CN113307105A - Equipment is tied up in packing after high temperature fluoroplastics cable processing - Google Patents

Abstract

The invention discloses a packaging and bundling device after processing a high-temperature fluoroplastic cable, which comprises a first device substrate, a second device substrate and cable convolution equipment, wherein support columns connected with the second device substrate are arranged at four corners of the upper end surface of the first device substrate, a transmission groove for rotatably mounting the cable convolution equipment is formed in the center of the upper end surface of the second device substrate, the cable convolution equipment comprises a transmission disc mounted in the transmission groove and a cable convolution diameter adjusting frame mounted in an embedded butt joint manner on the transmission disc, four corners of the upper end surface of the second device substrate are symmetrically provided with assembly stand columns and limiting seats, one side of each assembly stand column, facing the cable convolution equipment, is provided with a second telescopic rod connected with a butt joint plate, and two groups of limiting seats are symmetrically arranged at one corner of the second device substrate. This equipment is tied up in packing after high temperature fluoroplastics cable processing, rational in infrastructure, be convenient for realize the packing and tie up, and need not to assemble independent encapsulation and produce the line, strong adaptability recommends wide use.

Description

Equipment is tied up in packing after high temperature fluoroplastics cable processing

Technical Field

The invention belongs to the technical field of fluoroplastic cable processing, and particularly relates to packaging and bundling equipment for processed high-temperature fluoroplastic cables.

Background

Fluoroplastic (fluoroplastic) refers to plastic made with fluororesin. The main varieties include polytetrafluoroethylene, tetrafluoroethylene-ethylene copolymer, tetrafluoroethylene-hexafluoropropylene copolymer, chlorotrifluoroethylene-ethylene copolymer, and the like. The fluoroplastic has many excellent properties such as excellent electrical insulation properties, high heat resistance, outstanding oil resistance, solvent resistance and abrasion resistance, good moisture resistance and low temperature resistance, due to the fluorine atom contained in the molecular structure. Therefore, the fluoroplastic plays an important role in industrial departments such as national defense, electromechanics, metallurgy, petrochemical industry and the like.

Wherein, the fluoroplastic cable is used for specially referring to a wire cable taking fluoroplastic as a jacket. The fluoroplastic cable has excellent weather resistance and heat resistance, small friction coefficient, stable chemical performance and good electrical insulation performance. After cable manufacture, the cable needs to be convoluted into a disc and packaged, and in the cable packaging process, the conventional cable packaging equipment does not have the function of controlling the diameter of the central hollow part of the coiled cable, and cannot directly perform packaging plastic package on the disc forming equipment, cannot adapt to a workshop with a part which is not large in production line scale or occupies a limited area, and is inconvenient for realizing convenient binding of the newspaper after cable processing.

Disclosure of Invention

The invention aims to provide a packaging and bundling device for high-temperature fluoroplastic cables after processing, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a packaging and bundling device for processed high-temperature fluoroplastic cables comprises a device substrate I, a device substrate II and cable convolution equipment,

the first equipment substrate and the second equipment substrate are of rectangular plate-shaped structures with the same projection areas in the same direction, edges at four corners are all constructed to be chamfers, support columns connected with the second equipment substrate are arranged at four corners of the upper end face of the first equipment substrate, a transmission groove for rotatably mounting cable convolution equipment is formed in the center of the upper end face of the second equipment substrate, and the cable convolution equipment comprises a transmission disc mounted in the transmission groove and a cable convolution diameter adjusting frame mounted in an embedded butt joint manner on the transmission disc;

four corners of the upper end face of the second equipment substrate are symmetrically provided with assembly stand columns and limiting seats along a diagonal line, one side of each assembly stand column, facing the cable convolution equipment, is provided with a second telescopic rod connected with the abutting plate, the limiting seats are symmetrically provided with two groups at one corner of the second equipment substrate, and two groups of rotatable plastic cladding material transmission rollers are embedded in opposite faces of the two groups of limiting seats;

the cable convolution diameter adjusting frame comprises a first butt joint disc, a second butt joint disc and a plurality of groups of elastic connecting plates, wherein the second butt joint disc is arranged above the first butt joint disc and is consistent with the axial center of the first butt joint disc, the elastic connecting plates are connected with the first butt joint disc and the outer edge surfaces of the second butt joint disc, the elastic connecting plates are arranged around the axial center of the first butt joint disc in an annular array mode, a group of first telescopic rods are arranged at the center of the upper end surface of the transmission disc, clamping grooves are formed in the end portions of the first telescopic rods, the first telescopic rods are rotationally clamped with the bottom surface of the second butt joint disc through the clamping grooves, and linear bearings which are in sliding fit with the outer edge surfaces of the first telescopic rods are arranged at the center of the first butt joint disc;

the upper end surface of the transmission disc is provided with a plurality of groups of through grooves in an annular array, the center of the upper end surface of the transmission disc is provided with a disc embedding groove for embedding the butt joint disc I, and the through grooves of the transmission disc and the elastic connecting plate connected with the butt joint disc I are arranged in a clearance manner;

a set of adjustable heat sealing mechanism is arranged between the first equipment substrate and the second equipment substrate, the adjustable heat sealing mechanism comprises a set of annular support frame and a plurality of sets of annular heat sealing equipment arranged in an annular array and facing one side of the first equipment substrate, and the plurality of sets of annular heat sealing equipment are just opposite to the through groove formed above the transmission disc.

Preferably, the bottom center of above-mentioned drive plate is equipped with the axostylus axostyle that a set of cooperation roller bearing connects equipment base plate two, and the periphery of above-mentioned drive groove is the roller structure that the annular array gomphosis has multiunit butt drive plate bottom surface, and above-mentioned inlay a set inslot is the annular array and is equipped with the spacing projection of multiunit, is the cooperation slot that the spacing projection of multiunit adaptation was seted up to annular array on the above-mentioned butt joint dish one.

Preferably, one side of the transmission groove is provided with a group of depressions for mounting a first transmission gear, the first transmission gear is matched with the driving motor through a shaft, and the outer edge surface of the transmission disc is provided with a first transmission tooth groove for meshing with the first transmission gear.

Preferably, the bottom end of the annular support frame is provided with a plurality of groups of telescopic rods III connected with the equipment substrate I in an annular array.

Preferably, the annular heat sealing device includes an open stationary ring and an open moving ring rotatably mounted on an inner edge surface of the open stationary ring, a transmission ring path for driving the open moving ring is disposed on the inner edge surface of the open stationary ring, and conductive rails are disposed on two sides of the transmission ring path respectively.

Preferably, a set of groove that supplies the installation of infrared quartz heating pipe is seted up between two parties to the inner fringe face of above-mentioned open rotating ring, and the both ends of open rotating ring all are embedded to have a biax motor, and the motor axial both sides of biax motor extend, and motor shaft end is equipped with drive gear two.

Preferably, two sides of the inner edge surface of the open type fixed ring are provided with second transmission tooth sockets matched with the second transmission gear.

The invention has the technical effects and advantages that: this equipment is tied up in packing after processing of high temperature fluoroplastics cable benefits from the setting of two top cable convolution equipment on the equipment base plate, and the transmission disc and the cooperation of cable convolution diameter adjustment frame that constitute cable convolution equipment can realize the convolution to the cable by motor drive's drive gear one: firstly, the cable convolution diameter adjusting frame has the function of originally combining a telescopic rod I to change the distance between a first butt joint disc and a second butt joint disc, and the change of the distance brings the change of the radian of an elastic connecting plate, so that the change of the diameter of a central gap of a coiled cable is realized;

secondly, a through groove formed in the transmission disc can be used for the open type fixed ring to pass through, and in order to ensure that the opening position of the open type fixed ring smoothly passes through the coiled cable, the change of the radian of the elastic connecting plate can realize further support on the inner diameter of the cable coil, so that the open type fixed ring can conveniently pass through;

thirdly, after the cable drum is wrapped by the plastic bag entering from the position limiting seat, the plastic bag is cut by hot stamping, and in order to ensure that the plastic bag can wrap the periphery of the cable smoothly, the open type movable ring rotates in the open type fixed ring, the plastic bag can be tightly bound by heat when the plastic bag is sleeved outside the cable drum by matching with the heat radiation of the infrared quartz heating pipe, the extension of the first telescopic rod can further change the radian of the elastic connecting plate to release the whole group of cable drum, so that the elastic connecting plate is not tensioned any more, the cable after being bundled can be conveniently dismounted into a drum and packaged, an independent packaging production line does not need to be assembled, and the adaptability is strong.

Drawings

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

FIG. 2 is a cross-sectional view taken at A-A of FIG. 1 in accordance with the present invention;

FIG. 3 is an enlarged schematic view of the structure of FIG. 1 at B in accordance with the present invention;

FIG. 4 is a schematic structural view of the transmission disc of the present invention;

FIG. 5 is a schematic structural diagram of a cable convolution diameter adjustment mount according to the present invention;

FIG. 6 is a schematic view of an adjustable heat sealing mechanism according to the present invention;

fig. 7 is an enlarged view of the structure of fig. 6 at C according to the present invention.

In the figure: 1 equipment substrate I, 101 supporting columns, 2 equipment substrate II, 201 transmission grooves, 3 cable convolution equipment, 4 transmission discs, 401 through grooves, 402 embedded disc grooves, 403 limiting convex columns, 40301 matching insertion grooves, 5 cable convolution diameter adjusting frames, 6 butt joint disc I, 601 butt joint disc II, 602 elastic connecting plates, 603 linear bearings, 7 telescopic link I, 701 clamping grooves, 8 transmission gear I, 801 transmission gear groove I, 9 assembling upright columns, 901 telescopic link II, 902 butt joint plates, 10 limiting seats, 1001 plastic coating material transmission rollers, 11 annular support frames, 1101 telescopic link III, 12 annular heat sealing equipment, 13 open type fixed rings, 1301 transmission ring channels, 1302, 14 open type movable rings, 1401 infrared heating pipes, 15 transmission gear II and 1501 transmission gear groove II.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

The invention provides a packaging and bundling device for high-temperature fluoroplastic cables after processing, which comprises a device substrate I1, a device substrate II 2 and a cable convolution device 3,

the equipment substrate I1 and the equipment substrate II 2 are of rectangular plate-shaped structures with the same direction projection areas, edges of four corners are all structured to be chamfers, support columns 101 connected with the equipment substrate II 2 are arranged at the four corners of the upper end face of the equipment substrate I1, a transmission groove 201 for rotatably mounting the cable convolution equipment 3 is formed in the center of the upper end face of the equipment substrate II 2, and the cable convolution equipment 3 comprises a transmission disc 4 mounted in the transmission groove 201 and a cable convolution diameter adjusting frame 5 mounted in an embedded butt joint manner on the transmission disc 4;

four corners of the upper end face of the second equipment substrate 2 are symmetrically provided with assembling columns 9 and limiting seats 10 along a diagonal line, one side of each assembling column 9, facing the cable convolution equipment 3, is provided with a second telescopic rod 901 connected with a butting plate 902, two groups of limiting seats 10 are symmetrically arranged at one corner of the second equipment substrate 2, and two groups of rotatable plastic coating material transmission rollers 1001 are embedded in opposite faces of the two groups of limiting seats 10;

the cable convolution diameter adjusting bracket 5 comprises a first butt-joint disc 6, a second butt-joint disc 601 which is arranged above the first butt-joint disc 6 and is consistent with the axis of the first butt-joint disc 6, and a plurality of groups of elastic connecting plates 602 which are connected with the first butt-joint disc 6 and the outer edge surfaces of the second butt-joint disc 601, wherein the plurality of groups of elastic connecting plates 602 are arranged in an annular array around the axis of the first butt-joint disc 6, a group of first telescopic rods 7 are arranged at the center of the upper end surface of the transmission disc 4, a clamping groove 701 is arranged at the end part of the first telescopic rods 7, the first telescopic rods 7 are rotationally clamped with the bottom surface of the second butt-joint disc 601 through the clamping groove 701, a linear bearing 603 which is in sliding fit with the outer edge surface of the first telescopic rods 7 is arranged at the center of the first butt-joint disc 6, the cable convolution diameter adjusting bracket 5 has the original function of realizing the change of the distance between the first butt-joint disc 6 and the second butt-joint disc 601 by combining the first telescopic rods 7, and the change of the radian of the elastic connecting plates 602, therefore, the change of the diameter of the central gap of the coiled cable is realized, after the cable coil is wrapped by the plastic packaging tape entering from the position of the limiting seat 10, the plastic packaging bag is cut off by hot stamping, and in order to ensure that the plastic packaging bag can wrap the periphery of the cable smoothly, the open type movable ring 14 rotates in the open type fixed ring 13, the plastic packaging bag is tightly bound when being sleeved outside the cable coil by matching with the heat radiation of the infrared quartz heating tube 1401, at the moment, the extension of the telescopic rod I7 can further change the radian of the elastic connecting plate 602 to release the whole group of cable coils, so that the cable coils are not tensioned by the elastic connecting plate 602 any more, and the coiled cable is conveniently dismounted and the bound cable is packaged;

the upper end surface of the transmission disc 4 is provided with a plurality of groups of through grooves 401 in an annular array, the center of the upper end surface of the transmission disc 4 is provided with a disc embedding groove 402 for embedding the butt joint disc I6, the through grooves 401 of the transmission disc 4 and the elastic connecting plate 602 connected with the butt joint disc I6 are arranged in a clearance mode, the through grooves 401 formed in the transmission disc 4 can be used for the open type fixed ring 13 to pass through, and in order to ensure that the opening position of the open type fixed ring 13 smoothly passes through a coiled cable, the radian of the elastic connecting plate 602 can be changed to further support the inner diameter of the cable disc, so that the open type fixed ring 13 can conveniently pass through;

be equipped with a set of adjustable heat sealing mechanism between above-mentioned equipment base plate 1 and the equipment base plate two 2, heat sealing mechanism with adjustable includes that a set of ring support frame 11 and ring support frame 11 are multiunit ring heat sealing equipment 12 that the annular array set up towards equipment base plate 1 one side, and multiunit above-mentioned ring heat sealing equipment 12 is just to the groove 401 that runs through that sets up above the driving plate 4, and the bottom of above-mentioned ring support frame 11 is the telescopic link three 1101 that the annular array was equipped with multiunit jointing equipment base plate 1.

The bottom center of the transmission disc 4 is provided with a shaft rod which is matched with the roller bearing to connect the second equipment substrate 2, the periphery of the transmission groove 201 is in an annular array and is embedded with a plurality of groups of roller structures which are abutted against the bottom surface of the transmission disc 4, the disc embedding groove 402 is internally provided with a plurality of groups of limiting convex columns 403 in an annular array, and the butt joint disc 6 is provided with a plurality of groups of matching slots 40301 which are matched with the limiting convex columns 403 in an annular array.

One side of the transmission groove 201 is provided with a group of depressions for mounting a first transmission gear 8, the first transmission gear 8 is matched with a driving motor through a shaft, the outer edge surface of the transmission disc 4 is provided with a first transmission tooth groove 801 meshed with the first transmission gear 8, and due to the arrangement of the cable convolution equipment 3 above the second equipment substrate 2, the transmission disc 4 and the cable convolution diameter adjusting frame 5 which form the cable convolution equipment 3 are matched with the first transmission gear 8 driven by the motor to realize the convolution of the cable.

The annular heat sealing device 12 comprises an open type fixed ring 13 and an open type moving ring 14 rotatably mounted on the inner edge surface of the open type fixed ring 13, a transmission ring path 1301 for driving the open type moving ring 14 is arranged on the inner edge surface of the open type fixed ring 13, and conductive conductor rails 1302 are respectively arranged on two sides of the transmission ring path 1301; a group of grooves for installing the infrared quartz heating pipes 1401 are formed in the middle of the inner edge surface of the open type moving ring 14, double-shaft motors are embedded in the two end parts of the open type moving ring 14, the two axial sides of each motor of each double-shaft motor extend, and the end parts of the motor shafts are provided with transmission gears II 15; two sides of the inner edge surface of the open type fixed ring 13 are provided with a second transmission tooth socket 1501 matched with the second transmission gear 15.

The working principle of the packaging and bundling equipment after the high-temperature fluoroplastic cable is processed is that only one end of the cable needs to be inserted between at least two groups of elastic connecting plates 602 of a cable convolution diameter adjusting frame 5, the length of a first telescopic rod 7 is controlled so as to change the radian of each group of elastic connecting plates 602, a first drive gear 8 is driven to rotate by a motor, the first drive gear 8 is meshed with a first drive tooth socket 801 of the outer edge surface of a drive disc 4 so as to enable the drive disc 4 to rotate around the axis, the cable is automatically coiled on the outer edge surface of the cable convolution diameter adjusting frame 5, when the cable disc is finished, a plastic film needs to be led in from between two groups of limiting seats 10, the ends of the plastic films are divided into a left group and a right group, the ends of the plastic films are sealed by cutting off of hot stamping, after the outer edge surface of a cable disc part is wrapped by the plastic film, two telescopic rods 901 are driven so that a butt joint plate 902 is tightly tied outside the plastic film and is abutted against the cable disc on the inner side, at the moment, the other end of the cable can be cut off, the cable drum can not be loosened due to tight binding of the abutting plate 902, after the other end of the cable is cut off, a hot stamping device can be used for cutting off the plastic film under the condition that two groups of films are tightly bound on the periphery of the cable drum, after the plastic film is cut off, in order to ensure that the gap between the plastic film and the cable is reduced, the telescopic rod three 1101 extends to ensure that the annular heat sealing device 12 rises, in an initial state, the openings of the open type fixed ring 13 and the open type movable ring 14 face upwards and directly penetrate through the coiled cable, then the double-shaft motors at two ends of the open type movable ring 14 are driven, the infrared quartz heating pipes 1401 are started, the open type movable ring 14 rotates around the cable, the heat radiation of the infrared quartz heating pipes 1401 influences the films coated on the periphery of the cable drum, the films shrink, the tight binding of the cable drum is ensured, after the tight binding work is finished, the openings of the open type fixed ring 13 and the open type movable ring 14 return to the aligned and upward state, the telescopic rod three 1101 is contracted, the annular heat sealing equipment 12 is accommodated between the equipment substrate I1 and the equipment substrate II 2, and the telescopic rod I7 is adjusted to extend, so that the elastic connecting plate 602 can be detached into a coiled cable without tensioning the inner edge surface of the cable coil.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (10)

1. A packaging and binding device after processing a high-temperature fluoroplastic cable comprises a device substrate I (1), a device substrate II (2) and a cable convolution device (3),

the method is characterized in that: the device substrate I (1) and the device substrate II (2) are of rectangular plate structures with the same direction projection areas, edges of the four corners are all constructed to be chamfers, support columns (101) connected with the device substrate II (2) are arranged at the four corners of the upper end face of the device substrate I (1), a transmission groove (201) for the cable convolution device (3) to be rotatably installed is formed in the center of the upper end face of the device substrate II (2), and the cable convolution device (3) comprises a transmission disc (4) installed in the transmission groove (201) and a cable convolution diameter adjusting frame (5) installed on the transmission disc (4) in an embedded butt joint mode;

the four corners of the upper end face of the second equipment substrate (2) are symmetrically provided with two assembling columns (9) and two limiting seats (10) along the diagonal line, one side, facing the cable convolution equipment (3), of each assembling column (9) is provided with a second telescopic rod (901) connected with a butt joint plate (902), the two limiting seats (10) are symmetrically provided with two groups at one corner of the second equipment substrate (2), and two groups of opposite faces of the limiting seats (10) are embedded with two groups of rotatable plastic coating material transmission rollers (1001).

2. The packaging and bundling device for the processed high-temperature fluoroplastic cables according to claim 1, wherein: cable convolution diameter adjustment frame (5) include butt joint dish one (6), install in butt joint dish two (601) that butt joint dish one (6) top and unanimous with butt joint dish one (6) axle center and connect butt joint dish one (6) and butt joint dish two (601) outer fringe face's multiunit elasticity even board (602), multiunit elasticity even board (602) are the annular array setting around the axle center of butt joint dish one (6), the up end center of driving plate (4) is equipped with a set of telescopic link one (7), the tip of telescopic link one (7) is equipped with block groove (701), and telescopic link one (7) are through the rotatory block in bottom surface of block groove (701) and butt joint dish two (601), the center of butt joint dish one (6) is equipped with linear bearing (603) of sliding fit one (7) outer fringe face.

3. The packaging and bundling device for the processed high-temperature fluoroplastic cables according to claim 1, wherein: the upper end face of the transmission disc (4) is in an annular array and is provided with a plurality of groups of through grooves (401), the center of the upper end face of the transmission disc (4) is provided with a disc embedding groove (402) for embedding the butt joint disc I (6), and the through grooves (401) of the transmission disc (4) and the elastic connecting plates (602) connected to the butt joint disc I (6) are arranged in a clearance mode.

4. The packaging and bundling device for the processed high-temperature fluoroplastic cables according to claim 1, wherein: be equipped with a set of adjustable heat sealing mechanism between equipment base plate (1) and equipment base plate two (2), adjustable heat sealing mechanism includes that a set of annular support frame (11) and annular support frame (11) are multiunit annular heat sealing equipment (12) that the annular array set up towards equipment base plate (1) one side, multiunit annular heat sealing equipment (12) are just passing through groove (401) seted up above driving plate (4).

5. The packaging and bundling device for the processed high-temperature fluoroplastic cables according to claim 3, wherein: the bottom center of transmission dish (4) is equipped with the axostylus axostyle that a set of cooperation roller bearing connects equipment base plate two (2), the periphery of transmission groove (201) is the roller structure that the annular array gomphosis has multiunit butt transmission dish (4) bottom surface, be annular array in the dish groove of inlaying (402) and be equipped with multiunit spacing projection (403), be the cooperation slot (40301) that the spacing projection (403) of multiunit adaptation were seted up to annular array on the butt joint dish (6).

6. The packaging and bundling device for the processed high-temperature fluoroplastic cables according to claim 5, wherein: one side of the transmission groove (201) is provided with a group of depressions for mounting a first transmission gear (8), the first transmission gear (8) is matched with the driving motor through a shaft, and the outer edge surface of the transmission disc (4) is provided with a first transmission tooth groove (801) meshed with the first transmission gear (8).

7. The packaging and bundling device for the processed high-temperature fluoroplastic cables according to claim 4, wherein: the bottom end of the annular support frame (11) is provided with a plurality of groups of telescopic rods III (1101) which are connected with the equipment substrate I (1) in an annular array manner.

8. The packaging and bundling device for the processed high-temperature fluoroplastic cables according to claim 4, wherein: the annular heat sealing equipment (12) comprises an open type fixed ring (13) and an open type moving ring (14) rotatably mounted on the inner edge surface of the open type fixed ring (13), a transmission ring path (1301) for driving the open type moving ring (14) is formed in the inner edge surface of the open type fixed ring (13), and conductive conductor rails (1302) are respectively arranged on two sides of the transmission ring path (1301).

9. The packaging and bundling equipment for the processed high-temperature fluoroplastic cables according to claim 8, wherein: the groove that a set of confession infrared quartz heating pipe (1401) was installed is seted up between two parties to the inner fringe face of open rotating ring (14), and the both ends of open rotating ring (14) are all embedded to have a biax motor, and the motor axial both sides of biax motor extend, and motor shaft tip is equipped with drive gear two (15).

10. The packaging and bundling equipment for the processed high-temperature fluoroplastic cables according to claim 8, wherein: two sides of the inner edge surface of the open type fixed ring (13) are provided with a second transmission tooth socket (1501) matched with the second transmission gear (15).

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