CN111390068A - Be applied to ration automatic cutout equipment in cable manufacture and processing - Google Patents

Abstract

The invention relates to quantitative automatic cutting equipment applied to cable production and processing, which comprises an operation table, wherein the left side of the operation table is provided with a guide assembly for guiding cables with different diameters, and the right side of the guide assembly is correspondingly provided with a cutting device and a traction device; the cutting device is controlled by the pulling device to be started after the pulling device quantitatively pulls out the cable, so that the pulled-out cable is cut. Compared with the prior art, the cable cutting device has the advantages that the cutting quantification is accurate, the automation degree and the efficiency are high, the precise quantification of the cable is realized through the arranged traction device, and the quantified cable is cut through the cutting device controlled and started by the traction device; the cable after the ration cutting is from blanking mouth department blanking, and whole process need not artifical supplementary, has avoided the emergence of incident.

Description

Be applied to ration automatic cutout equipment in cable manufacture and processing

Technical Field

The invention relates to the technical field of cable production and processing, in particular to quantitative automatic cutting equipment applied to cable production and processing.

Background

A cable is a conductor made up of one or more conductors insulated from each other and an outer insulating jacket, which carries power or information from one location to another.

The cable is often can be cut to the cable in production and processing process, and the cutting of cable is realized through the cutter push down cable to the cable to current cable cutting is put the cable on the workstation. The cable cutting method has the problems that the cutting amount is not easy to control and error is easy to occur due to manual control, the production efficiency is low, the labor intensity is high and the like. In addition, some cable cutting equipment or devices are also available in the market, but the automation degree is not high, most of the cable cutting equipment or devices need manual auxiliary cutting, and safety accidents are easy to happen.

Disclosure of Invention

In order to solve the technical problem, the invention provides quantitative automatic cutting equipment applied to cable production and processing.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

the quantitative automatic cutting equipment applied to cable production and processing comprises an operation table, wherein a guide assembly for guiding cables with different diameters is arranged on the left side of the operation table, and a cutting device and a drawing device are correspondingly arranged on the right side of the guide assembly;

the cutting device is controlled by the pulling device to be started after the pulling device quantitatively pulls out the cable, so that the pulled-out cable is cut.

Furthermore, the guide assembly comprises a sliding plate which is slidably arranged on the operating platform and a plurality of cable guide cylinders with different calibers which are arranged on the sliding plate, a selection lead screw which drives the sliding plate to slide forwards and backwards is arranged on the operating platform, and a selection turntable is arranged at the end part of the selection lead screw.

Further, the distance between the central axes of the two adjacent cable guide drums is the same, the distance of each movement of the sliding plate is the same, and the central axes of the cable guide drums are collinear with the central axis of the traction device.

Furthermore, the cutting device comprises cutting knives symmetrically distributed on the front side and the rear side of the traction device, knife rests used for fixing the cutting knives, and double-head hydraulic cylinders controlled by the traction device to be started so as to drive the knife rests to move and enable the cutting knives to cut.

Furthermore, the traction device comprises a traction pneumatic chuck which is collinear with the central axis of the cable guide cylinder and controls the starting of the double-head hydraulic cylinder, a traction screw rod which is positioned above the traction pneumatic chuck and used for driving the traction pneumatic chuck to move, a traction servo motor connected with the traction screw rod, and a support plate which provides support for the traction screw rod.

Furthermore, the side of the traction pneumatic chuck is provided with a touch impact plate, and the side wall of the double-end hydraulic cylinder is correspondingly provided with a push type button switch which is extruded by the touch impact plate to enable the double-end hydraulic cylinder to work.

Furthermore, a blanking port with the width matched with the width of the cable guide cylinder is arranged on the operating platform and below the traction pneumatic chuck.

The invention has the beneficial effects that:

compared with the prior art, the cable cutting device has the advantages that the cutting quantification is accurate, the automation degree and the efficiency are high, the precise quantification of the cable is realized through the arranged traction device, and the quantified cable is cut through the cutting device controlled and started by the traction device; the cable after the ration cutting is from blanking mouth department blanking, and whole process need not artifical supplementary, has avoided the emergence of incident.

Drawings

The invention is further illustrated with reference to the following figures and examples:

FIG. 1 is a schematic top view of the present invention;

FIG. 2 is a schematic sectional view A-A of FIG. 1;

FIG. 3 is a schematic sectional view of the structure of B-B in FIG. 1;

FIG. 4 is a schematic diagram of the pulling pneumatic collet of the present invention;

FIG. 5 is a schematic top cross-sectional view of the present invention.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further explained in the following with the accompanying drawings and the embodiments.

As shown in fig. 1 to 4, a quantitative automatic cutting device applied to cable production and processing comprises an operation table 1, wherein a guide assembly for guiding cables with different diameters is arranged on the left side of the operation table 1, and a cutting device and a drawing device are correspondingly arranged on the right side of the guide assembly;

the cutting device is controlled by the pulling device to be started after the pulling device quantitatively pulls out the cable, so that the pulled-out cable is cut.

As a further improvement of the invention, the cutting devices are positioned at the front end and the rear end of the right side of the guide assembly, the pulling device is positioned above the right side of the guide assembly, and the action central axis of the guide assembly is collinear with the left and right axes of the pulling device. And a blanking port 12 is arranged below the drawing device on the table top of the operating table 1, when the cutting device cuts, the drawing device loosens the drawing of the cable, and the cable cut quantitatively falls from the blanking port 12 for collection. It should be noted that the length of the blanking opening 12 layer in this embodiment is the length of the quantitative cut cable, so in the actual design production process, the length of the blanking opening 12 is determined according to the length of the cable to be cut.

As a further improvement of the invention, the guide assembly comprises a sliding plate 13 which is slidably mounted on the operation table 1, the sliding plate 13 slides in the front-back direction, a selection screw 14 for driving the sliding plate 13 to move is arranged inside the operation table 1, and a selection rotary disc 15 is arranged at the front end part of the selection screw 14.

The sliding plate 13 is sequentially provided with three cable guide cylinders 2 with different calibers along the front-back direction, and the three cable guide cylinders 2 with different calibers are horizontally distributed along the left and right. The cable guide cylinder 2 is used for providing a guiding effect for a cable, and meanwhile, the effect of calibrating concentricity is achieved, and the accurate drawing precision of the drawing device is guaranteed. The cable guide barrels 2 with different calibers are arranged, so that cables with different diameters can be guided; the cable cutting device has the advantages of reducing cost, being high in applicability and the like compared with the existing cable cutting device.

Initially, the central axis of any one cable guide 2 of the three cable guide drums 2 with different calibers is collinear with the left and right axes of the drawing device.

The distance between the central axes of two adjacent cable guide cylinders 2 with different calibers is the same, and the distance of each movement of the sliding plate 13 is the same under the driving of the selection screw 14. Therefore, the distance of each movement of the sliding plate 13 is equal to the distance of the central axes between the two adjacent cable guide drums 2 with different calibers. After the two adjacent cable guide drums 2 with different calibers are selected and switched, the collinear central axes of the switched cable guide drums 2 and the traction device can be ensured, so that the time for debugging the centrality is saved, and the cutting efficiency is improved.

As a further improvement of the present invention, the cutting device includes two cutting knives 3 symmetrically distributed in front and back on the right side of the cable guide cylinder 2, two knife rests 4 welded with the cutting knives 3 for fixing the cutting knives 3, knife rest sliding seats 41 for guiding the movement of each knife rest 4 are respectively arranged on the left and right sides of each knife rest 4, a double-head hydraulic cylinder 5 respectively connected with the front and back knife rests 4 is arranged on the table top on the right side of the blanking port 12 on the operation table 1, and a press type button switch 11 is arranged on the left side wall of the double-head hydraulic cylinder 5.

The double-head hydraulic cylinder 5 is started by the mode that the drawing device touches the push type button switch 11 in the drawing process, and the tool rest 4 is driven to move so that the cutting knife 3 can carry out cutting work. The cutting precision of the double-head hydraulic cylinder is improved, a special device for triggering the double-head hydraulic cylinder 5 to start is omitted, the structural complexity of the double-head hydraulic cylinder is reduced, and the double-head hydraulic cylinder is simpler to operate and convenient to maintain and repair.

As a further improvement of the present invention, the pulling device comprises a pulling pneumatic chuck 6 which is positioned at the right side of the guide assembly and is collinear with the central axis of any one of the cable guide drums 2 on the sliding plate, and pulling lead screws 7 which are positioned above the pulling pneumatic chuck 6 and are distributed along the left and right direction, the pulling pneumatic chuck 6 is slidably mounted on the pulling lead screw 7 through a screw rod sliding plate 61 which is mounted by screws, and the pulling lead screw 7 is coaxially connected with a pulling servo motor 8 and a support plate 9 which provides support for the pulling lead screw 7.

The traction pneumatic chuck 6 is a self-adaptive chuck, and can be self-adaptive according to different diameter sizes of cables and clamping force, so that the clamping and clamping of the cables with different diameter sizes are guaranteed.

The right side edge of the traction pneumatic chuck 6 is provided with a touch impact plate 10, and when the traction pneumatic chuck 6 moves to the rightmost end of the stroke under the driving of the traction screw rod 7, the touch impact plate 10 touches the push type button switch 11, so that the double-head hydraulic cylinder 5 is started to perform cutting action.

The position of the tractive pneumatic chuck 6 at the leftmost end of the stroke is to be located at the left side of the cutting knife 3, so that the situation that the cable is located outside the cable guide cylinder 2 due to the fact that the cable is left behind after the cutting knife 3 is cut every time can be guaranteed, and the next clamping work of the tractive pneumatic chuck 6 is guaranteed.

The right side of backup pad 9 is passed through riser 91 and is installed on operation panel 1, riser 91 is located the right side of blanking mouth 12. In order to further enhance the stability of the support plate 9, a reinforcing link 92 is provided between the upper end surface of the support plate 9 and the upper plate portion of the riser 91.

During the use, select suitable cable guide 2 according to the cable diameter size of cutting earlier, during the initial time, any one cable guide 2 in three is in the collinear state with draw-off gear, if present cable guide 2 is required cable guide 2, then need not change, directly draw, cut can. If the current cable guide 2 is not the desired cable guide 2, the selection dial 15 is rotated to switch the desired cable guide 2 to be in line with the pulling means.

After the cable guide cylinder 2 is selected, one end of the cable is extended out from the right side of the cable guide cylinder 2, then the pneumatic chuck 6 is pulled to clamp the cable, the pulling servo motor 8 is started, one end of the cable is driven by the traction pneumatic chuck 6 to move towards the right side of the stroke through the traction screw rod 7, when the traction pneumatic chuck 6 moves to the rightmost end position of the stroke, the quantitative pulling-out of the cable is completed, meanwhile, pulling the touch plate 10 on the right side wall of the pneumatic chuck 6 presses the push type button switch 11, so that the double-head hydraulic cylinder 5 is started, the double-head hydraulic cylinder 5 pulls the two tool rests 4 to move in the opposite directions, the corresponding cutting knives 3 on the two tool rests 4 cut the cable at the cable outlet of the cable guide cylinder 2, after the quantitative cable is cut, the pneumatic chuck 6 is pulled to quickly release the clamping with the cable, and the cut quantitative cable falls from the blanking port 12. The pneumatic collet 6 is then pulled to reset and the process is repeated.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a be applied to ration automatic cutout equipment in cable manufacture and processing which characterized in that: the cable guide device comprises an operation table (1), wherein a guide assembly for guiding cables with different diameters is arranged on the left side of the operation table (1), and a cutting device and a drawing device are correspondingly arranged on the right side of the guide assembly;

the cutting device is controlled by the pulling device to be started after the pulling device quantitatively pulls out the cable, so that the pulled-out cable is cut.

2. The quantitative automatic cutting equipment applied to cable production and processing as claimed in claim 1, wherein: the guide assembly comprises a sliding plate (13) arranged on the operating platform (1) in a sliding mode and a plurality of cable guide barrels (2) with different calibers arranged on the sliding plate (13), a selection lead screw (14) driving the sliding plate (13) to slide back and forth is arranged on the operating platform (1), and a selection rotary disc (15) is arranged at the end portion of the selection lead screw (14).

3. The quantitative automatic cutting equipment applied to cable production and processing as claimed in claim 2, wherein: the distance between the central axes of the two adjacent cable guide drums (2) is the same, the distance of each movement of the sliding plate (13) is the same, and the central axes of the cable guide drums (2) and the central axis of the drawing device are collinear.

4. The quantitative automatic cutting equipment applied to cable production and processing as claimed in claim 1, wherein: the cutting device comprises cutting knives (3) which are symmetrically distributed on the front side and the rear side of the traction device, knife rests (4) used for fixing the cutting knives (3), and double-head hydraulic cylinders (5) which are controlled by the traction device to start so as to drive the knife rests (4) to move and enable the cutting knives (3) to cut.

5. The quantitative automatic cutting equipment applied to cable production and processing as claimed in claim 3, wherein: the traction device comprises a traction pneumatic chuck (6) which is collinear with the central axis of the cable guide cylinder (2) and controls the starting of the double-head hydraulic cylinder (5), a traction screw rod (7) which is positioned above the traction pneumatic chuck (6) and used for driving the traction pneumatic chuck (6) to move, a traction servo motor (8) connected with the traction screw rod (7), and a support plate (9) for supporting the traction screw rod (7).

6. The quantitative automatic cutting equipment applied to cable production and processing as claimed in claim 5, wherein: the side of the traction pneumatic chuck (6) is provided with a touch striking plate (10), and the side wall of the double-head hydraulic cylinder (5) is correspondingly provided with a push type button switch (11) which is extruded by the touch striking plate (10) to enable the double-head hydraulic cylinder (5) to work.

7. The quantitative automatic cutting equipment applied to cable production and processing as claimed in claim 5, wherein: and a blanking port (12) with the width matched with that of the cable guide cylinder (2) is arranged on the operating platform (1) and below the traction pneumatic chuck (6).

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