Wire blowing jig
Technical Field
The invention relates to the technical field of wires and cables, in particular to a wire blowing jig.
Background
Along with the improvement of the daily living standard, the appreciation capability is also improved day by day, and the appreciation requirement on the daily used household appliances is higher and higher. Modern and exquisite electric appliances such as mobile phones and tablet computers are launched from great numbers of household appliances such as apples and samsung, and the electric appliances are high-grade representatives with excellent performance and atomized surfaces, so that the high-grade requirements of exquisite appearance and atomized surfaces are provided for the development of wires such as wires and cables.
In the process of producing the wire rod, the surface fogging agent is usually added in the wire material, so that the wire rod achieves the high-grade effect of surface atomization, but the addition of the surface fogging agent can influence other performances, particularly, the surface fogging agent cannot be added in some special wire materials, such as various flame-retardant environment-friendly halogen-free TPEs, TPUs and other materials, and therefore certain inconvenience is brought to production or use.
Disclosure of Invention
Based on this, it is necessary to provide a wire rod tool of blowing to solve the problem of present conventional technology, and this wire rod tool of blowing's structural design is reasonable, and convenient to use is succinct, makes the wire rod surface have the roughness through setting up the module of blowing, and presents the matte effect.
A wire blowing jig comprises an air inlet module, an air vent seat communicated with the air inlet module, and an air blowing module connected with the air vent seat; the air blowing module comprises an air blowing seat and a ring platform assembly arranged on the air blowing seat; the vent seat comprises an air outlet cavity, the ring platform assembly and the vent seat cover are combined to form a vent cavity group, and the vent cavity group is respectively communicated with the air inlet module and the air outlet cavity; the vent cavity group is used for blowing air to the surface of the cooling die nozzle.
In one embodiment, the vent chamber set includes a first chamber, a second chamber and a third chamber, the first chamber is communicated with the air intake module, the second chamber is communicated with the first chamber and the third chamber, and the third chamber is arranged corresponding to the cooling die nozzle.
In one embodiment, the ring table assembly comprises a first ring table, a second ring table and a third ring table which are sequentially arranged on the blowing seat; the first cavity is located between the first ring platform and the second ring platform, the second cavity is located between the second ring platform and the third ring platform, and the third cavity is located in the third ring platform.
In one embodiment, the second annular table is provided with a plurality of groups of air inlet holes; each air inlet is respectively communicated with the first cavity and the second cavity.
In one embodiment, a plurality of groups of air blowing holes are formed in the third ring table; and each air blowing hole is respectively communicated with the second cavity and the third cavity.
In one embodiment, the air intake module comprises an air intake pipe and an air inlet connected with the air intake pipe; the air inlet is communicated with the first cavity.
In one embodiment, the ventilation seat is provided with a first limit port, and the blowing seat is provided with a second limit port; and the outlet end of the cooling die nozzle penetrates through the second limiting port and is positioned at the first limiting port.
In one embodiment, the vent seat is provided with a plurality of groups of air outlet holes; each air outlet hole is arranged on the outer ring of the first limiting port.
In one embodiment, the blow module comprises a seal ring; the sealing ring is installed on the blowing seat and is abutted to the ventilating seat.
In one embodiment, the blowing seat is provided with an accommodating cavity; the sealing ring is positioned in the accommodating cavity.
The invention has the following beneficial effects:
the wire blowing jig is reasonable in structural design and convenient and simple to use, the cooling die nozzle is used for fixing wires, the fixing effect is good, the air inlet module provides blowing power to blow air to the air blowing seat, the air circulation is realized through the air vent cavity group formed by the annular table component and the air blowing seat in a covering mode until the air is blown to the end face of the cooling die nozzle and is exhausted from the air outlet cavity, the heat of the wires in the cooling die nozzle is taken away, the surfaces of the wires shrink rapidly and are in fine wrinkles, the surfaces of the wires are enabled to have roughness, the surfaces of the wires are enabled to have a fog surface effect, and the surfaces of the wires are enabled to achieve double changes of vision and touch.
Drawings
Fig. 1 is a schematic perspective view of a wire blowing jig according to the present invention;
fig. 2 is a schematic structural view of the wire blowing jig of fig. 1 from another view angle;
fig. 3 is a cross-sectional view of the wire blowing jig of fig. 1.
Description of reference numerals: the cooling die nozzle comprises a cooling die nozzle 10, an air inlet module 20, an air inlet pipe 21, an air inlet 22, a ventilation seat 30, an air outlet cavity 31, a first limiting port 32, an air outlet hole 33, an air blowing module 40, an air blowing seat 41, a second limiting port 41a, an accommodating cavity 41b, a ring platform assembly 42, a first ring platform 421, a second ring platform 422, an air inlet hole 422a, a third ring platform 423, an air blowing hole 423a, a ventilation cavity group 43, a first cavity 43a, a second cavity 43b, a third cavity 43c and a sealing ring 44.
Detailed Description
In order that the invention may be more fully understood, reference will now be made to the following description. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.
Referring to fig. 1 to 3, a wire blowing jig according to an embodiment of the present invention has a reasonable structural design and is easy and simple to use, and a blowing module 40 is disposed to make a surface of a wire have roughness and exhibit a matte effect.
In the present embodiment, the wire blowing jig is used for blowing air to the cooling die nozzle 10 to cool the wire in the cooling die nozzle 10, and the wire blowing jig includes an air inlet module 20, an air vent seat 30 communicated with the air inlet module 20, and an air blowing module 40 connected with the air vent seat 30; in this embodiment, the upper half of the cooling die nozzle 10 is a truncated cone, and the lower half of the cooling die nozzle 10 is a cylinder.
The intake module 20 includes an intake pipe 21 and an intake port 22 connected to the intake pipe 21; in this embodiment, the air intake module 20 provides blowing power.
The ventilation seat 30 is provided with a first limit opening 32; the ventilation seat 30 is provided with a plurality of groups of air outlet holes 33; each air outlet hole 33 is arranged on the outer ring of the first limiting port 32 and communicated with the air outlet cavity 31; in this embodiment, the cross section of the first position-limiting opening 32 is trapezoidal, and the number of the air outlet holes is four.
The blowing module 40 comprises a blowing seat 41 and a circular table assembly 42 arranged on the blowing seat 41; the vent seat 30 comprises an air outlet cavity 31, the annular table assembly 42 and the vent seat 30 are covered to form a vent cavity group 43, and the vent cavity group 43 is respectively communicated with the air inlet module 20 and the air outlet cavity 31; the vent chamber group 43 is used for blowing air to the surface of the cooling die nozzle 10; the air inlet module 20 provides blowing power to blow air to the air blowing seat 41, and realizes the circulation of the air through the air ventilation chamber 43 group formed by covering the circular platform assembly 42 and the air ventilation seat 30 until the air is blown to the side surface of the circular truncated cone of the cooling die nozzle 10 and is exhausted from the air outlet hole 33, so as to take away the heat of the wire rod in the cooling die nozzle 10; in this embodiment, the air blowing module 40 and the air intake module 20 are used in cooperation with the air flow meter and the vortex tube, so that heat is taken away accurately and control is facilitated.
The blowing base 41 is provided with a second limiting opening 41 a; the outlet end of the cooling die nozzle 10 passes through the second limiting port 41a and is located at the first limiting port 32.
The ring table assembly 42 includes a first ring table 421, a second ring table 422 and a third ring table 423 sequentially disposed on the blowing base 41; a plurality of groups of air inlet holes 422a are formed on the second annular table 422; each air inlet hole 422a is communicated with the first cavity 43a and the second cavity 43b respectively.
A plurality of groups of air blowing holes 423a are formed in the third annular table 423; each of the air blowing holes 423a communicates with the second cavity 43b and the third cavity 43c, respectively.
The ventilation cavity 43 group comprises a first cavity 43a, a second cavity 43b and a third cavity 43c, the first cavity 43a is communicated with the air intake module 20, the second cavity 43b is communicated with the first cavity 43a and the third cavity 43c, and the third cavity 43c is arranged corresponding to the cooling die nozzle 10; the first cavity 43a is located between the first ring stage 421 and the second ring stage 422, the second cavity 43b is located between the second ring stage 422 and the third ring stage 423, and the third cavity 43c is located in the third ring stage 423; in this embodiment, the first cavity, the second cavity and the third cavity are all annularly arranged, the air inlet 22 is communicated with the first cavity 43a, and the air of the air inlet module 20 sequentially passes through the first cavity 43a, the second cavity 43b and the third cavity 43c until being blown to the surface of the truncated cone of the cooling die nozzle 10, so that the cooling effect on the wire rod in the cooling die nozzle is good.
As shown in fig. 2 and 3, the blowing module 40 includes a sealing ring 44; the seal ring 44 is mounted on the blowing base 41 and abuts against the vent base 30; the blowing base 41 is provided with an accommodating cavity 41 b; the sealing ring 44 is located in the accommodating cavity 41b with good sealing effect.
The wire blowing jig is reasonable in structural design and convenient and simple to use, the cooling die nozzle 10 is used for fixing wires, the fixing effect is good, the air inlet module 20 provides blowing power to blow air to the air blowing seat 41, the air ventilation cavity group 43 formed by covering the annular platform component 42 and the air ventilation seat 30 realizes the circulation of the air until the air is blown to the surface of the conical platform at the upper half part of the cooling die nozzle 10 and is exhausted by the air outlet hole 33, the heat of the wires in the cooling die nozzle 10 is taken away, the surfaces of the wires shrink rapidly and are in fine wrinkles, the surfaces of the wires are rough, the surfaces of the wires are in fog surface effect, the surfaces of the wires are changed in a visual sense and a tactile sense, and the high-grade requirements of fine appearance and surface atomization of the wires are met.
The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.