CN214422709U - High-frequency heating control device for electromagnetic wire copper wire production - Google Patents

Abstract

The utility model discloses a high-frequency heating control device for producing electromagnetic wire copper wire, a heating control box is arranged on the front end face of a furnace body, a wire inlet cylinder is welded on one end of the furnace body, a wire outlet cylinder is welded on one end of the furnace body far away from the position of the wire inlet cylinder, the wire outlet cylinder and the top end face of the wire inlet cylinder are both provided with mounting holes in a penetrating way, the utility model discloses a hot air in the wire outlet cylinder enters a conveying pipe and a connecting pipe through a first gas collecting hood by arranging the wire inlet cylinder, the wire outlet cylinder, the heating control box, the mounting holes, the first gas collecting hood, the conveying pipe and rotating blades, blows a rotating seat and the rotating blades in a second gas collecting hood, the rotating blades rotate to blow the hot air into the wire inlet cylinder evenly and quickly, so that the hot air can enter the wire inlet cylinder evenly and quickly, copper wire in the wire inlet cylinder can be preheated, and waste heat can be utilized, and the hot air blows uniformly and quickly, so that the heat energy is fully utilized.

Description

High-frequency heating control device for electromagnetic wire copper wire production

Technical Field

The utility model relates to an electromagnetic wire production technical field specifically is a high-frequency heating controlling means is used in production of electromagnetic wire copper line.

Background

Electromagnetic wires, also known as winding wires, are insulated electrical wires used to make coils or windings in electrical products. The electromagnetic wire is generally divided into an enameled wire, a lapped wire, an enameled lapped wire and an inorganic insulating wire, the electromagnetic wire is mainly made of a copper wire, in the production process of the electromagnetic wire, the required electromagnetic wire is finally made through the processes of material preparation, wire drawing, water washing, annealing, dipping, drying, wire rewinding and the like, and when the copper wire is annealed, an annealing furnace is generally adopted for heating;

however, the high-frequency heating annealing furnace for producing the electromagnetic wire and the copper wire does not well utilize the internal waste heat, so that the heat loss is fast, the heating and annealing efficiency of the copper wire is low, and the effects of energy conservation and consumption reduction cannot be achieved.

SUMMERY OF THE UTILITY MODEL

The utility model provides a high-frequency heating controlling means is used in production of electromagnetic wire copper line can effectively solve among the above-mentioned background art and provide the high-frequency heating annealing stove of present electromagnetic wire copper line production usefulness and do not carry out fine utilization to inside waste heat, leads to the heat to scatter and disappear very fast, and copper wire heating annealing efficiency is low, can not reach the problem of energy saving and consumption reduction's effect.

In order to achieve the above object, the utility model provides a following technical scheme: a high-frequency heating control device for electromagnetic wire copper wire production comprises a furnace body, wherein a heating control box is installed on the front end face of the furnace body, a wire inlet cylinder is welded at one end of the furnace body, and a wire outlet cylinder is welded at the position, far away from the wire inlet cylinder, of one end of the furnace body;

the utility model discloses a lead wire section of thick bamboo, including a lead wire section of thick bamboo, inlet wire section of thick bamboo, outlet wire section of thick bamboo, conveyer pipe, fan, connecting rod, inlet wire section of thick bamboo, the mounting hole has all been seted up through the mounting hole to the top face of a lead wire section of thick bamboo, is located the inboard welding of mounting hole on outlet wire section of thick bamboo top has first gas collecting channel, the conveyer pipe is installed in the rear end face embedding of first gas collecting channel, the rear end face of furnace body corresponds conveyer pipe one end position department and installs the fan, the input of fan is connected with external power source's output, conveyer pipe position department is kept away from to the one end of fan has the connecting pipe through flange joint, is close to the inboard welding of mounting hole on inlet wire section of thick bamboo top has second gas collecting channel, the symmetrical welding in second gas collecting channel both ends has the link, the link middle part embedding is fixed with the connecting rod, the rotation seat is evenly installed to the bottom of connecting rod, the outer terminal surface of rotation seat evenly installs rotating blade.

Preferably, the rear end faces of the first gas collecting hood and the second gas collecting hood are provided with mounting round holes in a penetrating mode, one end of the conveying pipe is embedded into the mounting round holes in the rear end face of the first gas collecting hood, the other end of the conveying pipe is connected with the fan through a flange, and one end of the connecting pipe is embedded into the mounting round holes in the rear end face of the second gas collecting hood.

Preferably, the bottom of connecting rod evenly welds has the rotation disk, the top of rotating the seat rotates with the rotation disk to be connected, rotate the seat and align with the mounting hole on inlet wire section of thick bamboo top.

Preferably, a plurality of fixed rods are welded at the bottom of the inner side of the wire inlet cylinder, a rotating block is installed at the top of each fixed rod in a rotating mode, a fixed groove is formed in the outer end face of the bottom of the rotating block, a limiting groove is formed in the top edge portion of the rotating block, a plurality of positioning rods are welded at the bottom of the inner side of the wire inlet cylinder, a positioning block is installed at the top of each positioning rod in a rotating mode, a positioning groove is formed in the bottom edge portion of each positioning block, and a clamping groove is formed in the outer end face of the top of each positioning block.

Preferably, the positioning rod is installed at a position between adjacent fixing rods, annular arc grooves are formed in the outer end faces of the middle portions of the rotating block and the positioning block, the positioning groove is connected with the fixing groove in a rotating mode, and the connecting groove is connected with the limiting groove in a rotating mode.

Preferably, the connecting holes are formed in the middle of the two ends of the furnace body, the supporting net is clamped inside the connecting holes, the baffle is welded at the position, corresponding to the wire outlet barrel, of the bottom end of the supporting net, and the stop rod is welded at the position, corresponding to the wire inlet barrel, of the bottom end of the supporting net.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages of being scientific and reasonable in structure, convenience safe in utilization:

1. through setting up an inlet wire section of thick bamboo, an outlet wire section of thick bamboo, the heating control box, the mounting hole, first gas collecting channel, conveyer pipe and rotor blade, the inside hot-air of outlet wire section of thick bamboo gets into conveyer pipe and connecting pipe through first gas collecting channel, discharge from the connecting pipe again, blow inside rotation seat and the rotor blade of second gas collecting channel, rotor blade rotates, blow hot-air evenly fast to inlet wire section of thick bamboo inside, thereby make inside the even quick entering inlet wire section of thick bamboo of hot-air ability, make the inside copper line of inlet wire section of thick bamboo can be preheated, make the waste heat obtain the utilization, and hot-air blows evenly fast, make heat energy obtain make full use of.

2. Through setting up dead lever, turning block, fixed slot, spacing groove, locating lever, locating piece, constant head tank and joint groove, rotate the joint through constant head tank and fixed slot, the joint groove rotates the joint with the spacing groove, carries on spacingly to the copper line, makes the copper line under the condition of broken string, restricts the position of copper line, is difficult for causing the winding condition of copper line.

3. Through setting up connecting hole, supporting network, baffle and pin, inside supporting network supports the copper line of inside, makes things convenient for the copper line to get into for the first time and when finishing, and copper line tip can receive the support, avoids copper line and the inside heating device contact winding of furnace body, causes heating device, and the installation of supporting network is dismantled conveniently, convenient clearance.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a cross-sectional view of the present invention;

FIG. 3 is a schematic view of the mounting structure of the rotor blade of the present invention;

fig. 4 is a schematic view of the fixing groove of the present invention;

FIG. 5 is a schematic view of the positioning groove of the present invention;

FIG. 6 is a schematic view of the installation structure of the supporting net of the present invention;

reference numbers in the figures: 1. a furnace body; 2. a wire inlet tube; 3. an outlet barrel; 4. a heating control box; 5. mounting holes; 6. a first gas-collecting channel; 7. a delivery pipe; 8. a fan; 9. a connecting pipe; 10. a second gas-collecting channel; 11. a connecting frame; 12. a connecting rod; 13. a rotating seat; 14. a rotor blade; 15. fixing the rod; 16. rotating the block; 17. fixing grooves; 18. a limiting groove; 19. positioning a rod; 20. positioning blocks; 21. positioning a groove; 22. a clamping groove; 23. connecting holes; 24. a support net; 25. a baffle plate; 26. a stop lever.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Example (b): as shown in fig. 1-6, the utility model provides a technical scheme, a high-frequency heating control device for electromagnetic wire copper wire production, which comprises a furnace body 1, wherein a heating control box 4 is installed on the front end surface of the furnace body 1, heating wire heating devices are installed on the top end and the bottom end inside the furnace body 1, a wire inlet cylinder 2 is welded at one end of the furnace body 1, and a wire outlet cylinder 3 is welded at the position of one end of the furnace body 1 far away from the wire inlet cylinder 2;

the wire outlet cylinder 3 and the top end face of the wire inlet cylinder 2 are both provided with a mounting hole 5 in a penetrating way, a first gas-collecting hood 6 is welded at the inner side of the mounting hole 5 at the top end of the wire outlet cylinder 3, a conveying pipe 7 is embedded and mounted at the rear end face of the first gas-collecting hood 6, a fan 8 is mounted at the rear end face of the furnace body 1 corresponding to one end of the conveying pipe 7, the input end of the fan 8 is connected with the output end of an external power supply, the model of the fan 8 is SF-G, a connecting pipe 9 is connected at the position of one end of the fan 8 far away from the conveying pipe 7 through a flange, a second gas-collecting hood 10 is welded at the inner side of the mounting hole 5 close to the top end of the wire inlet cylinder 2, mounting round holes are formed in the rear end faces of the first gas-collecting hood 6 and the second gas-collecting hood 10 in a penetrating way, one end of the conveying pipe 7 is embedded and mounted in the mounting round hole at the rear end face of the first gas-collecting hood 6, the other end of the conveying pipe 7 is connected with the fan 8 through a flange, one end of the connecting pipe 9 is embedded and mounted in the mounting round hole at the rear end face of the second gas-collecting hood 10, make things convenient for conveyer pipe 7, the installation of fan 8 and connecting pipe 9, the both ends symmetric welding of second gas collecting channel 10 has link 11, the embedding of link 11 middle part is fixed with connecting rod 12, the bottom of connecting rod 12 is evenly installed and is rotated seat 13, the even welding in bottom of connecting rod 12 has the rotation disk, the top of rotating seat 13 rotates with the rotation disk to be connected, it aligns with mounting hole 5 on 2 tops of inlet wire section of thick bamboo to rotate seat 13, make things convenient for sending into of hot-air, the outer terminal surface of rotating seat 13 evenly installs rotor blade 14.

A plurality of dead levers 15 have been welded to the inboard bottom of an inlet wire section of thick bamboo 2, rotating block 16 has been installed in the rotation of the top of dead lever 15, fixed slot 17 has been seted up to the outer terminal surface in bottom of rotating block 16, spacing groove 18 has been seted up to the top limit portion of rotating block 16, the inboard bottom welding of an inlet wire section of thick bamboo 2 has a plurality of locating levers 19, locating piece 20 has been installed in the rotation of the top of locating lever 19, locating groove 21 has been seted up to the bottom limit portion of locating piece 20, joint groove 22 has been seted up to the outer terminal surface in top of locating piece 20, locating lever 19 is installed and is put between adjacent dead lever 15, annular arc groove has all been seted up to the outer terminal surface in middle part of rotating block 16 and locating piece 20, locating groove 21 rotates the joint with fixed slot 17, joint groove 22 rotates the joint with spacing groove 18, make things convenient for the rotation of rotating block 16 and locating piece 20.

Connecting holes 23 are formed in the middle of the two ends of the furnace body 1, a supporting net 24 is clamped in the connecting holes 23, a baffle 25 is welded at the position, corresponding to the wire outlet barrel 3, of the bottom end of the supporting net 24, and a stop rod 26 is welded at the position, corresponding to the wire inlet barrel 2, of the bottom end of the supporting net 24.

The utility model discloses a theory of operation and use flow: firstly, a support net 24 is clamped from the top end of an outlet cylinder 3 and enters the interior of a furnace body 1, a baffle plate 25 is clamped with a connecting hole 23 close to the outlet cylinder 3, a stop lever 26 is clamped with the connecting hole 23 close to the inlet cylinder 2, a copper wire made of an electromagnet penetrates through a rotating block 16 and a positioning block 20, then the copper wire is conveyed to the position of the outlet cylinder 3 through a conveying device, the copper wire penetrates through the upper part of the support net 24, then a power supply is switched on, a heating control box 4 is utilized to adjust proper heating temperature to heat the copper wire in the interior of the furnace body 1, and the heated interior moves towards the interior of the outlet cylinder 3 along with the copper wire;

the power supply of the fan 8 is switched on, hot air in the outlet cylinder 3 enters the conveying pipe 7 and the connecting pipe 9 through the first gas collecting hood 6 and then is discharged from the connecting pipe 9, the rotating seat 13 and the rotating blades 14 in the second gas collecting hood 10 are blown, the rotating blades 14 rotate and blow the hot air into the inlet cylinder 2 uniformly and quickly, so that the hot air can enter the inlet cylinder 2 uniformly and quickly, copper wires in the inlet cylinder 2 can be preheated, waste heat is utilized, and the hot air is blown uniformly and quickly;

the positioning groove 21 is rotationally clamped with the fixing groove 17, the clamping groove 22 is rotationally clamped with the limiting groove 18, and the copper wire is limited, so that the position of the copper wire is limited under the condition of wire breakage of the copper wire, and the winding condition of the copper wire is not easy to cause;

inside supporting network 24 supports inside copper line, makes things convenient for the copper line to get into for the first time, and copper line tip can receive the support, avoids copper line and the winding of the heating device contact of 1 inside of furnace body, and it is inconvenient to cause the heating device clearance, and the installation of supporting network 24 is dismantled more conveniently.

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 described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a high frequency heating controlling means is used in production of magnet wire copper line, includes furnace body (1), its characterized in that: a heating control box (4) is installed on the front end face of the furnace body (1), a wire inlet cylinder (2) is welded at one end of the furnace body (1), and a wire outlet cylinder (3) is welded at a position, far away from the wire inlet cylinder (2), of one end of the furnace body (1);

the wire outlet cylinder (3) and the top end face of the wire inlet cylinder (2) are both provided with a mounting hole (5) in a penetrating manner, a first gas collecting hood (6) is welded on the inner side of the mounting hole (5) at the top end of the wire outlet cylinder (3), a conveying pipe (7) is installed in an embedded manner on the rear end face of the first gas collecting hood (6), a fan (8) is installed at the position of the rear end face of the furnace body (1) corresponding to one end of the conveying pipe (7), the input end of the fan (8) is connected with the output end of an external power supply, a connecting pipe (9) is connected at the position of one end of the fan (8) far away from the conveying pipe (7) through a flange, a second gas collecting hood (10) is welded on the inner side of the mounting hole (5) close to the top end of the wire inlet cylinder (2), connecting frames (11) are symmetrically welded at the two end parts of the second gas collecting hood (10), and a connecting rod (12) is fixedly embedded in the middle part of each connecting frame (11), the bottom end of the connecting rod (12) is uniformly provided with a rotating seat (13), and the outer end surface of the rotating seat (13) is uniformly provided with rotating blades (14).

2. The high-frequency heating control device for the production of the electromagnetic wire copper wire is characterized in that mounting circular holes are formed in the rear end faces of the first gas collecting hood (6) and the second gas collecting hood (10) in a penetrating mode, one end of the conveying pipe (7) is embedded into the mounting circular holes in the rear end face of the first gas collecting hood (6), the other end of the conveying pipe (7) is connected with the fan (8) through a flange, and one end of the connecting pipe (9) is embedded into the mounting circular holes in the rear end face of the second gas collecting hood (10).

3. The high-frequency heating control device for the production of the electromagnetic wire and the copper wire is characterized in that a rotating round block is uniformly welded at the bottom end of the connecting rod (12), the top end of the rotating seat (13) is rotatably connected with the rotating round block, and the rotating seat (13) is aligned with the mounting hole (5) at the top end of the wire inlet cylinder (2).

4. The high-frequency heating control device for electromagnetic wire copper wire production according to claim 1, wherein a plurality of fixing rods (15) are welded to the bottom end of the inner side of the wire inlet cylinder (2), a rotating block (16) is rotatably installed at the top end of each fixing rod (15), a fixing groove (17) is formed in the outer end face of the bottom of each rotating block (16), a limiting groove (18) is formed in the edge portion of the top end of each rotating block (16), a plurality of positioning rods (19) are welded to the bottom end of the inner side of the wire inlet cylinder (2), a positioning block (20) is rotatably installed at the top of each positioning rod (19), a positioning groove (21) is formed in the edge portion of the bottom end of each positioning block (20), and a clamping groove (22) is formed in the outer end face of the top of each positioning block (20).

5. The high-frequency heating control device for the production of the electromagnetic wire and the copper wire as claimed in claim 4, wherein the positioning rod (19) is installed between the adjacent fixing rods (15), the outer end faces of the middle portions of the rotating block (16) and the positioning block (20) are respectively provided with an annular arc groove, the positioning groove (21) is rotatably clamped with the fixing groove (17), and the clamping groove (22) is rotatably clamped with the limiting groove (18).

6. The high-frequency heating control device for the production of the electromagnetic wire copper wire is characterized in that connecting holes (23) are formed in the middles of the two ends of the furnace body (1), a supporting net (24) is clamped inside the connecting holes (23), a baffle (25) is welded at the position, corresponding to the wire outlet barrel (3), of the bottom end of the supporting net (24), and a stop rod (26) is welded at the position, corresponding to the wire inlet barrel (2), of the bottom end of the supporting net (24).

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