CN220560625U

CN220560625U - Soldering machine

Info

Publication number: CN220560625U
Application number: CN202322143081.8U
Authority: CN
Inventors: 王喜明
Original assignee: Foshan Dibang Electronics Co ltd
Current assignee: Foshan Dibang Electronics Co ltd
Priority date: 2023-08-09
Filing date: 2023-08-09
Publication date: 2024-03-08
Anticipated expiration: 2033-08-09

Abstract

The utility model discloses a soldering machine which comprises a frame, a conveying device and a soldering device, wherein the conveying device and the soldering device are arranged on the frame, the conveying device is correspondingly arranged with the soldering device, the soldering device comprises a tin wire automatic conveying assembly, a heating coil and a blanking pipe, a through hole is arranged on the blanking pipe, the tin wire automatic conveying assembly corresponds to the through hole, and the heating coil is wound on the outer side of the lower part of the blanking pipe. The automatic tin wire conveying assembly is provided with the heating coil, so that when the tin wire is conveyed to the blanking pipe by the automatic tin wire conveying assembly, the tin wire penetrates through the through hole and stretches out, heat of the heating coil is conducted to the tin wire, the tin wire is heated and melted, and the coil conveyed by the conveying device is subjected to tin soldering treatment without manual tin soldering; meanwhile, the heating coil is used for heating, so that the existing soldering bit is replaced, the tin wire is directly melted, the loss of materials is greatly reduced, the production cost is reduced, and the operation is convenient.

Description

Soldering machine

Technical Field

The utility model belongs to encapsulation paper equipment, and particularly relates to a soldering machine for a motor coil.

Background

When various commonly used coils such as the existing microwave oven coil, transformer coil and the like are soldered, manual soldering iron is adopted for soldering, so that more manpower is consumed, and the processing efficiency is low; the soldering iron head generates high temperature to carry out soldering treatment during soldering, and the head of the soldering iron head is easy to damage, belongs to a consumable product and needs to be replaced frequently. In order to improve the soldering efficiency, some soldering is performed by adopting equipment to automatically position the soldering, such as an automatic soldering machine positioning and adjusting device disclosed in the application number 201320412111.4, but the soldering machine adopts a soldering bit to perform soldering treatment, and the soldering bit is easy to damage, so that the soldering bit needs to be replaced frequently, and the material cost is increased.

Disclosure of Invention

The present utility model aims to provide a soldering machine capable of solving at least one of the above problems.

According to one aspect of the utility model, a soldering machine is provided, which comprises a frame, a conveying device and a soldering device, wherein the conveying device and the soldering device are arranged on the frame, the conveying device is arranged corresponding to the soldering device, the soldering device comprises a tin wire automatic conveying component, a heating coil and a blanking pipe, a through hole is arranged on the blanking pipe, the tin wire automatic conveying component corresponds to the through hole, and the heating coil is wound on the outer side of the lower part of the blanking pipe.

The beneficial effects of the utility model are as follows: the automatic tin wire conveying assembly is provided with the heating coil, so that when the tin wire is conveyed to the blanking pipe by the automatic tin wire conveying assembly, the tin wire penetrates through the through hole and stretches out, heat of the heating coil is conducted to the tin wire, the tin wire is heated and melted, and the coil conveyed by the conveying device is subjected to tin soldering treatment without manual tin soldering; meanwhile, the heating coil is used for heating, so that the existing soldering bit is replaced, the tin wire is directly melted, the loss of materials is greatly reduced, the production cost is reduced, and the operation is convenient.

In some embodiments, the soldering machine further comprises a mounting frame, the automatic tin wire conveying assembly is arranged on the mounting frame, the automatic tin wire conveying assembly comprises a feeding motor and a plurality of conveying rollers, one conveying roller is connected with an output shaft of the feeding motor, the tin wire is wound on the conveying roller, and the feeding motor is fixed on the mounting frame. Therefore, automatic conveying of the tin wire is realized through the feeding motor and the conveying roller.

In some embodiments, the soldering device further comprises a lifting assembly, a front-back driving assembly and a left-right driving assembly, wherein the lifting assembly is arranged on the frame, the left-right driving assembly is connected with the lifting assembly, the front-back driving assembly is arranged on the left-right driving assembly, and the mounting frame is fixed on the front-back driving assembly. Therefore, the mounting frame can be conveniently moved up and down, back and forth and left and right, and soldering tin treatment can be conveniently carried out at the corresponding position.

In some embodiments, the lifting assembly comprises a lifting motor, a first screw rod and a lifting block, wherein the lifting motor is fixed on the frame, the first screw rod is connected with an output shaft of the lifting motor, the lifting block is sleeved on the first screw rod and is in threaded connection with the first screw rod, and the left and right driving assemblies are connected with the lifting block. Therefore, the lifting of the lifting block is conveniently controlled, and the left and right driving assembly is driven to realize lifting.

In some embodiments, the left-right driving assembly comprises a first driving motor, a second screw rod and a first sliding block, the first driving motor is fixed on the lifting block, a first sliding rail is arranged on the lifting block, the second screw rod is connected with an output shaft of the first driving motor, the first sliding block is sleeved on the second screw rod and is in threaded connection with the second screw rod, the first sliding block is arranged on the first sliding rail, and the front-back driving assembly is connected with the first sliding block. Therefore, the front-back driving assembly is conveniently driven to realize left-right movement.

In some embodiments, the front-rear driving assembly comprises a second driving motor, a third screw rod and a second sliding block, wherein the second driving motor is fixed on the first sliding block, the third screw rod is connected with an output shaft of the second driving motor, the second sliding block is sleeved on the third screw rod and is in threaded connection with the third screw rod, and the installation frame is fixed on the second sliding block. Therefore, the mounting frame is driven to move back and forth.

In some embodiments, the first sliding block is provided with a second sliding rail, the second sliding rail is perpendicular to the first sliding rail, and the second sliding block is matched with the second sliding rail. Thereby facilitating smooth movement of the second slider.

In some embodiments, the conveying device comprises a conveying track, a conveying motor, a fourth screw rod, a third sliding block and a clamping cylinder, wherein the conveying track is fixed on the frame and positioned below the blanking pipe, the conveying motor is fixed on the frame, the fourth screw rod is connected with an output shaft of the conveying motor, the third sliding block is sleeved on the fourth screw rod and is in threaded connection with the fourth screw rod, and the clamping cylinder is fixed on the third sliding block and corresponds to the conveying track. Therefore, the coil is conveniently driven to move on the conveying track through the conveying motor, and automatic conveying of the workpiece is realized.

Drawings

Fig. 1 is a schematic structural view of a soldering machine according to the present utility model.

Fig. 2 is a schematic structural view of another view of the soldering machine according to the present utility model.

Fig. 3 is a schematic diagram of a soldering apparatus in the soldering machine according to the present utility model.

Detailed Description

The utility model is described in further detail below with reference to the accompanying drawings.

Reference is made to fig. 1 to 3. The soldering machine comprises a frame 1, a conveying device 2 and a soldering device 3, wherein the conveying device 2 and the soldering device 3 are arranged on the frame 1, the conveying device 2 and the soldering device 3 are correspondingly arranged, the soldering device 3 comprises a tin wire automatic conveying component 31, a heating coil 32 and a blanking pipe 33, a through hole 331 is formed in the blanking pipe 33, the tin wire automatic conveying component 31 corresponds to the through hole 331, and the heating coil 32 is wound on the outer side of the lower portion of the blanking pipe 33.

When the soldering machine is used, the coil is conveyed to the soldering device 3 through the conveying device 2; the tin wire is carried through tin wire automatic conveying subassembly 31, carries the through-hole 331 department of unloading pipe 33 with the tin wire, and heating coil 32 heats, and heating coil 32 is electromagnetic heating coil, makes things convenient for heating coil 32 to heat the tin wire for the tin wire high temperature melts, carries out soldering tin to the work piece of unloading pipe 33 below and handles, accomplishes soldering tin, and processing is convenient.

The soldering machine further comprises a mounting frame 4, the automatic tin wire conveying assembly 31 is arranged on the mounting frame 4, the automatic tin wire conveying assembly 31 comprises a feeding motor 311 and a plurality of conveying rollers 312, one conveying roller 312 is connected with an output shaft of the feeding motor 311, the tin wire is wound on the conveying roller 312, and the feeding motor 311 is fixed on the mounting frame 4. In the actual use process, the tin wire is wound on each conveying roller 312, and the tin wire can be pulled to be discharged to the discharging pipe 33 through the rotation of the feeding motor 311, so that continuous automatic feeding of the tin wire is realized, and continuous processing of workpieces is facilitated.

The soldering device 3 further comprises a lifting assembly 34, a front-back driving assembly 35 and a left-right driving assembly 36, the lifting assembly 34 is arranged on the frame 1, the left-right driving assembly 36 is connected with the lifting assembly 34, the front-back driving assembly 35 is arranged on the left-right driving assembly 36, and the mounting frame 4 is fixed on the front-back driving assembly 35.

Specifically, the lifting assembly 34 includes a lifting motor 341, a first screw rod 342 and a lifting block 343, the lifting motor 341 is fixed on the frame 1, the first screw rod 342 is connected with an output shaft of the lifting motor 341, the lifting block 343 is sleeved on the first screw rod 342 and is in threaded connection with the first screw rod 342, and the left and right driving assembly 36 is connected with the lifting block 343.

When the height position of the blanking pipe 33 needs to be adjusted, the lifting motor 341 is started, the rotation direction of the first screw rod 342 can be controlled through the rotation direction of the lifting motor 341, so that the lifting block 343 moves upwards or downwards relative to the first screw rod 342, the left and right driving assembly 36 is driven to correspondingly lift, the front and rear driving assembly 35 drives the mounting frame 4 to lift, lifting of the blanking pipe 33 is achieved, adjustment of the height distance between the blanking pipe 33 and workpieces conveyed by the conveying device 2 is achieved, and machining of workpieces with different height sizes is achieved conveniently.

The left-right driving assembly 36 comprises a first driving motor 361, a second screw rod 362 and a first sliding block 363, the first driving motor 361 is fixed on the lifting block 343, a first sliding rail 364 is arranged on the lifting block 343, the second screw rod 362 is connected with an output shaft of the first driving motor 361, the first sliding block 363 is sleeved on the second screw rod 362 and is in threaded connection with the second screw rod 362, the first sliding block 363 is arranged on the first sliding rail 364, and the front-rear driving assembly 35 is connected with the first sliding block 363. Similarly, when the discharging pipe 33 needs to be adjusted in left and right positions, the first driving motor 361 rotates forward or reversely, and the first driving motor 361 drives the second screw rod 362 to rotate, so that the first slider 363 moves left and right corresponding to the second screw rod 362, and the front and rear driving assembly 35 is driven to move left and right along with the second screw rod 362 along with the first slider 363, and the discharging pipe 33 moves left and right along with the front and rear driving assembly 35. Therefore, the tin wire which is convenient for blanking at the blanking pipe 33 can solder the corresponding left and right positions of the workpiece, and the tin soldering requirements of different positions are met.

By controlling the rotation direction of the first driving motor 361, the distance that the blanking pipe 33 moves leftwards or rightwards can be conveniently controlled, so that the tin wire can be used for soldering tin on the workpiece at the corresponding position, and the use is convenient. Meanwhile, by the aid of the first sliding rail 364, the front-rear driving assembly 35 can conveniently move along the first sliding rail 364, and smooth movement of the front-rear driving assembly 35 is facilitated.

The front-rear driving assembly 35 comprises a second driving motor 351, a third screw rod 352 and a second sliding block 353, wherein the second driving motor 351 is fixed on the first sliding block 363, the third screw rod 352 is connected with an output shaft of the second driving motor 351, the second sliding block 353 is sleeved on the third screw rod 352 and is in threaded connection with the third screw rod 352, and the installation frame 4 is fixed on the second sliding block 353. Similarly, the rotation direction of the third screw rod 352 is controlled by controlling the rotation direction of the second driving motor 351, so that the second slider 353 is controlled to move forwards or backwards along the third screw rod 352, the whole mounting frame 4 is moved forwards or backwards, and the soldering tin treatment of different positions of the front and back of a workpiece is met.

The first sliding block 363 is provided with a second sliding rail 365, the second sliding rail 365 is perpendicular to the first sliding rail 364, and the second sliding block 353 is matched with the second sliding rail 365. Therefore, the second slide rail 365 can guide the movement of the second slider 353, thereby facilitating the smooth movement of the second slider 353.

The conveying device 2 comprises a conveying track 21, a conveying motor 22, a fourth screw rod 23, a third sliding block 24 and a clamping cylinder 25, wherein the conveying track 21 is fixed on the frame 1 and is positioned below the blanking pipe 33, the conveying motor 22 is fixed on the frame 1, the fourth screw rod 23 is connected with an output shaft of the conveying motor 22, the third sliding block 24 is sleeved on the fourth screw rod 23 and is in threaded connection with the fourth screw rod 23, and the clamping cylinder 25 is fixed on the third sliding block 24 and corresponds to the conveying track 21. Wherein the fourth screw and the third slider 24 are located below the conveyor track 21 and are hidden by the conveyor track 21, and are therefore not indicated in the figures. The fourth screw 23 and the conveying motor 22 are connected in the same manner as the second driving motor 351 and the third screw 352; the rotation direction of the fourth screw rod 23 can be controlled by the rotation direction of the conveying motor 22, so that the third sliding block 24 is controlled to move left and right on the fourth screw rod 23, and the workpiece is conveniently conveyed to the lower part of the blanking pipe 33. Through being equipped with centre gripping cylinder 25, can carry out the centre gripping to the work piece, make things convenient for the work piece to be pressed from both sides tightly when carrying, realize the steady of work piece and carry.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that modifications and improvements could be made by those skilled in the art without departing from the inventive concept, which falls within the scope of the present utility model.

Claims

1. The soldering machine is characterized by comprising a frame (1), a conveying device (2) and a soldering device (3), wherein the conveying device (2) and the soldering device (3) are arranged on the frame (1), the conveying device (2) and the soldering device (3) are correspondingly arranged, the soldering device (3) comprises a tin wire automatic conveying component (31), a heating coil (32) and a blanking pipe (33), a through hole (331) is formed in the blanking pipe (33), the tin wire automatic conveying component (31) corresponds to the through hole (331), and the heating coil (32) is wound on the outer side of the lower portion of the blanking pipe (33).

2. Solder machine according to claim 1, further comprising a mounting frame (4), wherein the automatic tin wire conveying assembly (31) is arranged on the mounting frame (4), the automatic tin wire conveying assembly (31) comprises a feeding motor (311) and a plurality of conveying rollers (312), one conveying roller (312) is connected with an output shaft of the feeding motor (311), the tin wire is wound on the conveying roller (312), and the feeding motor (311) is fixed on the mounting frame (4).

3. Solder machine according to claim 2, characterized in that the solder device (3) further comprises a lifting assembly (34), a front-rear driving assembly (35) and a left-right driving assembly (36), wherein the lifting assembly (34) is arranged on the frame (1), the left-right driving assembly (36) is connected with the lifting assembly (34), the front-rear driving assembly (35) is arranged on the left-right driving assembly (36), and the mounting frame (4) is fixed on the front-rear driving assembly (35).

4. A soldering machine according to claim 3, wherein the lifting assembly (34) comprises a lifting motor (341), a first screw rod (342) and a lifting block (343), the lifting motor (341) is fixed on the frame (1), the first screw rod (342) is connected with an output shaft of the lifting motor (341), the lifting block (343) is sleeved on the first screw rod (342) and is in threaded connection with the first screw rod (342), and the left and right driving assembly (36) is connected with the lifting block (343).

5. The soldering machine according to claim 4, wherein the left and right driving assembly (36) comprises a first driving motor (361), a second screw rod (362) and a first sliding block (363), the first driving motor (361) is fixed on a lifting block (343), a first sliding rail (364) is arranged on the lifting block (343), the second screw rod (362) is connected with an output shaft of the first driving motor (361), the first sliding block (363) is sleeved on the second screw rod (362) and is in threaded connection with the second screw rod (362), the first sliding block (363) is arranged on the first sliding rail (364), and the front and rear driving assembly (35) is connected with the first sliding block (363).

6. The soldering machine according to claim 5, wherein the front-rear driving assembly (35) comprises a second driving motor (351), a third screw rod (352) and a second slider (353), the second driving motor (351) is fixed on the first slider (363), the third screw rod (352) is connected with an output shaft of the second driving motor (351), the second slider (353) is sleeved on the third screw rod (352) and is in threaded connection with the third screw rod (352), and the mounting frame (4) is fixed on the second slider (353).

7. The soldering machine according to claim 6, wherein the first slider (363) is provided with a second slide rail (365), the second slide rail (365) is perpendicular to the first slide rail (364), and the second slider (353) is matched with the second slide rail (365).

8. Solder machine according to any one of claims 1 to 7, characterized in that the conveying device (2) comprises a conveying track (21), a conveying motor (22), a fourth screw (23), a third slider (24) and a clamping cylinder (25), wherein the conveying track (21) is fixed on the frame (1) and is positioned below the blanking pipe (33), the conveying motor (22) is fixed on the frame (1), the fourth screw (23) is connected with an output shaft of the conveying motor (22), the third slider (24) is sleeved on the fourth screw (23) and is in threaded connection with the fourth screw (23), and the clamping cylinder (25) is fixed on the third slider (24) and corresponds to the conveying track (21).