CN115255750B

CN115255750B - Welding equipment and welding method for embedded part of balancing weight

Info

Publication number: CN115255750B
Application number: CN202211186095.1A
Authority: CN
Inventors: 段智勇; 刘英成; 李新; 邱家良; 林连升; 吴承景
Original assignee: Jinan Shengshi Sunshine Machinery Parts Co ltd
Current assignee: Jinan Shengshi Sunshine Machinery Parts Co ltd
Priority date: 2022-09-28
Filing date: 2022-09-28
Publication date: 2022-12-13
Anticipated expiration: 2042-09-28
Also published as: CN115255750A

Abstract

The invention belongs to the related field of embedded block welding, and particularly relates to a welding device and a welding method for a counterweight embedded part.

Description

Welding equipment and welding method for embedded part of balancing weight

Technical Field

Background

Chinese patent publication No. CN110064860A discloses a molding process of a counter weight casting of an electric forklift, specifically disclosing: the traction hole embedded part is embedded in the counterweight casting body and comprises an embedded mud core with a traction hole and a welding cover plate, an integrally welded steel pipe for inserting and connecting a traction pin is embedded in the embedded mud core, and the integrally welded steel pipe and the embedded mud core are formed in one embedding mode. The spring is arranged in the welded steel pipe and propped against the cover plate. The technical scheme has the following defects: this an embedded part structure for pull is miscellaneous compound, because the apron is being pushed up to the spring, just can weld after this body coupling of apron and counter weight foundry goods through the bolt earlier when the welding to need manual operation to carry out installation welding with counter weight support body and balancing weight, consume the manpower, degree of automation is poor. In addition, although the traction hole embedded part is conveniently connected with the traction pin, the risk of slippage of the traction pin also exists.

At present, in order to overcome the problems, an embedded part used for traction is manufactured into an integrated embedded part which comprises an embedded block body and a traction ring fixed on the embedded block body, but at present, equipment for realizing automatic welding of the embedded part does not exist.

Disclosure of Invention

In order to solve the problems that the installation and welding of the counterweight frame body and the counterweight block are required to be carried out by manual operation in the prior art, the labor is consumed, and the automation degree is poor. In addition, although the traction hole embedded part is conveniently connected with the traction pin, the technical problem of the risk of slipping of the traction pin also exists.

A counterweight embedment welding apparatus comprising: base and counter weight support body still include: counterweight frame feed mechanism, pre-buried piece feed mechanism, welding shedding mechanism and ejection of compact support body, counterweight frame feed mechanism installs on the base, and the counterweight support body is placed on counterweight frame feed mechanism, and pre-buried piece feed mechanism installs on counterweight frame feed mechanism, and welding shedding mechanism installs on the base, installs ejection of compact support body on the base, counterweight frame feed mechanism includes: installation riser, ladder frame, motor power, driving disc, telescopic link A, leading truck, spacing piece, connecting axle, place structure and telescopic link B, the installation riser is installed on the base, install ladder frame on the installation riser, motor power installs on the installation riser, the driving disc is installed to motor power's output, telescopic link A's one end fixed mounting is at the eccentric position of driving disc, telescopic link A's other end movable mounting is on the leading truck, be provided with the spacing piece that is used for the leading truck to fix on the leading truck, leading truck and spacing piece cooperation slidable mounting are on ladder frame, have the structure of placing through connecting axle movable mounting on the leading truck, the structure of placing passes through telescopic link B slidable mounting on the base.

Preferably, trapezoidal slider is installed to the one end of telescopic link B, is provided with the trapezoidal spout that uses with trapezoidal slider cooperation on the base.

Preferably, an annular groove for installing the telescopic rod A is arranged on the guide frame.

Preferably, the placing structure comprises: place board, side locating plate, back locating plate, fixed fixture block and thrust spring A, place and install side locating plate and back locating plate on the board, the back locating plate is installed on the connecting axle, places and is provided with the cell body on the board, fixed fixture block and thrust spring A are located the cell body of placing setting on the board, and thrust spring A's both ends are installed respectively on fixed fixture block and place the cell body that sets up on the board, and fixed fixture block contacts with the counter weight support body.

Preferably, the insert feeding mechanism includes: installation support body, feed plate, feed spring, embedded block, tight piece in top, driving rod and thrust spring B, the installation support body is installed on the installation riser, and slidable mounting has the feed plate on the installation support body, installs feed spring between installation support body and the feed plate, and the feed plate contacts with the embedded block, is provided with the spout that is used for installing the driving rod on the installation support body, and thrust spring B installs between driving rod and the installation support body, and the tight piece in top is installed to the one end of driving rod, and the tight piece in top contacts with the embedded block.

Preferably, the shape of the tightening block is triangular.

Preferably, a groove body for withdrawing the jacking block is arranged on the mounting frame body.

Preferably, the welding unloading mechanism comprises: the device comprises an installation underframe, a discharging mechanism and a welding machine, wherein the installation underframe is installed on a base, the discharging mechanism is installed on the installation underframe, and the welding machine is installed on the base.

Preferably, the discharge mechanism comprises: the discharging device comprises a discharging frame, a guide rod, a thrust spring C, a discharging plate and a buffer plate, wherein the discharging frame is installed on an installation bottom frame, the guide rod is installed on the discharging frame in a sliding mode, the discharging plate is installed at one end of the guide rod, the thrust spring C is installed on the guide rod in a sleeved mode, the two ends of the thrust spring C are installed on the discharging plate and the discharging frame respectively, and the buffer plate is installed on the discharging plate.

Another objective of the present invention is to provide a method for using the above counterweight embedded part welding apparatus, including the following steps:

the method comprises the following steps: placing the counterweight frame body on a placing structure of a counterweight frame feeding mechanism, and driving the placing structure to rotate along a guide frame;

step two: adding an embedded block in an embedded block feeding mechanism, and clamping the embedded block into a counterweight frame body in the motion process of a counterweight frame feeding mechanism;

step three: the counterweight frame feeding mechanism moves to the lower part and carries out unloading through the welding unloading mechanism, and welding is completed in the unloading process;

step four: the welded counterweight frame is led out through the discharging frame body.

The invention has the advantages that:

utilize telescopic link A transmission power, can place the structure through the flexible drive of telescopic link A self and move along ladder frame, utilize leading truck and spacing piece cooperation, can realize the fixed of leading truck, can guarantee simultaneously that the leading truck can pass through ladder frame's fillet, utilize trapezoidal slider to slide on the base, can effectually prevent to place the structure and rotate in the motion process, utilize the location that side locating plate and back locating plate can realize the counter weight support body, through fixed fixture block and thrust spring A cooperation, can realize the fixed of counter weight support body, in placing the structure motion process, utilize the side extrusion top tight piece of placing the structure, shape characteristic through the top tight piece, make the top tight piece exert pressure to the driving rod, make top tight piece and pre-buried piece separation withdraw the cell body that sets up on the installing support body, thereby realize the release of pre-buried piece, make pre-buried piece and support body counter weight contact, when the pre-buried piece is in the welding position on the counter weight support body, the pre-buried piece imbeds to the counter weight support body.

Drawings

FIG. 1 is a schematic structural diagram of an entire welding device for embedded parts of balancing weights according to the present invention;

FIG. 2 is a schematic view of an overall supplementary structure of a counterweight embedded part welding device according to the present invention;

FIG. 3 is a schematic structural diagram of a counterweight frame feeding mechanism of a counterweight embedded part welding device according to the present invention;

fig. 4 is a schematic view of a supplementary structure of a counterweight frame feeding mechanism of a counterweight embedded part welding device according to the invention;

FIG. 5 is a schematic view of a partial structure of a counterweight frame feeding mechanism of a counterweight embedded part welding device according to the present invention;

fig. 6 is a schematic diagram of a supplementary local structure of a counterweight frame feeding mechanism of a counterweight embedded part welding device according to the present invention;

FIG. 7 is a schematic structural diagram of a telescopic rod B of the counterweight embedded part welding equipment;

FIG. 8 is a schematic structural diagram of a placement structure of a counterweight embedded part welding device according to the present invention;

FIG. 9 is a schematic cross-sectional view of a placement structure of a counterweight embedded part welding device according to the present invention;

FIG. 10 is a schematic structural view of an embedded block feeding mechanism of an embedded part welding device of a counterweight block;

FIG. 11 is a schematic cross-sectional view of an embedded block feeding mechanism of an embedded part welding device of a counterweight block;

FIG. 12 is a schematic structural diagram of an embedded block of an embedded part welding device of a counterweight block according to the present invention;

FIG. 13 is a schematic structural view of a discharging mechanism of a counterweight embedded part welding device according to the present invention;

FIG. 14 is a schematic structural diagram of a welding and discharging mechanism of a counterweight embedded part welding device according to the present invention;

in the figure: the device comprises a base 1, a counterweight frame body 2, a counterweight frame feeding mechanism 3, an installation vertical plate 301, a step frame 302, a power motor 303, a transmission disc 304, an expansion link A305, a guide frame 306, a limiting sheet 307, a connecting shaft 308, a placing structure 309, a placing plate 30901, a side positioning plate 30902, a rear positioning plate 30903, a fixed clamping block 30904, a thrust spring A30905, an expansion link B310, a trapezoidal sliding block 311, an embedded block feeding mechanism 4, an installation frame body 401, a feeding plate 402, a feeding spring 403, an embedded block 404, a puller block 405, a driving rod 406, a thrust spring B407, a welding and unloading mechanism 5, an installation underframe 501, an

unloading mechanism

502, 503, an unloading frame 50201, a guide rod 50202, a thrust spring C50203, an unloading plate 50204, a buffer plate 50205 and an unloading frame body 6.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the installation methods and technical terms mentioned in the present invention are technical terms that are already clearly known in the technical field, and thus, the explanation thereof is not repeated. Moreover, the same reference numerals are used for the same components, which do not affect nor constitute an exact understanding of the technical solution by those skilled in the art.

The first embodiment is described with reference to fig. 1 to 14:

a counterweight embedment welding apparatus comprising: base 1 and counter weight support body 2 still include: counter weight frame feed mechanism 3, pre-buried piece feed mechanism 4, welding shedding mechanism 5 and ejection of compact support body 6, counter weight frame feed mechanism 3 installs on base 1, and counter weight support body 2 is placed on counter weight frame feed mechanism 3, and pre-buried piece feed mechanism 4 installs on counter weight frame feed mechanism 3, and welding shedding mechanism 5 installs on base 1, installs ejection of compact support body 6 on the base 1, and counter weight frame feed mechanism 3 includes: install riser 301, step frame 302, power motor 303, driving disc 304, telescopic link A305, leading truck 306, spacing piece 307, connecting axle 308, place structure 309 and telescopic link B310, install riser 301 and install on base 1, install step frame 302 on the installation riser 301, power motor 303 installs on installation riser 301, driving disc 304 is installed to power motor 303's output, telescopic link A305's one end fixed mounting is at the eccentric position of driving disc 304, telescopic link A305's other end movable mounting is on leading truck 306, be provided with the spacing piece 307 that is used for leading truck 306 to fix on the leading truck 306, leading truck 306 and spacing piece 307 cooperation slidable mounting are on step frame 302, have through connecting axle 308 movable mounting on leading truck 306 and place structure 309, place structure 309 through telescopic link B310 slidable mounting on base 1, trapezoidal slider 311 is installed to the one end of telescopic link B310, be provided with the trapezoidal spout that uses with trapezoidal slider 311 cooperation on the base 1, be provided with the ring channel that is used for installing telescopic link A305 on leading truck 306, place structure 309 includes: the side positioning plate 30901, the side positioning plate 30902, the rear positioning plate 30903, the fixed fixture block 30904 and the thrust spring A30905, the side positioning plate 30902 and the rear positioning plate 30903 are installed on the positioning plate 30901, the rear positioning plate 30903 is installed on the connecting shaft 308, a groove body is arranged on the positioning plate 30903, the fixed fixture block 30904 and the thrust spring A30905 are positioned in the groove body arranged on the positioning plate 30901, two ends of the thrust spring A30905 are respectively installed on the groove bodies arranged on the fixed fixture block 30904 and the positioning plate 30901, the fixed fixture block 30904 is contacted with the counterweight frame body 2, the positioning plate is arranged in the groove body, power is transmitted by using the telescopic rod A305, the positioning structure 309 can move along the stepped frame 302 by telescopic driving of the telescopic rod A305, the guide frame 306 is matched with the limiting sheet 307, fixing of the guide frame 306 can be realized, meanwhile, the guide frame 306 can be ensured to pass through a round angle of the stepped frame 302, the trapezoidal slider 311 slides on the base 1, the positioning plate 309 can be effectively prevented from rotating in the movement process, the positioning plate 30903 and the positioning plate can be conveniently arranged on the thrust spring A30905, and the positioning plate can be arranged on the counterweight frame 302.

Example two, the following description is made with reference to fig. 10 to 12:

on the basis of the first embodiment, the insert feeding mechanism 4 includes: the installation frame body 401, the feeding plate 402, the feeding spring 403, the embedded block 404, the jacking block 405, the driving rod 406 and the thrust spring B407, the installation frame body 401 is installed on the installation vertical plate 301, the feeding plate 402 is installed on the installation frame body 401 in a sliding mode, the feeding spring 403 is installed between the installation frame body 401 and the feeding plate 402, the feeding plate 402 is in contact with the embedded block 404, a sliding groove for installing the driving rod 406 is formed in the installation frame body 401, the thrust spring B407 is installed between the driving rod 406 and the installation frame body 401, the jacking block 405 is installed at one end of the driving rod 406, the jacking block 405 is in contact with the embedded block 404, the jacking block 405 is triangular, a groove for withdrawing the jacking block 405 is formed in the installation frame body 401, the jacking block 405 and the embedded block 405 are separated and withdrawn to the installation frame body 401 through the side face of the placement structure 309 in the moving process, the jacking block 405 is squeezed by the side face of the placement structure 309, the jacking block 405 is pressed through the shape characteristic of the jacking block 405, the jacking block 405 is separated from the jacking block 405 and withdrawn to the installation frame body 401, the counterweight block 404 is released, the counterweight block 404 is in the counterweight 404, the counterweight 404 is in a position 2, and the counterweight block 404 is automatically welded to be embedded in the weight 2, and the embedded block 404, and the installation frame body is automatically, and the counterweight is reduced in the counterweight 2, and the embedded block 404.

Example three, the description is made with reference to fig. 13 to 14:

on the basis of the first embodiment, the welding unloading mechanism 5 comprises: installation chassis 501, shedding mechanism 502 and welding machine 503, installation chassis 501 installs on base 1, installs shedding mechanism 502 on the installation chassis 501, and welding machine 503 installs on base 1, and shedding mechanism 502 includes: dummy frame 50201, guide bar 50202, thrust spring C50203, stripper 50204 and buffer plate 50205, dummy frame 50201 is installed on installation chassis 501, guide bar 50202 slidable mounting is on dummy frame 50201, stripper 50204 is installed to the one end of guide bar 50202, the cover is equipped with thrust spring C50203 on the guide bar 50202, thrust spring C50203 is installed at the both ends of thrust spring C50203 respectively on stripper 50204 and dummy frame 50201, install buffer plate 50205 on the stripper 50204, so set up, utilize stripper 50204 and the contact of counter weight support body 2, realize the ejecting function of counter weight support body 2, the rubber material is chooseed for use to the material of buffer plate 50205, can effectually avoid rigid contact, thrust spring C50203 can effectually alleviate the impact of stripper 50204 and counter weight support body 2, in the unloading process, counter weight support body 2 is in quiescent condition, can accomplish welding operation through welding machine 503.

the method comprises the following steps: the counterweight frame body is placed on the placing structure of the counterweight frame feeding mechanism, and the placing structure is driven to rotate along the guide frame, so that the functions of positioning, fixing and conveying the counterweight frame body can be realized;

step two: the embedded block is added to the embedded block feeding mechanism, and the embedded block is clamped into the counterweight frame body in the motion process of the counterweight frame feeding mechanism, so that the function of automatically embedding the embedded block can be realized;

step four: the welded counterweight frame is guided out through the discharging frame body, the counterweight frame discharging guide function can be achieved, and the counterweight frame is prevented from colliding.

The working principle of the invention is as follows: the weight frame 2 is placed on the placement plate 30901, the weight frame 2 is brought into contact with the side locating plate 30902 and the rear locating plate 30903, thereby realizing the positioning of the balance weight frame body 2, when the balance weight frame body 2 is contacted with the side positioning plate 30902 and the rear positioning plate 30903, the fixed fixture block 30904 is clamped on the balance weight frame body 2 through the elasticity of the thrust spring A30905 to realize the fixation of the position of the balance weight frame body 2, the power motor 303 is started, the power motor 303 drives the transmission disc 304 to rotate, the transmission disc 304 rotates to drive the guide frame 306 to slide on the step frame 302 through the telescopic rod A305, so as to realize the driving of the placing plate 30901, the telescopic rod B310 is driven to slide in the trapezoidal sliding groove arranged on the base 1 through the trapezoidal sliding block 311 in the moving process of the placing plate 30901, thereby restricting the movement of the placing plate 30901, preventing the placing plate 30901 from rotating during the movement, when the placing plate 30901 moves to the position of the embedded block feeding mechanism 4, the rear positioning plate 30903 is matched with the inclined surface of the jacking block 405, so that the jacking block 405 is retracted to the groove body arranged on the mounting frame body 401, at the moment, the embedded block 404 is contacted with the balance weight frame body 2 through the pressure applied to the embedded block 404 by the feeding plate 402 and the feeding spring 403, when the weight frame body 2 moves to the welding position and coincides with the embedded block 404, the embedded block 404 is clamped into the weight frame body 2, the rear positioning plate 30903 is separated from the embedded block feeding mechanism 4, the thrust spring B407 releases elastic potential energy, so that the driving rod 406 extends out, thereby enabling the jacking block 405 to contact the fastener block 404, further realizing the fixation of the fastener block 404 and preventing the fastener block 404 from falling off, when the placement plate 30901 is moved until the weight frame 2 comes into contact with the buffer plate 50205, the weight frame 2 is stopped from being separated from the placement plate 30901 by the buffer plate 50205, in the separation process, the balance weight frame body 2 is in a static state, and the welding machine 503 is started at the moment to realize the function of completing welding.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof; the present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and any minor modifications, equivalent replacements and improvements made to the above embodiment according to the technical spirit of the present invention should be included in the protection scope of the technical solution of the present invention.

Claims

1. A counterweight embedment welding apparatus comprising: base (1) and counter weight support body (2), its characterized in that: further comprising: counter weight frame feed mechanism (3), pre-buried piece feed mechanism (4), welding discharge mechanism (5) and ejection of compact support body (6), install on base (1) counter weight frame feed mechanism (3), place on counter weight frame feed mechanism (3) counter weight support body (2), install on counter weight frame feed mechanism (3) pre-buried piece feed mechanism (4), install on base (1) welding discharge mechanism (5), install ejection of compact support body (6) on base (1), counter weight frame feed mechanism (3) include: the mounting structure comprises a mounting vertical plate (301), a step frame (302), a power motor (303), a transmission disc (304), a telescopic rod A (305), a guide frame (306), a limiting piece (307), a connecting shaft (308), a placing structure (309) and a telescopic rod B (310), wherein the mounting vertical plate (301) is mounted on a base (1), the step frame (302) is mounted on the mounting vertical plate (301), the power motor (303) is mounted on the mounting vertical plate (301), the transmission disc (304) is mounted at the output end of the power motor (303), one end of the telescopic rod A (305) is fixedly mounted at the eccentric position of the transmission disc (304), the other end of the telescopic rod A (305) is movably mounted on the guide frame (306), the limiting piece (307) used for fixing the guide frame (306) is arranged on the guide frame (306), the guide frame (306) and the limiting piece (307) are matched and slidably mounted on the step frame (302), the guide frame (306) is movably mounted with the placing structure (309) through the connecting shaft (308), and the telescopic rod placing structure (309) is slidably mounted on the base (1) through the B (310);

the placement structure (309) comprises: the counterweight support comprises a placement plate (30901), a side positioning plate (30902), a rear positioning plate (30903), a fixed fixture block (30904) and a thrust spring A (30905), wherein the side positioning plate (30902) and the rear positioning plate (30903) are installed on the placement plate (30901), the rear positioning plate (30903) is installed on a connecting shaft (308), a groove body is arranged on the placement plate (30901), the fixed fixture block (30904) and the thrust spring A (30905) are located in the groove body arranged on the placement plate (30901), two ends of the thrust spring A (30905) are respectively installed on the fixed fixture block (30904) and the groove body arranged on the placement plate (30901), and the fixed fixture block (30904) is in contact with the counterweight support body (2);

the embedded block feeding mechanism (4) comprises: the mounting frame body (401), feed plate (402), feed spring (403), pre-buried piece (404), puller block (405), drive rod (406) and thrust spring B (407), mounting frame body (401) is installed on installation riser (301), slidable mounting has feed plate (402) on mounting frame body (401), install feed spring (403) between mounting frame body (401) and feed plate (402), feed plate (402) contacts with pre-buried piece (404), be provided with the spout that is used for installing drive rod (406) on mounting frame body (401), thrust spring B (407) is installed between drive rod (406) and mounting frame body (401), puller block (405) is installed to the one end of drive rod (406), puller block (405) contacts with pre-buried piece (404).

2. The counterweight embedded part welding device according to claim 1, characterized in that: trapezoidal slider (311) is installed to the one end of telescopic link B (310), is provided with on base (1) with trapezoidal spout that trapezoidal slider (311) cooperation was used.

3. The counterweight embedded part welding device according to claim 1, characterized in that: and an annular groove for installing a telescopic rod A (305) is formed in the guide frame (306).

4. The counterweight embedded part welding device according to claim 1, characterized in that: the shape of the jacking block (405) is triangular.

5. The counterweight embedded part welding device according to claim 1, characterized in that: the mounting frame body (401) is provided with a groove body for withdrawing the jacking block (405).

6. The counterweight embedded part welding device according to claim 1, characterized in that: the welding discharging mechanism (5) comprises: the device comprises an installation underframe (501), a discharging mechanism (502) and a welding machine (503), wherein the installation underframe (501) is installed on a base (1), the discharging mechanism (502) is installed on the installation underframe (501), and the welding machine (503) is installed on the base (1).

7. The counterweight embedded part welding device according to claim 6, wherein: the discharge mechanism (502) comprises: dummy bar (50201), guide bar (50202), thrust spring C (50203), stripper (50204) and buffer plate (50205), dummy bar (50201) are installed on installation chassis (501), guide bar (50202) slidable mounting is on dummy bar (50201), stripper (50204) are installed to the one end of guide bar (50202), the cover is equipped with thrust spring C (50203) on guide bar (50202), the both ends of thrust spring C (50203) are installed respectively on dummy bar (50204) and dummy bar (50201), install buffer plate (50205) on dummy bar (50204).

8. The use method of a counterweight embedded part welding device according to any one of claims 1 to 7, characterized in that: placing the counterweight frame body on a placing structure of the counterweight frame feeding mechanism, and driving the placing structure to rotate along the guide frame;

adding an embedded block in an embedded block feeding mechanism, and clamping the embedded block into a counterweight frame body in the motion process of a counterweight frame feeding mechanism;

the counterweight frame feeding mechanism moves to the lower part to unload materials through the welding unloading mechanism, and welding is completed in the unloading process;

the welded counterweight frame is led out through the discharging frame body.