CN208853852U - A kind of adjustable automation equipment of aluminum pipe chamfering - Google Patents

Abstract

A kind of adjustable automation equipment of aluminum pipe chamfering of the utility model, it is related to aluminum pipe manufacture field, including supporting bable tops, first cylinder, selection mechanism and power motor is isolated, the inside of the supporting bable tops is equipped with power chamber, the output shaft of first cylinder is fixedly connected with the upper end middle position of upper holder block, one end of the facing attachment and the upper end of power transfer mechanism are keyed, the output shaft and master bevel gear of the power motor are keyed, power transfer mechanism is symmetrically arranged at left and right sides of the master bevel gear, the isolation selection mechanism and power transfer mechanism are rotatablely connected, the left and right sidesing pillar of the bracket is equipped with knob, when needing the end-beveling to aluminum pipe, the both ends or one end of aluminum pipe are selected to execute chamfering operation by isolation selection mechanism first, after the completion of selection, by aluminum pipe be fixed on upper holder block and lower lock block it Between, facing attachment then is adjusted as desired, it can be achieved that the end to aluminum pipe carries out chamfering operation.

Description

A kind of adjustable automation equipment of aluminum pipe chamfering

Technical field

The utility model belongs to aluminum pipe manufacture field, and in particular to a kind of adjustable automation equipment of aluminum pipe chamfering.

Background technique

Aluminum pipe is one kind of non-ferrous metal, is referred to pure aluminum or aluminum alloy through extrusion process into the gold hollow along its longitudinal overall length Belonging to tubular material, aluminum pipe is widely used in all trades and professions, such as: automobile, steamer, space flight, aviation, electric appliance, agricultural, electromechanics, household, Aluminum pipe in we life it is ubiquitous,

The aluminum pipe shorter for length is in the process of production and processing, it may be necessary in batches to its both ends or one end chamfering, i.e., Make two end chamfers, it is also possible to which, it is required that the angle of two end chamfers is different, in the prior art, some machinery can not achieve disposable two End chamfer, increases workload, and working efficiency is not high.

Summary of the invention

The purpose of this utility model is to provide a kind of adjustable automation equipments of aluminum pipe chamfering, to solve the prior art In caused above-mentioned defect.

In order to solve the above-mentioned technical problem, the technical solution adopted in the utility model are as follows: a kind of aluminum pipe chamfering is adjustable Automation equipment, including supporting bable tops, the first cylinder, isolation selection mechanism and power motor, the inside of the supporting bable tops are set The upper surface of dynamic chamber, supporting bable tops is fixedly connected with bracket, and first cylinder is fixedly connected in pedestal upper end Between position, the output shaft of the first cylinder is fixedly connected with the upper end middle position of upper holder block, the following position directly of the upper holder block Equipped with lower lock block, the lower lock block is fixedly connected with the upper surface of supporting bable tops, and the left and right ends of the lower lock block are symmetrically arranged with Facing attachment, one end of the facing attachment and the upper end of power transfer mechanism are keyed, and the power motor is located at supporting table The middle position of face lower end surface, the output shaft of power motor extend to the inside of power chamber and are keyed with master bevel gear, institute It states and is symmetrically arranged with power transfer mechanism at left and right sides of master bevel gear, master bevel gear is engaged with the other end of power transfer mechanism, The isolation selection mechanism is located at the middle position of power transfer mechanism, and isolation selection mechanism and power transfer mechanism rotation connect It connects, the left and right sidesing pillar of the bracket is equipped with knob, on the left of the knob and supporting bable tops upper surface on the bracket left side strut Facing attachment be electrically connected, the facing attachment on the right side of knob and supporting bable tops upper surface on the bracket right side strut is electrical Connection；

The facing attachment includes fixed block, drive shaft, cylindrical body, chamfering frame, adjusts motor, adjusting block and hinged Bar, the lower end surface of the fixed block are fixedly connected with the upper surface of supporting bable tops, and fixed block is equipped with towards the end face of lower lock block The middle position of chamfered groove, the chamfering slot bottom side wall is equipped with cylindrical hole, and the chamfering slot is connected with cylindrical hole, and the driving turns Axis and fixed block are rotatablely connected, and one end of drive shaft is keyed with from bevel gear, and the other end of drive shaft is symmetrical above and below to be set There is the axis line position of rectangular channel and the drive shaft other end to be equipped with adjusting cavity, the cylindrical body and cylindrical hole are rotatablely connected, circle The axis line position of cylinder is equipped with circular through hole, and cylindrical body is equipped with close to the lateral wall of right end and pushes slot, the end edge of cylindrical body Edge position is uniformly provided with several limiting slots, and the top and bottom sidewall of the circular through hole is symmetrically arranged with rectangular slab, the rectangular slab and square Shape slot is slidably connected, and the two sides up and down of the cylindrical hole are symmetrically arranged with the second cylinder, and second cylinder is fixed on fixed block The output shaft of inside, the second cylinder is fixedly connected with push plate, the middle position of the push plate and promotion slot rotation connection, the tune The two sides up and down of section chamber are connected by rectangular channel, and chamfering frame bottom is rotatablely connected by shaft and limiting slot, chamfering The inclination supporting leg of frame is connect by bolt with rose reamer, and the bottom for adjusting motor is fixedly connected on the center side position of fagging Set, adjust the output shaft of motor and connected by one end of bearing and screw rod, the two sides up and down of the fagging pass through rectangular channel with Rectangular slab is fixedly connected, and fagging is slidably connected with rectangular channel, and the adjusting block is slidably connected with adjusting cavity, and adjusting block direction is adjusted The end center position of section motor, which is equipped with, stablizes hole, and the inside of adjusting block is equipped with cavity, the upper and lower ends and the wing of the adjusting block One end of plate is fixedly connected, and the other end of the wing plate passes through rectangular channel and is fixedly connected with rectangular slab, wing plate and rectangular channel It is slidably connected, the screw rod is slidably connected with hole is stablized, and the other end of screw rod connects with the threaded hole screw thread for being located at adjusting rod bottom It connects, the other end of screw rod and the lower rotation of adjusting rod connect, and the adjusting rod is slidably connected with cavity, and the front end of adjusting rod is worn The front side wall of cavity is crossed, one end of the hinge bar and chamfering frame are hinged, and the other end of hinge bar and the front end of adjusting rod are hinged, The adjusting motor and knob are electrically connected.

Preferably, the power transfer mechanism includes that transmitting shaft, universal driving shaft and auxiliary spindle, the transmitting shaft pass through biography The lower wall that bearing block is fixed on power chamber is passed, the right end and transmitting bevel gear key connection of shaft is transmitted, transmits a left side for shaft It holds and is rotatablely connected with the right side that selection mechanism is isolated, the transmitting bevel gear engages with master bevel gear, the universal driving shaft and connection The rotation connection of dynamic bearing seat, the left end of universal driving shaft and linkage bevel gear key connection, the right end of universal driving shaft with selection mechanism is isolated Left side rotation connection, the lower half portion of the auxiliary spindle are located at the inside of power chamber, and the top half of auxiliary spindle passes through dynamic The upper side wall of power chamber extends to the upper surface of supporting bable tops, and the upper and lower ends of auxiliary spindle are keyed with secondary bevel gear respectively, institute The secondary bevel gear for stating auxiliary spindle lower end engages with linkage bevel gear, and the secondary bevel gear of the auxiliary spindle upper end nibbles with from bevel gear It closes, it is described to be keyed from one end of bevel gear and facing attachment.

Preferably, the isolation selection mechanism includes spacing block, straight-bar and sliding shoe, the inside of the spacing block be equipped with every From chamber, the upper and lower ends of spacing block are fixedly connected with the top and bottom sidewall of power chamber, and the left and right sides of the separate cavities, which is equipped with, to be turned The side wall in dynamic hole, separate cavities is equipped with T shape rotation slot close to leftward position, and the inner sidewall of the rotation hole is equipped with circular rotatable block, It is equipped with rotation slot on the outside of the universal driving shaft and transmitting shaft, the universal driving shaft passes through the circle on the left of rotation slot and separate cavities Rotating block rotation connection, the right end of universal driving shaft is symmetrical above and below to be equipped with left notch, and the transmitting shaft passes through rotation slot and separate cavities The circular rotatable block on right side is rotatablely connected, and the left end for transmitting shaft is symmetrical above and below equipped with right notch corresponding with left notch, institute It states left notch and is equipped with annular groove close to bottom position, the end of the straight-bar is equipped with T shape end and straight-bar passes through T shape end and T The rotation connection of shape rotation slot, straight-bar is fixedly connected close to T shape tip position with the middle position of support plate, the other end of straight-bar with Annular groove rotation connection, the support plate are symmetrically arranged with electromagnet towards the end face of the universal driving shaft left and right sides, the sliding shoe Middle position is slidably connected with straight-bar, and the left side of sliding shoe and the left end of left hinge bar are hinged, and sliding shoe is towards the end of support plate Face is equipped with magnet corresponding with electromagnet, and sliding shoe is symmetrically arranged with inserted link, the left side towards the end face of the universal driving shaft left and right sides The bottom of notch is equipped with slot corresponding with inserted link, and third spring, the third are equipped between the sliding shoe and support plate Spring is socketed on straight-bar, and one end of third spring is fixedly connected with support plate, and the other end and the sliding shoe of third spring are fixed Connection, the right side of the left hinge bar is fixedly connected with the left end of connecting rod, the right end of the connecting rod and is located at right hinged The inner cavity of bar left end is slidably connected, and the right end of the right hinge bar is rotated by the front-rear side walls inside shaft and right notch to be connected It connects, the inside of the inner cavity is equipped with second spring, and one end of the second spring is fixedly connected with the right end of connecting rod, the second bullet The other end of spring is fixedly connected with the bottom of inner cavity.

Preferably, the diameter of the universal driving shaft is equal with the transmitting diameter of shaft, the universal driving shaft central axes to power cavity The distance of room lower wall and transmitting shaft central axes being equidistant to power chamber lower wall.

Preferably, the limiting slot is at least three.

Preferably, the width of the left notch is greater than the diameter of straight-bar, the width of the width of the sliding shoe and left notch It is equal.

Preferably, the power motor bracket is fixed on the lower end of supporting bable tops, first cylinder by electric machine support The upper end of bracket is fixed on by air cylinder support, the position at four angles in supporting bable tops lower end surface is fixedly connected with supporting leg, branch The lower end of support table top is symmetrically arranged with button, and the electromagnetism ferroelectricity on the left of the button and power motor on the left of the power motor connects It connects, the electromagnet on the right side of the button and power motor on the right side of the power motor is electrically connected.

The utility model beneficial effect is: using the utility model it is a kind of for aluminum pipe automation chamfering device, When needing the end-beveling to aluminum pipe, the both ends or one end of aluminum pipe are selected to execute chamfering operation by isolation selection mechanism first, After the completion of selection, aluminum pipe is fixed between upper holder block and lower lock block, facing attachment then is adjusted as desired, it can be achieved that aluminium The end of pipe carries out chamfering operation.

Detailed description of the invention

Content expressed by this specification attached drawing and the label in figure are briefly described below:

Fig. 1 is a kind of structural schematic diagram of adjustable automation equipment of aluminum pipe chamfering；

Fig. 2 is the left view of upper holder block and lower lock block in Fig. 1；

Fig. 3 is the structural schematic diagram of facing attachment in Fig. 1；

Fig. 4 is the internal structure enlarged drawing of drive shaft and cylindrical body in Fig. 3；

Fig. 5 is the left view of cylindrical body in Fig. 3；

Fig. 6 is the enlarged drawing of drive shaft in Fig. 3；

Fig. 7 is the enlarged drawing of adjusting block in Fig. 3；

Fig. 8 is the left view of push plate in Fig. 3；

Fig. 9 is the structural schematic diagram that selection mechanism is isolated in Fig. 1；

Figure 10 is the right end cross-sectional view of universal driving shaft in Fig. 8；

Figure 11 is the cross-sectional view of the line A-A along Figure 10；

Figure 12 is the enlarged drawing in Fig. 8 at B；

Figure 13 is the structural schematic diagram of left hinge bar in Fig. 8, connecting rod and right hinge bar.

Wherein: 1- supporting bable tops, 2- power chamber, 3- bracket, 4- power transfer mechanism, 5- facing attachment, 6- isolation choosing It selects a good opportunity structure, the first cylinder of 7-, 8- power motor, 9- lower lock block, 10- upper holder block, 11- button, 12- master bevel gear, 13- supporting leg, 14- knob, 41- transmit bevel gear, and 42- transmits shaft, and 43- transmits bearing block, 44- linkage bearing block, 45- universal driving shaft, 46- It links bevel gear, 47- pair bevel gear, 48- auxiliary spindle, 49- is from bevel gear, 51- fixed block, 52- drive shaft, 53- cylindrical hole, 54- chamfering slot, the second cylinder of 55-, 56- push plate, 57- push slot, 58- rectangular channel, 59- cylindrical body, 510- circular through hole, 511- Rectangular slab, 512- chamfering frame, 513- rose reamer, 514- adjust motor, 515- screw rod, 516- fagging, 517- rectangular channel, 518- Adjusting cavity, 519- adjusting block, 520- limiting slot, 521- stablize hole, 522- cavity, 523- wing plate, 524- adjusting rod, 525- hinge Extension bar, 526- threaded hole, 61- spacing block, 62- separate cavities, the left notch of 63-, the right notch of 64-, the left hinge bar of 65-, 66- connection Bar, the right hinge bar of 67-, the inner cavity 68-, 69- second spring, 610- annular groove, 611- slot, 612- straight-bar, 613- rotation hole, 614- circular rotatable block, 615- rotation slot, 616-T shape rotation slot, 617- sliding shoe, 618- inserted link, 619- magnet, 620- electromagnetism Iron, 621- support plate, 622- third spring.

Specific embodiment

Below by the description to embodiment, the shape of for example related each component of specific embodiment of the present utility model Shape, construction, the mutual alignment between each section and connection relationship, the effect of each section and working principle, manufacturing process and operation Application method etc., is described in further detail, to help inventive concept of the those skilled in the art to the utility model, technology Scheme has more complete, accurate and deep understanding.

As shown in figure 1 to figure 13, a kind of adjustable automation equipment of aluminum pipe chamfering, including supporting bable tops 1, the first cylinder 7, selection mechanism 6 and power motor 8 is isolated, the inside of the supporting bable tops 1 is equipped with power chamber 2, the upper surface of supporting bable tops 1 It is fixedly connected with bracket 3, first cylinder 7 is fixedly connected on the middle position of 3 upper end of bracket, the output shaft of the first cylinder 7 It is fixedly connected with the upper end middle position of upper holder block 10, the following position directly of the upper holder block 10 is equipped with lower lock block 9, the pushing Block 9 is fixedly connected with the upper surface of supporting bable tops 1, and the left and right ends of the lower lock block 9 are symmetrically arranged with facing attachment 5, it is described fall One end of angle apparatus 5 and the upper end of power transfer mechanism 4 are keyed, and the power motor 8 is located in 1 lower end surface of supporting bable tops Between position, the output shaft of power motor 8 extend to the inside of power chamber 2 and with master bevel gear 12 be keyed, the main cone tooth The left and right sides of wheel 12 is symmetrically arranged with power transfer mechanism 4, and master bevel gear 12 is engaged with the other end of power transfer mechanism 4, institute The middle position that isolation selection mechanism 6 is located at power transfer mechanism 4 is stated, isolation selection mechanism 6 and the rotation of power transfer mechanism 4 connect It connects, the left and right sidesing pillar of the bracket 3 is equipped with knob 14, on the knob 14 and supporting bable tops 1 on 3 left side strut of bracket Facing attachment 5 on the left of end face is electrically connected, on the right side of the knob 14 and 1 upper surface of supporting bable tops on 3 right side strut of bracket Facing attachment 5 be electrically connected；

It is worth noting that, the facing attachment 5 include fixed block 51, drive shaft 52, cylindrical body 59, chamfering frame 512, Motor 514, adjusting block 519 and hinge bar 525, the lower end surface of the fixed block 51 and the upper surface of supporting bable tops 1 is adjusted to fix Connection, fixed block 51 are equipped with chamfering slot 54 towards the end face of lower lock block 9, and the middle position of 54 downside wall of chamfering slot is equipped with circle Post holes 53, the chamfering slot 54 are connected with cylindrical hole 53, and the drive shaft 52 is rotatablely connected with fixed block 51, drive shaft 52 one end is keyed with from bevel gear 49, and the other end of drive shaft 52 is symmetrical above and below to be equipped with rectangular channel 58 and drive shaft 52 The axis line position of the other end is equipped with adjusting cavity 518, and the cylindrical body 59 is rotatablely connected with cylindrical hole 53, the axis of cylindrical body 59 Line position is equipped with circular through hole 510, and cylindrical body 59 is equipped with close to the lateral wall of right end and pushes slot 57, the end edge of cylindrical body 59 Position is uniformly provided with several limiting slots 520, and the top and bottom sidewall of the circular through hole 510 is symmetrically arranged with rectangular slab 511, the rectangle Plate 511 is slidably connected with rectangular channel 58, and the two sides up and down of the cylindrical hole 53 are symmetrically arranged with the second cylinder 55, second cylinder 55 are fixed on the inside of fixed block 51, and the output shaft of the second cylinder 55 is fixedly connected with push plate 56, the interposition of the push plate 56 It sets and is rotatablely connected with slot 57 is pushed, the two sides up and down of the adjusting cavity 518 are connected by rectangular channel 517, the chamfering frame 512 bottoms are rotatablely connected by shaft and limiting slot 520, and the inclination supporting leg of chamfering frame 512 is connected by bolt and rose reamer 513 It connects, the bottom for adjusting motor 514 is fixedly connected on the center side position of fagging 516, and the output shaft for adjusting motor 514 is logical It crosses bearing to connect with one end of screw rod 515, the two sides up and down of the fagging 516 pass through rectangular channel 517 and rectangular slab 511 is fixed Connection, fagging 516 are slidably connected with rectangular channel 517, and the adjusting block 519 is slidably connected with adjusting cavity 518, adjusting block 519 It is equipped with towards the end center position for adjusting motor 514 and stablizes hole 521, the inside of adjusting block 519 is equipped with cavity 522, the tune The upper and lower ends of locking nub 519 are fixedly connected with one end of wing plate 523, and the other end of the wing plate 523 passes through rectangular channel 517 It is fixedly connected with rectangular slab 511, wing plate 523 is slidably connected with rectangular channel 517, and the screw rod 515 connects with the sliding of hole 521 is stablized It connects, the other end of screw rod 515 is threadedly coupled with the threaded hole 526 for being located at 524 bottom of adjusting rod, the other end and tune of screw rod 515 The lower rotation of pole 524 connects, and the adjusting rod 524 is slidably connected with cavity 522, and the front end of adjusting rod 524 passes through cavity 522 front side wall, one end of the hinge bar 525 and chamfering frame 512 are hinged, the other end and the adjusting rod 524 of hinge bar 525 Front end is hinged, and the adjusting motor 514 is electrically connected with knob 14.

In the present embodiment, the power transfer mechanism 4 includes transmitting shaft 42, universal driving shaft 45 and auxiliary spindle 48, described The lower wall that transmitting shaft 42 is fixed on power chamber 2 by transmitting bearing block 43 transmits the right end and transmitting cone tooth of shaft 42 41 key connection of wheel, the left end for transmitting shaft 42 are rotatablely connected with the right side that selection mechanism 6 is isolated, the transmitting bevel gear 41 It is engaged with master bevel gear 12, the universal driving shaft 45 is rotatablely connected with linkage bearing block 44, the left end of universal driving shaft 45 and linkage cone tooth 46 key connection of wheel, the right end of universal driving shaft 45 are rotatablely connected with the left side that selection mechanism 6 is isolated, the lower half of the auxiliary spindle 48 Quartile extends to supporting bable tops 1 in the inside of power chamber 2, the upper side wall that the top half of auxiliary spindle 48 passes through power chamber 2 Upper surface, the upper and lower ends of auxiliary spindle 48 respectively with secondary bevel gear 47 be keyed, the secondary bevel gear of 48 lower end of auxiliary spindle 47 engage with linkage bevel gear 46, and the secondary bevel gear 47 of 48 upper end of auxiliary spindle engages with from bevel gear 49, described from cone tooth Wheel 49 and one end of facing attachment 5 are keyed.

In the present embodiment, the isolation selection mechanism 6 include spacing block 61, straight-bar 612 and sliding shoe 617, it is described every Inside from block 61 is equipped with separate cavities 62, and the upper and lower ends of spacing block 61 are fixedly connected with the top and bottom sidewall of power chamber 2, described The left and right sides of separate cavities 62 is equipped with rotation hole 613, and the side wall of separate cavities 62 is equipped with T shape rotation slot 616, institute close to leftward position The inner sidewall for stating rotation hole 613 is equipped with circular rotatable block 614, and the universal driving shaft 45 and the outside for transmitting shaft 42 are equipped with rotation Slot 615, the universal driving shaft 45 are rotatablely connected by the circular rotatable block 614 in 62 left side of rotation slot 615 and separate cavities, universal driving shaft 45 Right end it is symmetrical above and below be equipped with left notch 63, the transmitting shaft 42 is turned by the circle of rotation slot 615 and the right side of separate cavities 62 Motion block 614 is rotatablely connected, and the left end for transmitting shaft 42 is symmetrical above and below equipped with right notch 64 corresponding with left notch 63, the left side Notch 63 is equipped with annular groove 610 close to bottom position, and the end of the straight-bar 612 is equipped with T shape end and straight-bar 612 passes through T shape End and T shape rotation slot 616 are rotatablely connected, and straight-bar 612 is close to the fixed company in the middle position of T shape tip position and support plate 621 It connects, the other end of straight-bar 612 and annular groove 610 are rotatablely connected, and the support plate 621 is towards at left and right sides of the end face of universal driving shaft 45 Be symmetrically arranged with electromagnet 620, middle position and the straight-bar 612 of the sliding shoe 617 are slidably connected, the left side of sliding shoe 617 with The left end of left hinge bar 65 is hinged, and sliding shoe 617 is equipped with magnet corresponding with electromagnet 620 towards the end face of support plate 621 619, sliding shoe 617 is symmetrically arranged with inserted link 618 towards the end face of universal driving shaft 45 left and right sides, and the bottom of the left notch 63 is equipped with Slot 611 corresponding with inserted link 618 is equipped with third spring 622, the third between the sliding shoe 617 and support plate 621 Spring 622 is socketed on straight-bar 612, and one end of third spring 622 is fixedly connected with support plate 621, third spring 622 it is another One end is fixedly connected with sliding shoe 617, and the right side of the left hinge bar 65 is fixedly connected with the left end of connecting rod 66, the company The right end of extension bar 66 is slidably connected with the inner cavity 68 for being located at right 67 left end of hinge bar, and the right end of the right hinge bar 67 passes through shaft It is rotatablely connected with the front-rear side walls inside right notch 64, the inside of the inner cavity 68 is equipped with second spring 69, the second spring 69 one end is fixedly connected with the right end of connecting rod 66, and the other end of second spring 69 is fixedly connected with the bottom of inner cavity 68.

In the present embodiment, the diameter of the universal driving shaft 45 is equal with the transmitting diameter of shaft 42, in the universal driving shaft 45 Distance and transmitting shaft 42 central axes being equidistant to power chamber 2 lower wall of the axis to 2 lower wall of power chamber.

In the present embodiment, the limiting slot 520 is at least three.

In the present embodiment, the width of the left notch 63 is greater than the diameter of straight-bar 612, the width of the sliding shoe 617 It is equal with the width of left notch 63.

In addition, 8 bracket of power motor is fixed on the lower end of supporting bable tops 1, first cylinder 7 by electric machine support The upper end of bracket 3 is fixed on by air cylinder support, the position at 1 four angles in lower end surface of supporting bable tops is fixedly connected with supporting leg 13, the lower end of supporting bable tops 1 is symmetrically arranged with button 11, the electromagnetism in 8 left side of button and power motor in 8 left side of power motor Iron 620 is electrically connected, and the electromagnet 620 on 8 right side of button and power motor on 8 right side of power motor is electrically connected.

The course of work and principle: the lower end surface of upper holder block 10 and the lower end surface of lower lock block 9 are equal equipped with opposite and diameter Circular arc, round and smooth inner wall is equipped with rubber ring, when preventing fixed aluminum pipe, aluminum tube surfaces damaged, needing to carry out chamfering to aluminum pipe When operation, it is first determined be an end chamfer or both ends all chamferings, if it is an end chamfer, pass through one of knob 14 first Adjust corresponding facing attachment, then press corresponding button 11, if it is both ends will chamfering, first pass through knob 14 Facing attachment is adjusted respectively, then all presses two buttons 11, when adjusting facing attachment by knob 14, knob first 14 action launchings adjust motor 514, and then screw rod 515 is driven to rotate, and screw rod 515 drives adjusting rod 524 to exist by threaded hole 526 Sliding in cavity 522, and then hinge bar 525 is driven to achieve the effect that adjust chamfering frame 512 by adjusting 524, exist in this way When chamfering, the angle of chamfering can change according to requiring, and the chamfer angle difference at both ends can also be by primary in time Operation is completed, and convenient and efficient, working efficiency greatly improves, the electricity when pressing lower button 11, in corresponding isolation selection mechanism 6 Magnet 620 electric generations magnetic force makes, make electromagnet 620 towards magnetic polarity and the magnet 619 of magnet 619 towards electromagnet 620 Magnetic polarity is identical, to generate repulsive force, sliding shoe 617 is pushed to overcome the elastic force of third spring 617 to close to universal driving shaft 45 Direction is mobile, while sliding shoe 617 drives left hinge bar 65 to follow sliding shoe 617 mobile, when sliding shoe 617 is moved to left notch 63 inside and when inserted link 618 is inserted into slot 611, right hinge bar 67 will under the action of left hinge bar 65 and connecting rod 66 Universal driving shaft 45 and the transmitting linkage of shaft 42 are got up, and are at this moment placed into aluminum pipe in the circular arc of lower lock block 9, while starting the first cylinder 7 drive upper holder blocks 10 move down, to fix aluminum pipe by upper holder block 10 and lower lock block 9, power motor 8 are then made to be powered Starting, power motor 8 are rotated after starting by the drive of master bevel gear 12 transmitting bevel gear 41 and transmitting shaft 42, herein, It is not pressed in the isolation selection mechanism 6 of button 11, since sliding shoe 617 is under the drive of third spring 622, is located at close to branch The position of fagging 621 drives left hinge bar 65 and connecting rod 66 to be detached from left notch 63 in this way, will when transmitting the rotation of shaft 42 The rotation of universal driving shaft 45 is not will drive, it will drive straight-bar 612 to rotate in annular groove 610 and T shape rotation slot 612, be pressed In the isolation selection mechanism 6 of button 11, due to right hinge bar 67 under the action of left hinge bar 65 and connecting rod 66 by universal driving shaft 45 link with transmitting shaft 42, in this way when transmitting the rotation of shaft 42, it will drive universal driving shaft 45 rotates, while being bored by linkage Gear 46, secondary bevel gear 47 and secondary bevel gear 47 drive from bevel gear 49 and rotate, and drive drive shaft 52 to rotate from bevel gear 49, Drive shaft 52 drives cylindrical body 59 to rotate by rectangular channel 58 and rectangular slab 511, when cylindrical body 59 rotates, passes through cylinder The limiting slot 520 of 59 end of body drives chamfering frame 512 to rotate, and then starts the second cylinder 55 and drives cylindrical body 59 to close to aluminum pipe Direction it is mobile, when the end of rose reamer 513 and aluminum pipe contacts, it will carry out chamfering operation to the end of aluminum pipe, work as chamfering 55 direction of the second cylinder is mobile after the completion, when chamfering frame 512 is far from aluminum pipe, starts the first cylinder 7, makes upper holder block 10 to moving up It is dynamic, the good aluminum pipe of chamfering is then removed, above-mentioned movement is repeated, when cylindrical body 59 is mobile, passes through fagging 516, adjusting block 519 Keep chamfering frame 512 consistent with the moving condition of cylindrical body 59 with wing plate 523, keeps the consistency of chamfering, improve the reliable of chamfering Property.

Based on above-mentioned, using a kind of device for aluminum pipe automation chamfering of the utility model, needing to aluminum pipe When end-beveling, the both ends or one end of aluminum pipe are selected to execute chamfering operation by isolation selection mechanism first, it, will after the completion of selection Aluminum pipe is fixed between upper holder block and lower lock block, and facing attachment then is adjusted as desired, it can be achieved that the end to aluminum pipe carries out Chamfering operation.

The utility model is exemplarily described above, it is clear that the utility model implements not by aforesaid way Limitation, as long as not using the method concept of the utility model and the improvement of various unsubstantialities that technical solution carries out, or not It is improved that the conception and technical scheme of the utility model are directly applied into other occasions, in the protection model of the utility model Within enclosing.The protection scope of the utility model should be determined by the scope of protection defined in the claims.

Claims (7)

1. a kind of adjustable automation equipment of aluminum pipe chamfering, it is characterised in that: including supporting bable tops (1), the first cylinder (7), Selection mechanism (6) and power motor (8) is isolated, the inside of the supporting bable tops (1) is equipped with power chamber (2), supporting bable tops (1) Upper surface be fixedly connected with bracket (3), first cylinder (7) is fixedly connected on the middle position of bracket (3) upper end, first The output shaft of cylinder (7) is fixedly connected with the upper end middle position of upper holder block (10), the following position directly of the upper holder block (10) Equipped with lower lock block (9), the lower lock block (9) is fixedly connected with the upper surface of supporting bable tops (1), the left and right of the lower lock block (9) Both ends are symmetrically arranged with facing attachment (5), and one end of the facing attachment (5) and the upper end of power transfer mechanism (4) are keyed, institute The middle position that power motor (8) is located at supporting bable tops (1) lower end surface is stated, the output shaft of power motor (8) extends to power cavity It the inside of room (2) and is keyed with master bevel gear (12), power transmitting is symmetrically arranged at left and right sides of the master bevel gear (12) Mechanism (4), master bevel gear (12) are engaged with the other end of power transfer mechanism (4), and the isolation selection mechanism (6) is located at power The middle position of transmission mechanism (4), isolation selection mechanism (6) and power transfer mechanism (4) are rotatablely connected, the bracket (3) Left and right sidesing pillar is equipped with knob (14), on the left of the knob (14) and supporting bable tops (1) upper surface on bracket (3) left side strut Facing attachment (5) be electrically connected, on the right side of the knob (14) and supporting bable tops (1) upper surface on bracket (3) right side strut Facing attachment (5) be electrically connected；

The facing attachment (5) includes fixed block (51), drive shaft (52), cylindrical body (59), chamfering frame (512), adjusts electricity Machine (514), adjusting block (519) and hinge bar (525), the lower end surface of the fixed block (51) and the upper surface of supporting bable tops (1) It is fixedly connected, fixed block (51) is equipped with chamfering slot (54) towards the end face of lower lock block (9), in chamfering slot (54) downside wall Meta position has installed cylindrical hole (53), and the chamfering slot (54) is connected with cylindrical hole (53), the drive shaft (52) and fixation Block (51) rotation connection, one end of drive shaft (52) are keyed with from bevel gear (49), on the other end of drive shaft (52) Under be symmetrically arranged with the axis line position of rectangular channel (58) and drive shaft (52) other end and be equipped with adjusting cavity (518), the cylinder Body (59) and cylindrical hole (53) are rotatablely connected, and the axis line position of cylindrical body (59) is equipped with circular through hole (510), cylindrical body (59) It is equipped with close to the lateral wall of right end and pushes slot (57), the end edge position of cylindrical body (59) is uniformly provided with several limiting slots (520), the top and bottom sidewall of the circular through hole (510) is symmetrically arranged with rectangular slab (511), the rectangular slab (511) and rectangular channel (58) it is slidably connected, the two sides up and down of the cylindrical hole (53) are symmetrically arranged with the second cylinder (55), and second cylinder (55) is solid It is scheduled on the inside of fixed block (51), the output shaft of the second cylinder (55) is fixedly connected with push plate (56), in the push plate (56) Between position and push slot (57) rotation connection, the two sides up and down of the adjusting cavity (518) are connected by rectangular channel (517), Chamfering frame (512) bottom is rotatablely connected by shaft and limiting slot (520), and the inclination supporting leg of chamfering frame (512) passes through spiral shell Bolt is connect with rose reamer (513), and the bottom for adjusting motor (514) is fixedly connected on the center side position of fagging (516), The output shaft for adjusting motor (514) is connect by bearing with one end of screw rod (515), and the two sides up and down of the fagging (516) are worn It crosses rectangular channel (517) to be fixedly connected with rectangular slab (511), fagging (516) is slidably connected with rectangular channel (517), the tune Locking nub (519) is slidably connected with adjusting cavity (518), and adjusting block (519) is equipped with towards the end center position for adjusting motor (514) Stablize hole (521), the inside of adjusting block (519) is equipped with cavity (522), the upper and lower ends and wing plate of the adjusting block (519) (523) one end is fixedly connected, and the other end of the wing plate (523) passes through rectangular channel (517) and rectangular slab (511) fixed company It connects, wing plate (523) is slidably connected with rectangular channel (517), and the screw rod (515) is slidably connected with hole (521) is stablized, screw rod (515) the other end is threadedly coupled with the threaded hole (526) for being located at adjusting rod (524) bottom, the adjusting rod (524) and cavity (522) be slidably connected, the front end of adjusting rod (524) passes through the front side wall of cavity (522), one end of the hinge bar (525) with Hingedly, the front end of the other end and adjusting rod (524) of hinge bar (525) is hinged for chamfering frame (512), the adjusting motor (514) It is electrically connected with knob (14).

2. a kind of adjustable automation equipment of aluminum pipe chamfering according to claim 1, it is characterised in that: the power passes Passing mechanism (4) includes transmitting shaft (42), universal driving shaft (45) and auxiliary spindle (48), and the transmitting shaft (42) passes through transmitting bearing Seat (43) is fixed on the lower wall of power chamber (2), transmits the right end and transmitting bevel gear (41) key connection of shaft (42), transmitting The left end of shaft (42) is rotatablely connected with the right side that selection mechanism (6) is isolated, the transmitting bevel gear (41) and master bevel gear (12) it engages, the universal driving shaft (45) and linkage bearing block (44) rotation connection, the left end of universal driving shaft (45) and linkage bevel gear (46) it is keyed, the right end of universal driving shaft (45) is rotatablely connected with the left side that selection mechanism (6) is isolated, the auxiliary spindle (48) Lower half portion is located at the inside of power chamber (2), and the upper side wall that the top half of auxiliary spindle (48) passes through power chamber (2) extends To the upper surface of supporting bable tops (1), the upper and lower ends of auxiliary spindle (48) are keyed with secondary bevel gear (47) respectively, the auxiliary spindle (48) the secondary bevel gear (47) of lower end with linkage bevel gear (46) engage, the secondary bevel gear (47) of auxiliary spindle (48) upper end and It is engaged from bevel gear (49), described one end from bevel gear (49) and facing attachment (5) is keyed.

3. a kind of adjustable automation equipment of aluminum pipe chamfering according to claim 2, it is characterised in that: the isolation choosing Structure (6) of selecting a good opportunity includes spacing block (61), straight-bar (612) and sliding shoe (617), and the inside of the spacing block (61) is equipped with separate cavities (62), the upper and lower ends of spacing block (61) are fixedly connected with the top and bottom sidewall of power chamber (2), the left and right of the separate cavities (62) Two sides are equipped with rotation hole (613), and the side wall of separate cavities (62) is equipped with T shape rotation slot (616), the rotation hole close to leftward position (613) inner sidewall is equipped with circular rotatable block (614), is equipped with rotation on the outside of the universal driving shaft (45) and transmitting shaft (42) Slot (615), the universal driving shaft (45) is rotated by the circular rotatable block (614) on the left of rotation slot (615) and separate cavities (62) to be connected Connect, the right end of universal driving shaft (45) it is symmetrical above and below be equipped with left notch (63), the transmitting shaft (42) by rotation slot (615) and every From on the right side of chamber (62) circular rotatable block (614) rotation connection, transmit shaft (42) left end it is symmetrical above and below be equipped with and left notch (63) corresponding right notch (64), the left notch (63) are equipped with annular groove (610) close to bottom position, the straight-bar (612) end is equipped with T shape end and straight-bar (612) is rotatablely connected by T shape end and T shape rotation slot (616), straight-bar (612) it is fixedly connected close to T shape tip position with the middle position of support plate (621), the other end and annular groove of straight-bar (612) (610) it being rotatablely connected, the support plate (621) is symmetrically arranged with electromagnet (620) towards the end face of universal driving shaft (45) left and right sides, The middle position of the sliding shoe (617) is slidably connected with straight-bar (612), the left side and left hinge bar (65) of sliding shoe (617) Left end it is hinged, sliding shoe (617) towards the end face of support plate (621) be equipped with magnet corresponding with electromagnet (620) (619), sliding shoe (617) is symmetrically arranged with inserted link (618) towards the end face of universal driving shaft (45) left and right sides, the left notch (63) Bottom be equipped with slot (611) corresponding with inserted link (618), equipped with the between the sliding shoe (617) and support plate (621) Three springs (622), the third spring (622) are socketed on straight-bar (612), one end of third spring (622) and support plate (621) it is fixedly connected, the other end of third spring (622) is fixedly connected with sliding shoe (617), the right side of the left hinge bar (65) End face is fixedly connected with the left end of connecting rod (66), the right end of the connecting rod (66) be located at the interior of right hinge bar (67) left end Chamber (68) is slidably connected, and the right end of the right hinge bar (67) is rotated by the internal front-rear side walls of shaft and right notch (64) to be connected It connects, the inside of the inner cavity (68) is equipped with second spring (69), one end of the second spring (69) and the right side of connecting rod (66) End is fixedly connected, and the other end of second spring (69) is fixedly connected with the bottom of inner cavity (68).

4. a kind of adjustable automation equipment of aluminum pipe chamfering according to claim 2, it is characterised in that: the universal driving shaft (45) diameter is equal with the transmitting diameter of shaft (42), universal driving shaft (45) central axes to power chamber (2) lower wall Distance and transmitting shaft (42) central axes being equidistant to power chamber (2) lower wall.

5. a kind of adjustable automation equipment of aluminum pipe chamfering according to claim 1, it is characterised in that: the limiting slot (520) it is at least three.

6. a kind of adjustable automation equipment of aluminum pipe chamfering according to claim 3, it is characterised in that: the left notch (63) width is greater than the diameter of straight-bar (612), and the width of the sliding shoe (617) is equal with the width of left notch (63).

7. a kind of adjustable automation equipment of aluminum pipe chamfering according to claim 6, it is characterised in that: the power electric Machine (8) bracket is fixed on the lower end of supporting bable tops (1) by electric machine support, and first cylinder (7) is fixed by air cylinder support Supporting leg (13), supporting bable tops are fixedly connected in the position of the upper end of bracket (3), four angles in supporting bable tops (1) lower end surface (1) lower end is symmetrically arranged with button (11), the button on the left of the power motor (8) and the electromagnet on the left of power motor (8) (620) it is electrically connected, the button on the right side of the power motor (8) electrically connects with the electromagnet (620) on the right side of power motor (8) It connects.