CN211305133U

CN211305133U - Novel semi-automatic soldering iron

Info

Publication number: CN211305133U
Application number: CN201922223903.7U
Authority: CN
Inventors: 易长庆
Original assignee: Hunan Intelligent Motor Co Ltd
Current assignee: Hunan Intelligent Motor Co Ltd
Priority date: 2019-12-12
Filing date: 2019-12-12
Publication date: 2020-08-21
Anticipated expiration: 2029-12-12

Abstract

The utility model discloses a novel semi-automatic flatiron, including flatiron main part, tin wire box and tin silk, tin wire box fixed mounting is on the outer wall of flatiron main part, tin wire box internal gearing installs mainly to carry the jockey pulley and carries the jockey pulley with one side, the outside fixed mounting of tin wire box has the motor, the output shaft of motor and the wheel core fixed mounting who mainly carries the jockey pulley; the tail end of the soldering iron main body is provided with a soldering bit, and the output end of the tin wire penetrates through a space between the main driving wheel and the secondary driving wheel and is arranged corresponding to the soldering bit. This novel semi-automatic flatiron possesses and uses in a flexible way, and soldering tin is efficient, reduces raw and other materials extravagant, reduces soldering tin use cost's advantage, has solved current flatiron and has welded the platform for fixing, and soldering tin inefficiency, extravagant tin silk to and fixed welding platform is with high costs, the problem that can not utilize in a flexible way.

Description

Novel semi-automatic soldering iron

Technical Field

The utility model relates to a flatiron technical field specifically is a novel semi-automatic flatiron.

Background

Present flatiron is mostly fixed soldering station, when using, needs soldering tin operator tin silk cooperation flatiron to weld, reduces the efficiency of soldering tin, is moreover because artificial control tin silk at soldering tin, the quantity of quantity when the control tin silk of being not convenient for welds and the volume of sending the tin silk easily leads to the waste of tin silk, and fixed soldering station's is with high costs moreover, can not use in a flexible way.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel semi-automatic flatiron, it is nimble to possess the use, and soldering tin is efficient, and it is extravagant to reduce raw and other materials, reduces soldering tin use cost's advantage, has solved current flatiron and has welded the platform for fixing, and soldering tin is inefficient, extravagant tin silk to and fixed welding platform is with high costs, the problem that can not apply in a flexible way.

In order to achieve the above object, the utility model provides a following technical scheme: a novel semi-automatic soldering iron comprises a soldering iron body, a tin wire box and tin wires, wherein the tin wire box is fixedly installed on the outer wall of the soldering iron body, a main driving wheel and an auxiliary driving wheel are installed inside the tin wire box in an engaged mode, a motor is fixedly installed outside the tin wire box, and an output shaft of the motor is fixedly installed with a wheel core of the main driving wheel;

the tail end of the soldering iron main body is provided with a soldering bit, and the output end of the tin wire penetrates through a space between the main driving wheel and the secondary driving wheel and is arranged corresponding to the soldering bit. Novel semi-automatic flatiron possesses and uses in a flexible way, and soldering tin is efficient, and it is extravagant to reduce raw and other materials, reduces soldering tin use cost's advantage, has solved current flatiron and has welded the platform for fixing, and soldering tin inefficiency, extravagant tin silk to and fixed welding platform is with high costs, the problem that can not apply in a flexible way.

Further, the secondary driving wheels are arranged inside the tin wire box through secondary wheel fixed shafts, and gaps corresponding to the diameters of tin wires are arranged at the joints of the secondary driving wheels and the primary driving wheels.

Furthermore, a rear-end tin wire guide pipe and a front-end tin wire guide pipe are respectively arranged between the tin wire box and the soldering iron main body corresponding to the input end and the output end of the tin wire, and the tail end of the front-end tin wire guide pipe is arranged corresponding to the soldering iron head.

Furthermore, the input electric connection of flatiron main part has electric switch and flatiron temperature to transfer and establishes the switch, the input electric connection of motor has motor speed regulation switch, electric switch, flatiron temperature transfer are established switch and motor speed regulation switch and are all set up on the outer wall of flatiron main part.

Furthermore, the input end of the motor is provided with a motor switch, and the electric switch and the motor switch are connected with a power supply in parallel.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model discloses a realized using the flatiron main part in a flexible way, picked up the action of solder wire when having saved soldering tin operation, improved soldering tin work efficiency to send speed and length that the solder wire can be accurate to the control through automatic, reduce the extravagant rate of solder wire, reduce soldering tin use cost.

Drawings

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

FIG. 2 is a schematic view of the inner structure of the tin wire box of the present invention;

fig. 3 is a schematic view of the electric connection between the motor and the soldering iron main body according to the present invention.

In the figure: a soldering iron body 1; a tin wire box 2; 3, tin wires; a primary driving wheel 4; a secondary driving wheel 5; a motor 6; a soldering tip 7; a secondary wheel fixing shaft 8; a rear end tin wire guide tube 9; a front-end tin wire guide tube 10; an electric switch 11; a switch 12 is arranged for adjusting the temperature of the soldering iron; a motor speed adjusting switch 13; a motor switch 14.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, a novel semi-automatic soldering iron comprises a soldering iron main body 1, a tin wire box 2 and a tin wire 3, wherein the tin wire box 2 is fixedly installed on the outer wall of the soldering iron main body 1, a primary driving wheel 4 and a secondary driving wheel 5 are installed inside the tin wire box 2 in a meshed manner, a motor 6 is fixedly installed outside the tin wire box 2, and an output shaft of the motor 6 is fixedly installed with a wheel core of the primary driving wheel 4;

the tail end of the soldering iron main body 1 is provided with a soldering iron head 7, an output end of a tin wire 3 penetrates through a space between a main driving wheel 4 and a secondary driving wheel 5, and the tail end of the tin wire 3 is arranged corresponding to the soldering iron head 7.

Specifically, the secondary wheel 5 is disposed inside the tin wire cassette 2 through a secondary wheel stationary shaft 8, and a gap corresponding to the diameter of the tin wire 3 is provided at the point where the secondary wheel 5 engages with the primary wheel 4. The gap between the main driving wheel 4 and the secondary driving wheel 5 is facilitated to nip the tin wire 3, and the tin wire 3 is output with the rotation of the main driving wheel 4 and the secondary driving wheel 5.

Specifically, a rear-end tin wire guide tube 9 and a front-end tin wire guide tube 10 are respectively arranged between the tin wire box 2 and the soldering iron main body 1 corresponding to the input end and the output end of the tin wire 3, and the tail end of the front-end tin wire guide tube 10 is arranged corresponding to the soldering iron head 7. The tin wire 3 output by the main driving wheel 4 and the secondary driving wheel 5 passes through the front tin wire guide pipe 10 and is output to the soldering iron 7, and the tin wire 3 is output and guided and supported by the front tin wire guide pipe 10.

Specifically, the input electric connection of flatiron main part 1 has electric switch 11 and flatiron temperature to transfer and establishes switch 12, the input electric connection of motor 6 has motor speed regulating switch 13, electric switch 11, flatiron temperature transfer establish switch 12 and motor speed regulating switch 13 all set up on the outer wall of flatiron main part 1. The speed regulation of the rotation of the main wheel 4 driven by the motor 6 through the motor speed regulation switch 13 regulates the speed regulation of the output of the tin wire 3 by the meshing of the main wheel 4 and the secondary wheel 5, and regulates the temperature of the tin wire 3 hot-melted by the soldering iron body 1 according to the thickness of the tin wire 3.

Specifically, the input end of the motor 6 is provided with a motor switch 14, and the electric switch 11 and the motor switch 14 are connected in parallel with a power supply. The soldering iron main body 1 is conveniently and independently preheated according to the requirement during soldering tin, and the phenomenon that the motor switch 14 and the electric switch 11 are simultaneously turned on to lead the soldering iron head 7 to be incapable of carrying out hot melting on the tin wire output by the motor 6 is avoided.

When the tin wire soldering machine is used, the tail end of a tin wire 3 passes through a rear tin wire guide pipe 9 and is output to the inside of a tin wire box 2, and passes through a space between a main grinding wheel 4 and a secondary grinding wheel 5, then passes through a front tin wire guide pipe 10 again, and is output to a position corresponding to a soldering iron head 7 through the front tin wire guide pipe 10, when in soldering, the input end of the soldering iron body 1 is connected with a power supply to preheat the soldering iron head, after the temperature of the soldering iron head 7 reaches the temperature for hot melting the tin wire 3, the input end of a motor 6 is connected with the power supply, the motor 6 runs to drive the main grinding wheel 4 to rotate through an output shaft, the main grinding wheel 4 and the secondary grinding wheel 5 are meshed to rotate to convey the tin wire 3 to the soldering iron head 7, the tin wire 3 is subjected to hot melting soldering through the soldering iron head 7, the flexible application of the soldering iron body 1 is realized, the action of picking up the tin wire 3 in the soldering operation is omitted, the soldering operation is improved, the soldering operation efficiency of soldering tin wire operation, the waste rate of the tin wires 3 is reduced, and the use cost of soldering tin is reduced.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a novel semi-automatic flatiron, includes flatiron main part (1), tin silk box (2) and tin silk (3), its characterized in that: the tin wire box (2) is fixedly installed on the outer wall of the soldering iron main body (1), a main driving wheel (4) and a secondary driving wheel (5) are installed inside the tin wire box (2) in an engaged mode, a motor (6) is fixedly installed outside the tin wire box (2), and an output shaft of the motor (6) is fixedly installed with a wheel core of the main driving wheel (4);

the tail end of the soldering iron main body (1) is provided with a soldering iron head (7), the output end of the tin wire (3) passes through the arrangement between a main wheel (4) and a secondary wheel (5), and the tail end of the tin wire (3) is arranged corresponding to the soldering iron head (7).

2. A novel semi-automatic soldering iron according to claim 1, wherein: the secondary driving wheels (5) are arranged inside the tin wire box (2) through secondary wheel fixed shafts (8), and gaps corresponding to the diameters of the tin wires (3) are formed at the meshing positions of the secondary driving wheels (5) and the primary driving wheels (4).

3. A novel semi-automatic soldering iron according to claim 1, wherein: the soldering iron is characterized in that a rear-end tin wire guide pipe (9) and a front-end tin wire guide pipe (10) are respectively arranged between the tin wire box (2) and the soldering iron main body (1) and correspond to the input end and the output end of the tin wire (3), and the tail end of the front-end tin wire guide pipe (10) corresponds to the soldering iron head (7).

4. A novel semi-automatic soldering iron according to claim 1, wherein: the input electric connection of flatiron main part (1) has electric switch (11) and flatiron temperature to transfer and establishes switch (12), the input electric connection of motor (6) has motor speed regulating switch (13), electric switch (11), flatiron temperature are transferred and are established switch (12) and motor speed regulating switch (13) and all set up on the outer wall of flatiron main part (1).

5. The new semi-automatic soldering iron according to claim 4, wherein: the input end of the motor (6) is provided with a motor switch (14), and the electric switch (11) and the motor switch (14) are connected with a power supply in parallel.