CN212945109U - Alternating traction driving mechanism for aluminum profile machining - Google Patents

Abstract

The utility model relates to the technical field of production equipment of metal section fins, and provides an alternating traction driving mechanism for processing aluminum profiles, which comprises a frame, a first feeding block and a second feeding block which are sequentially arranged on the frame along the conveying direction of the aluminum profiles, and a walking driving unit which is respectively connected with the first feeding block and the second feeding block, wherein the first feeding block is connected with a first clamping block by a first lifting driving unit, the second feeding block is connected with a second clamping block by a second lifting driving unit, the first lifting driving unit can lift the first clamping block on the first feeding block, the second lifting driving unit can lift the second clamping block on the second feeding block to clamp and release the aluminum profiles, the walking driving unit drives the first feeding block and the second feeding block to walk on the frame, the first feeding block moves to the second feeding block to deliver the materials, realize the continuous pay-off of alternating, effectively improve pay-off efficiency.

Description

Alternating traction driving mechanism for aluminum profile machining

Technical Field

The utility model relates to a production facility technical field of metal section fin, it is specific, relate to an aluminium alloy processing is with alternating traction drive mechanism.

Background

The aluminum profile has the advantages of light weight, good heat dissipation performance, energy conservation and the like, and is often used as a radiator. In order to improve the heat dissipation effect, fins are arranged on the upper side and the lower side of the existing aluminum profile heat radiator. The existing operation mode is mostly single-process production, workers move raw materials of aluminum profiles to a certain process, move the raw materials to the next process after the operation is finished, and sequentially move the raw materials to obtain products, the production mode causes low production efficiency, each person can only produce 300 products at most every day, a large amount of manpower is consumed, and the production benefit is difficult to improve. The feeding device used in the common production equipment generally adopts a feeding unit to carry materials to travel to the tail end along the conveying direction and then return to the initial position to continue feeding, and the feeding mode that the conveying of the materials is in a stagnation state in the process of returning the feeding unit to the initial position cannot provide continuous and efficient feeding.

SUMMERY OF THE UTILITY MODEL

The utility model provides an alternating traction drive mechanism is used in aluminium alloy processing has realized the continuous pay-off of aluminium alloy in process of production, improves pay-off efficiency, and then makes production efficiency obtain improving, more realizes that the automated production of higher degree provides the guarantee.

The technical scheme of the utility model as follows:

the utility model provides an aluminium alloy processing is with alternating traction drive mechanism, includes the frame, the key lies in, alternating traction drive mechanism still include along the direction of delivery of aluminium alloy set gradually first pay-off piece, the second pay-off piece in the frame and respectively with first pay-off piece, the walking drive unit that the second pay-off piece is connected, first pay-off piece be connected with first tight piece of clamp with the help of first lift drive unit, the second pay-off piece be connected with the tight piece of clamp of second with the help of second lift drive unit.

The alternating traction driving mechanism for processing the aluminum profile further comprises a group of third feeding blocks and fourth feeding blocks, wherein the third feeding blocks and the fourth feeding blocks are arranged on the rack and matched with the first feeding blocks, the fourth feeding blocks and the third feeding blocks are connected with the first feeding blocks through pull ropes, and the fourth feeding blocks are connected with the second feeding blocks through pull ropes.

The first feeding block, the third feeding block, the fourth feeding block and the second feeding block are sequentially arranged along the conveying direction of the aluminum profile.

The first feeding block, the second feeding block and the fourth feeding block are respectively provided with a guide groove for aluminum profiles.

The machine frame is provided with a sliding rod matched with the first feeding block and the second feeding block, and the first feeding block and the second feeding block respectively have the freedom degree of guiding movement along the sliding rod by virtue of the walking driving unit.

The first lifting driving unit and the second lifting driving unit are cylinders.

The utility model discloses a theory of operation and beneficial effect do:

the rack is provided with a first feeding block, a second feeding block and a walking driving unit respectively connected with the first feeding block and the second feeding block, the first feeding block is connected with a first clamping block by means of a first lifting driving unit, and the second feeding block is connected with a second clamping block by means of a second lifting driving unit. The first lifting driving unit enables the first clamping block to be lifted on the first feeding block, the second lifting driving unit enables the second clamping block to be lifted on the second feeding block, so that clamping and loosening of aluminum profiles are achieved, the walking driving unit drives the first feeding block and the second feeding block to walk on the rack, the first feeding block moves towards the second feeding block to deliver materials, alternate continuous feeding is achieved, and feeding efficiency is effectively improved.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural view of the present invention;

in the figure: 1. the device comprises a rack, 3, a first feeding block, 4, a second feeding block, 5, a first lifting driving unit, 6, a first clamping block, 7, a second lifting driving unit, 8, a second clamping block, 9, a third feeding block, 10, a fourth feeding block, 11, a pull rope, 12 and a sliding rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive work, are related to the scope of the present invention.

In a specific embodiment, as shown in fig. 1, the aluminum profile comprises a hollow rectangular frame, wherein the upper side and the lower side of the rectangular frame are respectively provided with a convex block, and the production line skips the convex blocks to form fins. The front end and the rear end of the aluminum section respectively penetrate through a pin hole. The side of the frame 1 is provided with a material placing frame, and unprocessed aluminum profiles can be stacked on the material placing frame in advance.

When the aluminum profile pre-anchoring device works, one end of a connecting plate is inserted into one end of the rectangular frame of the aluminum profile, mounting holes matched with the pin holes are formed in the two ends of the connecting plate respectively, and pin shafts are inserted into the pin holes of the aluminum profile and the mounting holes of the connecting plate to pre-anchor the aluminum profile and the connecting plate; the aluminum profiles anchored in advance are conveyed to the alternating traction driving mechanism for aluminum profile machining to start feeding, one end with the connecting plate faces the rear of the transportation direction of the aluminum profiles on the production line, the other end, which is not provided with the connecting plate, of the aluminum profile anchored in advance is conveniently and manually inserted into the connecting plate on the aluminum profile in advance, and the connecting plates are connected through the pin shafts to form connection between the aluminum profiles, so that continuous feeding and machining are facilitated. The infrared sensor and the alarm can be arranged on the alternating traction driving mechanism for aluminum profile machining, the relay period is set through the controller, when a person rivets the alternating traction driving mechanism for aluminum profile machining, the alarm does not give an alarm, if no person rivets the alternating traction driving mechanism for aluminum profile machining, the alarm gives an alarm, when the alarm time reaches the relay period, the fact that aluminum profile feeding is urgently needed to be supplemented is proved, and at the moment, the controller controls the whole production line to stop. One person can see five production lines. The conveying direction of the aluminum profile in the embodiment is from left to right.

The alternating traction driving mechanism for processing the aluminum profile comprises a first feeding block 3, a second feeding block 4, a first clamping block 6 and a second clamping block 8, wherein the first clamping block 6 is arranged on the first feeding block 3 by means of a first lifting driving unit 5, the second clamping block 8 is arranged on the second feeding block 4 by means of a second lifting driving unit 7, the first lifting driving unit 5 and the second lifting driving unit 7 are air cylinders, the telescopic end of the first lifting driving unit 5 is connected with the first feeding block 3, the fixed end of the first lifting driving unit 5 is connected with the first clamping block 6, the telescopic end of the second lifting driving unit 7 is connected with the second feeding block 4, and the fixed end of the second lifting driving unit 7 is connected with the second clamping block 8; the two sides of the rack 1 are provided with slide bars 12, the first feeding block 3, the second feeding block 4 and the slide bars 12 form a guide sliding fit, the first feeding block 3 and the second feeding block 4 respectively have the freedom degree of guide movement along the slide bars 12 by means of a walking driving unit, and the first feeding block 3 and the second feeding block 4 are respectively provided with guide grooves for aluminum profiles. Aluminum profiles are sequentially placed on the first feeding block 3 and the second feeding block 4 along the guide groove, the telescopic end of the second lifting driving unit 7 contracts, the second clamping block 8 moves downwards to be matched with the second feeding block 4 to clamp the aluminum profiles, then the walking driving unit matched with the second feeding block 4 drives the second feeding block 4 to move forwards along the sliding rod 12 to convey the aluminum profiles, the first clamping block 6 is matched with the first feeding block 3 to clamp the aluminum profiles under the action of the first lifting driving unit 5, and the first feeding block 3 is driven by the walking driving unit matched with the first feeding block 3 to synchronously feed with the second feeding block 4; when the second feeding block 4 moves to the end of the sliding rod 12, the telescopic end of the second lifting driving unit 7 extends, the second clamping block 8 rises and is not clamped any more, the second feeding block 4 moves backwards under the driving action of the walking driving unit, at the moment, the first feeding block 3 continues to move forwards along the sliding rod 12 under the driving action of the matched walking driving unit, the aluminum profile is continuously conveyed, after the aluminum profile is conveyed for a certain distance, the second feeding block 4 stops moving backwards and is conveyed forwards after clamping the aluminum profile with the second clamping block 8, the first clamping block 6 on the first feeding block 3 rises under the action of the first lifting driving unit 5 and is not clamped any more, and the first feeding block 3 moves backwards to an initial position; repeating the above operation, can realizing first pay-off piece 3, the alternative of second pay-off piece 4, incessant pay-off, improve pay-off efficiency, and then guarantee the continuity of sequent production, provide the guarantee for high-efficient production.

A group of third feeding blocks 9 matched with the first feeding block 3 and a group of fourth feeding blocks 10 matched with the second feeding block 4 are respectively arranged on the sliding rod 12, the third feeding blocks 9 and the fourth feeding blocks 10 are arranged between the first feeding block 3 and the second feeding block 4 along the conveying direction, third guide grooves 54 of aluminum profiles are arranged on the fourth feeding blocks 10, the guide effect is improved, the third feeding blocks 9 are connected with the first feeding blocks 3 through pull ropes 11, the fourth feeding blocks 10 are connected with the second feeding block 4 through pull ropes 11, the third feeding blocks 9 can be arranged in a plurality, and two adjacent third feeding blocks 9 are connected through pull ropes 11; when the second feeding block 4 moves forwards, the pull rope 11 between the second feeding block 4 and the fourth feeding block 10 is straightened, and the second feeding block 4 continues to move forwards to drive the fourth feeding block 10 to move forwards; when the second feeding block 4 moves backwards and the first feeding block 3 moves forwards, the pull rope 11 between the second feeding block 4 and the fourth feeding block 10 is bent, the second feeding block 4 pushes the fourth feeding block 10 to move backwards, the pull rope 11 between the first feeding block 3 and the third feeding block 9 is bent, the first feeding block 3 pushes the third feeding block 9 to move forwards, when the fourth feeding block 10 is in contact with the third feeding block 9, the second feeding block 4 stops moving backwards, the first feeding block 3 stops moving forwards, then the second feeding block 4 clamps the aluminum profile to move forwards, the first feeding block 3 moves backwards, the pull ropes between the first feeding block 3 and the third feeding block 9 and between two adjacent third feeding blocks 9 are straightened sequentially, and preparation is made for the next period; third pay-off block 9, fourth pay-off block 10 is to first pay-off block 3, minimum distance between the second pay-off block 4 is injectd, and support to the aluminium alloy in transportation process and lead smooth, and third pay-off block 9 and 3 follow-up and deployable of first pay-off block, fourth pay-off block 10 and 4 follow-up and deployable of second pay-off block, at first pay-off block 3, to first pay-off block 3 in the transportation of second pay-off block 4 in turn, aluminium alloy between the second pay-off block 4 supports, prevent that the unsettled length overlength of aluminium alloy from causing the kickdown, effectively avoided carrying alternative transportation process in aluminium alloy to produce and warp.

The walking driving unit is a driving motor.

The utility model relates to an aluminium alloy processing is with alternating traction drive mechanism provides continuous, stable pay-off for the sequent processing station, guarantees the quality of product when helping improving product production efficiency by a wide margin.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides an aluminium alloy processing is with alternating traction drive mechanism, includes frame (1), its characterized in that, alternating traction drive mechanism still include along the direction of delivery of aluminium alloy set gradually first pay-off piece (3), second pay-off piece (4) on frame (1) and respectively with first pay-off piece (3), the walking drive unit that second pay-off piece (4) are connected, first pay-off piece (3) be connected with first tight piece of clamp (6) with the help of first lift drive unit (5), second pay-off piece (4) are connected with the tight piece of second clamp (8) with the help of second lift drive unit (7).

2. The alternating traction driving mechanism for processing the aluminum profile according to claim 1, further comprising a group of third feeding blocks (9) matched with the first feeding blocks (3) and a group of fourth feeding blocks (10) matched with the second feeding blocks (4) which are respectively arranged on the frame (1), wherein the third feeding blocks (9) are connected with the first feeding blocks (3) through pull ropes (11), and the fourth feeding blocks (10) are connected with the second feeding blocks (4) through pull ropes (11).

3. The alternating traction driving mechanism for the aluminum profile machining according to claim 2 is characterized in that the first feeding block (3), the third feeding block (9), the fourth feeding block (10) and the second feeding block (4) are sequentially arranged along the conveying direction of the aluminum profile.

4. The alternating traction driving mechanism for the aluminum profile machining according to claim 2 is characterized in that the first feeding block (3), the second feeding block (4) and the fourth feeding block (10) are respectively provided with a guide groove for the aluminum profile.

5. The alternating traction driving mechanism for processing the aluminum profile according to claim 1, wherein a slide rod (12) matched with the first feeding block (3) and the second feeding block (4) is arranged on the frame (1), and the first feeding block (3) and the second feeding block (4) respectively have the freedom degree of guiding movement along the slide rod (12) by virtue of a walking driving unit.

6. The alternating traction driving mechanism for aluminum profile machining according to claim 1, wherein the first lifting driving unit (5) and the second lifting driving unit (7) are cylinders.

Images