CN219925046U - Digger balancing weight splice welding tool platform - Google Patents

Abstract

The utility model relates to the technical field of tool platforms, in particular to an excavator balancing weight welding tool platform. The method mainly aims at the problems of complicated operation steps, more manual adjustment workload and low processing efficiency in the prior art, and provides the following technical scheme: including the operation panel, the operation panel top is provided with two sets of former relatively, two sets of install respectively in the top of operation panel between the former wire seat one, wire seat two and wire seat three, every set of former plate one side is provided with spacing, the former plate below is connected with the slider, operation panel one side is provided with the motor, the output of motor is connected with two-way threaded rod. The utility model has simple integral structure and convenient operation, can quickly and stably install the counterweight components, can automatically adjust and align a plurality of groups of counterweight components, reduces the installation time, improves the working efficiency, is beneficial to popularization, and is mainly applied to the tailor-welding work of the counterweight blocks of the excavator.

Description

Digger balancing weight splice welding tool platform

Technical Field

The utility model relates to the technical field of tool platforms, in particular to an excavator balancing weight welding tool platform.

Background

The counterweight block is a weight for increasing the self weight to keep balance, and according to the counterweight assembly welding tool of the excavator disclosed in the patent number CN 216503196U, a hinged hole bolt is adopted to position a mounting wire seat of a counterweight body in the horizontal and vertical directions, and the outer side of the counterweight body is positioned in a copying way, so that the mounting precision of the counterweight body and the excavator and the outline dimension of the counterweight body can be effectively ensured; however, when the counterweight body is arranged above the tooling platform, the counterweight body is formed by a plurality of counterweight components, and in the scheme, the counterweight body is simultaneously placed on the platform and then adjusted and aligned, so that the operation steps are complicated, the adjustment workload of manual participation is more, and the processing efficiency is lower. Therefore, we specially propose a digger balancing weight welding tool platform.

Disclosure of Invention

The utility model aims to solve the problems of complicated operation steps, more manual adjustment workload and low processing efficiency in the prior art in the background art, and provides a matching welding tool platform for an excavator balancing weight.

The technical scheme of the utility model is as follows: the utility model provides an excavator balancing weight splice welding frock platform, includes the operation panel, the operation panel top is provided with two sets of profile plates relatively, two sets of install installation silk seat one respectively in the top of operation panel between the profile plates, installation silk seat two and installation silk seat three, multiunit through-hole and annular hole have all been seted up on installation silk seat one, installation silk seat two and the installation silk seat three, every group profile plate one side is provided with spacing, the profile plate below is connected with the slider, the card strip is installed to operation panel top both sides, operation panel one side is provided with the motor, the output of motor is connected with two-way threaded rod.

Preferably, two groups of sliding grooves are formed in the workbench, the sliding blocks are arranged in a T shape, and the sliding blocks are correspondingly arranged with the sliding grooves.

Preferably, the limit strip is arranged to be L-shaped, and the notch position of the clamping strip corresponds to two sides of the profiling plate.

Preferably, the workbench is provided with a mounting groove, and one end of the bidirectional threaded rod penetrates through the sliding block and is correspondingly mounted with the mounting groove.

Preferably, the mounting columns and the mounting blocks are arranged on the mounting frame, a plurality of groups of mounting columns are arranged on the mounting frame, and mounting holes are formed in the mounting columns and the mounting blocks.

Preferably, an auxiliary plate is connected to one side of the working table, the bottom of the motor is connected with the auxiliary plate through bolts, and supporting legs are arranged below the working table.

Preferably, a first counterweight component and a second counterweight component are respectively arranged above the two groups of limiting strips, a third counterweight component is arranged on the clamping strip, and installation wire seats are respectively arranged inside the first counterweight component, the second counterweight component and the third counterweight component.

Compared with the prior art, the utility model has the following beneficial technical effects:

according to the utility model, the first installation wire seat, the second installation wire seat, the third installation wire seat, the first counterweight component, the second counterweight component and the third counterweight component are correspondingly installed, the first counterweight component and the second counterweight component are clamped through the profiling plate and the limiting strip, and then the first counterweight component and the second counterweight component are clamped on two sides of the counterweight component through the driving of the motor, so that the aim of automatic adjustment and alignment is realized, the stability of the counterweight components in placement is ensured, meanwhile, a plurality of groups of counterweight components can be correspondingly installed quickly, and the labor correction and adjustment input workload is reduced;

in conclusion, the balance weight assembly device is simple in integral structure and convenient to operate, can be used for rapidly and stably installing the balance weight assemblies, can automatically adjust and align the plurality of groups of balance weight assemblies, reduces installation time, improves working efficiency, and is beneficial to popularization.

Drawings

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a partial sectional view of a work table according to the present utility model;

FIG. 3 is a schematic view of the corresponding installation of the components of the present utility model;

fig. 4 is an internal structural view of the first, second and third weight assemblies of the present utility model.

Reference numerals: 1. a work table; 2. a cam; 21. a limit bar; 22. a slide block; 3. installing a first wire seat; 4. installing a second wire seat; 5. installing a wire seat III; 6. a through hole; 61. an annular hole; 7. clamping strips; 8. a motor; 81. a two-way threaded rod; 9. a chute; 10. a mounting column; 11. a mounting block; 12. an auxiliary plate; 13. support legs; 14. a counterweight assembly I; 15. a counterweight component II; 16. and a counterweight assembly III.

Detailed Description

The technical scheme of the utility model is further described below with reference to the attached drawings and specific embodiments.

Examples

As shown in fig. 1, the utility model provides a balancing weight splice welding tool platform of an excavator, which comprises a working table 1, wherein two groups of profiling plates 2 are oppositely arranged above the working table 1, the outer contours of the profiling plates 2 correspond to the inner rings of a first counterweight component 14 and a second counterweight component 15, a first mounting wire seat 3, a second mounting wire seat 4 and a third mounting wire seat 5 are respectively arranged above the working table 1 between the two groups of profiling plates 2, a plurality of groups of through holes 6 and annular holes 61 are respectively formed in the first mounting wire seat 3, the second mounting wire seat 4 and the third mounting wire seat 5, the through holes 6 and the annular holes 61 can correspondingly install the inner mounting wire seats of the first counterweight component 14, the second counterweight component 15 and the third counterweight component 16, so that the first counterweight component 14, the second counterweight component 15 and the third counterweight component 16 can be placed more stably, and the arrangement of the profiling plates 2 can rapidly position the first counterweight component 14 and the second counterweight component 15 when placed, and the placement time is reduced;

as shown in fig. 2-4, a limiting strip 21 is arranged on one side of each set of profile plates 2, the limiting strips 21 are in an L shape, a first counterweight component 14 and a second counterweight component 15 are respectively arranged above the two sets of limiting strips 21, the bottoms of the first counterweight component 14 and the second counterweight component 15 can be limited by the arrangement of the L shapes of the limiting strips 21, so that the welding operation can be rapidly performed, a third counterweight component 16 is arranged on each clamping strip 7, the bottoms of the two sides of the third counterweight component 16 are correspondingly arranged at the notch positions of the clamping strips 7, mounting wire seats are respectively arranged inside the first counterweight component 14, the second counterweight component 15 and the third counterweight component 16, the mounting wire seats can be correspondingly arranged with the through holes 6 and the annular holes 61, a sliding block 22 is connected below the profile plates 2, two sets of sliding grooves 9 are formed in the sliding block 22, the sliding block 22 is correspondingly arranged with the sliding grooves 9, the sliding block 22 can limit the profile plates 2, and the profile plates 2 are placed above the profile plates 1, so that the welding efficiency is improved and the welding operation is more stable;

as shown in fig. 1-3, clamping strips 7 are installed on two sides above the operation table 1, the notch positions of the clamping strips 7 correspond to two sides of the profiling plate 2, so that one side, close to each other, of the first counterweight component 14 and the second counterweight component 15 can be attached to two sides of the third counterweight component 16, a motor 8 is arranged on one side of the operation table 1, an output end of the motor 8 is connected with a bidirectional threaded rod 81, an installation groove is formed in the operation table 1, one end of the bidirectional threaded rod 81 penetrates through a sliding block 22 to be installed corresponding to the installation groove, a thread groove is formed in the sliding block 22, the sliding block 22 is in threaded connection with the bidirectional threaded rod 81, an installation column 10 and an installation block 11 are arranged on the operation table 1, a plurality of groups of installation columns 10 and installation holes are formed in the installation column 11, the installation post 10 and the installation piece 11 correspond the installation with the inside installation silk seat of counter weight subassembly three 16, operation panel 1 one side is connected with auxiliary plate 12, the bottom and the auxiliary plate 12 bolted connection of motor 8, the below of operation panel 1 is provided with supporting leg 13, and motor 8 and the setting of two-way threaded rod 81 can be adjusted counter weight subassembly one 14 and counter weight subassembly two 15, can make counter weight subassembly one 14 and counter weight subassembly two 15 closely laminate with the both sides of counter weight subassembly three 16 fast, and overall structure is simple, convenient operation, makes counter weight subassembly one 14, counter weight subassembly two 15 and counter weight subassembly three 16 mutually correspond the connection that can be quick, and convenient quick of welding work goes on improves the operating efficiency, reduces the time waste.

In this embodiment, an operator places the first counterweight component 14 above the limit bar 21 near one side of the motor 8, so that the inner wall of the first counterweight component 14 is attached to the outer contour of the cam 2, so that the limit bar 21 and the cam 2 clamp the first counterweight component 14 firmly, then places the second counterweight component 15 above the limit bar 21 far from one side of the motor 8, so that the inner wall of the second counterweight component 15 is attached to the outer contour of the other group of cam 2, so that the other group of limit bar 21 and the cam 2 clamp the second counterweight component 15 firmly, after the first counterweight component 14 and the second counterweight component 15 are correspondingly mounted with the limit bar 21, the mounting wire seats in the first counterweight component 14 and the second counterweight component 15 are correspondingly mounted with the first mounting wire seat 3, the second mounting wire seat 4 and the third mounting wire seat 5 respectively, after the operator places the first counterweight component 14 and the second counterweight component 15 stably correspondingly, then places the third counterweight component 16 above the clamping bar 7, so that the bottoms of two sides of the third counterweight component 16 are correspondingly mounted with the notch positions of the clamping bar 7, and when the third counterweight component 16 is correspondingly mounted with the third clamping bar 7, the third counterweight component 16 is correspondingly mounted with the third mounting wire seat 11 and the third mounting wire seat 11 respectively;

the operator opens the power and makes motor 8 start to work, motor 8 work drives two-way threaded rod 81 and follows the rotation, make two sets of sliders 22 carry out relative motion respectively in spout 9 through the screw thread when two-way threaded rod 81 rotates, drive profile plate 2 and spacing 21 follow the motion when slider 22 moves, profile plate 2 and spacing 21 drive weight subassembly one 14 and weight subassembly two 15 and be close to weight subassembly three 16 simultaneously, after weight subassembly one 14 and weight subassembly two 15 laminate each other with weight subassembly three 16's both sides respectively, motor 8 stops the work, weight subassembly one 14 and weight subassembly two 15 inside mount pad is corresponding with mount pad one 3, mount pad two 4 and mount pad three 5 respectively this moment, make weight subassembly one 14 and weight subassembly two 15 can place more fastening, weight subassembly one 14 and weight subassembly two 15 carry out the centre gripping to weight subassembly three 16 simultaneously, thereby make weight subassembly three 16 place more stable, make things convenient for the going on of welding operation.

The above-described embodiment is only one preferred embodiment of the present utility model, and many alternative modifications and combinations of the above-described embodiments can be made by those skilled in the art based on the technical solutions of the present utility model and the related teachings of the above-described embodiments.

Claims (7)

1. The utility model provides an excavator balancing weight tailor-welded work platform, includes operation panel (1), its characterized in that: two groups of profiling plates (2) are oppositely arranged above the operating platform (1), one installation wire seat (3), two installation wire seats (4) and three installation wire seats (5) are respectively arranged above the operating platform (1) between the two groups of profiling plates (2), a plurality of groups of through holes (6) and annular holes (61) are formed in the one installation wire seat (3), the two installation wire seats (4) and the three installation wire seats (5), one side of each group of profiling plates (2) is provided with a limiting strip (21), the lower part of each profiling plate (2) is connected with a sliding block (22), clamping strips (7) are arranged on two sides above the operating platform (1), a motor (8) is arranged on one side of the operating platform, and the output end of the motor (8) is connected with a bidirectional threaded rod (81).

2. The excavator balancing weight welding tool platform according to claim 1, wherein two groups of sliding grooves (9) are formed in the working table (1), the sliding blocks (22) are arranged to be in a T shape, and the sliding blocks (22) are correspondingly arranged with the sliding grooves (9).

3. The excavator balancing weight welding tool platform according to claim 1, wherein the limiting strips (21) are L-shaped, and the notch positions of the clamping strips (7) correspond to two sides of the profiling plate (2).

4. The excavator balancing weight welding tool platform according to claim 1, wherein the working table (1) is provided with a mounting groove, and one end of the bidirectional threaded rod (81) penetrates through the sliding block (22) to be correspondingly mounted with the mounting groove.

5. The excavator balancing weight welding tool platform according to claim 3, wherein the mounting columns (10) and the mounting blocks (11) are arranged on the excavator balancing weight welding tool platform 1, the mounting columns (10) are provided with a plurality of groups, and mounting holes are formed in the mounting columns (10) and the mounting blocks (11).

6. The excavator balancing weight welding tool platform according to claim 1, wherein an auxiliary plate (12) is connected to one side of the working table (1), the bottom of the motor (8) is connected with the auxiliary plate (12) through bolts, and supporting legs (13) are arranged below the working table (1).

7. The excavator balancing weight welding tool platform according to claim 1, wherein a first counterweight component (14) and a second counterweight component (15) are respectively arranged above the two limiting strips (21), a third counterweight component (16) is arranged on the clamping strip (7), and installation wire seats are respectively arranged inside the first counterweight component (14), the second counterweight component (15) and the third counterweight component (16).