CN105742052A

CN105742052A - Winding module for extrusion forming of circular-ring filter

Info

Publication number: CN105742052A
Application number: CN201610269228.XA
Authority: CN
Inventors: 唐建军
Original assignee: Individual
Current assignee: Dongguan City Electric Technology Co Ltd
Priority date: 2016-04-27
Filing date: 2016-04-27
Publication date: 2016-07-06
Anticipated expiration: 2036-04-27
Also published as: CN105742052B

Abstract

The invention discloses a winding module for extrusion forming of a circular-ring filter. The winding module comprises a base, a die core assembly and a plate cover assembly, wherein the die core assembly and the plate cover assembly are arranged in the base, the die core assembly is provided with a placing space and comprises a first die core seat, a second die core seat and a partition block, the first die core seat and the second die core seat are respectively provided with a first inner die core, a first outer die core, a second inner die core and a second outer die core, a first step groove is formed between the first inner die core and the first outer die core, is J-shaped and inclines relative to a horizontal plane with an angle of 45 degrees, a second step groove is formed between the second inner die core and the second outer die core, is J-shaped and inclines relative to the horizontal plane with an angle of 45 degrees, a first incoming groove and a second incoming groove are formed in the base and are separately connected with the first step groove and the second step groove, and the first step groove, the second step groove, the first incoming groove and the second incoming groove are all covered by the plate cover assembly to form a first incoming passage and a second incoming passage. Two groups of coils can be directly extruded and formed on a closed circular-ring carrier to form the circular-ring filter; and moreover, the winding module is high in working efficiency and high in product quality.

Description

The extruded coiling module of annular wave filter

Technical field:

The present invention relates to winding mould product technical field, refer in particular to a kind of extruded coiling module of annular wave filter.

Background technology:

Wave filter (filter) as the term suggests, be the device that ripple is filtered.The function of wave filter just allows for the signal of a certain component frequency and passes through smoothly, and the signal of another part frequency is then subject to bigger suppression or is filtered out, and it is a frequency selection circuit substantially.

Along with the development of computer technology and mechanics of communication, wave filter is widely used in electronic product, and substantially each electronic product can use wave filter.Wave filter generally comprises enclosed annular carrier and is wrapped in the inductance coil on enclosed annular carrier.

When making the wave filter of said structure, traditional production method is that the mode adopting artificial coiling is wound around enamel-covered wire on enclosed annular carrier, on enclosed annular carrier, one or more inductance coil is formed to cause, this production method labor intensity is higher, scrappage is higher, relatively costly, production efficiency is low, and the filter quality of finished product is not good.

It addition, when the coil winding machine being currently used for making coil carries out making coil, carrier (magnetic core) is socketed on the tool of rotating shaft of coil winding machine, is constantly rotated by rotating shaft enamel-covered wire is wound in the periphery of carrier (magnetic core).It is to say, enclosed annular carrier directly can not be carried out coiling by current coil winding machine, namely not directly make the wave filter of said structure.During in order to make wave filter by coil winding machine, enclosed annular carrier first may be separated into two parts by Producer, difference coiling in both parts, finally will can form the wave filter of said structure again around two unit constructions making coil together again.But this production method is relatively complicated, inefficiency, and there is also a need for considering that two unit constructions form the stability of structure after enclosed annular carriers, not ideal enough with the quality causing whole wave filter.

In view of this, the present inventor proposes techniques below scheme.

Summary of the invention:

It is an object of the invention to overcome the deficiencies in the prior art, it is provided that a kind of extruded coiling module of annular wave filter.

In order to solve above-mentioned technical problem, present invention employs following technical proposals: the extruded coiling module of this annular wave filter includes: a pedestal, the die assembly being installed in pedestal and the plate lid group being installed on pedestal upper end, this die assembly is formed and holds space for what hold the carrier that needs coiling；Described die assembly include being symmetrically arranged in pedestal and can fluctuate in pedestal first, second die core seat and be installed on first, spacing block between second die core seat, this is first years old, second die core seat is respectively provided with relative level and tilts 45 degree of angles and orthogonal first, second installed surface, this first installed surface is provided with the first outer die and is positioned at the first die inside the first outer die, first step trough tilting 45 degree of angles in J-shaped and relative level it is formed with between this first internal mold Renhe first outer die, this first step trough connects with holding space；This second installed surface is provided with the second outer die and is positioned at the second die inside the second outer die, being formed with second step trough tilting 45 degree of angles in J-shaped and relative level between this second internal mold Renhe second outer die, this second step trough connects with holding space；Described pedestal is provided with the first, second inlet wire groove docked with first, second step trough respectively, first, second step trough and first, second inlet wire groove are all covered by plate lid group, be formed all with hold that space connects and in " J " font or inverted " j " font first, second inlet wire passage.

Furthermore, in technique scheme, there is inside described first outer die first inwall in " J " font, this has first outer wall in " J " font in first outside die, this first outer die upper surface is higher than die upper surface in first, after causing this first outer wall and the docking of the first inwall, between this first internal mold Renhe first outer die, form the first described step trough；Die forms in described first the first stopper raised up, and this first gear portion is positioned at the first step trough side.

Furthermore, in technique scheme, described first, second die core seat upper end is respectively arranged with first, second storage tank of through first, second installed surface, and die is additionally provided with in die and second in first first, second corresponding with described first, second storage tank respectively cell body, this first, second storage tank coordinates first, second cell body to be formed described to hold space.

Furthermore, in technique scheme, described first die core seat is provided with first, second sliding-rail groove in inverted T-shape on the first installed surface；In described first, die and the first outer die lower end form first, second adaptive with first, second sliding-rail groove respectively slide rail respectively, this in first in die and second die embed in first, second sliding-rail groove respectively through first, second slide rail, to be stably installed on the first die core seat on the first installed surface；Described second die core seat is identical with the assembling structure of die in the assembling structure of the outer die of die in second and second and the first die core seat and first and the first outer die.

Furthermore, in technique scheme, it is provided with resilient support assemblies between described die assembly lower end and pedestal, and this pedestal is additionally provided with for stopping that die assembly ejects the position-limit mechanism of pedestal under the elastic acting force of resilient support assemblies.

Furthermore, in technique scheme, described resilient support assemblies includes: be installed in pedestal, and be arranged in the supporting seat of described die assembly lower end, be installed on first, second spring of supporting seat and for regulating first, second pad and first, second thread segment of first, second spring degree, this first, second spring upper end highlights supporting seat upper surface, and conflicts with first, second die core seat in described die assembly respectively.

Furthermore, in technique scheme, described supporting seat from top to bottom offers the first accommodating hole and the first screwed hole and the second accommodating hole and the second screwed hole that are mutually communicated, first pad and the first spring are assemblied in the first accommodating hole successively, second pad and the second spring are assemblied in the second accommodating hole successively, first, second thread segment is respectively screw in first, second screwed hole, and this first, second thread segment upper end respectively with first, second pad contacts, this first, second thread segment lower end is provided with flat recess or cross recess.

Furthermore, in technique scheme, described position-limit mechanism includes first, second gag lever post being fixed in pedestal and in L-shaped, this first, second gag lever post end extends transversely in first, second spacing hole arranged in first, second die core seat respectively, and the thickness of this first, second gag lever post end is respectively smaller than the height dimension of first, second spacing hole.

Furthermore, in technique scheme, described plate lid group includes being symmetrically arranged on pedestal and the first plate lid that can reciprocate and the second plate lid, this the first plate lid and the second plate lid are covered on above described first, second step trough and first, second inlet wire groove respectively, to form first, second described inlet wire passage.

Furthermore, in technique scheme, described first plate lid and the second Ban Gai end are respectively provided with dock with described first, second installed surface first, second and tilt interface and be positioned at first, second inclination docking block of first, second inclination interface side, this first, second inclination interface is respectively provided with first, second flange in " J " font, and this first, second flange is covered on described first, second step trough respectively；Described first, second tilts docking block is covered on first, second inlet wire groove respectively.

After adopting technique scheme, the present invention has the advantages that the present invention breaks through prior art and directly closed annular carrier can not be carried out coiling compared with prior art, directly to make the predicament of annular wave filter.Specifically, when the present invention uses, directly closed annular carrier can be inserted directly in the way of upright and die assembly holds in space, wherein, this enclosed annular carrier respectively with first in die assembly, die contact in second, in the present invention for wire rod (enamel-covered wire) traverse and in 45 degree inclinations first, second inlet wire channel end docks with closed annular carrier inwall, to cause wire rod constantly through first, closed annular carrier is carried out inlet wire by the second inlet wire passage, and first in plate lid group, second plate covers in continuous back and forth movement process, may pass through first, the wire rod of the second inlet wire passage is wound in closed annular carrier respectively, i.e. extruded two groups of coils on closed annular carrier, reach to make the purpose of annular wave filter.Present configuration is extremely compact, can direct extruded two groups of coils on closed annular carrier, to form annular wave filter, and work efficiency is high, and good product quality, so that having the high market competitiveness.

Accompanying drawing illustrates:

Fig. 1 is the axonometric chart of the present invention；

Fig. 2 is the front view of the present invention；

Fig. 3 is the three-dimensional exploded view of the present invention；

Fig. 4 is the sectional view of the present invention；

Fig. 5 is the installation diagram of pedestal and die assembly in the present invention；

Fig. 6 is the axonometric chart of die assembly in the present invention；

Fig. 7 is the front view of die assembly in the present invention；

Fig. 8 is the projection view in A direction in Fig. 7；

Fig. 9 is the partial exploded view of Fig. 8.

Detailed description of the invention:

Below in conjunction with specific embodiments and the drawings, the present invention is further described.

See shown in Fig. 1-9, it it is an extruded coiling module of annular wave filter, comprising: a pedestal 1, the die assembly 2 being installed in pedestal 1 and be installed on the plate lid group 5 of pedestal 1 upper end, this die assembly 2 is formed and holds space 20 for what hold the carrier that needs coiling, be formed between die assembly 2 with plate lid group 5 all with hold that space 20 connects and in " J " font or inverted " j " font first, second inlet wire passage, this first, second inlet wire inclined shape of passage.In the specific implementation, being positioned over by closed annular carrier holds in space 20, and constantly from first, second inlet wire channel transfer metal wire rod, metal wire rod first, second inlet wire channel shape restricted can be simultaneously extruded respectively in closed annular carrier both sides two independent inductance coils, reach to prepare the purpose of wave filter.

Described die assembly 2 include being symmetrically arranged in pedestal 1 and can fluctuate in pedestal 1 first, second die core seat 21, 22 and be installed on first, second die core seat 21, spacing block 23 between 22, this is first years old, second die core seat 21, it is respectively provided with relative level on 22 and tilts 45 degree of angles and orthogonal first, second installed surface, this first installed surface is provided with the first outer die 24 and is positioned at the first die 25 inside the first outer die 24, this is formed with first step troughs 201 tilting 45 degree of angles in J-shaped and relative level in first between die 25 and the first outer die 24, this first step trough 201 connects with holding space 20；This second installed surface is provided with the second outer die 26 and is positioned at the second die 27 inside the second outer die 26, this is formed with second step troughs tilting 45 degree of angles in J-shaped and relative level in second between die 27 and the second outer die 26, this second step trough connects with holding space 20；Described first, second die core seat 21,22 upper end is respectively arranged with first, second storage tank 211,221 of through first, second installed surface, and die 27 is additionally provided with in die 25 and second in first first, second corresponding with described first, second storage tank 211,221 respectively cell body 252,271, what cooperation first, second cell body 252,271 formation of this first, second storage tank 211,221 was described holds space 20.

Described pedestal 1 is provided with the first, second inlet wire groove 101,102 docked with first, second step trough respectively, first, second step trough and first, second inlet wire groove 101,102 are all covered by plate lid group 5, be formed all with hold that space 20 connects and in " J " font or inverted " j " font first, second inlet wire passage.Specifically, described pedestal 1 is provided for the first installation position 100 that die assembly 2 is installed, this pedestal 1 forms the first boss 11 and the second boss 12 in the first rear and front end, installation position 100, this first boss 11 and the second boss 12 are all in isosceles trapezoid, this first boss 11 has first, second inclined-plane docked respectively with described one, second installed surface, described first, second inlet wire groove 101,102 is respectively arranged on first, second inclined-plane, makes first, second inlet wire passage be respectively positioned on the inclined-plane at 45 degree of angles.

There is inside described first outer die 24 first inwall 241 in " J " font, this has first outer wall 251 in " J " font in first outside die 25, this first outer die 24 upper surface is higher than die 25 upper surface in first, after causing this first outer wall 251 to dock with the first inwall 241, this forms the first described step trough 201 between die 25 and the first outer die 24 in first；Die 25 forms in described first the first stopper 250 raised up, and this first stopper 250 is positioned at the first step trough 201 side.

Described first die core seat 21 is provided with first, second sliding-rail groove 212,213 in inverted T-shape on the first installed surface；In described first die 25 and the first outer die 24 lower end form respectively respectively with first, second slide rail 253,242 of first, second sliding-rail groove 212,213 adaptation, this in first in die 25 and second die 27 embed in first, second sliding-rail groove 212,213 respectively through first, second slide rail 253,242, to be stably installed on the first die core seat 21 on the first installed surface；Described second die core seat 22 is identical with the assembling structure of die 25 in the assembling structure of die in second 27 and the second outer die 26 and the first die core seat 21 and first and the first outer die 24, and this is no longer going to repeat them.

nullAfter in the first die core seat 21 and first, die 25 and the first outer die 24 assemble，And second after die 27 in die core seat 22 and second and the second outer die 26 assemble，Spacing block is coordinated to be installed on together in the first installation position 100 of described pedestal 1，This in first in die 25 and the first outer die 24 and second die 27 and the second outer die 26 all with the first installation position 100 interior contact，So that die 25 and the first outer die 24 are individually fixed in the first die core seat 21 in first，In second, die 27 and the second outer die 26 are fixed in the second die core seat 22，So that die 25 and the first outer die 24 in the first of different size can be changed according to practical situation、Die 27 and the second outer die 26 in second，So that the degree of depth of the first step trough and the second step trough described in scalable，To be wound around the wire rod of different size in the extruding of closed annular carrier，Make the wave filter of different size requirement.

Owing to needing inductance coil extruded on closed annular carrier, namely will coiling on arc section, so that the cross section of the inductance coil formed on arc section is the little goose egg shape of outer imperial palace, cause that coil winding machine of the prior art all cannot produce, namely inductance coil that can not be extruded on closed annular carrier, and the present invention is by first, second inlet wire passage is respectively provided with in 45 degree of overturning angles, so that two equiform inductance coils that can be stably extruded on closed annular carrier, can reach to prepare the purpose of wave filter according to production requirement.

It is provided with resilient support assemblies 3 between described die assembly 2 lower end and pedestal 1, and this pedestal 1 is additionally provided with for stopping that die assembly 2 ejects the position-limit mechanism 4 of pedestal 1 under the elastic acting force of resilient support assemblies 3.

Described resilient support assemblies 3 is installed on the first installation position 100 of pedestal 1, and is positioned at die assembly 2 lower end；This resilient support assemblies 3 includes: be installed in pedestal 1, and be arranged in the supporting seat 31 of described die assembly 2 lower end, be installed on first, second spring 32,33 of supporting seat 31 and for regulating first, second pad 34,35 and first, second thread segment 36,37 of first, second spring 32,33 elasticity, this first, second spring 32,33 upper end highlights supporting seat 31 upper surface, and conflicts with first, second die core seat 21,22 in described die assembly 2 respectively.Wherein, described supporting seat 31 from top to bottom offers the first accommodating hole 311 and the first screwed hole 312 and the second accommodating hole 313 and the second screwed hole 314 being mutually communicated, first pad 34 and the first spring 32 are assemblied in the first accommodating hole 311 successively, second pad 35 and the second spring 33 are assemblied in the second accommodating hole 313 successively, first, second thread segment 36, 37 are respectively screw into first, second screwed hole 312, in 314, and this first, second thread segment 36, 37 upper ends are respectively with first, second pad 34, 35 contacts, this is first years old, second thread segment 36, 37 lower ends are provided with flat recess or cross recess, so that by can quickly by first, second thread segment 36, 37 are threaded in or out.

Described position-limit mechanism 4 include be fixed in pedestal 1 and in L-shaped first, second gag lever post 41, 42, this is first years old, second gag lever post 41, 42 ends extend transversely into first respectively, second die core seat 21, first arranged in 22, second spacing hole 214, in 222, and this first, second gag lever post 41, the thickness of 42 ends is respectively smaller than first, second spacing hole 214, the height dimension of 222, with cause this first, second gag lever post 41, 42 pairs first, second die core seat 21, 22 carry out spacing while, this is first years old, second die core seat 21, 22 can carry out a degree of fluctuating at vertical direction.

Described pedestal 1 two sides respectively wherein the heart offer first, second slide opening 103,104, all through the first described installation position 100 of this first, second slide opening 103,104.Described first, second gag lever post 41,42 one end is each passed through this first, second slide opening 103,104 first, second spacing hole 214,222 to stretch in first, second die core seat 21,22, and this first, second gag lever post 41,42 other end is fixed with pedestal 1.

Described plate lid group 5 includes the first plate lid 51 and the second plate lid 52 being symmetrically arranged on pedestal 1 and can reciprocating, this the first plate lid 51 and the second plate lid 52 are covered on above described first, second step trough and first, second inlet wire groove 101,102 respectively, to form first, second described inlet wire passage.Wherein, described first plate lid 51 and the second plate lid 52 end are respectively provided with dock with described first, second installed surface first, second and tilt interface and be positioned at first, second inclination docking block 511,521 of first, second inclination interface side, this first, second inclination interface is respectively provided with first, second flange 512,522 in " J " font, and this first, second flange 512,522 is covered on described first, second step trough respectively；Described first, second tilts docking block is covered on first, second inlet wire groove 101,102 respectively.

The present invention breaks through prior art directly can not carry out coiling to closed annular carrier, directly to make the predicament of annular wave filter.Specifically, when the present invention uses, directly closed annular carrier can be inserted directly in the way of upright and die assembly holds in space 20, wherein, this enclosed annular carrier respectively with first in die assembly 2, die contact in second, in the present invention for wire rod (enamel-covered wire) traverse and in 45 degree inclinations first, second inlet wire channel end docks with closed annular carrier inwall, to cause wire rod constantly through first, closed annular carrier is carried out inlet wire by the second inlet wire passage, and first in plate lid group, second plate covers in continuous back and forth movement process, may pass through first, the wire rod of the second inlet wire passage is wound in closed annular carrier respectively, i.e. extruded two groups of coils on closed annular carrier, reach to make the purpose of annular wave filter.

Present configuration is extremely compact, can direct extruded two groups of coils on closed annular carrier, to form annular wave filter, and work efficiency is high, and good product quality, so that having the high market competitiveness.

Certainly, the foregoing is only specific embodiments of the invention, be not limit the scope of the present invention, all equivalences done according to structure, feature and principle described in the present patent application the scope of the claims change or modify, and all should be included in the present patent application the scope of the claims.

Claims

1. the extruded coiling module of annular wave filter, comprising: a pedestal (1), the die assembly (2) being installed in pedestal (1) and plate lid group (5) being installed on pedestal (1) upper end, this die assembly (2) is formed and holds space (20) for what hold the carrier that needs coiling；

It is characterized in that: described die assembly (2) include being symmetrically arranged in pedestal (1) and can fluctuate in pedestal (1) first, second die core seat (21, 22) and be installed on first, second die core seat (21, 22) spacing block (23) between, this is first years old, second die core seat (21, 22) it is respectively provided with relative level on and tilts 45 degree of angles and orthogonal first, second installed surface, this first installed surface is provided with the first outer die (24) and is positioned at first die (25) of the first outer die (24) inner side, this is formed with first step troughs (201) tilting 45 degree of angles in J-shaped and relative level in first between die (25) and the first outer die (24), this first step trough (201) connects with holding space (20)；This second installed surface is provided with the second outer die (26) and is positioned at second die (27) of the second outer die (26) inner side, this is formed with second step troughs tilting 45 degree of angles in J-shaped and relative level in second between die (27) and the second outer die (26), this second step trough connects with holding space (20)；Described pedestal (1) is provided with the first, second inlet wire groove (101,102) docked with first, second step trough respectively, first, second step trough and first, second inlet wire groove (101,102) are all covered by plate lid group (5), be formed all with hold that space (20) connects and in " J " font or inverted " j " font first, second inlet wire passage.

2. the extruded coiling module of annular wave filter according to claim 1, it is characterized in that: described first outer die (24) inner side has first inwall (241) in " J " font, this has first outer wall (251) in " J " font in die (25) outside in first, this the first outer die (24) upper surface is higher than die (25) upper surface in first, after causing this first outer wall (251) to dock with the first inwall (241), this forms described the first step trough (201) in first between die (25) and the first outer die (24)；Die (25) forms in described first the first stopper (250) raised up, and this first stopper (250) is positioned at the first step trough (201) side.

3. the extruded coiling module of annular wave filter according to claim 1, it is characterized in that: described first, second die core seat (21, 22) upper end is respectively arranged with through first, the first of second installed surface, second storage tank (211, 221), and in die (25) and second, die (27) is additionally provided with respectively with described first in first, second storage tank (211, 221) corresponding first, second cell body (252, 271), this is first years old, second storage tank (211, 221) first is coordinated, second cell body (252, 271) what formation was described holds space (20).

4. the extruded coiling module of annular wave filter according to claim 1, it is characterised in that: described first die core seat (21) is provided with first, second sliding-rail groove (212,213) in inverted T-shape on the first installed surface；In described first, die (25) and the first outer die (24) lower end form first, second slide rail (253,242) adaptive with first, second sliding-rail groove (212,213) respectively respectively, this in first in die (25) and second die (27) embed in first, second sliding-rail groove (212,213) respectively through first, second slide rail (253,242), to be stably installed on the first die core seat (21) on the first installed surface；Described second die core seat (22) is identical with the assembling structure of die (25) in the assembling structure of die in second (27) and the second outer die (26) and the first die core seat (21) and first and the first outer die (24).

5. the extruded coiling module of annular wave filter according to claim 1, it is characterized in that: be provided with resilient support assemblies (3) between described die assembly (2) lower end and pedestal (1), and this pedestal (1) be additionally provided with for stopping that die assembly (2) ejects the position-limit mechanism (4) of pedestal (1) under the elastic acting force of resilient support assemblies (3).

6. the extruded coiling module of annular wave filter according to claim 5, it is characterized in that: described resilient support assemblies (3) including: be installed in pedestal (1), and it is positioned at the supporting seat (31) of described die assembly (2) lower end, it is installed on first in supporting seat (31), second spring (32, 33) and be used for regulating first, second spring (32, 33) the first of elasticity, second pad (34, 35) and the first, second thread segment (36, 37), this is first years old, second spring (32, 33) prominent supporting seat (31) upper surface, upper end, and respectively with first in described die assembly (2), second die core seat (21, 22) conflict.

null7. the extruded coiling module of annular wave filter according to claim 6，It is characterized in that: described supporting seat (31) from top to bottom offers the first accommodating hole (311) and the first screwed hole (312) and the second accommodating hole (313) and the second screwed hole (314) that are mutually communicated，First pad (34) and the first spring (32) are assemblied in the first accommodating hole (311) successively，Second pad (35) and the second spring (33) are assemblied in the second accommodating hole (313) successively，First、Second thread segment (36、37) it is respectively screw into first、Second screwed hole (312、314) in，And this first、Second thread segment (36、37) upper end is respectively with first、Second pad (34、35) contact，This is first years old、Second thread segment (36、37) lower end is provided with flat recess or cross recess.

8. the extruded coiling module of annular wave filter according to claim 5, it is characterized in that: described position-limit mechanism (4) include be fixed in pedestal (1) and in L-shaped first, second gag lever post (41, 42), this is first years old, second gag lever post (41, 42) end extends transversely into first respectively, second die core seat (21, 22) first arranged in, second spacing hole (214, 222) in, and this first, second gag lever post (41, 42) thickness of end is respectively smaller than first, second spacing hole (214, 222) height dimension.

9. the extruded coiling module of annular wave filter according to claim 1, it is characterized in that: described plate lid group (5) includes the first plate lid (51) and the second plate lid (52) that are symmetrically arranged on pedestal (1) and can reciprocate, this first plate lid (51) and the second plate lid (52) are covered on described first, second step trough and first, second inlet wire groove (101,102) top respectively, to form first, second described inlet wire passage.

10. the extruded coiling module of annular wave filter according to claim 9, it is characterized in that: described first plate lid (51) and the second plate lid (52) end are respectively provided with and described first, the first of second installed surface docking, second tilts interface and is positioned at first, second tilts the first of interface side, second tilts docking block (511, 521), this is first years old, second tilts interface is respectively provided with first in " J " font, second flange (512, 522), this is first years old, second flange (512, 522) described first it is covered on respectively, on second step trough；Described first, second tilts docking block is covered on first, second inlet wire groove (101,102) respectively.