CN215698658U - Electric cauter - Google Patents

Abstract

The utility model discloses an electric soldering device which comprises an electric soldering iron and a camera device, wherein the camera device is arranged on a connecting part of the electric soldering iron, which is far away from a soldering bit, so that the camera device can shoot and acquire an original image of the soldering bit in real time, and an operator can know the soldering condition of the soldering bit through the shot image conveniently. In addition, camera device and electric iron set up together, can be so that the electric iron is located camera device's shooting range all the time, and the operating personnel of being convenient for welds and observes the adjustment, has improved work efficiency and product yield.

Description

Electric cauter

Technical Field

The utility model relates to the field of welding, in particular to an electrocautery device.

Background

Along with the development of electronic technology, electronic components are developing towards miniaturization and multi-functionalization, but meanwhile, because the distance between the electronic components is small, when the electronic components are detected and maintained, the positions, models, polarity directions and the like of parts can be seen clearly under a microscope.

In the related art, the device confirmation and welding can be completed only by auxiliary observation of an electric soldering iron and a separately configured microscope. The microscope can not adjust the visual angle after the debugging is finished, and if the visual field needs to be adjusted, electronic components and electric soldering irons in hands need to be put down for readjustment. In some welding processes, the electric soldering iron is put down midway and then welding is carried out again, which may cause technical problems of improper welding and the like. In addition, when an electronic component is observed with a microscope, the electronic component is often observed perpendicularly to the electronic component, but the electronic component often needs to be observed from different angles such as a side surface during soldering, which causes a problem of difficulty in handling.

SUMMERY OF THE UTILITY MODEL

In view of this, an object of the present invention is to provide an electric soldering iron apparatus, which utilizes a camera device disposed on an electric soldering iron to shoot a welding environment of the electric soldering iron, so that during a welding process, a continuously shot image is more convenient to observe, thereby improving welding quality.

The electrocautery device of the embodiment of the utility model comprises: the electric soldering iron comprises a soldering bit, a heating device, a holding part and a connecting part which are connected in sequence; and the camera device is detachably connected to the connecting part and is used for acquiring an original image of the soldering bit.

In some embodiments, the top of the connecting part is provided with a sliding groove, and the bottom of the camera device is provided with a sliding rail matched with the sliding groove; the connecting part comprises a lateral buckle, and a clamping groove connected with the lateral buckle is formed in one side of the camera device.

In some embodiments, the connection portion includes: the fixed platform is fixed on the outer side of the holding part; the limiting part is fixed on the fixed platform and extends towards the outer side of the fixed platform; and the two fixed blocks are oppositely arranged on the fixed platform, and the two fixed blocks and the fixed platform form the sliding chute.

In some embodiments, one side of the limiting portion facing the soldering iron head includes a plurality of jacks, one side of the camera device includes a plurality of pins, and the plurality of pins and the plurality of jacks are plugged in one-to-one correspondence to electrically connect the camera device and the soldering iron.

In some embodiments, the imaging device further comprises: the camera is used for shooting the soldering bit; and the first fine adjustment piece is electrically connected with the camera.

In some embodiments, the imaging device further comprises: the camera and the first fine-tuning piece are connected to the camera main body; the lighting assembly and the second fine adjusting piece are connected to the camera body; and a sliding plate, the camera body is arranged on one side of the sliding plate; the sliding rail is convexly arranged on the other side of the sliding plate, and the clamping groove is arranged on the outer side of the sliding plate.

In some embodiments, the electrocautery device further comprises: the control device is respectively electrically connected with the electric soldering iron and the camera device and is configured to control the electric soldering iron and the camera device to work; and the display device is electrically connected with the control device and is configured to display an original image shot by the camera device.

In some embodiments, the electric soldering iron further comprises: and the first group of adjusting knobs are arranged on the connecting part and are electrically connected with the electric soldering iron and the camera device.

In some embodiments, the heat generating device includes a lateral connection hole, and one end of the soldering iron tip is clamped to the heat generating device.

In some embodiments, the grip portion further comprises a grip recess disposed on an outer side of the grip portion.

In some embodiments, the control device comprises: the controller is configured to control the electric soldering iron and the camera device to work; the second group of adjusting knobs are used for adjusting working parameters of the electric soldering iron and the camera device; the image processor is used for receiving an original image shot by the camera device and processing the original image; and a display panel configured to display operating parameters of the electric soldering iron and the image pickup device.

In some embodiments, the heat generating device further comprises: the shell is clamped on the holding part; and the heating core is arranged in the shell and is connected with the soldering bit.

The electric soldering iron device disclosed by the embodiment of the utility model comprises the electric soldering iron and the camera device, and the camera device is arranged on the connecting part of the electric soldering iron, which is far away from the soldering bit, so that the camera device can shoot and acquire the original image of the soldering bit in real time, and an operator can know the soldering condition of the soldering bit through the shot image conveniently. In addition, camera device and electric iron are static relatively, and the angle that camera device shot can rotate along with the rotation of electric iron, and consequently, camera device can shoot the condition at welding point from more angles, and the operating personnel of being convenient for operates.

Drawings

The above and other objects, features and advantages of the present invention will become more apparent from the following description of the embodiments of the present invention with reference to the accompanying drawings, in which:

FIG. 1 is a schematic view of an electrocautery device according to an embodiment of the utility model;

FIG. 2 is a schematic view of an electric soldering iron and a camera device according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of an image capture device according to an embodiment of the present invention;

FIG. 4 is a schematic view of an electric soldering iron in accordance with an embodiment of the present invention;

FIG. 5 is a schematic view of a lateral clasp according to an embodiment of the utility model;

FIG. 6 is a schematic diagram of a pin according to an embodiment of the present invention;

FIG. 7 is a schematic view of a jack according to an embodiment of the present invention;

FIG. 8 is a cross-sectional view of a heat-generating device according to an embodiment of the present invention;

fig. 9 is a schematic view of a torsion spring according to an embodiment of the present invention.

In the figures, the various reference numbers are:

1-electric iron; 11-a soldering bit, 12-a heating device, 13-a holding part and 14-a connecting part; 15-a first set of adjustment knobs;

121-lateral connecting hole, 122-shell and 123-heating core; 131-a holding groove; 141-lateral buckle, 142-fixed platform, 143-limiting part, 144-fixed block and 145-jack;

1431-notch, 1432-vertical post, 1433-torsion spring, 1434-boss;

2-a camera device; 21-slide rail, 22-card slot, 23-pin, 24-camera, 25-first fine adjustment piece, 26-camera main body, 27-lighting component, 28-second fine adjustment piece, 29-sliding plate and 210-groove;

3-a chute;

4-a control device; 41-second set of adjustment knobs, 42-display panel;

5-display device.

Detailed Description

The present invention will be described below based on examples, but the present invention is not limited to only these examples. In the following detailed description of the present invention, certain specific details are set forth. It will be apparent to one skilled in the art that the present invention may be practiced without these specific details. Well-known methods, procedures, components and circuits have not been described in detail so as not to obscure the present invention.

Further, those of ordinary skill in the art will appreciate that the drawings provided herein are for illustrative purposes and are not necessarily drawn to scale.

Unless the context clearly requires otherwise, throughout the description, the words "comprise", "comprising", and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is, what is meant is "including, but not limited to".

In the description of the present invention, it is to be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

As shown in fig. 1 and 2, an electric soldering iron according to an embodiment of the present invention includes an electric soldering iron 1 and a camera device 2. The electric soldering iron 1 comprises a soldering bit 11, a heating device 12, a holding part 13 and a connecting part 14 which are connected in sequence. The camera device 2 is disposed on the connecting portion 14, and a lens of the camera device 2 is aligned with the soldering tip 11 for capturing an original image of the soldering tip 11, so that an operator can observe the condition of the soldering point according to the captured original image.

According to embodiments of the present invention, tip 11 is capable of conducting heat and transferring the heat to a solder joint for soldering an electronic component. Fig. 8 schematically illustrates a cross-sectional view of the heat generating device 12. As shown in fig. 8, the heat generating device 12 may include a housing 122 and a heat generating core 123. The heating core 123 may be disposed in the casing 122, one end of the soldering iron tip 11 extends into the casing 122 and is connected to the heating core 123, and the other end of the soldering iron tip extends out of the casing 122 for soldering the electronic component. The heat generating core 123 can be controlled to generate heat and conduct the heat to the soldering tip 11. The heating core 123 can be replaced according to different requirements to meet different welding requirements. For example, the heat generating core 123 may be a heating wire type heat generating core or a ceramic heat generating core, and the like, which is not limited herein.

The cross-sectional shape of housing 122 may be a circular ring, and the diameter of the circular ring of the cross-section of housing 122 may gradually decrease toward the end of tip 11 until it is the same as the diameter of the cross-section of tip 11, so that the end of tip 11 may snap into housing 122. In addition, the cross-sectional shape of the housing 122 is also other shapes, such as square, etc., and is not limited herein. The size of the cross-section of the housing 122 is also not limited herein. Other ways of attaching one end of tip 11 within housing 122 will occur to those skilled in the art and are not intended to be limiting.

According to the embodiment of the present invention, one end of the housing 122 facing away from the soldering tip 11 is engaged with the holding portion 13, and the holding portion 13 is connected with the connecting portion 14. The grip 13 may be cylindrical or the grip 13 may be pencil shaped to facilitate handling by an operator. The grip 13 may be rectangular parallelepiped to prevent the electric soldering iron 1 from rolling, etc. In addition, the holding portion 13 may be further provided with holding grooves 131, and the number of the holding grooves 131 may be two. Meanwhile, the holding groove 131 may be disposed at one side of the holding portion 13, for example, at a position corresponding to a thumb and an index finger when the operator holds the holding portion 13, so that the operator can hold the holding portion conveniently, and the situation of unstable holding can be avoided.

According to an embodiment of the present invention, the end of the grip portion 13 facing away from the soldering tip 11 is connected to the end of the connection portion 14. The cross-section of the connecting portion 14 may be arched, i.e. the connecting portion 14 may be regarded as a combination of a semi-circular body and a rectangular parallelepiped. Preferably, the cross-section of the grip portion 13 may be circular in shape, and the width of the cross-section of the connecting portion 14 may be equal to the diameter of the cross-section of the grip portion 13. The semicircular part of the cross section of the connecting part 14 is aligned and connected with the semicircular part of the holding part 13, the cuboid part of the connecting part 14 is arranged on the semicircular part of the connecting part 14, and the side surface of the cuboid is connected with the holding part 13.

As shown in fig. 4, according to an embodiment of the present invention, a chute 3 may be provided on a plane of a rectangular parallelepiped portion of the connection portion 14, so that the connection portion 14 may be detachably connected to the image pickup device 2 through the chute 3. The sliding groove 3 is formed in the plane of the cuboid part, so that sliding is smooth, and the disassembly is convenient. The connecting portion 14 may have other shapes, for example, the cross section of the connecting portion 14 may be circular or elliptical as the cross section of the grip portion 13, and the sliding groove 3 may be provided on the side surface of the cylindrical body.

According to an embodiment of the present invention, the bottom of the camera device 2 may be provided with a slide rail 21, and the slide rail 21 may cooperate with the chute 3, so that the camera device 2 may be detachably connected with the connecting portion 14. The camera device 2 may also be detachably connected to the connecting portion 14 by other means, which is not limited herein. For example, the camera 2 may be detachably connected to the connection portion 14 through a screw hole.

The center of the field of view of the camera device 2 may be aligned with the solder joint of the soldering tip 11 so that the camera device 2 may acquire an original image at the soldering tip 11. The camera device 2 can also have focusing, zooming and reducing functions, and particularly, in order to avoid the shaking of a shot picture caused by manually holding the electric soldering iron 1, the camera device 2 can also have an anti-shaking function so as to ensure that the welding process can be clearly observed. Furthermore, the camera device 2 may also comprise other functions, so that in different usage scenarios, the corresponding functions may be used. For example, the camera device 2 may further have a barcode reading function, and when the electrocautery device according to the embodiment of the present invention is used, a barcode or a two-dimensional code in a welding scene may be read, so that an operator may obtain related information about an electronic component through the barcode or the two-dimensional code. The camera 2 may also have other functions such as inscription recognition, thermal imaging, and laser focusing, which are not limited herein.

Further, the image pickup device 2 may be replaced in different application scenarios for more convenient operation. For example, in a certain scene, a wide-angle camera lens is needed, and then, in addition to changing the shooting magnification of the camera 2, the camera 2 can be replaced, and another camera 2 with a wide-angle lens can be used for shooting.

As shown in fig. 5, according to the embodiment of the present invention, the connection portion 14 may further include a lateral snap 141, and accordingly, one side of the camera device 2 may have a snap groove 22 connected with the lateral snap 141. The lateral catch 141 can be snapped into the catch groove 22 in order to connect the connection 14 and the camera device 2. Particularly, when the connecting portion 14 and the camera device 2 are detachably connected to the slide rail 21 through the sliding groove 3, the lateral buckle 141 is clamped into the clamping groove 22, so that the camera device 2 can be limited, and the camera device 2 is prevented from sliding off the connecting portion 14 in the using process. In addition, the connecting portion 14 may also limit the image capturing device 2 in other manners, for example, a first through hole may be provided on the connecting portion 14, a second through hole may be provided on the image capturing device 2, and a plug may be used to penetrate through the first through hole and the second through hole, so as to avoid relative sliding between the image capturing device 2 and the connecting portion 14.

As shown in fig. 4, according to an embodiment of the present invention, the connection portion 14 may include a fixing platform 142, a stopper portion 143, and two fixing blocks 144.

The fixing platform 142 may be fixed at the end of the holding portion 13, and the fixing platform 142 may have any shape with a horizontal platform, and the horizontal platform of the fixing platform 142 is disposed upward. For example, the fixed platform 142 is a rectangular parallelepiped, and any one plane of the rectangular parallelepiped can be used as a horizontal platform. After a plane is selected as a horizontal platform, the plane of the cuboid can be placed in an upward direction. Alternatively, the mounting platform 142 may be a semi-circular body having a planar surface with a rectangular shape, which may be selected to be a horizontal platform with the parallel orientation oriented upward.

The position-limiting portion 143 may be fixed to an end of the fixing platform 142 and extend outward of the fixing platform 142. For example, the shape of the limiting portion 143 may be a rectangular parallelepiped, the rectangular parallelepiped is fixed at the end of the fixing platform 142, and the height of the cross section of the rectangular parallelepiped is greater than the height of the cross section of the fixing platform 142, that is, the limiting portion 143 protrudes from the fixing platform 142 in the vertical direction.

Two fixing blocks 144 are oppositely arranged on the fixing platform 142, and the fixing blocks 144 may be rectangular solids. The fixing blocks 144 may have the same length as the fixing platform 142, and the fixing blocks 144 may be disposed at both sides of the fixing platform 142 in the length direction of the fixing platform 142. The two fixing blocks 144 are spaced apart from each other by a predetermined distance, and the chute 3 is formed by the two fixing blocks 144 and the fixing platform 142. In order to prevent the slide rail 21 and the chute 3 from falling off, the cross section of the fixing blocks 144 may be trapezoidal, that is, the longer bottom edges of the two fixing blocks 144 are disposed on the top surface, and the shorter bottom edges are disposed on the fixing platform 142. Thus, the cross section of the sliding chute 3 formed by the two fixing blocks 144 and the fixing platform 142 is trapezoidal in shape with a narrow top and a wide bottom. Correspondingly, the shape of the cross section of the slide rail 21 may also be the same as the shape of the cross section of the slide groove 3, so that the slide groove 3 and the slide rail 21 are more firmly connected, and at the same time, the slide rail 21 is less likely to fall off from the slide groove 3 in the direction perpendicular to the sliding direction.

Preferably, the cross-section of the two fixing blocks 144 may have a right trapezoid shape, and the height of the two fixing blocks 144 is perpendicular to the fixing platform 142. The oblique sides of the two fixing blocks 144 are oppositely arranged so that the cross section of the sliding chute 3 formed by the two fixing blocks 144 and the fixing platform 142 is in a trapezoidal shape with a narrow top and a wide bottom.

Preferably, the camera device 2 can be slidably connected to the fixed platform 142 through the sliding rail 21 arranged at the bottom and the sliding groove 3 on the fixed platform 142. Meanwhile, the camera device 2 can be detachably connected with the lateral buckle 141 arranged on the limiting portion 143 and the limiting portion 143 through the clamping groove 22.

As shown in fig. 9, according to an embodiment of the present invention, a notch 1431 may be provided on one side of the limiting portion 143, an opening of the notch 1431 is communicated with one side of the limiting portion 143, and the shape of the notch 1431 may be a rectangular parallelepiped, that is, it may be regarded as that a rectangular parallelepiped is removed from the limiting portion 143. A vertical post 1432 is provided within the notch 1431, the vertical post 1432 being connected to the top and bottom surfaces of the notch 1431. A torsion spring 1433 may be sleeved on the vertical post 1432 and the lateral catch 141 may be sleeved on the torsion spring 1433. When the lateral latch 141 is pulled to one side, the lateral latch 141 is reset by the torsion spring 1433, so as to open and close the lateral latch 141.

As shown in fig. 6 and 7, according to an embodiment of the present invention, the stopper 143 may include a plurality of insertion holes 145. The insertion hole 145 may be provided on a side of the stopper 143 facing the tip 11. Accordingly, the camera device 2 may include a plurality of pins 23, the pins 23 may be disposed on a surface of the camera device 2 facing the limiting portion 143, and the pins 23 of the present embodiment may be, but are not limited to, Pogo pins (Pogo pins). The number and the positions of the pins 23 correspond to those of the jacks 145, and the pins 23 are correspondingly plugged into the jacks 145 one by one so as to electrically connect the camera device 2 and the electric soldering iron 1.

Preferably, the pin 23 may be disposed in the groove 210 of the camera device 2 on a side corresponding to the jack 145, so that when the camera device 2 is not used, the pin 23 may be prevented from being touched by other objects to damage the camera device 2. Accordingly, a plurality of insertion holes 145 may be provided on the projection 1434 of the stopper 143, and the projection 1434 is fitted with the groove 210 so that the pin 23 may be connected with the insertion hole 145. Meanwhile, the connection stability of the limiting part 143 and the camera device 2 can be increased by the connection of the protruding part 1434 and the groove 210.

In the embodiment of the present invention, the image capturing device 2 can be slid on the fixing platform 142 to the position of the limiting portion 143 through the sliding chute 3 and the sliding rail 21. The camera device 2 is connected to the stopper 143 via the pin 23 and the insertion hole 145. Further, the camera device 2 is limited by the lateral buckle 141 arranged on the limiting portion 143, so that the camera device 2 is prevented from sliding off the fixing platform 142, meanwhile, the stability of the connection between the contact pin 23 and the jack 145 can be improved, and the working efficiency is improved.

According to an embodiment of the present invention, the camera device 2 may further include a camera 24 and a first trim 25. The camera 24 may be used to photograph the working environment of the soldering tip 11. First trim element 25 is electrically connected to camera 24 and is operable to adjust the angle of view of camera 24 to ensure that soldering tip 11 is positioned within the range of view of camera 24, i.e., to position the solder joint of soldering tip 11 at the center focus of the image captured by camera 24.

As shown in fig. 3, according to an embodiment of the present invention, the image pickup apparatus 2 may further include an image pickup body 26, an illumination assembly 27, a second trim 28, and a slide plate 29.

The image pickup body 26 may include a rectangular parallelepiped housing, and an electric wire or the like provided in the housing. The camera 24 and the first trim 25 are both provided on the camera body 26. The camera 24 may be disposed on a side of the imaging main body 26 facing away from the stopper 143.

Illumination assembly 27 is disposed on camera body 26. preferably, illumination assembly 27 may be disposed above camera head 24 so that illumination assembly 27 may provide camera head 24 with sufficient light to ensure that the image captured by camera head 24 is sharp. A second trim 28 is provided on the camera body 26. the second trim 28 can be used to adjust the illumination angle of the illumination assembly 27 to ensure that sufficient illumination is provided to the weld.

A sliding plate 29 may be provided at a lower end of the photographing body 26 and connected to a bottom surface of the photographing body 26 for placing the photographing body 26. The slide plate 29 has a shape conforming to the shape of the bottom surface of the imaging main body 26 so that the imaging main body 26 can be firmly placed on the slide plate 29. The slide plate 29 may be firmly connected to the imaging main body 26 by a screw and a bolt. The slide rail 21 is provided protruding below the slide plate 29. Preferably, the slide rail 21 may be disposed below the horizontal symmetry axis of the placing plane and connected with the bottom surface of the slide plate 29. The slide rail 21 is adapted to the shape of the slide groove 3 so that the slide rail 21 can be positioned in the slide groove 3 to connect the camera device 2 and the connecting portion 14.

Further, the slide plate 29 may be provided at the upper end or both sides of the imaging main body 26, and one side of the slide plate 29 is connected to the upper surface or the side surface of the imaging main body 26. The other side of the sliding plate 29 is provided with a sliding rail 21, and the sliding plate 29 can be connected with the connecting part 14 through the sliding rail 21, so that the camera device 2 is connected with the connecting part 14. The sliding plates 29 are disposed on different sides of the camera body 26, so that the camera body 26 can photograph the soldering bit 11 from different directions, and an operator can observe the soldering or repairing condition of the soldering bit 11 from different angles as required. In the embodiment of the present invention, the locking groove 22 may be disposed at one side of the sliding plate 29 at a position corresponding to the lateral locking hook 141 disposed on the limiting portion 143. So that the side buckle 141 is clamped into the clamping groove 22, the limiting part 143 can be fixed with the sliding plate 29, and the camera device 2 can be fixed with the limiting part 143.

Preferably, a notch 1431 is provided at one side of the limiting portion 143 for placing the lateral catch 141, and a height of the notch 1431 may be identical to a height of the lateral catch 141, so that the lateral catch 141 may be completely placed in the notch 1431. The height of the securing block 144 may be the same as the distance from the bottom surface of the notch 1431 to the top surface of the securing platform 142 to avoid sending a collision with the securing block 144 when the lateral catch 141 is opened. The height of the slide rail 21 corresponds to the height of the fixing block 144, so that the slide rail 21 can be completely located in the sliding groove 3 formed by the two fixing blocks 144 and the fixing platform 142. The height of the sliding plate 29 and the height of the lateral catches 141 may be the same. Further, the bottom surface of the sliding plate 29 may be flush with the bottom surface of the lateral catch 141, and the top surface of the sliding plate 29 may be flush with the top surface of the lateral catch 141, so that the lateral catch 141 can be completely caught in the catching groove 22 in the vertical direction, so that the connection is more secure.

In the embodiment of the present invention, the camera body 26 has a certain volume, and therefore, the camera device 2 is disposed on the connection portion 14 away from the soldering tip 11, so that the camera body 26 can be placed in a larger space. In addition, the camera device 2 is arranged on the connecting part 14, so that the condition that the operator observes the welding point can be avoided when the operator holds the holding part 13 and the operator can observe the visual field of the camera 24 by hands.

As shown in fig. 1, the electrocautery device according to an embodiment of the utility model may further include a control device 4 and a display device 5.

The control device 4 can be respectively electrically connected with the electric soldering iron 1 and the camera device 2, and the control device 4 can be used for controlling the electric soldering iron 1 and the camera device 2 to start working and stop working or changing the working state of the electric soldering iron 1 and/or the camera device 2. For example, the control device 4 may control the heat generating device 12 of the electric soldering iron 1 to generate heat, and control the heat generating device 12 to generate heat to 105 degrees celsius. Alternatively, in the case where the heat generating device 12 generates heat to 105 degrees celsius, the control device 4 may control the heat generating device 12 to change the temperature to 85 degrees celsius.

The display device 5 is electrically connected to the control device 4, and the display device 5 can display an image captured by the imaging device 2. For example, the control device 4 may control the image capturing device 2 to start working, and the image capturing device 2 transmits the captured image to the display device 5 through the control device 4 for displaying, so that the operator can clearly know the condition of the welding position.

According to an embodiment of the present invention, the electric soldering iron 1 may further include a first set of adjusting knobs 15. The first set of adjustment knobs 15 may be provided on the connecting portion 14, and preferably, the first set of adjustment knobs 15 may be provided on the fixed platform 142. The first set of adjusting knobs 15 can be electrically connected with the camera device 2 and can be used for adjusting the working parameters of the electric soldering iron 1 and the camera device 2. The first set of adjustment knobs 15 may include a plurality of adjustment knobs, each of which may correspond to a different function of the camera device 2. For example, a first adjustment knob may be used to adjust the focus of the camera head 24 in the imaging device 2. Alternatively, the second adjustment knob may be used to adjust the magnification of the camera head 24 in the camera device 2, etc. Still alternatively, a third adjustment knob may be used to adjust the temperature of the soldering tip 11 in the electric soldering iron 1, etc. Still alternatively, a third adjustment knob may be used to adjust the brightness or the like of the illumination assembly 27 in the image pickup device 2.

According to an embodiment of the present invention, the heat generating device 12 may include a lateral attachment hole 121, and the lateral attachment hole 121 may be disposed at an end of a housing 122 of the heat generating device 12 near the soldering tip 11. One end of the soldering tip 11 is engaged with the housing 122 of the heat generating device 12, and the length of the portion of the soldering tip 11 engaged with the housing 122 is greater than the length from the lateral attachment hole 121 to the edge of the housing 122 near the one end of the soldering tip 11. The electric soldering iron 1 may further include a length adjusting member, which may be inserted into the lateral connection hole 121 to limit the soldering iron tip 11. The length-adjusting member may be a screw, and the lateral coupling hole 121 may be a hole having a screw. The portion of the soldering tip 11 extending into the housing 122 is adjustable by inserting a length adjustment member into the lateral attachment aperture 121 to secure the soldering tip 11 relative to the heat generating device 12.

By adjusting the length of the soldering iron tip 11 extending out of the outer casing 122, the situation that the soldering iron tip 11 cannot touch the soldering point when the soldering point is deep can be avoided in the soldering process, or the situation that the soldering iron tip 11 is too long can be avoided. Furthermore, the length of the soldering iron head 11 is adjusted through the matching of the lateral connecting hole 121 and the length adjusting piece, and the soldering iron heads 11 with different lengths do not need to be frequently replaced in the welding process, so that the operation is simpler and more convenient.

According to an embodiment of the present invention, the control device 4 may include a controller, a second group adjustment knob 41, an image processor, a display panel 42, and a power switch knob.

The controller can be used for controlling the electric soldering iron 1 and the camera device 2 to start or stop working and the like. The second group of adjusting knobs 41 are electrically connected with the controller and can be used for adjusting the working parameters of the electric soldering iron 1 and the camera device 2. The second set of adjustment knobs 41 may include a plurality of adjustment knobs, each of which may control a different function of the electric soldering iron 1 and the camera device 2. In particular, the functions adjusted by the second set of adjustment knobs 41 correspond to the functions adjusted by the first set of adjustment knobs 15. For example, the focal length of the image pickup device 2 may be set by the second group adjustment knob 41, and further, the focal length of the image pickup device 2 may be set by the first group adjustment knob 15.

The image processor may be configured to receive an image captured by the image capture device 2 and process the image. The image processor may adjust the image captured by the image capture device 2, for example, to adjust the resolution, brightness, color gamut, magnification, and the like of the image. In particular, the image processor can also perform anti-shake function processing on the image to eliminate the influence of shake on the image caused by holding the electric iron 1.

The display panel 42 may be used to display the operating parameters of the electric soldering iron 1 and the camera device 2. Such as the current tip 11 temperature, the magnification of the camera 24, etc. The power switch knob can control the power of the electrocautery device.

According to an embodiment of the present invention, the display device 5 may include a signal receiver and a display. The signal receiver can receive the image signal sent by the controller in a wired or wireless mode and display the image transmitted by the image processor on the display. For example, the display may be a tablet computer, a mobile phone, or a liquid crystal computer.

In the embodiment of the utility model, the image pickup device is arranged on the electric soldering iron, the image pickup device is used for shooting the situation at the welding point, and the shot image is displayed on the display device, so that an operator can clearly know the situation at the welding point. Compared with the related art in which a microscope is used for displaying the condition of the welding point, the electrocautery device of the embodiment of the utility model can use a cheaper image pickup device, so that the cost can be reduced.

Meanwhile, the microscope is usually used for observing perpendicularly to an object, and the observation angle is limited. And the electrocautery device of this embodiment can follow the multi-angle observation electronic components, and the observation field of vision is wider, uses nimble convenience more.

In addition, the microscope is often used for observation, the angle of the microscope is adjusted, and the visual field cannot be changed, so that when an observed object changes (such as an angle, an azimuth and the like) or the focal distance of an observation point changes (such as the upper surface or the lower surface of an electronic component), an electric soldering iron in a hand needs to be placed for readjustment, and then welding maintenance operation is carried out. Is very cumbersome and time-consuming. The electrocautery device provided by the embodiment of the utility model can set related parameters by using the first group of adjusting knobs and/or the second group of adjusting knobs, and can be completed by one hand.

In addition, the image pickup device in the electrocautery device provided by the embodiment of the utility model is detachably connected with the connecting part. Therefore, different camera devices can be selected according to different requirements and scenes, and diversified requirements are met.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (12)

1. An electrocautery device, characterized in that it comprises:

the electric soldering iron (1) comprises a soldering iron head (11), a heating device (12), a holding part (13) and a connecting part (14) which are connected in sequence; and

the camera device (2) is detachably connected to the connecting part (14), and the camera device (2) is used for acquiring an original image at the soldering iron head (11).

2. Electrocautery device according to claim 1, characterized in that the top of the connection part (14) has a chute (3) and the bottom of the camera device (2) has a slide rail (21) adapted to the chute (3);

the connecting part (14) comprises a lateral buckle (141), and one side of the camera device (2) is provided with a clamping groove (22) connected with the lateral buckle (141).

3. Electrocautery device according to claim 2, characterized in that the connection (14) comprises:

a fixing platform (142), wherein the fixing platform (142) is fixed on the outer side of the holding part (13);

the limiting part (143) is fixed on the fixed platform (142) and extends towards the outer side of the fixed platform (142); and

the two fixing blocks (144) are oppositely arranged on the fixing platform (142), and the two fixing blocks (144) and the fixing platform (142) form the chute (3).

4. The electric soldering iron device according to claim 3, wherein a side of the limiting portion (143) facing the soldering iron head (11) comprises a plurality of insertion holes (145), a side of the image pickup device (2) comprises a plurality of insertion pins (23), and the plurality of insertion pins (23) are inserted into the plurality of insertion holes (145) in a one-to-one correspondence manner to electrically connect the image pickup device (2) and the electric soldering iron (1).

5. Electrocautery device according to claim 2, characterized in that the camera device (2) further comprises:

the camera (24), the camera (24) is used for shooting the position of the soldering iron head (11); and

a first trim (25), the first trim (25) being electrically connected with the camera head (24).

6. Electrocautery device according to claim 5, characterized in that the camera device (2) further comprises:

the camera body (26), the camera (24) and the first fine-adjustment piece (25) are connected to the camera body (26);

an illumination assembly (27) and a second trim piece (28), wherein the illumination assembly (27) and the second trim piece (28) are both connected to the camera body (26); and

a slide plate (29), wherein the image pickup main body (26) is arranged on one side of the slide plate (29);

the sliding rail (21) is arranged on the other side of the sliding plate (29) in a protruding mode, and the clamping groove (22) is arranged on the outer side of the sliding plate (29).

7. The electrocautery device of claim 1, further comprising:

the control device (4) is respectively electrically connected with the electric soldering iron (1) and the camera device (2), and is configured to control the electric soldering iron (1) and the camera device (2) to work; and

a display device (5), the display device (5) being electrically connected to the control device (4) and configured to display an original image captured by the imaging device (2).

8. The electrocautery device according to claim 1, characterized in that the electrocautery iron (1) further comprises:

the first group of adjusting knobs (15) are arranged on the connecting part (14) and are electrically connected with the electric soldering iron (1) and the camera device (2).

9. Electrocautery device according to claim 1, characterized in that the heating device (12) comprises a lateral connection hole (121), one end of the soldering iron head (11) being snapped into the heating device (12).

10. Electrocautery device according to claim 1, characterized in that the grip (13) further comprises a grip recess (131), the grip recess (131) being arranged outside the grip (13).

11. Electrocautery device according to claim 7, characterized in that the control device (4) comprises:

a controller configured to control the electric soldering iron (1) and the camera device (2) to work;

the second group of adjusting knobs (41), the second group of adjusting knobs (41) are used for adjusting working parameters of the electric soldering iron (1) and the camera device (2);

an image processor for receiving an original image captured by the image capture device (2) and processing the original image; and

a display panel (42), the display panel (42) being configured to display operating parameters of the electric soldering iron (1) and the image pickup device (2).

12. Electrocautery device according to claim 1, characterized in that the heat-generating device (12) further comprises:

a housing (122), wherein the housing (122) is clamped on the holding part (13); and

and the heating core (123) is arranged in the shell (122) and is connected with the soldering iron head (11).

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