CN209208079U - One kind wearing device - Google Patents

Abstract

Package technique field is worn the utility model relates to conducting wire and rubber tube more particularly to one kind wears device, comprising: mold, inside form the die cavity of a perforation, and rubber tube is placed in die cavity and has gap between the cavity wall of die cavity；Poling needle poling needle internal run-through and is passed through positioned at the enter line side of mold for conducting wire, and the leading-out terminal of poling needle has been removably installed a sub warhead；Poling needle driving unit drives poling needle movement, and poling needle is made to enter or exit threading hole；First insufflation unit, set on die cavity end of incoming cables and be passed through into threading hole gas；And second insufflation unit, set on die cavity leading-out terminal and be passed through into threading hole gas.Second insufflation unit, the first insufflation unit are passed through gas into threading hole when poling needle enters and exits threading hole respectively, threading hole can be made to be radially expanded under the influence of air pressure, so that gap is generated between poling needle and threading hole hole wall, so that poling needle can easily pass through threading hole.

Description

One kind wearing device

Technical field

The utility model relates to conducting wires and rubber tube to wear package technique field, more particularly to a kind of for wearing conducting wire It packs into rubber tube and wears device.

Background technique

Automobile in the process of moving, is vibrated since a variety of causes such as road conditions, travel speed can be such that automobile generates, these Vibration can generate certain influence to the components of automotive interior, lead to the company that components position is mobile, components are mutual The problems such as connecing loosening.

In order to reduce influence of vibration of the automobile in driving process to auto parts and components, it will usually be used in automobile product A large amount of dampings, anti-slip rubber part, these rubber parts can play good damping effect, play good guarantor to auto parts and components Protect effect.Especially in some road vehicle components, mutual line loosens in order to prevent, road vehicle component Apply a large amount of elastic rubber.

Currently, the assembly technology of road vehicle component is complex, especially wearing in some rubber tubes and conducting wire It covers in assembling process, since the diameter of the threading hole of rubber tube is less than the diameter of conducting wire, conducting wire passes through rubber tube It wears that technique is extremely complex, often occurs wearing difficult problem in assembling process, influence the assembly of road vehicle component Speed, production efficiency are relatively low.

Utility model content

It is worn the technical problem to be solved by the present invention is to provide one kind and readily wears device, to overcome the prior art Drawbacks described above.

In order to solve the above-mentioned technical problem, the utility model adopts the following technical solution: one kind wearing device, for that will lead Line is worn into the threading hole of rubber tube, comprising: a mold, mould inside form the die cavity of a perforation, and rubber tube is placed in There is gap in die cavity and between the cavity wall of die cavity；One poling needle, positioned at the enter line side of mold, poling needle internal run-through and confession Conducting wire passes through, and the leading-out terminal of poling needle has been removably installed a sub warhead；One poling needle driving unit, driving poling needle fortune It is dynamic, so that poling needle is entered or exit the threading hole of rubber tube；One first insufflation unit, set on die cavity end of incoming cables and to rubber Gas is passed through in the threading hole of pipe fitting；And one second insufflation unit, the leading-out terminal set on die cavity and the threading to rubber tube Gas is passed through in hole.

Preferably, mold includes lower die and upper mold, and upper mold is liftably with respect to the top for being set to lower die, upper die and lower die phase Pair surface on be respectively provided with one first groove, two the first grooves are connected to each other to form die cavity.

Preferably, the inlet wire channel of a perforation, the end of incoming cables in inlet wire channel and die cavity are formed with inside the first insufflation unit It is connected and is passed through for poling needle, is formed in a threading hole to rubber tube and is passed through in the periphery of the leading-out terminal in inlet wire channel The first of gas is for gas chamber.

Preferably, a perforation is formed with inside the second insufflation unit goes out line passage, out the leading-out terminal of line passage and die cavity It is connected and is penetrated for poling needle, is formed in a threading hole to rubber tube and is passed through in the periphery of the end of incoming cables of line passage out The second of gas is equipped with a sealing structure for gas chamber, in the leading-out terminal of line passage out, sealing structure by outlet channel enclosed or It opens.

Preferably, a sealed passage, sealed passage and line passage vertical connection out are formed with inside the second insufflation unit, it is close Seal structure includes a sealing element and one second actuator, and sealing element is set in sealed passage, and the second actuator drives sealing element edge The axial movement of sealed passage.

Preferably, poling needle driving unit includes that a linear guide, a poling seat and a third actuator, poling seat can be slided Dynamicly be set to linear guide on, poling needle is mounted on poling seat, third actuator drive poling seat in linear guide back and forth Sliding.

It preferably, further include a lubrication part, the side set on the first insufflation unit far from die cavity, lubrication part is for poling The outer peripheral surface of needle is lubricated.

It preferably, further include one first clamping unit, the side set on the second insufflation unit far from die cavity, first clamps list Member is for clamping conducting wire.

It preferably, further include one second clamping unit, the side set on the first clamping unit far from the second insufflation unit, Two clamping units are for clamping conducting wire.

It preferably, further include a third clamping unit, set on the enter line side of poling needle, third clamping unit is led for clamping Line.

Compared with prior art, the utility model has significant progress:

By penetrating poling needle in the threading hole of rubber tube, support is formed in threading hole, will can easily be led Line is passed through out of poling needle, then exits poling needle from threading hole, and conducting wire can be realized and wear into rubber tube；Pass through Second insufflation unit and the first insufflation unit are passed through gas into threading hole when poling needle enters and exits threading hole respectively, can So that the threading hole of rubber tube is radially expanded under the influence of air pressure, so that between generating between poling needle and threading hole hole wall Gap, so that poling needle can easily pass through threading hole.Therefore, the utility model wear device entirely to wear process non- It is often easily easy, especially for length is longer or the rubber tube of overlength, can easily wear into conducting wire.

Detailed description of the invention

Fig. 1 is the schematic perspective view for wearing device of the utility model embodiment.

Fig. 2 is that the broken section worn when rubber tube is placed in mould cavity by device of the utility model embodiment shows It is intended to.

Fig. 3 is that the broken section after device wears conducting wire into rubber tube that wears of the utility model embodiment is illustrated Figure.

Fig. 4 is mold, the first insufflation unit and second when wearing the mold of device shown in Fig. 1 to be in die opening state The whole schematic cross-sectional view of insufflation unit.

Fig. 5 is mold, the first insufflation unit and second when wearing the mold of device shown in Fig. 1 to be in molding state The whole schematic cross-sectional view of insufflation unit.

Fig. 6 is the schematic rear view that device is worn shown in Fig. 1.

Fig. 7 is the structural schematic diagram that the first lower air blowing block of the first insufflation unit in device is worn shown in Fig. 1.

Fig. 8 is the structural schematic diagram that the second lower air blowing block of the first insufflation unit in device is worn shown in Fig. 1.

Fig. 9 is the structural schematic diagram of air blowing block on wear shown in Fig. 1 the first insufflation unit in device first.

Figure 10 is the structural schematic diagram of air blowing block on wear shown in Fig. 1 the first insufflation unit in device second.

Figure 11 is the structural schematic diagram that air blowing block under the third of the second insufflation unit in device is worn shown in Fig. 1.

Figure 12 is the structural schematic diagram that the 4th lower air blowing block of the second insufflation unit in device is worn shown in Fig. 1.

Figure 13 is the structural schematic diagram that air blowing block in the third of the second insufflation unit in device is worn shown in Fig. 1.

Figure 14 is the structural schematic diagram of air blowing block on wear shown in Fig. 1 the second insufflation unit in device the 4th.

Wherein, the reference numerals are as follows:

1, conducting wire 2, rubber tube 20, threading hole

3, bottom plate 4, mold 40, die cavity

41, lower die 42, upper mold 43, the first groove

44, the first actuator 45, guide post 46, pilot hole

5, poling needle 50, poling needle driving unit 501, linear guide

502, poling seat 503, third actuator 504, third through-hole

51, sub warhead 6, the first insufflation unit 60, inlet wire channel

601, the second groove 61, first is for gas chamber 611, the first air supply space

62, the first lower air blowing block 621, the first protruding portion 622, the first cavity

623, the lower air blowing block of the first air inlet 624, first opening 63, second

631, the first recessed portion 632, the first cavity 633, the first air channel

64, air blowing block 641, the second protruding portion 642, the second cavity on first

643, the 645, first seal groove of the second air inlet 644, second opening

65, air blowing block 651, the second recessed portion 652, the second cavity on second

653, the second air channel 654, the second seal groove 7, the second insufflation unit

70, go out line passage 701, third groove 71, second for gas chamber

711, air blowing block 721, third protruding portion under the second air supply space 72, third

722, third cavity 723, third air inlet 724, third opening

725, first through hole 73, the 4th lower air blowing block 731, third recessed portion

732, third cavity 733, third air channel 74, block of blowing in third

741, the 4th protruding portion 742, the 4th cavity 743, the 4th air inlet

744, the 4th opening 745, third seal groove 746, the second through-hole

75, air blowing block 751, the 4th recessed portion 752, the 4th cavity on the 4th

753, the 4th air channel 754, the 4th seal groove 76, sealing structure

761, sealing element 762, the second actuator 77, sealed passage

8, part 91, the first clamping unit 912, the first fixture block are lubricated

913, fourth drive member 92, the second clamping unit 921, the first pedestal

922, the second fixture block 923, the 5th actuator 93, third clamping unit

931, the second pedestal 932, third fixture block 933, the 6th actuator

101, backing plate 102, cover board 11, first sensor

12, second sensor 13,3rd sensor 14, start button

Specific embodiment

Specific embodiment of the present utility model is described in further detail with reference to the accompanying drawing.These embodiments are only For illustrating the utility model, and it is not limitation of the utility model.

In the description of the present invention, it should be noted that term " center ", " longitudinal direction ", " transverse direction ", "upper", "lower", The orientation or positional relationship of the instructions such as "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside" is It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of describing the present invention and simplifying the description, rather than indicate Or imply that signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore cannot understand For limitations of the present invention.In addition, term " first ", " second " are used for description purposes only, and should not be understood as instruction or Imply relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, be also possible to be electrically connected；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, on can understanding as the case may be State the concrete meaning of term in the present invention.

In addition, in the description of the present invention, unless otherwise indicated, the meaning of " plurality " is two or more.

As shown in figs. 1 to 14, a kind of embodiment for wearing device of the utility model.

Referring to figure 1, figure 2 and figure 3, the device that wears of the present embodiment is used to conducting wire 1 wearing the threading hole into rubber tube 2 In 20,2 internal run-through of rubber tube forms threading hole 20, and one end (such as left end) of rubber tube 2 is end of incoming cables, rubber tube 2 other end (such as right end) is then leading-out terminal, and conducting wire 1 enters threading hole 20 from the end of incoming cables of rubber tube 2, passes through threading hole It is stretched out after 20 from the leading-out terminal of rubber tube 2.Rubber tube 2 is elastic component, and the diameter of conducting wire 1 is greater than 2 threading hole of rubber tube 20 internal diameter.The device that wears of the present embodiment includes: mold 4, poling needle 5, poling needle driving unit 50, the first insufflation unit 6 With the second insufflation unit 7.

Wherein, the die cavity 40 of a perforation is formed inside mold 4, which works for accommodating and fixing rubber tube 2 When, rubber tube 2 is placed in the die cavity 40 of mold 4, and has gap, i.e. mold 4 between rubber tube 2 and the cavity wall of die cavity 40 The internal diameter of die cavity 40 is greater than the outer diameter of rubber tube 2, and it is radial swollen that the presence in the gap allows rubber tube 2 to occur in die cavity 40 It is swollen.One end (such as left end) of die cavity 40 be end of incoming cables, the other end (such as right end) of die cavity 40 then be leading-out terminal, conducting wire 1 from The end of incoming cables of die cavity 40 enters and penetrates in the threading hole 20 of rubber tube 2, from the leading-out terminal of die cavity 40 after threading hole 20 It stretches out.The side (such as left side) that mold 4 is located at 40 end of incoming cables of die cavity is enter line side, and mold 4 is located at the one of 40 leading-out terminal of die cavity Side (such as right side) is then outgoing line side.

Poling needle 5 is located at the enter line side of mold 4, and 5 internal run-through of poling needle is passed through for conducting wire 1, passed through inside poling needle 5 The internal diameter in logical space is greater than the diameter of conducting wire 1, so that conducting wire 1 can be passed through easily.One end (such as left end) of poling needle 5 be into Line end, the other end (such as right end) of poling needle 5 are then leading-out terminal, and conducting wire 1 enters poling needle 5 from the end of incoming cables of poling needle 5, and It is stretched out from the leading-out terminal of poling needle 5.Under original state, poling needle 5 is located at the enter line side of mold 4, and the leading-out terminal court of poling needle 5 To mold 4, the axis of the axis and 4 die cavity 40 of mold of poling needle 5 is located along the same line, thus the axis of poling needle 5 with set It also is located on same straight line in the axis of the rubber tube 2 in die cavity 40.The outer diameter of poling needle 5 is greater than 2 threading hole of rubber tube Poling needle 5 when work, under the elastic reaction of rubber tube 2, can be penetrated the threading hole 20 of rubber tube 2 by 20 internal diameter In, in the threading hole 20 of rubber tube 2 formed support, then conducting wire 1 is passed through out of poling needle 5, then by poling needle 5 from It is exited in the threading hole 20 of rubber tube 2, conducting wire 1 can be realized and wear into rubber tube 2.The leading-out terminal of poling needle 5 is removable One sub warhead 51 is installed with unloading, sub warhead 51 is tapered, and the sub warhead 51 of taper can play guiding role, is conducive to wear Pipe needle 5 introduces in the threading hole 20 of rubber tube 2.Poling needle driving unit 50 is connected with poling needle 5, poling needle driving unit 50 driving poling needles 5 are for linear motion in the axial direction, and poling needle 5 is made to enter or exit the threading hole 20 of rubber tube 2.

First insufflation unit 6 is set to the end of incoming cables of 4 die cavity 40 of mold, and the second insufflation unit 7 is set to going out for 4 die cavity 40 of mold Line end, the first insufflation unit 6 and the second insufflation unit 7 can be passed through gas into the threading hole 20 of rubber tube 2, so that rubber The threading hole 20 of sebific duct part 2 is radially expanded under the influence of air pressure, so that between generating between 20 hole wall of poling needle 5 and threading hole Gap, so that poling needle 5 can easily pass through threading hole 20.Specifically, when poling needle driving unit 50 drive poling needle 5 from When end of incoming cables enters the threading hole 20 of rubber tube 2 to leading-out terminal, positioned at leading-out terminal the second insufflation unit 7 with from end of incoming cables into Form a confined space between 5 sub warhead 51 of poling needle entered, blown from the second insufflation unit 7 into threading hole 20, air-flow into Enter in the confined space, threading hole 20 may make to be radially expanded under the influence of air pressure, in poling needle 5 and 20 hole wall of threading hole Between generate gap, so that poling needle 5 be made easily to pass through in threading hole 20；When poling needle driving unit 50 drives poling needle 5 When reversely exiting the threading hole 20 of rubber tube 2 to end of incoming cables from leading-out terminal, positioned at the first insufflation unit 6 of end of incoming cables and from out A confined space is formed between 5 leading-out terminal of poling needle that line end retracts, is blown from the first insufflation unit 6 into threading hole 20, gas Stream enters in the confined space, may make threading hole 20 to be radially expanded under the influence of air pressure, in poling needle 5 and threading hole 20 Gap is generated between hole wall, so that poling needle 5 be made easily to exit in threading hole 20.

The present embodiment wears device by penetrating poling needle 5 in the threading hole 20 of rubber tube 2 as a result, is threading Support is formed in hole 20, and easily conducting wire 1 can be passed through out of poling needle 5, then move back poling needle 5 from threading hole 20 Out, conducting wire 1 can be realized to wear into rubber tube 2；By the second insufflation unit 7 and the first insufflation unit 6 respectively in poling Needle 5 enters and is passed through gas into threading hole 20 when exiting threading hole 20, and the threading hole 20 of rubber tube 2 can be made in air pressure It is radially expanded under effect, so that gap is generated between 20 hole wall of poling needle 5 and threading hole, so that poling needle 5 can be light Pine passes through threading hole 20.Therefore it entirely wears process very comfortable to be easy, especially for length is longer or the rubber tube of overlength Part 2 can easily wear into conducting wire 1.

In the present embodiment, referring to fig. 2, when rubber tube 2 is placed in the die cavity 40 of mold 4, the both ends of rubber tube 2 are distinguished It offsets with the first insufflation unit 6 and the second insufflation unit 7.When poling needle driving unit 50 drive poling needle 5 from end of incoming cables to When leading-out terminal enters the threading hole 20 of rubber tube 2, under the action of poling needle 5, the leading-out terminal end face and second of rubber tube 2 7 pressure of insufflation unit fitting, it is ensured that be in air-tight state inside threading hole 20；Conversely, when the driving of poling needle driving unit 50 is worn When pipe needle 5 reversely exits the threading hole 20 of rubber tube 2 to end of incoming cables from leading-out terminal, under the action of poling needle 5, rubber tube 2 end of incoming cables end face is bonded with 6 pressure of the first insufflation unit, also can guarantee to be in air-tight state inside threading hole 20.

Referring to fig. 2, Fig. 4 and Fig. 5, in the present embodiment, it is preferable that mold 4 includes lower die 41 and upper mold 42, and upper mold 42 can rise It is respectively provided with one first groove 43 on the opposite top for being set to lower die 41 in drop ground, upper mold 42 and the opposite surface of lower die 41, two the One groove 43 is connected to each other to form die cavity 40.Upper mold 42 and the docking of lower die 41 can be achieved by the lifting of upper mold 42 and separate: joining See Fig. 4, when upper mold 42 is separated with lower die 41, mold 4 is in die opening state, rubber tube 2 can be placed into lower die 41 at this time The first groove 43 in, or rubber tube 2 taken out from the first groove 43 of lower die 41；Referring to Fig. 5, when upper mold 42 is under When mould 41 is connected to each other, mold 4 is in molding state, and rubber tube 2 can be accommodated and secured in die cavity 40 at this time.

Further, referring to fig. 2, Fig. 4 and Fig. 6, upper mold 42 can be connected with the first actuator 44, by the first actuator 44 Upper mold 42 is driven to go up and down.First actuator 44 can be equipped with it is multiple, such as two, by multiple first actuators 44 jointly driving Mould 42 is gone up and down, and the stability of 42 elevating movement of upper mold can be enhanced.Preferably, guide post 45 can be equipped in upper mold 42, Pilot hole 46 can be equipped in lower die 41, guide post 45 is movably plugged in pilot hole 46, it is possible thereby to 42 phase of upper mold Guiding role is played to the elevating movement of lower die 41, prevents from generating between two the first grooves 43 in upper mold 42 and lower die 41 inclined It moves.Guide post 45 in upper mold 42 can be equipped with it is multiple, such as two, the quantity and guide post 45 of pilot hole 46 in lower die 41 Quantity matches.By the cooperation of multiple groups guide post 45 and pilot hole 46, guiding role can be enhanced, guarantee the lifting fortune of upper mold 42 Dynamic stability.The form of first actuator 44 is not limited to, it is preferable that the first actuator 44 can be cylinder.

In the present embodiment, referring to fig. 2, Fig. 4 and Fig. 5, it is preferable that be formed with inside the first insufflation unit 6 perforation into Line passage 60, inlet wire channel 60 are connected with the end of incoming cables of die cavity 40, and inlet wire channel 60 passes through for poling needle 5, inlet wire channel 60 one end (such as left end) is end of incoming cables, and the other end (such as right end) in inlet wire channel 60 is then leading-out terminal, inlet wire channel 60 Leading-out terminal be connected with the end of incoming cables of die cavity 40, the axis of the axis and die cavity 40 in inlet wire channel 60 is located along the same line. Gas is passed through in a threading hole 20 to rubber tube 2 first is formed with for air cavity in the periphery of the leading-out terminal in inlet wire channel 60 Room 61.First is connected for gas chamber 61 with external air source, from external air source to first for being passed through gas, gas in gas chamber 61 Into first for flow to rubber tube 2 after gas chamber 61 threading hole 20 in.For the uniformity for guaranteeing air inlet, it is preferable that first For gas chamber 61 around the periphery one week of 60 leading-out terminal of inlet wire channel, so as in the circumferential uniformly to the threading of rubber tube 2 Gas is passed through in hole 20.To guarantee leakproofness, it is preferable that the internal diameter in inlet wire channel 60 and the outer diameter of poling needle 5 match, so that It is very close to each other between poling needle 5 and inlet wire channel 60, to be conducive to enter or exit the threading of rubber tube 2 in poling needle 5 When hole 20, the formation of confined space in threading hole 20, and ensure its leakproofness.

Further, referring to fig. 4 and Fig. 5, the first insufflation unit 6 may include the first lower lower air blowing block of air blowing block 62, second 63, air blowing block 65 on air blowing block 64 and second on first.First lower air blowing block 62 and the second lower air blowing block 63 are set to lower die 41 Enter line side, air blowing block 65 is set to the enter line side of upper mold 42, also, block of blowing on first on air blowing block 64 and second on first Air blowing block 65 is with 42 synchronization lifting of upper mold on 64 and second.Air blowing block 64 is oppositely arranged with the first lower air blowing block 62 on first, It is respectively provided with one second groove 601, two the second grooves under air blowing block 64 and first on the opposite surface of air blowing block 62 on first 601 are connected to each other composition inlet wire channel 60.Second lower air blowing block 63 air blowing block under the outgoing line side and first of air blowing block 62 under first 62 are oppositely arranged, i.e., the second lower air blowing block 63 is between the first lower air blowing block 62 and lower die 41；Air blowing block 65 is on second Air blowing block 64 is oppositely arranged on the outgoing line side of air blowing block 64 and first on one, i.e., air blowing block 65 is located on first block of blowing on second Between 64 and upper mold 42；Also, air blowing block 65 and the second lower air blowing block 63 are in be oppositely arranged up and down on second.It blows under second Between block 63 and the opposite surface of the first lower air blowing block 62, on second the surface opposite with air blowing block 64 on first of air blowing block 65 it Between be respectively formed with one first air supply space 611, two the first air supply spaces 611 are connected to each other composition first for gas chamber 61.

Referring to Fig. 7, the first lower air blowing block 62 has the first protruding portion 621, and the first protruding portion 621 is located at the first lower air blowing block On the side side of 62 the second lower air blowing blocks 63 of direction, and the second groove 601 on the first lower air blowing block 62 is passed through along threading direction Wear the first lower air blowing block 62 and the first protruding portion 621.It is formed with one first cavity 622 under first inside air blowing block 62, first Cavity 622 has one first air inlet 623 and one first opening 624, and the first air inlet 623 is supplied for being connected to external air source Body enters, and the first opening 624 is located at the first lower air blowing block 62 towards on the side side of the second lower air blowing block 63.Referring to Fig. 8, The upper surface of two lower air blowing blocks 63, which is recessed downwards, forms the first recessed portion 631, air blowing block 62 under the first recessed portion 631 and first First protruding portion 621 matches, and the side side-facing depressions of the second lower air blowing block 63 towards the first lower air blowing block 62 form one first Cavity 632, and the upper end of the first cavity 632 is connected with the first recessed portion 631, opens up on the bottom wall of the first recessed portion 631 There are the first air channel 633, the lower air blowing block 63 of the first air channel 633 perforation second two sides side opposite along threading direction.First Air channel 633 can be equipped with multiple, and multiple first air channels 633 are uniformly distributed on the bottom wall of the first recessed portion 631.By When once air blowing block 62 is oppositely arranged and is fixedly connected along threading direction with the second lower air blowing block 63, the of the first lower air blowing block 62 One protruding portion 621 is placed in the first recessed portion 631 of the second lower air blowing block 63, and the first protruding portion 621 and the first recessed portion There is gap, the first cavity 622 of the first lower air blowing block 62 passes through air blowing block 63 under the first opening 624 and second between 631 First cavity 632 is connected.By the first cavity 622, the first cavity 632 and the first protruding portion 621 and the first recessed portion 631 it Between clearance space collectively form the first air supply space 611 between the first lower air blowing block 62 and the second lower air blowing block 63.It is external Gas source can flow into the first cavity 632, then after the first air inlet 623 is passed through in the first cavity 622 through the first opening 624 It is discharged from the first air channel 633 of the first recessed portion 631, into the threading hole 20 of rubber tube 2.

Referring to Fig. 9, air blowing block 64 has the second protruding portion 641 on first, and the second protruding portion 641 is located on first block of blowing In 64 directions second on the side side of air blowing block 65, and the second groove 601 on first on air blowing block 64 is passed through along threading direction Wear air blowing block 64 and the second protruding portion 641 on first.It is formed with one second cavity 642 inside air blowing block 64 on first, second Cavity 642 has one second air inlet 643 and one second opening 644, and the second air inlet 643 is supplied for being connected to external air source Body enters, and the second opening 644 is located on first on air blowing block 64 towards second on the side side of air blowing block 65.Referring to Figure 10, The lower surface of air blowing block 65 is recessed to form the second recessed portion 651 on second, the of air blowing block 64 on the second recessed portion 651 and first Two protruding portions 641 match, and the side side-facing depressions formation one second of air blowing block 64 is recessed on air blowing block 65 towards first on second Chamber 652, and the lower end of the second cavity 652 is connected with the second recessed portion 651, offers on the bottom wall of the second recessed portion 651 Second air channel 653, the second air channel 653 penetrate through the two sides side opposite along threading direction of air blowing block 65 on second.Second is logical Air drain 653 can be equipped with multiple, and multiple second air channels 653 are uniformly distributed on the bottom wall of the second recessed portion 651.By first When upper air blowing block 64 is oppositely arranged and is fixedly connected along threading direction with air blowing block 65 on second, the second of air blowing block 64 on first Protruding portion 641 is placed in the second recessed portion 651 of air blowing block 65 on second, and the second protruding portion 641 and the second recessed portion 651 Between there is gap, the second cavity 642 of air blowing block 64 passes through second of air blowing block 65 in the second opening 644 and second on first Cavity 652 is connected.By between the second cavity 642, the second cavity 652 and the second protruding portion 641 and the second recessed portion 651 Clearance space collectively forms the second air supply space 611 on first on air blowing block 64 and second between air blowing block 65.External air source After the second air inlet 643 is passed through in the second cavity 642, it can be flowed into the second cavitys 652 through the second opening 644, then from the Second air channel 653 of two recessed portions 651 is discharged, into the threading hole 20 of rubber tube 2.

When upper mold 42 and lower die 41 mold, on first air blowing block 64 and the first lower air blowing block 62 with respect to be bonded connect, second Upper air blowing block 65 connects with the second lower opposite be bonded of air blowing block 63, constitutes the first insufflation unit 6, the first lower air blowing block 62 and second The second gas supply on the first air supply space 611, first between lower air blowing block 63 on air blowing block 64 and second between air blowing block 65 Space 611 is connected to each other constitute the first insufflation unit 6 first for gas chamber 61.It is placed in the inlet wire of the rubber tube 2 in die cavity 40 End end face and the end face of air blowing block 65 on the second lower air blowing block 63 and second offset.It is excellent in the present embodiment to guarantee leakproofness Selection of land, referring to Fig. 9 and Figure 10, the two sides of second groove 601 offer the first sealing on the lower surface of air blowing block 64 on first Slot 645, the two sides of second recessed portion 651 offer the second seal groove 654 on the lower surface of air blowing block 65 on second, by first When upper air blowing block 64 is oppositely arranged and is fixedly connected along threading direction with air blowing block 65 on second, the first seal groove 645 and second Seal groove 654 is connected to each other, and sealing strip is arranged in the first seal groove 645 and the second seal groove 654, then can blow block on first 64 and first between the opposite surface of lower air blowing block 62, on second between air blowing block 65 and the opposite surface of the second lower air blowing block 63 Sealing is formed, thus good airtightness of the guarantee first for gas chamber 61.The sealing strip can be rubber parts.

In the present embodiment, referring to fig. 2, Fig. 4 and Fig. 5, it is preferable that going out for a perforation is formed with inside the second insufflation unit 7 Line passage 70, line passage 70 is connected with the leading-out terminal of die cavity 40 out, and line passage 70 penetrates out for poling needle 5, and for across The conducting wire 1 of poling needle 5 passes through, i.e., conducting wire 1 can stretch out after passing through poling needle 5 from line passage 70 out, out one end (example of line passage 70 Such as left end) it is end of incoming cables, the other end (such as right end) of line passage 70 is then leading-out terminal out, out the end of incoming cables of line passage 70 and mould The leading-out terminal of chamber 40 is connected, and the axis of the axis with die cavity 40 of line passage 70 is located along the same line out.In line passage 70 out The periphery of end of incoming cables be formed with one and be passed through the second of gas into the threading hole 20 of rubber tube 2 for gas chamber 71.Second supplies Gas chamber 71 is connected with external air source, and from external air source to second for being passed through gas in gas chamber 71, gas enters second and supplies It is flowed to after gas chamber 71 in the threading hole 20 of rubber tube 2.For the uniformity for guaranteeing air inlet, it is preferable that second for gas chamber 71 The periphery of 70 end of incoming cables of line passage out is surround one week, so as to uniformly be passed through in the circumferential into the threading hole 20 of rubber tube 2 Gas.

To guarantee leakproofness, it is equipped with a sealing structure 76 in the leading-out terminal of line passage 70 out, sealing structure 76 leads to outlet The closing of road 70 is opened.Preferably, a sealed passage 77 is formed with inside the second insufflation unit 7, sealed passage 77 and outlet are logical 70 vertical connection of road, in the present embodiment, sealed passage 77 extends along the vertical direction.Sealing structure 76 may include a sealing element 761 and one second actuator 762, sealing element be set in sealed passage 77, the second actuator 762 is connected with sealing element 761, and Second actuator 762 drives sealing element 761 along the axial movement of sealed passage 77.When sealing element 761 be located at sealed passage 77 with Out when the connectivity part of line passage 70, sealing element 761 can will go out the partition closing of line passage 70 at this；When sealing element 761 leaves When sealed passage 77 is with the connectivity part of line passage 70 out, line passage 70 is then opened out.When work, in the initial state, sealing element 761 are located at the position that line passage 70 is left out in sealed passage 77；Drive poling needle 5 from end of incoming cables in poling needle driving unit 50 When entering the threading hole 20 of rubber tube 2 to leading-out terminal, the second actuator 762 driving sealing element 761 moves to sealed passage 77 With the connectivity part of line passage 70 out, line passage 70 out is closed, at this point, the leading-out terminal end face of rubber tube 2 and the second air blowing are single First 7 pressure fitting, therefore the threading hole 20 that is located between the sub warhead 51 and sealing element 761 of poling needle 5 and line passage 70 is connected to out Confined space is constituted, ensure that airtightness；After in the threading hole 20 that poling needle 5 penetrates rubber tube 2, the second actuator The 762 driving movements of sealing element 761, which are reset to, leaves out line passage 70, the unlatching of line passage 70 is used, so that conducting wire 1 passes through poling needle It can be stretched out from line passage 70 out after 5, realize wearing for conducting wire 1.In the present embodiment, the form of the second actuator 762 is not limited to, Preferably, the second actuator 762 can be cylinder.Sealing element 761 can preferably be vent plug.

Further, referring to fig. 4 and Fig. 5, the second insufflation unit 7 may include air blowing block 72 under third, the 4th lower air blowing block 73, air blowing block 75 on air blowing block 74 and the 4th in third.Air blowing block 72 and the 4th lower air blowing block 73 are set to lower die 41 under third Outgoing line side, air blowing block 75 is set to the outgoing line side of upper mold 42, also, block of blowing in third on air blowing block 74 and the 4th in third Air blowing block 75 is with 42 synchronization lifting of upper mold on 74 and the 4th.Air blowing block 74 is oppositely arranged with air blowing block 72 under third in third, A third groove 701, two third grooves are respectively provided on the opposite surface of air blowing block 72 under air blowing block 74 and third in third 701 are connected to each other and constitute out line passage 70.4th lower air blowing block 73 is blown under the enter line side and third of air blowing block 72 block under third 72 are oppositely arranged, i.e., the 4th lower air blowing block 73 is located under third between air blowing block 72 and lower die 41；Air blowing block 75 is on 4th Air blowing block 74 is oppositely arranged in the enter line side and third of air blowing block 74 on three, i.e., air blowing block 75 is located in third block of blowing on the 4th Between 74 and upper mold 42；Also, air blowing block 75 and the 4th lower air blowing block 73 are in be oppositely arranged up and down on the 4th.It blows under the 4th Under block 73 and third between the opposite surface of air blowing block 72, on the 4th the surface opposite with air blowing block 74 in third of air blowing block 75 it Between be respectively formed with one second air supply space 711, two the second air supply spaces 711 are connected to each other composition second for gas chamber 71.

Referring to Figure 11, air blowing block 72 has third protruding portion 721 under third, and third protruding portion 721, which is located under third, blows Block 72 is descended towards the 4th on the side side of air blowing block 73, and the third groove 701 under third on air blowing block 72 is along threading direction The air blowing block 72 under third protruding portion 721 and third.A third cavity 722 is formed with inside air blowing block 72 under third, the Three cavitys 722 have a third air inlet 723 and third opening 724, and third air inlet 723 is supplied for being connected to external air source Gas enters, and third opening 724 is located at air blowing block 72 under third and is descended on the side side of air blowing block 73 towards the 4th.It is blown under third Air parcel 72 is formed with a first through hole 725 inside the side far from third protruding portion 721, blow under the first through hole 725 and third 701 vertical connection of third groove on air parcel 72, the sealing element 761 of sealing structure 76 and the second actuator 762 are placed in In one through-hole 725, and cooperation is sealed between sealing element 761 and the hole wall of the first through hole 725.Referring to Figure 12, the 4th lower air blowing The upper surface of block 73, which is recessed downwards, forms third recessed portion 731, and the third of air blowing block 72 is prominent under third recessed portion 731 and third Portion 721 matches, and the side side-facing depressions of the 4th lower air blowing block 73 towards air blowing block 72 under third form a third cavity 732, And the upper end of third cavity 732 is connected with third recessed portion 731, and it is logical that third is offered on the bottom wall of third recessed portion 731 Air drain 733, the lower air blowing block 73 of the perforation of third air channel 733 the 4th two sides side opposite along threading direction.Third air channel 733 It can be equipped with multiple, and multiple third air channels 733 are uniformly distributed on the bottom wall of third recessed portion 731.It will blow under third When block 72 is oppositely arranged and is fixedly connected along threading direction with the 4th lower air blowing block 73, the third protruding portion of air blowing block 72 under third 721 are placed in the third recessed portion 731 of the 4th lower air blowing block 73, and have between third protruding portion 721 and third recessed portion 731 There is gap, the third cavity that the third cavity 722 of air blowing block 72 passes through third opening 724 and the 4th lower air blowing block 73 under third 732 are connected.By the gap between third cavity 722, third cavity 732 and third protruding portion 721 and third recessed portion 731 Space collectively forms the second air supply space 711 under third between air blowing block 72 and the 4th lower air blowing block 73.External air source is through After three air inlets 723 are passed through in third cavity 722, it can be open through third in 724 inflow third cavitys 732, it is then recessed from third The third air channel 733 of concave portion 731 is discharged, into the threading hole 20 of rubber tube 2.

Referring to Figure 13, air blowing block 74 has the 4th protruding portion 741 in third, and the 4th protruding portion 741, which is located in third, blows Third groove 701 on block the 74 towards the 4th on the side side of air blowing block 75, and in third on air blowing block 74 is along threading direction The air blowing block 74 on the 4th protruding portion 741 and third.One the 4th cavity 742 is formed with inside air blowing block 74 in third, the Four cavitys 742 have one the 4th air inlet 743 and one the 4th opening 744, and the 4th air inlet 743 is supplied for being connected to external air source Gas enters, and the 4th opening 744 is located in third on air blowing block the 74 towards the 4th on the side side of air blowing block 75.It is blown in third Air parcel 74 is formed with the second through-hole 746 inside the side far from the 4th protruding portion 741, blows in second through-hole 746 and third 701 vertical connection of third groove on block 74, second through-hole 746 are docked with the first through hole 725 under third on air blowing block 72 Constitute sealed passage 77.Referring to Figure 14, the lower surface of air blowing block 75 is recessed to form the 4th recessed portion 751 on the 4th, the 4th recess Portion 751 and the 4th protruding portion 741 of air blowing block 74 in third match, and air blowing block 75 is towards air blowing block 74 in third on the 4th Side side-facing depressions form one the 4th cavity 752, and the lower end of the 4th cavity 752 is connected with the 4th recessed portion 751, the 4th The 4th air channel 753 is offered on the bottom wall of recessed portion 751, air blowing block 75 is along threading side in the 4th air channel 753 perforation the 4th To opposite two sides side.4th air channel 753 can be equipped with multiple, and multiple 4th air channels 753 are in the 4th recessed portion 751 Bottom wall on be uniformly distributed.By air blowing block 75 along threading direction is oppositely arranged and is fixedly connected on air blowing block 74 and the 4th in third When, the 4th protruding portion 741 of air blowing block 74 is placed in the 4th recessed portion 751 of air blowing block 75 on the 4th in third, and the 4th There is gap, the 4th cavity 742 of air blowing block 74 passes through the 4th opening in third between protruding portion 741 and the 4th recessed portion 751 744 are connected with the 4th cavity 752 of air blowing block 75 on the 4th.It is prominent by the 4th cavity 742, the 4th cavity 752 and the 4th Clearance space between portion 741 and the 4th recessed portion 751 collectively forms in third on air blowing block 74 and the 4th between air blowing block 75 The 4th air supply space 711.External air source, can be through the 4th opening 744 after the 4th air inlet 743 is passed through in the 4th cavity 742 It flows into the 4th cavity 752, is then discharged from the 4th air channel 753 of the 4th recessed portion 751, into the threading of rubber tube 2 In hole 20.

When upper mold 42 and lower die 41 mold, in third air blowing block 74 and air blowing block 72 under third with respect to be bonded connect, the 4th Upper air blowing block 75 connects with the 4th lower opposite be bonded of air blowing block 73, constitutes third insufflation unit 7, air blowing block 72 and the 4th under third The 4th gas supply on third air supply space 711, third between lower air blowing block 73 on air blowing block 74 and the 4th between air blowing block 75 Space 711 is connected to each other the third for constituting third insufflation unit 7 for gas chamber 71.It is placed in the outlet of the rubber tube 2 in die cavity 40 End end face and the end face of air blowing block 75 on the 4th lower air blowing block 73 and the 4th offset.It is excellent in the present embodiment to guarantee leakproofness Selection of land, referring to Figure 13 and Figure 14, the two sides of third groove 701 offer third sealing on the lower surface of air blowing block 74 in third Slot 745, the two sides of the 4th recessed portion 751 offer the 4th seal groove 754 on the lower surface of air blowing block 75 on the 4th, by third When upper air blowing block 74 is oppositely arranged and is fixedly connected along threading direction with air blowing block 75 on the 4th, third seal groove 745 and the 4th Seal groove 754 is connected to each other, and sealing strip is arranged in third seal groove 745 and the 4th seal groove 754, then can blow block in third 74 and third under between the opposite surface of air blowing block 72, on the 4th between air blowing block 75 and the opposite surface of the 4th lower air blowing block 73 Sealing is formed, to guarantee third for the good airtightness of gas chamber 71.The sealing strip can be rubber parts.

Referring to Fig. 1, Fig. 4 and Fig. 5, the device that wears of the present embodiment further includes a backing plate 101 and a cover board 102, backing plate 101 It is oppositely arranged with cover board 102 in interval up and down, and cover board 102 is located at the top of backing plate 101.The lower air blowing block 62 of lower die 41, first, Air blowing block 72 and the 4th lower air blowing block 73 are fixedly supported on the upper surface of backing plate 101, upper mold under second lower air blowing block 63, third 42, air blowing block 65 on air blowing block 64, second on first, air blowing block 75 is then fixedly supported on air blowing block 74 and the 4th in third The lower surface of cover board 102, the first actuator 44 drive cover board 102, air blowing block 65 on air blowing block 64, second in upper mold 42, first, 75 Integral synchronous of air blowing block is gone up and down on air blowing block 74 and the 4th in third.

In the present embodiment, referring to Fig. 1 and Fig. 2, it is preferable that poling needle driving unit 50 includes that a linear guide 501, one is worn Tube socket 502 and a third actuator 503.Linear guide 501 is slidingly disposed at along threading direction linear extension, poling seat 502 In linear guide 501, poling seat 502 is the third through-hole 504 for offering one along the perforation of threading direction, the end of incoming cables of poling needle 5 It is fixedly mounted in the third through-hole 504 of poling seat 502, and the axis of poling needle 5 is parallel with linear guide 501, conducting wire 1 can To enter in poling needle 5 through third through-hole 504.Third actuator 503 is connected with poling seat 502, is driven by third actuator 503 Dynamic poling seat 502 slidably reciprocates in linear guide 501, to drive poling needle 5 for linear motion in the axial direction, makes poling Needle 5 enters or exits the threading hole 20 of rubber tube 2.

Referring to Fig. 1, it is preferable that the device that wears of the present embodiment further includes a bottom plate 3, poling needle driving unit 50 it is whole and Backing plate 101 is arranged on bottom plate 3, the second actuator of driving upper mold 41 the first actuator 44 gone up and down and sealing structure 76 762 can also be supported on bottom plate 3.Bottom plate 3 can be placed on level table as the bottom support plate for entirely wearing device.

Referring to Fig. 1, it is preferable that the device that wears of the present embodiment further includes a lubrication part 8, and lubrication part 8 is set to first and blows Side of the unit 6 far from die cavity 40, lubrication part 8 can be set on the side side that cover board 102 is located at 4 enter line side of mold.Profit Saddle 8, to reduce the frictional force between poling needle 5 and rubber tube 2, makes to wear for being lubricated the outer peripheral surface of poling needle 5 Set process is easier.Preferably, lubrication part 8 can be atomizer, be atomized alcohol using atomizer, and by the alcohol after atomization It is sprayed on the outer peripheral surface of poling needle 5, good lubricant effect can be played.

Referring to Fig. 1 and Fig. 3, it is preferable that the device that wears of the present embodiment further includes one first clamping unit 91, and first clamps Unit 91 is set to the second side of the insufflation unit 7 far from die cavity 40, and has between the first clamping unit 91 and the second insufflation unit 7 There is spacing distance.First clamping unit 91 is used to clamp the conducting wire 1 stretched out from the second insufflation unit 7, to fix conducting wire 1 and keep Conducting wire 1 is in straightened condition.Preferably, the first clamping unit 91 includes the first fixture block 912 and fourth drive member 913.4 wheel driven Moving part 913 is arranged on bottom plate 3, there are two the first fixture block 912 is set, two 912 relative spacings of the first fixture block and can be movable relatively Ground is arranged in fourth drive member 913, and the clearance space along the perforation of threading direction, conducting wire 1 are formed between two the first fixture blocks 912 It can pass through from the clearance space, two the first fixture blocks 912 are connected with fourth drive member 913, are driven by fourth drive member 913 Dynamic two the first fixture blocks 912 synchronize relative motion, so as to clamp or loosen the conducting wire 1 between two the first fixture blocks 912. The form of fourth drive member 913 is not limited to, it is preferable that fourth drive member 913 can be cylinder.

Further, referring to Fig. 1 and Fig. 3, the device that wears of the present embodiment can also include one second clamping unit 92, and second Clamping unit 92 is set to side of first clamping unit 91 far from the second insufflation unit 7, and the second clamping unit 92 and the first folder There is spacing distance, the second clamping unit 92 is being led for clamping one end end that conducting wire 1 is located at outgoing line side between tight unit 91 Conducting wire 1 can be effectively fixed in the longer situation of 1 length of line and conducting wire 1 is kept to be in straightened condition.Preferably, second list is clamped Member 92 includes the first pedestal 921, the second fixture block 922 and the 5th actuator 923.First pedestal 921 is arranged on bottom plate 3, and second Fixture block 922 is arranged on the first pedestal 921, and is formed between the second fixture block 922 and the first pedestal 921 along the perforation of threading direction Clearance space, conducting wire 1 can pass through from the clearance space, and the second fixture block 922 is connected with the 5th actuator 923, be driven by the 5th Moving part 923 drives the second fixture block 922 to move along the direction perpendicular to threading direction, to change the second fixture block 922 and the first base The size of clearance space between seat 921 is, it can be achieved that clamp or loosen the conducting wire 1 in the clearance space.5th actuator 923 form is not limited to, it is preferable that the 5th actuator 923 can be cylinder.

Further, referring to Fig. 1 and Fig. 3, the device that wears of the present embodiment can also include a third clamping unit 93, third Clamping unit 93 is set to the enter line side of poling needle 5, and third clamping unit 93 is for clamping one end end that conducting wire 1 is located at enter line side Portion, to fix conducting wire 1 and conducting wire 1 is kept to be in straightened condition.Preferably, third clamping unit 93 includes the second pedestal 931, the Three fixture blocks 932 and the 6th actuator 933.Second pedestal 931 is arranged on bottom plate 3, and in the present embodiment, the second pedestal 931 is located at Between the third actuator 503 and poling seat 502 of poling needle driving unit 50, the telescopic end of third actuator 503 is movably It is connected after the second pedestal 931 with poling seat 502.Third fixture block 932 is arranged on the second pedestal 931, and third fixture block 932 and second form the clearance space along the perforation of threading direction between pedestal 931, and conducting wire 1 can pass through from the clearance space, the Three fixture blocks 932 are connected with the 6th actuator 933, by the 6th actuator 933 driving third fixture block 932 along perpendicular to threading direction Direction movement, thus change the size of the clearance space between third fixture block 932 and the second pedestal 931, it can be achieved that clamp or Loosen the conducting wire 1 being located in the clearance space.The form of 6th actuator 933 is not limited to, it is preferable that the 6th actuator 933 It can be cylinder.

For the degree of automation for wearing device work for increasing the present embodiment, it is preferable that the present embodiment wears device also Including a controller (not shown), the form of controller is not limited to, such as can be PLC controller or single-chip microcontroller.It drives Two the first actuators 44 that dynamic upper mold 42 is gone up and down, the second actuator 762 in sealing structure 76, in the first clamping unit 91 Fourth drive member 913, the 5th actuator 923 in the second clamping unit 92, the 6th actuator 933 in third clamping unit 93 And lubrication part 8 (atomizer), the first insufflation unit 6, the second insufflation unit 7 are connected with controller, are controlled by controller Each actuator movement and lubrication part 8, the first insufflation unit 6, the second insufflation unit 7 start or stop work, so as to right Several processes worn in the device course of work carry out automatically controlling, and effectively improve working efficiency.

Referring to Fig. 1 and Fig. 3, in the present embodiment, it is preferable that be equipped with a first sensor 11, first sensor on bottom plate 3 11 are connected with controller, by touching first sensor 11, first sensor 11 can be made to generate trigger signal, and by the triggering Signal is conveyed to controller, and controller receives and responds to the trigger signal, issues action command to two the first actuators 44, Two the first actuator 44 driving upper molds 42 are dropped to mold with lower die 41.Preferably, first sensor 11 is arranged in bottom plate 3 At the position of upper close 4 enter line side of mold, in order to which staff is in the first groove 43 that rubber tube 2 is placed into lower die 41 In after, hand takes sub warhead 51 first to touch first sensor 11, then sub warhead 51 is installed on the leading-out terminal of poling needle 5.

Referring to Fig. 3, in the present embodiment, it is preferable that be equipped with the second sensing on the first pedestal 921 of the second clamping unit 92 Device 12, second sensor 12 are connected with controller, and second sensor 12 is used to detect the second fixture block of the second clamping unit 92 922 and the first clearance space between pedestal 921 in whether have conducting wire 1, and will test signal and be conveyed to controller, controller The fourth drive member 913 and the second clamping unit of the first clamping unit 91 are controlled according to the signal that second sensor 12 detects 92 the 5th actuator 923 movement, to clamp conducting wire 1.

Referring to Fig. 3, in the present embodiment, it is preferable that be equipped with third on the second pedestal 931 of third clamping unit 93 and sense Device 13,3rd sensor 13 are connected with controller, and 3rd sensor 13 is used to detect the third fixture block of third clamping unit 93 932 and the second clearance space between pedestal 931 in whether have conducting wire 1, and will test signal and be conveyed to controller, controller According to the 6th actuator 933 movement for the signal control third clamping unit 93 that 3rd sensor 13 detects, to clamp conducting wire 1。

In the present embodiment, it is preferable that be equipped with the 4th sensing inside the third actuator 503 in poling needle driving unit 50 Device (not shown), the 4th sensor are connected with controller, and whether the 4th sensor is multiple for detecting third actuator 503 Position in place, and will test signal and be conveyed to controller, the first folder of signal control that controller is detected according to the 4th sensor The 6th of the fourth drive member 913 of tight unit 91, the 5th actuator 923 of the second clamping unit 92 and third clamping unit 93 Actuator 933 acts, and to loosen conducting wire 1, while controlling two the first actuator 44 movements, and driving upper mold 42 rises, and makes upper mold 42 separate with lower die 41.

In the present embodiment, it is preferable that be equipped with start button 14 on bottom plate 3, can star by started by press button 14 Third actuator 503 in poling needle driving unit 50 acts third actuator 503 and poling needle 5 is driven to enter or exit The threading hole 20 of rubber tube 2.Safely for guarantee, there are two start button 14 can be set, two start buttons 14 are arranged at In a side of bottom plate 3, there is spacing distance, and the spacing distance use staff must between two start buttons 14 Two hands press two start buttons 14 simultaneously respectively, to prevent the hand of staff from protruding into the workspace of poling needle 5 and mold 4 Domain and it is injured.

The above-mentioned work step for wearing device of the present embodiment is as follows:

(1) under original state, poling needle 5 is located at the enter line side of mold 4, and sub warhead 51 is separated with 5 phase of poling needle, upper mold 42 It is separated with 41 phase of lower die, mold 4 is in die opening state, and the sealing element 761 of sealing structure 76 is located at the sealing of the second insufflation unit 7 (third is recessed on air blowing block 72 under third in channel 77 (first through hole 725 of air blowing block 72 under third) and positioned at line passage 70 is gone out Slot 701) lower section.

(2) rubber tube 2 is placed into the first groove 43 of lower die 41.

(3) staff's hand takes sub warhead 51 first to touch first sensor 11, then sub warhead 51 is installed to poling needle 5 On leading-out terminal.First sensor 11 generates trigger signal after being touched, controller controls two first drives according to the trigger signal Moving part 44 acts, and two the first actuator 44 driving upper molds 42 decline, until stopping acts after molding with lower die 41；At the same time, Controller controls the second actuator 762 in sealing structure 76 according to the trigger signal and acts, the driving sealing of the second actuator 762 Part 761 moves upwards, until sealing element 761 reach sealed passage 77 at the position that line passage 70 is connected out after stopping movement. At this point, rubber tube 2 is fixed in die cavity 40, sealing element 761 will go out the partition closing of line passage 70.

(4) two start buttons 14 are pressed simultaneously, start the third actuator 503 in poling needle driving unit 50, third Actuator 503 acts and poling needle 5 is driven to move towards mold 4, and the inlet wire for making poling needle 5 sequentially enter the first insufflation unit 6 is logical The line passage 70 out in road 60, the threading hole 20 of rubber tube 2 and the second insufflation unit 7；At the same time, controller is opened according to two The enabling signal control lubrication part 8 of dynamic button 14 and the second insufflation unit 7 are started to work, by lubrication part 8 to the periphery of poling needle 5 Face is lubricated, and is blown from the second insufflation unit 7 into the threading hole 20 of rubber tube 2.When poling needle 5 enters line passage 70 After interior arrival predeterminated position, two start buttons 14,503 stopping of third actuator movement, controller control lubrication 8 He of part are decontroled Second insufflation unit 7 stops working, while controlling the movement of the second actuator 762 in sealing structure 76, and the second actuator 762 drives Dynamic seal 761 moves downward, until stopping acts after resetting.At this point, poling needle 5 is formed in the threading hole 20 of rubber tube 2 Support, sealing element 761, which exits, uses the perforation unlatching of line passage 70.

(5) conducting wire 1 is penetrated into poling needle 5, son during conducting wire 1 penetrates poling needle 5, at 5 leading-out terminal of poling needle Bullet 51 can leave poling needle 5 under the thrust of conducting wire 1, and be pushed out out line passage 70, and conducting wire 1 is stretched out Line passage 70 out.

(6) conducting wire 1 is sent to predeterminated position, and the both ends of conducting wire 1 is placed individually into the second of the second clamping unit 92 In clearance space between fixture block 922 and the first pedestal 921, the third fixture block 932 of third clamping unit 93 and the second pedestal 931 Between clearance space in, at this point, conducting wire 1 is then located at two of the first clamping unit 91 close to the part of 4 outgoing line side of mold Between one fixture block 912.The 3rd sensor 13 in second sensor 12, the second pedestal 931 on first pedestal 921, which detects, to be led Line 1 is in place, and controller controls the first clamping unit 91 according to the detection signal of second sensor 12 and 3rd sensor 13 Fourth drive member 913, the 5th actuator 923 of the second clamping unit 92, the 6th actuator 933 of third clamping unit 93 it is same When act, conducting wire 1 is clamped；Meanwhile controller controls the first insufflation unit 6 and starts to work, from the first insufflation unit 6 to rubber It blows in the threading hole 20 of pipe fitting 2.

(7) two start buttons 14 are pressed simultaneously, start the third actuator 503 in poling needle driving unit 50, third Actuator 503 acts and drives 5 counter motion of poling needle, and poling needle 5 is made to go out line passage 70, rubber from the second insufflation unit 7 It is exited in the inlet wire channel 60 of the threading hole 20 of pipe fitting 2 and the first insufflation unit 6.After 5 counter motion of poling needle resets, put Two start buttons 14,503 stopping of third actuator movement are opened, controller controls the first insufflation unit 6 and stops working.

(8) the 4th sensor inside third actuator 503 detects that third actuator 503 resets in place, controller root According to the detection signal of the 4th sensor control the fourth drive member 913 of the first clamping unit 91, the second clamping unit 92 the 5th 6th actuator 933 of actuator 923 and third clamping unit 93 simultaneously operation and reset, conducting wire 1 is loosened；Meanwhile it controlling Device processed controls two the first actuator 44 movements, and two the first actuator 44 driving upper molds 42 rise, until separating with lower die 41 multiple Stopping acts behind position.

(9) rubber tube 2 is taken out from the first groove 43 of lower die 41, at this time conducting wire 1 some be set on rubber In pipe fitting 2, some is set in poling needle 5 conducting wire 1, and conducting wire 1 is extracted out out of poling needle 5, can be realized and wear The taking-up of the conducting wire 1 of rubber tube 2.

So far, it completes once to wear process.Then it is recycled the above process, is worn next time.

The above is only the preferred embodiment of the utility model, it is noted that for the common skill of the art For art personnel, without deviating from the technical principle of the utility model, several improvement and replacement can also be made, these change It also should be regarded as the protection scope of the utility model into replacement.

Claims (10)

1. one kind wears device, for wearing conducting wire (1) into the threading hole (20) of rubber tube (2), which is characterized in that packet It includes:

One mold (4), the internal die cavity (40) for forming a perforation of the mold (4), the rubber tube (2) are placed in the die cavity (40) there is gap in and between the cavity wall of the die cavity (40)；

One poling needle (5) is located at the enter line side of the mold (4), poling needle (5) internal run-through and the confession conducting wire (1) It passes through, the leading-out terminal of the poling needle (5) has been removably installed a sub warhead (51)；

One poling needle driving unit (50) drives the poling needle (5) to move, and the poling needle (5) is made to enter or exit described The threading hole (20) of rubber tube (2)；

One first insufflation unit (6) is set to the end of incoming cables of the die cavity (40) and to the threading hole of the rubber tube (2) (20) Inside it is passed through gas；And

One second insufflation unit (7) is set to the leading-out terminal of the die cavity (40) and to the threading hole of the rubber tube (2) (20) Inside it is passed through gas.

2. according to claim 1 wear device, which is characterized in that the mold (4) includes lower die (41) and upper mold (42), the upper mold (42) is liftably with respect to the top for being set to the lower die (41), the upper mold (42) and the lower die (41) one first groove (43) is respectively provided on opposite surface, two first grooves (43) are connected to each other to form the die cavity (40)。

3. according to claim 1 wear device, which is characterized in that be formed with one inside first insufflation unit (6) The inlet wire channel (60) of perforation, the inlet wire channel (60) are connected with the end of incoming cables of the die cavity (40) and for the poling needles (5) it passes through, is formed with a threading hole (20) to the rubber tube (2) in the periphery of the leading-out terminal of the inlet wire channel (60) The first of gas is inside passed through for gas chamber (61).

4. according to claim 1 wear device, which is characterized in that be formed with one inside second insufflation unit (7) Perforation goes out line passage (70), and line passage (70) out are connected and for the poling needle with the leading-out terminal of the die cavity (40) (5) it penetrates, is formed with a threading hole (20) to the rubber tube (2) in the periphery of the end of incoming cables of line passage (70) out The second of gas is inside passed through for gas chamber (71), it is described go out line passage (70) leading-out terminal be equipped with a sealing structure (76), institute Stating sealing structure (76) will line passage (70) the out closing or unlatching.

5. according to claim 4 wear device, which is characterized in that be formed with one inside second insufflation unit (7) Sealed passage (77), the sealed passage (77) and line passage (70) vertical connection, the sealing structure (76) out include One sealing element (761) and one second actuator (762), the sealing element (761) are set in the sealed passage (77), and described the Two actuators (762) drive the sealing element (761) along the axial movement of the sealed passage (77).

6. according to claim 1 wear device, which is characterized in that the poling needle driving unit (50) includes a straight line Guide rail (501), a poling seat (502) and a third actuator (503), the poling seat (502) are slidingly disposed at described straight On line guide rail (501), the poling needle (5) is mounted on the poling seat (502), and the third actuator (503) drives institute Poling seat (502) is stated to slidably reciprocate on the linear guide (501).

7. according to claim 1 wear device, which is characterized in that further include a lubrication part (8), blown set on described first Side of the gas unit (6) far from the die cavity (40), lubrication part (8) are used to carry out the outer peripheral surface of the poling needle (5) Lubrication.

8. according to claim 1 wear device, which is characterized in that further include one first clamping unit (91), be set to institute The side of the second insufflation unit (7) far from the die cavity (40) is stated, first clamping unit (91) is for clamping the conducting wire (1)。

9. according to claim 8 wear device, which is characterized in that further include one second clamping unit (92), be set to institute Side of first clamping unit far from second insufflation unit (7) is stated, second clamping unit (92) is described for clamping Conducting wire (1).

10. according to claim 1 wear device, which is characterized in that further include a third clamping unit (93), be set to institute The enter line side of poling needle (5) is stated, the third clamping unit (93) is for clamping the conducting wire (1).