CN114428003B - Cable thermal contraction automatic cutting system appearance device - Google Patents

Abstract

The invention discloses a cable thermal shrinkage automatic cutting sample preparation device, which comprises a bottom plate, a clamping mechanism, a feeding mechanism and a pulling mechanism, wherein the clamping mechanism comprises a rotating mechanism and a diameter measuring mechanism, the rotating mechanism comprises a first driver, a rotating shaft and a fixed wallboard, the first driver is in transmission connection with the rotating shaft, driving rotating wheels are arranged at two ends of the rotating shaft, driven rotating wheels are arranged at two sides of the fixed wallboard, the diameter measuring mechanism comprises a displacement sensor and a clamping plate, the displacement sensor is provided with a reset spring, the feeding mechanism comprises a supporting seat, a second driver and a cutter, two guide rails and a first sliding block are arranged on the upper surface of the supporting seat, the cutter comprises a cutter seat and a cutter head, the cutter seat is fixedly connected with the first sliding block, two pulling mechanisms are arranged on the bottom plate, the pulling mechanism comprises a transverse cylinder, a longitudinal cylinder and a buckle, and the sample preparation device can prepare samples quickly, conveniently and effectively.

Description

Cable thermal contraction automatic cutting system appearance device

[ field of technology ]

The invention relates to a cable thermal shrinkage automatic cutting sample preparation device, and belongs to the technical field of cable sample preparation devices.

[ background Art ]

Common cables are wire products used to transmit electrical (magnetic) energy, information and to effect electromagnetic energy conversion. The electric wire and cable products are of various kinds and have very wide application range, and relate to industries such as power, building, communication, manufacturing and the like, and are closely related to various departments of national economy.

The electric wires and cables are also called as arteries and nerves of national economy, are necessary basic wires for conveying electric energy, transmitting information and manufacturing various motors, instruments and meters, and are necessary basic products in the future intelligent and informationized society.

The electric wires and cables are indispensable in both present-day and future social life. The wire and cable products are visible everywhere in the occasions of human activities, and can not be applied to all activities needing to be explored and developed in all occasions of personal household appliances, illumination, construction, current market space, underground, ocean and the like, and any development activities of scientific and technological development innovation projects. Even the invisible air is fully distributed with electromagnetic propagation.

The quality control of the wire and cable in the production and manufacturing process is very important and significant. Wherein, the thermal shrinkage index of the cable is one of the important parameters. The insulation thermal shrinkage test is not up to standard and unqualified, and in the normal use process, under the influence of factors such as the extension of time, the impact of ambient temperature, the shrinkage volume that insulation produced is too big, and the conductor in the inside is likely to produce and exposes to the electric shock hidden danger and danger.

Therefore, in many detection links and projects of the cable, heat shrinkage is an important index for evaluating the quality grade of the cable. Before the thermal shrinkage test is performed, a cable sample must be rapidly, conveniently and effectively prepared.

[ invention ]

The invention aims to solve the technical problem of providing a cable heat shrinkage automatic cutting sample preparation device which can prepare samples rapidly, conveniently and effectively.

The technical problems are solved, and the invention adopts the following technical scheme:

the utility model provides a cable thermal contraction automatic cutout system appearance device, bottom plate, clamping mechanism, feed mechanism and pulling out mechanism, clamping mechanism includes rotary mechanism and diameter measurement mechanism, rotary mechanism includes first driver, axis of rotation and fixed wallboard, fixed wallboard is in the bottom plate upside, first driver with the axis of rotation transmission is connected, the axis of rotation is rotated and is connected fixed wallboard upside, the initiative runner is all installed at the axis of rotation both ends, fixed wallboard both sides all are equipped with driven runner, driven runner is in one side of initiative runner, diameter measurement mechanism installs the bottom plate upside, diameter measurement mechanism includes displacement sensor and grip block, the grip block is in directly over the fixed wallboard, displacement sensor is equipped with reset spring, feed mechanism includes supporting seat, second driver and cutter, the supporting seat upper surface is equipped with two guide rails and first slider, the second driver control first slider is followed the guide rail removes, the cutter is fixed in the front end of first slider, the cutter is equipped with the driven runner, the cutter is in one side of initiative runner, the diameter measurement mechanism installs in the bottom plate upside is in the same with the cylinder, the cutter head is equipped with the cylinder is equipped with the both ends, the vertical profile is in the cylinder is removed to the side is in the cylinder is connected to the first end, the vertical profile is in the side is in the cylinder is fixed to be connected to the top plate, the vertical profile is in the side is in the cylinder is in the front of the axis of rotation, and is in the cylinder is in the front of the cylinder respectively and is in the side of the side. The output end of the longitudinal cylinder is connected with the buckle, and an inverted V-shaped notch is arranged at the bottom of the buckle.

The beneficial effects of the invention are as follows:

the cable sample clamping device comprises a bottom plate, a clamping mechanism, a feeding mechanism and a pulling mechanism, wherein the clamping mechanism comprises a rotating mechanism and a diameter measuring mechanism, the clamping plate is downwards close to the fixed wallboard, a cable sample is limited between the clamping plate and the fixed wallboard, a driving rotating wheel and a driven rotating wheel are arranged on two sides of the fixed wallboard, the first driver controls the rotating shaft to rotate, the rotating shaft drives the driving rotating wheel to rotate, the cable sample is positioned between the driving rotating wheel and the driven rotating wheel, the cable sample is driven to rotate when the driving rotating wheel rotates, and the driven rotating wheel assists the cable sample to rotate, so that the rotation of the cable sample is more stable, and the situation of clamping cannot occur.

In addition, the feeding mechanism comprises a supporting seat, a second driver and a cutter, wherein two guide rails and a first sliding block are arranged on the upper surface of the supporting seat, the distance between the two guide rails is the length of an insulating layer of a cable sample after sample preparation, the second driver controls the first sliding block to slide along the guide rails so that the cutter is close to the cable sample, and after a cutter head of the cutter cuts into the insulating layer of the cable sample, girdling of the cable sample is realized along with rotation of the cable sample.

Secondly, the two sides of the clamping mechanism are provided with the pulling-out mechanisms, the pulling-out mechanisms comprise a transverse air cylinder, a longitudinal air cylinder and a buckle, the longitudinal air cylinder controls the buckle to lift, the transverse air cylinder controls the buckle to move towards the fixed wallboard, the buckle is located above the cutting point of the cable sample, then the longitudinal air cylinder controls the buckle to descend, the buckle is embedded into the breaking part of the insulating layer, the transverse air cylinder controls the buckle to be far away from the fixed wallboard, and the buckle strips the insulating layers at two ends of the cable sample to finish sample preparation of the cable sample.

Preferably, the output end of the first driver is provided with a driving belt wheel, the rotating shaft is provided with a driven belt wheel, the driving belt wheel and the driven belt wheel are provided with a synchronous belt, the fixed wallboard is provided with a first through hole for the synchronous belt to pass through, the first driver controls the rotating shaft to rotate through the synchronous belt, the first driver is installed at the bottom of the bottom plate, and the bottom plate is provided with a second through hole for the synchronous belt to pass through.

Preferably, the bottom plate is vertically provided with a supporting plate, the diameter measuring mechanism further comprises a housing, the housing is fixed at the upper end of the supporting plate, the displacement sensor is fixed on the surface of the housing, the surface of the supporting plate, facing the diameter measuring mechanism, is provided with a second sliding rail, a second sliding block is connected onto the second sliding rail in a sliding manner, and the second sliding block is fixedly connected with the clamping plate.

Preferably, the two sides of the clamping plate are provided with driven rotating wheels, and the driven rotating wheels are positioned between the driving rotating wheels and the driven rotating wheels.

Preferably, the surface of the supporting seat is provided with groove-shaped photoelectricity for detecting the position of the guide rail, the groove-shaped photoelectricity is positioned on one side of the guide rail, and one side of the guide rail is provided with 3 groove-shaped photoelectricity.

Preferably, the end part of the first sliding block, which is far away from the cutter, is provided with a movement push plate, two sides of the movement push plate are respectively and fixedly connected with the two guide rails, the output end of the second driver is provided with a screw rod, the movement push plate is provided with a screw rod transmission connecting nut, and the second driver controls the nut to move.

Preferably, the pulling mechanism is provided with a mounting plate, the mounting plate is fixed on the bottom plate, the transverse air cylinder is fixed on the mounting plate, the output end of the longitudinal air cylinder is provided with a connecting plate, the upper side of the buckle is provided with a connecting screw, and the connecting plate is connected with the buckle through the connecting screw.

Preferably, the bottom plate downside is equipped with the frame, the frame bottom is equipped with the removal subassembly, the removal subassembly includes gyro wheel, brake subassembly and adjusting part, adjusting part is used for adjusting the gyro wheel with interval between the frame.

Preferably, the bottom plate is provided with a shell, the thickness of the shell is not smaller than 1.5mm, the surface of the shell is provided with a touch type man-machine interface, and the size of the touch type man-machine interface is not smaller than 10 inches.

Preferably, a cabinet door is arranged in front of the shell, the cabinet door is a transparent toughened glass door, a door handle is arranged on the surface of the cabinet door, and a hinge is arranged between the cabinet door and the shell.

Other features and advantages of the present invention will be disclosed in the following detailed description of the invention and the accompanying drawings.

[ description of the drawings ]

The invention is further described with reference to the accompanying drawings:

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

FIG. 2 is a schematic view of a stripping mechanism according to an embodiment of the invention;

FIG. 3 is a side view of a stripping mechanism in an embodiment of the invention;

FIG. 4 is a schematic diagram of a rotating mechanism according to an embodiment of the present invention;

FIG. 5 is a side view of a rotation mechanism according to an embodiment of the present invention;

FIG. 6 is a schematic view of a cutter feeding mechanism according to an embodiment of the present invention;

FIG. 7 is a side view of a feed mechanism according to an embodiment of the present invention;

FIG. 8 is a schematic view of a diameter measuring mechanism according to an embodiment of the present invention;

fig. 9 is a front view of a caliper according to an embodiment of the present invention.

Reference numerals: 1 a bottom plate, 2 a rotating mechanism, 21 a first driver, 211 a driving belt wheel, 212 a synchronous belt, 22 a rotating shaft, 221 a driven belt wheel, 222 a rotating wheel, 23 a fixed wallboard, 231 a driven rotating wheel, 3 a clamping mechanism, 31 a displacement sensor, 32 a clamping plate, 321 a driven rotating wheel, 33 a second sliding block, 34 a housing, 4 a feeding mechanism, 41 a supporting seat, 42 a second driver, 421 a screw rod, 43 a guide rail, 44 a first sliding block, 45 a moving push plate, 451 a nut, 46 a cutter, 461 a cutter head, 5 a pulling mechanism, 51 a transverse cylinder, 52 a longitudinal cylinder, 521 a connecting plate, 53 a mounting plate, 54 a first sliding rail, 55 a buckle and 551 a connecting screw.

[ detailed description ] of the invention

The technical solutions of the embodiments of the present invention will be explained and illustrated below with reference to the drawings of the embodiments of the present invention, but the following embodiments are only preferred embodiments of the present invention, and not all embodiments. Based on the examples in the implementation manner, other examples obtained by a person skilled in the art without making creative efforts fall within the protection scope of the present invention.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

As shown in fig. 1 to 9, this embodiment illustrates a cable thermal contraction automatic cutting sample preparation device, bottom plate 1, clamping mechanism 3, feed mechanism 4 and pull out mechanism 5, clamping mechanism 3 includes rotary mechanism 2 and diameter measuring mechanism, rotary mechanism 2 includes first driver 21, axis of rotation 22 and fixed wallboard 23, fixed wallboard 23 is located bottom plate 1 upside, the output of first driver 21 is equipped with driving pulley 211, be equipped with driven pulley 221 on axis of rotation 22, driving pulley 211 with be equipped with hold-in pulley 212 on the driven pulley 221, be equipped with on the fixed wallboard 23 and supply the hold-in pulley 212 passes first through-hole, first driver 21 passes through hold-in pulley 212 control axis of rotation 22 rotates, first driver 21 installs the bottom of bottom plate 1, be equipped with the confession on the bottom plate 1 the second through-hole that axis of rotation 22 passed fixed wallboard 23 upside, axis of rotation 22 both ends card wallboard 222 is equipped with driving pulley 211, be equipped with driven pulley 221, driven pulley 231 when the driven pulley 231 is in to the sample is in to the rotation, the driven pulley 231 can take place to the sample, and the driven pulley 231 is in when the sample is in to the rotation is in to the steady state.

The diameter measuring mechanism is installed the bottom plate 1 upside, be equipped with the backup pad perpendicularly on the bottom plate 1, diameter measuring mechanism includes housing 34, displacement sensor 31 and grip block 32, housing 34 is fixed the upper end of backup pad, displacement sensor 31 is fixed the surface of housing 34, grip block 32 is in directly over the fixed wallboard 23, displacement sensor 31 is equipped with reset spring, displacement sensor 31 can be according to the distance that grip block 32 descends detects the diameter of cable sample, the backup pad is towards diameter measuring mechanism's surface is equipped with the second slide rail, sliding connection has second slider 33 on the second slide rail, second slider 33 with grip block 32 fixed connection, grip block 32 both sides all are equipped with driven runner 321, driven runner 321 is in between driving runner 222 and the driven runner 231.

The feeding mechanism 4 comprises a supporting seat 41, a second driver 42 and a cutter 46, wherein the upper surface of the supporting seat 41 is provided with two guide rails 43 and a first slider 44, the distance between the two guide rails 43 is the length of an insulating layer of a cable sample after sample preparation, the distance between the two guide rails 43 can be regulated according to the requirement in production and manufacture, of course, sample preparation devices capable of meeting different requirements can be produced, the cutter 46 is fixed at the front end of the first slider 44, the end of the first slider 44 far away from the cutter 46 is provided with a moving push plate 45, two sides of the moving push plate 45 are respectively fixedly connected with the two guide rails 43, the output end of the second driver 42 is provided with a screw rod 421, the moving push plate 45 is provided with a connecting nut 451 in transmission with the screw rod 421, the second driver 42 controls the nut 451 to move so as to drive the moving push plate 45 to move, the moving push plate 45 drives the first slider 44 to move along the guide rail 43, the cutter 46 comprises a cutter seat and a cutter head 461, the cutter seat is fixedly connected with the first slider 44, the cutter head 461 is mounted at the front end of the cutter seat, the cutter head 461 is positioned at the upper side of the driving wheel 222, the surface of the supporting seat 41 is provided with a groove type photoelectric used for detecting the position of the guide rail 43, the groove type photoelectric is positioned at one side of the guide rail 43, one side of the guide rail 43 is provided with 3 groove type photoelectric used for detecting the position of the first slider 44, the cutter head 461 can be prevented from cutting off the cable sample due to the too long moving distance of the first slider 44, the second driver 42 controls the first slider 44 to slide along the guide rail 43, so that the cutter 46 is close to the cable sample, after the cutter head 461 of the cutter 46 cuts into the insulating layer of the cable sample, the cable sample is stripped by the rotation of the cable sample.

The two pulling mechanisms 5 are arranged on the bottom plate 1, the two pulling mechanisms 5 are provided with mounting plates 53, the mounting plates 53 are fixed on the bottom plate 1, the two pulling mechanisms 5 are respectively arranged at two ends of the rotating shaft 22, the pulling mechanisms 5 comprise a transverse cylinder 51, a longitudinal cylinder 52 and a buckle 55, the transverse cylinder 51 is fixed on the mounting plates 53, the output end of the transverse cylinder 51 is connected with a fixing plate, the longitudinal cylinder 52 is arranged on the fixing plate, the fixing plate faces one side of the rotating shaft 22 and is provided with a vertically distributed first slide rail 54, the output end of the longitudinal cylinder 52 is provided with a connecting plate 521, the buckle 55 is movably connected on the first slide rail 54, the upper side of the buckle 55 is provided with a connecting screw 551, the connecting plate 521 is connected with the buckle 55 through the connecting screw 551, the bottom of the buckle 55 is provided with a notch in the shape of an inverted V, the longitudinal cylinder 52 is controlled by the transverse cylinder 51 to move towards the fixing wall plate 23, the buckle 55 is enabled to be positioned at the upper side of the cable, the cable is controlled by the buckle 55 to be cut off, the sample is also cut off from the sample layer 55, the sample is also cut off by the sample layer of the sample, and the sample is completely cut off by the sample of the sample is completely and the sample is completely cut.

In this embodiment bottom plate 1 downside is equipped with the frame, the frame bottom is equipped with movable assembly, movable assembly includes gyro wheel, brake subassembly and adjusting part, adjusting part is used for adjusting the gyro wheel with interval between the frame, through movable assembly can make this embodiment more convenient the removal, in addition be in when carrying out the system appearance the cable sample uses brake equipment restricts the removal of gyro wheel improves the overall stability of this embodiment, avoids this embodiment to appear dangerous condition because of the gyro wheel removes, in addition when meetting uneven bottom surface, uses adjusting part adjusts the gyro wheel with interval between the frame makes the whole of frame is the horizontality, improves the stability when this embodiment uses.

In this embodiment, the bottom plate 1 is provided with a shell, the thickness of the shell is not less than 1.5mm, the shell is made of metal plate, the shell is subjected to electrostatic spraying plastic treatment, the surface of the shell is provided with a touch type man-machine interface, the size of the touch type man-machine interface is not less than 10 inches, staff can set parameter settings before cable sample preparation and data acquisition, monitoring, processing, summarizing and displaying in the sample preparation process through the touch type man-machine interface, a cabinet door is arranged in front of the shell, the cabinet door is made of transparent toughened glass, the surface of the cabinet door is provided with a door handle, and a hinge is arranged between the cabinet door and the shell.

While the invention has been described in terms of embodiments, it will be appreciated by those skilled in the art that the invention is not limited thereto but rather includes the drawings and the description of the embodiments above. Any modifications which do not depart from the functional and structural principles of the present invention are intended to be included within the scope of the appended claims.

Claims (7)

1. The utility model provides a cable thermal contraction automatic cutout system appearance device which characterized in that: the clamping mechanism comprises a rotating mechanism and a diameter measuring mechanism, the rotating mechanism comprises a first driver, a rotating shaft and a fixed wallboard, the fixed wallboard is positioned at the upper side of the bottom plate, the first driver is in transmission connection with the rotating shaft, the rotating shaft is in rotary connection with the upper side of the fixed wallboard, driving rotating wheels are arranged at two ends of the rotating shaft, driven rotating wheels are arranged at two sides of the fixed wallboard, the driven rotating wheels are positioned at one side of the driving rotating wheels, the diameter measuring mechanism is arranged at the upper side of the bottom plate, the diameter measuring mechanism comprises a displacement sensor and a clamping plate, the clamping plate is positioned right above the fixed wallboard, the displacement sensor is provided with a reset spring, the cutter feeding mechanism comprises a supporting seat, a second driver and a cutter, two guide rails and a first sliding block are arranged on the upper surface of the supporting seat, the second driver controls the first slider to move along the guide rail, the cutter is fixed at the front end of the first slider, the cutter comprises a cutter holder and a cutter head, the cutter holder is fixedly connected with the first slider, the cutter head is installed at the front end of the cutter holder, the cutter head is positioned at the upper side of the driving rotating wheel, two removing mechanisms are arranged on the bottom plate and are respectively positioned at two ends of the rotating shaft, each removing mechanism comprises a transverse cylinder, a longitudinal cylinder and a buckle, the output end of each transverse cylinder is connected with a fixing plate, each longitudinal cylinder is installed on the fixing plate, one surface of each fixing plate facing the rotating shaft is provided with a first slide rail which is vertically distributed, each buckle is movably connected onto the corresponding first slide rail, the output end of each longitudinal cylinder is connected with each buckle, the buckle bottom is equipped with the breach of falling V style of calligraphy, the output of first driver is equipped with the driving pulley, be equipped with the driven pulley in the axis of rotation, the driving pulley with be equipped with the hold-in range on the driven pulley, be equipped with the confession on the fixed wallboard the first through-hole that the hold-in range passed, first driver passes through hold-in range control the axis of rotation rotates, first driver is installed the bottom of bottom plate, be equipped with the confession on the bottom plate the second through-hole that the hold-in range passed, be equipped with the backup pad on the bottom plate perpendicularly, the diameter measuring mechanism still includes the housing, the housing is fixed the upper end of backup pad, displacement sensor fixes the surface of housing, the backup pad orientation diameter measuring mechanism's surface is equipped with the second slide rail, sliding connection has the second slider on the second slide rail with grip block fixed connection, the grip block both sides all are equipped with driven runner, driven runner is in between driving runner and the driven runner.

2. The automatic cable heat shrinkage cutting and sample preparing device according to claim 1, wherein: the supporting seat surface is provided with a groove type photoelectric device for detecting the position of the guide rail, the groove type photoelectric device is positioned on one side of the guide rail, and 3 groove type photoelectric devices are arranged on one side of the guide rail.

3. The automatic cable heat shrinkage cutting and sample preparing device according to claim 1, wherein: the end part of the first sliding block, which is far away from the cutter, is provided with a movement push plate, two sides of the movement push plate are respectively and fixedly connected with the two guide rails, the output end of the second driver is provided with a screw rod, the movement push plate is provided with a screw rod transmission connecting nut, and the second driver controls the nut to move.

4. The automatic cable heat shrinkage cutting and sample preparing device according to claim 1, wherein: the pulling mechanism is provided with a mounting plate, the mounting plate is fixed on the bottom plate, the transverse air cylinder is fixed on the mounting plate, the output end of the longitudinal air cylinder is provided with a connecting plate, the upper side of the buckle is provided with a connecting screw, and the connecting plate is connected with the buckle through the connecting screw.

5. The automatic cable heat shrinkage cutting and sample preparing device according to claim 1, wherein: the bottom plate downside is equipped with the frame, the frame bottom is equipped with the removal subassembly, the removal subassembly includes gyro wheel, brake subassembly and adjusting part, adjusting part is used for adjusting the gyro wheel with interval between the frame.

6. The automatic cable heat shrinkage cutting and sample preparing device according to claim 1, wherein: the touch type human-computer interface is characterized in that a shell is arranged on the bottom plate, the thickness of the shell is not smaller than 1.5mm, a touch type human-computer interface is arranged on the surface of the shell, and the size of the touch type human-computer interface is not smaller than 10 inches.

7. The automatic cable heat shrinkage cutting and sample preparation device according to claim 6, wherein: the cabinet door is arranged in front of the shell and is a transparent toughened glass door, a door handle is arranged on the surface of the cabinet door, and a hinge is arranged between the cabinet door and the shell.