CN111420834A - Cable semi-conductive graphite coating equipment - Google Patents

Abstract

The invention discloses a cable semi-conductive graphite coating device, which structurally comprises a machine body, a fixing device, a sliding rail, a material receiving disc, a nozzle, a moving frame, a coating device, an air blowing device, a material receiving bin, a display screen and universal wheels, wherein when the cable semi-conductive graphite coating device is used after improvement, the material receiving disc is moved to the bottom of the coating device through the sliding rail, the material receiving disc is fixedly locked at a used position through mutual matching of a clamping cap and a telescopic elastic buckle, a push-pull rod is pressed, a groove is used for fixedly installing the material receiving disc on a positioning piece, the nozzle is ensured to be capable of accurately spraying a semi-conductive graphite coating on a processed cable, and the coating uniformity of the semi-conductive graphite coating and the spraying effect of; after the semi-conductive graphite coating is sprayed on the cable, the gas is output to the material receiving disc through the gas outlet by the gas pipe, so that the semi-conductive graphite coating can be uniformly ventilated, a film layer can be quickly formed on the surface of the cable by the semi-conductive graphite coating, and the physical property and the electrical property of the cable are ensured.

Description

Cable semi-conductive graphite coating equipment

Technical Field

The invention relates to the field of cable processing, in particular to semi-conductive graphite coating equipment for a cable.

Background

The cable is provided with a layer of semi-conductive graphite coating on the outer sheath, the semi-conductive graphite coating is used as a test electrode, the coating equipment is used for coating a layer of semi-conductive graphite coating on the surface of the cable and forming a film layer on the surface of a substrate, and the purpose is to spray the semi-conductive graphite coating on the surface of the cable, so that the semi-conductive graphite coating can meet the surface performance, and the semi-conductive graphite coating can improve and protect the surface of the cable. Coating equipment in the coating process, there is a need for improvement:

1. after the semi-conductive graphite coating is sprayed on the outer portion of the cable, the semi-conductive graphite coating needs to be dried, so that the semi-conductive graphite coating forms a film layer on the surface of the cable, most of the semi-conductive graphite coating is directly blown by a fan in the drying process, some places of the semi-conductive graphite coating are dry, some places of the semi-conductive graphite coating are wet, the semi-conductive graphite coating is not uniform in drying, and if the wind power of the fan is large, the semi-conductive graphite coating can overflow to other positions, and the physical performance and the electrical performance of the.

2. When carrying out the spraying semiconduction graphite coating, the cable that take-up dish will need the spraying moves inside the organism through the slide rail and carries out the spraying, and the organism can produce vibration sensation by a wide margin in coating process, leads to take-up dish can appear the skew phenomenon on the slide rail, leads to the nozzle can't be with the accurate coating of semiconduction graphite coating on the cable outside, leads to coating inhomogeneous, reduces the spraying effect of nozzle.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a cable semi-conductive graphite coating device, which aims to solve the problems that after a semi-conductive graphite coating is sprayed on the outer part of a cable, the semi-conductive graphite coating needs to be dried, so that a film layer is formed on the surface of the cable by the semi-conductive graphite coating, most of the semi-conductive graphite coating is directly blown by a fan in the drying process, so that some parts of the semi-conductive graphite coating are dry, some parts are wet and are not uniform in drying, and if the wind power of the fan is larger, the semi-conductive graphite coating overflows to other positions, so that the physical performance and the electrical performance of the cable; when carrying out the spraying semiconduction graphite coating, the cable that take-up dish will need the spraying moves the inside spraying that carries on of organism through the slide rail, and the organism can produce vibration by a wide margin in coating process, leads to take-up dish can appear the skew phenomenon on the slide rail, leads to the nozzle can't be with the accurate coating of semiconduction graphite coating on the cable outside, leads to coating inhomogeneous, reduces the problem of the spraying effect of nozzle.

In order to achieve the purpose, the invention is realized by the following technical scheme: a cable semi-conductive graphite coating device comprises a machine body, a fixing device, a slide rail, a receiving disc, a nozzle, a moving frame, a coating device, an air blowing device, a receiving bin, a display screen and a universal wheel, universal wheels are arranged on four edges of the bottom of the machine body, the bottom of the slide rail is embedded in the middle of the machine body, the slide rail is connected with a fixing device, the material receiving disc slides back and forth on the slide rail, the tail end of the slide rail is connected inside the material receiving bin, the material receiving bin is arranged at the bottom of the movable frame, the nozzle is connected to the movable frame and slides left and right at the bottom of the movable frame, the top of the movable frame is attached to the coating device, the coating device and the blowing device are connected to the same module, the blowing device is connected with the nozzle into a whole through the coating device, a display screen is arranged on the right side edge of the coating device, and the display screen is communicated with the inside of the machine body.

As a further improvement of the invention, the fixing device comprises a clamping block, a clamping member, a positioning member, limiting rods and a base, wherein the clamping block is arranged in the positioning member, the positioning member is arranged between the two limiting rods, the limiting rods and the clamping member are arranged on the same module, the clamping member is vertically embedded in the middle of the base, and the limiting rods are attached to the base.

As a further improvement of the invention, the clamping piece consists of a slide-in rod, a fastening component, a pulling plate, a buckling block and a groove, the slide-in rod is arranged at the front end of the fastening component, the fastening component and the pulling plate are connected into a whole, the pulling plate is arranged at the front end of the buckling block, the buckling block is connected with the groove, and the buckling block is attached to the groove.

As a further improvement of the invention, the fastening component comprises a clamping cap, a movable elastic plate, a telescopic elastic buckle and a fixed part, the clamping cap is attached to the telescopic elastic buckle, the telescopic elastic buckle and the fixed part are connected into a whole through a rotating shaft, the bottom of the fixed part is connected with the movable elastic plate, and the front end of the fixed part is provided with the clamping cap.

As a further improvement of the invention, the pulling plate consists of a movable pipe, a push-pull rod, a rotating block and a roller, the roller is arranged in the middle of the right side of the movable pipe, the roller is matched with the push-pull rod, the push-pull rod is connected with the movable pipe into a whole through the roller, and the rotating block is arranged at the left end and the right end of the lower half section of the movable pipe.

The air blowing device is further improved by the invention, the air blowing device comprises an air blowing opening, an air pipe, a movable head, an airtight joint and a mounting plate, the air blowing opening is embedded into the air pipe in a penetrating manner, the outer part of the air pipe is connected with the mounting plate, the mounting plate is embedded and embedded with the movable head, and the airtight joint is arranged at the left end and the right end of the movable head.

As a further improvement of the invention, the air blowing port consists of an air delivery pipe, air jet heads, air guide pipes, a connecting plate and an air inlet, wherein the air jet heads penetrate through and are embedded in the air delivery pipe, the air delivery pipes are transversely arranged at the bottom of the air guide pipes at equal intervals, the number of the air guide pipes is four, the four air guide pipes are longitudinally arranged at equal intervals on the connecting plate, the air guide pipes penetrate through and are connected with the connecting plate, and the air inlet is arranged at the top of each air guide pipe.

As a further improvement of the invention, the air injection head consists of an air outlet, a fan guide blade, a connecting pipe and a wind guide disc, wherein the air outlet is arranged at the middle position of the wind guide disc, the wind guide disc is provided with the fan guide blade, the fan guide blade is vertically embedded on the wind guide disc, and the wind guide disc is connected with the connecting pipe.

As a further improvement of the invention, the air inlet consists of a spray pipe, a connecting ring, a connector and an air inlet nozzle, the spray pipe and the air inlet nozzle are connected into a whole, the spray pipe is connected to the inside of the connecting ring in a penetrating manner, the connector is arranged on the outside of the connecting ring, and the connector is buckled with the spray pipe through the connecting ring.

Advantageous effects of the invention

The invention relates to a cable semi-conductive graphite coating device, which has the following beneficial effects:

will remove the coating ware bottom at the take-up pan through the slide rail, mutually cooperate through card cap and flexible bullet knot and lock the fixed position of using of take-up pan, press the push-and-pull rod, let fastening components and lock piece looks lock on the recess, make it with take-up pan fixed mounting on the setting element, guarantee that the nozzle can be accurate with the spraying of semi-conductive graphite coating on processing the cable, improve the coating degree of consistency of semi-conductive graphite coating and the spraying effect of nozzle.

After the semi-conductive graphite coating spraying was at the cable, airtight joint was inside gas was carried the gas transmission pipe through the even equivalent of suction nozzle with gas through the activity head, and the gas transmission pipe is exported gas through the gas outlet to the take-up pan on, guarantees that semi-conductive graphite coating can be even receives wind, lets semi-conductive graphite coating can form a rete on the cable surface fast, protects the inside part of cable, guarantees the physical properties and the electrical property of cable, improves the result of use of cable.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of a semiconductive graphite coating apparatus for a cable according to the present invention;

fig. 2 is a schematic structural view of the fixing device of the present invention.

Fig. 3 is a schematic view of the structure of the clip of the present invention.

Figure 4 is a schematic view of the internal structure of the fastening component of the present invention.

Fig. 5 is a schematic cross-sectional structure of the pulling plate of the present invention.

FIG. 6 is a schematic view of the blowing device according to the present invention.

Fig. 7 is a schematic plan view of the blowing port of the present invention.

FIG. 8 is a schematic view of a showerhead according to the present invention.

Fig. 9 is a schematic view of the internal structure of the air inlet according to the present invention.

In the figure: a machine body-1, a fixing device-2, a slide rail-3, a material receiving tray-4, a nozzle-5, a moving frame-6, a coating device-7, a blowing device-8, a material receiving bin-9, a display screen-10, a universal wheel-11, a clamping block-21, a clamping piece-22, a positioning piece-23, a limiting rod-24, a base-25, a sliding rod-221, a fastening component-222, a pulling plate-223, a fastening block-224, a groove-225, a clamping cap-2221, a movable elastic plate-2222, a telescopic elastic buckle-2223, a fixing piece-2224, a movable pipe-2231, a push-pull rod-2232, a rotating block-2233, a roller-2234, a blowing port-81, an air pipe-82, a movable head-83, an airtight joint-84, an air-blowing port-81, an air, The air-conditioning system comprises a mounting plate-85, an air pipe-811, a gas nozzle-812, an air guide pipe-813, a connecting plate-814, an air inlet-815, an air outlet-8121, an air guide fan blade-8122, a connecting pipe-8123, an air guide disc-8124, a nozzle-8151, a connecting ring-8152, an interface-8153 and an air inlet nozzle-8154.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example one

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a cable semiconduction graphite coating equipment, its structure includes organism 1, fixing device 2, slide rail 3, take-up (stock) pan 4, nozzle 5, removes frame 6, coating device 7, gas blowing device 8, connects material storehouse 9, display screen 10, universal wheel 11, all be equipped with universal wheel 11 on four edges in organism 1 bottom, the gomphosis of slide rail 3 bottom is on organism 1 intermediate position, fixing device 2 is being connected to slide rail 3, take-up (stock) pan 4 slides around on slide rail 3, slide rail 3 end-to-end connection is inside connecing material storehouse 9, it establishes in removing frame 6 bottom to connect material storehouse 9, nozzle 5 is connected on removing frame 6, nozzle 5 carries out the horizontal slip in removing frame 6 bottom, remove frame 6 top and coating device 7 and laminate mutually, coating device 7 and gas blowing device 8 connect on same module, gas blowing device 8 links as an organic wholely with nozzle 5 through coating device 7, the utility model discloses a coating device, including coating device 7, display screen 10, slide rail 3, receiving tray 4, 6 adjusting nozzle 5's positions are put up to the removal, and the cable on the receiving tray 4 carries out the spraying semiconduction graphite coating, improves the machining efficiency of cable, and the display screen 10 is equipped with on 7 right sides of coating device, the display screen 10 is put through with organism 1 inside mutually, removes 7 bottoms of coating device with receiving tray 4 through slide rail 3, through the position of removing 6.

Referring to fig. 2, the fixing device 2 is composed of a clamping block 21, a clamping member 22, a positioning member 23, limiting rods 24 and a base 25, the clamping block 21 is installed inside the positioning member 23, the positioning member 23 is arranged between the two limiting rods 24, the limiting rods 24 and the clamping member 22 are arranged on the same module, the clamping member 22 is vertically embedded in the middle of the base 25, the limiting rods 24 are attached to the base 25 to limit the take-up 4 between the two limiting rods 24, the take-up 4 is movably connected to the positioning member 23 through the clamping member 22, and the nozzle 5 can accurately coat the semiconductive graphite coating on the cable.

Referring to fig. 3, the clamping member 22 is composed of a slide-in rod 221, a fastening component 222, a pull plate 223, a fastening block 224 and a groove 225, the slide-in rod 221 is disposed at the front end of the fastening component 222, the fastening component 222 and the pull plate 223 are connected into a whole, the pull plate 223 is mounted at the front end of the fastening block 224, the fastening block 224 is connected with the groove 225, the fastening block 224 is attached to the groove 225, the take-up tray 4 moves to the clamping member 22 through the slide-in rod 221, and is pulled upwards by the positioning member 23 and the limiting rod 24, so that the take-up tray 4 is adjusted to a use position, and the take-up tray is prevented from being deviated.

Referring to fig. 4, the fastening assembly 222 includes a fastening cap 2221, a movable elastic plate 2222, a telescopic elastic buckle 2223, and a fixing member 2224, the fastening cap 2221 is attached to the telescopic elastic buckle 2223, the telescopic elastic buckle 2223 is connected to the fixing member 2224 through a rotating shaft, the movable elastic plate 2222 is connected to the bottom of the fixing member 2224, the fastening cap 2221 is disposed at the front end of the fixing member 2224, and four sides of the receiving tray 4 are fixed to the fixing member 2224 through the matching of the fastening cap 2221 and the telescopic elastic buckle 2223, so as to improve the stability of the receiving tray 4 during operation.

Referring to fig. 5, the pull plate 223 is composed of a movable tube 2231, a push-pull rod 2232, a rotating block 2233 and a roller 2234, the roller 2234 is disposed at the middle position of the right side of the movable tube 2231, the roller 2234 is engaged with the push-pull rod 2232, the push-pull rod 2232 is connected with the movable tube 2231 through the roller 2234, the rotating blocks 2233 are disposed at the left and right ends of the lower half section of the movable tube 2231, and the movable tube 2231 drives the push-pull rod 2232 to move downward through the roller 2234, so that the movable tube 2231 can be vertically fastened on the groove 225, the material receiving tray 4 can be fixed at the spraying position, and the spraying effect of the nozzle can be improved.

Referring to fig. 6, the blowing device 8 is composed of a blowing port 81, an air pipe 82, a movable head 83, an airtight joint 84 and a mounting plate 85, the blowing port 81 penetrates and is embedded into the air pipe 82, the outside of the air pipe 82 is connected with the mounting plate 85, the mounting plate 85 is embedded and embedded with the movable head 83, the airtight joint 84 is arranged at the left end and the right end of the movable head 83, air is conveyed into the air pipe 82 through the airtight joint 84, the air pipe 82 is uniformly output from each blowing port 81, so that each position coated with the semi-conductive graphite coating can be dried, and the semi-conductive graphite coating forms a film on the surface of the cable.

Example two

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a cable semiconduction graphite coating equipment, its structure includes organism 1, fixing device 2, slide rail 3, take-up (stock) pan 4, nozzle 5, removes frame 6, coating device 7, gas blowing device 8, connects material storehouse 9, display screen 10, universal wheel 11, all be equipped with universal wheel 11 on four edges in organism 1 bottom, the gomphosis of slide rail 3 bottom is on organism 1 intermediate position, fixing device 2 is being connected to slide rail 3, take-up (stock) pan 4 slides around on slide rail 3, slide rail 3 end-to-end connection is inside connecing material storehouse 9, it establishes in removing frame 6 bottom to connect material storehouse 9, nozzle 5 is connected on removing frame 6, nozzle 5 carries out the horizontal slip in removing frame 6 bottom, remove frame 6 top and coating device 7 and laminate mutually, coating device 7 and gas blowing device 8 connect on same module, gas blowing device 8 links as an organic wholely with nozzle 5 through coating device 7, the utility model discloses a coating device, including coating device 7, display screen 10, slide rail 3, receiving tray 4, 6 adjusting nozzle 5's positions are put up to the removal, and the cable on the receiving tray 4 carries out the spraying semiconduction graphite coating, improves the machining efficiency of cable, and the display screen 10 is equipped with on 7 right sides of coating device, the display screen 10 is put through with organism 1 inside mutually, removes 7 bottoms of coating device with receiving tray 4 through slide rail 3, through the position of removing 6.

Referring to fig. 2, the fixing device 2 is composed of a clamping block 21, a clamping member 22, a positioning member 23, limiting rods 24 and a base 25, the clamping block 21 is installed inside the positioning member 23, the positioning member 23 is arranged between the two limiting rods 24, the limiting rods 24 and the clamping member 22 are arranged on the same module, the clamping member 22 is vertically embedded in the middle of the base 25, the limiting rods 24 are attached to the base 25 to limit the take-up 4 between the two limiting rods 24, the take-up 4 is movably connected to the positioning member 23 through the clamping member 22, and the nozzle 5 can accurately coat the semiconductive graphite coating on the cable.

Referring to fig. 6, the blowing device 8 is composed of a blowing port 81, an air pipe 82, a movable head 83, an airtight joint 84 and a mounting plate 85, the blowing port 81 penetrates and is embedded into the air pipe 82, the outside of the air pipe 82 is connected with the mounting plate 85, the mounting plate 85 is embedded and embedded with the movable head 83, the airtight joint 84 is arranged at the left end and the right end of the movable head 83, air is conveyed into the air pipe 82 through the airtight joint 84, the air pipe 82 is uniformly output from each blowing port 81, so that each position coated with the semi-conductive graphite coating can be dried, and the semi-conductive graphite coating forms a film on the surface of the cable.

Referring to fig. 7, the air blowing port 81 is composed of an air pipe 811, an air blowing head 812, air guide pipes 813, a connecting plate 814 and an air inlet 815, the air blowing head 812 is inserted into the air pipe 811 in a penetrating manner, the air pipe 811 is transversely arranged at the bottom of the air guide pipe 813 at equal intervals, four air guide pipes 813 are arranged at equal intervals, the four air guide pipes 813 are longitudinally arranged on the connecting plate 814 at equal intervals, the air guide pipe 813 is connected with the connecting plate 814 in a penetrating manner, the air inlet 815 is arranged at the top of the air guide pipe 813, air is conveyed to the air guide pipes 813 through the air pipe 811, layer by layer through the air guide pipes 813, the air blowing speed is reduced, the semi-conductive graphite coating is prevented from being blown out of the original.

Referring to fig. 8, the gas nozzle 812 includes a gas outlet 8121, a wind guide vane 8122, a connecting pipe 8123, and a wind guide plate 8124, the gas outlet 8121 is disposed at a middle position of the wind guide plate 8124, the wind guide vane 8122 is disposed on the wind guide plate 8124, the wind guide vane 8122 is vertically embedded on the wind guide plate 8124, the wind guide plate 8124 is connected to the connecting pipe 8123, and the gas is output from the gas outlet 8121 and is dispersed by the layer-by-layer wind guide vane 8122, so that the gas is uniformly blown to each position.

Referring to fig. 9, the air inlet 815 is composed of a nozzle 8151, a connecting ring 8152, a connector 8153 and an air inlet 8154, the nozzle 8151 and the air inlet 8154 are connected into a whole, the nozzle 8151 is connected to the inside of the connecting ring 8152 in a penetrating manner, the connector 8153 is arranged outside the connecting ring 8152, the connector 8153 and the nozzle 8151 are buckled through the connecting ring 8152, the connector 8153 is communicated with the inside of the movable head 83, and air is rapidly conveyed to the air guide pipe 813 through the air inlet 8154, so that the air drying effect of the semi-conductive graphite coating is improved.

The working principle of the above technical solution is explained as follows:

when the semi-conductive graphite coating machine is used, a cable to be processed is placed on the receiving disc 4 and moved to the bottom of the coating device 7 through the sliding rail 3, the position of the nozzle 5 is controlled through the display screen 10, the semi-conductive graphite coating is sprayed on the cable on the receiving disc 4 through the nozzle 5, and then the semi-conductive graphite coating is dried and fixed on the cable through the blowing device 8.

The cable is arranged on the receiving tray 4, the receiving tray 4 is moved to the bottom of the coating device 7 through the slide rail 3, the receiving tray 4 is fixed at the using position through the limiting rod 24, the displacement phenomenon of the receiving tray 4 is prevented when the receiving tray is moved, then the receiving tray 4 is movably fixed on the fastening component 222 through the slide-in rod 221, four edges of the receiving tray 4 are fixed on four fixing pieces 2224 through the movement of the telescopic elastic buckles 2223, the receiving tray 4 is fixedly locked at the using position through the mutual matching of the clamping caps 2221 and the telescopic elastic buckles 2223, the push-pull rod 2232 is pressed, the roller 2234 drives the movable pipe 2231 to move forwards, the fastening component 222 is buckled and connected on the groove 225 with the buckling block 224, so that the receiving tray 4 can be fixedly arranged on the positioning piece 23 through the groove 225, the phenomenon of offset caused by large vibration generated by the machine body is effectively prevented when the spraying is carried out, and the semi-conductive coating can be accurately sprayed on the processed cable by, the coating uniformity of the semiconductive graphite coating and the spraying effect of the nozzle are improved.

After the semi-conductive graphite coating is sprayed on the cable, gas is conveyed into the movable head 83 through the airtight connector 84, the gas in the movable head 83 is conveyed into each spray pipe 8151 through each connector 8153, the spray pipes 8151 convey the gas into the cavity through the air inlet nozzles 8154 uniformly and equivalently, the gas in the cavity conveys the gas into the gas conveying pipe 811 at a constant speed through the four air guide pipes 813, the gas conveying pipe 811 outputs the gas onto the receiving plate 4 through the air outlet 8121, the semi-conductive graphite coating is guaranteed to be uniformly influenced by wind, the semi-conductive graphite coating coated on the cable can be quickly dried, the semi-conductive graphite coating can quickly form a film on the surface of the cable to protect components in the cable and is turned to the air guide plate 8124, so that the gas can be uniformly distributed on the air guide vane 8122, the semi-conductive graphite coating is prevented from overflowing to other positions due to too large wind power, the physical performance and the electrical performance of the cable are guaranteed, and the using effect of the cable is improved.

The problem to be solved by the invention is that after the semi-conductive graphite coating is sprayed on the outer part of the cable, the semi-conductive graphite coating needs to be dried, so that the semi-conductive graphite coating forms a film layer on the surface of the cable, most of the semi-conductive graphite coating is directly blown by a fan in the drying process, so that some parts of the semi-conductive graphite coating are dry, some parts of the semi-conductive graphite coating are wet and the semi-conductive graphite coating is not uniformly dried, and if the wind power of the fan is large, the semi-conductive graphite coating overflows to other positions, so that the physical performance and; when the semi-conductive graphite coating is sprayed, the receiving disc moves the cable to be sprayed into the machine body through the slide rail for spraying, in the coating process, the machine body can generate great vibration, so that the receiving disc can deviate on the slide rail, the nozzle cannot accurately coat the semi-conductive graphite coating on the outer part of the cable, the coating is uneven, and the spraying effect of the nozzle is reduced. The material receiving disc is moved to the bottom of the coating device through the sliding rail, the material receiving disc is fixedly locked at a used position through mutual matching of the clamping cap and the telescopic elastic buckle, the push-pull rod is pressed, the fastening component and the fastening block are buckled on the groove, the material receiving disc is fixedly arranged on the positioning piece, the semi-conductive graphite coating can be accurately sprayed on a processing cable through the nozzle, and the coating uniformity of the semi-conductive graphite coating and the spraying effect of the nozzle are improved; after the semi-conductive graphite coating spraying was at the cable, airtight joint was inside gas was carried the gas transmission pipe through the even equivalent of suction nozzle with gas through the activity head, and the gas transmission pipe is exported gas through the gas outlet to the take-up pan on, guarantees that semi-conductive graphite coating can be even receives wind, lets semi-conductive graphite coating can form a rete on the cable surface fast, protects the inside part of cable, guarantees the physical properties and the electrical property of cable, improves the result of use of cable.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides a semi-conductive graphite coating equipment of cable, its structure includes organism (1), fixing device (2), slide rail (3), take-up (4), nozzle (5), removes frame (6), coating ware (7), gas blowing device (8), connects material storehouse (9), display screen (10), universal wheel (11), its characterized in that:

the machine body (1) is provided with universal wheels (11), the slide rail (3) is connected with the fixing device (2), the material receiving disc (4) is buckled on the slide rail (3), the material receiving bin (9) is arranged on the machine body (1), the nozzle (5) is connected onto the moving frame (6), the air blowing device (8) is connected with the nozzle (5) into a whole through the coating device (7), and the display screen (10) is communicated with the inner part of the machine body (1);

fixing device (2) comprise clamp splice (21), chucking spare (22), setting element (23), gag lever post (24), base (25), install in setting element (23) clamp splice (21), gag lever post (24) and chucking spare (22) are established on same module, gag lever post (24) laminating is on base (25).

2. The apparatus of claim 1, wherein: the clamping piece (22) is composed of a sliding rod (221), a fastening component (222), a pull plate (223), a fastening block (224) and a groove (225), the sliding rod (221) is arranged on the fastening component (222), the pull plate (223) is installed at the front end of the fastening block (224), and the fastening block (224) is attached to the groove (225).

3. The apparatus of claim 2, wherein: the fastening component (222) comprises a clamping cap (2221), a movable elastic plate (2222), a telescopic elastic buckle (2223) and a fixing piece (2224), the clamping cap (2221) is attached to the telescopic elastic buckle (2223), and the fixing piece (2224) is connected with the movable elastic plate (2222).

4. The apparatus of claim 2, wherein: the pull plate (223) consists of a movable pipe (2231), a push-pull rod (2232), a rotating block (2233) and a roller (2234), the push-pull rod (2232) is connected with the movable pipe (2231) into a whole through the roller (2234), and the movable pipe (2231) is connected with the rotating block (2233).

5. The apparatus of claim 1, wherein: the air blowing device (8) is composed of an air blowing opening (81), an air pipe (82), a movable head (83), an airtight joint (84) and a mounting plate (85), the air blowing opening (81) is arranged on the air pipe (82), the mounting plate (85) is connected with the movable head (83), and the movable head (83) is provided with the airtight joint (84).

6. The apparatus of claim 5, wherein: the air blowing port (81) consists of an air conveying pipe (811), an air spraying head (812), an air guide pipe (813), a connecting plate (814) and an air inlet (815), the air spraying head (812) is connected with the air conveying pipe (811), the air guide pipe (813) is connected with the connecting plate (814), and the air guide pipe (813) is provided with the air inlet (815).

7. The apparatus of claim 6, wherein: the air nozzle (812) is composed of an air outlet (8121), an air guide fan blade (8122), a connecting pipe (8123) and an air guide disc (8124), the air outlet (8121) is formed in the air guide disc (8124), the air guide fan blade (8122) is connected to the air guide disc (8124), and the air guide disc (8124) is connected with the connecting pipe (8123).

8. The apparatus of claim 6, wherein: the air inlet (815) is composed of a spray pipe (8151), a connecting ring (8152), a connector (8153) and an air inlet nozzle (8154), the spray pipe (8151) and the air inlet nozzle (8154) are connected into a whole, and the connector (8153) is buckled with the spray pipe (8151) through the connecting ring (8152).

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