CN114156708A

CN114156708A - Wind power ring piece with built-in check ring adjusting structure and adjusting method thereof

Info

Publication number: CN114156708A
Application number: CN202111270084.7A
Authority: CN
Inventors: 赵�卓; 蔡锟
Original assignee: Anhui Tongsheng Ring Parts Co ltd
Current assignee: Anhui Tongsheng Ring Parts Co ltd
Priority date: 2021-10-29
Filing date: 2021-10-29
Publication date: 2022-03-08
Anticipated expiration: 2041-10-29
Also published as: CN114156708B

Abstract

The invention discloses a wind power ring with a built-in check ring adjusting structure and an adjusting method thereof, the wind power ring comprises a ring shell, an outer check panel, a screw panel, a nested screw, a buckle nut, an outer check sleeve assembly, a check ring adjusting assembly and an inner check sleeve assembly, the check ring adjusting assembly is taken out of the ring shell, the extending length of the tail end of an adjusting lock catch is controlled by an operating handle so as to be adapted to the corresponding ring shell, the check ring adjusting assembly is put into the ring shell again, the adjusting lock catch is nested in a buckle hole with the adapted height, a blade component outside a windmill is nested on the inner side of the upper end of the ring shell, a fixed folded plate is arranged in an inner chute in a chute plate, the fixed folded plate is fixed by a positioning bolt, then the fixed folded plate is fixed with the outer blade component by an outer bolt, the isolation of an outer blade and an inner component is realized, and the adjusting and assembling processes are convenient and rapid, the problem that the retaining ring rocks can not appear in outside blade operation in-process.

Description

Wind power ring piece with built-in check ring adjusting structure and adjusting method thereof

Technical Field

The invention relates to the technical field of wind power ring pieces, in particular to a wind power ring piece with a built-in check ring adjusting structure and an adjusting method thereof.

Background

The wind power slip ring is a special type of conductive slip ring applied to the field of wind power, and is a precise power transmission device for realizing relative rotation of a power supply and a control signal between a fixed part and a rotating blade part of a fan variable pitch mechanism, and has the characteristics of large transmission current, multiple loops, stable operation, low electrical noise, compact structure, long service life, convenient maintenance and the like, the basic principle of the wind power slip ring is to realize the current transmission between the two parts in a sliding contact mode between an elastic electric brush and a cylindrical slip ring, and the wind power slip ring mainly comprises a conductive shaft, an electric brush assembly, a support, a bearing, an outer cover, a bearing end cover, an industrial connector and the like, wherein the conductive shaft is a rotating body and is a rotating part in the slip ring, the conductive shaft is connected with the rotating blade part in a variable pitch mechanism system, the electric brush assembly is arranged on the support and is used as a fixed part in the slip ring, then be connected with the fixed part in the oar mechanism system that becomes, transmit power supply and control signal for the blade subassembly through transmission cable, realize the accurate operation control to the blade subassembly.

Patent number CN202021908011.7 provides a wind-powered electricity generation ring spare of built-in adjustable retaining ring, wherein spring washer and retaining ring contact, the thickness value of retaining ring is greater than spring washer's thickness value, be equipped with spacing annular and counter bore thread groove on the ring main part lateral wall, the counter bore thread groove is used for installing the fore-set, spacing annular is used for spacing for retaining ring and spring washer, in order to satisfy different assembly and user demand, the position of retaining ring can be adjusted, wherein through screwdriver top and counter bore thread groove cooperation, then twist and move the fore-set, the fore-set will be along its axis motion like this, the cooperation of spring washer and retaining ring has improved stability, the process convenient operation of while regulation. The above patent has the following problems:

1. the retainer ring structure cannot be used for installing the external blades and isolating the internal components, and the adjusting process is complex;

2. this retaining ring structure can't be fixed in the inside of ring spare, and outside blade pivoted in-process, fixed not firm problem such as rock can appear in this retaining ring.

Disclosure of Invention

The invention aims to provide a wind power ring with a built-in check ring adjusting structure and an adjusting method thereof.

In order to achieve the purpose, the invention provides the following technical scheme:

the wind power ring piece with the built-in check ring adjusting structure comprises a ring piece shell, an outer clamping panel, a screw panel, a nested screw, a buckle nut, an outer clamping sleeve assembly, a check ring adjusting assembly and an inner clamping sleeve assembly, wherein the outer side of the ring piece shell is provided with the outer clamping panel, the nested screw is installed on the outer clamping panel, the screw panel is installed on the nested screw on the lower side of the outer clamping panel, the buckle nut is installed at the upper end and the lower end of the nested screw respectively, the outer clamping sleeve assembly is installed at the upper end inside the ring piece shell, the check ring adjusting assembly is installed at the outer side of the outer clamping sleeve assembly, and the inner clamping sleeve assembly is installed at the lower end inside the ring piece shell.

Preferably, the ring shell comprises a main shell, a sliding groove plate, an inner sliding groove, a fixed folding plate, an adjusting slider, a positioning bolt, a central isolation layer, a clamping and embedding inner groove, a supporting ring, a supporting spring and a clamping hole, the sliding groove plate is arranged on the side faces of the upper end and the lower end of the main shell respectively, the inner sliding groove is arranged in the sliding groove plate, the adjusting slider is installed in the inner sliding groove, the fixed folding plate is arranged on the upper side of the adjusting slider, the positioning bolt is installed in the fixed folding plate, the central isolation layer is arranged at the center of the inner portion of the main shell, the clamping and embedding inner groove is arranged in the inner portion of the central isolation layer, the supporting spring is arranged above the central isolation layer, the supporting ring is arranged at the top of the supporting spring, and the clamping hole is formed in the upper half section of the main shell.

Preferably, the external joint sleeve subassembly includes external sleeve pipe, external spring, outer fishplate bar, inlay card post, spring groove, hasp spring and elasticity hasp, external sheathed tube inside is equipped with external spring, the end of external spring is equipped with outer fishplate bar, external sheathed tube bottom is equipped with inlay card post, inlay card the left and right sides of post and be equipped with the spring groove respectively, be equipped with the hasp spring in the spring groove, the end of hasp spring is equipped with the elasticity hasp.

Preferably, the retaining ring adjusting assembly comprises a retaining ring frame, an inner bolt hole, an embedded bolt, an embedded opening, a reset spring, an operating handle and an adjusting lock catch, wherein the inner bolt hole is formed in the retaining ring frame, the embedded bolt is installed in the inner bolt hole, the embedded opening is formed in the inner ring wall of the retaining ring frame, the reset spring is installed in the embedded opening, the adjusting lock catch is arranged at the center of the reset spring, and the operating handle is arranged at the tail end of the inner side of the adjusting lock catch.

Preferably, the inscription cutting ferrule subassembly includes inscription shell, inscription spring, interior fishplate bar, shell buckle board, spliced pole, ball cardboard, threaded rod, ball groove and slip ball, the inside of inscription shell is equipped with the inscription spring, the end of inscription spring is equipped with interior fishplate bar, the bottom of inscription shell is equipped with the shell buckle board, the top of inscription shell is equipped with the spliced pole, the top of spliced pole is equipped with the ball cardboard, the bottom center department of ball cardboard is equipped with the threaded rod, both ends inboard is equipped with the ball groove respectively about the ball cardboard, the installation of ball in the ball groove slides the ball.

Preferably, the positioning bolt penetrates through the fixing folded plate and the adjusting slide block and is clamped and embedded in the clamping hole at the bottom of the inner slide groove.

The invention provides another technical scheme: a method for adjusting a wind power ring piece with a built-in check ring adjusting structure comprises the following steps:

the method comprises the following steps: taking the check ring adjusting assembly out of the ring shell, controlling the extension length of the tail end of the adjusting lock catch through an operating handle so as to be matched with the corresponding ring shell, putting the check ring adjusting assembly into the ring shell again, and nesting the adjusting lock catch in the buckle hole with the matched height;

step two: embedding a blade component outside the windmill on the inner side of the upper end of the ring shell, installing a fixed folded plate in an inner chute in a chute plate, fixing the fixed folded plate by using a positioning bolt, and fixing the fixed folded plate and the external blade component by using an external bolt;

step three: and (3) mounting a rotating part of the windmill in an internal cutting sleeve assembly at the bottom end of the ring shell, thereby completing the adjustment and assembly of the whole part.

Compared with the prior art, the invention has the beneficial effects that:

the invention provides a wind power ring with a built-in check ring adjusting structure and an adjusting method thereof, in the assembling and adjusting process, a check ring adjusting assembly is taken out from a ring shell, the extending length of the tail end of an adjusting lock catch is controlled by an operating handle to be matched with the corresponding ring shell, the check ring adjusting assembly is put into the ring shell again, the adjusting lock catch is nested in a clamping hole with the matched height, a blade part outside a windmill is nested in the upper end inner side of the ring shell, a fixed folded plate is arranged in an inner chute in a chute plate, after the fixed folded plate is fixed by a positioning bolt, the fixed folded plate is fixed with an outer blade part by an outer bolt, a rotating part of the windmill is arranged in an inner cutting sleeve assembly at the bottom end of the ring shell, thereby completing the adjustment and assembly of the whole part and realizing the isolation of the outer blade and the inner part, and adjust assembling process convenient and fast, the problem that the retaining ring rocked can not appear in the operation process of external blades.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a cross-sectional structural schematic view of the ring housing of the present invention;

FIG. 4 is a schematic cross-sectional view of an external card socket assembly according to the present invention;

FIG. 5 is a schematic view in partial cross-section of the check ring adjustment assembly of the present invention;

figure 6 is a cross-sectional structural schematic of the internal cutting ferrule assembly of the present invention.

In the figure: 1. a ring housing; 101. a main housing; 102. a chute plate; 103. an inner chute; 104. fixing the folded plate; 105. adjusting the sliding block; 106. positioning the bolt; 107. a central isolation layer; 108. the inner groove is embedded in a clamping manner; 109. a support ring; 1010. a support spring; 1011. a snap-in hole; 2. an outer card panel; 3. a screw panel; 4. nesting the screw; 5. a snap nut; 6. an external card sleeve component; 61. a sleeve is externally connected; 62. a spring is externally connected; 63. an outer connecting plate; 64. clamping and embedding the column; 65. a spring slot; 66. a latch spring; 67. elastic lock catches; 7. a retainer ring adjustment assembly; 71. a retainer ring frame; 72. an inner bolt hole; 73. embedding a bolt; 74. a clamping and embedding opening; 75. a return spring; 76. an operating handle; 77. adjusting the lock catch; 8. an inner cutting ferrule assembly; 81. an inner connecting shell; 82. an inscribing spring; 83. an inner connecting plate; 84. a housing latch plate; 85. connecting columns; 86. a ball snap-gauge; 87. a threaded rod; 88. a ball groove; 89. sliding the balls.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, a wind power ring with a built-in retainer ring adjusting structure includes a ring housing 1, an outer clamping panel 2, a screw panel 3, a nested screw 4, a snap nut 5, an outer clamping sleeve assembly 6, a retainer ring adjusting assembly 7 and an inner clamping sleeve assembly 8, the outer clamping panel 2 is disposed on the outer side of the ring housing 1, the nested screw 4 is mounted on the outer clamping panel 2, the screw panel 3 is mounted on the nested screw 4 on the lower side of the outer clamping panel 2, the snap nuts 5 are respectively mounted on the upper and lower ends of the nested screw 4, the outer clamping sleeve assembly 6 is mounted on the inner upper end of the ring housing 1, the retainer ring adjusting assembly 7 is mounted on the outer side of the outer clamping sleeve assembly 6, and the inner clamping sleeve assembly 8 is mounted on the inner lower end of the ring housing 1.

Referring to fig. 3, the ring housing 1 includes a main housing 101, a chute plate 102, an inner chute 103, a fixing flap 104, an adjusting slider 105, a positioning bolt 106, a central isolation layer 107, an inner clamping groove 108, a supporting ring 109, a supporting spring 1010 and a clamping hole 1011, the chute plate 102 is respectively disposed on the upper and lower end sides of the main housing 101, the inner chute 103 is disposed in the chute plate 102, the adjusting slider 105 is mounted in the inner chute 103, the fixing flap 104 is disposed on the upper side of the adjusting slider 105, the positioning bolt 106 is mounted in the fixing flap 104, the positioning bolt 106 penetrates through the fixing flap 104 and the adjusting slider 105 and is clamped in the clamping hole at the bottom of the inner chute 103, the center of the interior of the main shell 101 is provided with a center isolation layer 107, the interior of the center isolation layer 107 is provided with a clamping inner groove 108, a supporting spring 1010 is arranged above the center isolation layer 107, the top of the supporting spring 1010 is provided with a supporting ring 109, and the inner wall of the upper half section of the main shell 101 is provided with a buckling hole 1011.

Referring to fig. 4, the external ferrule assembly 6 includes an external ferrule 61, an external spring 62, an external plate 63, a snap post 64, a spring slot 65, a locking spring 66 and an elastic locking buckle 67, the external spring 62 is disposed inside the external ferrule 61, the external plate 63 is disposed at the end of the external spring 62, the snap post 64 is disposed at the bottom of the external ferrule 61, the spring slot 65 is disposed at each of the left and right sides of the snap post 64, the locking spring 66 is disposed in the spring slot 65, and the elastic locking buckle 67 is disposed at the end of the locking spring 66.

Referring to fig. 5, the retainer ring adjusting assembly 7 includes a retainer ring frame 71, an inner bolt hole 72, an embedded bolt 73, a snap-fit opening 74, a return spring 75, an operating handle 76 and an adjusting lock catch 77, wherein the retainer ring frame 71 is provided with the inner bolt hole 72, the embedded bolt 73 is installed in the inner bolt hole 72, the snap-fit opening 74 is formed in the inner ring wall of the retainer ring frame 71, the return spring 75 is installed in the snap-fit opening 74, the adjusting lock catch 77 is arranged at the center of the return spring 75, and the operating handle 76 is arranged at the inner end of the adjusting lock catch 77.

Referring to fig. 6, the internal connecting ferrule assembly 8 includes an internal connecting housing 81, an internal connecting spring 82, an internal connecting plate 83, a housing snap-fit plate 84, a connecting post 85, a ball snap-gauge 86, a threaded rod 87, a ball groove 88 and sliding balls 89, the internal connecting spring 82 is disposed inside the internal connecting housing 81, the internal connecting plate 83 is disposed at the end of the internal connecting spring 82, the housing snap-fit plate 84 is disposed at the bottom of the internal connecting housing 81, the connecting post 85 and the connecting post 85 are disposed at the top of the internal connecting housing 81, the ball snap-gauge 86 is disposed at the top of the connecting post 85, the threaded rod 87 is disposed at the center of the bottom of the ball snap-gauge 86, ball grooves 88 are respectively disposed at the inner sides of the left and right ends of the ball snap-gauge 86, and the sliding balls 89 are mounted in the ball grooves 88.

In order to better show the adjusting process of the wind power ring piece with the built-in check ring adjusting structure, the embodiment now provides an adjusting method of the wind power ring piece with the built-in check ring adjusting structure, which includes the following steps:

the method comprises the following steps: taking the check ring adjusting assembly 7 out of the ring housing 1, controlling the extending length of the tail end of the adjusting lock catch 77 through the operating handle 76 so as to be matched with the corresponding ring housing 1, putting the check ring adjusting assembly 7 into the ring housing 1 again, and nesting the adjusting lock catch 77 in the buckle hole 1011 with the matched height;

step two: nesting a blade component outside the windmill on the inner side of the upper end of the ring housing 1, installing a fixed folding plate 104 in an inner sliding groove 103 in a sliding groove plate 102, fixing the fixed folding plate 104 by using a positioning bolt 106, and then fixing the fixed folding plate 104 and the external blade component by using an external bolt;

step three: the rotating part of the windmill is arranged in the inner connecting sleeve assembly 8 at the bottom end of the ring shell 1, so that the adjustment and the assembly of the whole part are completed.

The working principle of the invention is as follows: the invention relates to a wind power ring with a built-in check ring adjusting structure and an adjusting method thereof.A check ring adjusting assembly 7 is taken out of a ring shell 1 in the assembling and adjusting process, the extending length of the tail end of an adjusting lock catch 77 is controlled by an operating handle 76 to be matched with the corresponding ring shell 1, the check ring adjusting assembly 7 is put into the ring shell 1 again, the adjusting lock catch 77 is nested in a buckling hole 1011 with the matched height, a blade part outside a windmill is nested at the inner side of the upper end of the ring shell 1, a fixed folded plate 104 is installed in an inner sliding groove 103 in a sliding groove plate 102, the fixed folded plate 104 is fixed with the outer blade part by using an outer bolt after the fixed folded plate 104 is fixed by using a positioning bolt 106, a rotating part of the windmill is installed in an inner cutting sleeve assembly 8 at the bottom end of the ring shell 1, and the adjusting and assembling of the whole part are completed.

In summary, the following steps: the invention relates to a wind power ring with a built-in check ring adjusting structure and an adjusting method thereof, wherein in the assembling and adjusting process, a check ring adjusting assembly 7 is taken out from a ring shell 1, the extending length of the tail end of an adjusting lock catch 77 is controlled by an operating handle 76 to be matched with the corresponding ring shell 1, the check ring adjusting assembly 7 is put into the ring shell 1 again, the adjusting lock catch 77 is nested in a buckle hole 1011 with the matched height, a blade part outside a windmill is nested in the upper end inner side of the ring shell 1, a fixed folded plate 104 is arranged in an inner sliding groove 103 in a sliding groove plate 102, the fixed folded plate 104 is fixed with the outer blade part by using an outer bolt after the fixed folded plate 104 is fixed by using a positioning bolt 106, a rotating part of the windmill is arranged in an inner connecting sleeve component 8 at the bottom end of the ring shell 1, so as to complete the adjustment and assembly of the whole part, the structure is complete and reasonable, the isolation of the external blade and the internal part is realized, the assembly process is convenient and fast to adjust, and the problem that the check ring shakes cannot occur in the operation process of the external blade.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides a wind-powered electricity generation ring spare with built-in retaining ring is adjusted structure, includes ring shell (1), outer card panel (2), screw rod panel (3), nested screw rod (4), buckle nut (5), external card cover subassembly (6), retaining ring adjusting part (7) and inscription card cover subassembly (8), its characterized in that: the outer side of the ring shell (1) is provided with an outer clamping panel (2), the outer clamping panel (2) is provided with a nested screw (4), the nested screw (4) on the lower side of the outer clamping panel (2) is provided with a screw panel (3), the upper end and the lower end of the nested screw (4) are respectively provided with a buckle nut (5), the inner upper end of the ring shell (1) is provided with an outer clamping sleeve component (6), the outer side of the outer clamping sleeve component (6) is provided with a check ring adjusting component (7), and the inner lower end of the ring shell (1) is provided with an inner clamping sleeve component (8).

2. The wind power ring with the built-in retainer ring adjusting structure as claimed in claim 1, wherein: the ring shell (1) comprises a main shell (101), a sliding groove plate (102), an inner sliding groove (103), a fixed folded plate (104), an adjusting slider (105), a positioning bolt (106), a central isolation layer (107), an embedded inner groove (108), a supporting ring (109), a supporting spring (1010) and a clamping hole (1011), wherein the sliding groove plate (102) is arranged on the side faces of the upper end and the lower end of the main shell (101), the inner sliding groove (103) is arranged in the sliding groove plate (102), the adjusting slider (105) is arranged in the inner sliding groove (103), the fixed folded plate (104) is arranged on the upper side of the adjusting slider (105), the positioning bolt (106) is arranged in the fixed folded plate (104), the central isolation layer (107) is arranged at the center of the main shell (101), the embedded inner groove (108) is arranged in the central isolation layer (107), the supporting spring (1010) is arranged above the central isolation layer (107), the top of the supporting spring (1010) is provided with a supporting ring piece (109), and the upper half section of the inner wall of the main shell (101) is provided with a buckling hole (1011).

3. The wind power ring with the built-in retainer ring adjusting structure as claimed in claim 1, wherein: external joint cover subassembly (6) are including external sleeve pipe (61), external spring (62), external board (63), inlay card post (64), spring groove (65), hasp spring (66) and elasticity hasp (67), the inside of external sleeve pipe (61) is equipped with external spring (62), the end of external spring (62) is equipped with outer fishplate bar (63), the bottom of external sleeve pipe (61) is equipped with inlay card post (64), the left and right sides of inlay card post (64) is equipped with spring groove (65) respectively, be equipped with hasp spring (66) in spring groove (65), the end of hasp spring (66) is equipped with elasticity hasp (67).

4. The wind power ring with the built-in retainer ring adjusting structure as claimed in claim 1, wherein: check ring adjusting part (7) include check ring frame (71), interior bolt hole (72), embedded bolt (73), inlay card mouth (74), reset spring (75), operating handle (76) and regulation hasp (77), be equipped with interior bolt hole (72) on check ring frame (71), install embedded bolt (73) in interior bolt hole (72), be equipped with inlay card mouth (74) on the inner circle wall of check ring frame (71), inlay card mouth (74) interior installation reset spring (75), the center department of reset spring (75) is equipped with regulation hasp (77), the inboard end of adjusting hasp (77) is equipped with operating handle (76).

5. The wind power ring with the built-in retainer ring adjusting structure as claimed in claim 1, wherein: the inner cutting ferrule assembly (8) comprises an inner connecting outer shell (81), an inner connecting spring (82), an inner connecting plate (83), an outer shell clamping plate (84), a connecting column (85), a ball clamping plate (86), a threaded rod (87), a ball groove (88) and sliding balls (89), an inner spring (82) is arranged in the inner connecting shell (81), an inner connecting plate (83) is arranged at the tail end of the inner spring (82), the bottom of the inner connecting shell (81) is provided with a shell buckle plate (84), the top of the inner connecting shell (81) is provided with a connecting column (85), the top of the connecting column (85) is provided with a ball clamping plate (86), the novel ball bearing clamping plate is characterized in that a threaded rod (87) is arranged at the center of the bottom of the ball bearing clamping plate (86), ball grooves (88) are formed in the inner sides of the left end and the right end of the ball bearing clamping plate (86), and sliding balls (89) are arranged in the ball grooves (88).

6. The wind power ring with the built-in retainer ring adjusting structure as claimed in claim 2, wherein: the positioning bolt (106) penetrates through the fixing folded plate (104) and the adjusting slide block (105) and is clamped and embedded in a clamping hole at the bottom of the inner sliding groove (103).

7. The adjusting method of the wind power ring with the built-in check ring adjusting structure according to any one of claims 1 to 6, characterized by comprising the following steps:

s1: taking the check ring adjusting assembly (7) out of the ring shell (1), controlling the extending length of the tail end of the adjusting lock catch (77) through an operating handle (76) to be matched with the corresponding ring shell (1), putting the check ring adjusting assembly (7) into the ring shell (1) again, and nesting the adjusting lock catch (77) in a buckle hole (1011) with the matched height;

s2: nesting a blade component outside the windmill on the inner side of the upper end of the ring shell (1), installing a fixing folded plate (104) in an inner chute (103) in a chute plate (102), fixing the fixing folded plate (104) by using a positioning bolt (106), and then fixing the fixing folded plate (104) and the external blade component by using an external bolt;

s3: and (3) mounting the rotating part of the windmill in an internal cutting sleeve assembly (8) at the bottom end of the ring shell (1), thereby completing the adjustment and assembly of the whole part.