CN219944865U - Multipurpose automatic soldering machine - Google Patents

Abstract

The utility model discloses a multipurpose automatic soldering machine, which is characterized in that a circular clamping assembly is arranged in a mounting groove on a rotating disc, a clamping mechanism is arranged on a supporting plate A on the clamping assembly, a clamping plate on the clamping mechanism is driven to rotate after a motor A is started, a gear B meshed with the gear A is driven to rotate, a screw B provided with the gear B rotates, moving blocks symmetrically arranged on the screw B move symmetrically, a solder product is clamped by the clamping plate arranged on the connecting rod B on the moving blocks, meanwhile, a rotating mechanism A on the rotating disc drives the rotating disc to rotate, the product clamped by the clamping assembly moves to a soldering device to solder the product, and meanwhile, in the soldering process, the product clamped by the clamping mechanism is driven to rotate under the driving of a rotating mechanism C to drive the soldering product to rotate in soldering positions, so that the full-automatic soldering machine can solder different positions of the product, and the soldering efficiency of the automatic soldering machine is improved.

Description

Multipurpose automatic soldering machine

Technical Field

The utility model relates to the technical field of mechanical equipment, in particular to a multipurpose automatic soldering machine.

Background

In industries such as electronic automobiles, integrated circuits, liquid crystal display screens and the like, the welding of electronic elements and small parts such as connectors, loudspeakers and the like is usually completed manually, and the welding quality is unstable due to the fact that multiple persons are needed to match, and the welded finished product also needs to be subjected to short circuit test manually, so that the workload is huge, the whole process consumes large manpower, and the efficiency is low.

Therefore, a semi-automatic tin soldering machine appears in the market, and the problems of efficiency and precision of manual tin soldering can be well solved, so that the semi-automatic tin soldering machine is widely applied in the industrial field. However, such equipment still needs to be manually placed, and to smaller products, on the one hand, the manual placement is troublesome, and meanwhile, the requirements of the products on control precision are higher, and the conventional soldering machine is difficult to fully meet the manufacturing requirements, so that the automation level and the soldering quality of the soldering machine are required to be further improved.

The patent discloses a multipurpose automatic soldering machine (issued notice number: CN 210996959U) of the national bureau of patent, which provides an adjustable soldering mechanism in the patent, so that the soldering mechanism can solder different products, simultaneously solder a plurality of products, ensure the quality of soldering tin and improve the working efficiency.

The soldering machine in the above patent can not rotate in the process of soldering tin to different products, adjusts the soldering position, and influences the soldering tin efficiency of the products. Meanwhile, in the welding process, the feeding and discharging devices cannot timely feed and discharge products in time, and the soldering efficiency of the automatic soldering machine on the products is affected.

Disclosure of Invention

In view of the foregoing drawbacks or shortcomings of the prior art, it is desirable to provide a multipurpose automatic soldering machine.

According to the technical scheme provided by the embodiment of the utility model, the multipurpose automatic soldering machine comprises a workbench and a feeding component, wherein a feeding plate and a discharging plate are arranged on the workbench, the feeding component is arranged on the feeding plate, the discharging component is arranged on the discharging plate, the feeding component and the discharging component are structurally suitable, a rotary disc and a soldering device are further arranged on the workbench, the rotary disc is connected with the workbench through a rotary mechanism A, and a clamping component is arranged in a mounting groove on the rotary disc.

In the utility model, the feeding component comprises a sucker, a screw A, a lifting mechanism, a connecting rod, a supporting rod and a rotating mechanism B, wherein the sucker is arranged at the bottom end of the screw A, the screw A is arranged on the lifting mechanism on the connecting rod, the connecting rod is arranged on the supporting rod, and the rotating mechanism B is arranged at the bottom end of the supporting rod.

In the utility model, the lifting mechanism comprises a motor C, a gear E and a gear F, wherein the gear F is arranged on the screw A, the gear F is meshed with the gear E, and the gear E is connected with the motor C through a rotating shaft C.

In the utility model, the feeding component and the discharging component are symmetrically arranged on the workbench.

In the utility model, the clamping component comprises a rotating mechanism C, a supporting plate A, a supporting plate B and a clamping mechanism, wherein the rotating mechanism C is arranged at the bottom end of the supporting plate B, a connecting plate is arranged on the supporting plate B and is connected with a screw rod B on the clamping mechanism, the supporting plate A is arranged at the top end of the supporting plate B,

in the utility model, the clamping component is annularly arranged in the mounting groove on the rotating disk.

In the utility model, the clamping mechanism comprises a motor A, a gear B, a screw B, a moving block, a connecting rod B and a clamping plate, wherein the clamping plate is arranged on the connecting rod B, the connecting rod B is arranged on the moving block, the moving block is connected with the screw B through a bearing, the gear B is arranged on the screw B, the gear B is meshed with the gear A, and the gear A is connected with the motor A through a rotating shaft A.

In the utility model, the supporting plate A is provided with a moving groove, and the connecting rod B on the clamping mechanism is arranged in the moving groove.

In the utility model, the moving block, the connecting rod B and the clamping plate are symmetrically arranged on the screw rod B, and the threads on the screw rod B are symmetrically arranged on the screw rod B.

In the utility model, the rotating mechanism B and the rotating mechanism C are structurally matched with the rotating mechanism A, the rotating mechanism C comprises a motor B, a gear C, a gear D and a connecting rod C, the gear D is arranged on the connecting rod C and meshed with the gear C, and the gear C is meshed with the motor B through a rotating shaft B.

In summary, the utility model has the following beneficial effects:

1. the feeding assembly and the discharging assembly are arranged on a feeding plate and a discharging plate on the workbench, so that sucking discs on the feeding assembly and the discharging assembly adsorb solder products in the ascending and descending processes of a screw B, after the sucking discs adsorb the products, a motor B on a rotating mechanism B is started to drive a gear C to rotate, a gear D meshed with the gear C is made to rotate, a supporting rod provided with the gear D is made to rotate, a screw A on a connecting rod A arranged on the supporting rod is made to rotate, the sucking discs arranged on the screw A are convenient to move the adsorbed products onto a clamping assembly on a rotating disc, and meanwhile the sucking discs are convenient to move the adsorbed products onto the discharging plate from the clamping assembly, so that the soldering tin efficiency of the full-automatic soldering machine is improved;

2. rotary disk and clamping assembly, through installing in the mounting groove on the rotary disk and be annular clamping assembly, make the last fixture of backup pad A of clamping assembly, make the grip block on the fixture start the back at motor A, drive gear A rotatory, make gear A meshed gear B rotatory, install gear B's screw rod B rotatory, be the symmetry form and install the movable block on screw rod B and be the symmetry form and remove, the grip block butt welding tin product of installing on the movable block is carried out the grip block and is centre gripping, rotary mechanism A on the rotary disk drives the rotary disk rotatory simultaneously, make the product of clamping assembly centre gripping remove to the soldering tin device on, carry out soldering tin to the product, simultaneously at the soldering tin in-process, make the product of fixture centre gripping rotate under rotary mechanism C drive, drive soldering tin product rotary position, make full-automatic soldering tin machine carry out soldering tin to the different positions of product, improve automatic soldering tin machine's soldering tin efficiency.

Drawings

Other features, objects and advantages of the present utility model will become more apparent upon reading of the detailed description of non-limiting embodiments, made with reference to the accompanying drawings in which:

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

FIG. 2 is a schematic cross-sectional view of a stage according to the present utility model;

FIG. 3 is a schematic cross-sectional view of a front-view stage according to the present utility model;

FIG. 4 is a schematic diagram of an exploded construction of the present utility model;

FIG. 5 is a schematic diagram of a feeding assembly according to the present utility model;

FIG. 6 is a schematic cross-sectional view of a rotary disk according to the present utility model;

FIG. 7 is a schematic view of a clamping assembly according to the present utility model;

fig. 8 is a schematic diagram of a connection structure between a clamping mechanism and a rotating mechanism C according to the present utility model.

Reference numerals in the drawings: the device comprises a workbench-1, a feeding plate-1.1, a discharging plate-1.2, a feeding component-2, a sucking disc-2.1, a screw A-2.2, a lifting mechanism-2.3, a connecting rod-2.4, a supporting rod-2.5, a rotating mechanism B-2.6, a rotating disc-3, a mounting groove-3.1, a soldering device-4, a discharging device-5, a clamping component-6, a supporting plate A-6.1, a motor A-6.2, a gear A-6.3, a gear B-6.4, a moving groove-6.12, a rotating mechanism C-6.5, a connecting rod C-6.51, a gear D-6.53, a gear C-6.52, a motor B-6.54, a screw B-6.6, a connecting plate-6.7, a supporting plate B-6.8, a moving block-6.9, a connecting rod B-6.10, a clamping plate-6.11 and a rotating mechanism A-7.

Detailed Description

The utility model is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the utility model and are not limiting of the utility model. It should be noted that, for convenience of description, only the portions related to the utility model are shown in the drawings.

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other. The utility model will be described in detail below with reference to the drawings in connection with embodiments.

As shown in fig. 1, fig. 2 and fig. 3, a multipurpose automatic soldering tin machine is disclosed, a loading plate 1.1 and a blanking plate 1.2 are installed on a workbench 1, a loading assembly 2 is installed on the loading plate 1.1, a blanking assembly 5 is installed on the blanking plate 1.2, the loading assembly 2 and the blanking assembly 5 are symmetrically installed on the workbench 1, the loading assembly 2 moves a product onto a clamping assembly 6 on a rotating disc 3, a rotating disc 3 and a soldering tin device 4 are also installed on the workbench 1, the rotating disc 3 is connected with the workbench 1 through a rotating mechanism A7, the rotating disc 3 rotates to the soldering tin device 4 under the driving of the rotating mechanism A7 to solder the product, a clamping assembly 6 is installed in an installation groove 3.1 on the rotating disc 3, after the welding is finished, the rotating disc 3 rotates under the driving of the rotating mechanism A7, the feeding assembly 5 is moved, and a sucker 2.1 on the blanking assembly 5 is driven by the rotating mechanism B2.6 to perform blanking, so that the efficiency of the automatic soldering tin machine is improved.

As shown in fig. 1, fig. 4 and fig. 5, in the process of feeding and discharging the product, the structure of the feeding component 2 and the structure of the discharging component 5 are suitable, the sucking disc 2.1 on the feeding component 2 is arranged at the bottom end of the screw rod a2.2, the screw rod a2.2 is arranged on the lifting mechanism 2.3 on the connecting rod 2.4, the connecting rod 2.4 is arranged on the supporting rod 2.5, and the bottom end of the supporting rod 2.5 is provided with the rotating mechanism B2.6; through install material loading subassembly 2 and unloading subassembly 5 that structure looks is installed on material loading board 1.1 and unloading board 1.2 on workstation 1, make material loading subassembly 2 and the sucking disc 2.1 on the unloading subassembly 5 rise and descend the in-process at screw rod B2.2, adsorb solder tin product, after sucking disc 2.1 adsorbs the product, make motor B6.24 on rotary mechanism B2.6 start, drive gear C6.53 rotatory, make the gear D6.52 rotatory with gear C6.53 meshing, the bracing piece 2.5 rotation of installing gear D6.52, make the screw rod A2.2 rotation on the connecting rod A2.4 of installing on the bracing piece 2.5, be convenient for sucking disc 2.1 on the screw rod A2.2 remove the product of absorption to the centre gripping subassembly 6 on the rotary disk 3, simultaneously also be convenient for sucking disc 2.1 remove the unloading board 1.2 from centre gripping subassembly 6 with the product of absorption, improve the soldering tin efficiency of full-automatic machine.

As shown in fig. 5, in the process of feeding and discharging the product, the lifting mechanism 2.3 gear F mounted on the feeding assembly 2 and the discharging assembly 5 is mounted on the screw a2.2, the gear F is meshed with the gear E, the gear E is connected with the motor C through the rotating shaft C, the lifting mechanism is mounted on the feeding assembly 2 and the discharging assembly 5, the motor C on the lifting mechanism 2.3 is started to drive the gear E connected with the motor C to rotate, the gear F meshed with the gear E is rotated, the screw a2.2 mounted on the gear F is rotated to rise and fall, the sucker 2.1 mounted on the screw a2.2 is used for feeding and discharging the product, and the soldering tin efficiency of the automatic soldering tin machine is improved.

As shown in fig. 4, 6 and 7, in the process of soldering a product, a clamping component 6 rotating mechanism C6.5 is mounted at the bottom end of a supporting plate B6.8, a connecting plate 6.7 is mounted on the supporting plate B6.8, the connecting plate 6.7 is connected with a screw rod B6.6 on the clamping mechanism, a supporting plate a6.1 is mounted at the top end of the supporting plate B6.8, the clamping component 6 is annularly mounted in a mounting groove 3.1 on a rotating disk 3, a clamping plate 6.11 of the clamping mechanism is mounted on a connecting rod B6.10, the connecting rod B6.10 is mounted on a moving block 6.9, the moving block 6.9 is connected with the screw rod B6.6 through a bearing, a gear B6.4 is mounted on the screw rod B6.6, the gear B6.4 is meshed with a gear a6.3, the gear a6.3 is connected with a motor a6.2 through a rotating shaft a, a moving groove 6.12 is arranged on the supporting plate a6.1, the connecting rod B6.10 on the clamping mechanism is annularly mounted in the moving groove 6.12, and the screw rod B6.6.6 is symmetrically arranged on the screw rod B6.6 in a thread shape; through installing in the mounting groove 3.1 on the rotary disk 3 and being annular clamping assembly 6, make the last fixture of backup pad A6.1 on the clamping assembly 6, make the grip block 6.11 on the fixture start at motor A6.2 after, drive gear A6.3 rotation, make the gear B6.4 rotation of gear A6.3 meshing, install the screw rod B6.6 rotation of gear B6.4, be the symmetry form and remove at the movable block 6.9 on screw rod B6.6, carry out the centre gripping to the soldering tin product to the grip block 6.11 of installing on the movable block 6.9 on connecting rod B6.10, rotary mechanism A7 on the rotary disk 3 drives the rotary disk 3 rotation simultaneously, make the product of clamping assembly 6 centre gripping remove to on the soldering tin device 4, carry out soldering tin to the product.

As shown in fig. 7 and 8, in the process of soldering the product, a gear D6.52 is mounted on a connecting rod C6.51 of the rotating mechanism C6.5, the gear D6.52 is meshed with a gear C6.53, and the gear C6.53 is meshed with a motor B6.54 through a rotating shaft B; the product clamped by the clamping mechanism is driven by the motor B6.54 of the rotating mechanism C6.5 to drive the gear C6.53 to rotate, the gear D6.52 meshed with the gear C6.53 rotates, the connecting rod C6.51 provided with the gear D6.52 rotates, the supporting plate B6.8 and the supporting plate A6.1 connected with the connecting rod C6.51 are driven to rotate, the soldering tin product clamped by the clamping mechanism rotates in a soldering tin position, the full-automatic soldering tin machine is enabled to solder tin different positions of the product, and the soldering tin efficiency of the automatic soldering tin machine is improved. .

The above description is only illustrative of the preferred embodiments of the utility model and the technical principles employed. Meanwhile, the scope of the utility model is not limited to the technical scheme formed by the specific combination of the technical features, and other technical schemes formed by any combination of the technical features or the equivalent features thereof without departing from the inventive concept are also covered. Such as the above-mentioned features and the technical features disclosed in the present utility model (but not limited to) having similar functions are replaced with each other.

Claims (7)

1. The utility model provides a multi-purpose automatic soldering tin machine, includes workstation (1) and material loading subassembly (2), characterized by: install loading board (1.1) and flitch (1.2) on workstation (1), install on loading board (1.1) loading subassembly (2), install unloading subassembly (5) on flitch (1.2), loading subassembly (2) with unloading subassembly (5) structural phase, just still install rotary disk (3) and soldering tin device (4) on workstation (1), rotary disk (3) pass through rotary mechanism A (7) with workstation (1) is connected, install clamping assembly (6) in mounting groove (3.1) on rotary disk (3).

2. The multipurpose automatic soldering machine according to claim 1, wherein: the feeding assembly (2) comprises a sucker (2.1), a screw A (2.2), a lifting mechanism (2.3), a connecting rod A (2.4), a supporting rod (2.5) and a rotating mechanism B (2.6), wherein the sucker (2.1) is arranged at the bottom end of the screw A (2.2), the screw A (2.2) is arranged on the lifting mechanism (2.3) on the connecting rod A (2.4), the connecting rod A (2.4) is arranged on the supporting rod (2.5), and the rotating mechanism B (2.6) is arranged at the bottom end of the supporting rod (2.5).

3. The multipurpose automatic soldering machine according to claim 1, wherein: the clamping assembly (6) comprises a rotating mechanism C (6.5), a supporting plate A (6.1), a supporting plate B (6.8) and a clamping mechanism, wherein the rotating mechanism C (6.5) is installed at the bottom end of the supporting plate B (6.8), a connecting plate (6.7) is installed on the supporting plate B (6.8), the connecting plate (6.7) is connected with a screw rod B (6.6) on the clamping mechanism, and the supporting plate A (6.1) is installed at the top end of the supporting plate B (6.8).

4. A multipurpose automatic soldering machine according to claim 3, characterized in that: the clamping mechanism comprises a motor A (6.2), a gear A (6.3), a gear B (6.4), a screw B (6.6), a moving block (6.9), a connecting rod B (6.10) and a clamping plate (6.11), wherein the clamping plate (6.11) is arranged on the connecting rod B (6.10), the connecting rod B (6.10) is arranged on the moving block (6.9), the moving block (6.9) is connected with the screw B (6.6) through a bearing, the gear B (6.4) is arranged on the screw B (6.6), the gear B (6.4) is meshed with the gear A (6.3), and the gear A (6.3) is connected with the motor A (6.2) through a rotating shaft A.

5. A multipurpose automatic soldering machine according to claim 3, characterized in that: the support plate A (6.1) is provided with a moving groove (6.12), and the connecting rod B (6.10) on the clamping mechanism is arranged in the moving groove (6.12).

6. A multipurpose automatic soldering machine according to claim 3, characterized in that: the rotating mechanism C (6.5) is structurally matched with the rotating mechanism A (7), the rotating mechanism C (6.5) comprises a motor B (6.54), a gear C (6.53), a gear D (6.52) and a connecting rod C (6.51), the connecting rod C (6.51) is provided with the gear D (6.52), the gear D (6.52) is meshed with the gear C (6.53), and the gear C (6.53) is meshed with the motor B (6.54) through a rotating shaft B.

7. The multipurpose automatic soldering machine according to claim 1, wherein: the feeding component (2) and the discharging component (5) are symmetrically arranged on the workbench (1).