CN208600867U - A kind of full-automatic soldering apparatus - Google Patents

Abstract

The utility model relates to a kind of full-automatic soldering apparatus, comprising: rack；Driving mechanism, the driving mechanism is vertically arranged in the rack, its rotary shaft rotates setting straight up, along the rotary shaft axis around the rack circumference be provided with feeder, pretreatment mechanism, soldering mechanism and cutting agency, the feeder, pretreatment mechanism, soldering mechanism and cutting agency are arranged along the processing sequence direction of inductance respectively；And adsorbing mechanism, the adsorbing mechanism are set in the rotary shaft, are located at the top of the feeder, pretreatment mechanism, soldering mechanism and cutting agency, and it drives rotary setting by driving mechanism；The utility model solves the problems, such as that inductance is manually stained with rosin tin sticky water, and clever structure, operation is easy, and high degree of automation, work efficiency is high, and labour cost is low.

Description

A kind of full-automatic soldering apparatus

Technical field

The utility model relates to inductive technologies field more particularly to a kind of full-automatic soldering apparatus.

Background technique

Inductor to having very big effect in circuit in contact with our daily lifes, have filtering, oscillation, The effects of delay, trap, there are also screen signal, cross noise filtering, stabling current and inhibit Electromagnetic Interference.Inductor is also With carrying out Isolation or function with the composition resonance circuit such as capacitor, resistor to AC signal.But in production inductance When device, often rely on manual manufacture, labour cost is big, efficient under, especially inductance soldering the step for, even more expend big Measure labour.

The patent document of Patent No. CN201420487332.2 discloses inductance wetting device, including circular orbit, suction Plate suspender, suction disc, molten tin bath, inductance box and inductance collection box, the molten tin bath, inductance box and inductance collection box are being located at circular orbit just Lower section, suction disc suspender one end are connected in circular orbit, and the other end is connected with the suction disc, and the suction disc suspender is connected with Servo motor, servo motor driving suction disc suspender are slided along circular orbit, and suction disc suspender can drive suction disc to move up and down, described Molten tin bath has the beneficial effect that the effect by circular orbit between inductance box and inductance collection box, and suction disc suspender does not need It is moved back and forth on crossbeam, reduces the waste of working time, suction disc suspender is in three inductance box, molten tin bath, inductance collection box stations Movement, suction disc suspender have another suction disc suspender to complete the movement of other two station often when completing the movement of station, Entire movement is allowed to be carried out continuously.

But in actual use, inventor has found that the technical solution is excessively cumbersome, needs 4 when carrying out tin sticky The linkage of a cylinder not can guarantee stability when device operation, and inductance used in the technical solution was artificially stained with rosin The inductance of water, increases labour cost.

Utility model content

The purpose of this utility model is in view of the deficiencies of the prior art, to be sent inductance to suction by setting feeder Random structure recycles driving assembly to drive adsorbing mechanism rotation, so that inductance, during rotation, rosin is first stained in completion, Tin sticky water again, the workflow then to fall off, clever structure, work efficiency is high, reduces production cost, and it is defeated to save labour Out.

It is against the above technical problems, as follows using technical solution: a kind of full-automatic soldering apparatus, comprising:

Rack；

Driving mechanism, the driving mechanism are vertically arranged in the rack, and rotary shaft rotates setting, edge straight up The axis of rotary shaft circumference around the rack is provided with feeder, pretreatment mechanism, soldering mechanism and blanking Mechanism, the feeder, pretreatment mechanism, soldering mechanism and cutting agency are arranged along the processing sequence direction of inductance respectively； And

Adsorbing mechanism, the adsorbing mechanism are set in the rotary shaft, are located at the feeder, preprocessor The top of structure, soldering mechanism and cutting agency, and it drives rotary setting by driving mechanism.

Preferably, the rack further include:

First workbench, the first workbench setting is on the ground；

Second workbench, second workbench are arranged above first workbench；

Third workbench, the third workbench are arranged above second workbench；And

Second workbench and third workbench are supported by support column.

Preferably, the driving mechanism further include:

Rotary shaft, the rotary shaft are vertically arranged in the rack；

Motor, the motor is fixed on second workbench, and it connect with the concentric rotation axis.

Preferably, the feeder further include:

Supporting table a, the supporting table a setting on the ground, are equipped with several pin slots；

Cylinder, the cylinder are fixed on the supporting table a；And

Expeller, the expeller are fixed on the supporting table a, and its centre bore and the cylinder output shaft are same Axis connection.

Preferably, the pretreatment mechanism further include:

Supporting table b, the supporting table b setting is on the ground；

Rosin sink, the rosin sink are fixed on the supporting table b；And

Convex block a, the convex block a are fixed on the rosin sink.

Preferably, the soldering mechanism further include:

Supporting table c, the supporting table c setting is on the ground；

Tin sink, the tin sink are fixed on the supporting table c；And

Convex block b, the convex block b are fixed on the tin sink.

Preferably, the cutting agency further include:

Supporting table d, the supporting table d setting is on the ground；And

Locating part, the locating part are fixed on the supporting table d.

Preferably, the adsorbing mechanism further include:

Spring part, the spring part are connect with the concentric rotation axis；

Connecting rod, described connecting rod one end are arranged in the spring part；

Limited block a, the limited block a are fixed at the connecting rod side；

Circular arc block, the circular arc block are fixed on the connecting rod；And

Magnetic block, the magnetic block is fixed at the lower section of the connecting rod output end, and it is vertical with the connecting rod.

Preferably, the spring part further include:

Spring groove, the spring groove are fixed in the rotary shaft, and its side is equipped with limiting slot, with the limit Block a plugs together setting；

Positioning column, the positioning column are fixed in the spring groove；And

Spring, the spring are arranged around the positioning column.

Preferably, the locating part is limited block b, it is fixed on the supporting table d, with the side the supporting table d Face paste is closed, and it differs an inductance height with the magnetic block.

The utility model has the beneficial effects that

(1) in the utility model, adsorbing mechanism rotation is driven by setting driving mechanism, so that process of the inductance in rotation In, rosin, then tin sticky water, the workflow then to fall off are first stained in completion, and the power of whole flow process comes from a motor, knot Structure is ingenious, and work efficiency is high, greatly reduces production cost, saves labor export；

(2) adsorbing mechanism is realized when being squeezed, is moved down by spring part in the utility model, be detached from and squeeze The function of automatically reseting when pressure, reduces production cost；

(3) it is realized in adsorbing mechanism rotary course, is passed through by setting feeder and magnetic block in the utility model When feeder, cylinder is pushed below inductance to magnetic block, and magnetic block automatic absorbing lives the function of inductance, the degree of automation Height reduces labour cost, improves work efficiency；

(4) it is realized in adsorbing mechanism rotary course, by setting limited block b by cutting agency in the utility model When, it is contacted with limited block b, scrapes the function on inductance to supporting table d, structure is simple, and practicability is high, high degree of automation.

(5) by the limiting slot on setting limited block a and spring groove in the utility model, to adsorbing mechanism in downward actuation When position limited.

In conclusion the equipment has clever structure, operation is easy, and high degree of automation, work efficiency is high, labour cost Low advantage is particularly suitable for inductive technologies field.

Detailed description of the invention

It, below will be to required in embodiment description for the clearer technical solution for illustrating the utility model embodiment The attached drawing used is briefly described, it should be apparent that, drawings discussed below is only some embodiments of the utility model, For those of ordinary skill in the art, without creative efforts, it can also obtain according to these attached drawings Obtain other accompanying drawings.

Fig. 1 is the full-automatic soldering apparatus schematic perspective view of the utility model.

Fig. 2 is the partial enlarged view A of the full-automatic soldering apparatus schematic perspective view of the utility model.

Fig. 3 is the partial enlarged view B of the full-automatic soldering apparatus schematic perspective view of the utility model.

Fig. 4 is the full-automatic soldering apparatus part body schematic perspective view of the utility model.

Fig. 5 is the partial enlarged view C of the full-automatic soldering apparatus part body schematic perspective view of the utility model.

Fig. 6 is the partial enlarged view D of the full-automatic soldering apparatus part body schematic perspective view of the utility model.

Fig. 7 is the partial enlarged view E of the full-automatic soldering apparatus part body schematic perspective view of the utility model.

Fig. 8 is the full-automatic soldering apparatus adsorbing mechanism schematic perspective view of the utility model.

Fig. 9 is the partial enlarged view F of the full-automatic soldering apparatus adsorbing mechanism schematic perspective view of the utility model.

Specific embodiment

The technical scheme in the embodiment of the utility model is clearly and completely illustrated with reference to the accompanying drawing.

Embodiment one

As shown in Figure 1, a kind of full-automatic soldering apparatus, comprising:

Rack 1；

Driving mechanism 2, the driving mechanism 2 are vertically arranged in the rack 1, and rotary shaft 21 rotates set straight up Set, along the rotary shaft 21 axis around the rack 1 circumference be provided with feeder 3, pretreatment mechanism 4, soldering Mechanism 5 and cutting agency 6, the feeder 3, pretreatment mechanism 4, soldering mechanism 5 and cutting agency 6 respectively along inductance plus The setting of work sequence direction；And

Adsorbing mechanism 7, the adsorbing mechanism 7 are set in the rotary shaft 21, are located at the feeder 3, pre- place The top of mechanism 4, soldering mechanism 5 and cutting agency 6 is managed, and it drives rotary setting by driving mechanism 2.

In the present embodiment, by the way that feeder 3 is arranged, inductance is pushed into adsorbing mechanism 7, adsorbing mechanism 7 adsorbs Inductance recycles driving mechanism 2 that adsorbing mechanism 7 is driven to rotate so that inductance is during rotation, by pretreatment mechanism 4, Rosin, then tin sticky water are first stained in soldering mechanism 5 and cutting agency 6, completion, then the process of blanking, its entire clever structure, work Make high-efficient, reduction production cost, saving labor export.

Further, as shown in Figure 1, the rack 1 further include:

First workbench 11, the setting of the first workbench 11 is on the ground；

Second workbench 12, second workbench 12 are arranged above first workbench 11；

Third workbench 13, the third workbench 13 are arranged above second workbench 12；And

Second workbench 12 and third workbench 13 are supported by support column.

Further, as indicated with 1, the driving mechanism 2 further include:

Rotary shaft 21, the rotary shaft 21 are vertically arranged in the rack 1；

Motor 22, the motor 22 are fixed on second workbench 12, and it is coaxial with the rotary shaft 21 Connection.

In the present embodiment, by the way that rack 1 is arranged, the driving mechanism 2 is supported and is limited.

Further, as shown in 1 and Fig. 2, the feeder 3 includes:

Supporting table a31, the supporting table a31 setting on the ground, are equipped with several pin slots 32；

Cylinder 33, the cylinder 33 are fixed on the supporting table a31；And

Expeller 34, the expeller 34 are fixed on the supporting table a31, and its centre bore and the cylinder 33 Output shaft is coaxially connected.

In the present embodiment, by setting cylinder 33 and expeller 34, so that cylinder 33 in the state of push, drives pusher Forward, the inductance in pin slot 32 is pushed under adsorbing mechanism 7 for block 34.

Further, as shown in Figure 4 and Figure 5, the pretreatment mechanism 4 includes:

Supporting table b41, the supporting table b41 setting is on the ground；

Rosin sink 42, the rosin sink 42 are fixed on the supporting table b41；And

Convex block a43, the convex block a43 are fixed on the rosin sink 42.

In the present embodiment, by the way that convex block a43 is arranged, so that adsorbing mechanism 7 is in rotary course, by the rosin When slot 42, by the extruding of the convex block a43, downward actuation, to realize that inductance is stained with the function of rosin.

Further, as shown in figs. 4 and 7, the soldering mechanism 5 includes:

Supporting table c51, the supporting table c51 setting is on the ground；

Tin sink 52, the tin sink 52 are fixed on the supporting table c51；And

Convex block b53, the convex block b53 are fixed on the tin sink 52.

In the present embodiment, by the way that convex block b53 is arranged, so that adsorbing mechanism 7 is in rotary course, by the Soldering machine When structure 5, by the extruding of the convex block b53, downward actuation, to realize that inductance is stained with the function of Xi Shui.

As shown in figures 1 and 3, the cutting agency 6 includes:

Supporting table d61, the supporting table d61 setting is on the ground；And

Locating part 62, the locating part 62 are fixed on the supporting table d61.

In the present embodiment, by the way that locating part 62 is arranged, so that inductance is scraped when the rotation of adsorbing mechanism 7 to cutting agency 6 Supporting table d61 is dropped down onto, realizes the function of blanking.

Further, as shown in Fig. 1, Fig. 4, Fig. 6 and Fig. 8, the adsorbing mechanism 7 includes:

Spring part 71, the spring part 71 and the rotary shaft 21 are coaxially connected；

Connecting rod 72, described 72 one end of connecting rod are arranged in the spring part 71；

Limited block a73, the limited block a73 are fixed at 72 side of connecting rod；

Circular arc block 74, the circular arc block 74 are fixed on the connecting rod 72；And

Magnetic block 75, the magnetic block 75 are fixed at the lower section of 72 output end of connecting rod, and itself and the connecting rod 72 is vertical.

Further, as shown in Figure 8 and Figure 9, the spring part 71 includes:

Spring groove 711, the spring groove 711 are fixed in the rotary shaft 21, and its side is equipped with limiting slot 712, setting is plugged together with the limited block a73；

Positioning column 713, the positioning column 713 are fixed in the spring groove 711；And

Spring 714, the spring 714 are arranged around the positioning column 713.

In the present embodiment, by the way that spring part 71 is arranged, so that adsorbing mechanism 7 is by pretreatment mechanism 4 and Soldering machine When structure 5, the extruding by convex block a43 and convex block b53 respectively of circular arc block 74, downward actuation, simultaneously because limited block a73 and limit Slot 712 acts on, and is limited to 7 downward actuation of adsorbing mechanism.

Further, as shown in figures 1 and 3, the locating part 62 is limited block b621, is fixed at the supporting table On d61, and it is bonded with the side the supporting table d61, and it differs an inductance height with the magnetic block 75.

In the present embodiment, by the way that the height of limited block b621 is arranged, so that adsorbing mechanism 7 is in rotation to cutting agency 6 When, the magnetic block 75 can not touch limited block b621, realize the function of blanking.

The course of work:

It is put into pin slot 32 vertically by inductance pin is downward first, starting cylinder 33 pushes expeller 34 to push away inductance To magnetic block 75, magnetic block 75 is adsorbed, and then starts motor 22, and power is reached rotary shaft 21, rotary shaft 21 by motor 22 Adsorbing mechanism 7 is driven to rotate clockwise, in the rotation of adsorbing mechanism 7 to pretreatment mechanism 4, convex block a43 touches circular arc block 74, Due to the effect of spring part 71, circular arc block 74 is extruded downwards, so that adsorbing mechanism downward actuation, inductance is stained with rosin, is inhaled Random structure 7 is detached from convex block a43 gradually, restores to original position, and then when that will rotate to soldering mechanism, convex block b53 touches circle Arc block 74, due to the effect of spring part 71, circular arc block 74 is extruded downwards, so that adsorbing mechanism downward actuation, inductance are stained with tin Water, adsorbing mechanism 7 are detached from convex block b53 gradually, restore to original position, then adsorbing mechanism 7 is when by cutting agency 6, electroreception It to the blocking of limited block b621, drops on supporting table d61, the last rotation of adsorbing mechanism 7 starts next time to feeder 3 The circulation of workflow.

In the description of the present invention, it should be understood that the orientation or position of the instructions such as term " front and back ", " left and right " Relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of describing the present invention and simplifying the description, without It is that the equipment of indication or suggestion meaning or component must have a particular orientation, be constructed and operated in a specific orientation, therefore not It can be interpreted as the limitation to utility model.

Certainly in the technical scheme, those skilled in the art is it should be understood that term " one " is interpreted as " at least One " or " one or more ", i.e., in one embodiment, the quantity of an element can be one, and in other implementation In example, the quantity of the element can be it is multiple, term " one " should not be understood as the limitation to quantity.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, the variation that anyone skilled in the art can readily occur under the technical clarification of the utility model Or replacement, it should be covered within the scope of the utility model.Therefore, the protection scope of the utility model should be with right Subject to the protection scope of claim.

Claims (10)

1. a kind of full-automatic soldering apparatus characterized by comprising

Rack (1)；

Driving mechanism (2), the driving mechanism (2) are vertically arranged on the rack (1), and rotary shaft (21) turns straight up Dynamic setting, along the rotary shaft (21) axis around the rack (1) circumference be provided with feeder (3), pretreatment Mechanism (4), soldering mechanism (5) and cutting agency (6), the feeder (3), pretreatment mechanism (4), soldering mechanism (5) with Cutting agency (6) is arranged along the processing sequence direction of workpiece respectively；And

Adsorbing mechanism (7), the adsorbing mechanism (7) are set on the rotary shaft (21), be located at the feeder (3), The top of mechanism (4), soldering mechanism (5) and cutting agency (6) is pre-processed, and it drives rotary setting by driving mechanism (2).

2. a kind of full-automatic soldering apparatus according to claim 1, which is characterized in that the rack (1) includes:

First workbench (11), the first workbench (11) setting is on the ground；

Second workbench (12), the second workbench (12) setting is above first workbench (11)；

Third workbench (13), third workbench (13) setting is above second workbench (12)；And

Second workbench (12) and third workbench (13) are supported by support column.

3. a kind of full-automatic soldering apparatus according to claim 2, which is characterized in that the driving mechanism (2) includes:

Rotary shaft (21), the rotary shaft (21) are vertically arranged on the rack (1)；

Motor (22), the motor (22) are fixed on second workbench (12), and itself and the rotary shaft (21) It is coaxially connected.

4. a kind of full-automatic soldering apparatus according to claim 1, which is characterized in that the feeder (3) includes:

Supporting table a (31), supporting table a (31) setting on the ground, are equipped with several pins

Slot (32)；

Cylinder (33), the cylinder (33) are fixed on the supporting table a (31)；And

Expeller (34), the expeller (34) are fixed on the supporting table a (31), and its centre bore and the cylinder (33) output shaft is coaxially connected.

5. a kind of full-automatic soldering apparatus according to claim 1, which is characterized in that the pretreatment mechanism (4) includes:

Supporting table b (41), supporting table b (41) setting is on the ground；

Rosin sink (42), the rosin sink (42) are fixed on the supporting table b (41)；And

Convex block a (43), the convex block a (43) are fixed on the rosin sink (42).

6. a kind of full-automatic soldering apparatus according to claim 1, which is characterized in that the soldering mechanism (5) includes:

Supporting table c (51), supporting table c (51) setting is on the ground；

Tin sink (52), the tin sink (52) are fixed on the supporting table c (51)；And

Convex block b (53), the convex block b (53) are fixed on the tin sink (52).

7. a kind of full-automatic soldering apparatus according to claim 2, which is characterized in that the cutting agency (6) includes:

Supporting table d (61), supporting table d (61) setting is on the ground；And

Locating part (62), the locating part (62) are fixed on the supporting table d (61).

8. a kind of full-automatic soldering apparatus according to claim 7, which is characterized in that the adsorbing mechanism (7) includes:

Spring part (71), the spring part (71) and the rotary shaft (21) are coaxially connected；

Connecting rod (72), described connecting rod (72) one end are arranged in the spring part (71)；

Limited block a (73), the limited block a (73) are fixed at the connecting rod (72) side；

Circular arc block (74), the circular arc block (74) are fixed on the connecting rod (72)；And

Magnetic block (75), the magnetic block (75) are fixed at the lower section of the connecting rod (72) output end, and itself and the company Bar (72) is vertical.

9. a kind of full-automatic soldering apparatus according to claim 8, which is characterized in that the spring part (71) includes:

Spring groove (711), the spring groove (711) are fixed on the rotary shaft (21), and its side is equipped with limiting slot (712), setting is plugged together with the limited block a (73)；

Positioning column (713), the positioning column (713) are fixed in the spring groove (711)；And

Spring (714), the spring (714) are arranged around the positioning column (713).

10. a kind of full-automatic soldering apparatus according to claim 8, which is characterized in that the locating part (62) is limit Block b (621) is fixed on the supporting table d (61), and it is bonded with supporting table d (61) side, and its with it is described Magnetic block (75) differs a workpiece height.