the first fixing clamp 21 and the second fixing clamp 22, and the lead clamping grooves 23 are used for clamping the lead 4.

Optionally, the lead fixing mechanism 2 includes a locking plate 25 and a plurality of pairs of second locking screws 24, the locking plate 25 is disposed below the capacitor body fixing mechanism 1, a central axis of the locking plate 25 and a central axis of the capacitor body fixing mechanism 1 are located in the same vertical plane, the locking plate 25 can be connected with the first fixing fixture 21 through the second locking screws 24, and the locking plate 25 can be connected with the second fixing fixture 22 through the second locking screws 24;

when the first fixing clamp 21 and the second fixing clamp 22 are both connected with the locking plate 25, the lead fixing mechanism 2 and the capacitor body fixing mechanism 1 are fixed on the same horizontal plane, one side of the tin sheet 3 is abutted against the capacitor body 5, and the other side of the tin sheet 3 is abutted against the lead 4.

Optionally, the first fixing fixture 21 and the second fixing fixture 22 are close to one side of the capacitor body fixing mechanism 1 and are provided with lead 4 fixture connection screw holes, the locking plate 25 is provided with a plurality of positioning screw holes in a one-to-one correspondence with the lead 4 fixture connection screw holes, and the second locking screw is connected with the lead 4 fixture connection screw holes and the positioning screw holes in a one-to-one correspondence.

Optionally, the capacitor body fixing mechanism 1 includes a body fixture 11, where the body fixture 11 is disposed between the first fixing fixture 21 and the second fixing fixture 22, and the body fixture 11 is hinged to the first fixing fixture 21 and the second fixing fixture 22.

Optionally, the body fixture 11 is provided with a plurality of mounting grooves corresponding to the lead clamping grooves 23, and the mounting grooves are used for mounting the capacitor body 5;

when the body clamp 11 and the lead fixing mechanism 2 are located on the same plane, the capacitor body 5 is installed in the installation groove, and the lead 4 is clamped in the lead clamping groove 23, one side of the tin sheet 3 is abutted against the capacitor body 5, and the other side of the tin sheet 3 is abutted against the lead 4.

Optionally, the capacitor body fixing mechanism 1 further includes a pressing cover 12, a pair of first locking screws 13, and a plurality of abutting screws 14, where the pressing cover 12 is arranged on the body fixture 11 in a covering manner, the pressing cover 12 is connected with the body fixture 11 through the pair of first locking screws 13 to fix the position of the capacitor body 5, and the abutting screws 14 can abut on the capacitor body 5 through the pressing cover 12.

Optionally, body compressing screw holes are further formed at two ends of the body fixture 11, and the body compressing screw holes are in threaded connection with the first locking screw 13.

Optionally, a plurality of abutting holes are formed on the gland 12 corresponding to the mounting groove, and the abutting screw 14 passes through the abutting holes to abut against the capacitor body 5 in the mounting groove.

(III) beneficial effects

The utility model provides a monolithic capacitor pin welding fixture, which is used for fixing the relative positions of a capacitor body 5 and a lead 4 through the arrangement of a capacitor body fixing mechanism 1 and a lead fixing mechanism 2, so that the need of manually clamping the capacitor body and the lead 4 in the traditional welding process of the capacitor lead 4 is avoided, and errors caused by manual work are avoided. Meanwhile, the tin sheet 3 for welding is arranged between the capacitor body fixing mechanism 1 and the lead fixing mechanism 2, so that the relative positions between the tin sheet 3 and the capacitor body 5 and the relative positions between the tin sheet 3 and the lead 4 are also fixed, the solder deviation in the welding process is avoided, the welding quality is further improved, and the welding efficiency is improved. The pin welding fixture ensures that the relative positions between the capacitor body 5 and the lead 4 are fixed in the welding process, and the relative positions between the tin sheet 3 and the capacitor body 5 and the relative positions between the tin sheet 3 and the lead 4 are also fixed, so that the condition that errors are easy to occur in the welding positions caused by manual clamping is avoided.

Drawings

FIG. 1 is a schematic view of a monolithic capacitor pin soldering fixture according to the present utility model in an unused state;

FIG. 2 is a schematic diagram of the soldering fixture for monolithic capacitor pins after mounting the tin plate;

FIG. 3 is a schematic view of the structure of the lead fixing mechanism and the capacitor body fixing mechanism of the monolithic capacitor pin welding fixture before locking;

FIG. 4 is a schematic diagram of a structure of the monolithic capacitor pin welding jig of the present utility model after locking;

fig. 5 is a schematic diagram of the structure of the capacitor body and the leads of the monolithic capacitor pin soldering fixture of the present utility model.

[ reference numerals description ]

1: a capacitor body fixing mechanism; 11: a body clamp; 12: a gland; 13: a first locking screw; 14: abutting the screw;

2: a lead fixing mechanism; 21: a first fixing clamp; 22: a second fixing clamp; 23: a lead clamping groove; 24: a second locking screw; 25: a locking plate;

3: tin sheets;

4: a lead wire; 5: a capacitor body.

Detailed Description

In order to better understand the above technical solution, exemplary embodiments of the present utility model will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present utility model are shown in the drawings, it should be understood that the present utility model may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the utility model to those skilled in the art.

The utility model provides a monolithic capacitor pin welding fixture, which comprises: tin sheet 3, capacitor body fixing mechanism 1 and lead fixing mechanism 2;

the capacitor body fixing mechanism 1 is hinged with the lead fixing mechanism 2, the lead fixing mechanism 2 is arranged on two sides of the capacitor body fixing mechanism 1, the tin sheet 3 is arranged between the capacitor body fixing mechanism 1 and the lead fixing mechanism 2, the lead fixing mechanism 2 and the capacitor body fixing mechanism 1 can be fixed on the same horizontal plane, the capacitor body fixing mechanism 1 is used for fixing the capacitor body 5, and the lead fixing mechanism 2 is used for fixing the lead 4.

In this embodiment, this pin welding jig passes through capacitor body fixed establishment 1 and the setting of lead wire fixed establishment 2, the relative position of capacitor body 5 and lead wire 4 is fixed, the manual work that needs to carry out the centre gripping to capacitor body and lead wire 4 in the traditional capacitor lead wire 4 welding process has been avoided, the error that has avoided the manual work to bring, the tinning stack 3 that will be used for the welded sets up simultaneously between capacitor body fixed establishment 1 and lead wire fixed establishment 2, when lead wire fixed establishment 2 and capacitor body fixed establishment 1 are fixed in on the same horizontal plane, the both ends of tinning stack 3 butt capacitor body fixed establishment 1 and lead wire fixed establishment 2 respectively, make tinning stack 3 and the position of setting up lead wire 4 in the lead wire fixed establishment 2 fixed mutually from this, the easy skew that takes place of tinning stack 3 position under the circumstances of having avoided manual clamping. Moreover, the pin welding fixture is used for avoiding manual clamping during welding, so that the labor cost and the welding time are reduced, the unstable welding quality is avoided, and the welding efficiency is improved.

As shown in fig. 1, the lead fixing mechanism 2 includes a first fixing clamp 21 and a second fixing clamp 22, the first fixing clamp 21 is disposed on one side of the capacitor body fixing mechanism 1, the second fixing clamp 22 is disposed on the other side of the capacitor body fixing mechanism 1, the first fixing clamp 21 and the second fixing clamp 22 are both hinged to the capacitor body fixing mechanism 1, and the first fixing clamp 21 and the second fixing clamp 22 are both capable of fixing and clamping the lead 4. A plurality of lead clamping grooves 23 are uniformly and symmetrically formed in the first fixing clamp 21 and the second fixing clamp 22, and the lead clamping grooves 23 are used for clamping the leads 4.

In this embodiment, the first fixing clamp 21 and the second fixing clamp 22 are respectively disposed at two sides of the capacitor body fixing mechanism 1, the first fixing clamp 21 and the second fixing clamp 22 are both hinged to the capacitor body fixing mechanism 1, the tin sheet 3 is disposed between the first fixing clamp 21, the second fixing clamp 22 and the capacitor body fixing mechanism 1, when the first fixing clamp 21, the second fixing clamp 22 and the capacitor body fixing mechanism 1 are located on the same plane, the tin sheet 3 is abutted between the first fixing clamp 21, the second fixing clamp 22 and the capacitor body fixing mechanism 1, and the relative positions of the tin sheet 3 are fixed to avoid the offset of the tin sheet 3 during welding. Meanwhile, the first fixing clamp 21 and the second fixing clamp 22 hinged with the capacitor body fixing mechanism 1 enable the pin welding clamp to rotate at any angle under the condition that welding is not carried out, so that workers can clamp the lead 4 conveniently, and the lead 4 in the clamps can be led out outwards along the direction perpendicular to the two end electrode planes of the capacitor body 5 and far away from the capacitor body 5 due to the first fixing clamp 21 and the second fixing clamp 22 during welding. And a plurality of lead clamping grooves 23 are formed in the first fixing clamp 21 and the second fixing clamp 22, so that the lead 4 can be rapidly and conveniently clamped in the first fixing clamp 21 and the second fixing clamp 22, time and labor are saved, and welding efficiency is improved.

As shown in fig. 2, the lead fixing mechanism 2 comprises a locking plate 25 and a plurality of pairs of second locking screws 24, the locking plate 25 is placed below the capacitor body fixing mechanism 1, the central axis of the locking plate 25 and the central axis of the capacitor body fixing mechanism 1 are located in the same vertical plane, the locking plate 25 can be connected with the first fixing clamp 21 through the second locking screws 24, and the locking plate 25 can be connected with the second fixing clamp 22 through the second locking screws 24; when the first fixing clamp 21 and the second fixing clamp 22 are both connected with the locking plate 25, the lead fixing mechanism 2 and the capacitor body fixing mechanism 1 are fixed on the same horizontal plane, one side of the tin sheet 3 is abutted with the capacitor body 5, and the other side of the tin sheet 3 is abutted with the lead 4. The side of the first fixing clamp 21 and the side of the second fixing clamp 22, which are close to the capacitor body fixing mechanism 1, are provided with lead 4 clamp connecting screw holes, a plurality of positioning screw holes are formed in the locking plate 25 at the positions corresponding to the lead fixing mechanism connecting screw holes one by one, and the second locking screw rods are correspondingly connected with the lead fixing mechanism connecting screw holes and the positioning screw holes one by one.

In this embodiment, the width of the locking plate 25 is larger than the width of the capacitor body fixing mechanism 1 and smaller than the width of the lead fixing mechanism 2, and therefore, the locking plate 25 placed below the capacitor body fixing mechanism 1 is connected with the lead fixing mechanism 2 through a plurality of pairs of second locking screws 24, the locking plate 25 is abutted against the capacitor body fixing mechanism 1, at this time, the capacitor body fixing mechanism 1 and the lead fixing mechanism 2 are located on the same horizontal plane, one side of the tin sheet 3 is abutted against the capacitor body 5, the other side of the tin sheet 3 is abutted against the lead 4, so that the relative positions between the tin sheet 3 and the capacitor body 5 and the lead 4 are kept fixed, and meanwhile, the positions of the tin sheets 3, of which both sides are abutted against each other, are fixed, so that movement of the tin sheet 3 in the welding process is avoided.

As shown in fig. 3, the capacitor body fixing mechanism 1 includes a body clamp 11, the body clamp 11 is disposed between a first fixing clamp 21 and a second fixing clamp 22, and the body clamp 11 is hinged to both the first fixing clamp 21 and the second fixing clamp 22. The body clamp 11 is provided with a plurality of mounting grooves corresponding to the lead clamping grooves 23, and the mounting grooves are used for mounting the capacitor body 5; when the body clamp 11 and the lead fixing mechanism 2 are positioned on the same plane, the capacitor body 5 is arranged in the mounting groove, and the lead 4 is clamped in the lead clamping groove 23, one side of the tin sheet 3 is abutted against the capacitor body 5, and the other side of the tin sheet 3 is abutted against the lead 4.

In this embodiment, the body fixture 11 is provided with a plurality of mounting grooves corresponding to the lead clamping grooves 23, so that when the capacitor body 5 is mounted on the body fixture 11, the capacitor body 5 corresponds to the lead 4 positioned in the first fixing fixture 21 and the second fixing fixture 22 at two sides, the relative position fixation of the lead 4 and the capacitor body 5 is ensured, the welding quality is ensured, errors caused by human factors in the manual clamping process are avoided, and the welding efficiency is improved.

Referring to fig. 4, the capacitor body fixing mechanism 1 further includes a gland 12 and a pair of first locking screws 13, a plurality of abutting screws 14, the gland 12 is arranged on the body fixture 11 in a covering manner, the gland 12 is connected with the body fixture 11 through the pair of first locking screws 13 to fix the position of the capacitor body 5, and the abutting screws 14 can penetrate through the gland 12 to abut on the capacitor body 5. The gland 12 is provided with a plurality of abutting holes corresponding to the mounting grooves, and the abutting screw 14 passes through the abutting holes to abut against the capacitor body 5 positioned in the mounting grooves.

In this embodiment, the gland 12 is arranged on the body fixture 11 in a covering manner, and the gland 12 and the body fixture 11 are locked through the pair of first locking screws 13, so that the gland 12 is abutted to press the capacitor body 5 mounted on the body fixture 11, and movement of the capacitor body 5 in the welding process is avoided.

In a preferred embodiment, the monolithic capacitor pin bonding fixture is an aluminum alloy bonding fixture. First, the strength of the aluminum alloy is high. Compared with pure aluminum, the strength of the aluminum alloy is higher, the aluminum alloy can resist mechanical impact in the welding process, and is not easy to damage and deform. The secondary aluminum alloy has a high melting point. The welding temperature is generally below 400 ℃, and the aluminum alloy cannot be melted and deformed. Furthermore, solder bonding does not occur with tin-aluminum contacts. In the welding process, molten tin flows to the surface of the pin welding fixture, and after cooling, the tin cannot be adhered and combined with the surface of the pin welding fixture. The pin welding fixture is used as follows:

firstly, the capacitor body 5 is arranged on a body clamp 11, and a gland 12 is covered after the capacitor body 5 is arranged, so that the position of the capacitor body 5 is fixed;

next, according to the actual situation, the first fixing jig 21 and the second fixing jig 22 are rotated to the appropriate positions, the lead wire 4 is clamped in the lead wire clamping grooves 23 of the first fixing jig 21 and the second fixing jig 22, after the clamping of the lead wire 4 is completed, the tin sheet 3 equivalent to the mounting groove is set between the first fixing jig 21 and the body jig 11, and the tin sheet 3 equivalent to the mounting groove is set between the second fixing jig 22 and the body jig 11.

Further, the first fixing jig 21, the second fixing jig 22 and the body jig 11 are positioned on the same horizontal plane, and the second locking screw 24 is screwed tightly so that the capacitor body fixing mechanism 1 and the lead fixing mechanism 2 are locked.

And finally, placing the pin welding fixture with the steps into a reflow soldering machine to finish welding.

In the description of the present utility model, it should be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium; may be a communication between two elements or an interaction between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present utility model, unless expressly stated or limited otherwise, a first feature is "on" or "under" a second feature, which may be in direct contact with the first and second features, or in indirect contact with the first and second features via an intervening medium. Moreover, a first feature "above," "over" and "on" a second feature may be a first feature directly above or obliquely above the second feature, or simply indicate that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely below the second feature, or simply indicating that the first feature is level lower than the second feature.

In the description of the present specification, the terms "one embodiment," "some embodiments," "examples," "particular examples," or "some examples," etc., refer to particular features, structures, materials, or characteristics described in connection with the embodiment or example as being included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

While embodiments of the present utility model have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the utility model, and that alterations, modifications, substitutions and variations may be made in the above embodiments by those skilled in the art within the scope of the utility model.

Claims (10)

1. The utility model provides a monolithic capacitor pin welding jig which characterized in that, monolithic capacitor pin welding jig includes: a capacitor body fixing mechanism (1) and a lead fixing mechanism (2);

the capacitor body fixing mechanism (1) is hinged to the lead fixing mechanism (2), the lead fixing mechanism (2) is arranged on two sides of the capacitor body fixing mechanism (1), a plurality of tin sheets (3) are arranged between the capacitor body fixing mechanism (1) and the lead fixing mechanism (2) for welding the capacitor body (5) and the lead (4), the lead fixing mechanism (2) and the capacitor body fixing mechanism (1) can be fixed on the same horizontal plane, the capacitor body fixing mechanism (1) is used for fixing the capacitor body (5), and the lead fixing mechanism (2) is used for fixing the lead (4).

2. The monolithic capacitor pin welding jig according to claim 1, wherein the lead fixing mechanism (2) comprises a first fixing jig (21) and a second fixing jig (22), the first fixing jig (21) is disposed on one side of the capacitor body fixing mechanism (1), the second fixing jig (22) is disposed on the other side of the capacitor body fixing mechanism (1), the first fixing jig (21) and the second fixing jig (22) are both hinged to the capacitor body fixing mechanism (1), the first fixing jig (21) and the second fixing jig (22) are both capable of fixing and clamping the lead (4), a part of the tin sheet (3) is disposed between the first fixing jig (21) and the capacitor body fixing mechanism (1), and the other part of the tin sheet (3) is disposed between the capacitor body fixing mechanism (1) and the second fixing jig (22).

3. The monolithic capacitor pin welding fixture according to claim 2, wherein a plurality of lead clamping grooves (23) are uniformly and symmetrically formed in the first fixing fixture (21) and the second fixing fixture (22), and the lead clamping grooves (23) are used for clamping the leads (4).

4. A monolithic capacitor pin soldering jig as claimed in claim 3, wherein the lead fixing mechanism (2) comprises a locking plate (25) and a plurality of pairs of second locking screws (24), the locking plate (25) being placed under the capacitor body fixing mechanism (1), a central axis of the locking plate (25) being located in the same vertical plane as a central axis of the capacitor body fixing mechanism (1), the locking plate (25) being connectable to the first fixing jig (21) through the second locking screws (24), the locking plate (25) being connectable to the second fixing jig (22) through the second locking screws (24);

when the first fixing clamp (21) and the second fixing clamp (22) are connected with the locking plate (25), the lead fixing mechanism (2) and the capacitor body fixing mechanism (1) are fixed on the same horizontal plane, one side of the tin sheet (3) is abutted to the capacitor body (5), and the other side of the tin sheet (3) is abutted to the lead (4).

5. The monolithic capacitor pin welding jig according to claim 4, wherein the first fixing jig (21) and the second fixing jig (22) are provided with lead (4) jig connecting screw holes on a side close to the capacitor body fixing mechanism (1), the locking plate (25) is provided with a plurality of positioning screw holes in one-to-one correspondence with the lead (4) jig connecting screw holes, and the second locking screw is provided with a plurality of positioning screw holes in one-to-one correspondence with the lead (4) jig connecting screw holes and the positioning screw holes.

6. The monolithic capacitor pin welding jig according to claim 4, wherein said capacitor body fixing mechanism (1) comprises a body clamp (11), said body clamp (11) being disposed between said first fixing clamp (21) and said second fixing clamp (22), said body clamp (11) being hinged to both said first fixing clamp (21) and said second fixing clamp (22).

7. The monolithic capacitor pin welding fixture according to claim 6, wherein a plurality of mounting grooves are formed in the body fixture (11) corresponding to the lead clamping grooves (23), and the mounting grooves are used for mounting the capacitor body (5);

when the body clamp (11) and the lead fixing mechanism (2) are located on the same plane, the capacitor body (5) is arranged in the mounting groove, and the lead (4) is clamped in the lead clamping groove (23), one side of the tin sheet (3) is abutted to the capacitor body (5), and the other side of the tin sheet (3) is abutted to the lead (4).

8. The monolithic capacitor pin welding jig according to claim 7, wherein the capacitor body fixing mechanism (1) further comprises a gland (12), a pair of first locking screws (13) and a plurality of abutting screws (14), the gland (12) is arranged on the body fixture (11) in a covering manner, the gland (12) is connected with the body fixture (11) through the pair of first locking screws (13) to fix the position of the capacitor body (5), and the abutting screws (14) can pass through the gland (12) to abut on the capacitor body (5).

9. The monolithic capacitor pin welding fixture according to claim 8, wherein body clamping means (11) are further provided with body compression screw holes at both ends, and the body compression screw holes are in threaded connection with the first locking screw (13).

10. The monolithic capacitor pin welding jig according to claim 8, wherein a plurality of abutment holes are provided in the gland (12) corresponding to the mounting groove, and the abutment screw (14) abuts the capacitor body (5) located in the mounting groove through the abutment holes.