CN104517718B - coil packaging method and device - Google Patents

Abstract

The invention provides a coil packaging method and device, which comprises the steps of providing a coil with a coil part between two flange parts to finish winding the coil of a wire rod, feeding the coil into a turret with an intermittent conversion program, and enabling the coil to be adsorbed by a Y-axis direction negative pressure suction nozzle on the side edge of the turret; providing a glue valve device arranged on an upper rotating seat of the rotating tower, positioning a glue valve for bearing the content of viscose and a lower glue needle outlet above the coil, corresponding to a winding core part between two flange parts of the coil finished winding wire rod on the same X-axis displacement path, and simultaneously setting a preset glue coating height of the lower glue needle outlet above a Z-axis winding core part; when the coil to be glued is glued, the glue needle performs a glue scratching step, so that the glue is discharged from the outlet of the glue needle, and the side edge of the coil to be glued is displaced from one end of the side edge of the coil to be glued to the other end of the side edge of the coil to be glued in the direction of the winding core part between the two flange parts; therefore, the problem of fluidity of the thick adhesive can be overcome, and the packaging efficiency can be improved.

Description

Coil encapsulation method and device

Technical field

The present invention is related to a kind of method for packing and device, espespecially completing the core wound skein product two flange parts Coil, the coil encapsulation method that is coated to the wire rod wound on coil of viscose and dress are coated between the flange part of coil two Put.

Background technology

The coil of core wound skein product typically between two flange parts, commonly used to as transformer or inductance, and by In consumer such as notebook computer, tablet personal computer, intelligent mobile phone electronic product under compact requirement, these with The transformer or inductance that coil is formed are also required to be fabricated to extremely tiny；By taking inductance as an example, the coil for forming inductance generally must Viscose must be coated on wire rod to be packaged in the core between completing two flange parts of wound skein product, some inductance are to ask Inductance value is larger, or even the powder of the fine magnetically permeable property of tool is added in viscose；And when coating viscose is packaged, generally adopt Between viscose to be injected to the flange part of coil two for completing wound skein product with plastic pin by a kind of glue valve such as injection tubular, with to coil After single-point squeezing viscose is made in one side center of square external form, then to make single-point squeezing glutinous for other three sides of reset coil one by one The mode of glue is completed to encapsulate.

The content of the invention

Prior art uses the packaged type for making single-point squeezing viscose to the side center of coil one, in general more flowability Viscose use compared with no problem because the side core coiling of the viscose of single-point squeezing can be quickly overflow covering coil Material surface；But added in viscose in the occasion of the fine magnetically permeable property powder of tool, but often occur that viscose can not cover completely The lid coil side core around wire surface the problem of because the viscose of the fine magnetically permeable property powder of tool of addition, its viscosity phase When thick, mobility becomes very slowly, will be thick because the gap between the flange part of coil two of general inductance is less than 0.5mm Viscose injects this not only in narrow but also thin slit, and the surface tension effects of thick viscose will cause overflow to cover core around wire rod The time on surface increases, and this will cause single packaging technology to full technique for the ten hundreds of coil production of every batch Retardance, also easily occur defective products output.

Therefore, it is an object of the invention to provide a kind of coil encapsulation side for being suitable to carry out coil encapsulation with thick viscose Method.

Another object of the present invention is to provide a kind of coil encapsulation for carrying out gluing between core between the flange part of coil two Device.

Another object of the present invention is to provide a kind of performing such as the device of the coil encapsulation method.

According to the coil encapsulation method of the object of the invention, including:Core completes wound skein product between providing two flange parts Coil, coil is sent into the capstan head with interval conversion program, makes tree lace circle to be coated by the Y direction negative pressure suction nozzle of capstan head side Adsorbed；A glue valve gear is provided, on the top swivel base of capstan head, and to carry the glue valve of content viscose and with lower section plastic pin It is corresponding to be located above negative pressure suction nozzle；Plastic pin lower exit port is located above coil, and two flanges of wound skein product are completed with coil Core between portion is corresponding on same X axis displacement path, while plastic pin lower exit port makes a reservation in Z axis to above core Gluing height；When treat gluing coil gluing, plastic pin performs stroke glue step, makes plastic pin outlet carry out telling glue, and certainly The direction other end makees displacement on core between the flange part of one end two of tree lace circle side to be coated.

According to the coil encapsulation device of another object of the present invention, including:One feeding station, provided with vibrations feed device and Capstan head of the tree lace circle to be coated feeding with interval conversion program that fixture completes core between two flange parts wound skein product is transported, Tree lace circle to be coated is adsorbed by the Y direction negative pressure suction nozzle of capstan head side；One gluing work station, located at the top swivel base of capstan head On, glue valve provided with carrying content viscose and with the corresponding glue valve gear above the negative pressure suction nozzle of lower section plastic pin；Below plastic pin Outlet is above coil, and the core between two flange parts of coil completion wound skein product is corresponding in same X axis displacement On path, plastic pin lower exit port Z axis to above core predetermined gluing height；One removal work station, pressed from both sides provided with a removal Tool and a drying unit, the coil for completing viscose coating is unloaded by removal fixture from the negative pressure suction nozzle of capstan head, and transfers to drying Device carries out stoving process.

According to the coil encapsulation device of another object of the present invention, including：To perform such as the dress of the coil encapsulation method Put.

The coil encapsulation method and device that the embodiment of the present invention is provided, via in gluing work station, with a glue valve gear And an auxiliary locator, make tree lace circle to be coated by negative pressure suction, and be correspondingly arranged at top retainer component it is right in front of negative pressure suction nozzle Tree lace circle contact to be coated, makes top retainer component be driven and intermittent rotary synchronous with negative pressure suction nozzle, in the same direction by a rotary drive mechanism, and With the first of main driving mechanism the main actuator driving mounting displacement in the axial direction, and the second main actuator driving in glue valve gear Main hanging seat makees Z axis to displacement on mounting, to reach a stroke glue step, move up step, return to step, the inverse time for moving down step formation Pin direction enclosing square gluing path, and gluing stroke and position are accurately adjusted by micro-adjusting mechanism, even if making to add fine tool can The quite thick viscose of magnetic conductivity powder, viscosity, also can will be thick between the flange part of coil two even if its mobility is very slow Viscose injects this not only in narrow but also thin slit, and draws the flange part of one end two that tree lace circle first side to be coated is picked up from glue step Between core on the direction other end make X axis displacement draw glue mode, moreover it is possible to thick gummed surface tension force effect to overflow The factor that stream covering core has increased around the time of wire surface solves, and improves coil production efficiency, fraction defective reduces.

Brief description of the drawings

Fig. 1 is each device configuration schematic diagram of the embodiment of the present invention.

Fig. 2 is the gluing work station schematic perspective view of the embodiment of the present invention.

Fig. 3 is the gluing work station side schematic view of the embodiment of the present invention.

Fig. 4 is the glue valve gear antero-lateral perspective schematic diagram of the embodiment of the present invention.

Fig. 5 is the glue valve gear rear perspective schematic diagram of the embodiment of the present invention.

Fig. 6 is the corresponding with negative pressure suction tree lace circle to be coated provided with glue valve, the valve seat of plastic pin of the embodiment of the present invention Relation schematic diagram.

Fig. 7 is corresponding relation enlarged diagram of the plastic pin with negative pressure suction tree lace circle to be coated of the embodiment of the present invention.

Fig. 8 is that plastic pin treats gluing coil deposition path schematic diagram in the embodiment of the present invention.

【Symbol description】

A board table top B glue spreading apparatus

B1 feeding station B11 shakes feed device

B12 transports fixture B2 capstan heads

B21 sides B22 negative pressure suction nozzles

B23 swivel base B24 swivel joints

B3 material all in one piece work station B31 material all in one piece fixtures

B4 gluing work station B5 removal work stations

B51 removal fixture C drying units

D tree lace circle D1 flange parts to be coated

D2 flange part D3 cores

D4 first sides D5 second sides

The glue valve gear of R gluings path 1

The glue valve of 11 valve seat 12

The main driving mechanism of 121 plastic pin 13

The 131 main slide rails of hanging seat 132

133 mounting, 134 axial slide rail

135 first main 136 second main actuators of actuator

The screw rod of 137 belt 138

14 hanging seats of micro-adjusting mechanism 141 times

The slide of 142 first trimming piece 143

The trimming piece of 144 slide rail 145 second

The plastic pin of 146 the 3rd trimming piece 15

151 2 auxiliary locators of outlet

The top retainer component of 21 mounting 22

The belt of 221 pivot 222

The drive shaft of 223 rotary drive mechanism 224

The displacement drive mechanism of 23 Mobile base 231

232 slide rails

Embodiment

Refer to shown in Fig. 1, the coil encapsulation method of the embodiment of the present invention equipment can illustrate as illustrated in the drawing, line The technique for enclosing encapsulation can be including the coating technique performed by the glue spreading apparatus B on a board table top A, and will complete to apply The coil of adhesive process carries out stoving process via a drying unit C.

Coating technique performed by glue spreading apparatus B includes：

One feeding station B1, by vibrations feed device B11 and transport fixture B12 by tree lace circle to be coated with one time four Mode is sent into the side B21 with the square capstan head B2 of totally four interval conversion programs, makes four tree lace circles to be coated by four Negative pressure suction nozzle B22 is adsorbed respectively；

One material all in one piece work station B3, the tree lace circle to be coated that four negative pressure suction nozzle B22 are adsorbed is by herein by each corresponding to it Material all in one piece fixture B31 is adjusted, and makes precise positioning of each tree lace circle to be coated on negative pressure suction nozzle B22；

One gluing work station B4, complete viscose being coated in tree lace to be coated with a glue valve gear 1 and an auxiliary locator 2 On circle；

One removal work station B5, by the coil of completion viscose coating by a removal fixture B51 from capstan head B2 side B21's Negative pressure suction nozzle B22 is unloaded, and is transferred to drying unit C and carried out stoving process.

Fig. 2 and Fig. 3 are referred to, gluing work station B4 glue valve gear 1 is located at each side B21 of capstan head B2 top swivel base On B23, and the glue valve 12 of content viscose is respectively carried with four valve seats 11 positioned at Z-direction, and respectively distinguished with lower section plastic pin 121 It is each vertical corresponding above four negative pressure suction nozzle B22 of Y direction；

The auxiliary locator 2 is respectively located at four negative pressure suction nozzles on a mounting 21, and so that four top retainer components 22 are corresponding In front of B22；The pivot 221 of each top retainer component 22 is axially in parallel with each negative pressure suction nozzle B22's, and jointly on a Mobile base 23, The Mobile base 23 can be moved forward and backward by the driving of displacement drive mechanism 231 on slide rail 232；The pivot 221 of each top retainer component 22 Jointly by 222 windings of a belt, and driven and synchronous, intermittent rotary in the same direction by a rotary drive mechanism 223, rotation driving The drive shaft 224 of mechanism 223 simultaneously also by the driving by displacement drive mechanism 231 forward, and nibble and be located at capstan head B2 side B21 The swivel joint B24 being pivoted, swivel joint B24 are in capstan head B2, then if the pivot 221 of each top retainer component 22 is jointly by a belt The mode of 222 windings, make each negative pressure suction nozzle B22 with and each top retainer component 22 corresponding to it is synchronous, intermittent rotary in the same direction is (if distinguish It is respectively regarded by the end of negative pressure suction nozzle B22, top retainer component 22, then the two is relative reversely rotates).

Fig. 4 and Fig. 5 are referred to, the glue valve gear 1 includes a main driving mechanism 13, and corresponding respectively with four valve seats 11 Four micro-adjusting mechanisms 14；Main driving mechanism 13 to drive main hanging seat 131 to make X, Z axis to displacement, each micro-adjusting mechanism 14 to Its each self-corresponding secondary hanging seat 141 of institute of fine setting four makees X, Y, Z axis to displacement；Wherein, main hanging seat 131 by each micro-adjusting mechanism 14 with Each secondary hanging seat 141 is coupled, setting the valve seat 11 of the glue valve 12 of this four each carrying content viscoses on each secondary hanging seat 141；

The main driving mechanism 13, including the mounting 133 on an X axis slide rail 132, mounting 133 are provided with Z axis to cunning Rail 134, the first main actuator 135 that a vapour pressure cylinder is formed can drive mounting 133 in the top offset of X axis slide rail 132, a motor institute The the second main actuator 136 formed can interlock the mode of screw rod 138 by belt 137, drive main hanging seat 131 to make Z on mounting 133 Axial displacement；

The micro-adjusting mechanism 14, respectively includes：First trimming piece 142, to drive a slide 143 cunning on main hanging seat 131 Rail 144 makees Z axis to displacement, is made up of bolt and spiral button；Second trimming piece 145, the lower section of slide 143 is fixedly arranged on, it is mutual by two The slide of slip is formed with sliding block, can carry out Y-axis displacement fine setting；3rd trimming piece 146, the lower section of slide 143 is fixedly arranged on, and It is fixed with the second trimming piece 145, it is made up of two slides mutually slided with sliding block, X axis displacement fine setting can be carried out.

Fig. 6 and Fig. 7 are referred to, the lower section of valve seat 11 of the glue valve 12 of each carrying content viscose of glue valve gear 1, is respectively provided with micro- Thin tube-like plastic pin 15, each lower exit port of plastic pin 15 are each positioned at the tree lace circle D to be coated that its corresponding negative pressure suction nozzle B22 front end is adsorbed Top, and the core D3 between two flange part D1, D2 of tree lace circle D to be coated completion wound skein products is corresponding in same X axis position Move path on, while the lower exit port 151 of plastic pin 15 Z axis to above core D3 predetermined gluing height.

Fig. 4, Fig. 7 and Fig. 8 are referred to, when treat gluing coil D gluing, holds the lower exit port 151 of plastic pin 15 For row to gluing path R glue application step, it mainly drives mounting 133 in X-axis by the first main actuator 135 of main driving mechanism 13 Shift up, and the second main actuator 136 drives main hanging seat 131 to make Z axis on mounting 133 to displacement to reach；Including：

Stroke glue step, make the lower exit port of plastic pin 15 carry out telling glue, and passed through from tree lace circle D first side D4 to be coated one end The direction other end makees X axis displacement on core D3 between two flange part D1, D2, and glue is told to stopping during the other end；

One moves up step, the lower exit port of plastic pin 15 of foregoing stroke of glue step of completion is performed one and is moved up toward Z-direction；

One return to step, the lower exit port of plastic pin 15 execution of foregoing stroke of glue step of completion is followed X axis return original and drawn Above starting point before glue step；While the lower exit port of plastic pin 15 returns, negative pressure suction nozzle B22 adsorbs the tree lace circle D inverse times to be coated Pin rotated ninety degrees, another second side D5 for treating gluing is set to be ported to the position of the horizontal corresponding lower exit port of plastic pin 15；

Once walk is rapid, makes return to step and the lower exit port of plastic pin 15 above starting point is performed to be displaced downwardly to and drawn Glue step initial point position；

Repeated according to above-mentioned steps, to complete the gluing operation of each sides of tree lace circle D to be coated；And draw glue step, move up Step, return to step, move down one anticlockwise enclosing square gluing path R of step formation.

When treat gluing coil D gluing, to enable the glue amount that the lower exit port of plastic pin 15 spues in appropriate position Put on the core D3 between two flange part D1, D2 of covering, via a trim step is performed gluing operation can be made more accurate, wrapped Include：Each micro-adjusting mechanism 14 respectively with the first trimming piece 142 fine setting lower exit port of plastic pin 15 in Z axis to the predetermined painting above core D3 Glue height；Four each self-corresponding secondary hanging seats 141 are finely tuned with the second trimming piece 145, it is respectively made Y-axis displacement, in order to each plastic pin 15 lower exit ports are in addition to being each positioned above the tree lace circle D to be coated that is adsorbed its corresponding negative pressure suction nozzle B22 front end, and with treating gluing The core D3 that coil D is completed between two flange part D1, D2 of wound skein product is corresponding on same X axis；And with the 3rd trimming piece 146, carry out the lower exit port displacement stroke length fine setting of X axis plastic pin 15.

The coil encapsulation method and device that the embodiment of the present invention is provided, via in gluing work station B4, filled with a glue valve 1 and an auxiliary locator 2 are put, tree lace circle D to be coated is adsorbed by negative pressure suction nozzle B22, and negative pressure is correspondingly arranged at top retainer component 22 Gluing coil D contacts are treated in front of suction nozzle B22, make top retainer component 22 by a rotary drive mechanism 223 drive and with negative pressure suction nozzle B22 is synchronous, rotating Vortex, and drives mounting 133 in X in glue valve gear 1 with the first of main driving mechanism 13 the main actuator 135 Axial top offset, and the second main actuator 136 drive main hanging seat 131 to make Z axis on mounting 133 to displacement, and glue step is drawn to reach Suddenly step, return to step, the counter clockwise direction enclosing square gluing path R for moving down step formation, are moved up, and by micro-adjusting mechanism 14 Accurate adjustment gluing stroke and position, even if making to add the quite thick viscose of the magnetically permeable property powder of fine tool, viscosity, even if its Mobility is very slow, thick viscose can also be injected to this between coil two flange part D1, D2 not only in narrow but also thin slit, and draw It is another that direction on the core D3 between tree lace circle D first side D4 to be coated one end two flange part D1, D2 is picked up from glue step Make stroke glue mode of X axis displacement in end, moreover it is possible to cause overflow to cover core around wire rod thick gummed surface tension force effect The factor that the time on surface increases solves, and improves coil production efficiency, fraction defective reduces.

The foregoing is merely illustrative of the preferred embodiments of the present invention, when that can not limit the scope of the invention implemented with this, i.e., Generally the simple equivalent changes and modifications made according to claims of the present invention and invention description content, all still belong to of the invention special In the range of profit covers.

Claims (17)

1. a kind of coil encapsulation method, including:

The coil that core between two flange parts completes wound skein product is provided, coil is sent into the capstan head with interval conversion program, Tree lace circle to be coated is set to be adsorbed by the Y direction negative pressure suction nozzle of capstan head side；

A glue valve gear is provided, on the top swivel base of capstan head, and to carry the glue valve of content viscose and with lower section plastic pin pair It should be located above negative pressure suction nozzle；

Plastic pin lower exit port is located above coil, and complete coil the core between two flange parts of wound skein product it is corresponding On same X axis displacement path, at the same plastic pin lower exit port Z axis to above core predetermined gluing height；

When treat gluing coil gluing, plastic pin performs stroke glue step, makes plastic pin outlet carry out telling glue, and treat gluing certainly The direction other end makees displacement on core between the flange part of one end two of coil side.

2. coil encapsulation method as claimed in claim 1, it is characterised in that also including a return to step, make foregoing stroke of completion The plastic pin of glue step, which performs, to be returned above the starting point before original carries out stroke glue step.

3. coil encapsulation method as claimed in claim 2, it is characterised in that while the plastic pin returns, tree lace circle to be coated is inverse Hour hands rotated ninety degrees, another second side for treating gluing is set to be ported to the position of horizontal corresponding plastic pin.

4. coil encapsulation method as claimed in claim 1, it is characterised in that also move up step including one, make completion draw glue step Rapid plastic pin is past to be moved up.

5. coil encapsulation method as claimed in claim 2, it is characterised in that it is also rapid including walk once, make to walk via return Rapid and above starting point plastic pin, which is displaced downwardly to, draws glue step initial point position.

6. coil encapsulation method as claimed in claim 1, it is characterised in that when treat the gluing of gluing coil, make Plastic pin performs an anticlockwise rectangle gluing path.

7. coil encapsulation method as claimed in claim 1, it is characterised in that during by viscose coated on tree lace circle to be coated, and Be correspondingly arranged at top retainer component in front of negative pressure suction nozzle and treat gluing coil contact, make top retainer component driven by a rotary drive mechanism and Intermittent rotary synchronous with negative pressure suction nozzle, in the same direction.

8. a kind of coil encapsulation device, including:

One feeding station, core between two flange parts is completed into treating for wound skein product provided with vibrations feed device and conveyance fixture Gluing coil is sent into the capstan head with interval conversion program, and tree lace circle to be coated is inhaled by the Y direction negative pressure suction nozzle of capstan head side It is attached；

One gluing work station, it is provided with the glue valve for carrying content viscose and corresponding with lower section plastic pin on the top swivel base of capstan head Glue valve gear above negative pressure suction nozzle；Plastic pin lower exit port is located above coil, and the two of wound skein product is completed with coil Core between flange part is corresponding on same X axis displacement path, and plastic pin lower exit port makes a reservation in Z axis to above core Gluing height；

One removal work station, provided with a removal fixture and a drying unit, the coil of viscose coating is completed by removal fixture rotation The negative pressure suction nozzle of tower unloads, and transfers to drying unit and carry out stoving process.

9. coil encapsulation device as claimed in claim 8, it is characterised in that including：One auxiliary locator, provided with top retainer component Corresponding negative pressure suction nozzle, top retainer component is driven by a rotary drive mechanism can intermittent rotary synchronous with negative pressure suction nozzle, in the same direction.

10. coil encapsulation device as claimed in claim 9, it is characterised in that the auxiliary locator is on a mounting, top On a Mobile base, the Mobile base can be moved forward and backward arrived piece by the driving of displacement drive mechanism.

11. coil encapsulation device as claimed in claim 10, it is characterised in that the top retainer component is several, the pivot of each top retainer component Axle is driven in rotation mechanism and driven and synchronous, intermittent rotary in the same direction jointly by belt institute winding, rotary drive mechanism Drive shaft also can by displacement drive mechanism driving forward, and nibble the swivel joint that a capstan head side is pivoted, the swivel joint Make in capstan head each negative pressure suction nozzle with and its corresponding to each top retainer component is synchronous, rotating Vortex.

12. coil encapsulation device as claimed in claim 8, it is characterised in that the glue valve gear with a main driving mechanism to Main hanging seat is driven to make X, Z axis to displacement, main hanging seat is coupled with time hanging seat, and the glue valve of content viscose is carried to set on secondary hanging seat Valve seat.

13. coil encapsulation device as claimed in claim 12, it is characterised in that the main driving mechanism includes being located at an X axis Mounting on slide rail, mounting are provided with Z axis to slide rail；One first main actuator can drive mounting in X axis slide rail top offset；One Second main actuator can drive main hanging seat to make Z axis on mounting to displacement.

14. coil encapsulation device as claimed in claim 12, it is characterised in that the main hanging seat is by a micro-adjusting mechanism and time extension Seat is coupled, and micro-adjusting mechanism makees X, Y, Z axis to displacement to finely tune time hanging seat.

15. coil encapsulation device as claimed in claim 14, it is characterised in that the micro-adjusting mechanism, including：First trimming piece, To drive a slide to make Z axis to displacement on main hanging seat；Second trimming piece, it is fixedly arranged on below slide, Y-axis displacement can be carried out Fine setting；3rd trimming piece, it is fixedly arranged on below slide, and it is fixed with the second trimming piece, X axis displacement fine setting can be carried out.

16. coil encapsulation device as claimed in claim 8, it is characterised in that including：One material all in one piece work station, pressed from both sides provided with material all in one piece Tool, the tree lace circle to be coated that negative pressure suction nozzle is adsorbed are adjusted herein, make tree lace circle to be coated precise positioning on negative pressure suction nozzle.

17. a kind of coil encapsulation device, including：To perform the coil encapsulation as described in any claim in claim 1 to 7 The device of method.