CN102315024A - The manufacturing approach of laminated electronic component manufacturing installation and laminated electronic component - Google Patents

Abstract

The object of the present invention is to provide and a kind ofly can eliminate the end difference between telegraph circuit and make the laminated electronic component manufacturing installation of high-quality laminated electronic component and the manufacturing approach of laminated electronic component.Comprise: annular is the film forming basis material (12) of shape continuously, and the film forming basis material of the continuous shape of this annular has been implemented the demoulding processing in periphery; Film forming formation portion (16), this film forming formation portion makes its drying to film forming basis material (12) coating ceramic size, to form ceramic sheet material; Telegraph circuit formation portion (22), this telegraph circuit formation portion forms telegraph circuit (24) on ceramic sheet material S; The medium formation portion (38) of filming, this medium is filmed formation portion because of forming end difference (34) formation medium on the ceramic sheet material S that telegraph circuit (24) produces film (36); And range upon range of supporting mass (14), this range upon range of supporting mass forms the laminate structure S ' of ceramic sheet material S.

Description

The manufacturing approach of laminated electronic component manufacturing installation and laminated electronic component

Technical field

The present invention relates to a kind of be used to make the laminated electronic component manufacturing installation of laminated electronic components such as laminated ceramic capacitor and the manufacturing approach of laminated electronic component.

Background technology

Disclosed a kind of manufacturing approach of ceramic duplexer in the following patent documentation 1; This method be make on one side be wound in the multi-edge column-shaped wheel transport the endless belt rotation, on one side repeat to utilize application roll that ceramic green sheet is shaped according to predetermined order on the endless belt and utilize transfer device to form the operation of internal electrode transporting.And; Transport endless belt rotation during in; Set certain zone of transporting endless belt for take turns planar section and contact, utilize the target pottery duplexer of the interior size of taking-up of stamping-out suction nozzle and the contacted regional extent of above-mentioned planar section, make ceramic duplexer thus with multi-edge column-shaped.

In following patent documentation 2; Disclosed a kind of manufacturing approach of laminated electronic component; This method needs first Printing Department and second Printing Department, utilizes first Printing Department to form the conductive paste film, utilizes second Printing Department to form the ladder elimination in the zone that does not form above-mentioned conductive paste film and uses ceramic size; Have the function that to eliminate ladder, have time that can shorten range upon range of operation and form the effect of conductive paste film accurately.

The prior art document

Patent documentation

Patent documentation 1: japanese patent laid-open 10-32140 communique

Patent documentation 2: the open patent 2006-302932 of Japan communique

Summary of the invention

Of above-mentioned patent documentation 1; Wet state down continuously on dried sheet material repeatedly the method for coating sizing-agent can cause the sheet material below the dissolution with solvents in the slurry that is coated with, thereby generation becomes short circuit or the sheet material defective of the reason of IR not good (insulation resistance is not good).The sheet thickness of especially present laminated ceramic capacitor thins down, and the painting process of this method is also inapplicable.

In above-mentioned patent documentation 2, be on cylindric roller, to form laminate structure, but ceramic sheet material only limit to not have supporting mass and high-intensity independence raw cooks such as film.Thereby in firing process, be difficult to degreasing owing to contain the sheet material that the high polymerization degree resin strengthened intensity, thereby become the main cause that the compactness of back pottery is burnt till in influence, therefore cause practicality very low, be difficult to use in a large amount of productions.

Therefore, in view of the above problems, the objective of the invention is to, provide a kind of and can eliminate the end difference between telegraph circuit and make the laminated electronic component manufacturing installation of high-quality laminated electronic component and the manufacturing approach of laminated electronic component.

The present invention is a kind of laminated electronic component manufacturing installation, it is characterized in that, comprising: annular is the film forming basis material of shape continuously, and the film forming basis material of the continuous shape of this annular has been implemented the demoulding processing in periphery; Film forming formation portion, this film forming formation portion is coated with ceramic size to above-mentioned film forming basis material, and makes its drying, to form ceramic sheet material; Telegraph circuit formation portion, this telegraph circuit formation portion forms telegraph circuit on above-mentioned ceramic sheet material; The medium formation portion of filming, this medium formation portion of filming is forming medium and is filming because of forming end difference on the above-mentioned ceramic sheet material that above-mentioned telegraph circuit produces; And range upon range of supporting mass, this range upon range of supporting mass forms the laminate structure of above-mentioned ceramic sheet material.

The present invention is a kind of laminated electronic component manufacturing installation, comprising: annular is the film forming basis material of shape continuously, and the film forming basis material of the continuous shape of this annular has been implemented the demoulding processing in periphery; Telegraph circuit formation portion, this telegraph circuit formation portion forms telegraph circuit on above-mentioned film forming basis material; The medium formation portion of filming, this medium formation portion of filming forms medium and films on above-mentioned film forming basis material; Film forming formation portion, this film forming formation portion be to above-mentioned film forming basis material coating ceramic size, covering above-mentioned telegraph circuit and above-mentioned medium is filmed, and makes its drying, the ceramic sheet material of filming with above-mentioned telegraph circuit and above-mentioned medium with formation; And range upon range of supporting mass, this range upon range of supporting mass forms the laminate structure of above-mentioned ceramic sheet material.

The present invention is a kind of laminated electronic component manufacturing installation, it is characterized in that, comprising: annular is the film forming basis material of shape continuously, and the film forming basis material of the continuous shape of this annular has been implemented the demoulding processing in periphery; Telegraph circuit formation portion, this telegraph circuit formation portion forms telegraph circuit on above-mentioned film forming basis material; Film forming formation portion, this film forming formation portion be to above-mentioned film forming basis material coating ceramic size, covering above-mentioned telegraph circuit, and makes its drying, with the ceramic sheet material of formation with above-mentioned telegraph circuit; The medium formation portion of filming, this medium formation portion of filming is forming medium and is filming because of forming end difference on the above-mentioned ceramic sheet material that above-mentioned telegraph circuit produces; And range upon range of supporting mass, this range upon range of supporting mass forms the laminate structure of above-mentioned ceramic sheet material.

The present invention is a kind of laminated electronic component manufacturing installation, it is characterized in that, comprising: annular is the film forming basis material of shape continuously, and the film forming basis material of the continuous shape of this annular has been implemented the demoulding processing in periphery; The medium formation portion of filming, this medium formation portion of filming forms medium and films on above-mentioned film forming basis material; Film forming formation portion, this film forming formation portion films to cover above-mentioned medium, and makes its drying above-mentioned film forming basis material coating ceramic size, the ceramic sheet material of filming with above-mentioned medium with formation; Telegraph circuit formation portion, this telegraph circuit formation portion forms telegraph circuit on the above-mentioned ceramic sheet material that is different from the position that above-mentioned medium films on the above-mentioned ceramic sheet material; And range upon range of supporting mass, this range upon range of supporting mass forms the laminate structure of above-mentioned ceramic sheet material.

In this case, preferred above-mentioned range upon range of supporting mass contacts with above-mentioned film forming basis material through above-mentioned ceramic sheet material, this ceramic sheet material is peeled off from above-mentioned film forming basis material, and be wound in periphery, thereby form the laminate structure of above-mentioned ceramic sheet material.

The invention is characterized in, when forming the laminate structure of above-mentioned ceramic sheet material, on above-mentioned film forming basis material, continue to form new above-mentioned ceramic sheet material with above-mentioned range upon range of supporting mass.

The invention is characterized in; Has the member of transporting; This transports member and is arranged between above-mentioned film forming basis material and the above-mentioned range upon range of supporting mass; Be received in the above-mentioned ceramic sheet material that above-mentioned film forming basis material forms from above-mentioned film forming basis material, and the above-mentioned ceramic sheet material of being accepted is transported to above-mentioned range upon range of supporting mass.

The invention is characterized in; Above-mentioned telegraph circuit formation portion forms above-mentioned telegraph circuit on the above-mentioned above-mentioned ceramic sheet material that transports on the member, the above-mentioned medium formation portion of filming forms above-mentioned medium at the above-mentioned above-mentioned end difference that transports the above-mentioned media sheet on the member and films.

The invention is characterized in that above-mentioned telegraph circuit formation portion and the above-mentioned medium formation portion of filming forms foregoing circuit and above-mentioned medium is filmed to the same above-mentioned above-mentioned ceramic sheet material that transports on the member in roughly the same moment.

The invention is characterized in that above-mentioned telegraph circuit formation portion and the above-mentioned medium formation portion of filming does not have a version printing equipment.Particularly, preferred above-mentioned no version printing equipment is an ink-jet printing apparatus.

In addition, the present invention utilizes the manufacturing approach of following laminated electronic component also can address the above problem.

Promptly; The present invention is a kind of manufacturing approach of laminated electronic component; It is characterized in that, comprising: film forming forms operation, and this film forming forms operation and utilizes film forming formation portion periphery to be implemented the film forming basis material coating ceramic size of the continuous shape of annular of demoulding processing; And make its drying, with continuous formation ceramic sheet material; Telegraph circuit forms operation, and this telegraph circuit forms operation and utilizes telegraph circuit formation portion on above-mentioned ceramic sheet material, to form telegraph circuit; The medium formation operation of filming, this medium are filmed and are formed operation and utilize the medium formation portion of filming forming medium and film because of forming end difference on the above-mentioned ceramic sheet material that above-mentioned telegraph circuit produces; And laminate structure formation operation, this laminate structure forms the laminate structure that operation forms above-mentioned ceramic sheet material.

The present invention is a kind of manufacturing approach of laminated electronic component, comprising: telegraph circuit forms operation, and the film forming basis material that this telegraph circuit formation operation utilizes telegraph circuit formation portion that periphery has been implemented the continuous shape of annular of demoulding processing forms telegraph circuit; The medium formation operation of filming, this medium are filmed and are formed operation and utilize the medium formation portion of filming above-mentioned film forming basis material is formed medium to film; Film forming forms operation; This film forming forms operation and utilizes film forming formation portion to above-mentioned film forming basis material coating ceramic size; Covering above-mentioned telegraph circuit and above-mentioned medium is filmed, and make its drying, the ceramic sheet material of filming with above-mentioned telegraph circuit and above-mentioned medium with formation; And laminate structure formation operation, this laminate structure forms the laminate structure that operation forms above-mentioned ceramic sheet material.

The present invention is a kind of manufacturing approach of laminated electronic component; It is characterized in that; Comprise: telegraph circuit forms operation, and the film forming basis material that this telegraph circuit formation operation utilizes telegraph circuit formation portion that periphery has been implemented the continuous shape of annular of demoulding processing forms telegraph circuit; Film forming forms operation, and this film forming forms operation and utilizes film forming formation portion to above-mentioned film forming basis material coating ceramic size, covering above-mentioned telegraph circuit, and makes its drying, with the ceramic sheet material of formation with above-mentioned telegraph circuit; The medium formation operation of filming, this medium are filmed and are formed operation and utilize the medium formation portion of filming forming medium and film because of forming end difference on the above-mentioned ceramic sheet material that above-mentioned telegraph circuit produces; And laminate structure formation operation, this laminate structure forms the laminate structure that operation forms above-mentioned ceramic sheet material.

The present invention is a kind of manufacturing approach of laminated electronic component; It is characterized in that; Comprise: the medium formation operation of filming, this medium film form operation utilize medium film formation portion to periphery implemented annular that demoulding handles continuously the film forming basis material of shape form medium and film; Film forming forms operation, and this film forming forms operation and utilizes film forming formation portion to above-mentioned film forming basis material coating ceramic size, films to cover above-mentioned medium, and makes its drying, the ceramic sheet material of filming with above-mentioned medium with formation; Telegraph circuit forms operation, and this telegraph circuit forms operation and utilizes telegraph circuit formation portion on the above-mentioned ceramic sheet material that is different from the position that above-mentioned medium films on the above-mentioned ceramic sheet material, to form telegraph circuit; And laminate structure formation operation, this laminate structure forms the laminate structure that operation forms above-mentioned ceramic sheet material.

The present invention is a kind of manufacturing approach of laminated electronic component; It is characterized in that; Comprise: telegraph circuit forms operation, and the film forming basis material that this telegraph circuit formation operation utilizes telegraph circuit formation portion that periphery has been implemented the continuous shape of annular of demoulding processing forms telegraph circuit; Film forming forms operation, and this film forming forms operation and utilizes film forming formation portion to above-mentioned film forming basis material coating ceramic size, covering above-mentioned telegraph circuit, and makes its drying, with the ceramic sheet material of formation with above-mentioned telegraph circuit; Laminate structure forms operation, and this laminate structure forms the laminate structure that operation forms above-mentioned ceramic sheet material; And the medium formation operation of filming, this medium is filmed and is formed operation and utilize the medium formation portion of filming filming because of the end difference on the laminate structure that forms the above-mentioned ceramic sheet material that above-mentioned telegraph circuit produces forms medium.

The present invention is a kind of manufacturing approach of laminated electronic component; It is characterized in that; Comprise: the medium formation operation of filming, this medium film form operation utilize medium film formation portion to periphery implemented annular that demoulding handles continuously the film forming basis material of shape form medium and film; Film forming forms operation, and this film forming forms operation and utilizes film forming formation portion to above-mentioned film forming basis material coating ceramic size, films to cover above-mentioned medium, and makes its drying, the ceramic sheet material of filming with above-mentioned medium with formation; Laminate structure forms operation, and this laminate structure forms the laminate structure that operation forms above-mentioned ceramic sheet material; And telegraph circuit forms operation, and this telegraph circuit forms operation and utilizes telegraph circuit formation portion on the laminate structure of the above-mentioned ceramic sheet material that is different from the position that above-mentioned medium films on the laminate structure of above-mentioned ceramic sheet material, to form telegraph circuit.

In this case, form in the operation, when forming the laminate structure of above-mentioned ceramic sheet material, preferably form and on above-mentioned film forming basis material, continue to form new above-mentioned ceramic sheet material in the operation in above-mentioned film forming with above-mentioned range upon range of supporting mass at above-mentioned laminate structure.

In this case; Form in the operation at above-mentioned laminate structure; Above-mentioned range upon range of supporting mass is contacted through above-mentioned ceramic sheet material with above-mentioned film forming basis material; Thereby above-mentioned ceramic sheet material is stripped down from above-mentioned film forming basis material, and the above-mentioned ceramic sheet material that will strip down is wound in the periphery of above-mentioned range upon range of supporting mass, thereby forms the laminate structure of above-mentioned ceramic sheet material.

In this case; Preferably include and transport operation; This transports operation and has the member of transporting; This transports member and is arranged between above-mentioned film forming basis material and the above-mentioned range upon range of supporting mass, and the above-mentioned member that transports is received in the above-mentioned ceramic sheet material that above-mentioned film forming basis material forms from above-mentioned film forming basis material, and the above-mentioned ceramic sheet material of being accepted is transported to above-mentioned range upon range of supporting mass.

In this case; Preferably forming operation and above-mentioned medium at above-mentioned telegraph circuit films and forms in the operation; Use not have the version printing equipment as above-mentioned telegraph circuit formation portion and the above-mentioned medium formation portion of filming, utilizes this nothing edition printing equipment to form above-mentioned telegraph circuit and above-mentioned medium is filmed.Particularly, preferably use ink-jet printing apparatus as there not being the version printing equipment.

According to the present invention, can eliminate the ladder between telegraph circuit, and make high-quality laminated electronic component.In addition, can not carry out intermittent running and turn round continuously, thereby improve the manufacturing efficient (manufacturing speed) of laminated electronic component.

That is, through utilizing the medium end difference between telegraph circuit on (dielectric material) landfill ceramic sheet material of filming, thereby can eliminate the end difference between telegraph circuit.Thus, incidental accumulation skew and bonding not good under the situation of the range upon range of quantity that increases ceramic sheet material can be prevented, in addition, unfavorable conditions such as fault of construction can be suppressed because of existing above-mentioned end difference to cause.

In addition, because ceramic sheet material forms on the film forming basis material continuously, therefore compare with the intermittence coating, the stability region of thickness is bigger, can cut apart as the number of electronic devices and components also more from resulting laminate structure.

Owing to carry out through continuous running, therefore can be in the shorter time form the laminate structure of ceramic sheet material with high production rate in the operation that forms ceramic sheet material on the film forming basis material, forming operation that telegraph circuit and medium film and the operation that on range upon range of supporting mass, forms the laminate structure of ceramic sheet material on the ceramic sheet material.

In addition, need as in the past, not use rectangular film substrate, and therefore can reduce the cost of intermediate materials.

In sum, can suppress the situation that electronic devices and components take place by the poor quality,, and pass through running continuously but not intermittent running, can improve the manufacturing efficient (speed of production) of laminated electronic component with low cost.

In addition; Because the present invention when forming the laminate structure of above-mentioned ceramic sheet material with above-mentioned range upon range of supporting mass, forms new above-mentioned ceramic sheet material, therefore continuously on above-mentioned film forming basis material; Can not utilize intermittent running, and utilize running continuously to form the laminate structure of ceramic sheet material.Thus, can form the laminate structure of ceramic sheet material with the extremely short time.Consequently, can improve the manufacturing efficient of the laminate structure of ceramic sheet material.

In addition, the present invention utilizes the medium formation portion of filming to form medium at the end difference that transports the ceramic sheet material on the member and film.Thus, owing to be the end difference that on the film forming basis material, has carried out dry ceramic sheet material to be formed medium film, therefore, can further improve the positional precision of the formation position that medium films.Consequently, can eliminate the end difference that betides on the ceramic sheet material really.

In addition, among the present invention, formation portion does not have the version printing equipment because above-mentioned telegraph circuit formation portion and above-mentioned medium are filmed, and the telegraph circuit and the medium that therefore can on each layer of ceramic sheet material, form different pattern are filmed.In addition; Even along with carrying out the range upon range of of ceramic sheet material on the range upon range of supporting mass; The size that flexible or range upon range of supporting mass take place ceramic sheet material changes, and also can adjust between the telegraph circuit and the spacing of medium between filming, and the telegraph circuit and the medium that form no position deviation are filmed.

Description of drawings

Fig. 1 is the key diagram of the laminated electronic component manufacturing installation of execution mode 1 of the present invention.

Fig. 2 is the key diagram of the position of the defective part on the expression ceramic sheet material.

Fig. 3 is the key diagram of the end difference (groove, recess) that produced between the telegraph circuit of expression on the ceramic sheet material.

Fig. 4 is the key diagram that telegraph circuit and the medium of expression on the ceramic sheet material filmed.

Fig. 5 is the key diagram of the laminated electronic component manufacturing installation of execution mode 2 of the present invention.

Fig. 6 is the key diagram of the laminated electronic component manufacturing installation of execution mode 3 of the present invention.

Fig. 7 is the key diagram of the laminated electronic component manufacturing installation of execution mode 4 of the present invention.

Fig. 8 is the key diagram of the laminated electronic component manufacturing installation of execution mode 5 of the present invention.

Fig. 9 is the key diagram of the laminated electronic component manufacturing installation of execution mode 6 of the present invention.

Figure 10 is the key diagram of the laminated electronic component manufacturing installation of execution mode 7 of the present invention.

Figure 11 is the key diagram of the laminated electronic component manufacturing installation of execution mode 8 of the present invention.

Figure 12 is the key diagram of the laminated electronic component manufacturing installation of execution mode 9 of the present invention.

Figure 13 is the key diagram of the laminated electronic component manufacturing installation of execution mode 10 of the present invention.

Figure 14 is the key diagram of the laminated electronic component manufacturing installation of execution mode 11 of the present invention.

Figure 15 is the key diagram of the laminated electronic component manufacturing installation of execution mode 12 of the present invention.

Figure 16 is the key diagram of the laminated electronic component manufacturing installation of execution mode 13 of the present invention.

Reference numeral

10 laminated electronic component manufacturing installations

12 application roll (film forming basis material)

14 range upon range of rollers (range upon range of supporting mass)

15 range upon range of rollers (range upon range of supporting mass)

16 one-tenth film units (film forming formation portion)

22 telegraph circuits form unit (telegraph circuit formation portion)

24 telegraph circuits

Transport roller (transporting member) in the middle of 30

Roller (transporting member) is transported in 32 printings

34 end differences

36 media are filmed

38 media are filmed and are formed unit (medium film formation portion)

40 transport endless belt (transporting member)

Transport roller (transporting member) in the middle of 42

Transport roller (transporting member) in the middle of 44

Transport roller (transporting member) in the middle of 50

Roller (transporting member) is transported in 52 printings

Transport roller (transporting member) in the middle of 54

Roller (transporting member) is transported in 56 printings

Transport roller (transporting member) in the middle of 58

Transport roller (transporting member) in the middle of 60

Roller (transporting member) is transported in 62 printings

Transport roller (transporting member) in the middle of 64

66 range upon range of (range upon range of supporting mass)

Transport roller (transporting member) in the middle of 68

Roller (transporting member) is transported in 70 printings

Transport roller (transporting member) in the middle of 72

Transport roller (transporting member) in the middle of 74

Roller (transporting member) is transported in 76 printings

Transport roller (transporting member) in the middle of 78

The S ceramic sheet material

The laminate structure of S ' ceramic sheet material

Embodiment

With reference to accompanying drawing, the laminated electronic component manufacturing installation of execution mode 1 of the present invention and the manufacturing approach of laminated electronic component are described.In addition, in " laminated electronic component " as manufacturing object of the present invention, comprise laminated electronic components such as laminated ceramic capacitor and laminated ceramic inductor.Below, enumerate laminated ceramic capacitor and describe as an example of laminated electronic component.

At first, the laminated electronic component manufacturing installation is described.

As shown in Figure 1, laminated electronic component manufacturing installation 10 mainly comprises: application roll 12 (film forming basis material), 12 pairs of surfaces of this application roll (outer peripheral face) are implemented the demoulding and are handled and form ceramic sheet material S; And range upon range of roller 14 (range upon range of supporting mass), the laminate structure S ' of formation ceramic sheet material S thereby this range upon range of roller 14 will be reeled from the ceramic sheet material S that application roll 12 strips down.

Around application roll 12, dispose: become film unit 16 (film forming formation portion), this one-tenth film unit 16 to be used for becoming the ceramic size of the material of ceramic sheet material S in the surface coated of application roll 12; Liquid-supply unit 18, this liquid-supply unit 18 are used for to becoming film unit 16 that ceramic size is provided; Dry solidification device 20, this dry solidification device 20 are used for making the dry and curing of lip-deep ceramic size of application roll 12; And the centre transports roller (transporting member) 30, and this centre is transported roller 30 and contacted with application roll 12 through ceramic sheet material S, is used for that the ceramic sheet material S on the application roll 12 is transported to printing and transports roller (transporting member) 32.In addition, printing is transported roller 32 and is transported roller 30 with the centre and contact through ceramic sheet material S.Printing transport roller 32 around, dispose: telegraph circuit forms unit 22 (telegraph circuit formation portion), this telegraph circuit forms unit 22 and is used on ceramic sheet material S, forming telegraph circuit 24 (with reference to Fig. 2); Medium is filmed and is formed unit 38 (medium film formation portion), and this medium is filmed and formed unit 38 and be used for forming medium and filming 36 because of forming end difference 34 (with reference to Fig. 3 and Fig. 4) that telegraph circuit 24 produces on the surface of ceramic sheet material S; Dry curing system 26, this drying curing system 26 are used to make telegraph circuit 24 and medium 36 dryings of filming; And range upon range of roller 14, this range upon range of roller 14 transports roller 32 through ceramic sheet material S with printing and contacts.

The laminated electronic component manufacturing installation 10 of this execution mode is characterised in that; Owing on ceramic sheet material S, form telegraph circuit 24; Thereby form medium at end difference 34 (result from recess or the ceramic sheet material S between telegraph circuit concavo-convex) and film 36; Reducing end difference 34, and will be formed with film 36 ceramic sheet material S of telegraph circuit 24 and medium and be wound in the outer peripheral face (range upon range of) of range upon range of roller 14, thereby form the laminate structure S ' of ceramic sheet material S.

, (become film unit 16 and telegraph circuit to form between the unit 22) here, dispose the dry dry solidification device 20 that also solidifies of lip-deep ceramic size that is used for making application roll 12 in the application roll direction of rotation downstream that becomes film unit 16.In addition, roller direction of rotation downstream is transported in the printing that forms unit 22 at telegraph circuit, disposes medium and films and form unit 38.In addition, transport roller direction of rotation downstream, dispose and be used to make telegraph circuit 24 and the medium 36 dry dry curing systems 26 of filming in the medium printing that forms unit 38 of filming.And, transport roller direction of rotation downstream in the printing of dry curing system 26, dispose range upon range of roller 14.

Particularly, application roll 12 has been implemented rigid body rollers such as metal (the cylindrical or cylindrical shape) formation that the demoulding is handled by the surface.Application roll 12 has the structure that is rotated driving by not shown drive source.In addition, the so-called demoulding is handled, and for example is equivalent to the processing of plating fluorine class etc.

Range upon range of roller 14 constitutes through pasting elastomer (for example resin film, elastic film, rubber, adhesive tab etc.) at the outer peripheral face of metal cylinder anchor clamps removably.These cylinder anchor clamps are installed in the rotating shaft, itself and application roll 12 are rotated synchronously.In addition, range upon range of roller 14 both can be the structure that is rotated driving by not shown drive source, also can be receive application roll 12 revolving force effect and thereupon the rotation structure.Range upon range of roller 14 pushes to application roll 32 with predetermined pressure (pushing force) through not shown pressure exerting arrangement.

Here, the outer perimeter of the outer perimeter of preferred coated roller 12 and range upon range of roller 14 is an equal length, or an integral multiple that outer perimeter is another outer perimeter in the outer perimeter of the outer perimeter of application roll 12 and range upon range of roller 14.

As becoming film unit 16, for example can adopt extrusion coated mode such as die type coating machine or scraper, roll coater, inkjet type coating machine etc.In addition, for the thickness that makes the ceramic sheet material S on the outer peripheral face that is formed at application roll 12 becomes thinner, preferably the die type coating machine is provided with the upper reaches mechanism of decompressor.By becoming 16 pairs of application roll 12 of film unit (intermittently non-) coating ceramic size continuously, thereby form ceramic sheet material S.Like this, can to same application roll 12 ceramic size be provided continuously.

As liquid-supply unit 18, for example can adopt gear pump.In addition, liquid-supply unit 18 is not limited to gear pump, also can suitably adopt cylinder type dispenser, membrane pump etc.

The centre is transported roller 30 and printing and is transported the function that roller 32 had and be, through method such as bonding, from before operation accept ceramic sheet material S, and the operation after the ceramic sheet material S that is accepted offered.The centre is transported that roller 30 and printing transport that roller 32 can suitably be selected the rigid body roller of metal or resin or is covered with the roller etc. of resin in surfaces coated.

Because being transported roller 30, the centre keep the power of ceramic sheet material S to be set at the power of transporting roller 32 maintenance ceramic sheet material S greater than the power of application roll 12 maintenance ceramic sheet material S and less than printing; Therefore; Ceramic sheet material S, application roll 12 is transported on the roller 30 in the middle of peeling off and remain on; Then, be transferred to printing and transport roller 32.Keep the power of ceramic sheet materials to set the power that keeps ceramic sheet material S less than range upon range of roller 14 for because roller 32 is transported in printing, so ceramic sheet material S can transport roller 32 from printing and peels off and be transferred on the range upon range of roller 14.The surface of elastomer of range upon range of roller 14 keeps ceramic sheet material S through methods such as bonding or Electrostatic Absorption.In addition, the ceramic sheet material S that is wound in range upon range of roller 14 be through with the lamella that overlaps each other crimping come to keep each other.Owing to will above-mentioned these confining forces set the power of transporting roller 32 maintenance ceramic sheet material S greater than printing for, so ceramic sheet material S can transport roller 32 from printing and peels off and be transferred on the range upon range of roller 14.

In detail, the centre is transported roller 30 and is had ceramic sheet material S is peeled off and it is transferred to the function that roller 32 is transported in printing from application roll 12.In addition, printing is transported roller 32 and is had and ceramic sheet material S is transported roller 30 peel off and it is transferred to the function of range upon range of roller 14 from the centre.In addition, the centre is transported roller 30 and printing to transport roller 32 also can be with ceramic sheet material S absorption (attracting or Electrostatic Absorption) thereby peels off peeling off of transporting and transport roller.At this moment, the centre is transported roller 30 and printing and is transported that roller 32 is preferred to be adopted the position of absorption ceramic sheet material S and do not adsorb the structure that the position of ceramic sheet material S is controlled.When application roll 12 is accepted ceramic sheet material S; Make the predetermined position that transports roller 30 with the contacted centre of ceramic sheet material S have adsorption function; The ceramic sheet material S that is accepted is being transferred to printing when transporting roller 32; Make the predetermined position that transports roller 30 with the contacted centre of ceramic sheet material S have not binding domain, thereby can successfully accept and transfer printing ceramic sheet material S.About above-mentioned adsorption function and binding domain not, printing is transported roller 32 too.Promptly; When transporting roller 30 from the centre and accept ceramic sheet material S; Make the predetermined position that transports roller 32 with the contacted printing of ceramic sheet material S have adsorption function; When the ceramic sheet material S that is accepted being transferred to range upon range of roller 14, making the predetermined position that transports roller 32 with the contacted printing of ceramic sheet material S have not binding domain, thereby can successfully accept and transfer printing ceramic sheet material S.

In addition, in this execution mode, ceramic sheet material S formation telegraph circuit 24 and medium that printing is transported on the roller 32 are filmed 36.

Form unit 22 as telegraph circuit, for example can adopt ink-jet printing apparatus.Telegraph circuit forms that unit 22 is preferred not to have version printing elements, but also can the dried telegraph circuit 24 of transfer printing, and is irrelevant with methods such as intaglio printing, intaglio offsets.In addition, telegraph circuit formation unit 22 employed electrode material printing ink for example can use and in organic solvent, dissolve the material that is dispersed with Ni powder (nickel by powder) and resin.It also can be the material that in ultra-violet solidified resin, is dispersed with the Ni powder.Particularly, film, preferably use the lower solvent of swelling capacity for pottery.In addition, solvent also can be the water class.

Filming as medium forms unit 38, for example can adopt ink-jet printing apparatus.Medium is filmed and formed unit 38 preferred nothing version printing elements, but also can film by the dried medium of transfer printing, and is irrelevant with methods such as intaglio printing, intaglio offset, photogravure, heliogravure offset printing, rotary screen printings.In addition, medium is filmed and is formed unit 38 employed dielectric materials and are ceramic inks, for example are that the material that ceramic powders and resin are arranged is decomposed in dissolving in organic solvent.Also can use the material that in ultraviolet curable resin, has disperseed ceramic powders.Particularly, film, preferably use the lower solvent of swelling capacity for pottery.In addition, solvent also can be the water class.

As dry solidification device 20,26, can adopt the method for for example utilizing hot blast to carry out dry method or the outer peripheral face of application roll 12 is heated.Under the situation of using ultra-violet solidified resin, also can make its curing by irradiation ultraviolet radiation. Dry solidification device 20,26 is used for making ceramic size and electrode material ink setting or the curing that is coated with.In addition, be used for making the dry solidification device 20 of the ceramic size dry solidification on the application roll 12 also can use the vacuumize unit.Dry solidification device 26 is used to make and is formed at printing and transports telegraph circuit 24 and the medium of the ceramic sheet material S on the roller 32 36 dryings of filming.

As ceramic size, for example can be employed in and dissolve the material that has disperseed ceramic powders and resin in the organic solvent.Also can use the material that in ultraviolet curable resin, has disperseed ceramic powders.In addition, solvent also can be the water class.

Then, the manufacturing approach to the laminate structure S ' of the ceramic sheet material S that uses laminated electronic component manufacturing installation 10 describes.

Make application roll 12 rotations of having implemented demoulding processing with predetermined speed, utilize into film unit 16 its outer peripheral face coating ceramic size.In addition, use gear pump that ceramic size is provided as liquid-supply unit 18.Then, use dry solidification device 20 on application roll 12, ceramic size to be carried out drying and makes its curing.Here, carry out drying, use the hot blast of predetermined temperature in order to utilize 20 pairs of ceramic sizes of dry solidification device.Also heat with thermoregulator in addition or cool off and adjust temperature, so that the temperature of the outer peripheral face of application roll 12 is suitable.In addition, according to the material of ceramic sheet material S these temperature are suitably adjusted.Through like this, utilize into film unit 16 and liquid-supply unit 18, to application roll 12 ceramic size is provided continuously, thereby continues to form ceramic sheet material S.With film 36 ceramic sheet material S of do not print electrode circuit 24 and the medium of range upon range of roller 14 coiling predetermined number of layers, form the outer portion of laminate structure S '.

Then, transport roller 30 in the middle of utilizing the ceramic sheet material S on the application roll 12 is peeled off from application roll 12, and be transported to printing and transport roller 32.Thus, ceramic sheet material S moves to print and transports on the roller 32.Move to printing and transport the rotation that the ceramic sheet material S on the roller 32 transports roller 32 with printing and move, arrive telegraph circuit form unit 22 (for example, ink jet printing) under.Then, form the ceramic sheet material S coating electrode material printing ink on the 22 pairs of application roll 12 in unit by telegraph circuit, with the telegraph circuit (internal electrode circuit) 24 that prints predetermined pictorial pattern.Printing is transported the outer peripheral face of roller 32 through thermoregulator adjustment temperature, to reach suitable temperature.

Then, the ceramic sheet material S that is formed with telegraph circuit 24 moves with the rotation that roller 32 is transported in printing, arrive medium film form unit 38 (for example, ink jet printing) under.Then, by the end difference coating ceramic ink that medium is filmed and formed the ceramic sheet material S on the 38 pairs of application roll 12 in unit, film 36 with the medium that prints predetermined pictorial pattern.Here, film 36 formation position of medium is the recess between the telegraph circuit 24 that is formed on the ceramic sheet material S.That is, as shown in Figure 3, if on ceramic sheet material S, form telegraph circuit 24, it is concavo-convex that then ceramic sheet material S goes up appearance, promptly produces end difference 34.As shown in Figure 4, medium to be filmed 36 printings to the end difference 34 that is formed between this telegraph circuit 24, thereby lower end difference (recess) 34, the surface of ceramic sheet material S becomes smooth.

Then, film after 36 at the circuit that prints electrode (internal electrode circuit) 24 and medium, from dry solidification device 26 to telegraph circuit 24 and medium film 36 blow out predetermined temperature hot blast, make telegraph circuit 24 and medium 36 dryings of filming.Here, in the formation operation of telegraph circuit 24, when being wound in the outer peripheral face of range upon range of roller 14, changing pictorial pattern and shape and carry out the electrode printing, so that the telegraph circuit 24 of each layer (each week) becomes comparative electrode.In addition, in medium is filmed 36 formation operation, when being wound in the outer peripheral face of range upon range of roller 14, changing pictorial pattern and shape and print, so that the medium of each layer (each week) is filmed and 36 become comparative electrode.Thus, formation telegraph circuit 24 of the ceramic sheet material S on the application roll 12 and medium are filmed 36.

Then, range upon range of roller 14 is pressurizeed, it is contacted with application roll 12 with predetermined plus-pressure.In addition, above-mentioned plus-pressure need suitably be adjusted according to the material of ceramic sheet material S.Then, with peeling off from the outer peripheral face of overlay 12 of the outer peripheral face that is formed at application roll 12, it is transferred on the outer peripheral face of range upon range of roller 14 and reels through dried ceramic sheet material S (formed telegraph circuit and medium is filmed).Here; Because the outer peripheral face of application roll 12 has been implemented demoulding processing; And the plus-pressure with predetermined makes range upon range of roller 14 contact with application roll 12; Therefore be formed at the peeling off from the outer peripheral face of application roll 12 easily of outer peripheral face of application roll 12, and be transferred to the outer peripheral face side of range upon range of roller 14 through dried ceramic sheet material S.Range upon range of roller 14 is the outer peripheral face coiling resin films at metal cylinder type anchor clamps, and adjusts the temperature of its outer peripheral face, makes it reach predetermined temperature.The temperature of outer peripheral face need suitably be adjusted according to the material of ceramic sheet material S.

After the ceramic sheet material S with range upon range of roller 14 coiling predetermined number of layers, telegraph circuit forms unit 22 circuit 24 that stops to print electrode, and medium is filmed and formed unit 38 and stop printed medium and film 36.。Then, do not print electrode circuit 24 and the medium of coiling predetermined number of layers 36 the ceramic sheet material S that films on range upon range of roller 14 forms the outer portion of laminate structure S '.Then; Stop ceramic size being provided to application roll 12; The formation of the laminate structure S ' of ceramic sheet material S finishes; Or make the outer peripheral face of other range upon range of rollers and application roll 12 add press contacts through switching mechanism, replace range upon range of roller 14, thereby at the outer peripheral face coiling ceramic sheet material S of application roll (having formed the ceramic sheet material S after telegraph circuit 24 and medium are filmed).Thus, form the laminate structure S ' of ceramic sheet material S.

And laminate structure S ' and the cylinder type anchor clamps that also will be formed at the ceramic sheet material S of range upon range of roller 14 (or range upon range of roller 15) together take off, and with regard to the punching press of pressurizeing of original drum, and utilize cutting machine to cut into shaped like chips.Afterwards, through burning till, form telegraph circuit common manufacturing process such as (outer electrode circuit), produce laminated ceramic capacitor.

In addition, like Fig. 3 and shown in Figure 4, if on ceramic sheet material S, form telegraph circuit 24; Then can between telegraph circuit 24, produce recess; Thereby can on ceramic sheet material S, produce end difference 34 (recess), but, then can reduce end difference 34 through 36 (ceramic materials) of filming at these end difference 34 printed mediums.Like this; Through utilizing the medium end difference 34 between the 36 landfill telegraph circuits of filming; Thereby can prevent incidental accumulation skew and bonding not good under range upon range of several situation about increasing of ceramic sheet material S, in addition, can suppress fault of construction because of existing end difference 34 to cause.Consequently, can prevent the not good problem of electronic devices and components generation quality of manufacturing.In addition, medium is filmed 36 critical with the formation sequence independence of telegraph circuit 24.In addition, medium film form unit 38 be provided with position and telegraph circuit formation unit 22 that the position is set is also unimportant.

Particularly, form telegraph circuit 24 and film 36, thereby can improve film 36 positional precision of telegraph circuit 24 and medium with medium through transporting on the roller 32 in printing in roughly the same timing.Thus, even detecting units such as CCD camera are not set in addition, also can make the laminate structure S ' of high-precision ceramic sheet material S.

In addition; When thereby the outer peripheral face that ceramic sheet material S peeled off and be wound in range upon range of roller 14 from application roll 12 forms the laminate structure S ' of ceramic sheet material S; Owing on application roll 12, continue to form new ceramic sheet material S, so the formation of the ceramic sheet material S on the application roll 12, carry out simultaneously with the formation of laminate structure S ' of ceramic sheet material S on the range upon range of roller 14.Thereby, need not to suspend the rotation driving of application roll 12, can form ceramic sheet material S continuously, also need not to suspend the rotation driving of range upon range of roller 14, can make the laminate structure S ' of ceramic sheet material S continuously.Thus, can form the laminate structure S ' of ceramic sheet material S through continuous running rather than intermittent running.The result is, can in the extreme time, form the laminate structure S ' of ceramic sheet material S, can improve the manufacturing efficient of the laminate structure S ' of ceramic sheet material S.

In addition; Because ceramic sheet material S is formed on the application roll 12 as rigid body; Being formed into the range upon range of operation of sheet material from sheet material all is to be transported on one side by application roll 12 or transfer roll 14 one side supporting slice faces; Therefore, even use thin and low intensive ceramic sheet material S, also can suppress ceramic sheet material S and take place damaged or scuffing.Consequently, can improve the operability of thin and low intensive ceramic sheet material S.

In addition, compare, can obtain film thickness uniformity and the high production rate of ceramic sheet material S with the method for known intermittent coating ceramic size.That is,, therefore compare, can enlarge the stability region of thickness with the intermittence coating because the laminate structure S ' of ceramic sheet material S forms sheet material continuously.Consequently, can obtain stay-in-grade electronic devices and components from the laminate structure S ' of ceramic sheet material S.The laminate structure per unit volume of ceramic sheet material S the number of getable electronic devices and components more.

In addition; In this execution mode; Owing to need not to use the intermediate consumption material of disposable base material (PET film etc.), can cut down the intermediate materials cost that comprises keeping, transportation etc., therefore; Can significantly reduce the manufacturing cost of the laminate structure S ' of ceramic sheet material S, and then significantly reduce the manufacturing cost of electronic devices and components.

In addition; In this execution mode; Through film formation process, printing process, ladder elimination operation and range upon range of operation are coupled together; Only need the ceramic sheet material S that forms aequum get final product, can be as in the past transport on the path generation loss or produce range upon range of terminal number etc., so can try hard to reduce spillage of material range upon range of.

In addition; In this execution mode; Form telegraph circuit 24 before the outer peripheral face that ceramic sheet material S is laminated to range upon range of roller 14 and medium films 36; In other words, be on ceramic sheet material S, to have formed telegraph circuit 24 and medium is filmed after 36, carry out range upon range of with forming the outer peripheral face that ceramic sheet material S that telegraph circuit and medium film is wound in range upon range of roller 14.Thus; If after ceramic sheet material S is laminated to the outer peripheral face of range upon range of roller 14; On ceramic sheet material S, form telegraph circuit 24 and medium again and film 36, then the ceramic sheet material S of lower floor goes up the telegraph circuit 24 that forms and medium and films 36 or being formed with ceramic sheet material S that telegraph circuit and medium film and can being coated with the former of membrane solvent thereby producing the sheet material etch because of electrode solvent and medium of lower floor.As according to the invention,, can reduce problems such as short circuit or IR (insulation resistance is not good) be not good if, then can the influence of sheet material etch be controlled at the only bottom line of individual layer at the state of the ceramic sheet material of individual layer formation telegraph circuit down.

Particularly; 36 the formation because formation and the telegraph circuit 24 and the medium that on application roll 12, carry out ceramic sheet material S are simultaneously filmed; Therefore can make one whole equipment become compact very simply, can reduce equipment price and reduce area, can also improve the reliability of equipment.

In addition,,, therefore need not on dried ceramic sheet material S, to be coated with ceramic size, can the sheet material etch not take place because of dissolving again at the range upon range of roller 14 laminated ceramic sheet material S that are provided with in addition owing on application roll 12, make ceramic size dry.

In addition, through using nothings edition print processes such as ink-jet to form telegraph circuit 24 and medium films 36, can be formed in the telegraph circuit 24 and the medium that all have different electrode patterns on each layer of ceramic sheet material S and film 36.Particularly; Owing to be accompanied by range upon range of that ceramic sheet material S carries out; Increase even the deformation of ceramic sheet material S or the girths such as external diameter increase of range upon range of roller S take place, also can freely change telegraph circuit 24 and medium film 36 pattern with form the position, therefore; Can suitably adjust between the telegraph circuit 24 and the medium spacing (at interval) between 36 of filming, film 36 with medium thereby can form the telegraph circuit 24 that does not have offset.

Particularly,, therefore, can not receive the influence of the state of range upon range of roller 14 1 sides, and ceramic sheet material S peeled off, can stably operate from application roll 12 owing to transporting roller 30 in the middle of between application roll 12 and range upon range of roller 14, existing and printing and transport roller 32.Particularly, if on range upon range of roller 14, form the laminate structure S ' of ceramic sheet material S, the size that comprises ceramic sheet material (external diameter) that range upon range of roller 14 then can take place becomes the state variation on the profile such as big.Yet; Transport roller 30 in the middle of having between application roll 12 and the range upon range of roller 14 and transport roller 32 through making with printing; Can be according to the state variation of above-mentioned range upon range of roller 14, suitably adjust range upon range of roller 14 and middle and transport roller 30 and printing and transport position relation and pressure etc. between the roller 32.The laminate structure S ' that thus, can prevent to be formed at the ceramic sheet material S on the range upon range of roller 14 causes degradation because of the state variation of range upon range of roller 14.In addition; Through range upon range of roller 14 is designed to directly not contact with application roll 12; Can prevent state variation along with range upon range of roller 14; And make 14 pairs of ceramic sheet materials that are formed on the coating roller 12 of range upon range of roller cause damage, can prevent the degradation of ceramic sheet material S, and then prevent the degradation of electronic devices and components.

In addition, owing to transporting roller 32 through transporting roller 30 in the middle of being provided with printing, will application roll 12 not form maximization, it is elongated just to make ceramic sheet material S be transported to range upon range of roller 14 mobile route before, therefore, can increase the drying time of ceramic sheet material S.And, owing on coating roller 12, continue the coating ceramic size continuously, therefore, can make ceramic sheet material S transport roller 32 with printing and transport to the mobile process till the range upon range of roller 14 and carry out continuously through the middle roller 30 that transports from application roll 12.Consequently, can improve the speed of service of equipment, can improve the manufacturing speed (manufacturing efficient) of ceramic sheet material S, can improve the manufacturing efficient of the laminate structure S ' of ceramic sheet material S, and then improve the manufacturing efficient of electronic devices and components.

And, as shown in Figure 4, transport on the ceramic sheet material S on the roller 32 in printing and to form telegraph circuit 24 and medium films 36.Thus, owing to be that ceramic sheet material S really dry on application roll 12 is formed telegraph circuit 24 and medium films 36, therefore, can further improve the film positional precision of 36 formation position of telegraph circuit 24 and medium.On the contrary, if semiarid ceramic sheet material S is formed telegraph circuit 24 and medium films 36, then owing to become the ceramic sheet material S of bottom deformation etc. can take place, also might squint in film 36 position of telegraph circuit 24 that forms above that and medium.In order to address the above problem, ceramic sheet material S dry really on application roll 12 is formed telegraph circuit 24 to this execution mode and medium films 36.

Particularly, film when forming unit 38 and adopting ink-jetting styles when telegraph circuit forms unit 22 and medium, because the quantity of solvent of printing ink is more, so printing ink is difficult to drying.So; Form telegraph circuit 24 and medium films 36 through transporting in printing on the roller 32; Even thereby do not use large diameter roller, also can make the displacement of ceramic sheet material S elongated, can increase the telegraph circuit 24 that is used for making on the ceramic sheet material S and medium and film for 36 dry times.Therefore, using telegraph circuit 24 that ink-jetting style forms and medium to film 36 quality can be not uneven, can keep the high-quality of electronic devices and components.

In addition, in execution mode 1, application roll 12 is corresponding with " film forming basis material " of the present invention, and range upon range of roller 14 is corresponding with " range upon range of supporting mass " of the present invention.In addition, it is corresponding with " telegraph circuit formation portion " of the present invention that the telegraph circuit of execution mode 1 forms unit 22.In addition, the medium of execution mode 1 is filmed, and to form unit 38 corresponding with " medium film formation portion " of the present invention.In addition, the centre of execution mode 1 is transported roller 30 and printing to transport roller 32 corresponding with " transporting member " of the present invention.

Then, with reference to accompanying drawing, the laminated electronic component manufacturing installation of execution mode 2 of the present invention and the manufacturing approach of laminated electronic component are described.In addition, to the identical label of structure mark that repeats with the structure of execution mode 1, and omit the structure of repetition and the explanation of action effect.

Like Fig. 3, Fig. 4, and shown in Figure 5, in the execution mode 2, ceramic sheet material S is formed telegraph circuit 24 and medium 36 (with reference to the Fig. 4) that film transporting on the endless belt (transporting member) 40.That is to say that application roll 12 and centre are transported roller (transporting member) 42 and contacted through ceramic sheet material S.In addition, the centre is transported roller 42 and is transported endless belt 40 and contact through ceramic sheet material S.In addition, transporting endless belt 40 and centre transports roller (transporting member) 44 and contacts through ceramic sheet material S.The centre is transported roller 44 and is contacted through ceramic sheet material S with range upon range of roller 15 these two range upon range of rollers with range upon range of roller 14.Range upon range of roller 14 contacts through ceramic sheet material S respectively with two pressure rollers 46,48 with range upon range of roller 15 these two range upon range of rollers.Thus, at the range upon range of roller of application roll 12 and each 14, between 15, transport roller 42 in the middle of existing, transport endless belt 40 and roller 44 is transported in the centre.Therefore, application roll 12 and each range upon range of roller 14,15 are in the state (can pass through the state of mechanical system transferring power) of indirect contact.

In addition, around application roll 12, dispose: become film unit 16 (film forming formation portion), this one-tenth film unit 16 to be used for becoming the ceramic size of the material of ceramic sheet material S in the surface coated of application roll 12; Liquid-supply unit 18, this liquid-supply unit 18 are used for to becoming film unit 16 that ceramic size is provided; Dry solidification device 20, this dry solidification device 20 are positioned at into the application roll direction of rotation downstream of film unit 16, are used for making the dry and curing of lip-deep ceramic size of application roll 12; And roller 42 is transported in above-mentioned centre.In addition; Transport endless belt 40 around; Dispose: telegraph circuit forms unit 22 (telegraph circuit formation portion), and this telegraph circuit forms unit 22 and is used for going up formation telegraph circuit 24 at (range upon range of) the ceramic sheet material S before the outer peripheral face of range upon range of roller 14,15 that will reel; What dry solidification device 26, this dry solidification device 26 were positioned at that telegraph circuit forms unit 22 transports endless belt direction of rotation downstream, is used for making telegraph circuit 24 dryings; And roller 44 is transported in above-mentioned centre.

In detail, the centre transport roller 42 have with ceramic sheet material S from application roll 12 peel off and with its transfer printing (transporting) to the function of transporting endless belt 40.Transport endless belt 40 have with ceramic sheet material S transport from the centre that roller 42 is peeled off and it is transferred in the middle of transport roller 44 function.In addition, the centre is transported roller 44 and is had ceramic sheet material S from transporting endless belt 40 and peel off and it being transferred to the function of range upon range of roller 14 (or range upon range of roller 15).

Particularly, in execution mode 2, it is characterized in that, promptly transport on the endless belt 40 transporting member, ceramic sheet material S is formed telegraph circuit 24 and medium films 36.

In the execution mode 2, utilize into film unit 16 and to the outer peripheral face of application roll 12 ceramic size is provided with liquid-supply unit 18.Then, use dry solidification device 20 on application roll 12, ceramic size to be carried out dry solidification.Thus, form ceramic sheet material S.In addition, move to the ceramic sheet material S that transports on the endless belt 40 for transporting roller 42 via the centre, form unit 22 (for example ink jet printing) to its coating electrode material printing ink, with the telegraph circuit 24 that prints predetermined pictorial pattern from telegraph circuit from application roll 12.Then, being filmed by medium forms the ceramic sheet material S coating ceramic ink (ceramic material) that 38 pairs of unit are formed with telegraph circuit 24, films 36 at the medium that is formed at the predetermined pictorial pattern of end difference 34 printings between the telegraph circuit 24.Film after 36 having printed telegraph circuit 24 and medium, to transporting the warm braw that ceramic sheet material S on the endless belt 40 blows out predetermined temperature, make telegraph circuit 24 and medium 36 dryings of filming from dry solidification device 26.Thus, the ceramic sheet material S that transports on the endless belt 40 is formed telegraph circuit 24, form media at the end difference that produces because of formation telegraph circuit 24 34 and film 36.Afterwards, be formed with film 36 ceramic sheet material S of telegraph circuit 24 and medium and transported roller 44 by the centre and accept, be wound in the outer peripheral face of range upon range of roller 14 and carry out range upon range of.Thus, form the laminate structure S ' of ceramic sheet material S.Like this, in execution mode 2, also be to have filmed after 36 having formed telegraph circuit 24 and medium on the ceramic sheet material S, last, make to form the ceramic sheet material S that telegraph circuit and medium film and be wound in the outer peripheral face of range upon range of roller 14 and carry out range upon range of.

According to execution mode 2,, therefore can enlarge the arid region (can utilize dry solidification device 26 to carry out dry zone) of the ceramic sheet material S that transports on the endless belt 40 owing to longer than the outer perimeter of application roll 12 as the outer perimeter that transports endless belt 40 of rectangular belt.Thereby, can make telegraph circuit 24 and the medium of the ceramic sheet material S on the ceramic sheet material S 36 the formation speed (also comprising rate of drying) of filming accelerate, and then improve the manufacturing speed of electronic devices and components.

Particularly, film when forming unit 38 and adopting ink-jetting styles when telegraph circuit forms unit 22 and medium, because the quantity of solvent of printing ink is more, so printing ink is difficult to drying.So; Adopt through 36 printing position that telegraph circuit 24 and medium are filmed and to transport endless belt 40; Even thereby do not use large diameter roller, also can make the displacement of ceramic sheet material S elongated, can increase the telegraph circuit 24 that is used for making on the ceramic sheet material S and medium and film for 36 dry times.Therefore, using telegraph circuit 24 that ink-jetting style forms and medium to film 36 quality can be not uneven, can keep the high-quality of electronic devices and components.

In addition, in execution mode 2, application roll 12 is corresponding with " film forming basis material " of the present invention, and range upon range of roller 14,15 is corresponding with " range upon range of supporting mass " of the present invention.In addition, it is corresponding with " telegraph circuit formation portion " of the present invention that the telegraph circuit of execution mode 2 forms unit 22.In addition, the medium of execution mode 2 is filmed, and to form unit 38 corresponding with " medium film formation portion " of the present invention.In addition, roller 42 is transported in the centre of execution mode 2, transporting endless belt 40 and centre, to transport roller corresponding with " transporting member " of the present invention.

Then, with reference to accompanying drawing, the laminated electronic component manufacturing installation of execution mode 3 of the present invention and the manufacturing approach of laminated electronic component are described.In addition, to the identical label of structure mark that repeats with the structure of above-mentioned each execution mode, and omit the structure of repetition and the explanation of action effect.

Like Fig. 3, Fig. 4, and shown in Figure 6, the laminated electronic component manufacturing installation of execution mode 3 mainly comprises: application roll 12 (film forming basis material), 12 pairs of surfaces of this application roll (outer peripheral face) are implemented the demoulding and are handled and also form ceramic sheet material S; And range upon range of roller 14,15 (range upon range of supporting mass), the laminate structure S ' of formation ceramic sheet material S thereby this range upon range of roller 14,15 will be reeled from the ceramic sheet material S that application roll 12 strips down.

Around application roll 12, dispose: become film unit 16 (film forming formation portion), this one-tenth film unit 16 to be used for becoming the ceramic size of the material of ceramic sheet material S in the surface coated of application roll 12; Liquid-supply unit 18, this liquid-supply unit 18 are used for to becoming film unit 16 to supply with ceramic size; Dry solidification device 20, this dry solidification device 20 are used for making the dry and curing of lip-deep ceramic size of application roll 12; Telegraph circuit forms unit 22 (telegraph circuit formation portion), and this telegraph circuit forms unit 22 and is used for going up formation telegraph circuit 24 (with reference to Fig. 2) at (range upon range of) the ceramic sheet material S before the outer peripheral face of range upon range of roller 14,15 that will reel; Medium is filmed and is formed unit 38 (medium film formation portion), and this medium is filmed and formed unit 38 and be used for end difference 34 (with reference to Fig. 3) at the ceramic sheet material S that is formed with telegraph circuit 24 and form medium 36 (with reference to the Fig. 4) that film; Dry solidification device 26, this dry solidification device 26 are used for making telegraph circuit 24 and medium 36 dryings of filming; And above-mentioned range upon range of roller 14,15.

The laminated electronic component manufacturing installation of this execution mode is characterised in that; Formation telegraph circuit 24 and medium film 36 on the ceramic sheet material S before the outer peripheral face that will be wound in range upon range of roller 14,15; To be formed with film 36 ceramic sheet material S of telegraph circuit 24 and medium then and be wound up into the outer peripheral face of range upon range of roller 14,15, thereby form the laminate structure S ' of ceramic sheet material S.

Then, the manufacturing approach to the laminate structure S ' of the ceramic sheet material S that uses laminated electronic component manufacturing installation 10 describes.

Make application roll 12 rotations of having implemented demoulding processing with predetermined speed, utilize into film unit 16 its outer peripheral face coating ceramic size.In addition, use gear pump that ceramic size is provided as liquid-supply unit 18.Then, use dry solidification device 20 on application roll 12, ceramic size to be carried out drying and makes its curing.With film 36 ceramic sheet material S of do not print electrode circuit 24 and the medium of range upon range of roller 14 coiling predetermined number of layers, form the outer portion of laminate structure S '.

Then, form unit 22 (for example, ink jet printing) to the coating of the ceramic sheet material S on the application roll 12 electrode material printing ink, with the telegraph circuit (internal electrode circuit) 24 that prints predetermined pictorial pattern by telegraph circuit.Then; Being filmed by medium forms the ceramic sheet material S coating ceramic ink (ceramic material) that 38 pairs of unit are formed with telegraph circuit 24, at the medium that is formed at the predetermined pictorial pattern of end difference 34 (recess) printing between the telegraph circuit 24 36 (with reference to Fig. 3 and the Fig. 4) that film.Film after 36 having printed telegraph circuit 24 and medium, blow out the warm braw of predetermined temperature, make telegraph circuit 24 and medium 36 dryings of filming by dry solidification device 26.Here, film 36 the operation that respectively forms of telegraph circuit 24 and medium is when the outer peripheral face of range upon range of roller 14,15 is reeled, and changes pictorial pattern and prints, so that telegraph circuit 24 of each layer (each week) and medium are filmed and 36 become comparative electrode.Thus, formation telegraph circuit 24 of the ceramic sheet material S on the application roll 12 and medium are filmed 36.

Then, with peeling off from the outer peripheral face of overlay 12 of the outer peripheral face that is formed at application roll 12, it is transferred on the outer peripheral face of range upon range of roller 14 and reels through dried ceramic sheet material S (formed telegraph circuit and medium is filmed).Here; Because the outer peripheral face of application roll 12 has been implemented demoulding processing; And the plus-pressure with predetermined makes range upon range of roller 14 contact with application roll 12; Therefore be formed at the peeling off from the outer peripheral face of application roll 12 easily of outer peripheral face of application roll 12, and be transferred to the outer peripheral face of range upon range of roller 14 through dried ceramic sheet material S.

After the ceramic sheet material S with range upon range of roller 14 coiling predetermined number of layers, telegraph circuit forms unit 22 circuit 24 that stops to print electrode, and medium is filmed and formed unit 38 (for example, ink jet printing) and stop printed medium and film 36.Then, do not print electrode circuit 24 and the medium of coiling predetermined number of layers 36 the ceramic sheet material S that films on range upon range of roller 14 forms the outer portion of laminate structure S '.Then; Stop ceramic size being provided to application roll 12; The formation of the laminate structure S ' of ceramic sheet material S finishes; Or make the range upon range of roller 15 and the outer peripheral face of application roll 12 add press contacts through switching mechanism, replace range upon range of roller 14, thereby the outer peripheral face coiling ceramic sheet material S of range upon range of roller 15 (formed telegraph circuit 24 and medium film the ceramic sheet material S after 36).Thus, form the laminate structure S ' of ceramic sheet material S.

Laminate structure S ' and the cylinder type anchor clamps that also will be formed at the ceramic sheet material S of range upon range of roller 14 together take off, and with regard to the punching press of pressurizeing of original drum, and utilize cutting machine to cut into shaped like chips.Afterwards, through burning till, form telegraph circuit common manufacturing process such as (outer electrode circuit), produce laminated ceramic capacitor.

According to execution mode 3, particularly, do not transport member owing to all need not transport roller etc., therefore, can make device miniaturization.Consequently, can reduce the manufacturing cost of electronic devices and components.In addition; Owing to can shorten from forming ceramic sheet material S and play the displacement that it is wound to the ceramic sheet material S till the range upon range of roller 14; Therefore the structure S ' of ceramic sheet material S can be made with the short time, and then the manufacturing speed (manufacturing efficient) of electronic devices and components can be improved.

In addition, in execution mode 3, application roll 12 is corresponding with " film forming basis material " of the present invention, and range upon range of roller 14,15 is corresponding with " range upon range of supporting mass " of the present invention.In addition, it is corresponding with " telegraph circuit formation portion " of the present invention that the telegraph circuit of execution mode 3 forms unit 22.In addition, the medium of execution mode 3 is filmed, and to form unit 38 corresponding with " medium film formation portion " of the present invention.

Then, with reference to accompanying drawing, the laminated electronic component manufacturing installation of execution mode 4 of the present invention and the manufacturing approach of laminated electronic component are described.In addition, to the identical label of structure mark that repeats with the structure of each execution mode, and omit the structure of repetition and the explanation of action effect.

Like Fig. 3, Fig. 4, and shown in Figure 7, in the execution mode 4, application roll 12 and centre are transported roller (transporting member) 50 and are contacted through ceramic sheet material S.In addition, the centre is transported roller 50 and on outer peripheral face, ceramic sheet material S is formed film 36 printing of medium and transport roller (transporting member) 52 and contact through ceramic sheet material S.Printing is transported roller 52 and centre and is transported roller (transporting member) 54 and contact through ceramic sheet material S.The centre is transported roller 54 and the printing that on outer peripheral face, ceramic sheet material S is formed telegraph circuit 24 and is transported roller (transporting member) 56 and contact through ceramic sheet material S.Printing is transported roller (transporting member) 56 and centre and is transported roller (transporting member) 58 and contact through ceramic sheet material S.The centre is transported roller 58 and is contacted through ceramic sheet material S with range upon range of roller 14.Range upon range of roller 14 and two pressure rollers 46,48 contact through ceramic sheet material S.Thus, between application roll 12 and each range upon range of roller 14, transport in the middle of existing roller 50, printing transport roller 52, centre transport roller 54, printing transport roller (transporting member) 56, and in the middle of transport roller 58.Therefore, application roll 12 and each range upon range of roller 14 are in the state (can pass through the state of mechanical system transferring power) of indirect contact.

In addition, around application roll 12, dispose: become film unit 16 (film forming formation portion), this one-tenth film unit 16 to be used for becoming the ceramic size of the material of ceramic sheet material S in the surface coated of application roll 12; Liquid-supply unit 18, this liquid-supply unit 18 are used for to becoming film unit 16 that ceramic size is provided; Dry solidification device 20, this dry solidification device 20 are positioned at into the application roll direction of rotation downstream of film unit 16, are used for making the dry and curing of lip-deep ceramic size of application roll 12; And roller 50 is transported in the centre.In addition; Printing transport roller 52 around; Dispose: medium is filmed and is formed unit 38 (medium film formation portion), and this telegraph circuit forms unit 38 and is used for going up at (range upon range of) the ceramic sheet material S before the outer peripheral face of range upon range of roller 14 that will reel and forms medium and film 36; Dry solidification device 26A, this dry solidification device 26A are used for making medium 36 dryings of filming; And roller 50 is transported in above-mentioned centre and roller 54 is transported in the centre.In addition; Printing transport roller (transporting member) 56 around; Dispose: telegraph circuit forms unit 22 (telegraph circuit formation portion), and this telegraph circuit forms unit 22 and is used for going up formation telegraph circuit 24 at (range upon range of) the ceramic sheet material S before the outer peripheral face of range upon range of roller 14 that will reel; Dry solidification device 26B, this dry solidification device 26B is used for making telegraph circuit 24 dryings; And roller 54 is transported in above-mentioned centre and roller 58 is transported in the centre.

In the execution mode 4, utilize into film unit 16 and to the outer peripheral face of application roll 12 ceramic size is provided with liquid-supply unit 18.Then, use dry solidification device 20 on application roll 12, ceramic size to be carried out dry solidification.Thus, form ceramic sheet material S.Ceramic sheet material S on the application roll 12 transports roller 50 via the centre and moves to printing and transport roller 52.Transport the ceramic sheet material S on the roller 52 for printing, the medium that utilizes medium to film to form unit 38 (medium film formation portion) to form pattern that (printing) be scheduled to films 36.In addition, carry out Position Control to forming film 36 position of medium, make its become after the end difference 34 that produces between the telegraph circuit 24 that forms in the operation.Utilize dry solidification device 26A make this medium film 36 transport on the roller 52 in printing dry.Thus, being formed with film 36 ceramic sheet material S of medium transports roller 54 via the centre and moves to printing and transport roller (transporting member) 56.Transport the ceramic sheet material S on the roller (transporting member) 56 for printing, utilize telegraph circuit to form the telegraph circuit 24 that unit 22 (telegraph circuit formation portion) forms (printing) predetermined pattern.Utilize dry solidification device 26B to make this telegraph circuit 24 transport on the roller (transporting member) 56 dry in printing.Afterwards, be formed with film 36 ceramic sheet material S of telegraph circuit (internal electrode circuit) 24 and medium and transported roller 58 by the centre and accept, be wound in the outer peripheral face of range upon range of roller 14 and carry out range upon range of.Thus, form the laminate structure S ' of ceramic sheet material S.Like this, in execution mode 4, be formed on the ceramic sheet material S medium film 36 and telegraph circuit 24 after, make to have formed that medium is filmed and the ceramic sheet material S of telegraph circuit is wound in the outer peripheral face of range upon range of roller 14 and carries out range upon range of.

According to execution mode 4, with different transport roller form medium film 36 with telegraph circuit 24.Therefore, owing to be medium to be filmed after 36 dry solidifications, forming telegraph circuit 24, so, can solve and form medium 36 worries during with telegraph circuit 24 of filming at the same time and can produce the problem that both printing ink mixes.Consequently, film 36 well, can prevent that therefore the quality of electronic devices and components of manufacturing is bad with the quality of telegraph circuit 24 owing to can keep medium.

In addition and since different transport roller form medium film 36 with telegraph circuit 24, therefore, can guarantee to be used to make medium to film the time dry 36 dry times with being used to make telegraph circuit 24.Thus and since can make really medium film 36 with telegraph circuit 24 dryings, therefore, can improve the manufacturing speed of the laminate structure S ' of ceramic sheet material S.

In this execution mode, medium is filmed and 36 is formed earlier than telegraph circuit 24,36 forms earlier but telegraph circuit 24 is filmed than medium.That is, also can form telegraph circuit 24, and make telegraph circuit 24 dryings, curing really, afterwards, the ceramic sheet material S formation medium that printing is transported on the roller (transporting member) 56 filmed 36 the ceramic sheet material S that printing is transported on the roller 52.

In addition, in execution mode 4, application roll 12 is corresponding with " film forming basis material " of the present invention, and range upon range of roller 14 is corresponding with " range upon range of supporting mass " of the present invention.In addition, it is corresponding with " telegraph circuit formation portion " of the present invention that the telegraph circuit of execution mode 4 forms unit 22.In addition, the medium of execution mode 4 is filmed, and to form unit 38 corresponding with " medium film formation portion " of the present invention.In addition, the centre of execution mode 4 transport roller 50, printing transport roller 52, centre transport roller 54, printing transport roller (transporting member) 56, and in the middle of to transport roller 58 corresponding with " transporting member " of the present invention.

Then, with reference to accompanying drawing, the laminated electronic component manufacturing installation of execution mode 5 of the present invention and the manufacturing approach of laminated electronic component are described.In addition, to the identical label of structure mark that repeats with the structure of above-mentioned each execution mode, and omit the structure of repetition and the explanation of action effect.

Like Fig. 3, Fig. 4, and shown in Figure 8, in the execution mode 5, application roll 12 and centre are transported roller (transporting member) 60 and are contacted through ceramic sheet material S.In addition, the centre is transported roller 60 and printing and is transported roller (transporting member) 62 and contact through ceramic sheet material S.Printing is transported roller 62 and centre and is transported roller (transporting member) 64 and contact through ceramic sheet material S.The centre is transported roller 64 the laminate structure S ' of ceramic sheet material S is transported to flat range upon range of 66.On range upon range of 66, form the laminate structure S ' of ceramic sheet material S.In addition, range upon range of 66 is not limited to is flat, can also make cylindric (roller shape).Thus, between application roll 12 and range upon range of 66, transport roller 60 in the middle of existing, roller 62 is transported in printing and roller 64 is transported in the centre.

In addition, around application roll 12, dispose: become film unit 16 (film forming formation portion), this one-tenth film unit 16 to be used for becoming the ceramic size of the material of ceramic sheet material S in the surface coated of application roll 12; Liquid-supply unit 18, this liquid-supply unit 18 are used for to becoming film unit 16 that ceramic size is provided; Dry solidification device 20, this dry solidification device 20 are positioned at into the application roll direction of rotation downstream of film unit 16, are used for making the dry and curing of lip-deep ceramic size of application roll 12; Medium is filmed and is formed unit 38 (medium film formation portion), and this medium is filmed and formed unit 38 and be used for forming on the ceramic sheet material S before being transported on range upon range of 66 medium and film 36; Dry solidification device 26A, this dry solidification device 26A are used for making medium 36 dryings of filming; And roller 60 is transported in the centre.In addition, printing transport roller 62 around, dispose: telegraph circuit forms unit 22 (telegraph circuit formation portion), this telegraph circuit forms unit 22 and is used for forming telegraph circuit 24 on the ceramic sheet material S before will being transported to range upon range of 66; Dry solidification device 26B, this dry solidification device 26B is used for making telegraph circuit 24 dryings; And roller 64 is transported in above-mentioned centre.

In addition; In this execution mode; Show forming medium on the ceramic sheet material S of application roll 12 and film 36, transport the example that forms telegraph circuit 24 on the ceramic sheet material S on the roller 62, forming telegraph circuit 24 on the ceramic sheet material S on the application roll 12, transporting in printing and form film 36 structure of medium on the ceramic sheet material S on the roller 62 afterwards but also can adopt earlier in printing.

In the execution mode 5, utilize into film unit 16 and transport ceramic size to the outer peripheral face of application roll 12 with liquid-supply unit 18.Then, use dry solidification device 20 on application roll 12, ceramic size to be carried out dry solidification.Then, for the ceramic sheet material S on the application roll 12, the medium that utilizes medium to film to form unit 38 (medium film formation portion) to form pattern that (printing) be scheduled to films 36.In addition, carry out Position Control to forming film 36 position of medium, make its become after the end difference 34 that produces between the telegraph circuit 24 that forms in the operation.It is 36 dry on application roll 12 to utilize dry solidification device 26A that this medium is filmed.Thus, being formed with film 36 ceramic sheet material S of medium transports roller 60 via the centre and moves to printing and transport roller 62.Transport the ceramic sheet material S on the roller 62 for printing, utilize telegraph circuit to form the telegraph circuit 24 that unit 22 (telegraph circuit formation portion) forms (printing) predetermined pattern.Utilize dry solidification device 26B to make this telegraph circuit 24 transport on the roller 62 dry in printing.Then, be formed with film 36 ceramic sheet material S of telegraph circuit (internal electrode circuit) 24 and medium and transported roller 64 by the centre and accept, be transported to range upon range of 66, and be layered on range upon range of 66.Thus, form the laminate structure S ' of ceramic sheet material S.Like this, in execution mode 5, also be formed on the ceramic sheet material S medium film 36 and telegraph circuit 24 after, make to have formed that medium is filmed and the ceramic sheet material S of telegraph circuit is laminated in range upon range of 6.Particularly, in execution mode 5, ceramic sheet material S is laminated on flat range upon range of 66, forms laminate structure S '.

In addition, in execution mode 5, application roll 12 is corresponding with " film forming basis material " of the present invention, and range upon range of 66 corresponding with " range upon range of supporting mass " of the present invention.In addition, it is corresponding with " telegraph circuit formation portion " of the present invention that the telegraph circuit of execution mode 5 forms unit 22.In addition, the medium of execution mode 5 is filmed, and to form unit 38 corresponding with " medium film formation portion " of the present invention.In addition, the centre of execution mode 5 is transported roller 60, printing and is transported roller 62 and centre to transport roller 64 corresponding with " transporting member " of the present invention.

Then, with reference to accompanying drawing, the laminated electronic component manufacturing installation of execution mode 6 of the present invention and the manufacturing approach of laminated electronic component are described.In addition, to the identical label of structure mark that repeats with the structure of above-mentioned each execution mode, and omit the structure of repetition and the explanation of action effect.

Like Fig. 3, Fig. 4, and shown in Figure 9, in the execution mode 6, application roll 12 and centre are transported roller (transporting member) 68 and are contacted through ceramic sheet material S.In addition, the centre is transported roller 68 and on outer peripheral face, ceramic sheet material S is formed film 36 the printing of telegraph circuit 24 and medium and transport roller (transporting member) 70 and contact through ceramic sheet material S.Printing is transported roller 70 and centre and is transported roller (transporting member) 72 and contact through ceramic sheet material S.The centre is transported roller 72 and is contacted through ceramic sheet material S with range upon range of roller 14.Range upon range of roller 14 and two pressure rollers 46,48 contact through ceramic sheet material S.Thus, between application roll 12 and each range upon range of roller 14, transport roller 68 in the middle of existing, roller 70 is transported in printing and roller 72 is transported in the centre.Therefore, application roll 12 and each range upon range of roller 14 are in the state (can pass through the state of mechanical system transferring power) of indirect contact.

In addition, around application roll 12, dispose: become film unit 16 (film forming formation portion), this one-tenth film unit 16 to be used for becoming the ceramic size of the material of ceramic sheet material S in the surface coated of application roll 12; Liquid-supply unit 18, this liquid-supply unit 18 are used for to becoming film unit 16 that ceramic size is provided; Dry solidification device 20, this dry solidification device 20 are positioned at into the application roll direction of rotation downstream of film unit 16, are used for making the dry and curing of lip-deep ceramic size of application roll 12; And roller 68 is transported in the centre.In addition; Printing transport roller 70 around; Dispose: telegraph circuit forms unit 22 (telegraph circuit formation portion), and this telegraph circuit forms unit 22 and is used for going up formation telegraph circuit 24 at (range upon range of) the ceramic sheet material S before the outer peripheral face of range upon range of roller 14 that will reel; Medium is filmed and is formed unit 38 (medium film formation portion), and this medium is filmed and formed unit 38 and be used on the ceramic sheet material S before the outer peripheral face that will be wound in range upon range of roller 14, forming medium and film 36; Dry solidification device 26, this dry solidification device 26 are used for making telegraph circuit 24 and medium 36 dryings of filming; And roller 68 is transported in above-mentioned centre and roller 72 is transported in the centre.

Here, telegraph circuit forms the mode of printing that unit 22 adopts intaglio offset.Promptly; Adopt the telegraph circuit formation unit 22 of the mode of printing of intaglio offset to have: pattern forms roller (gravure roll) 22A; This pattern forms roller 22A and is carved with groove (groove of filled conductive property thickener) at outer peripheral face, and said groove is corresponding with the pattern for the conductive paste film that forms telegraph circuit 24; And transfer roll (offset printing roller) 22B, this transfer roll 22B forms the last pattern that forms of roller 22A with pattern and carries out transfer printing.The pattern that is transferred to the telegraph circuit 24 on the transfer roll 22B is transferred to printing and transports roller 70, transports the telegraph circuit 24 that forms predetermined pattern on the ceramic sheet material S on the roller 70 in printing.

According to execution mode 6, utilize into film unit 16 and to the outer peripheral face of application roll 12 ceramic size is provided with liquid-supply unit 18.Then, use dry solidification device 20 on application roll 12, ceramic size to be carried out dry solidification.Ceramic sheet material S on the application roll 12 transports roller 68 via the centre and moves to printing and transport roller 70.Transport the ceramic sheet material S on the roller 70 for printing, form the telegraph circuit 24 of predetermined pattern from transfer roll 22B transfer printing.Afterwards, utilize medium to film to form unit 38 to film 36 at the medium that the end difference 34 of the ceramic sheet material S that is formed with telegraph circuit (internal electrode circuit) 24 forms predetermined pattern.Utilize 26 pairs of telegraph circuits of dry solidification device 24 and medium to film and 36 carry out drying, and be cured.Then, be formed with film 36 ceramic sheet material S of telegraph circuit 24 and medium and transport roller 72, be wound in the outer peripheral face of range upon range of roller 14 and carry out range upon range of via the centre.Thus, form the laminate structure S ' of ceramic sheet material S.Like this, in execution mode 6, also be to have filmed after 36 having formed telegraph circuit 24 and medium on the ceramic sheet material S, make to form the ceramic sheet material S that telegraph circuit and medium film and be wound in the outer peripheral face of range upon range of roller 14 and carry out range upon range of.

In addition, in execution mode 6, application roll 12 is corresponding with " film forming basis material " of the present invention, and range upon range of roller 14 is corresponding with " range upon range of supporting mass " of the present invention.In addition, it is corresponding with " telegraph circuit formation portion " of the present invention that the telegraph circuit of execution mode 6 forms unit 22.In addition, the medium of execution mode 6 is filmed, and to form unit 38 corresponding with " medium film formation portion " of the present invention.In addition, the centre of execution mode 6 is transported roller 68, printing and is transported roller 70 and centre to transport roller 72 corresponding with " transporting member " of the present invention.

Then, with reference to accompanying drawing, the laminated electronic component manufacturing installation of execution mode 7 of the present invention and the manufacturing approach of laminated electronic component are described.In addition, to the identical label of structure mark that repeats with the structure of above-mentioned each execution mode, and omit the structure of repetition and the explanation of action effect.

Like Fig. 3, Fig. 4, and shown in Figure 10, in the execution mode 7, application roll 12 and centre are transported roller (transporting member) 74 and are contacted through ceramic sheet material S.In addition, the centre is transported roller 74 and the printing that on outer peripheral face, ceramic sheet material S is formed telegraph circuit 24 and is transported roller (transporting member) 76 and contact through ceramic sheet material S.Printing is transported roller 76 and is transported roller (transporting member) 78 through ceramic sheet material S with telegraph circuit formation unit 22 (telegraph circuit formation unit) that is used on ceramic sheet material S forming telegraph circuit 24 and centre and contact.The centre is transported roller 78 and is contacted through ceramic sheet material S with range upon range of roller 14.Range upon range of roller 14 be used to form film 36 medium of medium and film and form unit 38 (medium film formation portion) and pressure roller 46 contacts through ceramic sheet material S.Thus, between application roll 12 and each range upon range of roller 14, transport roller 74 in the middle of existing, roller 76 is transported in printing and roller 78 is transported in the centre.Therefore, application roll 12 and each range upon range of roller 14 are in the state (can pass through the state of mechanical system transferring power) of indirect contact.

In addition, around application roll 12, dispose: become film unit 16 (film forming formation portion), this one-tenth film unit 16 to be used for becoming the ceramic size of the material of ceramic sheet material S in the surface coated of application roll 12; Liquid-supply unit 18, this liquid-supply unit 18 are used for to becoming film unit 16 that ceramic size is provided; Dry solidification device 20, this dry solidification device 20 are positioned at into the application roll direction of rotation downstream of film unit 16, are used for making the dry and curing of lip-deep ceramic size of application roll 12; And roller 74 is transported in the centre.In addition; Printing transport roller 76 around; Dispose: telegraph circuit forms unit 22 (telegraph circuit formation portion), and this telegraph circuit forms unit 22 and is used for going up formation telegraph circuit 24 at (range upon range of) the ceramic sheet material S before the outer peripheral face of range upon range of roller 14 that will reel; And roller 74 is transported in above-mentioned centre and roller 78 is transported in the centre.In addition, around range upon range of roller 14, dispose: medium is filmed and is formed unit 38 (medium film formation portion), and this medium is filmed and formed end difference 34 that unit 38 is used for the ceramic sheet material S on range upon range of roller 14 and form media and film 36; Roller 78 is transported in above-mentioned centre; And pressure roller 46.

Here, telegraph circuit forms the mode of printing that unit 22 adopts intaglio offset.Promptly; Adopt the telegraph circuit formation unit 22 of the mode of printing of intaglio offset to have: pattern forms roller (gravure roll) 22A; This pattern forms roller 22A and is carved with groove (groove of filled conductive property thickener) at outer peripheral face, and said groove is corresponding with the pattern for the conductive paste film that forms telegraph circuit 24; And transfer roll (offset printing roller) 22B, this transfer roll 22B forms the last pattern that forms of roller 22A with pattern and carries out transfer printing.The pattern that is transferred to the telegraph circuit 24 on the transfer roll 22B is transferred to printing and transports roller 76, transports the telegraph circuit 24 that forms predetermined pattern on the ceramic sheet material S on the roller 76 in printing.In addition, around transfer roll 22B, dispose and be used for the dry solidification device 26B that drying is transferred to the telegraph circuit 24 on the transfer roll 22B.Therefore, utilize dry solidification device 26B that the telegraph circuit 24 that is transferred on the transfer roll 22B is carried out drying and curing.

Here, medium is filmed and is formed the mode of printing that unit 38 adopts intaglio offset.Promptly; Adopt the medium of the mode of printing of intaglio offset to film to form unit 38 and have: pattern forms roller (gravure roll) 38A; This pattern forms roller 38A and is carved with groove (groove of filled conductive property thickener) at outer peripheral face, and said groove is with corresponding in order to form the film pattern of 36 conductive paste film of medium; And transfer roll (offset printing roller) 38B, this transfer roll 38B forms the last pattern that forms of roller 38B with pattern and carries out transfer printing.Be transferred to film 36 pattern of medium on the transfer roll 38B and be transferred to the ceramic sheet material S on the range upon range of roller 14, the medium that the end difference 34 on the ceramic sheet material S on the range upon range of roller 14 forms predetermined pattern films 36.In addition, around transfer roll 28B, dispose and be used for drying and be transferred to film 36 dry solidification device 26A of medium on the transfer roll 38B.Therefore, utilize dry solidification device 26A to film and 36 carry out drying and curing to being transferred to medium on the transfer roll 38B.Thus, will be formed with film 36 ceramic sheet material S of telegraph circuit 24 and medium is wound in the outer peripheral face of range upon range of roller 14 and carries out range upon range of.Thus, form the laminate structure S ' of ceramic sheet material S.Like this, in execution mode 7, also be to have filmed after 36 having formed telegraph circuit 24 and medium on the ceramic sheet material S, make to form the ceramic sheet material S that telegraph circuit and medium film and be wound in the outer peripheral face of range upon range of roller 14 and carry out range upon range of.

In addition, in execution mode 7, application roll 12 is corresponding with " film forming basis material " of the present invention, and range upon range of roller 14 is corresponding with " range upon range of supporting mass " of the present invention.In addition, it is corresponding with " telegraph circuit formation portion " of the present invention that the telegraph circuit of execution mode 7 forms unit 22.In addition, the medium of execution mode 7 is filmed, and to form unit 38 corresponding with " medium film formation portion " of the present invention.In addition, the centre of execution mode 7 is transported roller 74, printing and is transported roller 76 and centre to transport roller 78 corresponding with " transporting member " of the present invention.

Then, with reference to accompanying drawing, the laminated electronic component manufacturing installation of execution mode 8 of the present invention and the manufacturing approach of laminated electronic component are described.In addition, to the identical label of structure mark that repeats with the structure of above-mentioned each execution mode, and omit the structure of repetition and the explanation of action effect.

Like Fig. 3, Fig. 4, and shown in Figure 11, the laminated electronic component manufacturing installation of execution mode 8 is be the device after benchmark has carried out improving to its part with execution mode 7, with medium film form unit 38 be disposed at print transport roller 76 around.Promptly; Adopt the medium of the mode of printing of intaglio offset to film to form unit 38 and have: pattern forms roller (gravure roll) 38A; This pattern forms roller 38A and is carved with groove (groove of filled conductive property thickener) at outer peripheral face, and said groove is with corresponding in order to form the film pattern of 36 conductive paste film of medium; And transfer roll (offset printing roller) 38B, this transfer roll 38B forms the last pattern that forms of roller 38B with pattern and carries out transfer printing.Form roller 38A from pattern and be transferred to film 36 pattern of medium on the transfer roll 38B and be transferred to printing and transport the ceramic sheet material S on the roller 76, transport the medium that the end difference 34 of the ceramic sheet material S on the roller 76 forms predetermined pattern in printing and film 36.In addition, around transfer roll 38B, dispose and be used for drying and be transferred to film 36 dry solidification device 26A of medium on the transfer roll 38B.Therefore, utilize dry solidification device 26A to film and 36 carry out drying and curing to being transferred to medium on the transfer roll 38B.Thus, transport on the ceramic sheet material S on the roller 76 in printing and form telegraph circuit 24 and medium films 36.Then, be formed with film 36 ceramic sheet material S of telegraph circuit 24 and medium and transport roller 78, be wound in the outer peripheral face of range upon range of roller 14 and carry out range upon range of via the centre.Thus, form the laminate structure S ' of ceramic sheet material S.Like this, in execution mode 8, also be to have filmed after 36 having formed telegraph circuit 24 and medium on the ceramic sheet material S, make to form the ceramic sheet material S that telegraph circuit and medium film and be wound in the outer peripheral face of range upon range of roller 14 and carry out range upon range of.

In addition, in execution mode 8, application roll 12 is corresponding with " film forming basis material " of the present invention, and range upon range of roller 14 is corresponding with " range upon range of supporting mass " of the present invention.In addition, it is corresponding with " telegraph circuit formation portion " of the present invention that the telegraph circuit of execution mode 8 forms unit 22.In addition, the medium of execution mode 8 is filmed, and to form unit 38 corresponding with " medium film formation portion " of the present invention.In addition, the centre of execution mode 8 is transported roller 74, printing and is transported roller 76 and centre to transport roller 78 corresponding with " transporting member " of the present invention.

In addition, the present invention preferably in application roll 12, constitute and to transport respectively transporting roller, transporting print electrode circuit 24 and medium of any place on the endless belt and film 36 of member, the printing position is not had special qualification.In addition, film 36 printing position of the printing position of telegraph circuit 24 and medium can be a same position, also can be diverse location.And, also can utilize telegraph circuit 24 that the ink-jetting style printing forms and medium to film 38 to be transferred to ceramic sheet material S after dry making.

Then, with reference to accompanying drawing, the laminated electronic component manufacturing installation of execution mode 9 of the present invention and the manufacturing approach of laminated electronic component are described.In addition, execution mode 9 is variation of execution mode 3, to the identical label of structure mark that repeats with the structure of execution mode 3, and omits the structure of repetition and the explanation of action effect.

In execution mode 9, according to telegraph circuit 24, medium film 36, the order of the laminate structure S ' of ceramic sheet material S, ceramic sheet material forms.That is, shown in figure 12, at first, utilize telegraph circuit to form the application roll 12 formation telegraph circuits 24 that the 22 pairs of peripheries in unit have been implemented the continuous shape of annular of demoulding processing.Then, utilize medium to film to form 38 pairs of application roll in unit 12 to form media and film 36.Medium film 36 be formed at telegraph circuit 24 end difference 34.Then, utilize into film unit 16,, film 36 with coated electrode circuit 24 and medium, and make it dry application roll 12 coating ceramic sizes, thus the ceramic sheet material S that formation belt electrode circuit and above-mentioned medium are filmed.Then, the ceramic sheet material S that belt electrode circuit and above-mentioned medium are filmed is wound in the outer peripheral face of range upon range of roller 14, forms the laminate structure S ' of ceramic sheet material.

Then, with reference to accompanying drawing, the laminated electronic component manufacturing installation of execution mode 10 of the present invention and the manufacturing approach of laminated electronic component are described.In addition, execution mode 10 is variation of execution mode 5, to the identical label of structure mark that repeats with the structure of execution mode 5, and omits the structure of repetition and the explanation of action effect.

In execution mode 10, according to telegraph circuit 24, ceramic sheet material S, medium film 36, the order of the laminate structure S ' of ceramic sheet material forms.That is, shown in figure 13, at first, utilize telegraph circuit to form the application roll 12 formation telegraph circuits 24 that the 22 pairs of peripheries in unit have been implemented the continuous shape of annular of demoulding processing.Then, utilize into film unit, with coated electrode circuit 24, and make it dry, thereby form the ceramic sheet material S of belt electrode circuit application roll 12 coating ceramic sizes.Utilize medium apply to form 38 pairs of unit and form media film (in Figure 13, omit and illustrate) because of the end difference 34 on the ceramic sheet material that forms telegraph circuit 24 and produces.Then, on range upon range of 66, form the laminate structure S ' of ceramic sheet material S.

Then, with reference to accompanying drawing, the laminated electronic component manufacturing installation of execution mode 11 of the present invention and the manufacturing approach of laminated electronic component are described.In addition, execution mode 11 is variation of execution mode 5, to the identical label of structure mark that repeats with the structure of execution mode 5, and omits the structure of repetition and the explanation of action effect.

In execution mode 11, according to medium film 36, the order of the laminate structure S ' of ceramic sheet material S, telegraph circuit 24, ceramic sheet material forms.That is, shown in figure 14, at first, utilize medium to film to form the 38 pairs of peripheries in unit implemented annular that demoulding handles continuously the application roll 12 of shape form media and film 36.Then, utilize into 16 pairs of application roll of film unit, 12 coating ceramic sizes, film 36 with overwrite media, and make it dry, thereby form the ceramic sheet material S that the band medium is filmed.And, utilize telegraph circuit to form be different from medium film 36 the position of unit 22 on ceramic sheet material S and form telegraph circuit (in Figure 14, omitting diagram).Then, on range upon range of 66, form the laminate structure S ' of ceramic sheet material.

Then, with reference to accompanying drawing, the laminated electronic component manufacturing installation of execution mode 12 of the present invention and the manufacturing approach of laminated electronic component are described.In addition, execution mode 12 is variation of execution mode 10, to the identical label of structure mark that repeats with the structure of execution mode 10, and omits the structure of repetition and the explanation of action effect.

In execution mode 12, form according to film 36 order of telegraph circuit 24, ceramic sheet material S, the laminate structure S ' of ceramic sheet material, medium.That is, shown in figure 15, at first, utilize telegraph circuit to form the application roll 12 formation telegraph circuits 24 that the 22 pairs of peripheries in unit have been implemented the continuous shape of annular of demoulding processing.Then, utilize into film unit, with coated electrode circuit 24, and make it dry, thereby form the ceramic sheet material S of belt electrode circuit application roll 12 coating ceramic sizes.Then, this ceramic sheet material S is wound in the outer peripheral face of range upon range of roller 14, forms the laminate structure S ' of ceramic sheet material.Afterwards, utilize medium to film to form 38 pairs of unit to be wound in end difference 34 on the laminate structure S ' of ceramic sheet material of outer peripheral face of range upon range of roller 14 and form media film (in Figure 15, omitting diagram).

Then, with reference to accompanying drawing, the laminated electronic component manufacturing installation of execution mode 13 of the present invention and the manufacturing approach of laminated electronic component are described.In addition, execution mode 13 is variation of execution mode 11, to the identical label of structure mark that repeats with the structure of execution mode 11, and omits the structure of repetition and the explanation of action effect.

In execution mode 13, according to medium film 36, ceramic sheet material S, the laminate structure S ' of ceramic sheet material, the order of telegraph circuit 24 form.That is, shown in figure 16, at first, utilize medium to film to form the 38 pairs of peripheries in unit implemented annular that demoulding handles continuously the application roll 12 of shape form media and film 36.Then, utilize into film unit 16, to application roll 12 coating ceramic sizes, film 36 with overwrite media, and make it dry, thereby form the ceramic sheet material S that the band medium is filmed.Then, this ceramic sheet material S is wound in the outer peripheral face of range upon range of roller 14, forms the laminate structure S ' of ceramic sheet material.Afterwards, utilize telegraph circuit to form be different from medium film 36 the position of unit 22 on the laminate structure S ' of ceramic sheet material and form telegraph circuit (in Figure 16, omitting diagram).

Claims (21)

1. a laminated electronic component manufacturing installation is characterized in that, comprising:

Annular is the film forming basis material of shape continuously, and the film forming basis material of the continuous shape of this annular has been implemented the demoulding processing in periphery;

Film forming formation portion, this film forming formation portion is coated with ceramic size to said film forming basis material, and makes its drying, to form ceramic sheet material;

Telegraph circuit formation portion, this telegraph circuit formation portion forms telegraph circuit on said ceramic sheet material;

The medium formation portion of filming, this medium formation portion of filming is forming medium and is filming because of forming end difference on the said ceramic sheet material that said telegraph circuit produces; And

Range upon range of supporting mass, this range upon range of supporting mass forms the laminate structure of said ceramic sheet material.

2. a laminated electronic component manufacturing installation is characterized in that, comprising:

Annular is the film forming basis material of shape continuously, and the film forming basis material of the continuous shape of this annular has been implemented the demoulding processing in periphery;

Telegraph circuit formation portion, this telegraph circuit formation portion forms telegraph circuit on said film forming basis material;

The medium formation portion of filming, this medium formation portion of filming forms medium and films on said film forming basis material;

Film forming formation portion, this film forming formation portion be to said film forming basis material coating ceramic size, covering said telegraph circuit and said medium is filmed, and makes its drying, the ceramic sheet material of filming with said telegraph circuit and said medium with formation; And

Range upon range of supporting mass, this range upon range of supporting mass forms the laminate structure of said ceramic sheet material.

3. a laminated electronic component manufacturing installation is characterized in that, comprising:

Annular is the film forming basis material of shape continuously, and the film forming basis material of the continuous shape of this annular has been implemented the demoulding processing in periphery;

Telegraph circuit formation portion, this telegraph circuit formation portion forms telegraph circuit on said film forming basis material;

Film forming formation portion, this film forming formation portion be to said film forming basis material coating ceramic size, covering said telegraph circuit, and makes its drying, with the ceramic sheet material of formation with said telegraph circuit;

The medium formation portion of filming, this medium formation portion of filming is forming medium and is filming because of forming end difference on the said ceramic sheet material that said telegraph circuit produces; And

Range upon range of supporting mass, this range upon range of supporting mass forms the laminate structure of said ceramic sheet material.

4. a laminated electronic component manufacturing installation is characterized in that, comprising:

Annular is the film forming basis material of shape continuously, and the film forming basis material of the continuous shape of this annular has been implemented the demoulding processing in periphery;

The medium formation portion of filming, this medium formation portion of filming forms medium and films on said film forming basis material;

Film forming formation portion, this film forming formation portion films to cover said medium, and makes its drying said film forming basis material coating ceramic size, the ceramic sheet material of filming with said medium with formation;

Telegraph circuit formation portion, this telegraph circuit formation portion forms telegraph circuit on the said ceramic sheet material that is different from the position that said medium films on the said ceramic sheet material;

Range upon range of supporting mass, this range upon range of supporting mass forms the laminate structure of said ceramic sheet material.

5. like each described laminated electronic component manufacturing installation of claim 1 to 4, it is characterized in that,

When utilizing said range upon range of supporting mass to form the laminate structure of said ceramic sheet material,

On said film forming basis material, continue to form new ceramic sheet material.

6. according to claim 1 or claim 2 laminated electronic component manufacturing installation is characterized in that,

Said range upon range of supporting mass contacts with said film forming basis material through said ceramic sheet material, this ceramic sheet material is peeled off from said film forming basis material, and be wound in periphery, thereby form the laminate structure of said ceramic sheet material.

7. like claim 1,3, each described laminated electronic component manufacturing installation of 4, it is characterized in that,

Comprise and transport member, this transports member and is arranged between said film forming basis material and the said range upon range of supporting mass,

The said member that transports is received in the said ceramic sheet material that said film forming basis material forms from said film forming basis material, and the said ceramic sheet material of being accepted is transported to said range upon range of supporting mass.

8. laminated electronic component manufacturing installation as claimed in claim 1 is characterized in that,

Said telegraph circuit formation portion forms said telegraph circuit on the said said ceramic sheet material that transports on the member,

The said medium formation portion of filming forms said medium at the said said end difference that transports the said ceramic sheet material on the member and films.

9. like each described laminated electronic component manufacturing installation of claim 1 to 4, it is characterized in that,

Said telegraph circuit formation portion and the said medium formation portion of filming does not have a version printing equipment.

10. laminated electronic component manufacturing installation as claimed in claim 9 is characterized in that,

Said nothing version printing equipment is an ink-jet printing apparatus.

11. the manufacturing approach of a laminated electronic component is characterized in that, comprising:

Film forming forms operation, and this film forming forms operation and utilizes film forming formation portion periphery to be implemented the film forming basis material coating ceramic size of the continuous shape of annular of demoulding processing, and makes its drying, with continuous formation ceramic sheet material;

Telegraph circuit forms operation, and this telegraph circuit forms operation and utilizes telegraph circuit formation portion on said ceramic sheet material, to form telegraph circuit;

The medium formation operation of filming, this medium are filmed and are formed operation and utilize the medium formation portion of filming forming medium and film because of forming end difference on the said ceramic sheet material that said telegraph circuit produces; And

Laminate structure forms operation, and this laminate structure forms the laminate structure that operation forms said ceramic sheet material.

12. the manufacturing approach of a laminated electronic component is characterized in that, comprising:

Telegraph circuit forms operation, and the film forming basis material that this telegraph circuit formation operation utilizes telegraph circuit formation portion that periphery has been implemented the continuous shape of annular of demoulding processing forms telegraph circuit;

The medium formation operation of filming, this medium are filmed and are formed operation and utilize the medium formation portion of filming said film forming basis material is formed medium to film;

Film forming forms operation; This film forming forms operation and utilizes film forming formation portion to said film forming basis material coating ceramic size; Covering said telegraph circuit and said medium is filmed, and make its drying, the ceramic sheet material of filming with said telegraph circuit and said medium with formation; And

Laminate structure forms operation, and this laminate structure forms the laminate structure that operation forms said ceramic sheet material.

13. the manufacturing approach of a laminated electronic component is characterized in that, comprising:

Telegraph circuit forms operation, and the film forming basis material that this telegraph circuit formation operation utilizes telegraph circuit formation portion that periphery has been implemented the continuous shape of annular of demoulding processing forms telegraph circuit;

Film forming forms operation, and this film forming forms operation and utilizes film forming formation portion to said film forming basis material coating ceramic size, covering said telegraph circuit, and makes its drying, with the ceramic sheet material of formation with said telegraph circuit;

The medium formation operation of filming, this medium are filmed and are formed operation and utilize the medium formation portion of filming forming medium and film because of forming end difference on the said ceramic sheet material that said telegraph circuit produces; And

Laminate structure forms operation, and this laminate structure forms the laminate structure that operation forms said ceramic sheet material.

14. the manufacturing approach of a laminated electronic component is characterized in that, comprising:

The medium formation operation of filming, this medium film form operation utilize medium film formation portion to periphery implemented annular that demoulding handles continuously the film forming basis material of shape form medium and film;

Film forming forms operation, and this film forming forms operation and utilizes film forming formation portion to said film forming basis material coating ceramic size, films to cover said medium, and makes its drying, the ceramic sheet material of filming with said medium with formation;

Telegraph circuit forms operation, and this telegraph circuit forms operation and utilizes telegraph circuit formation portion on the said ceramic sheet material that is different from the position that said medium films on the said ceramic sheet material, to form telegraph circuit; And

Laminate structure forms operation, and this laminate structure forms the laminate structure that operation forms said ceramic sheet material.

15. the manufacturing approach of a laminated electronic component is characterized in that, comprising:

Telegraph circuit forms operation, and the film forming basis material that this telegraph circuit formation operation utilizes telegraph circuit formation portion that periphery has been implemented the continuous shape of annular of demoulding processing forms telegraph circuit;

Film forming forms operation, and this film forming forms operation and utilizes film forming formation portion to said film forming basis material coating ceramic size, covering said telegraph circuit, and makes its drying, with the ceramic sheet material of formation with said telegraph circuit;

Laminate structure forms operation, and this laminate structure forms the laminate structure that operation forms said ceramic sheet material; And

The medium formation operation of filming, this medium are filmed and are formed operation and utilize the medium formation portion of filming filming because of the end difference on the laminate structure that forms the said ceramic sheet material that said telegraph circuit produces forms medium.

16. the manufacturing approach of a laminated electronic component is characterized in that, comprising:

The medium formation operation of filming, this medium film form operation utilize medium film formation portion to periphery implemented annular that demoulding handles continuously the film forming basis material of shape form medium and film;

Film forming forms operation, and this film forming forms operation and utilizes film forming formation portion to said film forming basis material coating ceramic size, films to cover said medium, and makes its drying, the ceramic sheet material of filming with said medium with formation;

Laminate structure forms operation, and this laminate structure forms the laminate structure that operation forms said ceramic sheet material; And

Telegraph circuit forms operation, and this telegraph circuit forms operation and utilizes telegraph circuit formation portion on the laminate structure of the said ceramic sheet material that is different from the position that said medium films on the laminate structure of said ceramic sheet material, to form telegraph circuit.

17. the manufacturing approach like each described laminated electronic component of claim 11 to 16 is characterized in that,

Form in the operation at said laminate structure, when utilizing said range upon range of supporting mass to form the laminate structure of said ceramic sheet material,

Form in the operation in said film forming, on said film forming basis material, continue to form new said ceramic sheet material.

18. the manufacturing approach like claim 11 or 12 described laminated electronic components is characterized in that,

Form in the operation at said laminate structure; Said range upon range of supporting mass is contacted through said ceramic sheet material with said film forming basis material; Thereby said ceramic sheet material is stripped down from said film forming basis material; And the said ceramic sheet material that will strip down is wound in the periphery of said range upon range of supporting mass, thereby forms the laminate structure of said ceramic sheet material.

19. the manufacturing approach like claim 11,13,14,15, each described laminated electronic component of 16 is characterized in that,

Comprise and transport operation, this transports operation and has the member of transporting, and this transports member and is arranged between said film forming basis material and the said range upon range of supporting mass,

The said member that transports is received in the said ceramic sheet material that said film forming basis material forms from said film forming basis material, and the said ceramic sheet material of being accepted is transported to said range upon range of supporting mass.

20. the manufacturing approach like each described laminated electronic component of claim 11 to 16 is characterized in that,

Form operation and said medium at said telegraph circuit and film and form in the operation, use and do not have the version printing, utilizes this nothing edition printing equipment to form said telegraph circuit and said medium is filmed as said telegraph circuit formation portion and the said medium formation portion of filming.

21. the manufacturing approach of laminated electronic component as claimed in claim 20 is characterized in that,

Use ink-jet printing apparatus as said nothing version printing equipment.

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