CN202019129U - Numerical control precision spigot end module - Google Patents

Abstract

The utility model relates to a numerical control precision spigot end module, which comprises a support base (1), a terminal track (7), a clamping assembly, a cutting assembly and a spigot end assembly, wherein the clamping assembly comprises a first air cylinder (5), a fixed block (4) and a clamping block (3) which is connected with a piston shaft of the first air cylinder (5) to clamp a terminal; the cutting assembly comprises a second air cylinder (18), an installation base fixed on the support base (1), a lever (12) hinged to the installation base and a cutter which is fixedly arranged on the end part of the lever (12); the lever (12) is rotationally connected with a piston shaft of the second air cylinder (18); the spigot end assembly comprises a third air cylinder (13), a guiding rail (2) fixed on the support base (1) and a bottom plate (19) which slides along the guiding rail (2); the bottom plate (19) is connected with a piston shaft of the third air cylinder (13); and the clamping block (3) is fixedly arranged on the bottom plate (19). The numerical control precision spigot end module is simple in a structure and high in accuracy of the spigot end.

Description

A kind of numerically-controlled precise spigot module

Technical field

The utility model relates to the mechano-electronic field, more particularly, relates to a kind of numerically-controlled precise spigot module.

Background technology

In the prior art, there is terminal orbital motion displacement inaccuracy in the spigot module, causes that terminal misplaces in the spigot process, causes the substandard products waste product, influences the quality of production.And, also have on the terminal of a series products also leftover waste material, cause terminal and material to be pegged graft and be obstructed, or terminal is slotting does not advance in the material, need manually clear up, cause production efficiency low.

The utility model content

The technical problems to be solved in the utility model is, has the not high defective of precision at spigot module in the prior art, and a kind of numerically-controlled precise spigot module is provided, and can finely address the above problem.

The technical scheme that its technical problem that solves the utility model adopts is: construct a kind of numerically-controlled precise spigot module, comprise supporting seat, transport terminal terminal track, clamp assemblies, cut assembly and spigot assembly; Described clamp assemblies comprises first cylinder, fixed block and is connected grip block with the described terminal of clamping with the axis of the piston of described first cylinder; The described assembly that cuts comprises second cylinder, is fixed on the mount pad on the described supporting seat, the cutting knife that is articulated in the lever of described mount pad and is fixedly installed on described lever end, and the axis of the piston of described lever and described second cylinder is rotationally connected; Described spigot assembly comprises the 3rd cylinder, be fixed on guide rail on the described supporting seat, along the base plate that described guide rail slides, described base plate is connected with the axis of the piston of described the 3rd cylinder, described grip block is fixedly installed on the described base plate.

A kind of numerically-controlled precise spigot of the present invention module, further, also comprise Power Component, described Power Component comprises motor, be fixedly installed on the described supporting seat back-up block that the rotating shaft for described motor wears and be fixedly installed on gear, described gear and described terminal engagement fit in the described rotating shaft.

A kind of numerically-controlled precise spigot of the present invention module, concrete, offer groove on the described terminal track, described terminal is positioned at described groove.

A kind of numerically-controlled precise spigot of the present invention module, preferred, also offer perforation on the described terminal track, the end of described gear wears and stretches out described perforation to stir described terminal.

A kind of numerically-controlled precise spigot of the present invention module, preferred, described Power Component also comprises inductor, described inductor comprises initial point sensor block in the rotating shaft that is sleeved on described motor and the initial point optical fiber that cooperates with described initial point sensor block.

A kind of numerically-controlled precise spigot of the present invention module, preferred, also comprise folding material assembly, the folding material piece that described folding material assembly comprises four-cylinder and fixedlys connected with the axis of the piston of described four-cylinder.

A kind of numerically-controlled precise spigot of the present invention module, preferred, also be set with supporting bracket on the described supporting seat, described terminal track is fixed on the described supporting bracket.

A kind of numerically-controlled precise spigot of the present invention module, preferred, also comprise a controller.

The utility model can reach following beneficial effect: clamp terminal on the terminal track by clamp assemblies, cut assembly a plurality of terminals of bunchiness are cut into single terminal, the spigot assembly inserts terminal in the material in the material track, thereby finishes the spigot process, and is simple in structure, the spigot precision is higher.

Description of drawings

The utility model is described in further detail below in conjunction with drawings and Examples, in the accompanying drawing:

Fig. 1 is one of schematic perspective view of numerically-controlled precise spigot module of the present utility model;

Fig. 2 be numerically-controlled precise spigot module of the present utility model schematic perspective view two;

Fig. 3 be numerically-controlled precise spigot module of the present utility model schematic perspective view three;

Fig. 4 be numerically-controlled precise spigot module of the present utility model schematic perspective view four;

Fig. 5 be numerically-controlled precise spigot module of the present utility model schematic perspective view five;

The drawing reference numeral explanation:

1, supporting seat 2, guide rail

3, grip block 4, fixed block

5, first cylinder 6, initial point sensor block

7, terminal track 8, rotating shaft back-up block

9, initial point optical fiber 10, shaft coupling

11, motor 12, lever

13, the 3rd cylinder 14, supporting bracket

15, gear 16, four-cylinder

17, folding material piece 18, second cylinder

19, base plate 20, groove

21, perforation

Embodiment

Understand for technical characterictic of the present utility model, purpose and effect being had more clearly, now contrast accompanying drawing and describe embodiment of the present utility model in detail.

To shown in Figure 5, be the embodiment that the utility model provides as Fig. 1, a kind of numerically-controlled precise spigot module, comprise supporting seat 1, transport terminal terminal track 7, clamp assemblies, cut assembly and spigot assembly.As Fig. 1, Fig. 2, shown in Figure 3, clamp assemblies comprises first cylinder 5, fixed block 4 and is connected grip block 3 with the clamping terminal with the axis of the piston of first cylinder 5.As Fig. 1, shown in Figure 5, cutting assembly comprises second cylinder 18, is fixed on mount pad on the supporting seat 1, is articulated in the lever 12 of mount pad and the cutting knife that is fixedly installed on lever 12 ends, the axis of the piston of the lever 12 and second cylinder 18 is rotationally connected, second cylinder, 18 activation lever 12 are rotated around mount pad, thereby realize cutting.As Fig. 1, Fig. 2, shown in Figure 3, the base plate 19 that the spigot assembly comprises the 3rd cylinder 13, be fixed on guide rail 2 on the supporting seat 1, slide along guide rail 2.As shown in Figure 1, base plate 19 is connected with the axis of the piston of the 3rd cylinder 13, the overall fixed that grip block 3, fixed block 4 and first cylinder 5 constitute is arranged on the base plate 19, the 3rd cylinder 13 drives base plate 19 and moves on guide rail 2, move thereby drive the grip block 3 of clamping terminal, realize the grafting of terminal and material.

On the basis of technique scheme, the speed of on terminal track 7, moving for accurate control terminal, as preferably, as shown in Figure 1 and Figure 2, present embodiment also comprises Power Component, and Power Component comprises motor 11, shaft coupling 10, be fixedly installed on the supporting seat 1 back-up block 8 that the rotating shaft for motor 11 wears and be fixedly installed on gear 15 in the rotating shaft, gear 15 and terminal engagement fit, motor 11 driven wheels 15 rotate, and move ahead thereby drive terminal.

Further, for the ease of the even running of terminal, as Fig. 1, shown in Figure 4, offer groove 20 on the terminal track 7, terminal is positioned at groove 20.

As preferably, as shown in Figure 4, also offer perforation 21 on the terminal track 7, the end of gear 15 wears and stretches out perforation 21 to stir the terminal operation.

Further, also comprise a controller, this controller is used in time detecting all places information, and controls the sequence of movement of each parts.

On the basis of technique scheme, as preferably, as shown in Figure 1, Power Component also comprises inductor, is used to detect the position of motor drive shaft.Inductor comprises initial point sensor block 6 in the rotating shaft that is sleeved on motor 11 and the initial point optical fiber 9 that cooperates with initial point sensor block 6.Before motor energising was started working, inductor detected the position of motor drive shaft, and when motor drive shaft during not in the center, inductor passes to controller with this signal, and controller sends alerting signal, and operating personnel carry out correspondence adjustment to the position of motor drive shaft.

Further, in order to eliminate the waste material on the product behind the spigot, present embodiment also comprises folding material assembly, as Fig. 4, shown in Figure 5, and the folding material piece 17 that folding material assembly comprises four-cylinder 16 and fixedlys connected with the axis of the piston of four-cylinder 16.

For support terminals track 7, as shown in Figure 4, also be set with supporting bracket 14 on the supporting seat 1, terminal track 7 is fixed on the supporting bracket 14.

The utility model can reach following beneficial effect: clamp terminal on the terminal track by clamp assemblies, cut assembly a plurality of terminals of bunchiness are cut into single terminal, the spigot assembly inserts terminal in the material in the material track, thereby finishes the spigot process, and is simple in structure, the spigot precision is higher.

In conjunction with the accompanying drawings embodiment of the present utility model is described above; but the utility model is not limited to above-mentioned embodiment; above-mentioned embodiment only is schematic; rather than it is restrictive; those of ordinary skill in the art is under enlightenment of the present utility model; not breaking away under the scope situation that the utility model aim and claim protect, also can make a lot of forms, these all belong within the protection of the present utility model.

Claims (8)

1. numerically-controlled precise spigot module is characterized in that: comprise supporting seat (1), transport terminal terminal track (7), clamp assemblies, cut assembly and spigot assembly;

Described clamp assemblies comprises first cylinder (5), fixed block (4) and is connected grip block (3) with the described terminal of clamping with the axis of the piston of described first cylinder (5);

The described assembly that cuts comprises second cylinder (18), is fixed on mount pad on the described supporting seat (1), is articulated in the lever (12) of described mount pad and the cutting knife that is fixedly installed on described lever (12) end, and described lever (12) is rotationally connected with the axis of the piston of described second cylinder (18);

The base plate (19) that described spigot assembly comprises the 3rd cylinder (13), be fixed on guide rail (2) on the described supporting seat (1), slide along described guide rail (2), described base plate (19) is connected with the axis of the piston of described the 3rd cylinder (13), and described grip block (3) is fixedly installed on the described base plate (19).

2. numerically-controlled precise spigot module according to claim 1, it is characterized in that, also comprise Power Component, described Power Component comprises motor (11), be fixedly installed on described supporting seat (1) goes up the back-up block (8) that the rotating shaft for described motor (11) wears and is fixedly installed on gear (15) in the described rotating shaft, described gear (15) and described terminal engagement fit.

3. numerically-controlled precise spigot module according to claim 2 is characterized in that, offers groove (20) on the described terminal track (7), and described terminal is positioned at described groove (20).

4. numerically-controlled precise spigot module according to claim 3 is characterized in that, also offers perforation (21) on the described terminal track (7), and the end of described gear (15) wears and stretches out described perforation (21) to stir described terminal.

5. according to each described numerically-controlled precise spigot module of claim 2-4, it is characterized in that, described Power Component also comprises inductor, and described inductor comprises initial point sensor block (6) in the rotating shaft that is sleeved on described motor (11) and the initial point optical fiber (9) that cooperates with described initial point sensor block (6).

6. numerically-controlled precise spigot module according to claim 1 is characterized in that, also comprises folding material assembly, and described folding material assembly comprises four-cylinder (16) and the folding material piece (17) of fixedlying connected with the axis of the piston of described four-cylinder (16).

7. numerically-controlled precise spigot module according to claim 1 is characterized in that, also is set with supporting bracket (14) on the described supporting seat (1), and described terminal track (7) is fixed on the described supporting bracket (14).

8. numerically-controlled precise spigot module according to claim 1 is characterized in that, also comprises a controller.

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