CN114309862A - Electric soldering iron - Google Patents

Abstract

The embodiment of the invention belongs to the field of welding instruments, and particularly relates to an electric soldering iron. The embodiment of the invention aims to solve the technical problem that the operation difficulty of welding through an electric soldering iron is increased due to the fact that the size of electronic equipment is gradually reduced and the welding position is reduced in the related art. The electric soldering iron provided by the embodiment of the invention comprises an electric soldering iron body and the amplifying device, wherein the amplifying device is arranged on the electric soldering iron body, the electric soldering iron body is provided with the soldering bit, the amplifying device is used for amplifying an image corresponding to a preset area where the soldering bit is located, an operator can more clearly see a tiny soldering position around the soldering bit through the amplifying device, and compared with the electric soldering iron without the amplifying device, the soldering difficulty is reduced.

Description

Electric soldering iron

Technical Field

The embodiment of the invention belongs to the field of welding instruments, and particularly relates to an electric soldering iron.

Background

Electric soldering irons are widely used as a necessary tool for manufacturing and maintaining electronic equipment. In the related technology, the electric soldering iron comprises an external heating type electric soldering iron and an internal heating type electric soldering iron, wherein both the electric soldering iron comprises a soldering bit and a handle, and the soldering bit is connected with an electric heating element; the outer heating type electric iron is provided with a metal shell which is slightly thicker than the soldering bit at the position of the soldering bit close to the end part, and the soldering bit of the inner heating type electric iron is thickened at the position of the soldering bit close to the end part to form a shoulder part. When the electric heating element is used, the electric heating element is electrified, and a user holds the handle to weld.

However, with the development of electronic equipment technology, the volume of electronic equipment gradually becomes smaller, and the welding position is smaller, so that the operation difficulty of welding through an electric soldering iron is larger.

Disclosure of Invention

In view of this, an embodiment of the present invention provides an electric soldering iron, which is used to solve the technical problem of difficulty increase in welding operation due to reduction of a welding position.

The embodiment of the invention provides an electric soldering iron, which comprises: the electric soldering iron comprises an electric soldering iron body and an amplifying device, wherein the amplifying device is arranged on the electric soldering iron body, the electric soldering iron body is provided with a soldering bit, and the amplifying device is used for amplifying an image corresponding to a preset area where the soldering bit is located; the electric soldering iron further comprises a flexible connecting piece, one end of the flexible connecting piece is connected with the amplifying equipment, and the other end of the flexible connecting piece is connected with the electric soldering iron body.

The electric soldering iron comprises an electric soldering iron body, wherein the amplifying device comprises a frame body and a convex lens arranged on the frame body, and the frame body is connected with the electric soldering iron body.

The electric soldering iron is characterized in that the frame body comprises a fixing ring, the convex lens is arranged in the fixing ring and is connected with the fixing ring in a rotatable mode, and the rotating axis of the convex lens is parallel to the plane where the fixing ring is located.

The electric soldering iron further comprises a light source, the light source is arranged on the frame body, and the light source is used for emitting light to a preset area.

The electric soldering iron further comprises a detection device and a control device, wherein the detection device and the control device are arranged on the frame body, the control device is electrically connected with the detection device and the light source, the detection device is used for detecting the illumination intensity of the preset area, and the control device is used for controlling the light emitting power of the light source according to the illumination intensity.

The electric soldering iron as above, wherein the detection device includes a photo resistor, the frame body is provided with an accommodating cavity, the photo resistor and the control device are both arranged in the accommodating cavity, the frame body is provided with a hole facing the photo resistor and the preset area, and the hole penetrates through the accommodating cavity.

The electric soldering iron comprises an electric soldering iron body, wherein the electric soldering iron body is provided with a flexible connecting piece, the flexible connecting piece comprises a flexible rope, the first end of the flexible rope is connected with the amplification device, and the second end of the flexible rope is connected with the electric soldering iron body.

The electric soldering iron is characterized in that the second end of the flexible rope is provided with the connecting ring, the electric soldering iron body comprises a soldering bit, a connecting pipe and a handheld portion, one end of the connecting pipe is connected with the soldering bit, the other end of the connecting pipe is connected with the handheld portion, the connecting pipe is provided with a mounting groove, and the connecting ring is sleeved in the mounting groove.

The electric soldering iron is characterized in that the side wall of the connecting pipe is provided with a limiting part and a fixing screw, the fixing screw and the limiting part are arranged at intervals along the direction parallel to the central line of the connecting pipe, and the mounting groove is formed between the fixing screw and the limiting part.

The electric soldering iron is characterized in that the side wall of the connecting pipe is provided with two fixing screws, the two fixing screws are arranged at intervals along the direction of the central line of the connecting pipe, and the two fixing screws are surrounded into the mounting groove.

The electric soldering iron provided by the embodiment of the invention is provided with the amplifying device, so that the preset area corresponding to the soldering bit can be amplified, and an operator can more clearly see the tiny soldering position around the soldering bit; the magnifying device comprises a convex lens and a frame body, the frame body comprises a fixing ring, the convex lens is rotatably arranged in the fixing ring, the adjustment of an included angle formed by the convex lens and the fixing ring can be changed by rotating the convex lens, the setting angle of the convex lens is further adjusted, and the auxiliary welding operation is facilitated; the amplifying equipment is connected with the connecting ring through the flexible rope, the amplifying equipment can be adjusted in any setting position through bending the flexible rope, the setting angle of the fixing ring in the amplifying equipment can be changed through rotating the amplifying equipment, the degree of freedom of the amplifying equipment is increased, and the convex lens can be aligned to the preset area where the soldering bit is located more accurately. Still be equipped with on the support body and be used for to predetermineeing regional luminous light source to be equipped with the detection device who detects predetermineeing regional luminance and the controlling means of adjustment light source luminous power, can with the amplifier equipment cooperation, make the field of vision of predetermineeing the region brighter, reduced the welding degree of difficulty, improved welding efficiency.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on the drawings without creative efforts.

FIG. 1 is a first schematic structural diagram of an electric soldering iron according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an electric soldering iron according to an embodiment of the present invention.

Description of reference numerals:

10: an electric iron body;

20: an amplifying device;

30: a light source;

40: placing a containing cavity;

50: a hole;

60: a flexible connector;

70: mounting grooves;

101: a soldering bit;

102: a connecting pipe;

103: a hand-held portion;

201: a frame body;

202: a convex lens;

601: a flexible cord;

602: a connecting ring;

701: a limiting part;

702: a set screw;

2011: a fixing ring;

2012: a first rotating lever;

2013: a second rotating rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. 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.

In the present invention, unless otherwise specifically stated, the terms "mounted," "connected," "fixed," and the like are to be understood broadly, and for example, may be fixedly connected, detachably connected, or integrally formed, mechanically connected, electrically connected, or communicable with each other; they may be directly connected or indirectly connected through an intermediate medium, or they may be connected internally or in any other manner known to those skilled in the art, unless otherwise specifically limited. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

With the development of electronic device technology, the volume of electronic devices is gradually becoming smaller. On one hand, the encapsulation of the electronic device is smaller and smaller, so that the silk screen printing and the position of the device are difficult to see by operators, and in the operation engineering, the operation time is increased, so that the working efficiency is reduced; on the other hand, the design of the Circuit is more and more miniaturized and light-weighted, and especially the demand for light-weighting is more strict for the fast consumer electronic equipment which currently occupies the main market, which results in the volume of the Printed Circuit Board (PCB) being continuously reduced. So that the welding position is gradually reduced in the process of welding by using the electric soldering iron. The reduction of the welding position reduces the volume of parts in a preset area near the soldering iron head in a welding visual field and the space between the parts, and the difficulty for an operator to clearly see the positions of the parts and the gaps between the parts needing to be welded is increased. The time and difficulty of welding are increased, the time and difficulty of a debugging process are also increased, and the production efficiency is reduced.

The embodiment provides an electric iron, through the image amplification that preset zone corresponds at the soldering bit place of amplification equipment, make the operator can see the little welding position around the soldering bit more clearly, reduced the welding degree of difficulty.

As shown in fig. 1 and 2, the electric soldering iron in the present embodiment includes an electric soldering iron body 10 and an amplifying device 20, the amplifying device 20 is disposed on the electric soldering iron body 10, the electric soldering iron body 10 has a soldering bit 101, and the amplifying device 20 is configured to amplify an image corresponding to a preset area where the soldering bit 101 is located, so that an operator can more clearly see the preset area where the soldering bit 101 is located.

For example, the electric soldering iron body 10 may be an internal heating type electric soldering iron or an external heating type electric soldering iron

The externally heated electric iron comprises an electric iron head and a handle connected with the electric iron head, wherein a metal shell thicker than the electric iron head is arranged outside one end, close to the handle, of the electric iron head, a heat-generating electric iron core is arranged in the metal shell, and the electric iron core wraps the electric iron head and generates heat after being electrified, so the externally heated electric iron is called as the externally heated electric iron. The internal heating type electric iron comprises an iron head and a handle, wherein an iron core which generates heat after being electrified is arranged between the iron head and the handle, the iron head is thickened at the position close to the end part to form a shoulder part so as to wrap the iron core, and therefore the internal heating type electric iron is called. Regardless of the type of electric soldering iron, the soldering iron includes a soldering tip 101 for performing a soldering operation, and the embodiment is described with respect to an external heating type electric soldering iron, but the electric soldering iron is not limited thereto.

In this embodiment, the magnifying device 20 includes a frame body 201 and a convex lens 202 disposed on the frame body 201, and the frame body 201 is connected to the electric soldering iron body 10. Illustratively, the mirror plate of the convex lens 202 is circular, but of course, the mirror plate of the convex lens 202 may also be polygonal such as rectangular, triangular, etc., or other irregular shapes.

In other implementation manners, the amplifying device may further include a camera and a display device, the camera is electrically connected to the display device, the camera acquires an image of the preset region, and the display device is configured to display a graph of the preset region and amplify the image. The display device may include a liquid crystal display panel or an organic light emitting diode display panel, among others.

Convex lens 202 can be fixed to be set up on support body 201, and the mode of fixed setting can be threaded connection, joint, bonding, riveting etc. and not limit to this embodiment, of course, convex lens 202 also can be with support body 201 swing joint, and swing joint's mode can be for rotating the connection, also can be for articulated, and not limit to this embodiment.

With continued reference to fig. 1, the frame 201 includes a retaining ring 2011, and the convex lens 202 is disposed within the retaining ring 2011; in order to make the shapes of the fixing ring 2011 and the convex lens 202 more matched, in this embodiment, the fixing ring 2011 adopts a circular ring structure, and the convex lens 202 is disposed in a circular space formed inside the circular ring structure. If the shape of the convex lens 202 changes, for example, the convex lens 202 changes to a square lens, the fixing ring 2011 changes to a square ring corresponding to the shape of the convex lens 202. The material of the fixing ring 2011 may be plastic, or may be metal, and the material of the fixing ring 2011 is not limited in this embodiment.

Further, the convex lens 202 is rotatably connected to the fixing ring 2011, and the rotation axis of the convex lens 202 is parallel to the plane of the fixing ring 2011. A first rotating rod 2012 is disposed at one end of the rotation axis of the convex lens 202, one end of the first rotating rod 2012 is connected to the outer edge of the convex lens 202, and the other end is connected to the inner wall of the fixing ring 2011. Correspondingly, a second rotating rod 2013 is arranged at the other end of the rotating axis of the convex lens 202, one end of the second rotating rod 2013 is connected with the outer edge of the convex lens 202, and the other end of the second rotating rod 2013 is connected with the inner wall of the fixing ring 2011.

In this embodiment, the first rotating rod 2012 and the second rotating rod 2013 are both cylinders, the first rotating rod 2012 is coaxial with the second rotating rod 2013, and the axes of the first rotating rod 2012 and the second rotating rod 2013 are the rotation axes of the convex lens 202. The first end of the first rotating rod 2012 extends into the corresponding outer edge of the convex lens 202 where the axis is located, and the second end extends into the inner wall of the fixing ring 2011; the first end of the second rotating rod 2013 extends into the corresponding outer edge where the axis of the convex lens 202 is located, and the second end extends into the inner wall of the fixing ring 2011. Correspondingly, the rotating axis of the outer edge of the convex lens 202 and the inner wall of the fixing ring 2011 corresponding to the outer edge of the convex lens 202 are both provided with counterbores for accommodating the first rotating rod 2012 and the second rotating rod 2013, and the first rotating rod 2012 and the second rotating rod 2013 are both in clearance fit with the counterbores. So set up, make convex lens 202 rotationally be connected with solid fixed ring 2011, be convenient for in use adjustment convex lens 202's angle, convenient supplementary welding operation. The above implementation manner is used as a reference, and of course, the shapes and lengths of the first rotating rod 2012 and the second rotating rod 2013 can also be adjusted according to needs, and of course, the first rotating rod 2012 and the second rotating rod 2013 can also be fixedly disposed on the convex lens 202, a connecting hole for accommodating the first rotating rod 2012 and the second rotating rod 2013 is disposed at a corresponding position of the fixing ring, and the connecting hole is in clearance fit with the first rotating rod 2012 and the second rotating rod 2013. In a word, no matter how the first rotating rod 2012 and the second rotating rod 2013 are arranged, it is only necessary to make the structure of the first rotating rod 2012 and the second rotating rod 2013 satisfy that the convex lens 202 is rotatable and connected with the fixing ring 2011 and the rotating axis of the convex lens 202 is parallel to the plane where the fixing ring 2011 is located.

Further, in an implementation manner that the frame body 201 includes the fixing ring 2011, the electric soldering iron provided by the embodiment further includes a light source 30 for emitting light to a preset area. Illustratively, the light source 30 may be an LED lamp, but the light source 30 may also be an incandescent lamp, an energy saving lamp, etc.

The light source 30 is disposed on the fixing ring 2011 of the frame body 201, for example, the light source 30 may be disposed on an inner wall of the fixing ring 2011 facing the convex lens 202, and of course, the light source may also be disposed on an upper end surface or a lower end surface of the fixing ring 2011, so that light emitted by the light source 30 is irradiated to a preset area. In this embodiment, the number of the light sources 30 is two, and the two light sources 30 are symmetrically arranged on the inner wall of the fixing ring 2011 along the symmetry axis of the fixing ring 2011, so that the uniformity of illumination can be ensured.

For example, the power source of the light source 30 may be a button battery or other batteries disposed inside the frame body 201, or the light source 30 may be electrically connected to a circuit inside the electric soldering iron body 10, and the power source of the electric soldering iron body 10 supplies power to the light source 30 in this embodiment, which does not limit the power source of the light source 30 in this embodiment.

Further, the electric soldering iron provided by the embodiment further comprises a detection device and a control device which are arranged on the frame body 201, the control device is electrically connected with the detection device and the light source 30, the detection device is used for detecting the illumination intensity of the preset area, and the control device is used for controlling the luminous power of the light source 30 according to the illumination intensity, so that the brightness of the light source 30 can be adjusted along with the different brightness of the preset area, the automatic adjustment of illumination is realized, and the preset area is ensured to be easily seen clearly and brightly by operation.

In this embodiment, the rack body 201 is provided with a hollow accommodating cavity 40, the detection device and the control device are disposed in the accommodating cavity 40, and the accommodating cavity 40 is connected to one side of the fixing ring 2011 where the light source 30 is disposed, so that the light source 30 can be as close to the accommodating cavity 40 as possible. Of course, in order to make the light source 30 closer to the accommodating chamber 40, the light source 30 may be disposed on an outer wall of the accommodating chamber 40. In practical applications, the fixing ring 2011 may also be configured as a hollow structure to form the accommodating cavity 40, so that the detection device and the control device are disposed in the accommodating cavity 40 formed by the fixing ring 2011, and the light source 30 is disposed on an outer wall of the accommodating cavity 40 formed by the fixing ring 2011.

Correspondingly, a hole 50 facing the detection device needs to be formed in the accommodating cavity 40, and the hole 50 penetrates through the accommodating cavity 40 to ensure that the detection device can accurately receive the illumination intensity of the preset area.

In some implementations, the detection device includes a photo resistor, and when the brightness of the preset area is higher, the resistance of the photo resistor is higher, the input current of the light source 30 is smaller, and at this time, the illumination brightness provided by the light source 30 is lower, and when the brightness of the preset area is lower, the resistance of the photo resistor is lower, the input current of the light source 30 is larger, and at this time, the illumination brightness provided by the light source 30 is higher. The photosensitive resistor and the control device are both arranged in the accommodating cavity, correspondingly, the hole 50 which is opposite to the photosensitive resistor and the preset area is formed in the frame body 201, the hole 50 penetrates through the accommodating cavity 40, one end of the hole 50 is opposite to the photosensitive resistor, and the other end of the hole 50 is opposite to the preset area, so that the photosensitive resistor can accurately receive the illumination intensity of the preset area. The structure of the detection device and the control device are the prior art, therefore, in practical application, the detection device can also use other elements with the same function as the photoresistor, for example, a silicon photocell and a photodiode can be used to replace the photoresistor.

Further, the electric soldering iron provided by the embodiment further comprises a flexible connector 60, one end of the flexible connector 60 is connected with the amplifying device 20, and the other end of the flexible connector 60 is connected with the electric soldering iron body 10. In this embodiment, the end of the flexible connecting member 60 connected to the amplifying device 20 is fixedly connected to the accommodating cavity 40 of the frame 201 of the amplifying device 20. In the fixing connection manner, the flexible connection member 60 may be fixedly connected to the accommodating cavity 40 by extending into the accommodating cavity 40, or may be connected by means of screw connection, bonding, or the like.

In the above implementation manner, the flexible connector 60 includes a flexible rope 601, a first end of the flexible rope 601 is fixedly connected to the accommodating cavity 40 of the frame 201 in the amplifying device 20, and a second end of the flexible rope 601 is connected to the electric soldering iron body 10. For example, the flexible rope 601 may include one or more iron wires with high tenacity, and may also include a structure made of flexible material such as steel wire rope, iron chain, hemp rope, nylon rope, etc. By the arrangement, the amplifying device 20 can be bent into any shape according to needs, so that any adjustment of the arrangement position of the amplifying device 20 is realized.

The second end of the flexible rope 601 is provided with a connection ring 602, the connection ring 602 is fixedly connected with the flexible rope 601 and sleeved on the electric soldering iron body 10, the connection ring 602 is made of rubber, and the contact resistance between the connection ring 602 and the electric soldering iron body 10 is larger than 5N. So set up, make amplifier 20's solid fixed ring 2011 can rotate around flexible rope 601 under flexible rope 601's the drive, realize the adjustment of solid fixed ring 2011 angle, make things convenient for the operator to observe, weld.

The electric soldering iron body 10 comprises a soldering iron head 101, a connecting pipe 102 and a handheld part 103, one end of the connecting pipe 102 is connected with the soldering iron head 101, the other end of the connecting pipe 102 is connected with the handheld part 103, and a power supply line of the electric soldering iron body 10 is arranged at the end part of the handheld part 103. For an external heating type electric iron as an example, a metal shell which is slightly thicker than the soldering iron head 101 is arranged near the soldering iron head 101, and the connecting pipe 102 is a metal shell part; an internal heating electric iron can also be adopted, the head 101 of the internal heating electric iron is thickened near the end part to form a shoulder part, and the connecting pipe 102 refers to the thickened part of the shoulder part of the head 101 close to the handheld part 103. The connection pipe 102 is only used for convenience in describing the structure of the electric soldering iron body 10, and has no other meaning.

Illustratively, the connection tube 102 is provided with a mounting groove 70, and the connection ring 602 is sleeved in the mounting groove 70. Of course, the mounting groove 70 may be sleeved at any position on the hand-held portion 103 of the electric soldering iron body 10 as required. In the present embodiment, as shown in fig. 1, a side wall of the connection pipe 102 is provided with a stopper 701 and a pair of fixing screws 702. The limiting part 701 is a protrusion which is arranged on the side wall of the connecting pipe 102 and extends to the outer side of the side wall of the connecting pipe 102 along the radial direction of the connecting pipe 102; the fixing screw 702 is a screw provided in a radial direction of the connection pipe 102 and penetrating the side wall of the connection pipe 102. The fixing screw 702 and the limiting part 701 are arranged at intervals along a direction parallel to the central line of the connecting pipe 102, and a mounting groove 70 is formed between the fixing screw 702 and the limiting part 701. The groove width of the mounting groove 70 matches the height of the connection ring 602, i.e., the distance between the set screw 702 and the stopper 701 is equal to the height of the connection ring 602. The lower edge of the mounting groove 70 is a limiting part 701 protruding on the connecting pipe 102, and the upper edge of the mounting groove 70 is a pair of fixing screws 702, so that the connecting ring 602 can be taken down from the connecting pipe 102 by detaching the fixing screws 702, and the mounting groove is convenient to use and store. Of course, the upper edge and the lower edge of the mounting groove 70 can also be both provided as the fixing screws 702 as required, as shown in fig. 2; two fixing screws 702 are arranged on the side wall of the connecting pipe 102, the two fixing screws 702 are arranged at intervals along the central line direction of the connecting pipe 102, and the two fixing screws 702 are enclosed into the mounting groove 70; in practical applications, the number of the set screws 702 can be adjusted as needed, or the lower edges of the mounting grooves 70 can be set as the limiting parts 701 as needed.

For example, the limiting portion 701 may be a pair of positioning blocks protruding from the connecting pipe 102 as shown in this embodiment, of course, the number of the positioning blocks of the limiting portion 701 may be adjusted as needed, and the limiting portion 701 may also be a positioning ring protruding circumferentially around the connecting pipe 102.

It should be noted that, in the present embodiment, the mounting groove 70 is formed by the limiting portion 701 protruding on the side wall of the connection pipe 102 and the fixing screw 702, that is, the groove bottom of the mounting groove 70 is the side wall of the connection pipe 102, and the mounting groove 70 is formed by the limiting portion 701 and the fixing screw 702, which does not make any adjustment to the actual structure of the connection pipe 102.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. An electric iron, comprising: the electric soldering iron comprises an electric soldering iron body and an amplifying device, wherein the amplifying device is arranged on the electric soldering iron body, the electric soldering iron body is provided with a soldering bit, and the amplifying device is used for amplifying an image corresponding to a preset area where the soldering bit is located;

the electric soldering iron further comprises a flexible connecting piece, one end of the flexible connecting piece is connected with the amplifying equipment, and the other end of the flexible connecting piece is connected with the electric soldering iron body.

2. An electric soldering iron according to claim 1, wherein the magnifying device comprises a frame body and a convex lens arranged on the frame body, and the frame body is connected with the electric soldering iron body.

3. An electric soldering iron according to claim 2, wherein the frame body comprises a fixing ring, the convex lens is arranged in the fixing ring and is rotatably connected with the fixing ring, and the rotation axis of the convex lens is parallel to the plane of the fixing ring.

4. An electric soldering iron according to claim 2 further comprising a light source disposed on the frame for emitting light to a predetermined area.

5. The electric soldering iron according to claim 4, further comprising a detection device and a control device arranged on the frame body, wherein the control device is electrically connected with the detection device and the light source, the detection device is used for detecting the illumination intensity of the preset area, and the control device is used for controlling the light emitting power of the light source according to the illumination intensity.

6. An electric soldering iron according to claim 5, wherein the detection device comprises a photo resistor, the frame body is provided with an accommodating cavity, the photo resistor and the control device are both arranged in the accommodating cavity, the frame body is provided with a hole facing the photo resistor and the preset area, and the hole penetrates through the accommodating cavity.

7. The electric soldering iron according to any one of claims 1 to 6, wherein the flexible connector comprises a flexible cord, a first end of the flexible cord is connected with the amplification device, and a second end of the flexible cord is connected with the electric soldering iron body.

8. An electric soldering iron according to claim 7, wherein the second end of the flexible rope is provided with a connecting ring, the electric soldering iron body comprises a soldering bit, a connecting pipe and a handheld portion, one end of the connecting pipe is connected with the soldering bit, the other end of the connecting pipe is connected with the handheld portion, a mounting groove is formed in the connecting pipe, and the connecting ring is sleeved in the mounting groove.

9. An electric soldering iron according to claim 8, wherein the side wall of the connecting pipe is provided with a limiting part and a fixing screw, the fixing screw and the limiting part are arranged at intervals along a direction parallel to the central line of the connecting pipe, and the fixing screw and the limiting part form the mounting groove.

10. An electric soldering iron according to claim 8 wherein the side wall of the connecting tube is provided with two fixing screws spaced along the centre line of the connecting tube, the two fixing screws surrounding the mounting slot.

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