CN202013780U - Electromagnetic wire drying device - Google Patents

Abstract

The utility model discloses an electromagnetic wire drying device, which comprises a fan, an air inlet pipe, an air blowing mechanism and a support. The electromagnetic wire drying device is characterized in that the air blowing mechanism comprises a casing. A separating board is arranged in the casing and divides the casing into an air outlet cavity located at the central position and an air inlet cavity located outside the center. The air inlet pipe is communicated with the air inlet cavity. A through hole for an electromagnetic wire to pass through is arranged at the front central position and the back central position of the air outlet cavity respectively. At least one seam-shaped air hole is arranged on the separating board or between the separating board and the casing, and the air hole is opposite to the moving direction of electromagnetic wire and forms an acute angle with the electromagnetic wire. The electromagnetic wire drying device solves the problem that air blowing holes of existing copper wire blow-drying devices are oversize, the air speed can not be well increased, and further air blowing effects are affected. The electromagnetic wire drying device has the advantages of reasonable structure and good drying effects.

Description

The electromagnetic wire blow-dry device

Technical field

The utility model discloses a kind of blow-dry device of electromagnetic wire, belong to electromagnetic wire processing auxiliary equipment.

Background technology

In the production process of electromagnetic wire, at first be that copper material is pushed continuously, the link after the extruding is that the copper cash importing tank that will all have higher temperature cools off, the moisture that needs immediately after the cooling to be stained with dries up, and gets rusty to avoid copper cash.In the existing production process, drying up of copper cash is by two air compressor machines the air in the air accumulator to be extruded to dry up moisture, and have following problem like this: the noise of air compressor machine is too big; And its power consumption is bigger.And the frequent Yin Wendu of air compressor machine is too high and shut down, and can cause the copper cash of exporting in the COPPER WIRES PRODUCTION streamline to fail in time to dry up and cause waste, and the center that perhaps needs to do over again dries up; Air compressor machine maintenance simultaneously, maintenance, maintenance and safety check expense are higher, and particularly the gas that blows out of air compressor machine itself is wetter, its to copper cash to dry up effect bad.

In order to improve the effect that copper cash dries up, 200920302547.1 number utility model patent discloses a kind of copper line surface drier, it mainly comprises the air knife device, in the air knife device, magnet ring is housed, sidewall at the air knife device has the air knife mouth, the lower end of air knife mouth is connected with the base of magnet ring, this device mainly is to form an annular through-hole that surrounds copper cash around copper cash, thus the contrary copper cash moving direction of wind is blown into, because copper cash need pass through from the hole of magnet ring, therefore the magnet ring hole is inevitable bigger, and wind speed is difficult to be improved, so the effect that copper cash dries up is still undesirable.Therefore, a kind of simple in structure, can reach the blow-dry device that dries up the copper cash effect effectively and become the target that those skilled in the art pursue.

Summary of the invention

The purpose of this utility model is in order to solve copper cash in the prior art (electromagnetic wire) blow-dry device unreasonable structure, and tuyere diameter is excessive, can not improve wind speed well, so that can not reach the good technical problem that dries up effect.

For solving the problems of the technologies described above, the technical solution of the utility model is: a kind of electromagnetic wire blow-dry device, comprise blower fan, the blast pipe that is connected with blower fan, be located at outer blower mechanism of described electromagnetic wire and the support that is used for fixing blower mechanism, it is characterized in that: described blower mechanism comprises a housing, is provided with dividing plate in described housing, described dividing plate is divided into described housing air-out chamber that is positioned at the center and the air-inlet cavity that is positioned at outside the center, and described blast pipe is communicated with described air-inlet cavity; The center, front and back in described air-out chamber is respectively equipped with the through hole that a described electromagnetic wire of confession passes through, on the described dividing plate or be provided with the wind hole of at least one slit-shaped between described dividing plate and the described housing, the moving direction of described wind hole and described electromagnetic wire oppositely and acutangulate setting.

As optimal way, the housing of described blower mechanism is square, and the dividing plate that is located in the described housing is two and the upper and lower or left and right dividing plate that be arranged in parallel, described two dividing plates housing is divided into up and down or about two air-inlet cavities and middle air-out chamber; The wind hole of slit-shaped is located on the described dividing plate.

As optimal way, described housing is cylindric, and described dividing plate is the dividing plate that is located at cylinder shell-like in the described housing, and described dividing plate is divided into outer field air-inlet cavity and middle air-out chamber with housing; Have the big taper seat in little inner end, an outer end in described housing one end, and the front end of described dividing plate is the wind hole that forms a narrow annular channel shape between the interior taper seat of coniform and described housing.

For electromagnetic wire being penetrated in the air-out chamber of housing easily or conveniently in cavity, taking out, as optimal way, described housing is divided into up and down or left and right sides two parts from the center in described air-out chamber, and described two housing sections each other can be flipped open relatively ground hinged.

As preferably, be preferably 45-50 ° through the angle of inclination in the wind hole of the described slit-shaped of overtesting, its effect that dries up is best.

As preferably, the cross section through the wind hole of the described slit-shaped of overtesting is a taper, and promptly the width in the hole of air-inlet cavity one side promptly is taper greater than the width in one crosswind hole, air-out chamber, the preferred 3-7 of its tapering °, is preferably 5 °.

As preferably, through overtesting, the width of the air-out oral-lateral in the wind hole of described slit-shaped is preferably 0.8-2.0mm, preferred 1.2mm.

As preferably, described dividing plate comprises a dividing plate seat and a blowing mouth, described dividing plate seat is the seam of the square or rectangle of tabular and middle installing hole with a square or rectangle and, and described blowing mouth comprises that the base of square or rectangle and the boss of square or rectangle cooperate with the installing hole and the seam of described dividing plate seat.

In order to make the wind concentration in the air-out chamber between the lower clapboard, in the air-out chamber between described upper and lower two dividing plates, be parallel to described electromagnetic wire direction and be provided with gib block near the inner walls place.

The utility model is owing to adopt technique scheme, by dividing plate the housing of blower mechanism is divided into air-inlet cavity and air-out chamber, electromagnetic wire is passed through in the air-out chamber, between dividing plate or dividing plate and housing, be provided with simultaneously the wind hole of slit-shaped, and wind is introduced in the air-inlet cavity of blower mechanism by blower fan and blast pipe, owing to adopt the wind hole of slit-shaped, when the air-out cavity that passes when copper cash (electromagnetic wire) moves, air-flow enters the air-out chamber from the wind hole of air-inlet cavity by slit-shaped, its wind speed can be greatly enhanced, and contrary electromagnetic wire (copper cash) the direction of travel blowing of air-flow can be effectively blown off the globule of copper line surface, take away aqueous vapor, thereby dry up the electromagnetic wire of process.Blowing device of the present utility model has advantage rational in infrastructure, simple, has the extraordinary effect that dries up simultaneously.

Description of drawings

Fig. 1 is an electromagnetic wire blow-dry device of the present utility model structural representation in use.

Fig. 2 is the longitudinal sectional view of electromagnetic wire blow-dry device of the present utility model along the electromagnetic wire moving direction.

Fig. 3 is the transverse sectional view of the vertical electromagnetic wire moving direction of electromagnetic wire blow-dry device of the present utility model.

Fig. 4 is the longitudinal sectional view of dividing plate seat of the blower mechanism of electromagnetic wire blow-dry device of the present utility model.

Fig. 5 is the cutaway view of blowing mouth of the blower mechanism of electromagnetic wire blow-dry device of the present utility model.

Fig. 6 is the front view of blowing mouth of the blower mechanism of electromagnetic wire blow-dry device of the present utility model.

Fig. 7 is the profile of another kind of execution mode of the blower mechanism of electromagnetic wire blow-dry device of the present utility model.

Fig. 8 is Fig. 8 B place partial enlarged drawing.

Embodiment

Referring to Fig. 1-3, showed among this figure that two electromagnetic wire blow-dry devices of the present utility model are combined and be used to dry up electromagnetic wire 100 simultaneously.This electromagnetic wire blow-dry device comprises: the blower fan (not shown), and two blast pipes 1 that are connected with blower fan, the blower mechanism 2 outside electromagnetic wire (copper cash) are used for fixing the support 3 of blower mechanism 2; Described blower mechanism 2 comprises a housing 21, and housing 21 roughly is square, and support 3 is used for fixing housing 21.Be provided with in housing 21 that 23, two dividing plates 23 of two dividing plates that be arranged in parallel up and down are divided into the air-out chamber 24 that is positioned at the center with described housing 21 and 25, two blast pipes 1 of air-inlet cavity of upper-lower position are communicated with described upper and lower air-inlet cavity 25 respectively; Be respectively equipped with a through hole 26 on the center, front and back in air-out chamber 24, through hole 26 is used for electromagnetic wire 100 to be passed through.On two dividing plates 23, be respectively equipped with the wind hole 27 of three slit-shaped.

Referring to Fig. 4, Fig. 5, the concrete structure of the dividing plate 23 in the present embodiment, dividing plate 23 comprises a dividing plate seat 231 and a blowing mouth 232, described dividing plate seat 231 is tabular and middle have a square installing hole 2311 and a square seam 2312, and described blowing mouth 232 comprises that square base 2321 and square boss 2322 cooperate with the installing hole 2311 and the seam 2312 of described dividing plate seat.Referring to Fig. 5, the structure of having showed the blowing mouth 232 of present embodiment among the figure, being located at the wind hole 27 of three slit-shaped on this blowing mouth 232 and the angle α between the copper cash (electromagnetic wire 100) is 45-50 ° and is advisable (perhaps to claim: the angle between wind hole and the horizontal plane), present embodiment is 47.5 °, and wind hole 27 is moving direction A with described electromagnetic wire to being reverse setting.Referring to Fig. 5, the cross section in described wind hole 27 is a taper, and is promptly big near air-inlet cavity 24 1 end wind hole widths, little near wind hole 27 width of air-out chamber 25 1 ends, preferred 3-7 ° of its tapering β, and present embodiment is 5 °.And the width L in the wind hole 27 of close air-out chamber 25 1 ends is 0.8-2.0mm, and present embodiment is preferably 1.2mm.The above-mentioned parameter of present embodiments is adopted in wind hole 27, and the wind hole of promptly adjacent air-out chamber one side is wide be 1.2mm, and the tapering in wind hole 27 is 5 °, wind hole 27 and electromagnetic wire 100 moving directions: A to angle be 47 °, the blowing best results that it reaches.

Referring to Fig. 3, for convenience electromagnetic wire 100 is presented in the blower mechanism 2, perhaps therefrom take out.Best, the housing 21 that blows sub-agencies 2 of the present utility model is divided into two parts up and down, and the upper part of housing 21 and lower part are hinged in both sides, and it adopts the hinge connected mode is existing hinge connected mode, and present embodiment adopts door folding 4.Further concentrate for the air channel that makes air-out chamber 25, the both sides of the close housing 21 in the air-out chamber 25 of the centre that described housing 21 surrounds are provided with the gib block 22 that is parallel to described electromagnetic wire, present embodiment gib block 22 is 4, is located at the both sides of lower house 21 respectively and fixedlys connected with upper and lower dividing plate 23 respectively.

Obviously, the housing 21 in the present embodiment also can be divided into left and right two parts, and promptly dividing plate 23 is the vertical parallel setting, and housing is divided into three chambeies, left, center, right: middle be the air-out chamber, both sides are air-inlet cavity, and the connected mode of itself and other part is with above-mentioned embodiment.

Embodiment two, referring to Fig. 7, provided the another kind of blower mechanism 2 of the utility model electromagnetic wire blow-dry device among the figure, with blower mechanism 2 differences among the last embodiment are: described housing 21 is integral type for cylindric.The dividing plate 23 that is located in the housing 21 is the cylinder shell-like, the rear end of described dividing plate 23 has greater than threaded binding ring 233 point diameter and surperficial, the rear end of described housing 21 has the threaded interior hole 211 that diameter matches with the binding ring 233 of described dividing plate 23 less than the centre position, dividing plate 23 is spirally connected by the binding ring 233 of rear end and the threaded interior hole 211 of housing 21 rear ends, on lock sleeve 231 outer ends, be provided with locking nut 5 and be used to lock both, prevent to become flexible.The air-out chamber 25 that housing 21 is divided into outer field air-inlet cavity 24 and centre of this dividing plate 23; Air-inlet cavity 24 is communicated with two blast pipes 1, between the front end of housing 21 and dividing plate 23, be provided with the wind hole 27 of a narrow annular channel shape, promptly in the front end of housing 21, be provided with the big taper seat 212 in little inner end, an outer end, form the through hole 26 that a power supply magnet-wire 100 passes through in the outer end of taper seat 212, the front end of described dividing plate 23 is the wind hole 27 of a narrow annular channel shape of formation between the taper seat 212 in coniform and the described housing 21.Wind hole 27 in the present embodiment and electromagnetic wire 100 moving directions: A to angle α be 45 °.Referring to Fig. 8, the width L of the port of export in wind hole 27 is 1.5mm, and the section in narrow annular channel shape wind hole 27 sees that the width of adjacent air-inlet cavity 24 1 sides is greater than the width of air-out chamber 25 1 sides, and its angle or title tapering β are 4 °.

Electromagnetic wire blow-dry device of the present utility model can adopt separate unit to use, and two blowing devices that also can adopt Fig. 1 to show are used, and effect can be better.The utility model aims to provide a kind of blow-dry device with wind hole of slit-shaped, thereby can make the air-flow wind speed very fast, and friction generates heat by air-flow and intake stack, utilizes wind speed and hot blast to blow away and dry moisture on the copper cash.

Above embodiment describes the utility model; but not do restrictive summary; those of ordinary skills are under the guidance of inventive concept of the present utility model; can also make modification and replacement on a lot of conventional structures; for example: dividing plate seat and blowing mouth are made of one dividing plate, and these are revised with replacement and also should be considered to belong among the protection range of the present utility model.

Claims (15)

1. electromagnetic wire blow-dry device, comprise blower fan, the blast pipe that is connected with blower fan, be located at outer blower mechanism of described electromagnetic wire and the support that is used for fixing blower mechanism, it is characterized in that: described blower mechanism comprises a housing, be provided with dividing plate in described housing, described dividing plate is divided into described housing air-out chamber that is positioned at the center and the air-inlet cavity that is positioned at outside the center, and described blast pipe is communicated with described air-inlet cavity; The center, front and back in described air-out chamber is respectively equipped with the through hole that a described electromagnetic wire of confession passes through, on the described dividing plate or be provided with the wind hole of at least one slit-shaped between described dividing plate and the described housing, the moving direction of described wind hole and described electromagnetic wire oppositely and acutangulate setting.

2. electromagnetic wire blow-dry device according to claim 1, it is characterized in that, the housing of described blower mechanism is square, the dividing plate that is located in the described housing is two and the upper and lower or left and right dividing plate that be arranged in parallel, described two dividing plates housing is divided into up and down or about two air-inlet cavities and middle air-out chamber; The wind hole of slit-shaped is located on the described dividing plate.

3. electromagnetic wire blow-dry device according to claim 1 is characterized in that, described housing is cylindric, and described dividing plate is the dividing plate that is located at cylinder shell-like in the described housing, and described dividing plate is divided into outer field air-inlet cavity and middle air-out chamber with housing; Have the big taper seat in little inner end, an outer end in described housing one end, and the front end of described dividing plate is the wind hole that forms a narrow annular channel shape between the interior taper seat of coniform and described housing.

4. according to claim 1-3 each described electromagnetic wire blow-dry device wherein, it is characterized in that: described housing is divided into up and down or left and right sides two parts from the center in described air-out chamber, and described two housing sections each other can be flipped open relatively ground hinged.

5. according to claim 1-3 each described electromagnetic wire blow-dry device wherein, it is characterized in that: the angle of inclination in the wind hole of described slit-shaped is 45-50 °.

6. electromagnetic wire blow-dry device according to claim 4 is characterized in that: the angle of inclination in the wind hole of described slit-shaped is 45-50 °.

7. according to claim 1-3 each described electromagnetic wire blow-dry device wherein, it is characterized in that: the cross section in the wind hole of described slit-shaped is a taper, and tapering is 3-7 °.

8. electromagnetic wire blow-dry device according to claim 6 is characterized in that: the cross section in the wind hole of described slit-shaped is a taper, and tapering is 3-7 °.

9. electromagnetic wire blow-dry device according to claim 8 is characterized in that: the cross section in the wind hole of described slit-shaped is a taper, and tapering is 5 °.

10. according to claim 1-3 each described electromagnetic wire blow-dry device wherein, it is characterized in that: the air outlet width in the wind hole of described slit-shaped is 0.8-2.0mm.

11. electromagnetic wire blow-dry device according to claim 4 is characterized in that: the air outlet width in the wind hole of described slit-shaped is 0.8-2.0mm.

12. electromagnetic wire blow-dry device according to claim 6 is characterized in that: the air outlet width in the wind hole of described slit-shaped is 0.8-2.0mm.

13. electromagnetic wire blow-dry device according to claim 12 is characterized in that: the air outlet width in the wind hole of described slit-shaped is 1.2mm.

14. electromagnetic wire blow-dry device according to claim 2, it is characterized in that: described dividing plate comprises a dividing plate seat and a blowing mouth, described dividing plate seat is the seam of the square or rectangle of tabular and middle installing hole with a square or rectangle and, and described blowing mouth comprises that the base of square or rectangle and the boss of square or rectangle cooperate with the installing hole and the seam of described dividing plate seat.

15., it is characterized in that: in the air-out chamber between described up and down two dividing plates, be parallel to described electromagnetic wire direction and be provided with gib block near the inner walls place according to claim 2 or 14 described electromagnetic wire blow-dry devices.

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