CN207262914U - A kind of efficient optical cable processing blowing-dry apparatus - Google Patents

Abstract

A kind of efficient optical cable processing blowing-dry apparatus, including the first frame device, second framework device below the first frame device, the air extractor being arranged above the first frame device, heating unit above air extractor, the grip device being arranged on air extractor, first frame device includes the first framework, the first filter screen being contained in the first framework, it is arranged at the magnet at the first framework both ends, second framework device includes second framework, gripper rings, air extractor includes exhaust tube, wind turbine, stent, first fixed link, heating unit includes housing, second filter screen, collect hot pin, 3rd filter screen, grip device includes the second fixed link, the gripping frame being arranged in the second fixed link.The utility model can dry up the droplet on optical cable, and favorable drying effect, realizes hot-air with the uniform of optical cable and sufficiently contact, and due to using hot-air so that drying it is efficient, so as to improve the efficiency that optical cable produces.

Description

A kind of efficient optical cable processing blowing-dry apparatus

Technical field

Optical cable technology field is the utility model is related to, more particularly, to a kind of efficient optical cable processing blowing-dry apparatus.

Background technology

Optical cable in process of production, can usually be cooled down by way of water cooling, therefore the surface of optical cable has largely Droplet, can so influence the lettering on optical cable, such as date of manufacture etc..At present, processing staff mainly passes through blow-dry device pair Optical cable is dried up, but the effect that existing blow-dry device dries up optical cable is poor, and the efficiency dried up is low, can not meet pair The needs of optical cable production.

Therefore, it is necessary to a kind of new technical solution is provided to overcome drawbacks described above.

Utility model content

Process and use the purpose of this utility model is to provide a kind of efficient optical cable that can effectively solve above-mentioned technical problem Blowing-dry apparatus.

To reach the purpose of the utility model, adopt the following technical scheme that：

A kind of efficient optical cable processing blowing-dry apparatus, including the first frame device, under first frame device Side second framework device, be arranged above first frame device air extractor, above the air extractor Heating unit, the grip device being arranged on the air extractor, first frame device include the first framework, are contained in institute State the first filter screen in the first framework, be arranged at the magnet at the first framework both ends, the second framework device includes the Two frameworks, the gripper rings being arranged in the second framework, the air extractor include exhaust tube, are arranged on the exhaust tube Wind turbine, the stent being arranged on the wind turbine, the first fixed link for being arranged on the stent, the heating unit includes Housing, the second filter screen being contained in the housing, the collection hot pin at left and right sides of second filter screen, positioned at described The 3rd filter screen above housing, the grip device include the second fixed link, the gripping being arranged in second fixed link Frame.

First framework is in bending, and first framework is equipped with the first through hole on surface disposed thereon, positioned at it Cavity, some second through holes positioned at its inner surface of inside.

First filter screen is in bending, and first filter screen is fixedly connected with the inner surface of first framework, First filter screen blocks second through hole, and the magnet is equipped with two, and the magnet is fixed with first framework to be connected Connect.

The second framework is in bending, and the second framework is made of metal iron material, the end of the second framework Portion is acted against on the magnet, and the gripper rings are in bending, and the both ends of the gripper rings are fixedly connected with the second framework.

First through hole described in the lower end aligned of the exhaust tube and it is fixedly connected with the outer surface of first framework.

The lower end of the stent is fixedly connected with first framework, and the upper end of the stent is fixed with the wind turbine to be connected Connect, the lower end of first fixed link is fixedly connected with the stent.

The housing is in hollow cuboid, and the housing is equipped with the third through-hole positioned at its lower surface, the pumping The upper end of pipe is directed at the third through-hole and is fixedly connected with the lower surface of the housing, the upper end of first fixed link and institute State housing to be fixedly connected, second filter screen is in cuboid, the lower surface of second filter screen and the interior table of the housing Face is fixedly connected, and second filter screen blocks the third through-hole.

The heating rod is equipped with two, and the 3rd filter screen is in cuboid, the lower surface of the 3rd filter screen and institute The upper surface for stating housing is fixedly connected.

The right end of second fixed link is fixedly connected with the stent, and the frame that grips is in the column that cross section is annulus Body, second fixed link is through the inside of the gripping frame and is secured to connect.

Compared with prior art, the utility model has the advantages that：The efficient optical cable processing of the utility model is used Blowing-dry apparatus can dry up the droplet on optical cable, and favorable drying effect, realizes hot-air with the uniform of optical cable and sufficiently contact, And due to using hot-air so that drying it is efficient, so as to improve optical cable production efficiency.

Brief description of the drawings

Fig. 1 is the structure diagram of the efficient optical cable processing blowing-dry apparatus of the utility model.

Embodiment

Clearly complete explanation is made with blowing-dry apparatus to the efficient optical cable processing of the utility model below in conjunction with attached drawing.

As shown in Figure 1, the utility model efficient optical cable processing blowing-dry apparatus includes the first frame device 1, positioned at institute State the second framework device 2 of the lower section of the first frame device 1, the air extractor 3 for being arranged at the top of the first frame device 1, position Heating unit 4 above the air extractor 3, the grip device 5 being arranged on the air extractor 3.

As shown in Figure 1, first frame device 1 includes the first framework 11, be contained in first framework 11 the One filter screen 12, the magnet 13 for being arranged at 11 both ends of the first framework.First framework 11 is in bending, first frame Body 11 is equipped with the first through hole 111 on surface disposed thereon, cavity 112 on its interior, some the positioned at its inner surface Two through holes 112, the cavity 112 are in bending, and the first through hole 111 is equipped with one and is communicated with the cavity 112, described Second through hole 112 is equipped with several and is communicated with the cavity 112.First filter screen 12 is in bending, first mistake Strainer 12 is fixedly connected with the inner surface of first framework 11, and first filter screen 12 blocks second through hole 112.Institute Magnet 13 is stated equipped with two, the magnet 13 is fixedly connected with first framework 11.

As shown in Figure 1, the second framework device 2 includes second framework 21, is arranged at holding in the second framework 21 Held in ring 22.The second framework 21 is in bending, and the second framework 21 is made of metal iron material, the second framework 21 are located at the lower section of first framework 11, and the end of the second framework 21 is acted against on the magnet 13, the magnet 13 Adsorb the second framework 21 so that what the second framework 21 can be stablized is connected in first framework 11.It is described to hold Held in ring 22 is in bending, and the both ends of the gripper rings 22 are fixedly connected with the second framework 21.

As shown in Figure 1, the air extractor 3 includes exhaust tube 31, the wind turbine 32 being arranged on the exhaust tube 31, sets In the stent 33 on the wind turbine 32, the first fixed link 34 being arranged on the stent 33.The lower end pair of the exhaust tube 31 The accurate first through hole 111 and be fixedly connected with the outer surface of first framework 11 so that the inside of the exhaust tube 31 with The first through hole 111 communicates.The wind turbine 32 and power supply electric connection (not shown), electric energy, the wind turbine 32 are provided for it Switch (not shown) is equipped with, conveniently controls it to open or close.The lower end of the stent 33 is solid with first framework 11 Fixed connection, the upper end of the stent 33 is fixedly connected with the wind turbine 32.The lower end of first fixed link 34 and the stent 33 are fixedly connected.

As shown in Figure 1, the heating unit 4 includes housing 41, the second filter screen 42 being contained in the housing 41, position Collection hot pin 43, the 3rd filter screen 44 above the housing 41 in the left and right sides of the second filter screen 42.The shell Body 41 is in hollow cuboid, and the upper end of the housing 41 causes the longitudinal section of the housing 41 to be in concave shape equipped with opening, institute State housing 41 and be equipped with the third through-hole 411 for being located at its lower surface, the third through-hole 411 is rounded, the exhaust tube 31 Upper end is directed at the third through-hole 411 and is fixedly connected with the lower surface of the housing 41 so that the inside of the exhaust tube 31 Communicated with the inside of the housing 41, the upper end of first fixed link 34 is fixedly connected with the housing 41, the housing 41 It is made, i.e., is made of the small material of thermal conductivity factor of heat-barrier material.Second filter screen 42 is in cuboid, and described second The lower surface of filter screen 42 is fixedly connected with the inner surface of the housing 41, and second filter screen 42 blocks the third through-hole 411.The heating rod 43 is equipped with two, and the heating rod 43 and power supply are (not shown) to be electrically connected, and electric energy is provided for it, described Heating rod 43 is equipped with switch (not shown), which is arranged at the outside of the housing 41, and runs through housing by electric wire 41 surfaces externally and internally is realized and is electrically connected with heating rod 43, convenient for users to operation.3rd filter screen 44 is in cuboid, institute The lower surface for stating the 3rd filter screen 44 is fixedly connected with the upper surface of the housing 41.

As shown in Figure 1, the grip device 5 includes the second fixed link 51, is arranged at holding in second fixed link 51 Hold frame 52.The right end of second fixed link 51 is fixedly connected with the stent 33.The gripping frame 52 is annulus in cross section Cylinder, second fixed link 51 is through the inside of the gripping frame 52 and is secured to connect, and the gripping frame 52 can be with It is made of elastomeric material, convenient for users to holding.

As shown in Figure 1, the efficient optical cable processing of the utility model with blowing-dry apparatus in use, holding gripper rings first 22 move down, and second framework 21 is moved down so that second framework 21 departs from magnet 13.Then gripping frame 51 is held to move Dynamic the utility model so that optical cable is contained in the first framework 11, and the first filter screen 13 cladding optical cable.Then by second framework 21 end is acted against on magnet 13 so that and magnet 13 adsorbs second framework 21, and second framework 21 coats optical cable at this time, and described the One framework 11 coordinates with the second framework 21 to envelope optical cable.Then the switch of heating rod 43 is opened, makes its generation Heat so that the temperature rise in housing 41.Then wind turbine 32 is opened so that extraneous air passes through the mistake of the 3rd filter screen 44 Entered after filter in housing 41, then enter the exhaust tube 31 after heating and through the filter opening of the second filter screen 42 It is interior, it is then passed through first through hole 111 and enters in cavity 112, then sprayed from the second through hole 112, and passes through the first filter screen It is sprayed onto after 13 filtering on optical cable, so as to which optical cable is dried up, and the hot-air blown on optical cable flows downward, and touches Sprung back to from below on optical cable again after the inner surface of second framework 21, so as to be dried up below optical cable, so that it is right Optical cable dries up more comprehensive, and drying is efficient, is heated evenly, untill optical cable is dried up.So far, the utility model Efficient optical cable processing is finished with blowing-dry apparatus using process description.

Claims (9)

1. a kind of efficient optical cable processing blowing-dry apparatus, including the first frame device, positioned at first frame device lower section Second framework device, be arranged above first frame device air extractor, above the air extractor plus Thermal, the grip device being arranged on the air extractor, it is characterised in that：First frame device includes the first frame Body, the first filter screen being contained in first framework, the magnet for being arranged at the first framework both ends, the second framework Device includes second framework, the gripper rings being arranged in the second framework, and the air extractor includes exhaust tube, is arranged at institute State the wind turbine on exhaust tube, the stent being arranged on the wind turbine, the first fixed link being arranged on the stent, the heating Device include housing, the second filter screen being contained in the housing, the collection hot pin at left and right sides of second filter screen, The 3rd filter screen above the housing, the grip device include the second fixed link, are arranged at second fixed link On gripping frame.

2. efficient optical cable processing blowing-dry apparatus as claimed in claim 1, it is characterised in that：First framework is in bending Shape, if first framework is equipped with the first through hole on surface disposed thereon, cavity on its interior, positioned at its inner surface Dry second through hole.

3. efficient optical cable processing blowing-dry apparatus as claimed in claim 2, it is characterised in that：First filter screen is in curved Curved, first filter screen is fixedly connected with the inner surface of first framework, and first filter screen blocks described second Through hole, the magnet are equipped with two, and the magnet is fixedly connected with first framework.

4. efficient optical cable processing blowing-dry apparatus as claimed in claim 3, it is characterised in that：The second framework is in bending Shape, the second framework are made of metal iron material, and the end of the second framework is acted against on the magnet, described to hold Held in ring is in bending, and the both ends of the gripper rings are fixedly connected with the second framework.

5. efficient optical cable processing blowing-dry apparatus as claimed in claim 4, it is characterised in that：The lower end pair of the exhaust tube The accurate first through hole and it is fixedly connected with the outer surface of first framework.

6. efficient optical cable processing blowing-dry apparatus as claimed in claim 5, it is characterised in that：The lower end of the stent and institute State the first framework to be fixedly connected, the upper end of the stent is fixedly connected with the wind turbine, the lower end of first fixed link and institute Stent is stated to be fixedly connected.

7. efficient optical cable processing blowing-dry apparatus as claimed in claim 6, it is characterised in that：The housing is in hollow length Cube, the housing are equipped with the third through-hole positioned at its lower surface, the upper end of the exhaust tube be aligned the third through-hole and It is fixedly connected with the lower surface of the housing, the upper end of first fixed link is fixedly connected with the housing, second mistake Strainer is in cuboid, and the lower surface of second filter screen is fixedly connected with the inner surface of the housing, second filter screen Block the third through-hole.

8. efficient optical cable processing blowing-dry apparatus as claimed in claim 7, it is characterised in that：The heating rod is equipped with two A, the 3rd filter screen is in cuboid, and the lower surface of the 3rd filter screen is fixedly connected with the upper surface of the housing.

9. efficient optical cable processing blowing-dry apparatus as claimed in claim 8, it is characterised in that：The right side of second fixed link End is fixedly connected with the stent, and the frame that grips is held in the cylinder that cross section is annulus, second fixed link through described Hold the inside of frame and be secured to connect.