CN204167088U - Coil packaging device - Google Patents

Abstract

The utility model provides a coil packaging device, which is used for gluing and packaging a coil of a coiled wire rod completed by a coiled core part between two flange parts, and comprises a rubber valve device, a main driving mechanism, a secondary hanging seat, a valve seat, a rubber needle, a coil to be glued, wherein the main driving mechanism is used for driving the main hanging seat to make X, Z axial displacement, the main hanging seat is connected with the secondary hanging seat, the secondary hanging seat is provided with the valve seat of the rubber valve for bearing viscose, the rubber valve is correspondingly positioned on a coil to be glued, which is adsorbed by a negative pressure suction nozzle, when gluing the coil to be glued is to be glued, the rubber needle executes rubber scratching, the outlet of the rubber needle is enabled to spit glue, and one end of the side edge of the coil to be glued is displaced from the upper direction; therefore, the problem of fluidity of the thick adhesive can be overcome, and the packaging efficiency can be improved.

Description

Coil encapsulation device

Technical field

The utility model has about a kind of packaging system, espespecially to the coil of the core portion wound skein product completed between two flange parts, is coated with viscose and carries out coated coil encapsulation device to the wire rod that coil reels between coil two flange part.

Background technology

The coil of general core portion wound skein product between two flange parts, be commonly used to as transformer or inductance, and because the electronic product of consumer such as notebook computer, panel computer, Smartphone is under compact requirement, these transformers formed with coil or inductance are also required to be made into very tiny; For inductance, the coil forming inductance coiling material must apply viscose to encapsulate completing the core portion between two flange parts of wound skein product usually, and some inductance is for asking inductance value comparatively large, and in viscose, even add fine tool can the powder of magnetic conductivity; And when applying viscose and encapsulating, usual employing by a class as viscose to have injected between coil two flange part of wound skein product by the glue valve injecting tubular with plastic pin, after side central authorities of coil square external form being made to single-point squeezing viscose, then other three sides of reset coil make the mode of single-point squeezing viscose to complete encapsulation one by one.

Prior art adopts packaged type coil one side central authorities being made to single-point squeezing viscose, uses comparatively no problem at the viscose of general more flowability, because the overflow that the viscose of single-point squeezing can be very fast covers this core portion, side of coil around wire surface, can in the occasion of magnetic conductivity powder but add fine tool in viscose, but often there will be viscose and cannot cover this core portion, side of coil completely around the problem of wire surface, can the viscose of magnetic conductivity powder because add fine tool, its viscosity is quite dense thick, mobility becomes very slow, due to general inductance coil two flange part between gap less than 0.5mm, dense thick viscose is injected this not only narrow but also thin slit, the surface tension effects of dense thick viscose increases around the time of wire surface by making overflow cover core portion, this is for every coil production ten hundreds of in batches, by the retardance causing single packaging technology to full technique, also easily there is the output of defective products.

Therefore, this novel object is to provide a kind of can be suitable for putting with the coil encapsulation that dense thick viscose carries out coil encapsulation.

This another object novel is to provide a kind of coil that makes to be solidly supported the coil encapsulation device of the accurate gluing of lower work.

This novel another object is to provide a kind of coil encapsulation device carrying out gluing between core portion between coil two flange part.

This novel object is again to provide another kind that coil can be made to be solidly supported the coil encapsulation device of the accurate gluing of lower work.

This novel again again an object be to provide another kind can be suitable for carrying out with dense thick viscose the coil encapsulation device of coil encapsulation.

According to the coil encapsulation device of this novel object, carry out gluing encapsulation in order to coil core portion between two flange parts being completed to wound skein product, comprising: a tree lace circle to be coated; One plastic pin, is provided with the outlet can telling glue, and draws glue by direction other end displacement in the core portion driven between one end two flange part of this tree lace circle side to be coated.

According to another coil encapsulation device of this novel object, carry out gluing encapsulation in order to coil core portion between two flange parts being completed to wound skein product, comprising: a tree lace circle to be coated; One plastic pin, is provided with the outlet can telling glue, and treats gluing coil by driving and make anticlockwise rectilinear path gluing.

According to the coil encapsulation device of this another object novel, carry out gluing encapsulation in order to coil core portion between two flange parts being completed to wound skein product, comprising: a tree lace circle to be coated; One suction nozzle, with negative-pressure adsorption tree lace circle to be coated; One top retainer component, correspondence is located at suction nozzle front and is treated gluing coil contact, top retainer component drive by the rotary drive mechanism and, in the same way intermittent rotary synchronous with suction nozzle.

According to the coil encapsulation device of this novel another object, coil in order to complete wound skein product to core portion between two flange parts carries out gluing encapsulation, comprise: a feeding station, the capstan head with interval conversion program sent into by tree lace circle to be coated by mat vibrations pay-off and conveyance fixture; One gluing work station, completes with a glue valve gear and is coated on tree lace circle to be coated by viscose.

According to the coil encapsulation device of this novel object again, coil in order to complete wound skein product to core portion between two flange parts carries out gluing encapsulation, comprise: a glue valve, content viscose and carry by the valve seat, glue valve with the corresponding tree lace circle to be coated of a plastic pin viscose is coated on tree lace circle to be coated; One top retainer component, to drive by the rotary drive mechanism and this tree lace circle to be coated of contact.

According to the coil encapsulation device of this novel object more again, carry out gluing encapsulation in order to coil core portion between two flange parts being completed to wound skein product, comprising: a main driving mechanism, X, Z-axis direction displacement is done in order to drive a main hanging seat, a hanging seat connection, connects with main hanging seat, in order to arrange valve seat; One glue valve, content viscose is also carried by described valve seat, is provided with plastic pin; One negative pressure suction nozzle is corresponding with plastic pin and adsorb tree lace circle to be coated.

The coil encapsulation device that this new embodiment provides, via at 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 located at negative pressure suction nozzle front with top retainer component correspondence and treat gluing coil contact, make top retainer component to drive by the rotary drive mechanism and synchronous with negative pressure suction nozzle, intermittent rotary in the same way, and mounting displacement is in the axial direction driven with first of main driving mechanism the main actuator in glue valve gear, and second main actuator drive main hanging seat on mounting, do Z-axis direction displacement, reach and draw glue step, on move one's steps rapid, return step, move down the counter clockwise direction enclosing square gluing path that step is formed, and mat micro-adjusting mechanism accurate adjustment gluing stroke and position, can magnetic conductivity powder even if make to add fine tool, the quite dense thick viscose of viscosity, even if its mobility is very slow, also between coil two flange part, dense thick viscose can be injected this not only narrow but also thin slit, and draw in glue step that the direction other end in the core portion between one end two flange part picking up from tree lace circle first side to be coated does X axis displacement draw glue mode, the effect of dense thick gummed surface tension force can also be made overflow cover core portion around the factor solution that the time of wire surface has increased, coil production efficiency is improved, fraction defective reduces.

Utility model content

Accompanying drawing explanation

Fig. 1 is each device configuration schematic diagram of this new embodiment.

Fig. 2 is the gluing work station schematic perspective view of this new embodiment.

Fig. 3 is the gluing work station side schematic view of this new embodiment.

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

Fig. 5 is the glue valve gear rear perspective schematic diagram of this new embodiment.

Fig. 6 be this new embodiment be provided with glue valve, the valve seat of plastic pin and the corresponding relation schematic diagram of negative pressure suction tree lace circle to be coated.

Fig. 7 is the plastic pin of this new embodiment and the corresponding relation enlarged diagram of negative pressure suction tree lace circle to be coated.

Fig. 8 is that in this new embodiment, plastic pin treats gluing coil deposition path schematic diagram.

[symbol description]

A board table top B glue spreading apparatus

B1 feeding station B11 shakes pay-off

B12 transports fixture B2 capstan head

B21 side B22 negative pressure suction nozzle

B23 swivel base B24 swivel joint

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

B4 gluing work station B5 removal work station

B51 removal fixture C drying unit

D tree lace circle to be coated D1 flange part

D2 flange part D3 core portion

D5 second side, D4 first side

R gluing path 1 glue valve gear

11 valve seat 12 glue valves

121 plastic pin 13 main driving mechanisms

131 main hanging seat 132 slide rails

The axial slide rail of 133 mounting 134

The main actuator of 135 first main actuator 136 second

137 belt 138 screw rods

14 micro-adjusting mechanism 141 times hanging seats

142 first trimming piece 143 slides

144 slide rail 145 second trimming pieces

146 the 3rd trimming piece 15 plastic pins

151 outlet 2 auxiliary locators

21 mounting 22 top retainer components

221 pivot 222 belts

223 rotary drive mechanism 224 driving shafts

23 Mobile base 231 displacement drive mechanisms

232 slide rails

Embodiment

Refer to shown in Fig. 1, the coil encapsulation device of this new embodiment can illustrate by equipment as illustrated in the drawing, the technique of coil encapsulation can comprise the coating technique performed by glue spreading apparatus B be positioned on a board table top A, and the coil completing coating technique is carried out stoving process via a drying unit C.

Coating technique performed by glue spreading apparatus B comprises:

One feeding station B1, the side B21 with the square capstan head B2 of totally four interval conversion programs sent into by tree lace circle to be coated by mat vibrations pay-off B11 and conveyance fixture B12 in mode of four, four tree lace circles to be coated are adsorbed respectively by four negative pressure suction nozzle B22;

The tree lace circle to be coated that one material all in one piece work station B3, four negative pressure suction nozzle B22 adsorb adjusts at this by each material all in one piece fixture B31 corresponding to it, makes the precise positioning of each tree lace circle to be coated all on negative pressure suction nozzle B22;

One gluing work station B4, completes with a glue valve gear 1 and an auxiliary locator 2 and is coated on tree lace circle to be coated by viscose;

One removal work station B5, is unloaded the coil completing viscose coating from the negative pressure suction nozzle B22 of the side B21 of capstan head B2 by a removal fixture B51, and transfers to this drying unit C and carry out stoving process.

Refer to Fig. 2, Fig. 3, the glue valve gear 1 of this gluing work station B4 is located on the top swivel base B23 of each side B21 of capstan head B2, and with the glue valve 12 of each carrying content viscose of four valve seats 11 being positioned at Z-direction, and respectively with below plastic pin 121 respectively each vertical correspondence be positioned at above four negative pressure suction nozzle B22 of Y direction;

This auxiliary locator 2 is located on a mounting 21, and is respectively located at four negative pressure suction nozzle B22 fronts with four top retainer component 22 correspondences, the pivot 221 of each top retainer component 22 is parallel with the axis of each negative pressure suction nozzle B22, and is jointly located on a Mobile base 23, and this Mobile base 23 can move forward and backward by the driving of displacement drive mechanism 231 on slide rail 232, the pivot 221 of each top retainer component 22 is jointly by a belt 222 windings, and to drive by the rotary drive mechanism 223 and synchronous, intermittent rotary in the same way, the driving shaft 224 of rotary drive mechanism 223 simultaneously also mat by displacement drive mechanism 231 driving forward, and nibble the swivel joint B24 being positioned at capstan head B2 side B21 and being pivoted, this swivel joint B24 is in capstan head B2, then if the pivot 221 of each top retainer component 22 is jointly by the mode of a belt 222 windings, make each negative pressure suction nozzle B22 with synchronous with its corresponding each top retainer component 22, intermittent rotary is (if each by negative pressure suction nozzle B22 respectively in the same way, it is looked in the end of top retainer component 22, then the two is relative reverse rotation).

Refer to Fig. 4, Fig. 5, this glue valve gear 1 comprises a main driving mechanism 13, and four micro-adjusting mechanisms 14 corresponding respectively with these four valve seats 11; Main driving mechanism 13 does X, Z-axis direction displacement in order to drive main hanging seat 131, and each micro-adjusting mechanism 14 makes X, Y, Z axis to displacement in order to finely tune four its each self-corresponding hanging seats 141; Wherein, each micro-adjusting mechanism of main hanging seat 131 mat 14 and each hanging seat 141 connect, in order to arrange the valve seat 11 that these four respectively carry the glue valve 12 of content viscose on each hanging seat 141;

This main driving mechanism 13, comprise the mounting 133 be located on an X axis slide rail 132, mounting 133 is provided with Z-axis direction slide rail 134, the first main actuator 135 that one vapour pressure cylinder is formed can drive mounting 133 at X axis slide rail 132 top offset, the second main actuator 136 that one motor is formed can the mode of mat belt 137 interlock screw rod 138, drives main hanging seat 131 to do Z-axis direction displacement on mounting 133;

This micro-adjusting mechanism 14, respectively comprises: the first trimming piece 142, in order to drive a slide 143 slide rail 144 on main hanging seat 131 to do Z-axis direction displacement, is made up of bolt and spiral button; Second trimming piece 145, is fixedly arranged on below slide 143, and the slide mutually slided by two and slide block formed, and can carry out Y-axis displacement fine setting; 3rd trimming piece 146, is fixedly arranged on below slide 143, and sets firmly with the second trimming piece 145, and the slide mutually slided by two and slide block are formed, and can carry out X axis displacement fine setting.

Refer to Fig. 6, Fig. 7, below the valve seat 11 of the glue valve 12 of this each carrying content viscose of glue valve gear 1, respectively be provided with fine tubulose plastic pin 15, each plastic pin 15 lower exit port is each positioned at above the tree lace circle D to be coated that negative pressure suction nozzle B22 corresponding to it adsorbs front end, and core portion D3 between two flange part D1, the D2 completing wound skein product with tree lace circle D to be coated is corresponding on same X axis displacement path, the predetermined gluing height of plastic pin 15 lower exit port 151 above Z-axis direction core portion D3 simultaneously.

Refer to Fig. 4, Fig. 7, Fig. 8, when carrying out the gluing treating gluing coil D, plastic pin 15 lower exit port 151 is made to perform glue application step to gluing path R, its first main actuator 135 primarily of main driving mechanism 13 drives mounting 133 displacement in the X-axis, and the second main actuator 136 drives main hanging seat 131 to do Z-axis direction displacement to reach on mounting 133; Comprise:

Stroke glue step, makes plastic pin 15 lower exit port carry out telling glue, and the direction other end does X axis displacement on the core portion D3 between one end two flange part D1, D2 of tree lace circle D first side D4 to be coated, to stopping during this other end telling glue;

Move one's steps on one rapid, made plastic pin 15 lower exit port of aforementioned stroke of glue step perform one and moved in Z-direction;

One returns step, plastic pin 15 lower exit port of aforementioned stroke of glue step is performed follow X axis to return and has formerly carried out drawing above the starting point before glue step; While plastic pin 15 lower exit port returns, negative pressure suction nozzle B22 adsorbs tree lace circle D to be coated and is rotated counterclockwise 90 degree, and the second side D5 of gluing is ported to the position of corresponding plastic pin 15 lower exit port of level to make another treat;

Once move one's steps rapid, make to return step and the plastic pin 15 lower exit port execution be positioned at above starting point is displaced downwardly to a stroke glue step initial point position;

Repeat according to above-mentioned steps, to complete the gluing operation of each side of tree lace circle D to be coated; And draw glue step, on move one's steps rapid, return step, move down step and form an anticlockwise enclosing square gluing path R.

When carrying out the gluing treating gluing coil D, the glue amount spued for making plastic pin 15 lower exit port can cover on the core portion D3 between two flange part D1, D2 in position, gluing operation can be made more accurate via execution one trim step, comprise: each micro-adjusting mechanism 14 respectively finely tunes the predetermined gluing height of plastic pin 15 lower exit port above Z-axis direction core portion D3 with the first trimming piece 142; Four each self-corresponding hanging seats 141 are finely tuned with the second trimming piece 125, it is made respectively to do Y-axis displacement, thus each plastic pin 15 lower exit port is except being each positioned at except above tree lace circle D to be coated that negative pressure suction nozzle B22 corresponding to it adsorbs front end, and core portion D3 between two flange part D1, the D2 completing wound skein product with tree lace circle D to be coated is corresponding on same X axis; And with the 3rd trimming piece 126, carry out the fine setting of X axis plastic pin 15 lower exit port displacement stroke length.

The coil encapsulation device that this new embodiment provides, via at gluing work station B4, with glue valve gear 1 and an auxiliary locator 2, tree lace circle D to be coated is adsorbed by negative pressure suction nozzle B22, and be located at negative pressure suction nozzle B22 front with top retainer component 22 correspondence and treat gluing coil D contact, make top retainer component 22 to drive by the rotary drive mechanism 223 and synchronous with negative pressure suction nozzle B22, rotating Vortex, and mounting 133 displacement is in the X-axis driven with first of main driving mechanism 13 the main actuator 135 in glue valve gear 1, and second main actuator 136 drive main hanging seat 131 to do Z-axis direction displacement on mounting 133, reach and draw glue step, on move one's steps rapid, return step, move down the counter clockwise direction enclosing square gluing path R that step is formed, and mat micro-adjusting mechanism 14 accurate adjustment gluing stroke and position, can magnetic conductivity powder even if make to add fine tool, the quite dense thick viscose of viscosity, even if its mobility is very slow, also can at coil two flange part D1, between D2, dense thick viscose is injected this not only narrow but also thin slit, and draw one end two flange part D1 picking up from tree lace circle D first side D4 to be coated in glue step, on core portion D3 between D2, the direction other end makes stroke glue mode of X axis displacement, the effect of dense thick gummed surface tension force can also be made overflow cover core portion around the factor solution that the time of wire surface has increased, coil production efficiency is improved, fraction defective reduces.

The foregoing is only preferred embodiment of the present utility model, when can not limit the scope of the utility model enforcement with this, namely the simple equivalence change generally done according to the utility model claims and utility model description with modify, all still belong in scope that the utility model patent contains.

Claims (22)

1. a coil encapsulation is put, and carries out gluing encapsulation, it is characterized in that comprising in order to coil core portion between two flange parts being completed to wound skein product:

One tree lace circle to be coated;

One plastic pin, is provided with the outlet can telling glue; And

This plastic pin described is made to draw the device of glue by direction other end displacement in the core portion driven between one end two flange part of this tree lace circle side to be coated.

2. coil encapsulation device as claimed in claim 1, is characterized in that, also comprises after this plastic pin completes aforementioned stroke of glue and returns the former device carried out above the starting point before drawing glue.

3. coil encapsulation device as claimed in claim 2, it is characterized in that, also comprise the device making gluing coil be rotated counterclockwise 90 degree, to make this plastic pin can while returning, tree lace circle to be coated is rotated counterclockwise 90 degree, and the second side of gluing is ported to the position of the corresponding plastic pin of level to make another treat.

4. coil encapsulation device as claimed in claim 1, is characterized in that, also comprises the device that this plastic pin completing stroke glue is up moved.

5. coil encapsulation device as claimed in claim 2, is characterized in that, also comprises and makes this plastic pin returned above starting point be displaced downwardly to the device drawing glue initial point position.

6. a coil encapsulation device, carries out gluing encapsulation in order to coil core portion between two flange parts being completed to wound skein product, it is characterized in that comprising:

One tree lace circle to be coated;

One plastic pin, is provided with the outlet can telling glue; And

This plastic pin is made to treat by driving the device that anticlockwise rectilinear path gluing made by gluing coil.

7. a coil encapsulation device, carries out gluing encapsulation in order to coil core portion between two flange parts being completed to wound skein product, it is characterized in that comprising:

One tree lace circle to be coated;

One suction nozzle, with negative-pressure adsorption tree lace circle to be coated;

One top retainer component, correspondence is located at suction nozzle front and is treated gluing coil contact, top retainer component can drive by the rotary drive mechanism and, in the same way intermittent rotary synchronous with suction nozzle.

8. a coil encapsulation device, carries out gluing encapsulation in order to coil core portion between two flange parts being completed to wound skein product, it is characterized in that comprising:

One feeding station, sends into the capstan head with interval conversion program for borrowing vibrations pay-off and conveyance fixture by tree lace circle to be coated;

One gluing work station, comprises a glue valve gear, for completing, viscose is coated in tree lace circle to be coated.

9. coil encapsulation device as claimed in claim 8, it is characterized in that, this gluing work station comprises the negative pressure suction nozzle institute that tree lace circle to be coated is adsorbed, and the top retainer component of an auxiliary locator of corresponding negative pressure suction nozzle.

10. coil encapsulation device as claimed in claim 8, is characterized in that, also comprise a material all in one piece work station, adjusted for tree lace circle to be coated at this by material all in one piece fixture, make tree lace circle to be coated precise positioning on a negative pressure suction nozzle.

11. coil encapsulation devices as claimed in claim 8, is characterized in that, also comprise a removal work station, and this removal work station for being unloaded on capstan head by a removal fixture by the coil completing viscose coating, and transfers to a drying unit and carries out stoving process.

12. 1 kinds of coil encapsulation devices, carry out gluing encapsulation in order to coil core portion between two flange parts being completed to wound skein product, it is characterized in that comprising:

One glue valve, content viscose also carried by a valve seat, glue valve with the corresponding tree lace circle to be coated of a plastic pin viscose is coated on tree lace circle to be coated;

One top retainer component, to drive by the rotary drive mechanism and this tree lace circle to be coated of contact.

13. coil encapsulation devices as claimed in claim 12, is characterized in that, this tree lace circle to be coated adsorb by the negative pressure suction nozzle.

14. coil encapsulation devices as described in the arbitrary claim of claim 9,12, it is characterized in that, this top retainer component is located on a Mobile base of a mounting, and this Mobile base can move forward and backward by the driving of displacement drive mechanism.

15. coil encapsulation devices as described in the arbitrary claim of claim 9,12, is characterized in that, this top retainer component drives by a rotary drive mechanism can, in the same way intermittent rotary synchronous with negative pressure suction nozzle.

16. coil encapsulation devices as described in the arbitrary claim of claim 9,12, it is characterized in that, this top retainer component is several, the pivot of each top retainer component jointly by belt institute winding, and be driven in rotation mechanism drive and synchronously, intermittent rotary in the same way.

17. coil encapsulation devices as claimed in claim 16, it is characterized in that, the driving shaft of this rotary drive mechanism by the driving of displacement drive mechanism forward, and nibble the swivel joint that a capstan head side is pivoted, this swivel joint in capstan head, make each negative pressure suction nozzle and and its corresponding each top retainer component is synchronous, rotating Vortex.

18. 1 kinds of coil encapsulation devices, carry out gluing encapsulation in order to coil core portion between two flange parts being completed to wound skein product, it is characterized in that comprising:

One main driving mechanism, in order to drive a main hanging seat to do X, Z-axis direction displacement,

A hanging seat connection, connects with main hanging seat, in order to arrange valve seat;

One glue valve, content viscose is also carried by described valve seat, is provided with plastic pin;

One negative pressure suction nozzle is corresponding with plastic pin and adsorb tree lace circle to be coated.

19. coil encapsulation devices as claimed in claim 18, it is characterized in that, this main driving mechanism comprises:

One first main actuator, can drive a mounting at X axis slide rail top offset;

One second main actuator, can drive main hanging seat on mounting, do Z-axis direction displacement.

20. coil encapsulation devices as claimed in claim 18, is characterized in that, also comprise: a micro-adjusting mechanism, connect main hanging seat and time hanging seat, make X, Y, Z axis to displacement in order to finely tune time hanging seat.

21. coil encapsulation devices as claimed in claim 18, is characterized in that, also comprise: a slide, driven by one first trimming piece, can do Z-axis direction displacement on main hanging seat; Driven by one second trimming piece, can in Y-axis displacement; Driven by one the 3rd trimming piece, can in X axis displacement.

22. coil encapsulation devices as claimed in claim 21, it is characterized in that, the 3rd trimming piece and the second trimming piece set firmly.