CN202344135U - Tubing rotary automatic feeding device - Google Patents

Abstract

The utility model provides a tubing rotary automatic feeding device, comprising a pedestal. The pedestal is provided with a cylindrical body for penetration of the tubing. The tubing rotary automatic feeding device further comprises a plurality of clamping mechanisms, a plurality of universal ball mechanisms, a plurality of first transmission columns, a plurality of second transmission columns and two rotary rings, wherein the plurality of clamping mechanisms are radially arranged on the cylindrical body in a penetration manner, the plurality of universal ball mechanisms are radially arranged on the cylindrical body in a penetration manner and alternately distributed along the cylindrical body in the circumferential direction, the plurality of first transmission columns are respectively engaged with the clamping mechanisms and used for driving the clamping mechanisms to feed radially, the plurality of second transmission columns are respectively engaged with the universal ball mechanisms and used for driving the universal ball mechanisms to feed radially, and the two rotary rings are rotationally sleeved on two axial opposite ends of the cylindrical body and respectively engaged with the first transmission columns and the second transmission columns. The universal ball mechanisms are guaranteed to be concentric with a rotating platform of a laser tube cutting machine, while long circular tubes are cut, the cutting precision is improved, automatic feeding of the tubing is realized, manual dragging for feeding the tubing is not needed, and labor intensity is reduced.

Description

The rotational automatic feed arrangement of tubing

Technical field

The utility model belongs to cut facility field, relates in particular to the rotational automatic feed arrangement of the tubing that is used on the laser cutting machine.

Background technology

In the existing laser pipe cutter; Common supplemental support is a fixed-site, can only make certain position of tubing and turntable chuck concentric, and cutting accuracy is relatively poor in the time of the ovaler pipe of cutting; In addition; In most of the cases, rely on and drag the tubing feeding manually, do not reach the technological requirement that improves day by day.

The utility model content

The purpose of the utility model is to provide a kind of tubing rotational automatic feed arrangement, is intended to solve tubing cutting accuracy difference and the artificial problem of sending pipe that prior art exists.

The utility model is to realize like this; The rotational automatic feed arrangement of a kind of tubing; It comprises a bearing; Said bearing has the cylindrical shell that supplies tubing to wear, said device also comprises some clamp mechanism of radially being arranged on the said cylindrical shell, radially be arranged on the said cylindrical shell and with said clamp mechanism along the some multi-directional ball mechanism that circumferentially alternately arranges of said cylindrical shell, respectively with said clamp mechanism engagement and make some first of said clamp mechanism radial feed take off post, respectively with said multi-directional ball mechanism engagement and some second of said multi-directional ball mechanism radial feed is taken off post and be sheathed on rotationally said drum shaft to opposite end portion and take off post with first respectively and second take off post engagement two swivel beckets.

Further; Said first end that take off post and the engagement of said clamp mechanism; The other end and wherein swivel becket engagement; Said second end that take off post and the engagement of said multi-directional ball mechanism, the other end and the engagement of an other swivel becket, said first takes off post and bearing fixing is passed through in said cylindrical shell in second middle part that take off post.

Further, said first take off post and second axis direction that take off post along said cylindrical shell is arranged on the said cylindrical shell.

Further; Said clamp mechanism comprises cylinder and is fixed in the chuck of said cylinder one end; Said cylinder radially is arranged on the said cylindrical shell; Said chuck stretches in the said cylindrical shell, and the periphery surface of said cylinder is provided with along the axis direction of this cylinder and is used for the toothrow that takes off post engagement with said first.

Further, the other end of the cylinder of said clamp mechanism stretches out outside the said cylindrical shell, and said cylinder is provided with pouring orifice, and said pouring orifice is positioned at outside the said cylindrical shell.

Further; Said multi-directional ball mechanism comprises center pillar and is fixed in the multi-directional ball assembly of said center pillar one end; Said center pillar radially is arranged on the said cylindrical shell; Said multi-directional ball assembly stretches in the said cylindrical shell, and the periphery surface of said center pillar is provided with along the axis direction of this center pillar and is used for the toothrow that takes off post engagement with said second.

Further, the other end of the center pillar of said multi-directional ball mechanism stretches out outside the said cylindrical shell, and said center pillar is provided with pouring orifice, and said pouring orifice is positioned at outside the said cylindrical shell.

Further, said multi-directional ball assembly comprises ball base, is installed in the ball base and the steel ball that can in ball base, rotate and be installed on the said ball base and be placed on the gland on the said steel ball.

Further, said device also comprises a suspension and is installed on being used on the said suspension and promote the cylinder pushing mechanism that said swivel becket rotates around said cylindrical shell that said bearing is installed on the suspension.

Further, said cylinder pushing mechanism comprises two cylinders with piston rod and is connected to two connectors on the piston rod that said two connectors are individually fixed on the periphery surface of said swivel becket.

The utility model rotates with respect to said cylindrical shell through said swivel becket; Take off post by second and to drive said multi-directional ball mechanism radial feed and clamp tubing; Multi-directional ball mechanism does not influence tubing and rotates when holding up tight tubing, can guarantee tubing smooth and easy rotation in centering, guarantees cutting accuracy.Unclamp multi-directional ball mechanism, swivel becket rotates, and taking off post through first drives said clamp mechanism clamping tubing, can realize the auto-feed of tubing along with the machine that uses the rotational automatic feed arrangement of this tubing drag feeding then.

Description of drawings

Fig. 1 is the stereogram of the rotational automatic feed arrangement of tubing that provides of the utility model.

Fig. 2 is the rear side figure of the rotational automatic feed arrangement of tubing of Fig. 1.

Fig. 3 is the stereogram of bearing of the rotational automatic feed arrangement of tubing of Fig. 1.

Fig. 4 is first stereogram that takes off post of the rotational automatic feed arrangement of tubing of Fig. 1.

Fig. 5 is the stereogram of clamp mechanism of the rotational automatic feed arrangement of tubing of Fig. 1.

Fig. 6 is the three-dimensional exploded view of Fig. 5.

Fig. 7 is the stereogram of multi-directional ball mechanism of the rotational automatic feed arrangement of tubing of Fig. 1.

Fig. 8 is the three-dimensional exploded view of Fig. 7.

Fig. 9 is the stereogram of swivel becket of the rotational automatic feed arrangement of tubing of Fig. 1.

Figure 10 is the stereogram of cylinder pushing mechanism of the rotational automatic feed arrangement of tubing of Fig. 1.

The specific embodiment

For the purpose, technical scheme and the advantage that make the utility model is clearer,, the utility model is further elaborated below in conjunction with accompanying drawing and embodiment.Should be appreciated that specific embodiment described herein only in order to explanation the utility model, and be not used in qualification the utility model.

See also Fig. 1 and Fig. 2, the rotational automatic feed arrangement of the tubing that the utility model embodiment provides comprises a bearing 10.Said bearing 10 has the cylindrical shell 11 that confession tubing (figure does not show) wears.The rotational automatic feed arrangement of said tubing also comprises the some clamp mechanism 20 that radially are arranged on the said cylindrical shell 11; Radially be arranged on the said cylindrical shell 11 and with the some multi-directional ball mechanism 30 that circumferentially alternately arrange of said clamp mechanism 20 along said cylindrical shell 11; Respectively with 20 engagements of said clamp mechanism and make some first of said clamp mechanism 20 radial feeds take off post 40; Respectively with said multi-directional ball mechanism 30 engagements and make some second of said multi-directional ball mechanism 30 radial feeds take off post 50 and be sheathed on rotationally said cylindrical shell 11 opposite end portions and respectively with first 40 and second 50 two swivel beckets 60 that mesh that take off post that take off post.

Through the wherein rotation of a swivel becket 60, drive first 40 rotations that take off post, and then make the radially feeding of said clamp mechanism 20.When this when wherein a swivel becket 60 is rotated in the forward (like the R direction of Fig. 1); Said first takes off post 40 drives the radially feedings in said cylindrical shell 11 of said clamp mechanism 20; When these a wherein swivel becket 60 reverse rotations (like the L direction of Fig. 1), said first takes off post 40 drives the radially feedings outside said cylindrical shell 11 of said clamp mechanism 20.In like manner; Rotation through another swivel becket 60; Drive second 50 rotations that take off post; And then make the 30 radially feedings of said multi-directional ball mechanism, the forward of this another swivel becket 60 (R) or reverse (L) rotation, through second take off post 50 drive said multi-directional ball mechanism 30 in said cylindrical shell 11 or feeding outside cylindrical shell 11.

Please consult Fig. 3 simultaneously, the cylindrical shell 11 of said bearing 10 is provided with some first holes 13 and second hole 15.Said first hole 13 supplies said clamp mechanism 20 to pass through with multi-directional ball mechanism 30, and said second hole 15 supplies said first to take off post and 40 and second take off post and 50 pass through.The opposite end of said cylindrical shell is provided with installation portion 17.Said second hole 15 is offered a breach 19 towards said installation portion 17 so that said first take off post 40 and second take off post 50 with transmission ring 60 engagement.

Please consult Fig. 4 simultaneously, said first takes off post 40 and second takes off post and 50 is arranged on the said cylindrical shell 11 along the axis directions of said cylindrical shell 11.

Said first takes off post 40 is column structure.Said first take off post 40 the end 41 and said clamp mechanism 20 engagements, the other end 42 and a wherein swivel becket 60 engagements, said first take off post 40 the middle part 43 is fixed in the said cylindrical shell 11 through bearing (scheming not show).In the present embodiment, said first a take off post end 41 of 40 and the other end 42 is provided with along first tooth 44 that 40 axis direction extends that takes off post, and said tooth 44 is covered with in said first and takes off post on 40 the end side face.

Said second takes off post 50 is column structure.In the present embodiment, second take off post 50 the structure and first takes off post 40 identically, only gives simple introduction here.Said second take off post 50 end and 30 engagements of said multi-directional ball mechanism, the other end and 60 engagements of an other swivel becket, bearing fixing is passed through in said cylindrical shell 11 in said second take off post 50 the middle part.In the present embodiment, said second a take off post end of 50 and the other end is provided with along second tooth that 50 axis direction extends that takes off post, and said tooth is covered with in said second and takes off post on 50 the end side face.

Please consult Fig. 5 and Fig. 6 simultaneously; Said clamp mechanism 20 comprises cylinder 21 and is fixed in the chuck 23 of said cylinder 21 1 ends; Said cylinder 21 radially is arranged on the said cylindrical shell 11; Said chuck 23 stretches in the said cylindrical shell 11, and the periphery surface of said cylinder 21 is provided with along the axis direction of this cylinder 21 and is used for the toothrow 25 that takes off post 40 engagements with said first.The other end of the cylinder 21 of said clamp mechanism 20 stretches out outside the said cylindrical shell 11, and said cylinder 21 is provided with pouring orifice 27, and said pouring orifice 27 is positioned at outside the said cylindrical shell 11, so that oiling.

See also Fig. 7 and Fig. 8; Said multi-directional ball mechanism 30 comprises center pillar 31 and is fixed in the multi-directional ball assembly 32 of said center pillar 31 1 ends; Said center pillar 31 radially is arranged on the said cylindrical shell 11; Said multi-directional ball assembly 32 stretches in the said cylindrical shell 11, and the periphery surface of said center pillar 31 is provided with along the axis direction of this center pillar 31 and is used for the toothrow 33 that takes off post 50 engagements with said second.The other end of the center pillar 31 of said multi-directional ball mechanism 30 stretches out outside the said cylindrical shell 11, and said center pillar 31 is provided with pouring orifice 34, and said pouring orifice 34 is positioned at outside the said cylindrical shell 11.Said multi-directional ball assembly 32 comprises ball base 320, be installed in the ball base 320 and steel balls 322 that can in ball base 320, rotate and be installed on the said ball base 320 and be placed on the gland 324 on the said steel ball 322.Said ball base 320 is provided with ball (figure does not show) with the contact position of said steel ball 322, so that said steel ball 322 rotates with respect to said ball base 320.

Please consult Fig. 9 simultaneously, said swivel becket 60 is sheathed on the installation portion 17 of opposite end of said cylindrical shell 11, and sees through said breach 19 and said first and take off post and 40 and second take off post and 50 mesh.The periphery surface of said swivel becket 60 is provided with installing hole 61.

Please consult Figure 10 simultaneously and combine Fig. 1 and Fig. 2, the rotational automatic feed arrangement of said tubing also comprises a suspension 70 and is installed on being used on the said suspension 70 and promotes the cylinder pushing mechanism 80 that said swivel becket 60 rotates around said cylindrical shell 11.Said bearing 10 is installed on the suspension 70.Said cylinder pushing mechanism 80 comprises two cylinders 82 with piston rod 81 and is connected to two connectors 83 on the piston rod 81; Said two connectors 83 are individually fixed on the periphery surface of said swivel becket 60, specifically are to be fixed in through being threaded in the installing hole 61 of swivel becket 60.

The operation principle of the rotational automatic feed arrangement of aforementioned tubes is following:

During Pipe Cutting; Drive swivel becket 60 through cylinder 82; Taking off post through second 50 drives 3 multi-directional ball mechanisms 30 and withstands pipe, makes the tubing center of processing keep concentric with the laser pipe cutter turntable, and multi-directional ball mechanism 30 does not influence the pipe rotation when holding up tight pipe; Can guarantee tubing smooth and easy rotation in centering, guarantee cutting accuracy.After once cutting was accomplished, cylinder 82 move once more, and multi-directional ball mechanism 30 is unclamped, and 3 clamp mechanism 20 clamping tubing simultaneously can clamping tubing, followed machine Y axle and dragged and send to.Clamp mechanism 20 is unclamped after being fed to desired location, and pipe is withstood in 30 actions of multi-directional ball mechanism, continues cutting, and friction feeding clamps and sets upright successively, makes laser cutting machine can cut the different length metal circular tube continuously.

Said multi-directional ball mechanism's 30 assurances and tubing are concentric with the laser pipe cutter turntable, and cutting accuracy improves in the time of the ovaler pipe of cutting, and has realized the auto-feed of tubing, does not need manual work to drag the tubing feeding, has reduced hand labor intensity.

The rotational automatic feed arrangement of the tubing of the utility model is that example describes to be applied to laser cutting machine, and the rotational automatic feed arrangement of the tubing of the utility model can be applied on other lathes that need process tubing.

The above is merely the preferred embodiment of the utility model; Not in order to restriction the utility model; Any modification of being done within all spirit and principles at the utility model, be equal to replacement and improvement etc., all should be included within the protection domain of the utility model.

Claims (10)

1. rotational automatic feed arrangement of tubing; It comprises a bearing; Said bearing has the cylindrical shell that supplies tubing to wear, and it is characterized in that: said device also comprises some clamp mechanism of radially being arranged on the said cylindrical shell, radially be arranged on the said cylindrical shell and with said clamp mechanism along the some multi-directional ball mechanism that circumferentially alternately arranges of said cylindrical shell, respectively with said clamp mechanism engagement and make some first of said clamp mechanism radial feed take off post, respectively with said multi-directional ball mechanism engagement and some second of said multi-directional ball mechanism radial feed is taken off post and be sheathed on rotationally said drum shaft to opposite end portion and take off post with first respectively and second take off post engagement two swivel beckets.

2. device as claimed in claim 1; It is characterized in that: said first end that take off post and the engagement of said clamp mechanism; The other end and wherein swivel becket engagement; Said second end that take off post and the engagement of said multi-directional ball mechanism, the other end and the engagement of an other swivel becket, said first takes off post and bearing fixing is passed through in said cylindrical shell in second middle part that take off post.

3. device as claimed in claim 2 is characterized in that: said first takes off post and second axis direction that take off post along said cylindrical shell is arranged on the said cylindrical shell.

4. device as claimed in claim 1; It is characterized in that: said clamp mechanism comprises cylinder and is fixed in the chuck of said cylinder one end; Said cylinder radially is arranged on the said cylindrical shell; Said chuck stretches in the said cylindrical shell, and the periphery surface of said cylinder is provided with along the axis direction of this cylinder and is used for the toothrow that takes off post engagement with said first.

5. device as claimed in claim 4 is characterized in that: the other end of the cylinder of said clamp mechanism stretches out outside the said cylindrical shell, and said cylinder is provided with pouring orifice, and said pouring orifice is positioned at outside the said cylindrical shell.

6. device as claimed in claim 1; It is characterized in that: said multi-directional ball mechanism comprises center pillar and is fixed in the multi-directional ball assembly of said center pillar one end; Said center pillar radially is arranged on the said cylindrical shell; Said multi-directional ball assembly stretches in the said cylindrical shell, and the periphery surface of said center pillar is provided with along the axis direction of this center pillar and is used for the toothrow that takes off post engagement with said second.

7. device as claimed in claim 6 is characterized in that: the other end of the center pillar of said multi-directional ball mechanism stretches out outside the said cylindrical shell, and said center pillar is provided with pouring orifice, and said pouring orifice is positioned at outside the said cylindrical shell.

8. device as claimed in claim 6 is characterized in that: said multi-directional ball assembly comprises ball base, be installed in the ball base and the steel ball that can in ball base, rotate and be installed on the said ball base and be placed on the gland on the said steel ball.

9. device as claimed in claim 1 is characterized in that: said device also comprises a suspension and is installed on being used on the said suspension and promote the cylinder pushing mechanism that said swivel becket rotates around said cylindrical shell that said bearing is installed on the suspension.

10. device as claimed in claim 9 is characterized in that: said cylinder pushing mechanism comprises two cylinders with piston rod and is connected to two connectors on the piston rod that said two connectors are individually fixed on the periphery surface of said swivel becket.

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