CN109411977A

CN109411977A - Modularized circuit rotation transmission device

Info

Publication number: CN109411977A
Application number: CN201811392758.9A
Authority: CN
Inventors: 厉世益; 马乙文
Original assignee: Shanghai Electric Control Research Institute Of China Ordnance Equipment Group
Current assignee: Shanghai Electric Control Research Institute Of China Ordnance Equipment Group
Priority date: 2018-11-21
Filing date: 2018-11-21
Publication date: 2019-03-01
Anticipated expiration: 2038-11-21
Also published as: CN109411977B

Abstract

The present invention provides a kind of modularized circuit rotation transmission devices, including insulated part and circuit rotary transfer part；The insulated part is connected with circuit rotary transfer part；Insulated part includes the first cover board (1), sealing ring (2), shell (3), adjustment briquetting (5), bottom plate (6), the second cover board (7) and gasket (8)；First cover board (1) and shell (3) are realized by sealing ring (2) to be tightly connected；Shell (3) is connected by adjusting briquetting (5) with circuit rotary transfer part；The bottom plate (6) is connected with circuit rotary transfer part and is arranged on the second cover board (7)；Second cover board (7) is realized by gasket (8) and shell (3) and is tightly connected.The present invention uses modularized design, can be effectively reduced design efforts would and design cost, the quality and standardization level for improving product, has the advantages that interchangeability is good, easy to maintenance, sealing effect is good and high reliablity.

Description

Modularized circuit rotation transmission device

Technical field

The present invention relates to circuit rotation transmission devices, and in particular, to a kind of modularized circuit rotation transmission device, especially Be related to it is a kind of it is easy for installation, inexpensive can modular combination installation circuit rotation transmission device.

Background technique

Slip ring currently on the market carries out electric current transmission using a monoblock type is superimposed as, during the installation process one side one Either component goes wrong it is necessary to dismantle and reinstall inside denier slip ring, once on the other hand product is reprocessed, dismounts work Amount is big, also has damage to component itself.

Existing slip ring is still to contact with each other sliding friction by ring body and brush filament to realize rotary transfer function, Only making ring body and the material of brush filament has different combinations.The conducting slip ring packet as disclosed in patent document CN103746245A The second auxiliary section that includes the first auxiliary section and can be rotatably set relative to the first auxiliary section, wherein the first auxiliary section includes more A conducting ring and multiple isolation rings, multiple conducting rings and multiple isolation rings are coaxial and are alternately arranged in the axial direction；Second cooperation Portion includes multiple brushes, and each conducting ring is arranged in correspondence with at least one brush.The structure of this frictional connection causes material Grinding abrasion is serious, conduction efficiency is lower, and the more difficult breakthrough of technology of long-life friction material, causes rotation transmission device Working life, transimission power and efficiency of transmission bottleneck.Therefore, it is contemplated that promoting product by modularized design Replaceability, to solve the problems, such as existing.

Therefore, design it is a kind of can modular combination circuit rotation transmission device, using modular combination mounting means, energy Dismounting is enough effectively reduced, in maintenance process to the degree of injury of components, substantially prolong the service life of product, and can be effective Design production cost is reduced, is had important practical significance.

Summary of the invention

For the defects in the prior art, the object of the present invention is to provide a kind of modularized circuit rotation transmission devices.

A kind of modularized circuit rotation transmission device provided according to the present invention, including insulated part and circuit rotary transfer Part；The insulated part is connected with circuit rotary transfer part；

The insulated part includes the first cover board, sealing ring, shell, adjustment briquetting, bottom plate, the second cover board and sealing Pad；First cover board and shell are realized by sealing ring to be tightly connected；The shell passes by adjusting briquetting and circuit rotation Defeated part is connected；The bottom plate is connected with circuit rotary transfer part and is arranged on the second cover board；Second cover board is logical It crosses gasket and shell is realized and is tightly connected.

Preferably, circuit rotary transfer part includes rotary transfer module；

The quantity of the rotary transfer module is one, and the rotary transfer module is connected by adjusting briquetting with shell It connects；Or

The quantity of the rotary transfer module be it is multiple, multiple rotary transfer modules are denoted as the A rotary transfer respectively Module, wherein A=1,2 ..., N, N are the positive integer greater than 1；N number of rotary transfer module is sequentially connected；When A < N, A The junction of a rotary transfer module and the A+1 rotary transfer module is connected by adjusting briquetting with shell.

Preferably, the rotary transfer module includes conducting ring assemblies, interior shaft-cup, ball, insulating press ring, contact ring, leads Brush, outer shaft, insulation board, insulation sleeve and inner shaft；

Described inner shaft one end is provided with insulation sleeve, and one or more conducting ring assemblies are arranged on insulation sleeve；The insulation Pressing ring is arranged on conducting ring assemblies；The inner shaft is connected by ball with outer shaft；Interior shaft-cup is arranged in inner shaft, so that outer shaft It can be rotated relative to inner shaft；The conduction brush quantity is equal to the quantity of conducting ring assemblies, and is connected on insulation board, and by connecing Touching ring is electrically connected with conducting ring assemblies；The insulation board is connected on outer shaft, when so that outer shaft being rotated by ball relative to inner shaft, It can be realized the rotary transfer of conducting ring assemblies and conduction brush；

Preferably:

Conducting ring assemblies quantity is one, and the conducting ring assemblies include conductive ring connector；The conduction ring connector It is arranged on insulation sleeve；The insulating press ring is arranged on conductive ring connector；Or

Conducting ring assemblies quantity be it is multiple, the conducting ring assemblies include conductive ring connector and insulating trip；M conductive Ring assemblies include M conductive ring connector and M-1 insulating trip, are denoted as the B conductive ring connector and the C insulation respectively Piece, wherein B=1,2 ..., M, C=1,2 ..., M-1；1st conductive ring connector is arranged on insulation sleeve；When B=C < M, C On the B conductive ring connector, the B+1 conductive ring connector is arranged on the C insulating trip for insulating trip setting；It is described exhausted Edge pressing ring is arranged on m-th conduction ring connector.

Preferably, the interior shaft-cup include interior the first threaded hole of shaft-cup, it is the second threaded hole of interior shaft-cup, interior shaft-cup counterbore, interior Shaft-cup groove body and interior shaft-cup main body；First threaded hole of interior shaft-cup, the second threaded hole of interior shaft-cup and inner shaft cover slot body are equal It is arranged in interior shaft-cup main body.

Preferably, the outer shaft includes that the first threaded hole of outer shaft, the first groove body of outer shaft, the second threaded hole of outer shaft, outer shaft are logical Hole, the second groove body of outer shaft and outer shaft body；It is first threaded hole of outer shaft, the first groove body of outer shaft, the second threaded hole of outer shaft, outer Shaft through-hole and the second groove body of outer shaft are arranged in outer shaft body.

Preferably, the inner shaft includes inner shaft threaded hole, inner shaft periphery, inner shaft groove body, inner shaft counterbore and inner shaft master Body；The inner shaft threaded hole is arranged in inner shaft in nose circle face, parallel with inner shaft periphery；The inner shaft periphery, interior axial trough Body and inner shaft counterbore are arranged in interior shaft body.

Preferably, first cover board and interior shaft-cup are fastened by connector；Shell is tight by connector and adjustment briquetting Gu.

Preferably, first cover board and the second cover board are able to be connected with the first socket, the second socket, pass through rotation First cover board and the second cover board can be realized inner shaft in rotary transfer module and pass relative to the rotation of outer shaft to reach circuit rotation Defeated purpose.

Preferably, the inner shaft groove body is cooperated by ball and the second groove body of outer shaft, and the inner shaft cover slot body passes through ball Cooperate with the first groove body of outer shaft, the interior shaft-cup counterbore is connect by fastener with inner shaft threaded hole, to realize outer shaft, inner shaft And the connection of interior shaft-cup, and outer shaft can be rotated relative to inner shaft.

Compared with prior art, the present invention have it is following the utility model has the advantages that

1, modularized circuit rotation transmission device sealing effect provided by the invention is good, high reliablity；

2, modularization provided by the invention shielding slip-ring device uses modularized design, effectively reduce design efforts would and Design cost；

3, modularization provided by the invention shielding slip-ring device uses modularized design, be conducive to the quality for improving product and Standardization, enhances the stability of product；

4, modularization shielding slip-ring device provided by the invention realizes product modular, and interchangeability is good, easy to maintenance.

Detailed description of the invention

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention, Objects and advantages will become more apparent upon:

Fig. 1 is the structural schematic diagram that modularization provided by the invention shields slip-ring device；

Fig. 2 is the schematic diagram that modularization provided by the invention shields rotary transfer module in slip-ring device；

Fig. 3 is the schematic diagram that modularization provided by the invention shields conductive ring connector in slip-ring device；

Fig. 4 is the schematic diagram that modularization provided by the invention shields interior shaft-cup in slip-ring device；

Fig. 5 is the schematic diagram that modularization provided by the invention shields outer shaft in slip-ring device；

Fig. 6 is the schematic diagram that modularization provided by the invention shields inner shaft in slip-ring device.

It is shown in figure:

Specific embodiment

The present invention is described in detail combined with specific embodiments below.Following embodiment will be helpful to the technology of this field Personnel further understand the present invention, but the invention is not limited in any way.It should be pointed out that the ordinary skill of this field For personnel, without departing from the inventive concept of the premise, several changes and improvements can also be made.These belong to the present invention Protection scope.

The insulated part include the first cover board 1, sealing ring 2, shell 3, adjustment briquetting 5, bottom plate 6, the second cover board 7 and Gasket 8；First cover board 1 and shell 3 are realized by sealing ring 2 to be tightly connected；The shell 3 by adjusting briquetting 5 with Circuit rotary transfer part is connected；The bottom plate 6 is connected with circuit rotary transfer part and is arranged on the second cover board 7；Institute It states the second cover board 7 and sealed connection is realized by gasket 8 and shell 3.

Preferably, circuit rotary transfer part includes rotary transfer module 4；

The quantity of the rotary transfer module 4 is one, and the rotary transfer module 4 is by adjusting briquetting 5 and shell 3 It is connected；Or

The quantity of the rotary transfer module 4 be it is multiple, multiple rotary transfer modules 4 are denoted as the A rotation biography respectively Defeated module 4, wherein A=1,2 ..., N, N are the positive integer greater than 1；N number of rotary transfer module 4 is sequentially connected；A<N When, the junction of the A rotary transfer module 4 and the A+1 rotary transfer module 4 is connected by adjusting briquetting 5 with shell 3.

The rotary transfer module 4 includes conducting ring assemblies, interior shaft-cup 402, ball 403, insulating press ring 404, contact ring 405, conduction brush 407, outer shaft 408, insulation board 409, insulation sleeve 410 and inner shaft 411；Described 411 one end of inner shaft is provided with absolutely Edge set 410, one or more conducting ring assemblies are arranged on insulation sleeve 410；The insulating press ring 404 is arranged in conducting ring assemblies On；The inner shaft 411 is connected by ball 403 with outer shaft 408；Interior shaft-cup 402 is arranged in inner shaft 411, enables outer shaft 408 It is enough to be rotated relative to inner shaft 411；407 quantity of conduction brush is equal to the quantity of conducting ring assemblies, and is connected on insulation board 409, And it is electrically connected by contacting ring 405 with conducting ring assemblies；The insulation board 409 is connected on outer shaft 408, so that outer shaft 408 is logical When crossing ball 403 relative to the rotation of inner shaft 411, the rotary transfer of conducting ring assemblies Yu conduction brush 407 can be realized；

Specifically:

Conducting ring assemblies quantity is one, and the conducting ring assemblies include conductive ring connector 401；The conducting ring connects Fitting 401 is arranged on insulation sleeve 410；The insulating press ring 404 is arranged on conductive ring connector 401；Or

Conducting ring assemblies quantity be it is multiple, the conducting ring assemblies include conductive ring connector 401 and insulating trip 406；M A conducting ring assemblies include M conductive ring connector 401 and M-1 insulating trip 406, are denoted as the B conductive ring connector respectively 401 and the C insulating trip 406, wherein B=1,2 ..., M, C=1,2 ..., M-1；The 1st conductive setting of ring connector 401 is being insulated On set 410；When B=C < M, the C setting of insulating trip 406 is on the B conductive ring connector 401, the B+1 conducting ring connection Part 401 is arranged on the C insulating trip 406；The insulating press ring 404 is arranged on m-th conduction ring connector 401.

The interior shaft-cup 402 includes interior the first threaded hole of shaft-cup 4021, the second threaded hole of interior shaft-cup 4022, interior shaft-cup counterbore 4023, inner shaft cover slot body 4024 and interior shaft-cup main body 4025；First threaded hole of interior shaft-cup 4021, the second screw thread of interior shaft-cup Hole 4022 and inner shaft cover slot body 4024 are arranged in interior shaft-cup main body 4025.The outer shaft 408 includes the first screw thread of outer shaft Hole 4081, the first groove body of outer shaft 4082, the second threaded hole of outer shaft 4083, outer shaft through-hole 4084, the second groove body of outer shaft 4085 and Outer shaft body 4086；First threaded hole of outer shaft 4081, the first groove body of outer shaft 4082, the second threaded hole of outer shaft 4083, outer shaft Through-hole 4084 and the second groove body of outer shaft 4085 are arranged in outer shaft body 4086.The inner shaft 411 includes inner shaft threaded hole 4111, inner shaft periphery 4112, inner shaft groove body 4113, inner shaft counterbore 4114 and interior shaft body 4115；The inner shaft threaded hole 4111 are arranged in inner shaft 411 in nose circle face, parallel with inner shaft periphery 4112；The inner shaft periphery 4112, inner shaft groove body 4113 and inner shaft counterbore 4114 be arranged in interior shaft body 4115.First cover board 1 passes through connector with interior shaft-cup 402 Fastening；Shell 3 is fastened by connector and adjustment briquetting 5.First cover board 1 and the second cover board 7 are able to insert with first Seat, the second socket are connected, and can be realized 411 phase of inner shaft in rotary transfer module 4 by the first cover board 1 of rotation and the second cover board 7 Rotation to outer shaft 408, to achieve the purpose that circuit rotary transfer.The inner shaft groove body 4113 passes through ball 403 and outer shaft The cooperation of second groove body 4085, the inner shaft cover slot body 4024 are cooperated by ball 403 and the first groove body of outer shaft 4082, the inner shaft Lid counterbore 4023 is connect by fastener with inner shaft threaded hole 4111, to realize outer shaft 408, inner shaft 411 and interior shaft-cup 402 Connection, and outer shaft 408 can be rotated relative to inner shaft 411.

More specifically, the inner shaft groove body 4113 of inner shaft 411 and ball 403 cooperate, 403 other end of ball and outer shaft 408 The second groove body of outer shaft 4085 cooperates.The first groove body of outer shaft 4082 of outer shaft 408 and ball 403 cooperate, 403 other end of ball with it is interior The inner shaft cover slot body 4024 of shaft-cup 402 cooperates.Pass through the inner shaft threaded hole of screw and inner shaft 411 at the counterbore of interior shaft-cup 402 4111 are connected and fixed, and realize inner shaft 411 and outer shaft 408 and relatively rotate.Conduction brush 407 is fixed on insulation board 409, respectively with The corresponding corresponding contact of conducting ring, insulation board 409 are fixed by screws on outer shaft, and inner shaft 411 and outer shaft 408 pass through ball In 403 relative rotational motions, realizes conducting ring connecting line and arrive the rotary transfer of conduction brush connecting line.

Connection is connected by screw to inner shaft counterbore 4114 and interior the second threaded hole of shaft-cup between the rotary transfer module 4 4022 is fixed, realizes the fixation of inner shaft 411 between rotary transfer module 4.Turn the outer shaft first of the outer shaft 408 in transmission module 4 Threaded hole 4081 and another turns between the outer shaft through-hole 4084 of the outer shaft 408 of transmission module 4 plus adjustment briquetting 5, passes through screw It is fixed, realize the fixation of outer shaft 408 between rotary transfer module 4.Upper cover plate 1 passes through with the interior shaft-cup 402 turned in transmission module 4 Screw is connected and fixed, and shell is connected and fixed by screw and 4 bottom briquetting of transmission module, upper socket, lower socket respectively with upper cover Plate 1, lower cover plate 7 are connected by screw to fixation, rotary upper cover plate 1, lower cover plate 7, and phase occurs for the inner shaft and outer shaft in transmission module 4 To rotation, the rotary transfer of circuit in socket up and down is realized.

In the description of the present application, it is to be understood that term " on ", "front", "rear", "left", "right", " is erected at "lower" Directly ", the orientation or positional relationship of the instructions such as "horizontal", "top", "bottom", "inner", "outside" is orientation based on the figure or position Relationship is set, description the application is merely for convenience of and simplifies description, rather than the device or element of indication or suggestion meaning are necessary It with specific orientation, is constructed and operated in a specific orientation, therefore should not be understood as the limitation to the application.

Specific embodiments of the present invention are described above.It is to be appreciated that the invention is not limited to above-mentioned Particular implementation, those skilled in the art can make a variety of changes or modify within the scope of the claims, this not shadow Ring substantive content of the invention.In the absence of conflict, the feature in embodiments herein and embodiment can any phase Mutually combination.

Claims

1. a kind of modularized circuit rotation transmission device, which is characterized in that including insulated part and circuit rotary transfer part；Institute Insulated part is stated to be connected with circuit rotary transfer part；

The insulated part includes the first cover board (1), sealing ring (2), shell (3), adjustment briquetting (5), bottom plate (6), the second lid Plate (7) and gasket (8)；First cover board (1) and shell (3) are realized by sealing ring (2) to be tightly connected；The shell (3) it is connected by adjusting briquetting (5) with circuit rotary transfer part；The bottom plate (6) is connected simultaneously with circuit rotary transfer part And it is arranged on the second cover board (7)；Second cover board (7) is realized by gasket (8) and shell (3) and is tightly connected.

2. modularized circuit rotation transmission device according to claim 1, which is characterized in that circuit rotary transfer portion Divide includes rotary transfer module (4)；

The quantity of the rotary transfer module (4) is one, and the rotary transfer module (4) is by adjusting briquetting (5) and shell (3) it is connected；Or

The quantity of the rotary transfer module (4) be it is multiple, multiple rotary transfer modules (4) are denoted as the A rotation biography respectively Defeated module (4), wherein A=1,2 ..., N, N are the positive integer greater than 1；N number of rotary transfer module (4) is sequentially connected；A When < N, the junction of the A rotary transfer module (4) and the A+1 rotary transfer module (4) is by adjusting briquetting (5) and outer Shell (3) is connected.

3. modularized circuit rotation transmission device according to claim 2, which is characterized in that the rotary transfer module It (4) include conducting ring assemblies, interior shaft-cup (402), ball (403), insulating press ring (404), contact ring (405), conduction brush (407), outer shaft (408), insulation board (409), insulation sleeve (410) and inner shaft (411)；

Described inner shaft (411) one end is provided with insulation sleeve (410), and one or more conducting ring assemblies are arranged in insulation sleeve (410) On；The insulating press ring (404) is arranged on conducting ring assemblies；The inner shaft (411) passes through ball (403) and outer shaft (408) It is connected；Interior shaft-cup (402) is arranged on inner shaft (411), so that outer shaft (408) can be rotated relative to inner shaft (411)；The conduction The quantity that (407) quantity is equal to conducting ring assemblies is brushed, and is connected on insulation board (409), and is ring (405) and conductive by contacting Ring assemblies electrical connection；The insulation board (409) is connected on outer shaft (408), so that outer shaft (408) is opposite by ball (403) When inner shaft (411) rotates, the rotary transfer of conducting ring assemblies Yu conduction brush (407) can be realized.

4. modularized circuit rotation transmission device according to claim 3, it is characterised in that:

Conducting ring assemblies quantity is one, and the conducting ring assemblies include conductive ring connector (401)；The conducting ring connection Part (401) is arranged on insulation sleeve (410)；The insulating press ring (404) is arranged on conductive ring connector (401)；Or

Conducting ring assemblies quantity be it is multiple, the conducting ring assemblies include conductive ring connector (401) and insulating trip (406)；M A conducting ring assemblies include M conductive ring connector (401) and M-1 insulating trip (406), are denoted as the B conducting ring respectively and connect Fitting (401) and the C insulating trip (406), wherein B=1,2 ..., M, C=1,2 ..., M-1；1st conductive ring connector (401) It is arranged on insulation sleeve (410)；When B=C < M, the C insulating trip (406) is arranged on the B conductive ring connector (401), The B+1 conductive ring connector (401) is arranged on the C insulating trip (406)；The insulating press ring (404) is arranged in m-th On conductive ring connector (401).

5. modularized circuit rotation transmission device according to claim 4, which is characterized in that interior shaft-cup (402) packet Include interior the first threaded hole of shaft-cup (4021), the second threaded hole of interior shaft-cup (4022), interior shaft-cup counterbore (4023), inner shaft cover slot body (4024) and interior shaft-cup main body (4025)；First threaded hole of interior shaft-cup (4021), the second threaded hole of interior shaft-cup (4022) And inner shaft cover slot body (4024) is arranged on interior shaft-cup main body (4025).

6. modularized circuit rotation transmission device according to claim 5, which is characterized in that the outer shaft (408) includes The first threaded hole of outer shaft (4081), the first groove body of outer shaft (4082), the second threaded hole of outer shaft (4083), outer shaft through-hole (4084), The second groove body of outer shaft (4085) and outer shaft body (4086)；First threaded hole of outer shaft (4081), the first groove body of outer shaft (4082), the second threaded hole of outer shaft (4083), outer shaft through-hole (4084) and the second groove body of outer shaft (4085) are arranged at outer shaft In main body (4086).

7. modularized circuit rotation transmission device according to claim 6, which is characterized in that the inner shaft (411) includes Inner shaft threaded hole (4111), inner shaft periphery (4112), inner shaft groove body (4113), inner shaft counterbore (4114) and interior shaft body (4115)；The inner shaft threaded hole (4111) is arranged on inner shaft (411) in nose circle face, parallel with inner shaft periphery (4112)； The inner shaft periphery (4112), inner shaft groove body (4113) and inner shaft counterbore (4114) are arranged at interior shaft body (4115) On.

8. modularized circuit rotation transmission device according to claim 7, which is characterized in that first cover board (1) with Interior shaft-cup (402) is fastened by connector；Shell (3) passes through connector and adjustment briquetting (5) fastening.

9. modularized circuit rotation transmission device according to claim 7, which is characterized in that first cover board (1) and Second cover board (7) is able to be connected with the first socket, the second socket, by rotating the first cover board (1) and the second cover board (7) energy Enough realize rotary transfer module (4) in inner shaft (411) relative to outer shaft (408) rotation, to reach the mesh of circuit rotary transfer 's.

10. modularized circuit rotation transmission device according to any one of claims 7 to 9, which is characterized in that in described Axial trough body (4113) is cooperated by ball (403) and the second groove body of outer shaft (4085), and the inner shaft cover slot body (4024) passes through rolling Pearl (403) and the first groove body of outer shaft (4082) cooperate, and the interior shaft-cup counterbore (4023) passes through fastener and inner shaft threaded hole (4111) it connects, to realize the connection of outer shaft (408), inner shaft (411) and interior shaft-cup (402), and outer shaft (408) can It is rotated relative to inner shaft (411).