CN204382005U - Rod double-head emery wheel corner cutting off apparatus - Google Patents

Abstract

The utility model gives a kind of rod double-head emery wheel corner cutting off apparatus, it comprises frame, four groups of propulsion assemblies and some traversing assemblies, the throughput direction of four groups of propulsion assemblies is identical between two, and distinguish corresponding chamfered edge emery wheel or flush plate at the transfer passage end of four groups of propulsion assemblies, workpiece completes the movement between four groups of propulsion assemblies by some traversing assemblies.Bar successively through four groups of propulsion assemblies, and then completes chamfered edge operation to bar two ends.Advantageous Effects of the present utility model is: simple to operate, automatically can complete the chamfered edge work at bar two ends, improve operating efficiency.

Description

Rod double-head emery wheel corner cutting off apparatus

Technical field

The utility model relates to a kind of bar emery wheel corner cutting off apparatus, particularly a kind of device being applicable to rod double-head chamfered edge.

Background technology

Common bar chamfering machine one-stop operation can only complete one end chamfered edge of sheet material, and bar needs by readjusting the position of bar, to be contacted by the bar other end with chamfering machine during the chamfered edge of two ends, inconvenient operation, wastes time and energy, and reduces operating efficiency.

Application number is: the Chinese patent of 201220327440.4 is open a kind of " emery wheel chamfering machine bar grinding conveying device ", it has frame, frame is provided with the bar propulsive mechanism by motor-driven, bar propulsive mechanism is matched by one group of columned drive roll and one group of round table-like driven voller one_to_one corresponding and forms, drive roll, the driven voller of mutual pairing are close to each other, each drive roll coaxial line, is connected with transmission mechanism between the spindle nose of each drive roll and the rotating shaft of motor.On drive roll bar being placed on one_to_one corresponding pairing and driven voller, rotated by each drive roll of transmission mechanism transmission by motor, by coordinating of drive roll and driven voller, bar can be promoted and rotate and move axially; But said apparatus can not complete the double end chamfered edge operation of bar by continuous print.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of easy to operate, rod double-head emery wheel corner cutting off apparatus of increasing work efficiency.

For solving the problems of the technologies described above, the utility model provides a kind of rod double-head emery wheel corner cutting off apparatus, and it has frame;

Four groups of propulsion assemblies are provided with successively along its length direction on the upside of frame, often organize propulsion assembly to be matched by one group of columned drive roll and one group of round table-like driven voller one_to_one corresponding and form, the drive roll of mutual pairing, driven voller is close to each other, each drive roll coaxial line, the propelling passage for bar movement is formed between each drive roll and corresponding driven voller, four groups of propulsion assemblies are followed successively by from left to right: the first propulsion assembly, second propulsion assembly, 3rd propulsion assembly and the 4th propulsion assembly, the propelling passage of the first propulsion assembly and the second propulsion assembly moves towards identical, the propelling passage trend of the second propulsion assembly and the 3rd propulsion assembly is contrary, the propelling passage of the 3rd propulsion assembly and the 4th propulsion assembly moves towards identical, first propulsion assembly advances channel end to be provided with flush plate, second propulsion assembly advances channel end to be provided with chamfered edge emery wheel, 3rd propelling group advances channel end to be provided with flush plate, 4th propulsion assembly advances channel end to be provided with chamfered edge emery wheel,

Some traversing assemblies are also provided with in frame, described traversing assembly comprises traversing plate, at least one drive plate and motor, drive plate described in driven by motor rotates, described drive plate has eccentric orfice, described drive plate is connected by trundle with traversing plate, traversing plate is in below the propelling passage of four groups of propulsion assemblies, and traversing plate top has four shifting chutes;

During use, the drive plate of described traversing assembly drives traversing plate to move, and when traversing plate is in extreme higher position, the floor height of shifting chute is higher than the propelling channel height of described propulsion assembly, when traversing plate is in extreme lower position, the upper end level of traversing plate is lower than the propelling channel height of described propulsion assembly.

After adopting such structure, bar be first placed on first propelling group one_to_one corresponding pairing drive roll and driven voller on, bar moves to along the propelling passage of the first propulsion assembly and is resisted against on flush plate, traversing plate is driven to move by the drive plate of traversing assembly again, bar falls in the shifting chute of traversing plate, and follow traversing plate move to second propelling group one_to_one corresponding pairing drive roll and driven voller on, chamfered edge operation is carried out to one end of bar;

In like manner, bar is after completing the chamfered edge operation to its one end, by traversing assembly effect bar drop on successively the 3rd propelling group one_to_one corresponding pairing drive roll and driven voller on, the 4th propelling group one_to_one corresponding pairing drive roll and driven voller on, complete the chamfered edge operation to the bar other end.

Advantageous Effects of the present utility model is: simple to operate, automatically can complete the chamfered edge work at bar two ends, improve operating efficiency.

In order to better understand technology contents of the present utility model, below by this rod double-head emery wheel corner cutting off apparatus referred to as this device.

First propulsion assembly of this device and the second propulsion assembly are driven by the first transmission component, first transmission component comprises a driving shaft, one group of drive sprocket and two groups of driven sprockets, driving shaft connects with the rotating shaft of motor, each drive sprocket is loaded on driving shaft, on the spindle nose of each drive roll of the first propulsion assembly and the second propulsion assembly, correspondence is equipped with a driven sprocket, and each drive sprocket and corresponding two driven sprockets are equipped with driving-chain;

3rd propulsion assembly and the 4th propulsion assembly are driven by the second transmission component, second transmission component comprises a driving shaft, one group of drive sprocket and two groups of driven sprockets, driving shaft connects with the rotating shaft of motor, each drive sprocket is loaded on driving shaft, on the spindle nose of each drive roll of the 3rd propulsion assembly and the 4th propulsion assembly, correspondence is equipped with a driven sprocket, and each drive sprocket and corresponding two driven sprockets are equipped with driving-chain.

The described traversing assembly of this device comprises some drive plates, and described drive plate has eccentric orfice, and the velocity of rotation of some drive plates is consistent, and the position consistency of the relatively respective corresponding trundle in the eccentric orfice position of all drive plates.

Accompanying drawing explanation

Fig. 1 is the structural representation of this device embodiment.

Fig. 2 is Fig. 1 right view.

Fig. 3 be Fig. 2 along A to partial view.

Fig. 4 is the structural representation of the Traverse Displacement Unit of this device embodiment.

Fig. 5 be Fig. 4 along B to partial view.

Detailed description of the invention

As Suo Shi Fig. 1 to 5 (understand technical scheme in order to view is succinct, clearer, eliminate traversing assembly in Fig. 2, the dotted line in Fig. 3 is workpiece)

This device comprises frame 1, four groups of propulsion assemblies, two groups of transmission components and two groups of traversing assemblies 4.

Frame 1 is roughly the frame structure of cuboid, four groups of propulsion assemblies are provided with successively along its length direction on the upside of frame 1, four groups of propulsion assemblies are equidistantly placed, and four groups of propulsion assemblies are followed successively by from left to right along the width of frame 1: the first propulsion assembly 21, second propulsion assembly 22, the 3rd propulsion assembly 23 and the 4th propulsion assembly 24;

Four groups of propulsion assembly structures are identical, its structure is introduced for the first propulsion assembly 21, first propulsion assembly 21 is matched by one group of columned drive roll 2a and a group of round table-like driven voller 2b one_to_one corresponding and forms, one drive roll 2a and a driven voller 2b of mutual pairing are arranged on support bed 2c, drive roll 2a, the driven voller 2b of mutual pairing are close to each other, each drive roll 2a coaxial line, formed between each drive roll 2a and corresponding driven voller 2b and advance passage, bar workpiece 5 moves along advancing the top of passage to advancing the end direction of passage;

The propelling passage of the first propulsion assembly 21 and the second propulsion assembly 22 moves towards identical, the propelling passage of the 3rd propulsion assembly 23 and the 4th propulsion assembly 24 moves towards identical, and the propelling passage trend of the first propulsion assembly 21 and the second propulsion assembly 22 moves towards contrary with the propelling passage of the 3rd propulsion assembly 23 and the 4th propulsion assembly 24;

The propelling channel end of the first propulsion assembly 21 is provided with flush plate 25, the propelling channel end of the second propulsion assembly 22 is provided with chamfered edge emery wheel 26, the propelling channel end that the propelling channel end of the 3rd propulsion assembly 23 is provided with flush plate the 25, four propulsion assembly 24 is provided with chamfered edge emery wheel 26.

It is identical with the structure of the second transmission component 32 with the second transmission component 32, first transmission component 31 that two groups of transmission components are respectively the first transmission component 31;

First propulsion assembly 21 and the second propulsion assembly 22 are driven by the first transmission component 31, first transmission component 31 comprises a driving shaft 3a, one group of drive sprocket 3b and two group of driven sprocket 3d, driving shaft 3a connects with the rotating shaft of the first motor 3c, each drive sprocket 3b is loaded on driving shaft 3a, on the spindle nose of each drive roll 2a of the first propulsion assembly 21 and the second propulsion assembly 22, correspondence is equipped with a driven sprocket 3d, and each drive sprocket 3b and corresponding two driven sprocket 3d is equipped with driving-chain 3e;

3rd propulsion assembly 23 and the 4th propulsion assembly 24 are driven by the second transmission component 32, second transmission component 32 comprises a driving shaft 3a, one group of drive sprocket 3b and two group of driven sprocket 3d, driving shaft 3a connects with the rotating shaft of the first motor 3c, each drive sprocket 3b is loaded on driving shaft 3a, on the spindle nose of each drive roll 2a of the 3rd propulsion assembly 23 and the 4th propulsion assembly 24, correspondence is equipped with a driven sprocket 3d, and each drive sprocket 3b and corresponding two driven sprocket 3d is equipped with driving-chain 3e.

Two groups of traversing assemblies 4 are arranged in frame 1, two groups of traversing assemblies 4 are near the both sides frame of frame 1, often organize traversing assembly 4 and comprise traversing plate 4d, two drive plate 4b and two the second motor 4a, two drive plate 4b install on the rotor of two the second motor 4a respectively, nutating disk 4b is with to rotate at the second motor 4a, each drive plate 4b has eccentric orfice, the velocity of rotation of two drive plate 4b is consistent, described drive plate 4b is connected by trundle 4c with traversing plate 4d, trundle 4c is coordinated with drive plate 4b and traversing plate 4d respectively by bearing, and the position consistency of the relatively respective corresponding trundle 4c in the eccentric orfice position of two drive plate 4b, traversing plate 4d is in below the propelling passage of four groups of propulsion assemblies, traversing plate 4d top has four shifting chute 4e,

The drive plate 4b of traversing assembly 4 drives traversing plate 4d to move, when traversing plate 4d is in extreme higher position, the floor height of shifting chute 4e is higher than the propelling channel height of described propulsion assembly, when traversing plate 4d is in extreme lower position, the upper end level of traversing plate 4d is lower than the propelling channel height of described propulsion assembly.

This device starts before bar workpiece 5 chamfered edge, starts the first motor 3c of the first transmission component 31 and the second transmission component 32, drives the first propulsion assembly 21, second propulsion assembly 22, the 3rd propulsion assembly 23 and the 4th propulsion assembly 24 to operate; Start the second motor 4a of two groups of traversing assemblies 4, drive two groups of traversing assemblies 4 to operate;

During workpiece 5 chamfered edge operation, workpiece 5 is first placed on the first propulsion assembly 21, on the drive roll 2a that workpiece 5 is in the first propelling group one_to_one corresponding pairing and driven voller 2b, rotated by each drive roll 2a of the first transmission component 31 transmission by the first motor 3c, by coordinating of drive roll 2a and driven voller 2b, workpiece 5 can be promoted rotate and advance channel direction to move axially along the first propulsion assembly 21, until the front end of workpiece 5 is resisted against on the flush plate 25 of propelling channel end;

Now, second motor 4a drives the traversing plate 4d of traversing assembly 4 to move upward, progressively the workpiece 5 on the first propulsion assembly 21 is held up, and drive traversing plate 4d to have displacement on frame 1 width, length and the eccentric orfice of drive plate 4b of displacement rotate, and to be formed centrally diameter of a circle in Moving plate identical, and the eccentric orfice distance be formed centrally between diameter of a circle two propulsion assemblies adjacent with traversing plate 4d in Moving plate that rotates is identical;

Along with traversing plate 4d continues mobile, on drive roll 2a workpiece 5 being dropped on the second propulsion assembly 22 one_to_one corresponding pairing and driven voller 2b, workpiece 5 front end and the second propulsion assembly 22 advance the chamfered edge emery wheel 26 of channel end to contact, and workpiece 5 completes the chamfered edge operation of front end;

Simultaneously workpiece 5 moves on the drive roll 2a and driven voller 2b that the 3rd propulsion assembly 23 one_to_one corresponding matches under the traversing plate 4d effect of traversing assembly 4, and the rear end of workpiece 5 is resisted against the 3rd propulsion assembly 23 and advances on the flush plate 25 of channel end;

In like manner, on the drive roll 2a that workpiece 5 moves to the 4th propulsion assembly 24 one_to_one corresponding pairing under by the traversing plate 4d effect of traversing assembly 4 and driven voller 2b, workpiece 5 rear end and the 4th propulsion assembly 24 advance the chamfered edge emery wheel 26 of channel end to contact, workpiece 5 completes the chamfered edge operation of rear end, and workpiece 5 completes the chamfered edge operation of rear and front end since then.

Above-described is only a kind of embodiment of the present utility model; it should be pointed out that for the person of ordinary skill of the art, under the prerequisite not departing from the utility model principle; can also make some modification and improvement, these also should be considered as belonging to protection domain of the present utility model.

Claims (3)

1. a rod double-head emery wheel corner cutting off apparatus, it has frame, it is characterized in that:

Four groups of propulsion assemblies are provided with successively along its length direction on the upside of frame, often organize propulsion assembly to be matched by one group of columned drive roll and one group of round table-like driven voller one_to_one corresponding and form, the drive roll of mutual pairing, driven voller is close to each other, each drive roll coaxial line, the propelling passage for bar movement is formed between each drive roll and corresponding driven voller, four groups of propulsion assemblies are followed successively by from left to right: the first propulsion assembly, second propulsion assembly, 3rd propulsion assembly and the 4th propulsion assembly, the propelling passage of the first propulsion assembly and the second propulsion assembly moves towards identical, the propelling passage trend of the second propulsion assembly and the 3rd propulsion assembly is contrary, the propelling passage of the 3rd propulsion assembly and the 4th propulsion assembly moves towards identical, first propulsion assembly advances channel end to be provided with flush plate, second propulsion assembly advances channel end to be provided with chamfered edge emery wheel, 3rd propelling group advances channel end to be provided with flush plate, 4th propulsion assembly advances channel end to be provided with chamfered edge emery wheel,

Some traversing assemblies are also provided with in frame, described traversing assembly comprises traversing plate, at least one drive plate and motor, drive plate described in driven by motor rotates, described drive plate has eccentric orfice, described drive plate is connected by trundle with traversing plate, traversing plate is between propulsion assembly arbitrary neighborhood two drive rolls, and traversing plate is in below the propelling passage of four groups of propulsion assemblies, and traversing plate top has four shifting chutes;

During use, the drive plate of described traversing assembly drives traversing plate to move, and when traversing plate is in extreme higher position, the floor height of shifting chute is higher than the propelling channel height of described propulsion assembly, when traversing plate is in extreme lower position, the upper end level of traversing plate is lower than the propelling channel height of described propulsion assembly.

2. rod double-head emery wheel corner cutting off apparatus according to claim 1, it is characterized in that: the first propulsion assembly and the second propulsion assembly are driven by the first transmission component, first transmission component comprises a driving shaft, one group of drive sprocket and two groups of driven sprockets, driving shaft connects with the rotating shaft of motor, each drive sprocket is loaded on driving shaft, on the spindle nose of each drive roll of the first propulsion assembly and the second propulsion assembly, correspondence is equipped with a driven sprocket, and each drive sprocket and corresponding two driven sprockets are equipped with driving-chain;

3rd propulsion assembly and the 4th propulsion assembly are driven by the second transmission component, second transmission component comprises a driving shaft, one group of drive sprocket and two groups of driven sprockets, driving shaft connects with the rotating shaft of motor, each drive sprocket is loaded on driving shaft, on the spindle nose of each drive roll of the 3rd propulsion assembly and the 4th propulsion assembly, correspondence is equipped with a driven sprocket, and each drive sprocket and corresponding two driven sprockets are equipped with driving-chain.

3. rod double-head emery wheel corner cutting off apparatus according to claim 1, it is characterized in that: described traversing assembly comprises some drive plates, described drive plate has eccentric orfice, the velocity of rotation of some drive plates is consistent, and the position consistency of the relatively respective corresponding trundle in the eccentric orfice position of all drive plates.