CN115662703A - Cable cooling system - Google Patents

Abstract

The invention discloses a cable cooling system which structurally comprises a circulating water tank, a supporting table, a thermometer, a water pressure gauge and a cooling mechanism, wherein the circulating water tank is fixedly arranged at the bottom of the supporting table, the cooling mechanism is arranged on the upper end surface of the supporting table, wind energy generated by rotation of a fan is transmitted into a branch guide ring through a wind guide pipe and is finally sprayed out from eight nozzles on the inner side of the branch guide ring, an electromagnetic sheet carries out repeated magnetic attraction on a sliding shaft, a wiping plate carries out repeated annular sliding in a sliding groove, the wiping plate is ensured to effectively wipe dust adsorbed on the outer side surface of a cable insulation protective layer, the water temperature of cooling water is transmitted to a cold guide sheet, the surface of the cable insulation protective layer is cooled, and the water temperature in the water diversion groove from left to right gradually drops through three gradient water diversion grooves arranged in a box body, so that the cable insulation protective layer is gradually cooled, and the condition that the cable insulation protective layer is cracked due to sudden temperature drop is avoided.

Description

Cable cooling system

Technical Field

The invention relates to the field of cables, in particular to a cable cooling system.

Background

The cable is used for transmitting the electric energy, the cable has the coating, total protective layer and outer jacket, the outer jacket of cable adopts insulating material more, carry out fusing back with insulating material and adhere to the copper core outside of cable thereby form the protective layer during production cable, need use cable cooling system to cool off it after forming the protective layer, thereby accelerate insulating protective layer's shaping, but because cooling system puts into the cable when cooling off the cable inside through cold water and cools off, and the cable insulation protective layer of just producing adsorbs some dust impurity easily, do not clear away the dust impurity on the cable insulation protective layer and just cool off, direct adhesion of dust impurity is inside the cable insulation protective layer after the cooling shaping, reduce the insulating effect of cable insulation protective layer, the inside cold water temperature of cooling tank is unanimous simultaneously, the refrigerated temperature drop in the twinkling of an eye of cable insulation protective layer, the effect of carrying out temperature transition is not good, lead to cable insulation protective layer to take place the fracture easily, reduce the quality after the cable insulation protective layer cools off.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: this cable cooling system, its structure includes circulation tank, brace table, thermometer, water pressure gauge, cooling body, circulation tank fixed mounting is in brace table bottom to the cooling body is installed to the brace table up end, the thermometer has been inlayed to the preceding terminal surface of cooling body to the water pressure gauge is established at the preceding terminal surface of cooling body, cooling body is including clearance case, advancing mechanism, clearance mechanism, circulating pipe, cooler bin, the cooler bin is installed to clearance case right-hand member to the advancing mechanism has been inlayed to clearance case left end, clearance case and cooler bin all install at the brace table up end, clearance mechanism is installed to the inside middle-end of clearance case, the circulating pipe upper end inlays in the cooler bin upper end and link up mutually, state the circulating pipe lower extreme and inlay in the circulation tank rear end and link up mutually, advancing mechanism is located the clearance mechanism left side.

As a further improvement of the invention, the propelling mechanism comprises an outer ring, balls, a micro motor, linkage rods and springs, wherein the outer ring is embedded in the left end of the cleaning box, the balls are positioned on the inner side of the outer ring, the inner side end of the linkage rod is hinged with the balls, the output end of the micro motor rotates synchronously with the balls, the outer side end of the linkage rod is welded with the springs, the springs are arranged in the inner side of the outer ring, the outer side end of the linkage rod is arranged in the inner side of the outer ring in a clearance fit mode, the outer ring is positioned on the left side of the cleaning mechanism, the number of the balls and the number of the micro motor are four, the balls and the micro motor are arranged in four directions on the inner side of the outer ring, and the left side and the right side of each ball are connected through one linkage rod.

As a further improvement of the invention, the cleaning mechanism comprises a fan, an air guide pipe, a branch guide ring, nozzles and a wiping mechanism, wherein the fan is fixedly arranged at the upper end in the cleaning box, the lower end of the fan is connected with the air guide pipe, the lower end of the air guide pipe is communicated with the middle part of the upper end of the branch guide ring, the nozzles are embedded at the inner side end of the branch guide ring and communicated with the branch guide ring, the wiping mechanism is slidably arranged at the rear side of the branch guide ring, the branch guide ring is of a circular ring structure, and eight nozzles are embedded at the inner side of the branch guide ring at equal intervals.

As a further improvement of the present invention, the wiping mechanism includes an electromagnetic sheet, a sliding groove, a sliding shaft, a telescopic rod, and a wiping plate, the sliding groove is embedded inside the rear side of the partial guide ring, the electromagnetic sheets are disposed at the head and tail ends of the sliding groove, the sliding shaft is slidably mounted inside the sliding groove, the sliding shaft is connected to the outer end shaft of the telescopic rod, the wiping plate is disposed at the inner end of the telescopic rod, and the sliding shaft is made of a metal material and can be magnetically attracted by the electromagnetic sheet.

As a further improvement of the invention, the cooling box comprises a box body, a water diversion groove, a flow port, a transmission hole and a transmission mechanism, wherein the left end of the box body is arranged at the right end of the cleaning box, the water diversion groove is embedded in the box body, the transmission hole penetrates through the box body, the flow port is embedded in the box body, the flow port is connected between the box body and the transmission mechanism, the transmission mechanism is positioned on the inner side of the transmission hole, three gradient water diversion grooves are arranged in the box body, and the water temperature in the water diversion grooves from left to right gradually decreases.

As a further improvement of the invention, the conduction mechanism comprises a flexible hose, cold guide sheets and auxiliary sliding balls, the flow port is connected between the box body and the outer end of the flexible hose, the inner end of the flexible hose is provided with the cold guide sheets, the auxiliary sliding balls are arranged inside the inner end of the cold guide sheets in a clearance fit manner, the cold guide sheets are positioned inside the transmission holes, the flexible hose is provided with twelve flexible hoses, the four flexible hoses are in a group, the cold guide sheets are simultaneously provided with four flexible hoses, and the four flexible hoses in each group are respectively connected between the inner side of the water diversion groove and the four cold guide sheets.

The invention has the beneficial effects that:

1. the cable is sent into clearance incasement portion back, it leads to dividing the guide ring inside to conduct wind energy through the guide duct to produce wind energy through the fan rotation, spout from dividing eight nozzle insides of guide ring at last, the electromagnetism piece of establishing through sliding tray head and the tail both ends is carried out the magnetism that relapses to the sliding shaft, thereby make the cleaning plate slide in the inside ring type that relapses that carries on of sliding tray, ensure that the cleaning plate is with the effectual erasure of the absorptive dust of cable insulation protective layer outside surface, prevent that the inside dust impurity that thoughtlessly has of cable insulation protective layer after the cooling shaping.

2. The cold piece of leading in the outside can be better with cable insulation protective layer surface conflict laminating, the inside cooling water of distributive chute flows inside the expansion hose through the mouth that flows, conduct the temperature of cooling water to leading on the cold piece, carry out cooling to cable insulation protective layer surface, the distributive chute through the inside three gradient that sets up of box, the temperature of the inside distributive chute from left to right descends gradually, make cable insulation protective layer carry out gradual cooling, thereby avoid the condition that cable insulation protective layer temperature shock takes place the fracture.

Drawings

Fig. 1 is a schematic structural diagram of a cable cooling system according to the present invention.

Fig. 2 is a schematic top view of a cooling mechanism according to the present invention.

Fig. 3 is a schematic side view of a propulsion mechanism according to the present invention.

FIG. 4 is a schematic side view of a cleaning mechanism according to the present invention.

FIG. 5 is a schematic side view of a wiping mechanism according to the present invention.

FIG. 6 is a schematic top view of the interior structure of a cooling box according to the present invention.

Fig. 7 is a schematic side view of a conducting mechanism according to the present invention.

In the figure: the device comprises a circulating water tank-S, a supporting table-Z, a thermometer-W, a water pressure gauge-Y, a cooling mechanism-6, a cleaning tank-63, a propelling mechanism-6 j, a cleaning mechanism-6 c, a circulating water pipe-68, a cooling tank-61, an outer ring-j 5, a ball-j 9, a micro motor-j 7, a linkage rod-j 4, a spring-j 1, a fan-c 9, an air guide pipe-c 4, a guide ring-c 8, a nozzle-c 2, a wiping mechanism-c 5, an electromagnetic sheet-c 52, a sliding groove-c 58, a sliding shaft-c 54, a telescopic rod-c 55, a wiping plate-c 51, a box body-61 x, a water diversion groove-61S, a flow port-61 g, a transmission hole-61 k, a transmission mechanism-61 v, a telescopic hose-v 2, a cold guide sheet-v 8 and an auxiliary sliding ball-v 5.

Detailed Description

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

example 1:

as shown in figures 1 to 5:

the invention relates to a cable cooling system which structurally comprises a circulating water tank S, a supporting table Z, a temperature gauge W, a water pressure gauge Y and a cooling mechanism 6, wherein the circulating water tank S is fixedly installed at the bottom of the supporting table Z, the cooling mechanism 6 is installed on the upper end face of the supporting table Z, the temperature gauge W is embedded in the front end face of the cooling mechanism 6, the water pressure gauge Y is arranged on the front end face of the cooling mechanism 6, the cooling mechanism 6 comprises a cleaning box 63, a propelling mechanism 6j, a cleaning mechanism 6c, a circulating water pipe 68 and a cooling box 61, the cooling box 61 is installed at the right end of the cleaning box 63, the propelling mechanism 6j is embedded in the left end of the cleaning box 63, the cleaning box 63 and the cooling box 61 are both installed on the upper end face of the supporting table Z, the cleaning mechanism 6c is installed at the middle end inside the cleaning box 63, the upper end of the circulating water pipe 68 is embedded in the upper end of the cooling box 61 and communicated with each other, the lower end of the circulating water pipe 68 is embedded in the rear end of the circulating water tank S and communicated with each other, and the propelling mechanism 6j is located on the left side of the cleaning mechanism 6 c.

The propelling mechanism 6j comprises an outer ring j5, balls j9, a micro motor j7, a linkage rod j4 and a spring j1, wherein the outer ring j5 is embedded inside the left end of the cleaning box 63, the balls j9 are located inside the outer ring j5, the inner side end of the linkage rod j4 is hinged to the balls j9, the output end of the micro motor j7 rotates synchronously with the balls j9, the outer side end of the linkage rod j4 is welded to the spring j1, the spring j1 is arranged inside the inner side of the outer ring j5, the outer side end of the linkage rod j4 is installed inside the inner side of the outer ring j5 in a clearance fit mode, the outer ring j5 is located on the left side of the cleaning mechanism 6c, the balls j9 and the micro motor j7 are provided with four positions and arranged on the inner side of the outer ring j5, the left side and the right side of each ball j9 are connected through one linkage rod j4, cables with different diameters extend into the outer ring j5 to extrude the balls j9, elastic force is exerted on the linkage rod j4 through the springs, the outer ring j5, the cables and the cables extrude different diameters, so that the cables move tightly, and the cables extrude the cables.

The cleaning mechanism 6c comprises a fan c9, an air guide pipe c4, a guide dividing ring c8, a nozzle c2 and a wiping mechanism c5, the fan c9 is fixedly installed at the upper end inside the cleaning box 63, the lower end of the fan c9 is connected with the air guide pipe c4, the lower end of the air guide pipe c4 is communicated with the middle of the upper end of the guide dividing ring c8, the nozzle c2 is embedded in the inner side end of the guide dividing ring c8 and communicated with the guide dividing ring c8, the wiping mechanism c5 is slidably installed on the rear side of the guide dividing ring c8, the guide dividing ring c8 is of a circular structure, eight nozzles c2 are embedded in the inner side of the guide dividing ring c8 at equal intervals, wind power generated by the fan c9 is conveyed into the guide dividing ring c8 for division, and is finally sprayed out from the insides of the eight nozzles c2, and dust adsorbed on the outer side surface of the cable insulation protection layer can be blown off and a certain cooling effect is achieved.

The wiping mechanism c5 comprises an electromagnet sheet c52, a sliding groove c58, a sliding shaft c54, an expansion link c55 and a wiping plate c51, the sliding groove c58 is embedded in the rear side of the sub-guide ring c8, the electromagnet sheets c52 are arranged at the head end and the tail end of the sliding groove c58, the sliding shaft c54 is slidably mounted in the sliding groove c58, the sliding shaft c54 is connected with the outer end shaft of the expansion link c55, the wiping plate c51 is arranged at the inner end of the expansion link c55, the sliding shaft c54 is made of metal and can be magnetically adsorbed by the electromagnet sheet c52, and the electromagnet sheets c52 arranged at the head end and the tail end of the arc-shaped sliding groove c58 are used for repeatedly magnetically adsorbing the sliding shaft c54, so that the wiping plate c51 repeatedly and circularly slides, and dust adsorbed on the outer side surface of the cable insulation protection layer is effectively wiped.

The specific use mode and function of the embodiment are as follows:

in the invention, a cable is extended into the cleaning box 63 from the left end, in the extending process, according to different contact extrusion force between the outer sides of the cables with different diameters and a ball j9, a linkage rod j4 pushes a spring j1 outwards, meanwhile, the spring j1 applies reverse elasticity to the linkage rod j4, so that the ball j9 can be in tight contact with the outer sides of the cables with different diameters, a micro motor j7 drives the ball j9 to roll, so that the cables with different diameters are driven to carry out wire feeding work, the cables penetrate through the inside of a guide ring c8 after being fed into the cleaning box 63, wind energy generated by the rotation of a fan c9 is transmitted to the inside of the guide ring c8 through a wind guide pipe c4 to be guided, at last from eight inside spouts c2 of branch guide ring c8 inboard, can blow off the absorptive dust of cable insulation protective layer outside surface and play certain cooling effect simultaneously, the electromagnet c52 of establishing through sliding tray c58 head and the tail both ends simultaneously carries out the magnetism that relapses to sliding shaft c54 and inhales, thereby make wiper plate c51 slide at the inside ring type that relapses that carries on of sliding tray c58, gliding in-process is sent from flexible can carrying out automatically regulated conflict to wiper plate c51 and cable through telescopic link c55, ensure that wiper plate c51 is with the effectual erasure of the absorptive dust of cable insulation protective layer outside surface, prevent that the inside dust impurity that has thoughtlessly of cable insulation protective layer after the cooling shaping.

Example 2:

as shown in fig. 6 to 7:

the cooling box 61 comprises a box body 61x, a water diversion groove 61s, a flowing port 61g, a transmission hole 61k and a transmission mechanism 61v, the left end of the box body 61x is installed at the right end of the cleaning box 63, the water diversion groove 61s is embedded in the box body 61x, the transmission hole 61k penetrates through the box body 61x, the flowing port 61g is embedded in the box body 61x, the flowing port 61g is connected between the box body 61x and the transmission mechanism 61v, the transmission mechanism 61v is located in the transmission hole 61k, three gradient water diversion grooves 61s are arranged in the box body 61x, the water temperature in the water diversion groove 61s from left to right gradually decreases, the cable insulation protective layer is cooled gradually, and the situation that the temperature of the cable insulation protective layer suddenly decreases and cracks is avoided.

The conduction mechanism 61v comprises a telescopic hose v2, cold guide pieces v8 and auxiliary sliding balls v5, the flow port 61g is connected between the outer side end of the box body 61x and the outer side end of the telescopic hose v2, the cold guide pieces v8 are arranged at the inner side end of the telescopic hose v2, the auxiliary sliding balls v5 are arranged inside the inner side end of the cold guide pieces v8 in a clearance fit mode, the cold guide pieces v8 are located on the inner side of the transmission hole 61k, the telescopic hose v2 is provided with twelve cold guide pieces, the four cold guide pieces v8 are in one group, the four cold guide pieces v8 are arranged at the same time, the four telescopic hoses v2 of each group are respectively connected between the inner side of the water diversion groove 61s and the four cold guide pieces v8, the water temperature of cooling water inside the water diversion groove 61s is guaranteed to be uniformly conducted to the four cold guide pieces v8, the outer sides of the cable insulation protection layer are uniformly cooled by the four cold guide pieces v8, and the quality of the cable insulation protection layer after being cooled is improved.

The specific use mode and function of the embodiment are as follows:

according to the invention, the cable cleaned by dust and impurities is conveyed into the box body 61x, the cable and the cold guide sheet v8 with different diameters are in contact extrusion, at the moment, the flexible hose v2 is used for extrusion, contraction and rebound, the cold guide sheet v8 on the outer side can be better abutted and attached to the surface of the cable insulation protective layer, an auxiliary sliding ball v5 is used for playing an auxiliary sliding role between the cable and the cold guide sheet v8, the cable can be conveyed normally, cooling water in the diversion trench 61s flows into the flexible hose v2 through the flow opening 61g, the water temperature of the cooling water is conducted onto the cold guide sheet v8, at the moment, the surface of the cable insulation protective layer in contact with the cold guide sheet v8 is cooled, and the water temperature in the diversion trench 61s with three gradients arranged in the box body 61x is gradually reduced from left to right, so that the cable insulation protective layer is gradually cooled, and the situation that the cable insulation protective layer is cracked due to sudden temperature reduction is avoided.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention.

Claims (6)

1. The utility model provides a cable cooling system, its structure includes circulation tank (S), brace table (Z), thermometer (W), water pressure gauge (Y), cooling body (6), circulation tank (S) fixed mounting is in brace table (Z) bottom to cooling body (6) are installed to brace table (Z) up end, thermometer (W) have been inlayed to cooling body (6) preceding terminal surface to water pressure gauge (Y) establish terminal surface before cooling body (6), its characterized in that:

cooling body (6) are including clearance case (63), advancing mechanism (6 j), clearance mechanism (6 c), circulating pipe (68), cooler bin (61) are installed to clearance case (63) right-hand member to propulsion mechanism (6 j) have been inlayed to clearance case (63) left end, a supporting bench (Z) up end is all installed to clearance case (63) and cooler bin (61), clearance mechanism (6 c) are installed to clearance case (63) inside middle-end, circulating pipe (68) upper end inlays in cooler bin (61) upper end and link up mutually, state circulating pipe (68) lower extreme and inlay in circulating pipe (S) rear end and link up mutually, advancing mechanism (6 j) are located clearance mechanism (6 c) left side.

2. A cable cooling system according to claim 1, wherein: the propelling mechanism (6 j) comprises an outer ring (j 5), a ball (j 9), a micro motor (j 7), a linkage rod (j 4) and a spring (j 1), the outer ring (j 5) is embedded inside the left end of the cleaning box (63), the ball (j 9) is located inside the outer ring (j 5), the inner side end of the linkage rod (j 4) is hinged to the ball (j 9), the output end of the micro motor (j 7) rotates synchronously with the ball (j 9), the outer side end of the linkage rod (j 4) is welded with the spring (j 1), the spring (j 1) is arranged inside the inner side of the outer ring (j 5), the outer side end of the linkage rod (j 4) is installed inside the inner side of the outer ring (j 5) in a clearance fit mode, and the outer ring (j 5) is located on the left side of the cleaning mechanism (6 c).

3. A cable cooling system according to claim 2, wherein: cleaning mechanism (6 c) includes fan (c 9), guide duct (c 4), branch guide ring (c 8), nozzle (c 2), cleans mechanism (c 5), fan (c 9) fixed mounting is in the inside upper end of cleaning box (63) to fan (c 9) lower extreme is connected with guide duct (c 4), guide duct (c 4) lower extreme and branch guide ring (c 8) upper end middle part link up mutually, divide guide ring (c 8) medial extremity to inlay nozzle (c 2) and link up mutually, clean mechanism (c 5) slidable mounting and divide guide ring (c 8) rear side.

4. A cable cooling system according to claim 3, wherein: the wiping mechanism (c 5) comprises an electromagnetic sheet (c 52), a sliding groove (c 58), a sliding shaft (c 54), an expansion rod (c 55) and a wiping plate (c 51), the sliding groove (c 58) is embedded in the rear side of the guide ring (c 8), the electromagnetic sheet (c 52) is arranged at the head end and the tail end of the sliding groove (c 58), the sliding shaft (c 54) is slidably mounted in the sliding groove (c 58), the sliding shaft (c 54) is connected with the outer side end shaft of the expansion rod (c 55), and the wiping plate (c 51) is arranged at the inner side end of the expansion rod (c 55).

5. A cable cooling system according to claim 1, wherein: cooling box (61) include box (61 x), distributive groove (61 s), flow mouth (61 g), transmission hole (61 k), conduction mechanism (61 v), box (61 x) left end is installed at cleaning box (63) right-hand member to distributive groove (61 s) inlay inside box (61 x), box (61 x) inside is run through there are transmission hole (61 k), box (61 x) inboard has inlayed flow mouth (61 g) to flow mouth (61 g) and connect between box (61 x) and conduction mechanism (61 v), conduction mechanism (61 v) are located transmission hole (61 k) inboard.

6. A cable cooling system according to claim 5, wherein: conduction mechanism (61 v) are including flexible hose (v 2), lead cold piece (v 8), supplementary slide ball (v 5), it connects between box (61 x) and flexible hose (v 2) outside end to flow mouth (61 g), flexible hose (v 2) medial extremity is equipped with leads cold piece (v 8) to supplementary slide ball (v 5) adopt clearance fit to install inside leading cold piece (v 8) medial extremity, lead cold piece (v 8) to be located transmission hole (61 k) inboard.

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