CN206645659U - Disk machine on a kind of busbar - Google Patents

Abstract

The utility model discloses disk machine on a kind of busbar, including cleat assembly, the cleat assembly includes dynamic clamping plate, strap and it is coupled to dynamic clamping plate to drive dynamic clamping plate drive mechanism of the dynamic clamping plate closer or far from strap, disk machine also includes inflatable shaft assembly on busbar, inflatable shaft assembly includes air-expanding shaft, air-expanding shaft inflation mechanism and air-expanding shaft rotating mechanism, air-expanding shaft rotating mechanism is coupled to air-expanding shaft to drive air-expanding shaft to rotate, air-expanding shaft is coupled to strap so that strap can follow air-expanding shaft synchronous rotary, air-expanding shaft inflation mechanism connects air-expanding shaft by gas circuit, treat that the tubulose hub of disk is sleeved on the front end for reaching the air-expanding shaft on the inside of strap, and clamped by dynamic clamping plate and strap, tightly engaged when air-expanding shaft is inflated with the inner surface of hub.Using disk machine on the busbar, busbar pipe is not in the slip relative to clamping plate when rotating upper disk, avoids friction between busbar pipe side wall and clamping plate and causes pipe outer wall to damage.

Description

Disk machine on a kind of busbar

Technical field

It the utility model is related to disk machine on a kind of busbar.

Background technology

The working method of original fixture, hub is directly born against on strap end face, open jettron, dynamic clamping plate exists Hub is close under the promotion of reciprocating air cylinder and is compressed, one end of busbar pipe is fixed in hub, is started the rotation of motor hub and is started Upper disk, upper disk terminate, and open the dynamic clamping plate of jettron and leave hub, the busbar pipe of first-class disk drops, and completes a working cycles.

Process busbar pipe being wrapped in hub is upper disk.Disk machine has two panels circle clamping plate on existing busbar, point Clamping plate and strap Wei not be moved, dynamic clamping plate is drawn close to clamp hub under the driving of cylinder to strap, and drives hub Rotate to implement upper disk.Hub to be held is interior empty pipe, and during work, operating personnel are leaned against solid with one end of hand handle hub On clamp plate, jettron is opened, dynamic clamping plate comes on the other end of hub and compressed under the promotion of cylinder, moves clamping plate and solid Clamp plate clamps hub jointly, treat busbar pipe one end of disk with adhesive tape be fixed on hub it is cylindrical on, under the drive of motor, folder Plate holds hub and rotated together, and busbar pipe is wrapped in hub under the drive of hub.At the end of upper disk, opening is pneumatically opened Close, dynamic clamping plate leaves hub under the driving of cylinder, and the busbar pipe of first-class disk drops, and completes a working cycles.

During upper disk, the disk external diameter that the busbar pipe that is wrapped in hub is formed becomes larger, and weight is also gradual Increase, disk external diameter it is big to a certain extent when, easily there is the frictional force between hub and circular clamping plate and be not enough to drive busbar pipe Continue upper disk, and the phenomenon of hub opposing circular clamping plate slip occurs, this will result in the busbar pipe after disk together with hub phase Slided for circular clamping plate, friction is produced between circular clamping plate, causes the side wall of busbar pipe to abrade, or even make busbar pipe Insulating barrier lose and cause product thoroughly to scrap.

Utility model content

Main purpose of the present utility model is overcome the deficiencies in the prior art, there is provided disk machine on a kind of busbar, solves female Easily occur relative slip when comb rotates above disk, rubbed between busbar pipe side wall and clamping plate and cause pipe outer wall to damage, Nai Zhizao The problem of being scrapped into busbar pipe.

To achieve the above object, the utility model uses following technical scheme：

Disk machine on a kind of busbar, including cleat assembly, the cleat assembly include dynamic clamping plate, strap and are coupled to institute Clamping plate is stated to drive dynamic clamping plate drive mechanism of the dynamic clamping plate closer or far from the strap, disk machine on the busbar Also include inflatable shaft assembly, the inflatable shaft assembly includes air-expanding shaft, air-expanding shaft inflation mechanism and air-expanding shaft rotating mechanism, described Air-expanding shaft rotating mechanism is coupled to the air-expanding shaft to drive the air-expanding shaft to rotate, and the air-expanding shaft is coupled to the geometrical clamp For plate so that the strap can follow the air-expanding shaft synchronous rotary, the air-expanding shaft inflation mechanism connects institute by gas circuit Air-expanding shaft is stated, treats that the tubulose hub of disk is sleeved on the front end for reaching the air-expanding shaft on the inside of the strap, and by The dynamic clamping plate and strap clamping, the inner surface when air-expanding shaft is inflated with the hub tightly engage.

Further：

The air-expanding shaft includes axially mounted blade and the air bag inside axle, and the blade surface has tooth, inflation Shi Suoshu blades radially strut in the presence of the air bag, and the inner surface of the tooth of the blade surface and the hub is close Engagement, fixes the hub in the presence of crown air pressure.

The air-expanding shaft rotating mechanism includes air-expanding shaft electric rotating machine and pulley assembly, and the air-expanding shaft electric rotating machine leads to Cross the pulley assembly and be coupled to the air-expanding shaft to drive the air-expanding shaft and the strap synchronous rotary.

The dynamic clamping plate drive mechanism includes dynamic air splint cylinder and dynamic clamping plate connecting shaft, and the dynamic clamping plate is to be freely rotatable Mode be arranged on the dynamic clamping plate connecting shaft on, the dynamic air splint cylinder be coupled to the dynamic clamping plate connecting shaft and drive described in Dynamic clamping plate connecting shaft and the dynamic clamping plate are closer or far from the strap.

The strap is arranged in a manner of mobilizable vertically on the air-expanding shaft.

Disk machine also includes pull-fork assembly on the busbar, and the pull-fork assembly is coupled on the strap to drive Strap is stated to move axially along the air-expanding shaft.

The pull-fork assembly includes shift fork, shift fork mobile cylinder and guide rod, and the shift fork mobile cylinder is coupled to described dial For fork to drive the shift fork to be moved along the air-expanding shaft, the shift fork has fork handle portion and two by extending in the fork handle portion Individual prong portion, the air-expanding shaft are located between two prong portions of the shift fork, and the guide rod is set parallel to the air-expanding shaft Put, the fork handle portion of the shift fork is arranged on the guide rod in a manner of it can be slided along the guide rod.

The guide rod includes parallel the first guide rod and the second guide rod, first guide rod and second guide rod with it is described The axis of air-expanding shaft is non-coplanar, and the fork handle portion of the shift fork is arranged on first guide rod and second guide rod by installing plate On.

The pull-fork assembly also includes driver plate and driver plate spring bearing, and the driver plate is fixed on the outside of the strap On surface, the driver plate has the annular groove coaxial with the air-expanding shaft, and the shift fork supporting bearing is including axis body and rotatably Ground is arranged on the bearing body on the axis body, and the bearing body is embedded in the annular groove of the driver plate, the axis body with it is described Air-expanding shaft is parallel and is fixedly mounted in the prong portion of the shift fork.

The pull-fork assembly includes two driver plate spring bearings, and two driver plate spring bearings are symmetrically disposed in In two prong portions of the shift fork.

The beneficial effects of the utility model：

Disk machine is provided with air-expanding shaft on busbar of the present utility model, and the air-expanding shaft is coupled to strap so that strap Air-expanding shaft synchronous rotary can be followed, treats that the tubulose hub of disk is sleeved on the air-expanding shaft reached on the inside of strap, gas Tightly engage with the inner surface of hub when swelling shaft is inflated and hub can not be moved with respect to air-expanding shaft, so that it is guaranteed that hub is in clamping plate group Synchronous rotary under the drive of part and air-expanding shaft.It is relative due to that will not be produced between hub and dynamic clamping plate, strap in upper disk Motion, the busbar pipe scratch being wrapped in hub avoid, and therefore, the utility model avoids disk machine on existing busbar Easily there is relative slip in disk in the rotation of busbar pipe, cause to rub between busbar pipe side wall and clamping plate and cause pipe outer wall to damage Wound, or even the problem of causing busbar pipe to scrap.

Hub to be fixed positioning because there is provided air-expanding shaft, the busbar pipe of first-class disk uses conventional busbar without the image of Buddha Equally dropped during upper disk machine by deadweight, and intensity is larger if manually handling labor, therefore, of the present utility model be preferable to carry out Example further devises pull-fork assembly, so that first-class disk can automatically disengage air-expanding shaft and freedom under the promotion of shift fork Drop, the problem of avoiding the need for manually unloading disk, greatly reduce the labor intensity of operating personnel.

Brief description of the drawings

Fig. 1 is a kind of structural representation of embodiment of disk machine on the utility model busbar；

Fig. 2 is driver plate spring bearing partial enlarged drawing of the disk machine at A on the busbar shown in Fig. 1；

(dextrad arrow is upper hub direction to working state schematic representation when Fig. 3 is upper hub and unloads hub, and left-hand arrow is Unload disk direction)；

View when Fig. 4 is first-class hub.

Embodiment

Embodiment of the present utility model is elaborated below.It is emphasized that the description below is only example Property, rather than in order to limit the scope of the utility model and its application.

Refering to Fig. 1 to Fig. 4, in one embodiment, disk machine on a kind of busbar, including cleat assembly, the cleat assembly Including dynamic clamping plate 1a, strap 1b and it is coupled to the dynamic clamping plate 1a to drive the dynamic clamping plate 1a closer or far from described solid Clamp plate 1b dynamic clamping plate drive mechanism, disk machine also includes inflatable shaft assembly on the busbar, and the inflatable shaft assembly includes gas Swelling shaft 2, air-expanding shaft inflation mechanism and air-expanding shaft rotating mechanism, the air-expanding shaft rotating mechanism are coupled to the air-expanding shaft 2 to drive Move the air-expanding shaft 2 to rotate, the air-expanding shaft 2 is coupled to the strap 1b so that the strap 1b can follow institute The synchronous rotary of air-expanding shaft 2 is stated, the air-expanding shaft inflation mechanism connects the air-expanding shaft 2 by its gas circuit, treats the tubulose disk of disk Core retainer plate is mounted in the front end for reaching the air-expanding shaft on the inside of the strap 1b, and by the dynamic clamping plate 1a and the fixation Clamping plate 1b is clamped, and being tightly engaged when the air-expanding shaft 2 is inflated with the inner surface of the hub makes the hub relatively described Air-expanding shaft 2 moves, so as to hub synchronous rotary under the drive of cleat assembly and the air-expanding shaft 2.Due in upper disk Relative motion will not be produced between hub and dynamic clamping plate 1a, strap 1b, the busbar pipe scratch being wrapped in hub Avoid.

In a preferred embodiment, the air-expanding shaft 2 can include axially mounted blade and the air bag inside axle, institute Stating blade surface has a tooth, and the axially mounted blade radially struts in the presence of the air bag during inflation, the leaf The tooth on piece surface and the inner surface of the hub are tightly engaged, and residence is engaged in the presence of crown air pressure and states hub.Air-expanding shaft Various designs well known by persons skilled in the art can be used, if air-expanding shaft after high-pressure aerated surface can projection from And hub is engaged, it is not relatively rotated with air-expanding shaft.

Refering to Fig. 1, in a preferred embodiment, the air-expanding shaft inflation mechanism can include gas circuit, Pneumatic rotary joint 5 And play the jettron pedal 11 of control action.

Refering to Fig. 1, in a preferred embodiment, the air-expanding shaft rotating mechanism includes air-expanding shaft electric rotating machine 10 and belt Wheel assembly 4, pulley assembly 4 include belt and supporting belt wheel.The air-expanding shaft electric rotating machine 10 passes through the belt pulley set Part 4 is coupled to the air-expanding shaft 2 to drive the air-expanding shaft 2 and the strap 1b synchronous rotaries.

Refering to Fig. 1, in a preferred embodiment, the dynamic clamping plate drive mechanism includes dynamic air splint cylinder 13 and dynamic clamping plate connects Spindle, the dynamic clamping plate 1a are arranged in the dynamic clamping plate connecting shaft in a manner of rotatable, the dynamic air splint cylinder 13 It is coupled to the dynamic clamping plate connecting shaft and drives the dynamic clamping plate connecting shaft and the dynamic clamping plate 1a closer or far from the fixation Clamping plate 1b.

Refering to Fig. 1, in a preferred embodiment, the strap 1b is arranged on described in a manner of mobilizable vertically On air-expanding shaft 2.

Refering to Fig. 1 to Fig. 4, in a preferred embodiment, disk machine also includes pull-fork assembly, the shift fork group on the busbar Part is coupled on the strap 1b, for making the strap 1b be axially moveable relative to the air-expanding shaft 2.In standard During standby upper disk, the action of the pull-fork assembly makes the front end relative extension of the air-expanding shaft 2 to the inner side of the strap 1b, So as to which the hub can be attached on the air-expanding shaft 2 by operating personnel；When upper disk finishes, the action of the pull-fork assembly makes The front end of the air-expanding shaft 2 relatively moves to the outside of the strap 1b, so as to by first-class disk from air-expanding shaft 2 it is automatic Push.

Refering to Fig. 1 to Fig. 4, in a more preferred embodiment, the pull-fork assembly includes shift fork 7, the and of shift fork mobile cylinder 9 Guide rod 8, the shift fork mobile cylinder 9 are coupled to the shift fork 7 to drive the shift fork 7 to be moved along the air-expanding shaft 2, described group Fork 7 has fork handle portion and two prong portions by extending in the fork handle portion, and the air-expanding shaft 2 is located in the two of the shift fork Between individual prong portion, the guide rod 8 is set parallel to the air-expanding shaft 2, and the fork handle portion of the shift fork 7 is with can be along the guide rod 8 The mode of slip is arranged on the guide rod 8.

In a more preferred embodiment, the guide rod 8 includes parallel the first guide rod and the second guide rod, first guide rod Non-coplanar with the axis of second guide rod and the air-expanding shaft, the fork handle portion of the shift fork 7 is arranged on described by installing plate On first guide rod and second guide rod.

Refering to Fig. 1 to Fig. 2, in a preferred embodiment, the pull-fork assembly also includes driver plate 6 and driver plate spring bearing 3, The driver plate 6 is fixed on the outer surface of the strap 1b, and the driver plate 6 has the ring coaxial with the air-expanding shaft 2 Shape groove, the shift fork supporting bearing include axis body and the bearing body being installed in rotation on the axis body, and the bearing body is embedding It is located in the annular groove of the driver plate 6, the axis body is parallel with the air-expanding shaft 2 and is fixedly mounted on the prong of the shift fork 7 In portion, the bearing body can roll when the air-expanding shaft 2 rotates relative to the annular groove, the band when the shift fork 7 moves Move the driver plate 6 and the strap 1b moves axially relative to the air-expanding shaft 2.

Refering to Fig. 1 to Fig. 2, in a more preferred embodiment, the pull-fork assembly includes two driver plate spring bearings 3, two driver plate spring bearings 3 are symmetrically disposed in two prong portions of the shift fork 7, so that whole pull-fork assembly It is more stable reliable in structure.

In the particular embodiment, can be according to function key, screw, threaded connection between the correlated parts of inflatable shaft assembly Together, enable to transmit rotary motion and UNICOM's compressed air.The effect of inflatable shaft assembly be make hub and dynamic clamping plate 1a, Relative motion is not produced between strap 1b, the busbar pipe scratch being wrapped in hub avoids.Before upper disk, geometrical clamp For plate 1b in the presence of shift fork mobile cylinder 9 and shift fork 7, the left-hand arrow direction along Fig. 3, air-expanding shaft 2 reaches geometrical clamp Between plate 1b and dynamic clamping plate 1a, hub 12 can be enclosed on air-expanding shaft 2 and be close to solid with hand by operating personnel along the dextrad direction of arrow Clamp plate 1b, then opening pneumatic on-off valve makes air-expanding shaft 2 axially mounted by the UNICOM's compressed air of swivel joint 5, air-expanding shaft Blade radially strutted in the presence of axle inner balloon, the tooth and the inner surface of hub 12 of blade surface are brought into close contact, crown Hub is engaged in the presence of air pressure, being allowed to can not relative motion.Dynamic clamping plate 1a is under the promotion of dynamic air splint cylinder 13 along Fig. 3 Dextrad arrow, hub end face is close to towards the motion of hub direction, and hub is clamped in dynamic folder under the pressure of dynamic air splint cylinder 13 Between plate 1a, strap 1b.Now, the busbar pipe one end for treating upper disk is sticked on the outer wall of circular hub with adhesive tape, opened Swelling shaft of taking offence electric rotating machine 10, start the upper disk of busbar pipe, in the presence of air-expanding shaft 2, hub is fixedly connected reliably, with dynamic folder Relative slip will not be produced between plate 1a, strap 1b, so as to ensure that busbar tube wall will not produce scuffing, improves product Quality.Fig. 4 show the state after hub.

The external diameter of air-expanding shaft is smaller than hub size, and air-expanding shaft is by hub Internal hole positioning, air-expanding shaft UNICOM compressed air Afterwards, outer surface blade struts the endoporus in hub, and engagement is stung tight.Hub is fixed positioning because devising air-expanding shaft, it is first-class The busbar pipe of disk can not drop by deadweight as before, be that this utility model is excellent if manually handling labor intensity is larger Select embodiment further to devise pull-fork assembly, first-class disk is automatically disengaged air-expanding shaft under the promotion of shift fork And freely drop, avoid and manually unload disk, significantly reduce the labor intensity of operating personnel.

In the particular embodiment, pull-fork assembly includes driver plate 6, shift fork 7, driver plate spring bearing 3, shift fork mobile cylinder 9 With guide rod 8, shift fork 7 is fixed on two parallel guide rods, and the lower end of shift fork 7 and the piston rod of shift fork mobile cylinder can be consolidated with screw thread Fixed connection, can be along the side-to-side movement of guide rod 8, the end face of driver plate 6 and strap under the promotion of the piston rod of shift fork mobile cylinder 9 1b end face can be reliably connected with screw, and shift fork supporting bearing 3 is stuck in the annular groove of driver plate 6.When shift fork 7 moves, it is stuck in and dials Shift fork supporting bearing 3 in the annular groove of disk 6 drives driver plate 6 and strap 1b to move together.Inflatable shaft assembly drives hub Shift fork supporting bearing 3 can avoid producing sliding friction between pull-fork assembly during rotation.When upper disk finishes, pull-fork assembly can more than The busbar pipe of good disk is unloaded down automatically from air-expanding shaft.Specific motion flow is as follows：After having gone up disk, air splint cylinder 13 and shift fork are moved Mobile cylinder 9 moves along the left-hand direction of arrow shown in Fig. 3 simultaneously, and dynamic clamping plate leaves hub, while controls pneumatic on-off valve to make gas The blade of swelling shaft 2 resets, and hub inner surface disengages contact, and under the drive of shift fork mobile cylinder 9, shift fork 7 is along left-hand arrow First-class disk is pushed by direction from air-expanding shaft 2, and a upper disk working cycles are completed.Pull-fork assembly is set, is not required to artificial hand It is dynamic that product is taken from fixture, operating efficiency is substantially increased, significantly reduces labor strength.

Above content is to combine specific/preferred embodiment further detailed description of the utility model, no It can assert that specific implementation of the present utility model is confined to these explanations.For the common skill of the utility model art For art personnel, without departing from the concept of the premise utility, it can also make to the embodiment that these have been described Some replacements or modification, and these are substituted or variant should all be considered as belonging to the scope of protection of the utility model.

Claims (10)

1. disk machine on a kind of busbar, including cleat assembly, the cleat assembly includes dynamic clamping plate, strap and is coupled to described Clamping plate is moved to drive dynamic clamping plate drive mechanism of the dynamic clamping plate closer or far from the strap, it is characterised in that described Disk machine also includes inflatable shaft assembly on busbar, and the inflatable shaft assembly includes air-expanding shaft, air-expanding shaft inflation mechanism and air-expanding shaft rotation Rotation mechanism, the air-expanding shaft rotating mechanism are coupled to the air-expanding shaft to drive the air-expanding shaft to rotate, the air-expanding shaft coupling To the strap so that the strap can follow the air-expanding shaft synchronous rotary, the air-expanding shaft inflation mechanism leads to Cross gas circuit and connect the air-expanding shaft, treat that the tubulose hub of disk is sleeved on the air-expanding shaft reached on the inside of the strap Front end, and clamped by the dynamic clamping plate and the strap, it is tight with the inner surface of the hub during air-expanding shaft inflation Close engagement.

2. disk machine on busbar as claimed in claim 1, it is characterised in that the air-expanding shaft include axially mounted blade and Air bag inside axle, the blade surface have a tooth, and the blade radially struts in the presence of the air bag during inflation, institute State the tooth of blade surface and the inner surface of the hub tightly engages, the hub is fixed in the presence of crown air pressure.

3. disk machine on busbar as claimed in claim 1, it is characterised in that the air-expanding shaft rotating mechanism rotates including air-expanding shaft Motor and pulley assembly, the air-expanding shaft electric rotating machine are coupled to the air-expanding shaft to drive by the pulley assembly State air-expanding shaft and the strap synchronous rotary.

4. disk machine on busbar as claimed in claim 1, it is characterised in that the dynamic clamping plate drive mechanism includes dynamic air splint cylinder With dynamic clamping plate connecting shaft, the dynamic clamping plate is arranged in the dynamic clamping plate connecting shaft in a manner of rotatable, the dynamic folder Plate cylinder is coupled to the dynamic clamping plate connecting shaft and drives the dynamic clamping plate connecting shaft and the dynamic clamping plate closer or far from described Strap.

5. disk machine on the busbar as described in any one of Claims 1-4, it is characterised in that the strap is vertically may be used The mode of activity is arranged on the air-expanding shaft.

6. disk machine on busbar as claimed in claim 5, it is characterised in that also including pull-fork assembly, the pull-fork assembly coupling To drive the strap to be moved axially along the air-expanding shaft on to the strap.

7. disk machine on busbar as claimed in claim 6, it is characterised in that the pull-fork assembly includes shift fork, shift fork movement gas Cylinder and guide rod, the shift fork mobile cylinder are coupled to the shift fork to drive the shift fork to be moved along the air-expanding shaft, described group Fork has fork handle portion and two prong portions by extending in the fork handle portion, and the air-expanding shaft is located in two of the shift fork Between prong portion, the guide rod is set parallel to the air-expanding shaft, and the fork handle portion of the shift fork along the guide rod can slide Mode is arranged on the guide rod.

8. disk machine on busbar as claimed in claim 7, it is characterised in that the guide rod includes parallel the first guide rod and second The axis of guide rod, first guide rod and second guide rod and the air-expanding shaft is non-coplanar, and the fork handle portion of the shift fork passes through Installing plate is arranged on first guide rod and second guide rod.

9. disk machine on busbar as claimed in claim 7, it is characterised in that the pull-fork assembly also includes driver plate and driver plate supports Bearing, the driver plate are fixed on the outer surface of the strap, and the driver plate has the ring coaxial with the air-expanding shaft Shape groove, the shift fork supporting bearing include axis body and the bearing body being installed in rotation on the axis body, and the bearing body is embedding It is located in the annular groove of the driver plate, the axis body is parallel with the air-expanding shaft and is fixedly mounted on the prong portion of the shift fork On.

10. disk machine on busbar as claimed in claim 9, it is characterised in that the pull-fork assembly includes two driver plate branch Bearing is supportted, two driver plate spring bearings are symmetrically disposed in two prong portions of the shift fork.