CN220445536U - Side hold-down mechanism of welding process equipment - Google Patents

Abstract

The utility model discloses a side hold-down mechanism of welding process equipment, which comprises a support base, wherein the support base is provided with side hold-down mechanisms and a welding part placement area, the side hold-down mechanisms are symmetrically distributed on two sides of the support base and are respectively matched with the inner side, the outer side, the upper side and the rear side of the welding part placement area, and the side hold-down mechanisms comprise an inner side hold-down mechanism, a rear side rotary hold-down mechanism, an outer side hold-down mechanism and an upper side hold-down mechanism. The welding parts are effectively fixed and pressed from multiple directions, so that the welding stability and precision are improved, the welding parts with more shapes and sizes can be adapted, the universality and adaptability of welding process equipment are improved, the time and cost are reduced, and the efficiency and economy of the welding process equipment are improved.

Description

Side hold-down mechanism of welding process equipment

Technical Field

The utility model relates to the technical field of welding, in particular to a side hold-down mechanism of welding process equipment.

Background

In the use process of the existing welding process equipment, manual argon arc welding is generally used for pre-welding and then laser welding is used, but the mode cannot well ensure the consistency and reliability of repeated positioning of clamping each time, so that the one-time welding qualification rate of products is low, and particularly the side fixing effect is poor, and the problems are improved.

Disclosure of Invention

Aiming at the defects of poor side fixing effect and the like in the prior art, the utility model provides a novel side pressing mechanism of welding process equipment.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model provides a side hold-down mechanism of welding process equipment, includes the support base, be provided with side hold-down mechanism, welding part on the support base and place the district, side hold-down mechanism symmetrical distribution in the both sides of support base, side hold-down mechanism respectively with the inboard, outside, upside, the rear side cooperation in welding part place the district, side hold-down mechanism includes inboard hold-down mechanism, rear side rotatory hold-down mechanism, outside hold-down mechanism, upper side hold-down mechanism, inboard hold-down mechanism is located welding part places the district inboard, rear side rotatory hold-down mechanism is located welding part places district rear side, outside hold-down mechanism is located welding part places the district outside, upper side hold-down mechanism is located welding part places the district upside.

The support base is used for installing and fixing other components. And a welding part is placed in the welding part placement area. The welding parts can be hollow upright posts at two sides of the integrated kitchen range. The side hold-down mechanism is used for compressing welded parts in multiple directions, and welding stability, firmness and consistency are enhanced. The inner pressing mechanism is used for pressing the welding part from the inner direction. The rear-side rotary pressing mechanism is used for pressing the welding part from the rear side direction. The outside hold-down mechanism is used for holding down the welding part from outside direction. The upper pressing mechanism is used for pressing the welding part from the upper direction. The welding parts are effectively fixed and pressed from multiple directions, so that the welding stability and precision are improved, the welding parts with more shapes and sizes can be adapted, the universality and adaptability of welding process equipment are improved, the time and cost are reduced, and the efficiency and economy of the welding process equipment are improved.

Preferably, the side hold-down mechanism of the welding process equipment comprises an inner hold-down cylinder and an inner L-shaped hold-down long arm, wherein the inner hold-down cylinder is in transmission connection with the inner L-shaped hold-down long arm, and the inner L-shaped hold-down long arm is matched with the inner side of the welding part placement area.

The inner side pressing cylinder is used for driving the inner side L-shaped pressing long arm. The L-shaped design improves stability and strength. The welding device has the advantages that the inner side of the welding part can be accurately positioned and stably fixed, the welding quality and efficiency are improved, the position of the inner side L-shaped pressing long arm can be moved according to the size and shape of the welding part, more welding process requirements are met, and the welding part is convenient to assemble, disassemble and replace.

Preferably, in the side hold-down mechanism of welding process equipment, an inner hold-down block is disposed on an outer side of the inner L-shaped hold-down long arm, and the inner hold-down block is matched with the welding part placement area.

The inner side compression block can effectively fix the welding parts, prevent deformation and displacement in the welding process, improve welding quality and precision, and ensure that the stress of the welding parts is more uniform, thereby realizing more flexible adaptability and universality. The number of the inner side compression blocks can be 6, and the left side and the right side of the inner side L-shaped compression long arms are 3 respectively.

Preferably, the side hold-down mechanism of the welding process equipment further comprises an inner hold-down cylinder L-shaped bracket, wherein the inner hold-down cylinder L-shaped bracket is fixed on the support base, and the inner hold-down cylinder L-shaped bracket is fixedly connected with the inner hold-down cylinder.

The L-shaped bracket of the inner side compression cylinder is used for fixing the inner side compression cylinder. The L-shaped design improves stability and strength. The stability and the rigidity of the inner side pressing mechanism can be enhanced through the design, the inner side pressing cylinder is prevented from shaking or deforming during working, the welding precision and the welding quality are improved, the installation of the inner side pressing cylinder can be simplified, the maintenance and the replacement are convenient, the welding process device is suitable for welding parts with more sizes and shapes, and the application range and the flexibility of welding process equipment are increased.

Preferably, the side hold-down mechanism of the welding process equipment further comprises an inner hold-down slide rail and an inner L-shaped triangle combined structure transfer slide block, wherein the inner hold-down slide rail is fixed on the support base, the inner hold-down slide rail is in sliding connection with the inner L-shaped triangle combined structure transfer slide block, the inner side of the inner L-shaped triangle combined structure transfer slide block is in transmission connection with the inner hold-down cylinder, and the outer side of the inner L-shaped triangle combined structure transfer slide block is connected with the inner L-shaped hold-down long arm.

The inner side L-shaped triangle combined structure transfer sliding block is used for realizing movement of the inner side L-shaped compaction long arm. The L-shaped triangle combined structure improves stability and strength, and the structure also realizes L-shaped combination in two directions, thereby further improving stability and strength. The flexible movement of the L-shaped compression long arm on the inner side can be realized through the design, the flexible movement is suitable for welding parts with more sizes and shapes, the transmission efficiency and stability of the inner side compression mechanism can be improved, the positioning precision and the deformation resistance are ensured, and the strength is considered.

Preferably, the side hold-down mechanism of the welding process equipment comprises a rear side rotary hold-down cylinder and a rear side L-shaped hold-down assembly, wherein the rear side rotary hold-down cylinder is in transmission connection with the rear side L-shaped hold-down assembly, and the rear side L-shaped hold-down assembly is matched with the rear side of the welding part placement area.

The rear side rotary compression cylinder is used for driving the rear side L-shaped compression assembly. The L-shaped design improves stability and strength. The design can realize the effective compaction of welding parts, ensure stability and precision, improve the production efficiency and quality of welding process equipment, and can also control the rotation angle of the rear L-shaped compaction assembly through the rear rotary compaction cylinder, adapt to welding parts with more shapes and sizes, and improve adaptability and flexibility.

Preferably, in the side hold-down mechanism of welding process equipment, a rear side hold-down block is disposed on a front side of the rear side L-shaped hold-down assembly, and the rear side hold-down block is matched with the welding part placement area.

The rear side compression block is used for compressing the welding part. The design can effectively fix the rear side of the welding part, prevent displacement and deformation in the welding process, improve welding quality and precision, adapt to welding parts with more shapes and sizes, increase the application range and flexibility of welding process equipment, reduce labor cost and error, and improve production efficiency and one-time welding qualification rate.

Preferably, the side hold-down mechanism of a welding process device further comprises a rotary cylinder L-shaped triangle combined structure bracket, wherein the rotary cylinder L-shaped triangle combined structure bracket is fixed on the support base, and the rotary cylinder L-shaped triangle combined structure bracket is fixedly connected with the rear side rotary hold-down cylinder.

The rotary cylinder L-shaped triangle combined structure bracket is used for fixing the rear side rotary compression cylinder. The L-shaped triangle combined structure improves stability and strength. The design improves the working reliability and safety of the rear rotary compression cylinder, also simplifies and compacts the structure of the rear rotary compression cylinder, saves space and gives attention to strength.

Preferably, the side hold-down mechanism of the welding process equipment comprises an outer hold-down cylinder and an outer hold-down block, wherein the outer hold-down cylinder is in transmission connection with the outer hold-down block, and the outer hold-down block is matched with the outer side of the welding part placement area.

The outside compresses tightly the cylinder and is used for driving outside compact heap. The welding part can be effectively fixed through the design, deformation and displacement in the welding process are prevented, and the welding precision and quality are improved. The design can control the outer side compression block through the outer side compression cylinder, adapt to welding parts with more sizes and shapes, improve adaptability and flexibility, and guarantee stability and safety of a welding process.

Preferably, the side hold-down mechanism of a welding process device further comprises an outer hold-down cylinder L-shaped bracket, wherein the outer hold-down cylinder L-shaped bracket is fixed on the support base, and the outer hold-down cylinder L-shaped bracket is fixedly connected with the outer hold-down cylinder.

The L-shaped bracket of the outer pressing cylinder is used for fixing the outer pressing cylinder. The L-shaped design improves stability and strength. The stability and the rigidity of the outside compression cylinder can be enhanced through the design, the outside compression cylinder is prevented from being deviated or deformed during working, the positioning precision and the quality of welding parts are improved, and the safety and the durability of welding process equipment are ensured. The design can simplify the installation of the outside compression cylinder, and is more convenient to maintain and replace.

Preferably, the side hold-down mechanism of the welding process equipment further comprises an outer hold-down slide rail and an outer hold-down L-shaped transfer slide block, wherein the outer hold-down slide rail is fixed on the support base, the outer hold-down slide rail is in sliding connection with the outer hold-down L-shaped transfer slide block, the outer side of the outer hold-down L-shaped transfer slide block is in transmission connection with the outer hold-down cylinder, and the inner side of the outer hold-down L-shaped transfer slide block is connected with the outer hold-down block.

The outside compresses tightly L shape switching slider and is used for realizing the removal of outside compact heap. The L-shaped design improves stability and strength. The outside compresses tightly the slide rail and is fixed in on the support base, can guarantee outside hold-down mechanism's stability and reliability, avoid displacement or not hard up because external force or vibration lead to. The outer side compresses tightly L shape switching slider and the outer side and compresses tightly slide rail sliding connection, can improve the flexibility and the adaptability of outside compact heap, adapts to the size and the shape of more welding parts, improves welding precision and efficiency. The outer side compaction L-shaped transfer sliding block is in transmission connection with the outer side compaction air cylinder, so that automatic work of the outer side compaction block can be realized, quick clamping and release of welding parts are realized, and manual intervention and misoperation are reduced.

Preferably, the side hold-down mechanism of the welding process equipment comprises an upper hold-down cylinder and an upper W-shaped hold-down arm, wherein the upper hold-down cylinder is in transmission connection with the upper W-shaped hold-down arm, and the upper W-shaped hold-down arm is matched with the upper side of the welding part placement area.

The upper side compression cylinder is used for driving the upper side W-shaped compression arm. The W-shaped design improves stability and strength. The design can effectively fix the welding parts, prevent the welding parts from being displaced or deformed in the welding process, and improve the welding quality and accuracy. The design realizes rapid, flexible and stable compaction action by the transmission connection mode of the upper compaction cylinder and the upper W-shaped compaction arm, saves time and labor and improves production efficiency.

Preferably, in the side hold-down mechanism of welding process equipment, an upper hold-down block is disposed at the bottom of the inner side of the upper W-shaped hold-down arm, and the upper hold-down block is matched with the welding part placement area.

The upper pressing block is used for pressing the welding part. The welding part can be effectively fixed through the design, deformation and displacement in the welding process are prevented, welding quality and accuracy are improved, welding parts with more shapes and sizes can be adapted, and the application range and flexibility of welding process equipment are increased.

Preferably, the side pressing mechanism of the welding process equipment further comprises an upper side cylinder L-shaped triangular combined structure support, the upper side cylinder L-shaped triangular combined structure support is fixed in the outer side pressing mechanism, the upper side cylinder L-shaped triangular combined structure support is fixedly connected with the upper side pressing cylinder, and the upper side W-shaped pressing arm is located above the outer side pressing mechanism.

The L-shaped triangular combined structure bracket of the upper cylinder is used for fixing the upper compression cylinder. The L-shaped triangle combined structure improves stability and strength. The upper cylinder L-shaped triangle combined structure bracket is fixed on the outer side pressing L-shaped transfer sliding block. The upper W-shaped pressing arm is positioned above the outer pressing block. The design can realize stable installation and transmission of the upper pressing cylinder, improves the strength and stability, can be matched with the outer pressing mechanism, realizes common pressing of welding parts, and ensures the position precision and welding quality of the welding parts.

Drawings

FIG. 1 is a schematic diagram of a first embodiment of the present utility model;

FIG. 2 is an enlarged view of FIG. 1 at A;

FIG. 3 is an enlarged view at B in FIG. 1;

FIG. 4 is a schematic view of a front view partial structure of the present utility model;

FIG. 5 is a second schematic diagram of the structure of the present utility model;

fig. 6 is an enlarged view at C in fig. 5.

Detailed Description

The utility model is described in further detail below in connection with figures 1-6 and the detailed description, which are not intended to limit the utility model:

example 1

The utility model provides a side hold-down mechanism of welding process equipment, includes support base 1, be provided with side hold-down mechanism 6, welding part on the support base 1 and place district 2, side hold-down mechanism 6 symmetrical distribution in the both sides of support base 1, side hold-down mechanism 6 respectively with welding part places the inboard, outside, upside, the rear side cooperation in district 2, side hold-down mechanism 6 includes inboard hold-down mechanism 61, rear side rotatory hold-down mechanism 62, outside hold-down mechanism 63, upper side hold-down mechanism 64, inboard hold-down mechanism 61 is located welding part places district 2 inboard, rear side rotatory hold-down mechanism 62 is located welding part places district 2 rear side, outside hold-down mechanism 63 is located welding part places the district 2 outside, upper side hold-down mechanism 64 is located welding part places district 2 upside.

Preferably, the inner pressing mechanism 61 comprises an inner pressing cylinder 611 and an inner L-shaped pressing long arm 612, the inner pressing cylinder 611 is in transmission connection with the inner L-shaped pressing long arm 612, and the inner L-shaped pressing long arm 612 is matched with the inner side of the welding part placement area 2.

Preferably, the outer side of the inner L-shaped pressing long arm 612 is provided with uniformly distributed inner pressing blocks 613, and the inner pressing blocks 613 are matched with the welding part placement area 2.

Preferably, the inner pressing mechanism 61 further includes an inner pressing cylinder L-shaped bracket 614, the inner pressing cylinder L-shaped bracket 614 is fixed on the support base 1, and the inner pressing cylinder L-shaped bracket 614 is fixedly connected with the inner pressing cylinder 611.

Preferably, the inner pressing mechanism 61 further includes an inner pressing sliding rail 615 and an inner L-shaped triangle combined structure transferring slider 616, the inner pressing sliding rail 615 is fixed on the support base 1, the inner pressing sliding rail 615 is slidably connected with the inner L-shaped triangle combined structure transferring slider 616, the inner side of the inner L-shaped triangle combined structure transferring slider 616 is in transmission connection with the inner pressing cylinder 611, and the outer side of the inner L-shaped triangle combined structure transferring slider 616 is connected with the inner L-shaped pressing long arm 612.

Preferably, the rear rotary pressing mechanism 62 includes a rear rotary pressing cylinder 621 and a rear L-shaped pressing assembly 622, the rear rotary pressing cylinder 621 is in driving connection with the rear L-shaped pressing assembly 622, and the rear L-shaped pressing assembly 622 is matched with the rear side of the welding part placement area 2.

Preferably, the front side of the rear L-shaped pressing member 622 is provided with a rear pressing block 623, and the rear pressing block 623 is engaged with the welding part placement area 2.

Preferably, the rear rotary pressing mechanism 62 further includes a rotary cylinder L-shaped triangle combined structure bracket 624, the rotary cylinder L-shaped triangle combined structure bracket 624 is fixed on the support base 1, and the rotary cylinder L-shaped triangle combined structure bracket 624 is fixedly connected with the rear rotary pressing cylinder 621.

Preferably, the outer pressing mechanism 63 includes an outer pressing cylinder 631 and an outer pressing block 632, the outer pressing cylinder 631 is in driving connection with the outer pressing block 632, and the outer pressing block 632 is matched with the outer side of the welding part placement area 2.

Preferably, the outer pressing mechanism 63 further includes an outer pressing cylinder L-shaped bracket 633, the outer pressing cylinder L-shaped bracket 633 is fixed on the support base 1, and the outer pressing cylinder L-shaped bracket 633 is fixedly connected with the outer pressing cylinder 631.

Preferably, the outer pressing mechanism 63 further includes an outer pressing sliding rail 634 and an outer pressing L-shaped adapting slider 635, the outer pressing sliding rail 634 is fixed on the support base 1, the outer pressing sliding rail 634 is slidably connected with the outer pressing L-shaped adapting slider 635, the outer side of the outer pressing L-shaped adapting slider 635 is in transmission connection with the outer pressing cylinder 631, and the inner side of the outer pressing L-shaped adapting slider 635 is connected with the outer pressing block 632.

Preferably, the upper pressing mechanism 64 includes an upper pressing cylinder 641 and an upper W-shaped pressing arm 642, the upper pressing cylinder 641 is in driving connection with the upper W-shaped pressing arm 642, and the upper W-shaped pressing arm 642 is engaged with the upper side of the welding part placement area 2.

Preferably, an upper pressing block 643 is disposed at the bottom of the inner side of the upper W-shaped pressing arm 642, and the upper pressing block 643 is engaged with the welding part placement area 2.

Preferably, the upper compressing mechanism 64 further includes an upper cylinder L-shaped triangle combined structure bracket 644, the upper cylinder L-shaped triangle combined structure bracket 644 is fixed in the outer compressing mechanism 63, the upper cylinder L-shaped triangle combined structure bracket 644 is fixedly connected with the upper compressing cylinder 641, and the upper W-shaped compressing arm 642 is located above the outer compressing mechanism 63.

In summary, the foregoing description is only of the preferred embodiments of the present utility model, and all equivalent changes and modifications that come within the scope of the present utility model are desired to be covered thereby.

Claims (14)

1. Side hold-down mechanism of welding process equipment, including supporting base (1), its characterized in that: the welding part placement device comprises a support base (1), wherein a side pressing mechanism (6) and a welding part placement area (2) are arranged on the support base (1), the side pressing mechanisms (6) are symmetrically distributed on two sides of the support base (1), the side pressing mechanisms (6) are respectively matched with the inner side, the outer side, the upper side and the rear side of the welding part placement area (2), the side pressing mechanisms (6) comprise an inner side pressing mechanism (61), a rear side rotating pressing mechanism (62), an outer side pressing mechanism (63) and an upper side pressing mechanism (64), the inner side pressing mechanism (61) is located on the inner side of the welding part placement area (2), the rear side rotating pressing mechanism (62) is located on the rear side of the welding part placement area (2), and the upper side pressing mechanism (64) is located on the upper side of the welding part placement area (2).

2. A side hold-down mechanism for a welding process kit as defined in claim 1, wherein: the inner side pressing mechanism (61) comprises an inner side pressing cylinder (611) and an inner side L-shaped pressing long arm (612), the inner side pressing cylinder (611) is in transmission connection with the inner side L-shaped pressing long arm (612), and the inner side L-shaped pressing long arm (612) is matched with the inner side of the welding part placement area (2).

3. A side hold-down mechanism for a welding process kit as defined in claim 2, wherein: the outer side of the inner side L-shaped pressing long arm (612) is provided with inner side pressing blocks (613) which are uniformly distributed, and the inner side pressing blocks (613) are matched with the welding part placing area (2).

4. A side hold-down mechanism for a welding process kit as defined in claim 2, wherein: the inner side pressing mechanism (61) further comprises an inner side pressing cylinder L-shaped bracket (614), the inner side pressing cylinder L-shaped bracket (614) is fixed on the supporting base (1), and the inner side pressing cylinder L-shaped bracket (614) is fixedly connected with the inner side pressing cylinder (611).

5. A side hold-down mechanism for a welding process kit as defined in claim 2, wherein: the inner side compressing mechanism (61) further comprises an inner side compressing sliding rail (615) and an inner side L-shaped triangle combined structure switching sliding block (616), the inner side compressing sliding rail (615) is fixed on the supporting base (1), the inner side compressing sliding rail (615) is in sliding connection with the inner side L-shaped triangle combined structure switching sliding block (616), the inner side of the inner side L-shaped triangle combined structure switching sliding block (616) is in transmission connection with the inner side compressing cylinder (611), and the outer side of the inner side L-shaped triangle combined structure switching sliding block (616) is connected with the inner side L-shaped compressing long arm (612).

6. A side hold-down mechanism for a welding process kit as defined in claim 1, wherein: the rear side rotary pressing mechanism (62) comprises a rear side rotary pressing cylinder (621) and a rear side L-shaped pressing assembly (622), the rear side rotary pressing cylinder (621) is in transmission connection with the rear side L-shaped pressing assembly (622), and the rear side L-shaped pressing assembly (622) is matched with the rear side of the welding part placement area (2).

7. The side hold-down mechanism of a welding process kit of claim 6, wherein: the front side of the rear side L-shaped pressing component (622) is provided with a rear side pressing block (623), and the rear side pressing block (623) is matched with the welding part placement area (2).

8. The side hold-down mechanism of a welding process kit of claim 6, wherein: the rear side rotary pressing mechanism (62) further comprises a rotary cylinder L-shaped triangular combined structure support (624), the rotary cylinder L-shaped triangular combined structure support (624) is fixed on the support base (1), and the rotary cylinder L-shaped triangular combined structure support (624) is fixedly connected with the rear side rotary pressing cylinder (621).

9. A side hold-down mechanism for a welding process kit as defined in claim 1, wherein: the outside hold-down mechanism (63) includes outside compress tightly cylinder (631), outside clamp block (632), outside compress tightly cylinder (631) with outside clamp block (632) transmission is connected, outside clamp block (632) with the outside cooperation of welding part placement area (2).

10. The side hold-down mechanism of a welding process kit of claim 9, wherein: the outer pressing mechanism (63) further comprises an outer pressing cylinder L-shaped bracket (633), the outer pressing cylinder L-shaped bracket (633) is fixed on the supporting base (1), and the outer pressing cylinder L-shaped bracket (633) is fixedly connected with the outer pressing cylinder (631).

11. The side hold-down mechanism of a welding process kit of claim 9, wherein: the outside hold-down mechanism (63) still includes outside and compresses tightly slide rail (634), outside compress tightly L shape switching slider (635), outside compress tightly slide rail (634) be fixed in on supporting base (1), outside compress tightly slide rail (634) with outside compress tightly L shape switching slider (635) sliding connection, outside compress tightly L shape switching slider (635) the outside with outside compress tightly cylinder (631) transmission connection, the inboard of outside compress tightly L shape switching slider (635) with outside compact heap (632) are connected.

12. A side hold-down mechanism for a welding process kit as defined in claim 1, wherein: the upper pressing mechanism (64) comprises an upper pressing cylinder (641) and an upper W-shaped pressing arm (642), the upper pressing cylinder (641) is in transmission connection with the upper W-shaped pressing arm (642), and the upper W-shaped pressing arm (642) is matched with the upper side of the welding part placement area (2).

13. The side hold-down mechanism of a welding process kit of claim 12, wherein: an upper pressing block (643) is arranged at the bottom of the inner side of the upper W-shaped pressing arm (642), and the upper pressing block (643) is matched with the welding part placement area (2).

14. The side hold-down mechanism of a welding process kit of claim 12, wherein: the upper side compression mechanism (64) further comprises an upper side cylinder L-shaped triangular combined structure support (644), the upper side cylinder L-shaped triangular combined structure support (644) is fixed in the outer side compression mechanism (63), the upper side cylinder L-shaped triangular combined structure support (644) is fixedly connected with the upper side compression cylinder (641), and the upper side W-shaped compression arm (642) is located above the outer side compression mechanism (63).