CN116544025B - Automatic tin dipping device of portable power transformer - Google Patents

Abstract

An automatic tin-dipping device of a portable power transformer, comprising: the automatic tin-plating machine comprises a mounting bottom plate, a continuous automatic tin-dipping mechanism, an integrated automatic feeding and discharging mechanism and an intermittent continuous rotating mechanism; the utility model adopts a continuous rotary automatic tin dipping mode, and the whole processes of feeding, soldering flux attachment, tin dipping and discharging can be realized by completely rotating the element on the placing frame for one circle, so that the steps are simple and the efficiency is high; the device can finish the tin dipping work of a plurality of elements every turn, and continuous tin dipping of the elements can be realized by continuous operation of the device, so that the working efficiency is greatly improved.

Description

Automatic tin dipping device of portable power transformer

Technical Field

The utility model relates to the technical field of transformers, in particular to an automatic tin dipping device for a portable power transformer.

Background

Along with the development of science and technology, electronic equipment is more and more present at our side, great convenience is brought to our life, a great amount of application of the electronic equipment is caused, the demand of electric elements is great, the main body of the inductance device is an iron core and a copper wire wound around the iron core, and two ends of the copper wire are respectively wound on two pins of the inductance device; in the production of the inductance device, in order to ensure that the pins and the copper wires are not broken, the two ends of the copper wires and the pins of the inductance device are respectively wound and tin-immersed for fixation;

for this purpose, publication No.: the utility model patent of 202211196507.X discloses an automatic tin dipping device of a semi-finished network transformer, which comprises a shell, wherein a reciprocating feeding and discharging assembly is arranged on the inner wall of the shell, a supporting plate is fixedly arranged between the inner walls of the two sides of the shell, a tin liquor box positioned in the reciprocating feeding and discharging assembly is fixedly arranged at the top of the supporting plate, a heating assembly is arranged in the tin liquor box, slag pressing filter plates are attached to the tops of the inner walls of the periphery of the tin liquor box, and second springs are fixed at the four corners of the bottom of the slag pressing filter plates;

however, through the research on the equipment, the device adopts a mechanical grabbing mode to carry out the tin dipping of the elements, the grabbing process is complicated, the elements on the conveyor belt are required to be grabbed up, then the soldering flux is sprayed, and the soldering flux is put into a tin furnace to carry out tin dipping, so that the steps are more and the efficiency is low;

therefore, the utility model needs to provide an automatic tin dipping device for a portable power transformer, which not only can automatically feed and discharge materials, but also has simple steps and higher efficiency.

Disclosure of Invention

Aiming at the problems, the utility model provides the automatic tin-dipping device of the portable power transformer, which adopts a continuous rotary automatic tin-dipping mode, and the whole processes of feeding, soldering flux attachment, tin-dipping and discharging can be realized by completely rotating the element on the placing frame for one circle, so that the steps are simple and the efficiency is high; the device can finish the tin dipping work of a plurality of elements every turn, and continuous tin dipping of the elements can be realized by continuous operation of the device, so that the working efficiency is greatly improved.

The technical scheme adopted by the utility model is as follows: an automatic tin-dipping device of a portable power transformer, comprising: the automatic tin-plating machine comprises a mounting bottom plate, a continuous automatic tin-dipping mechanism, an integrated automatic feeding and discharging mechanism and an intermittent continuous rotating mechanism;

the mounting base plate includes: the floor comprises a bottom plate A, a vertical rod, a bracket and a door-shaped bracket, wherein the vertical rod, the bracket and the door-shaped bracket are all fixed on the bottom plate A, and the bottom plate A is fixed on the ground; the integrated automatic feeding and discharging mechanism is divided into a feeding part, a discharging part and a power part, wherein the feeding part is fixed at the top ends of two supports, the discharging part is fixed at the top ends of four vertical rods, and the power part is arranged on a door-shaped support; three support brackets in the intermittent continuous rotating mechanism are fixed on the ground, the top ends of the support brackets are fixed with a bottom plate B, a continuous automatic tin dipping mechanism is installed on the bottom plate B, a sleeve is rotatably installed on a central shaft of the continuous automatic tin dipping mechanism, the sleeve and a connecting frame are fixed together, and a supporting rod is fixed on the connecting frame.

Further, the continuous automatic tin-dipping mechanism comprises: the welding device comprises a central shaft, a cross fixing frame, a circular ring rail, an arc-shaped sliding block, a liquid tin accommodating box, a soldering flux accommodating box, semicircular convex blocks, a sliding plate, a placing frame, a supporting rod and a stretching spring;

the center pin is fixed in bottom plate B's central point, the cross mount passes through four bolts to be fixed on the top of center pin, the intermediate position of cross mount is fixed with the semicircle lug, the end of cross mount is fixed with the ring track, slidable mounting has eight arc sliders on the orbital slide of ring, and every arc slider downside slidable mounting has a slide, it has four through-holes to open on the slide, four pole slidable mounting of rack are in four through-holes of slide, the rack articulates together with the end of bracing piece, the centre of bracing piece is fixed with extension spring's one end, extension spring's other end is fixed on the slide, the head end of bracing piece is together fixed with the link, liquid tin holds box and scaling powder and holds the box and fix in bottom plate B's edge.

Further, the material loading part of automatic unloading mechanism of going up of integral type includes: the device comprises a feeding frame, a feeding push plate, a spring plate, a push rod and a bump;

the feeding frame is fixed on the top ends of the two brackets, the elastic sheet is fixed at the outlet of the feeding frame, the feeding push plate is slidably mounted at the outlet of the feeding frame and is positioned below the elastic sheet, a square hole is formed in the tail end of the feeding push plate, the push rod is rotatably mounted in the hole, and a protruding block is further fixed at the tail end of the feeding push plate.

Further, the unloading part of automatic unloading mechanism of going up of integral type includes: a blanking frame and a blanking push plate; the blanking frame is fixed at the top ends of the four vertical rods, and the blanking push plate is slidably arranged at the inlet of the blanking frame.

Further, the power part of the automatic feeding and discharging mechanism of integral type includes: the device comprises a motor A, an eccentric rotating shaft and a deflector rod; the motor A is fixed below the portal support, a motor shaft of the motor A penetrates through the portal support to be fixed with one end of the eccentric rotating shaft, the other end of the eccentric rotating shaft is slidably mounted in a sliding groove at one end of the deflector rod, and the other two ends of the deflector rod are slidably connected with the small upright posts below the feeding push plate and the discharging push plate respectively.

Further, the intermittent continuous rotation mechanism includes: the device comprises a support bracket, a bottom plate B, a motor B, a small bracket, an incomplete gear, a sleeve and a connecting frame;

the three support brackets are fixed on the ground, the bottom plate B is fixed at the top of the three support brackets, the motor B is fixed below the bottom plate B, the motor shaft of the motor B penetrates through the bottom plate B and is fixed with the incomplete gear, the incomplete gear is rotatably mounted on the small bracket, the small bracket is fixed above the bottom plate B, teeth of the incomplete gear can be meshed with teeth on the lower side of the sleeve, the sleeve is rotatably mounted on the central shaft, and the connecting frame is fixed with the sleeve.

Due to the adoption of the technical scheme, the utility model has the following advantages:

(1) The continuous rotary automatic tin dipping mode is adopted, the element can completely rotate on the placing frame for one circle, so that the whole processes of feeding, soldering flux attachment, tin dipping and discharging can be realized, the steps are simple, and the efficiency is high;

(2) The device can finish the tin dipping work of a plurality of elements every turn, and continuous tin dipping of the elements can be realized by continuous operation of the device, so that the working efficiency is greatly improved.

Drawings

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

Fig. 2 is a schematic structural view of the mounting base plate of the present utility model.

Fig. 3-5 are schematic structural views of the continuous automatic tin-dipping mechanism of the present utility model.

Fig. 6-8 are schematic structural views of an integrated automatic feeding and discharging mechanism of the present utility model.

Fig. 9 is a schematic structural view of an intermittent continuous rotation mechanism according to the present utility model.

Reference numerals: 1-mounting a bottom plate; 2-a continuous automatic tin dipping mechanism; 3-an integrated automatic feeding and discharging mechanism; 4-intermittent continuous rotating mechanism; 101-a bottom plate A; 102-standing a pole; 103-a bracket; 104-a portal frame; 201-a central axis; 202-a cross fixing frame; 203-a circular ring orbit; 204-arc-shaped sliding blocks; 205—a liquid tin containment box; 206-a flux housing box; 207-semicircular bumps; 208-skateboard; 209-a placing frame; 210-supporting rods; 211-stretching springs; 301-motor a; 302-eccentric shaft; 303—a toggle; 304-feeding frame; 305, a loading push plate; 306-blanking frame; 307-blanking push plate; 308-shrapnel; 309-push rod; 310-bump; 401-supporting a bracket; 402-floor B; 403-motor B; 404-small rack; 405-incomplete gear; 406-a sleeve; 407-a connector.

Detailed Description

The technical scheme of the utility model is further specifically described below through examples and with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, but the present utility model may be embodied in many other forms than described herein, and persons skilled in the art will be able to make similar modifications without departing from the spirit of the utility model, so that the utility model is not limited to the specific embodiments disclosed below.

An embodiment, as shown in fig. 1-9, is a portable automatic tin immersion device for a power transformer, which is characterized by comprising: the automatic tin-plating machine comprises a mounting bottom plate 1, a continuous automatic tin-dipping mechanism 2, an integrated automatic feeding and discharging mechanism 3 and an intermittent continuous rotating mechanism 4;

the mounting base plate 1 includes: the floor comprises a bottom plate A101, a vertical rod 102, a support 103 and a portal support 104, wherein the vertical rod 102, the support 103 and the portal support 104 are all fixed on the bottom plate A101, and the bottom plate A101 is fixed on the ground; the integrated automatic feeding and discharging mechanism 3 is divided into a feeding part, a discharging part and a power part, wherein the feeding part is fixed at the top ends of two brackets 103, the discharging part is fixed at the top ends of four vertical rods 102, and the power part is arranged on a door-shaped bracket 104; three support brackets 401 in the intermittent continuous rotating mechanism 4 are fixed on the ground, a bottom plate B402 is fixed at the top end of the support brackets 401, a continuous automatic tin dipping mechanism 2 is arranged on the bottom plate B402, a sleeve 406 is rotatably arranged on a central shaft 201 of the continuous automatic tin dipping mechanism 2, the sleeve 406 is fixed with a connecting frame 407, and a support rod 210 is fixed on the connecting frame 407;

firstly, manually placing the components on a feeding frame 304, pushing the components onto a placing frame 209 in a continuous automatic tin dipping mechanism 2 by a feeding push plate 305, driving the placing frame 209 to rotate by an intermittent continuous rotating mechanism 4, enabling the components to enter a liquid tin accommodating box 205 first to be dipped in liquid tin, then enter a soldering flux accommodating box 206 to be soldered, driving the placing frame 209 to rotate to a blanking frame 306 by the intermittent continuous rotating mechanism 4 after the steps are completed, and pushing out the components by the blanking push plate 307;

the continuous automatic tin dipping mechanism 2 is provided with a plurality of placing racks 209, so that at the same time, the elements on each placing rack 209 are subjected to different steps, the intermittent continuous rotating mechanism 4 can complete tin dipping work of a plurality of elements every time of rotating, and continuous tin dipping of the elements can be realized by continuous operation of the device.

In an alternative implementation of the embodiment of the present utility model, as shown in fig. 3 to 5, the continuous automatic tin-plating mechanism 2 includes: center shaft 201, cross-shaped fixing frame 202, circular ring rail 203, arc-shaped sliding block 204, liquid tin containing box 205, soldering flux containing box 206, semicircular convex block 207, sliding plate 208, placing frame 209, supporting rod 210 and stretching spring 211;

the central shaft 201 is fixed at the central position of the bottom plate B402, the cross fixing frame 202 is fixed at the top end of the central shaft 201 through four bolts, a semicircular convex block 207 is fixed at the middle position of the cross fixing frame 202, a circular ring track 203 is fixed at the tail end of the cross fixing frame 202, eight arc-shaped sliding blocks 204 are slidably arranged on a slideway of the circular ring track 203, a sliding plate 208 is slidably arranged below each arc-shaped sliding block 204, four through holes are formed in the sliding plate 208, four round rods of a placing rack 209 are slidably arranged in the four through holes of the sliding plate 208, the placing rack 209 is hinged with the tail end of a supporting rod 210, the middle of the supporting rod 210 is fixed with one end of a tension spring 211, the other end of the tension spring 211 is fixed on the sliding plate 208, the head end of the supporting rod 210 is fixed with a connecting frame 407, and a liquid tin containing box 205 and a soldering flux containing box 206 are fixed at the edge of the bottom plate B402;

the intermittent continuous rotating mechanism 4 drives the supporting rods 210 to rotate, the supporting rods 210 drive the placing frame 209, the sliding plate 208 and the arc-shaped sliding blocks 204 to slide on the circular ring track 203, so that continuous rotation of the placing frame 209 is realized, elements are filled at the position of the feeding frame 304 on the placing frame 209, when the welding flux accommodating box 206 is rotated, the supporting rods 210 are jacked up by the semicircular convex blocks 207, so that the supporting rods 210 move downwards, the placing frame 209 is driven to slide downwards, meanwhile, the placing frame 209 slides downwards, due to the fact that the distance of the supporting rods 210 in the horizontal direction is shortened, the sliding plates 208 are driven to slide inwards on the arc-shaped sliding blocks 204, dynamic changes of the mechanism are adapted, and due to the fact that four long rods of the placing frame 209 are vertically and slidably installed on the sliding plates 208, the placing frame 209 always keeps in a horizontal state, so that the elements can stably descend to the liquid level of the welding flux accommodating box 206, the supporting rods 210 continuously rotate, the supporting rods can reset to the initial height under the action of the stretching springs 211, rotate to the position of the liquid tin accommodating box 205, and the supporting rods 210 can also rotate downwards under the action of the semicircular convex blocks 207, so that the tin on the pins of the placing frame 209 can stand.

In an alternative implementation manner of the embodiment of the present utility model, as shown in fig. 6 to 8, the integrated automatic loading and unloading mechanism 3 includes: motor a301, eccentric rotating shaft 302, deflector 303, feeding rack 304, feeding push plate 305, discharging rack 306, discharging push plate 307, elastic piece 308, push rod 309 and protruding block 310;

the motor A301 is fixed below the portal bracket 104, a motor shaft of the motor A301 passes through the portal bracket 104 to be fixed with one end of the eccentric rotating shaft 302, the other end of the eccentric rotating shaft 302 is slidably mounted in a chute at one end of the deflector rod 303, the other two ends of the deflector rod 303 are respectively slidably connected with a feeding push plate 305 and a small upright post below a discharging push plate 307, a feeding frame 304 is fixed at the top ends of the two brackets 103, a spring piece 308 is fixed at the outlet of the feeding frame 304, the feeding push plate 305 is slidably mounted at the outlet of the feeding frame 304 and is positioned below the spring piece 308, a square hole is formed at the tail end of the feeding push plate 305, a push rod 309 is rotatably mounted in the hole, a bump 310 is further fixed at the tail end of the feeding push plate 305, the discharging frame 306 is fixed at the top ends of the four upright rods 102, and the discharging push plate 307 is slidably mounted at the inlet of the discharging frame 306;

each time the feeding and discharging are synchronously performed, the soldered element is pulled down from the placing frame 209 at the position of the discharging opening, the non-soldered element is pushed down from the placing frame 209 at the position of the charging opening, the motor A301 starts to drive the eccentric rotating shaft 302 to rotate for one circle, so that the driving rod 303 swings once reciprocally, the driving rod 303 drives the discharging pushing plate 307 to slide outwards when swinging, the protruding plate on the discharging pushing plate 307 pushes the soldered element out to the discharging frame 306, the other end of the driving rod 303 drives the feeding pushing plate 305 to slide inwards, the push rod 309 on the feeding pushing plate 305 pulls the element slideway placing frame 209, the other element on the feeding frame 304 slides down in a proper way, the element at the most front is blocked by the elastic sheet 308, the driving rod 303 is in a reciprocating way, the driving rod 303 is reset at the moment, the discharging position drives the discharging pushing plate 307 to slide inwards when swinging, the push rod 309 slides outwards, the push rod 309 is blocked outwards when the push rod 309 slides outwards, the element is reset by gravity, and the reset element 309 is not in a single way, and the movement of the push rod 309 is completed when the push rod 309 is reset, the element is reset, and the movement of the push rod 309 is reset vertically and the movement is completed once again, the element 309 is reset.

In an alternative implementation of the embodiment of the present utility model, as shown in fig. 9, the intermittent continuous rotation mechanism 4 includes: a support bracket 401, a bottom plate B402, a motor B403, a small bracket 404, an incomplete gear 405, a sleeve 406 and a connecting frame 407;

the three support brackets 401 are fixed on the ground, the bottom plate B402 is fixed at the top ends of the three support brackets 401, the motor B403 is fixed below the bottom plate B402, the motor shaft of the motor B403 passes through the bottom plate B402 and is fixed with the incomplete gear 405, the incomplete gear 405 is rotatably mounted on the small bracket 404, the small bracket 404 is fixed above the bottom plate B402, the teeth of the incomplete gear 405 can be meshed with the teeth at the lower side of the sleeve 406, the sleeve 406 is rotatably mounted on the central shaft 201, and the connecting frame 407 and the sleeve 406 are fixed together;

when the equipment starts to work, the motor B403 starts to drive the incomplete gear 405 to rotate, so as to drive the sleeve 406 to intermittently rotate according to a certain angle, so as to drive the sleeve 406 to intermittently rotate, and further drive the plurality of support rods 210 to rotate, and continuous tinning work is performed.

It should be noted that, the terms "upper," "lower," "front," "rear," "left," "right," and the like indicate an azimuth or a positional relationship based on the azimuth or the positional relationship shown in the drawings, or the azimuth or the positional relationship commonly put in use of the inventive product, only for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements to be referred to must have a specific azimuth, be configured and operated in a specific azimuth, and thus should not be construed as limiting the present utility model.

Claims (5)

1. An automatic wicking device for a portable power transformer, comprising: the automatic tin-plating machine comprises a mounting bottom plate (1), a continuous automatic tin-dipping mechanism (2), an integrated automatic feeding and discharging mechanism (3) and an intermittent continuous rotating mechanism (4);

the mounting base plate (1) includes: the floor comprises a bottom plate A (101), a vertical rod (102), a bracket (103) and a portal bracket (104), wherein the vertical rod (102), the bracket (103) and the portal bracket (104) are all fixed on the bottom plate A (101), and the bottom plate A (101) is fixed on the ground; the integrated automatic feeding and discharging mechanism (3) is divided into a feeding part, a discharging part and a power part, wherein the feeding part is fixed at the top ends of two supports (103), the discharging part is fixed at the top ends of four vertical rods (102), and the power part is arranged on a door-shaped support (104); three support brackets (401) in the intermittent continuous rotating mechanism (4) are fixed on the ground, a bottom plate B (402) is fixed at the top end of each support bracket (401), a continuous automatic tin dipping mechanism (2) is installed on each bottom plate B (402), a sleeve (406) is rotatably installed on a central shaft (201) of each continuous automatic tin dipping mechanism (2), the sleeves (406) are fixed with a connecting frame (407), and supporting rods (210) are fixed on the connecting frames (407);

the continuous automatic tin dipping mechanism (2) comprises: the device comprises a central shaft (201), a cross fixing frame (202), a circular ring rail (203), an arc-shaped sliding block (204), a liquid tin accommodating box (205), a soldering flux accommodating box (206), semicircular convex blocks (207), sliding plates (208), a placing frame (209), supporting rods (210) and a tension spring (211);

center pin (201) is fixed in the central point of bottom plate B (402), cross mount (202) are fixed in the top of center pin (201) through four bolts, the intermediate position of cross mount (202) is fixed with semicircle lug (207), the end of cross mount (202) is fixed with ring track (203), slidable mounting has eight arc sliders (204) on the slide of ring track (203), and every arc slider (204) lower side slidable mounting has one slide (208), it has four through-holes to open on slide (208), four round bars slidable mounting of rack (209) are in four through-holes of slide (208), rack (209) are in the same place with the end hinge of bracing piece (210), the centre of bracing piece (210) is fixed with one end of extension spring (211), the other end of extension spring (211) is fixed on slide (208), the head end of bracing piece (210) is together with link (407), liquid tin holds box (205) and soldering flux (206) and holds in the fixed edge of bottom plate (402).

2. The automatic tin dipping device of the portable power transformer according to claim 1, wherein the feeding part of the integrated automatic feeding and discharging mechanism (3) comprises: the feeding device comprises a feeding frame (304), a feeding push plate (305), a spring piece (308), a push rod (309) and a convex block (310);

the feeding rack (304) is fixed at the top ends of the two brackets (103), the elastic sheet (308) is fixed at the outlet of the feeding rack (304), the feeding push plate (305) is slidably mounted at the outlet of the feeding rack (304) and is located below the elastic sheet (308), a square hole is formed in the tail end of the feeding push plate (305), the push rod (309) is rotatably mounted in the hole, and a convex block (310) is further fixed at the tail end of the feeding push plate (305).

3. The automatic tin dipping device of the portable power transformer according to claim 2, wherein the blanking part of the integrated automatic feeding and blanking mechanism (3) comprises: a blanking rack (306) and a blanking push plate (307); the blanking frame (306) is fixed at the top ends of the four vertical rods (102), and the blanking push plate (307) is slidably arranged at the inlet of the blanking frame (306).

4. A portable automatic tin immersion device for a power transformer according to claim 3, wherein the power part of the integrated automatic feeding and discharging mechanism (3) comprises: a motor A (301), an eccentric rotating shaft (302) and a deflector rod (303); the motor A (301) is fixed below the portal support (104), a motor shaft of the motor A (301) penetrates through the portal support (104) to be fixed with one end of the eccentric rotating shaft (302), the other end of the eccentric rotating shaft (302) is slidably mounted in a sliding groove at one end of the deflector rod (303), and the other two ends of the deflector rod (303) are slidably connected with small upright posts below the feeding push plate (305) and the discharging push plate (307) respectively.

5. An automatic tin immersion device for portable power transformers according to any of claims 1-4, characterized in that said intermittent continuous rotation mechanism (4) comprises: a support bracket (401), a bottom plate B (402), a motor B (403), a small bracket (404), an incomplete gear (405), a sleeve (406) and a connecting frame (407);

the three support brackets (401) are fixed on the ground, the bottom plate B (402) is fixed at the top of the three support brackets (401), the motor B (403) is fixed below the bottom plate B (402), the motor shaft of the motor B (403) penetrates through the bottom plate B (402) to be fixed with the incomplete gear (405), the incomplete gear (405) is rotatably mounted on the small bracket (404), the small bracket (404) is fixed above the bottom plate B (402), teeth of the incomplete gear (405) can be meshed with teeth on the lower side of the sleeve (406), the sleeve (406) is rotatably mounted on the central shaft (201), and the connecting frame (407) is fixed with the sleeve (406).