CN203567976U - Sleeve pipe feeding device - Google Patents
Sleeve pipe feeding device Download PDFInfo
- Publication number
- CN203567976U CN203567976U CN201320675050.0U CN201320675050U CN203567976U CN 203567976 U CN203567976 U CN 203567976U CN 201320675050 U CN201320675050 U CN 201320675050U CN 203567976 U CN203567976 U CN 203567976U
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- sleeve pipe
- roller
- ratchet
- fixed block
- assembly
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Abstract
The utility model discloses a sleeve pipe feeding device which comprises a motor and a sleeve pipe conveying component. The motor drives the sleeve pipe conveying component to convey a sleeve pipe. The sleeve pipe conveying component comprises a first idler wheel and a second idler wheel. The first idler wheel and the second idler wheel are matched, and the sleeve pipe is driven to be conveyed between the first idler wheel and the second idler wheel. The sleeve pipe feeding device further comprises a transmission component which is arranged between the motor and the sleeve pipe conveying component and drives the first idler wheel and the second idler wheel to rotate synchronously in opposite directions. According to the sleeve pipe feeding device, the transmission device arranged between the motor and the sleeve pipe conveying component is used for achieving synchronous control over rotating of the first idler wheel and the second idler wheel, and sleeve pipe feeding is accurately controlled.
Description
Technical field
The utility model relates to battery production equipment field, relates in particular to for a kind of sleeve pipe pay-off of battery case target.
Background technology
In battery production process, need to use cover marking device to carry out insulating package to the shell of battery, specifically, need to use cover marking device to put insulating tube on the shell of battery, top assembling insolator disc, integral body are carried out pyrocondensation and are fixed, and wherein overlapping insulating tube is the key that cover mark is produced.More specifically, speed and the efficiency of cover insulating tube are great for the effectiveness affects of whole battery production, need to use special-purpose sleeve pipe pay-off for this reason.Existing sleeve pipe pay-off adopts motor driving the first roller to rotate, the first roller drives with the second roller of its engagement and rotates, the first roller and the second roller gripping sleeve also transmit, adopt and transmit in this way sleeve pipe, easily occur because wearing and tearing between the first roller and the second roller cause skidding, make the rotation of the first roller and the second roller asynchronous, affect the transmission of sleeve pipe, and the velocity variations that causes transmitting sleeve pipe is larger, and then affect the control accuracy of sleeve pipe feed length.
Utility model content
The technical problems to be solved in the utility model is that the first roller and the second roller that for relevant sleeve pipe pay-off, easily occur make it rotate nonsynchronous deficiency because skidding, and provides a kind of and rotates to guarantee to send mark length accurate sleeve pipe pay-off in order to realize the first roller and the second roller synchronous precise.
The utility model solves the technical scheme that its technical matters adopts: a kind of sleeve pipe pay-off, comprises motor and the sleeve pipe transfer assembly that is transmitted sleeve pipe by described driven by motor; Described sleeve pipe transfer assembly comprises the first roller and the second roller that matches and drive sleeve pipe between to transmit; This sleeve pipe pay-off also comprises and is arranged on the transmission component that drives described the first roller and described the second roller synchronous backward to rotate between described motor and described sleeve pipe transfer assembly.
Preferably, described transmission component comprises the driving gear that rotated by described driven by motor, synchronizes to be rotationally connected drive the first drive link that described the first roller rotates and be synchronously rotationally connected with described driven gear the second drive link that drives described the second roller to rotate with the driven gear of described driving gear engaged transmission, with described driving gear.
Preferably, described transmission component also comprises on described driving gear and rotatable the first gear fixed block and the second gear fixed block of installing of described driven gear.
Preferably, described sleeve pipe pay-off also comprise be connected with described sleeve pipe transfer assembly in order to control the pressure control assembly of pressure force between described the first roller and described the second roller.
Preferably, between described the first drive link and described the first roller, be provided with clutch shaft bearing fixed block, between described the second drive link and described the second roller, be provided with the second bearing fixed block; Described pressure control assembly comprise run through connect described clutch shaft bearing fixed block and described the second bearing fixed block for regulate distance between described clutch shaft bearing fixed block and described the second bearing fixed block with control its pressure force adjusting screw(rod), be connected to the ratchet assembly of described adjusting screw(rod) end and be arranged on the rotary handle on described ratchet assembly.
Preferably, described clutch shaft bearing fixed block first negative thread and second negative thread contrary with being respectively equipped with the rotation direction that coordinates with described adjusting screw(rod) in described the second bearing fixed block; Corresponding, on described adjusting screw(rod), be respectively equipped with the first spiro rod section and the second spiro rod section with described the first negative thread and the engagement of the second negative thread.
Preferably, the first described drive link and described the second drive link are bellows.
Preferably, described ratchet assembly comprises the ratchet that is arranged in described rotary handle, is arranged in described ratchet attaching parts, the ratchet coordinating with described ratchet in order to described adjusting screw(rod) is fixedly connected with described ratchet and promotes the elastic element that described ratchet coordinates with described ratchet; One end that described ratchet and described ratchet join is dip plane.Described elastic element comprises the first elastic element and the second elastic element; Described ratchet comprises the first ratchet and the second ratchet.
Preferably, described pressure control assembly also comprises the limiting locking assembly being arranged on described adjusting screw(rod); Described limiting locking assembly comprise and be arranged on the stop nut on described adjusting screw(rod) and be arranged on described stop nut and described ratchet assembly between spacing clamp.
Preferably, described the first roller and the second roller are wear-resisting and resilient rubber tire.
The utility model compared with prior art tool has the following advantages: implement the utility model, utilization is arranged on the transmission component between motor and sleeve pipe transfer assembly, realize the rotation of synchro control the first roller and the second roller, accurately control sleeve pipe feeding, to avoid using the first roller and the second roller engaged transmission to transmit sleeve pipe because the first roller and the second rolling wheel wear skid, cause the first roller asynchronous with the rotation of the second roller and affect the problem of precision of the transmission of sleeve pipe.
Accompanying drawing explanation
Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:
Fig. 1 is the structural representation of the utility model sleeve pipe pay-off.
Fig. 2 is the mode of operation block diagram of the utility model sleeve pipe pay-off.
Fig. 3 is the section-drawing of ratchet assembly in the utility model.
In figure: 10, motor; 20, sleeve pipe transfer assembly; 21, the first roller; 22, the second roller; 30, transmission component; 31, driving gear; 32, driven gear; 33, the first drive link; 34, the second drive link; 35, the first gear fixed block; 36, the second gear fixed block; 40, pressure control assembly; 41, adjusting screw(rod); 42, ratchet assembly; 42a, ratchet; 42b, attaching parts; 42c, the first ratchet; 42d, the second ratchet; 42e, the first elastic element; 42f, the second elastic element; 43, rotary handle; 44, limiting locking assembly; 44a, stop nut; 44b, spacing clamp; 50, clutch shaft bearing fixed block; 60, the second bearing fixed block; 70, collar supports part.
The specific embodiment
For technical characterictic of the present utility model, object and effect being had more clearly, understand, now contrast accompanying drawing and describe the specific embodiment of the present utility model in detail.
As shown in Figure 1, it is a kind of in battery production process that the utility model provides, especially when battery is carried out to insulating package operation in order to the sleeve pipe pay-off of sleeve pipe to be provided to battery.This sleeve pipe pay-off comprises providing the motor 10 of power and is driven and rotated the sleeve pipe transfer assembly 20 that transmits sleeve pipe to realize by motor 10; This sleeve pipe transfer assembly 20 comprises the first roller 21 and the second roller 22 that cooperatively interacts to drive the transmission of sleeve pipe between; This sleeve pipe pay-off also comprises and is arranged on the transmission component 30 that drives the first roller 21 and the second roller 22 synchronous backwards to rotate between motor 10 and sleeve pipe transfer assembly 20.
Particularly, as shown in Figure 2, during work, collar supports part 70 in order to supporting sleeve is placed between the first roller 21 and the second roller 22 and is clamped, and by transmission component 30 drive the first rollers 21 and the second roller 22 synchronous backwards, rotate to realize sleeve pipe and transmit from top to bottom along this collar supports part 70.In the present embodiment, the first roller 21 and the second roller 22 all adopt wear-resisting and resilient non-metallic material, the rubber tire that preferred excellent power glue material is made, avoid the roller of available technology adopting metal material to contact with sleeve pipe easily skidding in rotary course and make it send mark length inconsistent deficiency, and the roller that adopts excellent power glue material can increase the friction force between itself and sleeve pipe, prevents from skidding.
In the present embodiment, utilize the synchronous backward of transmission component 30 synchro control the first rollers 21 and the second roller 22 to rotate, accurately control sleeve pipe feeding, to avoid using the first roller 21 and the second roller 22 engaged transmission to skid because of the first roller 21 and the second roller 22 wearing and tearing to transmit sleeve pipe, cause the first roller 21 asynchronous with the second roller 22 rotations and affect the problem of precision of the transmission of sleeve pipe.
Specifically, thereby thereby this transmission component 30 comprise by motor 10 drive the driving gear 31 that rotates, with the driven gear 32 of driving gear 31 engaged transmission, synchronize with driving gear 31 to rotate to be connected and drive the first drive link 33 that the first roller 21 rotates and the second drive link 34 that is connected drive the second roller 22 rotations with synchronously rotation of driven gear 32.
Understandably, in sleeve pipe pay-off provided by the utility model, motor 10 drives connected driving gear 31 to rotate, and this driving gear 31 drives the first roller 21 to rotate by the first drive link 33 being connected between driving gear 31 and the first roller 21; Driven gear 32 drives the second roller 22 to rotate by the second drive link 34 being connected between driven gear 32 and the second roller 22; Driven gear 32 and these driving gear 31 engaged transmission, make the switched in opposite with driving gear 31 that turns to of driven gear 32, thereby control the first roller 21 and the second roller 22 synchronous backwards rotations, occur, because the first roller 21 and the second roller 22 mutually wear and tear and cause skidding, affecting the precision of sleeve pipe transmission avoiding.Understandably, on transmission component 30, be also provided with and use for the rotatable installation of driving gear 31 to fix the first gear fixed block 35 of described driving gear 31 and rotatably to install to fix the second gear fixed block 36 of described driven gear 32 for driven gear 32.
More specifically, the servomotor that this motor 10 is rotation rate-controllable, while utilizing servomotor to provide power to this sleeve pipe pay-off, servomotor can be controlled by outside incoming signal, can control coupled and drive the rotating speed of the driving gear 31 rotating by it according to the incoming signal receiving, accurately to control feeding speed and the feed length of sleeve pipe.
Understandably, while utilizing sleeve pipe pay-off provided by the utility model to carry out sleeve pipe transmission, to rotate to realize and drive the sleeve pipe being set on described collar supports part 70 to transmit by controlling the first roller 21 and the second roller 22 synchronous backwards, in this process, if the distance of the first roller 21 and the second roller 22 is too small, cause the pressure force between the first roller 21 and the second roller 22 excessive, the sleeve pipe that makes to be set on collar supports part 70 cannot transmit smoothly, if distance is excessive between the first roller 21 and the second roller 22, pressure force between the first roller 21 and the second roller 22 is too small, the speed that its sleeve pipe transmits cannot effectively be controlled, affect the precision that sleeve pipe transmits.In order to control better sleeve pipe, transmit precision, this sleeve pipe pay-off be also provided be connected with sleeve pipe transfer assembly 20 in order to control between the first roller 21 and the second roller 22 distance with the pressure control assembly 40 of the pressure force between realization control the first roller 21 and the second roller 22.
Specifically, between being provided with in order to clutch shaft bearing fixed block 50, the second drive links 34 of fixed type bearing and the second roller 22 between the first drive link 33 and the first roller 21, be provided with the second bearing fixed block 60 in order to fixed type bearing.This pressure control assembly 40 comprise run through connect clutch shaft bearing fixed block 50 and the second bearing fixed block 60 for regulate distance between clutch shaft bearing fixed block 50 and described the second bearing fixed block 60 adjusting screw(rod) 41, be connected to adjusting screw(rod) 41 ends ratchet assembly 42, be arranged on the rotary handle 43 on ratchet assembly 42.
More specifically, the first negative thread (not shown) and the second negative thread (not shown) that this clutch shaft bearing fixed block 50 is contrary with being respectively equipped with the tooth line rotation direction that coordinates with adjusting screw(rod) 41 in the second bearing fixed block 60, corresponding, on adjusting screw(rod) 41, be respectively equipped with the first spiro rod section and the second spiro rod section with the first negative thread and the engagement of the second negative thread.
During work, clockwise direction along adjusting screw(rod) 41 rotates this adjusting screw(rod) 41, make the first negative thread in this clutch shaft bearing fixed block 50 and the second bearing fixed block 60 and the second negative thread drive this clutch shaft bearing fixed block 50 and the second bearing fixed block 60 mutually close; Otherwise, during this adjusting screw(rod) 41 of left-hand revolution, the first negative thread and the second negative thread drive this clutch shaft bearing fixed block 50 and the second bearing fixed block 60 mutually away from, to control the distance between clutch shaft bearing fixed block 50 and the second bearing fixed block 60, and then control the pressure force between the first roller 21 and the second roller 22.
More specifically, for distance between realization control the first roller 21 and the second roller 22 is to control its pressure force, in specific implementation process, the first drive link 33 that should be connected with the first roller 21 and the second drive link 34 being connected with the second roller 22 all adopt bellows, with avoid this first roller 21 of adjusting and the second roller 22 apart from time its first drive link 33 and the second drive link 34 generation axial deformations problem.Understandable, also can adopt other mechanisms of eliminating axial offset, eliminate because the wheelbase that regulates the first roller 21 and the second roller 22 to produce changes.
Understandably, thus this ratchet assembly 42 comprise be arranged in rotary handle 43 by rotary handle 43 drive the ratchet 42a that rotates, be arranged in ratchet 42a in order to secured adjusted screw rod 41 make attaching parts 42b that this adjusting screw(rod) 41 rotates with the rotation of ratchet 42a, with ratchet 42a cooperation be connected the first ratchet 42c and the second ratchet 42d with the second elastic element 42f with the first elastic element 42e that is connected to rotary handle 43 two ends respectively.The first ratchet 42c and the second ratchet 42d can be connected with spring can be along rotary handle 43 slide block that radially move at two ends, one end that this slide block and ratchet 42a join is dip plane, thereby can coordinate with ratchet 42a, drive ratchet 42a to rotate in certain range of pressure.
During concrete enforcement, by rotary handle 43, driving ratchet assembly 42 to do cw moves, drive adjusting screw(rod) 41 control clutch shaft bearing fixed blocks 50 and the second bearing fixed block 60 mutually close, increase gradually the pressure force on the first roller 21 and the second roller 22 and collar supports part 70, when its pressure force is less than the first elastic element 42e and the second elastic element 42f to the elastic force of the first ratchet 42c and the second ratchet 42d, this rotary handle 43 can drive ratchet 42a to rotate to increase its pressure force, when its pressure force is greater than the first elastic element 42e and the second elastic element 42f and acts on the elastic force of the first ratchet 42c and the second ratchet 42d, between this first ratchet 42c and the second ratchet 42d and ratchet 42a, form slipping state, cannot promote ratchet 42a, the ratchet 42a making cannot do clickwise using of rotary handle 43, that is to say and cannot drive adjusting screw(rod) 41 to rotate by ratchet 42a, cannot continue to dwindle the distance between clutch shaft bearing fixed block 50 and the second bearing fixed block 60, thereby guaranteed that the pressure force between the first roller 21 and the second roller 22 and collar supports part 70 can not continue to increase, thereby play the effect that pressure force is controlled.When left-hand revolution handle 43, the first ratchet 42c and the second ratchet 42d snap onto in the ratchet of ratchet 42a, thereby drive clutch shaft bearing fixed block 50 relative to motion with the second bearing fixed block 60, to reduce the distance between the first roller 21 and the second roller 22, thereby reduce the pressure force to collar supports part 70.
Further, on this pressure control assembly 40, also comprise be arranged on adjusting screw(rod) 41 in order to avoid clutch shaft bearing fixing with the second bearing fixed block 60 between hypotelorism and cause between the first roller 21 and the second roller 22 compression too and cannot transmit the limiting locking assembly 44 of sleeve pipe, this limiting locking assembly 44 comprise and be arranged on the stop nut 44a on adjusting screw(rod) 41 and be arranged on stop nut 44a and ratchet assembly 42 between spacing clamp 44b.
Implement sleeve pipe pay-off of the present utility model, utilize rubber tire as the first roller 21 and the second roller 22, with the first roller 21 of easily occurring for relevant sleeve pipe pay-off and the second roller 22 because skidding and it sent mark the inconsistent deficiency of length with mantle.Utilize the first negative thread and the second screw-internal thread fit that ratchet assembly 42 is contrary with tooth line rotation direction, control the first roller, the second roller respectively and be set in the pressure dynamics between the sleeve pipe on collar supports part 70.The first drive link 33 and the second drive link 34 all adopt bellows, the bias occurring while regulating pressure size in order to absorb due to the first contrary negative thread of tooth line rotation direction and the second screw-internal thread fit adjusting screw(rod) 41 interlocks.
The utility model describes by a specific embodiment, it will be appreciated by those skilled in the art that, in the situation that not departing from the utility model scope, can also carry out various conversion and be equal to alternative the utility model.In addition, for particular condition or particular case, can make various modifications to the utility model, and not depart from scope of the present utility model.Therefore, the utility model is not limited to disclosed specific embodiment, and should comprise the whole embodiments that fall within the scope of the utility model claim.
Claims (10)
1. a sleeve pipe pay-off, comprises motor (10) and by described motor (10), is driven the sleeve pipe transfer assembly (20) that transmits sleeve pipe; Described sleeve pipe transfer assembly (20) comprises the first roller (21) and the second roller (22) that matches and drive sleeve pipe between to transmit; It is characterized in that: this sleeve pipe pay-off also comprises and is arranged on the transmission component (30) that drives described the first roller (21) and described the second roller (22) synchronous backward to rotate between described motor (10) and described sleeve pipe transfer assembly (20).
2. sleeve pipe pay-off according to claim 1, is characterized in that: described transmission component (30) comprises by described motor (10) and drives the driving gear (31) that rotates, synchronizes to be rotationally connected drive the first drive link (33) that described the first roller (21) rotates and be synchronously rotationally connected with described driven gear (32) the second drive link (34) that drives described the second roller (22) rotation with the driven gear (32) of described driving gear (31) engaged transmission, with described driving gear (31).
3. sleeve pipe pay-off according to claim 2, is characterized in that: described transmission component (30) also comprises on described driving gear (31) and rotatable the first gear fixed block (35) and the second gear fixed block (36) of installing of described driven gear (32).
4. sleeve pipe pay-off according to claim 2, is characterized in that: described sleeve pipe pay-off also comprise be connected with described sleeve pipe transfer assembly (20) in order to control the pressure control assembly (40) of pressure force between described the first roller (21) and described the second roller (22).
5. sleeve pipe pay-off according to claim 4, it is characterized in that: between described the first drive link (33) and described the first roller (21), be provided with clutch shaft bearing fixed block (50), between described the second drive link (34) and described the second roller (22), be provided with the second bearing fixed block (60); Described pressure control assembly (40) comprise run through connect described clutch shaft bearing fixed block (50) and described the second bearing fixed block (60) for regulate distance between described clutch shaft bearing fixed block (50) and described the second bearing fixed block (60) with control its pressure force adjusting screw(rod) (41), be connected to the ratchet assembly (42) of described adjusting screw(rod) (41) end and be arranged on the rotary handle (43) on described ratchet assembly (42).
6. sleeve pipe pay-off according to claim 5, is characterized in that: the first negative thread and the second negative thread that described clutch shaft bearing fixed block (50) is contrary with being respectively equipped with the rotation direction that coordinates with described adjusting screw(rod) (41) in described the second bearing fixed block (60); Corresponding, on described adjusting screw(rod) (41), be respectively equipped with the first spiro rod section and the second spiro rod section with described the first negative thread and the engagement of the second negative thread.
7. sleeve pipe pay-off according to claim 5, is characterized in that: described the first drive link (33) is bellows with described the second drive link (34).
8. sleeve pipe pay-off according to claim 5, is characterized in that: described ratchet assembly (42) comprises the ratchet (42a) that is arranged in described rotary handle (43), be arranged in described ratchet (42a) attaching parts (42b), the ratchet coordinating with described ratchet (42a) in order to described adjusting screw(rod) (41) is fixedly connected with described ratchet (42a) and promote the elastic element that described ratchet coordinates with described ratchet (42a); One end that described ratchet and described ratchet (42a) join is dip plane.
9. sleeve pipe pay-off according to claim 5, is characterized in that: described pressure control assembly (40) also comprises the limiting locking assembly (44) being arranged on described adjusting screw(rod) (41); Described limiting locking assembly (44) comprise and be arranged on the stop nut (44a) on described adjusting screw(rod) (41) and be arranged on described stop nut (44a) and described ratchet assembly (42) between spacing clamp (44b).
10. according to the sleeve pipe pay-off described in arbitrary top of claim 1-9, it is characterized in that: described the first roller (21) and the second roller (22) are wear-resisting and resilient rubber tire.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201320675050.0U CN203567976U (en) | 2013-10-29 | 2013-10-29 | Sleeve pipe feeding device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201320675050.0U CN203567976U (en) | 2013-10-29 | 2013-10-29 | Sleeve pipe feeding device |
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CN203567976U true CN203567976U (en) | 2014-04-30 |
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CN201320675050.0U Expired - Fee Related CN203567976U (en) | 2013-10-29 | 2013-10-29 | Sleeve pipe feeding device |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104552420A (en) * | 2015-01-23 | 2015-04-29 | 苏州惠斯福自动化科技有限公司 | Conveying unit for corrugated pipe cut-off machine |
CN110696259A (en) * | 2019-10-18 | 2020-01-17 | 长沙永昌车辆零部件有限公司 | Sealing strip make-up machine |
CN112278415A (en) * | 2020-09-01 | 2021-01-29 | 苏州朗坤自动化设备股份有限公司 | Battery skin envelope assembling mechanism |
CN114137615A (en) * | 2021-11-29 | 2022-03-04 | 中国煤炭地质总局一二九勘探队 | Automatic natural gamma calibration device |
-
2013
- 2013-10-29 CN CN201320675050.0U patent/CN203567976U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104552420A (en) * | 2015-01-23 | 2015-04-29 | 苏州惠斯福自动化科技有限公司 | Conveying unit for corrugated pipe cut-off machine |
CN110696259A (en) * | 2019-10-18 | 2020-01-17 | 长沙永昌车辆零部件有限公司 | Sealing strip make-up machine |
CN112278415A (en) * | 2020-09-01 | 2021-01-29 | 苏州朗坤自动化设备股份有限公司 | Battery skin envelope assembling mechanism |
CN114137615A (en) * | 2021-11-29 | 2022-03-04 | 中国煤炭地质总局一二九勘探队 | Automatic natural gamma calibration device |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140430 Termination date: 20181029 |