CN114474512A - Integrative device of tectorial membrane frictioning oils - Google Patents

Abstract

The utility model relates to an integrative device of tectorial membrane frictioning oils belongs to the field of combined material shaft tower production facility, including being used for supporting the mould and rotating the support frame of being connected with the mould, support frame one side is equipped with and is on a parallel with the guide rail of support frame, sliding connection has the base on the guide rail, base one end is equipped with the actuating mechanism that the drive base removed, be equipped with operating device on the base, operating device includes the axis of rotation with base swing joint, be equipped with subassembly, tectorial membrane subassembly and the frictioning subassembly that oils in the axis of rotation. The method and the device have the advantages that convenience in process operation is improved, and further work efficiency is improved.

Description

Integrative device of tectorial membrane frictioning oils

Technical Field

The application relates to the field of composite material tower production equipment, in particular to an oiling, film covering and glue scraping integrated device.

Background

At present, the requirements of modern industries on the reliability, safety and high efficiency of power supply and communication are gradually increased, and the demand of power load is gradually increased, so that power transmission networks and power industries face more severe tests. The pole tower occupies very important position in transmission line, compares traditional cement shaft tower and iron tower, and the combined material pole tower all has apparent superiority in aspects such as construction, transportation, installation and maintenance, therefore the combined material pole tower has increasingly extensive development prospect.

In the production process of the composite material tower, the tower is formed by winding the mould through the glue-coated yarns, the mould is rotatably arranged on the support frame before the yarns are wound on the mould, then the mould is sequentially coated with the oil and coated with the film, so that the tower can be completely taken off from the mould in the later demoulding process, and after the yarns are wound on the mould, the glue on the tower needs to be scraped, so that the glue is uniformly distributed, and the forming quality of the tower is improved.

In view of the above related technologies, the inventor thinks that in the processes of oiling, laminating and frictioning, workers need to select corresponding tools according to different processes to operate, thereby resulting in low working efficiency.

Disclosure of Invention

In order to improve the convenience of technology operation, and then improve work efficiency, this application provides an integrative device of tectorial membrane frictioning oils.

The application provides a pair of integrative device of tectorial membrane frictioning oils adopts following technical scheme:

the utility model provides an integrative device of tectorial membrane frictioning oils, is including being used for supporting the mould and rotating the support frame of being connected with the mould, support frame one side is equipped with and is on a parallel with the guide rail of support frame, sliding connection has the base on the guide rail, base one end is equipped with the actuating mechanism that the drive base removed, be equipped with operating mechanism on the base, operating mechanism include the axis of rotation with base swing joint, be equipped with subassembly, tectorial membrane subassembly and the frictioning subassembly of oiling in the axis of rotation.

Through adopting above-mentioned technical scheme, after rotating the connection mould on the support frame, the relative base activity of axis of rotation, make the subassembly that oils aim at the mould, and oil to the mould, actuating mechanism drive base removes to the other end of mould from the one end of mould this moment, rotate the mould simultaneously, can oil on all surfaces of mould from this, accomplish the work of oiling after, axis of rotation once more moves, make tectorial membrane subassembly aim at the mould, in-process that the base removed, with the film cladding gradually on global of mould, after the winding rubberizing yarn that takes on the mould, the axis of rotation is movable once more, make the frictioning subassembly aim at the mould, thereby glue evenly distributed on the mould, improve the shaping quality of shaft tower, from this reduce manual operation, need not to look for the instrument that corresponds technology many times simultaneously, improve the convenience of technology, thereby improve work efficiency.

It is optional, be equipped with the support sleeve that the axis is on a parallel with the guide rail on the base, three constant head tank has been seted up to support sleeve one end, and is three the constant head tank winds support sleeve's axis evenly distributed, set up in the support sleeve the axis of rotation, the axis of rotation passes through fixing bolt and can dismantle with the support sleeve and be connected, be equipped with three connecting rod in the axis of rotation, the connecting rod with constant head tank one-to-one and sliding connection, it is three the one end that the axis of rotation was kept away from to the connecting rod is located the support sleeve outside, and one the connecting rod is located the outer one end setting of support sleeve the subassembly that oils, one the connecting rod is located the outer one end setting of support sleeve the tectorial membrane subassembly, one the connecting rod is located the outer one end setting of support sleeve the frictioning subassembly.

Through adopting above-mentioned technical scheme, when needing to be changed the subassembly that oils, tectorial membrane subassembly and frictioning subassembly, unscrew fixing bolt, along supporting sleeve's axis translation axis of rotation, break away from the constant head tank until the connecting rod, rotatory axis of rotation afterwards, when required operating device aimed at the mould, the axis of rotation was followed supporting sleeve's the reverse translation of axis, made the connecting rod insert the constant head tank once more in, screwed up fixing bolt afterwards to fixed axis of rotation and supporting sleeve improve operating device's stability.

Optionally, the subassembly that oils includes brush holder and brush hair, brush holder one end with connecting rod threaded connection, the other end with the brush hair is connected, the brush holder top is equipped with the orientation the nozzle of brush hair, be equipped with the batch oil tank on the base, the nozzle with be equipped with the hydraulic pump of connecting between them between the batch oil tank.

Through adopting above-mentioned technical scheme, when going up the oil subassembly and aim at the mould, the brush hair butt is on the global of mould, and in the hydraulic pump went into the nozzle with the oil pump in the batch oil case simultaneously, the nozzle sprayed oil to mould and brush hair afterwards, and at the mould rotation and the in-process that the base removed, the brush hair was evenly oiled on the global of mould.

Optionally, the tectorial membrane subassembly includes the mount of being connected with the connecting rod, can dismantle on the mount and be connected with the bracing piece, the bracing piece outside cover is equipped with the rotation axle sleeve that is used for placing the film book, rotate the axle sleeve with the bracing piece passes through the bearing and rotates the connection.

Through adopting above-mentioned technical scheme, dismantle the bracing piece from the mount, the film is rolled up and is cup jointed in the outside that rotates the axle sleeve, installs the bracing piece on the mount again afterwards, when the one end of film was fixed with the mould, the base removed and makes the film roll up by the tear, and the film is rolled up and is unreeled and with the film cladding on the mould at the rotation in-process.

Optionally, the frictioning subassembly includes the locating piece with connecting rod threaded connection, the one end that the connecting rod was kept away from to the locating piece is equipped with the scraper blade, the one end that the scraper blade is close to the locating piece is equipped with the guide bar, the guide bar passes the locating piece and with locating piece sliding connection, the locating piece with be equipped with the cover between the scraper blade and establish the spring in the guide bar outside, spring one end with locating piece fixed connection, the other end with scraper blade fixed connection.

Through adopting above-mentioned technical scheme, after the frictioning subassembly aims at the mould, the spring promotes the scraper blade and removes towards the mould to support tight mould, wherein the guide bar keeps the angle of the axis of the relative mould of scraper blade unchangeable, thereby improve the effect of frictioning, when the size of mould changes, can be through rotating the locating piece, adjust the distance between locating piece and the mould, can also adjust the angle of the relative mould axis of scraper blade simultaneously, can adjust suitable frictioning mode according to the specification of mould from this, improve the efficiency and the quality of frictioning.

Optionally, the driving mechanism comprises chain wheels arranged at two ends of the guide rail and a chain connected with the two chain wheels, the base is fixedly connected with the chain, and the driving mechanism further comprises a servo motor driving the chain wheels.

Through adopting above-mentioned technical scheme, servo motor drive sprocket rotates, drives the chain and rotates to make the base remove under the tractive of chain.

Optionally, a guide groove parallel to the guide rail is formed in the guide rail, and a roller inserted into the guide groove is arranged at the lower end of the base.

Through adopting above-mentioned technical scheme, the base passes through the gyro wheel and moves on the guide rail, reduces frictional resistance, reduces energy consumption, and the cooperation of gyro wheel and guide way makes the base remove more stably simultaneously.

Optionally, a rotating mechanism for driving the mold to rotate is arranged on one side of the support frame, the rotating mechanism comprises a driving motor arranged on the support frame, a connecting sleeve is connected to an output shaft of the driving motor in a sliding mode, a clamping block is arranged at one end, far away from the driving motor, of the connecting sleeve, and a clamping groove for inserting the clamping block is formed in the end portion of the mold.

Through adopting above-mentioned technical scheme, remove connecting sleeve, make in the fixture block pegs graft the draw-in groove, driving motor drive connecting sleeve rotates to drive the mould and rotate, when connecting sleeve kept away from the mould, fixture block and draw-in groove separation can break away from the mould from the support frame, and the mould dismouting is efficient from this.

Optionally, an annular connecting groove is formed in the outer side of the connecting sleeve, a poke rod inserted into the connecting groove is arranged above the connecting sleeve, a rotating rod is rotatably connected to the supporting frame, and the rotating rod is fixedly connected with the poke rod.

Through adopting above-mentioned technical scheme, rotatory dwang makes the poker rod stir the lateral wall of spread groove to make adapter sleeve along the output shaft translation of motor, conveniently remove adapter sleeve from this.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the working mechanism consists of an oiling assembly, a film covering assembly and a glue scraping assembly, so that the oiling, film covering and glue scraping processes of the die are convenient and quick, the labor intensity of manpower is reduced, and the working efficiency is improved;

2. the locating piece and the connecting rod threaded connection in the frictioning subassembly make the locating piece can adjust the distance and the angle of relative mould, make the scraper blade can adapt to the mould of different specifications, improve the effect and the quality of frictioning.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present application.

Fig. 2 is a schematic view of a connection structure of the mold and the rotation mechanism.

Fig. 3 is a schematic structural view of the drive mechanism.

Fig. 4 is a schematic structural view of the working mechanism.

FIG. 5 is a schematic structural view of a membrane module.

Fig. 6 is a schematic structural view of the squeegee assembly.

Description of reference numerals: 1. a support frame; 11. a supporting bracket; 12. a support roller; 13. a rotation mechanism; 131. a drive motor; 132. a connecting sleeve; 133. a slider; 134. a sliding groove; 135. a clamping block; 136. connecting grooves; 137. a poke rod; 138. rotating the rod; 2. a mold; 21. a card slot; 3. a guide rail; 31. a guide groove; 4. a base; 41. a roller; 5. a drive mechanism; 51. a sprocket; 52. a chain; 53. a servo motor; 6. a working mechanism; 61. a support sleeve; 611. positioning a groove; 62. a rotating shaft; 621. a limiting block; 622. a first connecting rod; 623. a second connecting rod; 624. a third connecting rod; 63. fixing the bolt; 64. oiling the assembly; 641. a brush handle; 642. brushing; 643. a nozzle; 644. an oil storage tank; 645. a hydraulic pump; 65. a film covering assembly; 651. a fixed mount; 652. a groove; 653. a support bar; 654. fixing a nut; 655. rotating the shaft sleeve; 656. a baffle plate; 657. film roll; 66. a glue scraping component; 661. a connecting plate; 662. a screw; 663. a squeegee; 664. a guide bar; 665. a fixed block; 666. a spring.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses integrative device of tectorial membrane frictioning oils. Referring to fig. 1, the integrative device of tectorial membrane frictioning oils is fixed with the guide rail 3 that is on a parallel with 2 axes of mould including the support frame 1 that is used for supporting 2 moulds of mould on one side of the support frame 1, and sliding connection has operating device 6 on the guide rail 3, and operating device 6 removes along the direction that is on a parallel with 2 axes of mould, and at this in-process, operating device 6 oils, tectorial membrane and frictioning work to 2 moulds of mould.

Referring to fig. 1 and 2, support brackets 11 are fixed above both ends of the support frame 1, and the two support brackets 11 are arranged oppositely. The upper end of the support bracket 11 is rotatably connected with two parallel support rollers 12, the end part of the mold 2 is positioned between the two support rollers 12 and is simultaneously overlapped on the side walls of the two support rollers 12, and the mold 2 can rotate relative to the support frame 1 under the support of the support rollers 12.

A rotating mechanism 13 for driving the mold 2 to rotate is further arranged at one end of the support frame 1, the rotating mechanism 13 comprises a driving motor 131 fixed on the support frame 1, an output shaft of the driving motor 131 faces the end of the mold 2, and an axis of the output shaft of the driving motor 131 coincides with an axis of the mold 2. One end of the output shaft of the driving motor 131 close to the die 2 is slidably connected with a connecting sleeve 132, a sliding block 133 parallel to the output shaft is fixed on the output shaft of the driving motor 131, a sliding groove 134 matched with the sliding block 133 is formed in the connecting sleeve 132, and the sliding block 133 is inserted in the sliding groove 134 and slides along the sliding groove 134. The fixture block 135 is fixed at one end of the connecting sleeve 132 close to the mold 2, the clamping groove 21 is formed at one end of the mold 2 close to the connecting sleeve 132, and the fixture block 135 and the clamping groove 21 can be inserted into or separated from each other by moving the connecting sleeve 132.

After mould 2 is hoisted to support frame 1 top, mould 2 tip descends to the overlap joint on backing roll 12, removes connecting sleeve 132, pegs graft in draw-in groove 21 until fixture block 135, and driving motor 131 rotates through drive connecting sleeve 132 to drive mould 2 and rotate, make things convenient for operating device 6 to oil, tectorial membrane and frictioning work on mould 2 global.

Referring to fig. 1 and 2, in order to facilitate moving the connection sleeve 132, an annular connection groove 136 is formed in an outer side of the connection sleeve 132, toggle rods 137 inserted into the connection groove 136 are respectively disposed on upper and lower sides of the connection sleeve 132, a rotation rod 138 rotatably connected to the support frame 1 is disposed on one side of the connection sleeve 132, and the rotation rod 138 is fixedly connected to the two toggle rods 137. Rotating the rotating rod 138, the tap rod 137 rotates with the rotating rod 138, and the tap rod 137 taps the connection sleeve 132 to move within the connection groove 136, thereby rapidly adjusting the position of the connection sleeve 132.

Referring to fig. 1 and 3, a base 4 is slidably connected above the guide rail 3 on one side of the support frame 1, and the operating mechanism 6 is arranged on the base 4. The rollers 41 are fixed on two sides of the lower end of the base 4, the upper end face of the guide rail 3 is provided with two guide grooves 31 parallel to the guide rail 3, and the rollers 41 are inserted into the corresponding guide grooves 31 and roll along the guide grooves 31. The guide rail 3 is further provided with a driving mechanism 5 for driving the base 4 to translate along the guide groove 31.

The driving mechanism 5 comprises chain wheels 51 rotatably connected to two ends of the guide rail 3, a servo motor 53 is fixed to one end of the guide rail 3, and an output shaft of the servo motor 53 is fixedly connected with one of the chain wheels 51 and used for driving the chain wheel 51 to rotate. A chain 52 for connecting the two chain wheels 51 is arranged between the two chain wheels 51, the chain 52 is arranged below the base 4 and positioned between the two guide grooves 31, and meanwhile, the lower end face of the base 4 is fixedly connected with one section of the chain 52. The servo motor 53 drives the chain wheel 51 to rotate, and drives the chain 52 to pull the base 4 to translate, so that the base 4 drives the working mechanism 6 to translate on one side of the mold 2.

Referring to fig. 1 and 4, the working mechanism 6 includes a support sleeve 61, a rotating shaft 62, a oiling assembly 64, a film coating assembly 65 and a glue scraping assembly 66, wherein the support sleeve 61 is above the base 4 and is fixedly connected with the base 4. The rotating shaft 62 is inserted into the support sleeve 61 and is rotatably connected to the support sleeve 61. A fixing bolt 63 is arranged outside the support sleeve 61, the fixing bolt 63 penetrates through the support sleeve 61 and is inserted into the rotating shaft 62, and the fixing bolt 63 is in threaded connection with the support sleeve 61, so that the support sleeve 61 is fixedly connected with the rotating shaft 62 through the fixing bolt 63.

One end of the supporting sleeve 61 is provided with three positioning grooves 611 uniformly distributed around the axis of the supporting sleeve 61, one end of the rotating shaft 62 is fixed with connecting rods corresponding to the positioning grooves 611 one to one, the connecting rods penetrate through the positioning grooves 611 and are slidably connected with the positioning grooves 611, and the three connecting rods are a first connecting rod 622, a second connecting rod 623 and a third connecting rod 624 respectively. The end of the rotating shaft 62 remote from the connecting rod passes through the support sleeve 61 and is fixed with a stopper 621. The oiling assembly 64 is arranged at one end of the first connecting rod 622 located at the supporting sleeve 61, the film covering assembly 65 is arranged at one end of the second connecting rod 623 located at the supporting sleeve 61, and the glue scraping assembly 66 is arranged at one end of the third connecting rod 624 located at the supporting sleeve 61.

When the work mechanism 6 needs to be adjusted, the fixing bolt 63 is unscrewed, the limiting block 621 is pushed to move towards the supporting sleeve 61, the connecting rod is separated from the positioning groove 611, the rotating shaft 62 is rotated later, the oiling component 64, the film covering component 65 or the glue scraping component 66 are aligned to the mold 2, the limiting block 621 is pulled to be away from the supporting sleeve 61, the connecting rod is inserted into the positioning groove 611 again, the supporting sleeve 61 and the rotating shaft 62 are fixed through the fixing bolt 63 again, and therefore oiling, film covering or glue scraping work is conducted.

When oiling is required on the peripheral surface of the mold 2, the oiling assembly 64 is aligned to the mold 2. The oiling assembly 64 includes a brush handle 641 disposed at an end of the first connecting rod 622, wherein one end of the brush handle 641 is screwed with the first connecting rod 622, and the other end is fixed with bristles 642, and the bristles 642 are abutted against the peripheral surface of the mold 2. Above brush holder 641, nozzle 643 facing mold 2 is fixed, oil reservoir 644 is fixed to base 4, hydraulic pump 645 is fixed to oil reservoir 644, and nozzle 643 communicates with oil reservoir 644 through hydraulic pump 645.

When the bristles 642 abut on the circumferential surface of the mold 2, the hydraulic pump 645 pumps oil in the oil reservoir 644 into the nozzle 643 and then sprays the oil onto the mold 2 through the nozzle 643, and the bristles 642 uniformly spread the oil on the surface of the mold 2 during the rotation of the mold 2.

Referring to FIGS. 1 and 5, after the oiling operation on the peripheral surface of the mold 2 is completed, a film is coated on the peripheral surface of the mold 2, and the film coating assembly 65 is aligned with the mold 2. The film covering assembly 65 comprises a U-shaped fixing frame 651, the middle of the fixing frame 651 is fixedly connected with the end portion of the second connecting rod 623, grooves 652 are formed in two ends of the fixing frame 651, and the two grooves 652 are arranged oppositely. A supporting rod 653 is arranged in the fixing frame 651, two ends of the supporting rod 653 respectively penetrate through the two opposite grooves 652 and are in sliding connection with the grooves 652, fixing nuts 654 are connected to the ends of the supporting rod 653 penetrating through the grooves 652 in a threaded manner, the two fixing nuts 654 abut against two sides of the fixing frame 651, and the supporting rod 653 is fixedly connected with the fixing frame 651 through the fixing nuts 654.

The outer side of the supporting rod 653 is sleeved with a rotating shaft sleeve 655, the supporting rod 653 is rotatably connected with the rotating shaft sleeve 655 through a bearing, the outer side of the rotating shaft sleeve 655 is sleeved with a film roll 657, a baffle 656 abutted against the end part of the film roll 657 is fixed on the outer side of one end of the rotating shaft sleeve 655, and when the film covering assembly 65 faces the mold 2, the baffle 656 is positioned below the film roll 657.

When the film covering operation is performed, one end of the film roll 657 is fixed with the mold 2, and when the base 4 moves, the film roll 657 is pulled to drive the rotating shaft sleeve 655 to rotate, so that the film roll 657 is unreeled, and the film is covered on the outer side of the mold 2.

Referring to fig. 1 and 6, when the yarn with glue is wound around the circumferential surface of the mold 2, the doctor assembly 66 is aligned with the mold 2 and performs a doctor work on the glue on the surface of the mold 2. The frictioning assembly 66 comprises a positioning block, the positioning block comprises a connecting plate 661 and a screw 662, the screw 662 is fixed on one side of the connecting plate 661, and the screw 662 is inserted into the third connecting rod 624 and is in threaded connection with the third connecting rod 624. A scraper 663 is arranged on the other side of the connecting plate 661, a guide rod 664 is fixed at two ends of one side of the connecting rod of the scraper 663, and one end, far away from the scraper 663, of the guide rod 664 penetrates through the connecting plate 661 and is in sliding connection with the connecting plate 661. Two fixing blocks 665 are fixed to the guide bar 664, and the two fixing blocks 665 are located on both sides of the connecting plate 661. The guide rod 664 is sleeved with a spring 666 positioned between the connecting plate 661 and the scraper 663, one end of the spring 666 is fixedly connected with the fixing block 665, and the other end of the spring 666 is fixedly connected with the connecting plate 661.

When the scraper 663 is aligned with the mold 2, the screw 662 is rotated to adjust the distance between the scraper 663 and the mold 2 and the angle between the scraper 663 and the mold 2, and the spring 666 pushes the scraper 663 to be always tightly abutted against the mold 2, so that the scraper 663 can adapt to molds 2 with different diameters, and the glue scraping effect is improved.

The implementation principle of the integrative device of tectorial membrane frictioning oils of this application embodiment does: after the mold 2 is lifted on the support frame 1, the connecting sleeve 132 is moved to enable the fixture blocks 135 to be inserted into the clamping grooves 21 at the end parts of the mold 2, the driving motor 131 drives the mold 2 to rotate, the servo motor 53 drives the base 4 to move, so that the working mechanism 6 is driven to translate, and at the moment, the oiling assembly 64 aligns to the mold 2 through the nozzles 643 and the bristles 642 and performs oiling work on the mold 2;

after oiling is completed, the fixing bolt 63 is unscrewed, the rotating shaft 62 is rotated to align the film coating assembly 65 with the mold 2, and the rotating shaft 62 is fixed again, so that film coating work is performed on the mold 2;

after the mould 2 finishes the winding work of the yarn, the glue on the mould 2 needs to be cleaned and homogenized, at the moment, the glue scraping component 66 is aligned with the mould 2, the scraper 663 moves to the base 4, and the glue on the mould 2 is scraped, so that the glue on the mould 2 is uniformly distributed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides an integrative device of tectorial membrane frictioning oils, is including being used for supporting mould (2) and rotating support frame (1) of being connected with mould (2), its characterized in that: support frame (1) one side is equipped with and is on a parallel with guide rail (3) of support frame (1), sliding connection has base (4) on guide rail (3), base (4) one end is equipped with actuating mechanism (5) that drive base (4) removed, be equipped with operating device (6) on base (4), operating device (6) include axis of rotation (62) with base (4) swing joint, be equipped with oiling subassembly (64), tectorial membrane subassembly (65) and frictioning subassembly (66) on axis of rotation (62).

2. The integrative device of oiling tectorial membrane frictioning of claim 1, characterized in that: be equipped with support sleeve (61) that the axis is on a parallel with guide rail (3) on base (4), three constant head tank (611) have been seted up to support sleeve (61) one end, and three constant head tank (611) winds the axis evenly distributed of support sleeve (61), set up in support sleeve (61) axis of rotation (62), axis of rotation (62) can be dismantled with support sleeve (61) through fixing bolt (63) and be connected, be equipped with three connecting rod on axis of rotation (62), the connecting rod with constant head tank (611) one-to-one and sliding connection, three the one end that axis of rotation (62) were kept away from to the connecting rod is located the support sleeve (61) outside, and one the one end that the connecting rod is located support sleeve (61) sets up oiling subassembly (64), one the one end that the connecting rod is located support sleeve (61) outside sets up tectorial membrane subassembly (65), one end of the connecting rod, which is positioned outside the supporting sleeve (61), is provided with the glue scraping component (66).

3. The oiling, laminating and frictioning integrated device according to claim 2, characterized in that: the oiling assembly (64) comprises a brush holder (641) and bristles (642), one end of the brush holder (641) is in threaded connection with the connecting rod, the other end of the brush holder is connected with the bristles (642), a nozzle (643) facing the bristles (642) is arranged above the brush holder (641), an oil storage tank (644) is arranged on the base (4), and a hydraulic pump (645) for connecting the nozzle (643) and the oil storage tank (644) is arranged between the nozzle (643) and the oil storage tank.

4. The integrative device of oiling tectorial membrane frictioning of claim 2, characterized in that: tectorial membrane subassembly (65) include mount (651) of being connected with the connecting rod, can dismantle on mount (651) and be connected with bracing piece (653), bracing piece (653) outside cover is equipped with rotation axle sleeve (655) that are used for placing film book (657), rotation axle sleeve (655) with bracing piece (653) pass through the bearing and rotate the connection.

5. The integrative device of oiling tectorial membrane frictioning of claim 2, characterized in that: frictioning subassembly (66) include the locating piece with connecting rod threaded connection, the one end that the connecting rod was kept away from to the locating piece is equipped with scraper blade (663), the one end that scraper blade (663) are close to the locating piece is equipped with guide bar (664), guide bar (664) pass the locating piece and with locating piece sliding connection, the locating piece with be equipped with between scraper blade (663) and establish spring (666) in the guide bar (664) outside, spring (666) one end with locating piece fixed connection, the other end with scraper blade (663) fixed connection.

6. The integrative device of oiling tectorial membrane frictioning of claim 1, characterized in that: drive mechanism (5) including set up sprocket (51) at guide rail (3) both ends and chain (52) of connecting two sprocket (51), base (4) with chain (52) fixed connection, drive mechanism (5) still include servo motor (53) of drive sprocket (51).

7. The integrative device of oiling tectorial membrane frictioning of claim 6, characterized in that: the guide rail (3) is provided with a guide groove (31) parallel to the guide rail (3), and the lower end of the base (4) is provided with a roller (41) inserted in the guide groove (31).

8. The integrative device of oiling tectorial membrane frictioning of claim 1, characterized in that: support frame (1) one side is equipped with drive mould (2) pivoted rotary mechanism (13), rotary mechanism (13) are including setting up driving motor (131) on support frame (1), sliding connection has connecting sleeve (132) on the output shaft of driving motor (131), the one end that driving motor (131) were kept away from in connecting sleeve (132) is equipped with fixture block (135), draw-in groove (21) that are used for grafting fixture block (135) are seted up to mould (2) tip.

9. The integrative device of oiling tectorial membrane frictioning of claim 8, characterized in that: annular connecting groove (136) have been seted up in connecting sleeve (132) outside, connecting sleeve (132) top is equipped with poker rod (137) of pegging graft in connecting groove (136), it is connected with dwang (138) to rotate on support frame (1), dwang (138) and poker rod (137) fixed connection.

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