CN211640185U - Cable film-wrapping punching machine - Google Patents

Abstract

The utility model discloses a cable film-coating punching machine, which comprises a workbench, a film-coating punching mechanism, a cable film-coating conveying mechanism, a left cable film-coating clamping mechanism and a right cable film-coating clamping mechanism, wherein the film-coating punching mechanism is arranged on the workbench and makes a linear feeding motion along the Y-axis direction relative to the workbench so as to punch a hole on a cable film moving along the Z-axis direction; the left and right cable coating clamping mechanisms are respectively arranged on the left and right sides of the workbench and do linear feed motion along the X-axis direction relative to the workbench so as to fix the cable coating moving along the Z-axis direction; the cable coating and conveying mechanism is arranged on the workbench and moves linearly along the Z-axis direction relative to the workbench. The utility model discloses effectively solved among the prior art problem that the dyestripping is damaged, the influence is used, trompil is efficient moreover, and it is accurate to counterpoint, punches the periphery and does not appear deckle edge, does not ftracture, and the trompil is complete.

Description

Cable film-wrapping punching machine

Technical Field

The utility model relates to a piercing press technical field specifically is a cable diolame piercing press.

Background

The existing cable is completely sealed after being coiled, the coating is broken in the using process, after one part is broken, the internal stress of the cable easily tears the coating irregularly from the broken part, and the cable is easily loosened and knotted once the constraint of the coating is lost, so that the use is very inconvenient. In order to solve the problem, the applicant adopts a mode of opening a hole in the center, and the cable is directly drawn out from the middle when in use without damaging the envelope. Therefore, in the production process, the envelope is aligned to the central hole of the cable envelope, the envelope at the central hole is cut off, and in the cutting process, the cut is required to be smooth and free from damage, otherwise, the envelope is easy to crack under the action of the internal stress of the cable, and the envelope needs to be re-coated. At present, no punching machine specially applied to cable enveloping exists, and the development and design of the equipment are urgently needed to solve the problems.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model aims to solve the technical problem that a cable diolame piercing press that can punch to cable diolame centre bore is proposed.

In order to solve the prior art problem, the technical proposal of the cable enveloping and punching machine of the utility model comprises a workbench;

the film-wrapping and punching mechanism is mounted on the workbench and performs linear feed motion along the Y-axis direction relative to the workbench so as to punch the cable film moving along the Z-axis direction;

the left and right cable coating clamping mechanisms are respectively arranged on the left and right sides of the workbench and do linear feed motion along the X-axis direction relative to the workbench so as to fix the cable coating moving along the Z-axis direction;

the cable coating and conveying mechanism is arranged on the workbench and moves linearly relative to the workbench along the Z-axis direction, and the cable coating and conveying mechanism is positioned right below the coating and punching mechanism and is arranged between the left cable coating and clamping mechanism and the right cable coating and clamping mechanism.

Preferably, the enveloping and punching mechanism can comprise a fixing frame;

the lifting driver is arranged on the workbench through a fixed frame;

the output shaft of the lifting driver penetrates through the fixing frame and is connected with the heater;

and the puncher is arranged at the lower end of the heater.

Preferably, the capsule punching mechanism further comprises a lifting guide rod which is arranged in parallel with the lifting driver, the lifting guide rod comprises a sleeve and a guide rod, the lower end of the sleeve is fixed on the fixing frame, and the lower end of the guide rod penetrates through the sleeve and the fixing frame to be connected with the heater.

Preferably, the lower end of the punch may be fitted with a circular blade.

Preferably, in order to ensure that no burrs are generated on the periphery of the hole after the capsule is punched, and the hole is more completely punched, the heater can be a Teflon heater.

Preferably, the left cable enveloping clamping mechanism and the right cable enveloping clamping mechanism have the same structure and can both comprise a bracket;

the clamping driver is arranged on one side of the workbench through a bracket;

2 press from both sides tight deflector roll, 2 press from both sides tight deflector roll and link to each other through the connecting block, press from both sides the output shaft of tight driver and pass the support and link to each other with the connecting block.

Preferably, the left and right cable envelope clamping mechanisms can also comprise 2 guide rod assemblies which are positioned on two sides of the clamping driver and are arranged in parallel with the clamping driver, each 2 guide rod assembly comprises a clamping sleeve and a clamping guide rod, one end of each clamping sleeve is fixed on the support, and one end of each clamping guide rod penetrates through the clamping sleeve and the fixing frame to be connected with the connecting block.

Preferably, the cable coating conveying mechanism can comprise a conveying driver, and the conveying driver is mounted at the bottom of the workbench;

the output shaft of the conveying driver is connected with the driving synchronizing wheel to drive the driving synchronizing wheel to rotate;

the driven synchronizing wheel is arranged above the driving synchronizing wheel and is connected with the driving synchronizing wheel through a synchronizing belt to realize synchronous rotation;

one end of the guide roller transmission shaft is connected with an output shaft of the driven synchronizing wheel, and the other end of the guide roller transmission shaft is fixed on the workbench through a bearing seat to realize synchronous rotation;

2, the belt guide roller is sleeved outside the guide roller transmission shaft to realize synchronous rotation, and the distance between the 2 belt guide rollers is positioned right below the puncher;

the belt 2 and the belt 2 are respectively sleeved outside the belt guide rollers 2 to realize movement along the Z-axis direction, the cable coating is placed on the belt 2, the diameter of the central hole of the cable coating is equal to that of the puncher, and the cable coating is located right below the puncher.

Preferably, the 2 belt guide roller spacing may be greater than or equal to the punch diameter.

Compared with the prior art, the utility model has the advantages of it is following:

the utility model discloses a mechanism is punched a hole to the diolame, the diolame mechanism of punching a hole and left and right cable diolame clamping mechanism realize the automatic trompil of cable diolame, has effectively solved the problem that the dyestripping is damaged among the prior art, influences the use, and the trompil is efficient moreover, and it is accurate to counterpoint, punches the periphery and does not appear deckle edge, does not ftracture, and the trompil is complete.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

And (3) identifying the figure number: 1. a film wrapping and punching mechanism; 1-1, fixing frame; 1-2, a lifting driver; 1-3, a heater; 1-4, punching; 1-5, a lifting guide rod; 2. a left cable coating clamping mechanism; 2-1, clamping the driver; 2-2, clamping a guide roller; 2-3, a guide rod assembly; 3. a right cable coating clamping mechanism; 4. a cable coating conveying mechanism; 4-1, a conveying driver; 4-2, driving synchronous wheels; 4-3, a passive synchronizing wheel; 4-4, a guide roller transmission shaft; 4-5, belt guide rollers; 4-6, a belt; 4-7, bearing seats; 4-8, synchronous belt; 5. a work table; 6. and (5) cable coating.

Detailed Description

The technical solution of the present invention will be further explained with reference to the embodiments shown in the drawings. Cable diolame 6 indicates to roll up with plastic film full plastic envelope's cable conductor.

The utility model relates to a cable diolame piercing press, as shown in the figure 1, including workstation 5, diolame mechanism of punching a hole 1, left cable diolame clamping mechanism 2, right cable diolame clamping mechanism 3 and cable diolame conveying mechanism 4.

The capsule punching mechanism 1 is mounted on a workbench 5 and performs linear feed motion along the Y-axis direction relative to the workbench 5 so as to punch the cable capsule 6 moving along the Z-axis direction.

The left cable coating clamping mechanism 2 and the right cable coating clamping mechanism 3 are identical in structure, and the left cable coating clamping mechanism and the right cable coating clamping mechanism are respectively installed on the left side and the right side of the workbench 5 and do linear feeding motion along the X-axis direction relative to the workbench 5 so as to fix the cable coating 6 moving along the Z-axis direction.

The cable coating and conveying mechanism 4 is used for conveying a cable coating 6, is arranged on the workbench 5 and moves linearly relative to the workbench 5 along the Z-axis direction, and the cable coating and conveying mechanism 4 is positioned right below the coating and punching mechanism 1 and is arranged between the left cable coating and clamping mechanism 2 and the right cable coating and clamping mechanism 3.

In the preferred embodiment, the enveloping and punching mechanism 1 comprises a fixed frame 1-1, a lifting driver 1-2, a heater 1-3 and a punch 1-4, wherein the lifting driver 1-2 is a lifting cylinder. The fixing frame 1-1 is in an inverted L shape, the lower end of a vertical plate of the fixing frame is connected to the workbench 5, and a transverse plate of the fixing frame is erected above the workbench 5. The lifting driver 1-2 is arranged above the workbench 5 through a transverse plate of the fixed frame 1-1, and an output shaft of the lifting driver passes through the transverse plate of the fixed frame 1-1 and is connected with the heater 1-3. The puncher 1-4 is arranged at the lower end of the heater 1-3, and the circular blade is arranged at the lower end of the puncher 1-4.

The film wrapping and punching mechanism 1 further comprises a lifting guide rod 1-5 which is arranged in parallel with the lifting driver 1-2, the lifting guide rod 1-5 comprises a sleeve and a guide rod, the lower end of the sleeve is fixed on a transverse plate of the fixing frame 1-1, and the lower end of the guide rod penetrates through the sleeve and the fixing frame 1-1 to be connected with the heater 1-3.

In a preferred embodiment, the heaters 1 to 3 are teflon heaters.

In the preferred embodiment, the left cable envelope clamping mechanism 2 and the right cable envelope clamping mechanism 3 both comprise a bracket, a clamping driver 2-1 and a clamping guide roller 2-2 of the clamping driver 2-1, and the clamping driver 2-1 is a clamping cylinder. The clamping driver 2-1 is arranged on one side of the workbench 5 through a support (the left cable coating clamping mechanism 2 is arranged on the left side, and the right cable coating clamping mechanism 3 is arranged on the right side). The 2 clamping guide rollers 2-2 are connected through a connecting block, and preferably, the distance between the outer diameters of the 2 clamping guide rollers 2-2 is equal to the diameter of the cable coating 6 or slightly larger than the diameter of the cable coating 6, so that the cable coating 6 can be clamped. An output shaft of the clamping driver 2-1 penetrates through the support to be connected with the connecting block, so that the clamping guide roller 2-2 is pushed leftwards and rightwards, and the cable envelope 6 conveyed by the cable envelope conveying mechanism 4 is clamped or loosened.

As a preferred embodiment, the left and right cable enveloping clamping mechanisms also comprise 2 guide rod assemblies 2-3 which are positioned on two sides of the clamping driver 2-1 and are arranged in parallel with the clamping driver 2-1, each 2 guide rod assembly 2-3 comprises a clamping sleeve and a clamping guide rod, one end of each clamping sleeve is fixed on the support, and one end of each clamping guide rod sequentially penetrates through the clamping sleeve and the fixing frame 1-1 to be connected with the connecting block, so that the effect of guiding the 2 clamping guide rollers 2-2 to do linear motion can be achieved.

In the preferred embodiment, the cable coating conveying mechanism 4 comprises a conveying driver 4-1, a driving synchronous wheel 4-2, a driven synchronous wheel 4-3, a guide roller transmission shaft 4-4, a 2 belt guide roller 4-5 and a 2 belt 4-6, wherein the conveying driver 4-1 is a servo motor. The conveying driver 4-1 is arranged at the bottom of the workbench 5, and an output shaft of the conveying driver 4-1 is connected with the driving synchronizing wheel 4-2 to drive the driving synchronizing wheel to rotate along the Z axis. The driven synchronizing wheel 4-3 is arranged above the driving synchronizing wheel 4-2 and is connected with the driving synchronizing wheel 4-2 through a synchronizing belt 4-8 to realize synchronous rotation. One end of the guide roller transmission shaft 4-4 is connected with an output shaft of the driven synchronizing wheel 4-3, and the other end of the guide roller transmission shaft is fixed on the workbench 5 through a bearing seat 4-7 to realize synchronous rotation. And 2, belt guide rollers 4-5 are sleeved outside the guide roller transmission shafts 4-4 to realize synchronous rotation, and 4-5 intervals of the belt guide rollers 2 are positioned under the puncher 1-4. The belts 4-6 are respectively sleeved outside the belt guide rollers 4-5 2 to realize the movement along the Z-axis direction, the cable envelope 6 is placed on the belts 4-6 2, the diameter of the central hole of the cable envelope 6 is equal to that of the punches 1-4, and the cable envelope is positioned right below the punches 1-4. Preferably, the distance between the belt guide rollers 4-5 of the 2 belt guide rollers can be larger than or equal to the diameter of the puncher 1-4.

The utility model discloses a work engineering as follows: the cable envelope conveying mechanism 4 conveys the fully encapsulated cable envelope 6 to the lower part of the puncher 1-4, then the left and right cable envelope clamping mechanisms position the cable envelope 6, the puncher 1-4 is pressed downwards on the cable envelope 6 through the lifting cylinder to punch a hole, the puncher 1-4 is lifted after the completion, and the cable is conveyed to the next procedure.

The above embodiments are only specific examples for further detailed description of the objects, technical solutions and advantages of the present invention, and the present invention is not limited thereto. Any modification, equivalent replacement, improvement and the like made within the scope of the disclosure of the present invention are all included in the protection scope of the present invention.

Claims (9)

1. Cable diolame piercing press, its characterized in that: comprises that

A work table (5);

the film-wrapping and punching mechanism (1) is mounted on the workbench (5) and performs linear feed motion along the Y-axis direction relative to the workbench (5) so as to punch the cable film wrapping (6) moving along the Z-axis direction;

the left and right cable envelope clamping mechanisms (2 and 3) are respectively arranged on the left side and the right side of the workbench (5) and do linear feed motion along the X-axis direction relative to the workbench (5) so as to fix the cable envelope (6) moving along the Z-axis direction;

the cable coating conveying mechanism (4) is used for conveying a cable coating, the cable coating conveying mechanism (4) is installed on the workbench (5) and moves linearly relative to the workbench (5) along the Z-axis direction, and the cable coating conveying mechanism (4) is located under the coating punching mechanism (1) and is arranged between the left cable coating clamping mechanism (2) and the right cable coating clamping mechanism (3).

2. The cable enveloping punch of claim 1, wherein: the enveloping and punching mechanism (1) comprises

A fixed mount (1-1);

the lifting driver (1-2), the lifting driver (1-2) is installed on the workbench (5) through the fixing frame (1-1);

the output shaft of the lifting driver (1-2) passes through the fixed frame (1-1) and is connected with the heater (1-3);

the punching device (1-4), the punching device (1-4) is arranged at the lower end of the heater (1-3).

3. The cable enveloping punch of claim 2, wherein: the film wrapping and punching mechanism (1) further comprises a lifting guide rod (1-5) which is arranged in parallel with the lifting driver (1-2), the lifting guide rod (1-5) comprises a sleeve and a guide rod, the lower end of the sleeve is fixed on the fixing frame (1-1), and the lower end of the guide rod penetrates through the sleeve and the fixing frame (1-1) to be connected with the heater (1-3).

4. The cable enveloping punch of claim 2, wherein: the lower end of the puncher (1-4) is provided with a circular blade.

5. The cable enveloping punch of claim 2, wherein: the heater (1-3) is a Teflon heater.

6. The cable enveloping punch of claim 1, wherein: the left cable coating clamping mechanism (2) and the right cable coating clamping mechanism (3) have the same structure and both comprise

A support;

the clamping driver (2-1), the clamping driver (2-1) is arranged on one side of the workbench (5) through a bracket;

the clamping device is characterized in that the 2 clamping guide rollers (2-2) are connected through a connecting block, and the 2 clamping guide rollers (2-2) are connected through the connecting block, and an output shaft of the clamping driver (2-1) penetrates through the support to be connected with the connecting block.

7. The cable enveloping punch of claim 6, wherein: the left and right cable coating clamping mechanisms (2 and 3) further comprise 2 guide rod assemblies (2-3) which are positioned on two sides of the clamping driver (2-1) and are installed in parallel with the clamping driver (2-1), each 2 guide rod assembly (2-3) comprises a clamping sleeve and a clamping guide rod, one end of each clamping sleeve is fixed on the support, and one end of each clamping guide rod penetrates through the clamping sleeve and the fixing frame (1-1) to be connected with the connecting block.

8. The cable enveloping punch of claim 2, wherein: the cable coating and conveying mechanism (4) comprises

The conveying driver (4-1), the conveying driver (4-1) is installed at the bottom of the workbench (5);

the output shaft of the conveying driver (4-1) is connected with the driving synchronous wheel (4-2) to drive the driving synchronous wheel (4-2) to rotate;

the driven synchronizing wheel (4-3) is arranged above the driving synchronizing wheel (4-2) and is connected with the driving synchronizing wheel (4-2) through a synchronizing belt (4-8) to realize synchronous rotation;

one end of the guide roller transmission shaft (4-4) is connected with an output shaft of the driven synchronizing wheel (4-3), and the other end of the guide roller transmission shaft (4-4) is fixed on the workbench (5) through a bearing seat (4-7) to realize synchronous rotation;

2 belt guide rollers (4-5), wherein the 2 belt guide rollers (4-5) are sleeved outside the guide roller transmission shafts (4-4) to realize synchronous rotation, and the 2 belt guide rollers (4-5) are arranged right below the puncher (1-4) at intervals;

the belt (4-6) 2, the belt (4-6) 2 are respectively sleeved outside the belt guide roller (4-5) 2 to realize movement along the Z-axis direction, the cable envelope (6) is placed on the belt (4-6) 2, the diameter of the central hole of the cable envelope (6) is equal to that of the puncher (1-4), and the cable envelope is positioned under the puncher (1-4).

9. The cable enveloping punch of claim 8, wherein: 2, the distance between the belt guide rollers (4-5) is more than or equal to the diameter of the puncher (1-4).

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