CN208622590U - A kind of inductance automatic production line - Google Patents

Abstract

The utility model relates to inductance production technical fields, a kind of inductance automatic production line, including assembling mechanism, transfer device, membrane coiler structure and tin sticky output mechanism, assembling mechanism includes rack, sequencing assembly A, sequencing assembly B, sequencing assembly C and jacking component, and the top of the jacking component forms assembly section；Transfer device includes with positioning component, telescopic component and translation component；Membrane coiler structure includes carrier, placing modules, transmission component, pre-tightens component and cutter, pre-tightens component and positioning component discontinuous connection is arranged；Tin sticky output mechanism includes tin liquor storehouse, guide component with splicing storehouse；The intermittent drive in assembly transfer process with membrane coiler structure is driven by group transfer device, make assembly with autonomous rotating manner by thinfilms thereon, it realizes automatic around film, the solution technical problem existing in the prior art for causing production efficiency low since each process is independent in assembly transfer process.

Description

A kind of inductance automatic production line

Technical field

The utility model relates to inductance production technical field more particularly to a kind of inductance automatic production lines.

Background technique

The industries such as inductance, transformer, the product of many specifications require assembly and around film or encapsulated bands.Inductance is raw at present Industry is produced mostly with unit operation, after being assembled two-by-two between inductance component part, assembling station is transferred to and carries out entirety Assembling, then it is more independent between film, each production process by carrying out the assembly after assembling around film station, and producing It often, so that the production cycle extends, is in turn resulted in because of a large amount of time is wasted in the transfer process between each process in the process Production efficiency is low.

Utility model content

The purpose of this utility model is in view of the deficiencies of the prior art, to provide a kind of inductance automatic production line, is led to The intermittent drive in group transfer device drive assembly transfer process with membrane coiler structure is crossed, makes assembly will with autonomous rotating manner Thinfilms are thereon, automatic around film in realization assembly transfer process, solve existing in the prior art due to each process The technical problem for independently causing production efficiency low.

In order to solve the above technical problems, the utility model provides a kind of inductance automatic production line, which is characterized in that packet It includes:

Assembling mechanism, the assembling mechanism include rack, be set in the rack and the row that is sequentially distributed from top to down Sequence component A, sequencing assembly B, sequencing assembly C and be set to below the sequencing assembly C and jacking component, the jacking component Top formed assembly section；

Transfer device, the transfer device are installed on the top in the rack and being located at the sequencing assembly A comprising Positioning component, drive magnetic core A for magnetic core A positioning aid are moved to telescopic component and drive above the jacking component The translation component of assembly orientation transfer；

Membrane coiler structure, the membrane coiler structure are located at the rear workshop section of the positioning component comprising carrier is set to this and holds On carrier for place the placing modules of film roll, the gap rotary transmission component of the driving positioning component, be installed on it is described By preload component that the free end of film roll is attached on the side of assembly and the placement group is set on placing modules The rear workshop section of part is used for the cutter of film cutoff process, and the preload component and the positioning component discontinuous connection are arranged；And

Tin sticky output mechanism, the tin sticky output mechanism are located at the rear workshop section of the membrane coiler structure comprising tin liquor storehouse, position Guide component on the outside of the tin liquor storehouse and the splicing storehouse being placed in below the guide component.

As an improvement, the assembling mechanism and the tin sticky output mechanism are arranged side by side, and the translation component 23 is through institute Assembling mechanism is stated to extend on the tin sticky output mechanism.

As an improvement, the positioning component is set on the telescopic component, which includes being slideably positioned in institute State the slide unit on telescopic component, the connecting plate being slideably positioned on the slide unit, multiple positioning being rotatably dispose on the connecting plate The driving portion that portion and the driving connecting plate move up and down, the driving portion are fixedly installed on the slide unit.

Wherein, the positioning region is uniformly spaced setting along the shift direction of the assembly comprising passes through along the vertical direction It wears the shaft of the connecting plate, be fixedly installed on the gear and locating slot of the shaft upper and lower ends respectively, which is electromagnetism It is arranged and it is equipped with the magnetic core A, the locating slot fixes magnetic core A and magnetic core B by coil case by electromagnetic force, shape At the assembly being fixed on locating slot.

As improvement, the translation component includes being slideably positioned in installation in the rack along the shift direction of assembly Seat, the rack gear for being set to the mounting base side, the driving wheel that is engaged with the rack gear and be installed in the mounting base and with institute State the motor that driving wheel is fixedly connected；The telescopic component includes the bracket being fixedly installed in the mounting base and is installed on The cylinder for driving the slide unit to move back and forth on the bracket, the slide unit are arranged on the bracket.

As improvement, the transmission component is to be fixedly installed on the carrier and engage with the gear intermittent drive Rack structure, length direction is identical as the translation moving direction of component.

As an improvement, the carrier is fixedly connected with and is located at the side of the transfer device with the rack comprising At least two guide rods being arranged along its length, the placing modules include sliding sleeve be set to the guide rod on placement rack, It is rotatably dispose in the positioning column for being used to be arranged film roll on the placement rack and is sheathed on the guide rod and is located at the placement Spring between seat and carrier, the spring are located at the rear workshop section of the placement rack；The preload component is elastic slice setting, wherein Portion is rotatably dispose in the side of the positioning column.

As an improvement, the membrane coiler structure further includes being set on the carrier to put membrane module, this puts membrane module position In the lower section of the placement rack comprising rub with positioning column coaxial arrangement and the friction pulley being fixedly connected and positioned at this Wipe the side of wheel and the friction block with the setting of its discontinuous connection.

As an improvement, the sequencing assembly A, sequencing assembly B and sequencing assembly C include multiple vibrating disks arranged side by side And the locating slot communicated therewith, the locating slot on the sequencing assembly B and sequencing assembly C is in the same vertical plane, the row Locating slot on sequence component A is located at the side of the assembly section.

As an improvement, the jacking component is set to along the vertical direction in the rack comprising jack part and through the top The jacking portion that part driving moves up and down is risen, which includes the multiple top pillars being arranged in a one-to-one correspondence with the locating slot and set The limited block being equipped at the top of the top pillar and with magnetic core A is placed in, on the locating slot on the sequencing assembly B and sequencing assembly C It offers and crosses hopper through what the limited block passed through.

As an improvement, the guide component is the inclined plate structure being obliquely installed, the assembly after tin sticky is through telescopic component After being transferred to the top of guide component, the electromagnetic force on positioning component disappears, after assembly is fallen on batch turning component, through its transmission To splicing storehouse.

The utility model has the beneficial effects that

(1) it is arranged in the present invention by sequencing assembly A, sequencing assembly B and sequencing assembly C with up-down structure, is made Magnetic core A, coil case and magnetic core B three set gradually from top to down, in conjunction with the electromagnetic adsorption fixed form of positioning component, realize three The quick and precisely assembly of person；It drives in assembly moving process through translation component and is sequentially connected with membrane coiler structure again, realize assembly It is automatic around film in body transfer process；The mating reaction of located component and telescopic component again, realize assembly tin sticky after from Dynamic output solves existing in the prior art due to each work to form the compact fully automatic electric sense production process of supply-demand connection The technical problem that sequence is independent and causes production efficiency low.

(2) pass through placing modules, transmission component and the special construction for pre-tightening component in membrane coiler structure in the present invention Setting, cooperation transfer device realize that assembly in membrane process, passes through preload component and spring to the branch mode of assembly Elastic force variation so that film is closely wound on assembly；In conjunction with the setting for putting friction pulley and friction block on membrane module, make Film roll rotary resistance increases in membrane process, further increases the compactness of thinfilms on assembly, and placing modules reset In the process by friction pulley and friction block contact action, realize that film roll to the automatic discharging of its free end, and then improves this reality While with novel production stability, it is improved around film quality.

In conclusion the utility model has many advantages, such as structure simple, high production efficiency, assembly and reliable around film quality； More particularly to a kind of inductance automatic production line.

Detailed description of the invention

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

Fig. 1 is the utility model overall structure diagram；

Fig. 2 is inductance explosive view；

Fig. 3 is the utility model side view；

Fig. 4 is the utility model side view cutaway drawing；

Fig. 5 is transfer device partial enlargement structural representation；

Fig. 6 is that A goes out enlarged diagram in Fig. 1；

Fig. 7 is tin sticky output mechanism cross-sectional view；

Fig. 8 is that transfer device faces partial enlargement diagram；

Fig. 9 is membrane coiler structure top view；

Figure 10 is one of membrane coiler structure state diagram；

Figure 11 is jacking component structure diagram；

Figure 12 is the method flow diagram in the utility model in embodiment three.

Specific embodiment

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

Embodiment one

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is exemplary, it is intended to for explaining the utility model, and should not be understood as to the utility model Limitation.

As shown in Fig. 1,2,3,4,5,6 and 7, a kind of inductance automatic production line, comprising:

Assembling mechanism 1, the assembling mechanism 1 include rack 11, be set in the rack 11 and successively divide from top to down The sequencing assembly A12 of cloth, sequencing assembly B13, sequencing assembly C14 and be set to below the sequencing assembly C14 and jacking The top of component 15, the jacking component 15 forms assembly section 16；The sequencing assembly A12, sequencing assembly B13, sequencing assembly C14 For being ranked up to magnetic core A, magnetic core B and coil case；

Transfer device 2, the transfer device 2 are installed on the top in the rack 11 and being located at the sequencing assembly A12, It includes the positioning component 21 accommodated for magnetic core A100 positioning, magnetic core A100 is driven to be moved to 15 top of jacking component Telescopic component 22 and the translation component 23 for driving the orientation transfer of assembly 10；

Membrane coiler structure 3, the membrane coiler structure 3 are located at the rear workshop section of the positioning component 21 comprising carrier 31, setting In the placing modules 32, the driving gap rotary transmission component of the positioning component 21 that are used to place film roll on the carrier 31 33, be installed on the placing modules 32 by the free end of film roll be attached at preload component 34 on the side of assembly and The rear workshop section for being set to the placing modules 32 is used for the cutter 35 of film cutoff process, the preload component 34 and the positioning The setting of 21 discontinuous connection of component；And

Tin sticky output mechanism 5, the tin sticky output mechanism 5 are located at the rear workshop section of the membrane coiler structure 3 comprising tin liquor storehouse 51, the guide component 52 on the outside of the tin liquor storehouse 51 and the splicing storehouse 53 being placed in below the guide component 52.

Further, as shown in Figure 1, the assembling mechanism 1 and the tin sticky output mechanism 5 are arranged side by side, and it is described flat Component 23 is moved to extend on the tin sticky output mechanism 5 through the assembling mechanism 1.

Further, as shown in figure 5, the positioning component 21 is set on the telescopic component 22, the positioning component 21 Including the slide unit 211 being slideably positioned on the telescopic component 22, connecting plate 212 being slideably positioned on the slide unit 211, multiple The driving portion 214 that the positioning region 213 and the driving connecting plate 212 being rotatably dispose on the connecting plate 212 move up and down, should Driving portion 214 is fixedly installed on the slide unit 211；In the present embodiment, the quantity of positioning region 213 is four, the driving Portion 214 is air cylinder structure setting, drives positioning 213 to move up and down by driving portion 214, makes it will be on sequencing assembly A12 Magnetic core A100 transfer after sequence.

Wherein, as shown in figure 5, the positioning region 213 is uniformly spaced setting along the shift direction of the assembly comprising Run through the shaft 2131 of the connecting plate 212 along the vertical direction, be fixedly installed on the gear of 2131 upper and lower ends of shaft respectively 2132 and locating slot 2133, which is that electromagnetism is arranged and it is equipped with the magnetic core A100, the locating slot 2133 keep magnetic core A100 and magnetic core B101 that coil case 102 is fixed by electromagnetic force, form the dress being fixed on locating slot 2133 Ligand 10；In the present embodiment, has the characteristics that magnetic conduction by magnetic core A100 and magnetic core B101, by being arranged on locating slot 2133 Controllable electromagnetic force make both have it is magnetic after, the two is fixed coil case and middle position with magnetic adsorptive power, is realized The fast transfer of assembly 10.

Further, as shown in Fig. 1,5 and 8, the translation component 23 includes the shift direction sliding setting along assembly In the mounting base 231 in the rack 11, the rack gear 232 for being set to 231 side of mounting base, the biography that is engaged with the rack gear 232 Driving wheel 233 and the motor 234 for being installed in the mounting base 231 and being fixedly connected with the driving wheel 233；Described flexible group Part 22 includes the bracket 221 that is fixedly installed in the mounting base 231 and is installed on the bracket 221 and drives the slide unit 211 cylinders 222 moved back and forth, the slide unit 211 are set on the bracket 221；In the present embodiment, driving wheel 233 is Gear structure setting is nibbled while driving the rotation of driving wheel 233 by the motor 234 being set in mounting base 231 with rack gear 232 It closes, realizes the displacement of mounting base 231, it is mobile that synchronous drive is set to the telescopic component 22 in mounting base 231, wherein gas Cylinder 222 drives 21 horizontal reciprocating movement of positioning component, realizes that positioning component 21 is transferred to assembly section 16 after fixed to magnetic core A100 Top, the assembly after tin sticky is transferred to the top of guide component 52.

Further, as shown in fig. 6, the transmission component 33 be fixedly installed on the carrier 31 and with the tooth The rack structure of 2132 intermittent drives engagement is taken turns, length direction is identical as the translation moving direction of component 23, in this reality It applies in example, the gear 2132 and transmission during driving 213 displacement of positioning region by translation component 23, on positioning region 213 Component 33 is meshed, and realizes the autonomous rotation of positioning region 213.

Further, as shown in Fig. 1,6 and 9, the carrier 31 is fixedly connected with the rack 11 and is located at described turn The side of telephone-moving structure 2 comprising at least two guide rods 311 being arranged along its length, the placing modules 32 include sliding The placement rack 321 that is sheathed on the guide rod 311 is rotatably dispose on the placement rack 321 for being arranged the positioning column of film roll 322 and it is sheathed on spring 323 on the guide rod 311 and between the placement rack 321 and carrier 31, the spring 323 are located at the rear workshop section of the placement rack 321；The preload component 34 is elastic slice setting, and it is described fixed that middle part is rotatably dispose in The side of position column 322；In the present embodiment, it is supported by free end of the placement rack 321 to film roll, through pre-tightening component 34 The free end of film roll is limited, makes to be in contact in 10 moving process of assembly with the free end of film roll, then through being driven Component 33 drives positioning region 213 to rotate, and realizes the thinfilms to assembly 10, while 10 displacement of assembly, by Assembly 10 drives pressing to pre-tighten 34 movement synchronous belt of component thereon and moves the movement of placing modules 32, and the movement of placing modules 32 makes, Compression of the placement rack 321 to spring 323 is generated, with the continuous compression of spring 323, elastic force increases, so that pre-tightening Component 34 rotates, and synchronizes and squeezes film roll, realizes the tightening for the film being wound on assembly 10, when assembly is mobile When to cutter 35, film is cut off by the cutter 35 being fixedly installed along the vertical direction, passes through the elastic force of spring 323 Greater than the elastic force for pre-tightening component 34, assembly 10, which crosses preload component 34, to be made, and is attached at 10 table of assembly by preload component 34 Face interaction, by assembly 10 film free end pressing with assembly on after, placing modules 32 by spring 323 elastic masterpiece With reset.

Embodiment two

As shown in Figures 9 and 10, attached drawing mark corresponding with embodiment one is used with component identical or corresponding in embodiment one Note hereafter only describes the distinctive points with embodiment one for simplicity；The difference of the embodiment two and embodiment one exists In: the membrane coiler structure 3 further includes being set on the carrier 31 to put membrane module 36, this is put membrane module 36 and is located at described put Set the lower section of seat 321 comprising rub with the positioning column 322 coaxial arrangement and the friction pulley 361 being fixedly connected and positioned at this Wipe the side of wheel 361 and the friction block 362 with the setting of its discontinuous connection；When work, when the located portion 213 of placing modules 32 drives Moving along the outbound course of assembly 10 makes, and is contacted by friction block 362 with friction pulley 361, increases the rotary resistance of film roll, To make the film being wound on assembly 10 tighten；When placing modules 32 reset, pass through friction block 362 and friction pulley 361 Contact makes friction pulley 361 that film roll be driven to rotate clockwise, to realize the growth of film roll free end, realizes film roll Automatically film is put.

Further, as shown in figs. 1 and 4, the sequencing assembly A12, sequencing assembly B13 and sequencing assembly C14 include Multiple vibrating disks 121 arranged side by side and the locating slot 122 communicated therewith, on the sequencing assembly B13 and sequencing assembly C14 Locating slot 122 is in the same vertical plane, and the locating slot on the sequencing assembly A12 is located at the side of the assembly section 16, The quantity of vibrating disk 121 and locating slot 122 is four in the present embodiment.

Further, as shown in figures 4 and 11, the jacking component 15 is set to along the vertical direction in the rack 11, Including jacking part 151 and through the jacking part 151 driving move up and down jacking portion 152, the jacking portion 152 include with it is described fixed It multiple top pillars 1521 for being arranged in a one-to-one correspondence of position slot 122 and is set to 1521 top of top pillar and is equipped with magnetic core A Limited block 1522 is offered through the limited block on the locating slot 122 on the sequencing assembly B13 and sequencing assembly C14 1522 hoppers 1221 excessively passed through.

Further, as shown in figure 3, the guide component 52 is the inclined plate structure being obliquely installed, the assembly after tin sticky Body is after telescopic component 22 is transferred to the top of guide component, and the electromagnetic force on positioning component 21 disappears, and assembly falls within batch turning After on component 52, it is transmitted in splicing storehouse 53 through it.

Embodiment three

One of the present embodiment inductance full-automatic production process is described according to Figure of description 12.

The utility model additionally provides a kind of inductance full-automatic production process, comprising the following steps:

(a) sort sections, magnetic core A100, magnetic core B101 and coil case 102 distinguish ranked component A12, sequencing assembly B13, sequence group C14 are successively sorted；

(b) assembled portion is moved down after the step a by the locating slot 2133 on positioning component 21 with magnetic-adsorption Mode by magnetic core A100 positioning engaging in locating slot 2133 after move up, then magnetic core A100 is moved to jacking through telescopic component 22 The top of component 15, by jacking component 15 from bottom to top successively by magnetic core B101 and coil case 102 push in magnetic core A100 with Its fitting forms the assembly 10 being adsorbed on locating slot 2133 by electromagnetic force；

(c) around membrane part, after the step (c), assembly is driven in a manner of orienting and move horizontally by translating component 23 During body 10 is mobile, through the preload component 34 on membrane coiler structure 3 with elastic force film is attached on assembly 10 after, by Transmission component 33 drives the positioning region 213 on positioning component 21 to rotate, by thinfilms after on the outer peripheral surface of assembly 10, then Cutoff process is carried out to film with hot melting way through cutter 35；

(d) tin sticky part, after the step (c), translation component 23 drives the assembly 10 after film to enter tin sticky work Behind position, the assembly 10 after film is displaced downwardly to by the driving portion 214 on positioning component 21 and is contacted with the tin liquor in tin liquor storehouse 51, It realizes to stitch tin sticky on assembly, forms finished product inductance；And

(e) output par, c, after step (d), driving portion 214 is moved up with dynamic inductance, then is shifted through telescopic component 22 To the top of guide component 52, the electromagnetic force on locating slot 2133 is disconnected, inductance is fallen in splicing storehouse 53 through guide component 52.

It further, further include resetting film-putting part point, it, will with elastic force by pre-tightening component 34 after the step (c) After film after cutting is attached on assembly 10, assembly 10 is separated with component 34 is pre-tightened, and passes through the spring on membrane coiler structure 3 323 reset placing modules 32 with elastic force, by the friction block 362 on membrane coiler structure 3 with frictional force in its reseting procedure Positioning column 322 on driving driving placing modules 32 reverses, and that realizes film roll puts film automatically.

In the present invention, it is to be understood that: term " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", " up time The orientation or positional relationship of the instructions such as needle ", " counterclockwise " are to be based on the orientation or positional relationship shown in the drawings, merely to just In description the utility model and simplify description, rather than the specific side that the equipment of indication or suggestion meaning or element must have Position is constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.

In addition, term " first ", " second " are used for description purposes only, it is not understood to indicate or imply opposite important Property or implicitly indicate the quantity of indicated technical characteristic.Therefore, define " first ", the feature of " second " can be expressed or Person implicitly includes one or more of the features.In the description of the utility model, the meaning of " plurality " is two or two More than a, unless otherwise specifically defined.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, the variation that anyone skilled in the art can readily occur under the technical clarification of the utility model Or replacement, as made assembly by driving the intermittent drive in assembly transfer process with membrane coiler structure by group transfer device With autonomous rotating manner by thinfilms thereon, realize assembly transfer process in the automatic design concept around film, all answer Cover and is within the protection scope of the utility model.Therefore, the protection scope of the utility model should be with the guarantor of claims It protects subject to range.

Claims (8)

1. a kind of inductance automatic production line characterized by comprising

Assembling mechanism (1), the assembling mechanism (1) include rack (11), be set in the rack (11) and from top to down according to The sequencing assembly A (12) of secondary distribution, sequencing assembly B (13), sequencing assembly C (14) and it is set to the sequencing assembly C (14) Lower section and jacking component (15), the top of the jacking component (15) forms assembly section (16)；

Transfer device (2), the transfer device (2) are installed on the rack (11) and are located at the sequencing assembly A (12) Top comprising be moved to the jacking for the positioning component (21) of magnetic core A (100) positioning aid, drive magnetic core A (100) The translation component (23) of telescopic component (22) and drive assembly (10) orientation transfer above component (15)；

Membrane coiler structure (3), the membrane coiler structure (3) are located at the rear workshop section of the positioning component (21) comprising carrier (31), It is set on the carrier (31) for placing placing modules (32), driving positioning component (21) intermittent rotation of film roll Transmission component (33), be installed on the placing modules (32) free end of film roll be attached on the side of assembly It pre-tightens component (34) and is set to cutter (35) of the rear workshop section for film cutoff process of the placing modules (32), it is described It pre-tightens component (34) and the positioning component (21) discontinuous connection is arranged；And

Tin sticky output mechanism (5), the tin sticky output mechanism (5) are located at the rear workshop section of the membrane coiler structure (3) comprising tin liquor Storehouse (51), the guide component (52) being located on the outside of the tin liquor storehouse (51) and the splicing storehouse being placed in below the guide component (52) (53)。

2. a kind of inductance automatic production line according to claim 1, which is characterized in that the assembling mechanism (1) and institute It states tin sticky output mechanism (5) to be arranged side by side, and through the assembling mechanism (1) to extend to the tin sticky defeated for the translation component (23) Out in mechanism (5).

3. a kind of inductance automatic production line according to claim 1, which is characterized in that positioning component (21) setting In on the telescopic component (22), which includes the slide unit being slideably positioned on the telescopic component (22) (211), the connecting plate (212) that is slideably positioned on the slide unit (211), multiple be rotatably dispose on the connecting plate (212) are determined The driving portion (214) that position portion (213) and the driving connecting plate (212) move up and down, the driving portion (214) are fixedly installed on On the slide unit (211).

4. a kind of inductance automatic production line according to claim 3, which is characterized in that the positioning region (213) is along institute The shift direction for stating assembly is uniformly spaced setting comprising runs through the shaft of the connecting plate (212) along the vertical direction (2131), it is fixedly installed on the gear (2132) and locating slot (2133) of shaft (2131) upper and lower ends, the locating slot respectively (2133) it is arranged for electromagnetism and it is equipped with the magnetic core A (100), the locating slot (2133) makes magnetic core by electromagnetic force A (100) and magnetic core B (101) are fixed by coil case (102), form the assembly (10) being fixed on locating slot (2133).

5. a kind of inductance automatic production line according to claim 3, which is characterized in that the translation component (23) includes The mounting base (231) that is slideably positioned on the rack (11) along the shift direction of assembly is set to the mounting base (231) one The rack gear (232) of side, the driving wheel (233) engaged with the rack gear (232) and be installed on the mounting base (231) and with institute State the motor (234) that driving wheel (233) is fixedly connected；The telescopic component (22) includes being fixedly installed on the mounting base (231) bracket (221) on and it is installed on the cylinder for driving the slide unit (211) to move back and forth on the bracket (221) (222), the slide unit (211) is set on the bracket (221).

6. a kind of inductance automatic production line according to claim 4, which is characterized in that the transmission component (33) is solid Surely the rack structure for being set on the carrier (31) and being engaged with the gear (2132) intermittent drive, length direction with The moving direction of translation component (23) is identical.

7. a kind of inductance automatic production line according to claim 1, which is characterized in that the carrier (31) with it is described Rack (11) is fixedly connected and is located at the side of the transfer device (2) comprising at least two are arranged along its length Guide rod (311), the placing modules (32) include placement rack (321), the rotation setting that sliding sleeve is set on the guide rod (311) In on the placement rack (321) for be arranged the positioning column (322) of film roll and be sheathed on the guide rod (311) and be located at institute The spring (323) between placement rack (321) and carrier (31) is stated, which is located at the rear work of the placement rack (321) Section；The preload component (34) is elastic slice setting, and middle part is rotatably dispose in the side of the positioning column (322).

8. a kind of inductance automatic production line according to claim 7, which is characterized in that the membrane coiler structure (3) is also wrapped It includes to be set on the carrier (31) and puts membrane module (36), this is put membrane module (36) and is located under the placement rack (321) Side comprising with the positioning column (322) coaxial arrangement and the friction pulley (361) being fixedly connected and positioned at the friction pulley (361) side and the friction block (362) with the setting of its discontinuous connection.