CN207218141U - Tube bundle extracting machine - Google Patents

Abstract

It the utility model is related to the technical field of cable processing device, there is provided a kind of tube bundle extracting machine, including：Board; for the blocking mechanism for being available for core to pass through and block protective layer passes through; it is movably arranged and clamps core pulling clamping mechanism through the core of blocking mechanism in being used on board, and is movably arranged in the elastic tube smoothing-out machine structure for being used to clamp the cable for not passing through blocking mechanism on board；Core pulling clamping mechanism and elastic tube smoothing-out machine structure are respectively arranged at the opposite sides of blocking mechanism.Tube bundle extracting machine provided by the utility model; core pulling clamping mechanism is clamped can twitch core when being moved through the core of blocking mechanism towards the direction away from blocking mechanism; after twitching core; the adhesive force between core and protective layer can be reduced; reduce the difficulty for smoothing out with the fingers protective layer from core to get off; then elastic tube smoothing-out machine structure, which is clamped, is not passed through the cable of block piece and can peel off protective layer towards the direction movement away from barrier assembly, improves the speed of separation protective layer and core.

Description

Tube bundle extracting machine

Technical field

The utility model belongs to cable processing device technical field, is to be related to a kind of tube bundle extracting machine more specifically.

Background technology

The cable of numerous species, generally with core and the protective layer that is wrapped in outside core, need in many cases by Core and protective layer separation, start after often directly clamping cable using a constant force when existing core pulling equipment core pulling Protective layer is smoothed out with the fingers in stripping, due between protective layer and core relatively it is close, core pulling equipment, which is not easy to shell protective layer, smoothes out with the fingers, and causes Core pulling speed is very slow, and core pulling efficiency is low.

Utility model content

The purpose of this utility model is to provide a kind of tube bundle extracting machine, to solve to be used for cable core pulling present in prior art Core pulling equipment core pulling speed cause the low technical problem of core pulling efficiency slowly.

To achieve the above object, the technical solution adopted in the utility model is：A kind of tube bundle extracting machine is provided, for separating cable In core and the protective layer that is wrapped in outside the core, the tube bundle extracting machine include board, for being available for the core to pass through simultaneously Stop the blocking mechanism that the protective layer passes through, be movably arranged and be used to clamp through the blocking mechanism on the board The core core pulling clamping mechanism, and be movably arranged and be used to clamp and do not pass through the stop machine on the board The elastic tube smoothing-out machine structure of the cable of structure；The core pulling clamping mechanism and the elastic tube smoothing-out machine structure are respectively arranged at the resistance The opposite sides of retaining device.

Further, the core pulling clamping mechanism includes being arranged on the board and can be towards away from the blocking mechanism one The first base of side movement, for driving the first driver of the first base movement, and it is arranged at the first base On be used for clamp the first clamp assemblies through the core of the blocking mechanism；

The elastic tube smoothing-out machine structure includes being arranged on the board and can moved towards away from the blocking mechanism opposite side Second base, for driving the second driver of second base movement, and the use being arranged in the second base In the second clamp assemblies for clamping the cable for not passing through the blocking mechanism.

Further, second clamp assemblies include the clamp head being fixed in the second base, are movably arranged In the dynamic chuck in the second base, and for driving the dynamic chuck that the cable is connected on the clamp head 3rd driver, the 3rd driver are connected with the dynamic chuck.

Further, second clamp assemblies also include be arranged in the second base be used for adjust the dynamic folder Head supports the adjusting means of the pressure of the cable.

Further, the adjusting means includes the guide rail being arranged in the second base, is slidably arranged at described Regulating part on guide rail, and spring；The dynamic chuck is slidably arranged on the guide rail and is located at the regulating part and institute Between stating clamp head, the both ends of the spring are connected to the dynamic chuck and the regulating part respectively；The adjusting means is also wrapped Include the adjuster for adjusting the regulating part and the dynamic chuck spacing, the adjuster be arranged in the second base and It is connected in the regulating part.

Further, guide rod is fixed with the dynamic chuck, positioning hole is offered on the regulating part, the spring is arranged In on the guide rod, the guide rod is arranged in the positioning hole, the extension side of the bearing of trend of the guide rod and the guide rail To identical.

Further, the adjusting means also includes the guide rail base being arranged between the guide rail and the second base Plate, is arranged at the guide rail limited block of described guide rail one end, and the guide rail substrate is connected in the 3rd driver；It is described to lead Rail is fixed on the guide rail substrate, and the dynamic chuck is arranged between the guide rail limited block and the spring.

Further, first clamp assemblies include being fixed on determines core pulling pincers in the first base, is arranged at institute The dynamic core pulling pincers in first base are stated, and is fixed in the first base and is used to drive the dynamic core pulling to clamp towards described fixed Core pulling pincers are mobile and the core can be clamped in the fourth drive determined between core pulling pincers and the dynamic core pulling pincers.

Further, the blocking mechanism includes the baffle plate being fixed on the board, offers and is available on the baffle plate The through hole that the core passes through, axial one end for stopping the protective layer along the through hole is convexly equipped with the through-hole wall Mobile convex edge.

Further, the convex edge is located on the inwall of the through hole.

The beneficial effect of tube bundle extracting machine provided by the utility model is：Compared with prior art, the utility model tube bundle extracting machine By being provided with blocking mechanism on board, core can pass through blocking mechanism, and protective layer can not then pass through blocking mechanism.Stop The relative both sides of mechanism are respectively arranged with core pulling clamping mechanism and elastic tube smoothing-out machine structure, first, core pulling clamping mechanism clamp through The core of blocking mechanism can twitch core when being moved toward the direction away from blocking mechanism, after twitching core, core and protective layer Between certain displacement occurs, occur the displacement can original attachment state between failure line core and protective layer, reduce line Adhesive force between core and protective layer, that is, reduce the difficulty for smoothing out with the fingers protective layer from core to get off, that is, improve follow-up Separate the speed of protective layer and core.Then, elastic tube smoothing-out machine structure clamps the cable for not passing through blocking mechanism often away from stop The direction of mechanism is mobile and smoothes out with the fingers by the protective layer on cable.

Brief description of the drawings

, below will be to embodiment or prior art in order to illustrate more clearly of the technical scheme in the embodiment of the utility model The required accompanying drawing used is briefly described in description, it should be apparent that, drawings in the following description are only that this practicality is new Some embodiments of type, for those of ordinary skill in the art, without having to pay creative labor, can be with Other accompanying drawings are obtained according to these accompanying drawings.

Fig. 1 is the main structure diagram for the tube bundle extracting machine that the utility model embodiment provides；

Fig. 2 is the overlooking the structure diagram for the tube bundle extracting machine that the utility model embodiment provides；

Fig. 3 is the overlooking the structure diagram for the elastic tube smoothing-out machine structure that the utility model embodiment provides；

Fig. 4 is the left side structure schematic diagram for the elastic tube smoothing-out machine structure that the utility model embodiment provides；

Fig. 5 is the main structure diagram for the core pulling clamp machine that the utility model embodiment provides；

Fig. 6 is the overlooking the structure diagram for the core pulling clamp machine that the utility model embodiment provides；

Fig. 7 is the cross section structure diagram for the blocking mechanism that the utility model embodiment provides；

Fig. 8 is the cross section structure diagram that the cable that the utility model embodiment provides is set.

Wherein, each reference in figure：

1- boards；2- blocking mechanisms；21- baffle plates；211- through holes；212- convex edges；22- cables；221- cores；222- is protected Layer；3- core pulling clamping mechanisms；31- first bases；The drivers of 32- first；The cylinders of 321- second；322- the second output plates；33- One clamp assemblies；331- determines core pulling pincers；332- moves core pulling pincers；333- fourth drives；The cylinders of 3331- first；3332- first goes out Power plate；4- elasticity tube smoothing-out machine structures；41- second bases；The clamp assemblies of 42- second；421- clamp heads；422- moves chuck；；43- Three drivers；431- guide rails；432- springs；433- regulating parts；4341- lead screw motors；4342- rotating shafts；4343- guide rods；4344- Guide rail substrate；4345- guide rail limited blocks.

Embodiment

In order that technical problem to be solved in the utility model, technical scheme and beneficial effect are more clearly understood, with Lower combination drawings and Examples, the utility model is further elaborated.It is it should be appreciated that described herein specific real Example is applied only to explain the utility model, is not used to limit the utility model.

It should be noted that when element is referred to as " being fixed on " or " being arranged at " another element, it can be directly another On one element or it is connected on another element.When an element is known as " being connected to " another element, it can To be directly to another element or be indirectly connected on another element.

It is to be appreciated that term " length ", " width ", " on ", " under ", "front", "rear", "left", "right", " vertical ", The orientation or position relationship of the instruction such as " level ", " top ", " bottom " " interior ", " outer " are to be closed based on orientation shown in the drawings or position System, it is for only for ease of and describes the utility model and simplified description, rather than the device or element of instruction or hint meaning is necessary With specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.

In addition, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or hint relative importance Or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can be expressed or Implicitly include one or more this feature.In description of the present utility model, " multiple " are meant that two or two More than, unless otherwise specifically defined.

Also referring to Fig. 1 and Fig. 8, now tube bundle extracting machine provided by the utility model is illustrated.Tube bundle extracting machine, for separating Core 221 and the protective layer 222 being wrapped in outside core 221 in cable 22, tube bundle extracting machine includes board 1, for being available for core 221 Through the blocking mechanism 2 that simultaneously block protective layer 222 passes through, it is movably arranged and is used to clamp through blocking mechanism 2 on board 1 Core 221 core pulling clamping mechanism 3, and be movably arranged in being used to clamp and do not pass through the line of blocking mechanism 2 on board 1 The elastic tube smoothing-out machine structure 4 of cable 22；Core pulling clamping mechanism 3 and elastic tube smoothing-out machine structure 4 are respectively arranged at relative the two of blocking mechanism 2 Side.

By being provided with blocking mechanism 2 on board 1, core 221 can pass through blocking mechanism 2, and protective layer 222 then can not Through blocking mechanism 2.The relative both sides of blocking mechanism 2 are respectively arranged with core pulling clamping mechanism 3 and elastic tube smoothing-out machine structure 4, first, Core pulling clamping mechanism 3 is clamped can twitch line when being moved through the core 221 of blocking mechanism 2 toward the direction away from blocking mechanism 2 Core 221, after twitching core 221, certain displacement occurs between core 221 and protective layer 222, the displacement occurs being capable of failure line Original attachment state between core 221 and protective layer 222, reduces the adhesive force between core 221 and protective layer 222, also The difficulty for smoothing out with the fingers protective layer 222 from core 221 to get off is reduction of, that is, improves later separation protective layer 222 and core 221 Speed.Then, elastic tube smoothing-out machine structure 4 clamps the often direction shifting away from blocking mechanism 2 of cable 22 for not passing through blocking mechanism 2 Move and smooth out with the fingers by the protective layer 222 on cable 22.

Alternatively, in the present embodiment, it is closely to abut between core 221 and protective layer 222 under the original state of cable 22 Together.When core pulling clamping mechanism 3 has twitched core 221, original stationary state between core 221 and protective layer 222 It is broken, wherein specifically, the mode for breaking this stationary state can be due to occur between core 221 and protective layer 222 The air of relative displacement or outside is entered between core 221 and protective layer 222 when twitching core 221, another In one embodiment, the original state of cable 22 is that have multiple air-chambers (not shown) between core 221 and protective layer 222, After core pulling clamping mechanism 3 twitches core 221, the gas in multiple air-chambers can escape into outside cable 22 and cause protective layer Close relation between 222 and core 221 is broken.Certainly, in other embodiments, twitch core 221 and break protective layer 222 The close annexation between core 221, can also be other reasonses, as long as protective layer 222 can be reduced by twitching core 221 Annexation between core 221, is not limited uniquely herein.Alternatively, cable 22 is pressure extension tube.

Wherein, the effect of blocking mechanism 2 is that core 221 can pass through blocking mechanism 2, and protective layer 222 can not then pass through Blocking mechanism 2 so that core 221 passes through and clamps core 221 toward away from blocking mechanism 2 by core pulling clamping mechanism 3 after blocking mechanism 2 It can twitch core 221 when mobile and so that certain displacement occur between core 221 and protective layer 222.More specifically, realize Core 221 can pass through blocking mechanism 2 and protective layer 222 can be able to not be through hole through the structure of the function of blocking mechanism 2, can To be the structure of groove either other shapes, as long as above-mentioned function can be realized, do not limit uniquely herein.

Further, Fig. 1 to Fig. 6 is referred to, as a kind of embodiment of tube bundle extracting machine provided by the utility model, Core pulling clamping mechanism 3 includes being arranged at the first base 31 that can be moved on board 1 and towards the remote side of blocking mechanism 2, for driving The first driver 32 that dynamic first base 31 moves, and be arranged in first base 31 and be used to clamp through blocking mechanism 2 Core 221 the first clamp assemblies 33；In the present embodiment, the first clamp assemblies 33 clamp the core through blocking mechanism 2 221, the first clamp assemblies 33 are provided in first base 31, and the first driver 32 can drive first base 31 towards remote The side of blocking mechanism 2 is moved, during first base 31 moves, because protective layer 222 is blocked on blocking mechanism 2, Therefore after the movement of first base 31, the first clamp assemblies 33 clamp core 221 and core 221 are released from cable 22.

Elastic tube smoothing-out machine structure 4 includes being arranged at the second base that can be moved on board 1 and towards the remote opposite side of blocking mechanism 2 41, for the second driver (not shown) for driving second base 41 to move, and it is arranged in second base 41 and is used to press from both sides The second clamp assemblies 42 of the cable 22 of blocking mechanism 2 are not passed through firmly.In the present embodiment, the second clamp assemblies 42, which are clamped, does not wear The cable 22 of blocking mechanism 2 is crossed, the second clamp assemblies 42 are provided in second base 41, and the second driver can drive Two bases 41 move towards away from the side of blocking mechanism 2, during second base 41 moves, because cable 22 is folded in On second clamp assemblies 42, thus second base 41 move after, the second clamp assemblies 42 clamp cable 22 and by protective layer 222 from Stripped down on core 221.

Further, Fig. 1 to Fig. 8 is referred to, as a kind of embodiment of tube bundle extracting machine provided by the utility model, Second clamp assemblies 42 include the clamp first 421 being fixed in second base 41, are movably arranged in dynamic in second base 41 Chuck 422, and for driving dynamic chuck 422 that cable 22 is connected to the 3rd driver 43 in clamp first 421, the 3rd driving Device 43 is connected with dynamic chuck 422.In the present embodiment, dynamic chuck 422 is driven by the 3rd driver 43, and causes dynamic folder First 422 are connected to cable 22 in clamp first 421, and control process is simple and reliable.

Further, Fig. 1 to Fig. 8 is referred to, as a kind of embodiment of tube bundle extracting machine provided by the utility model, Second clamp assemblies 42 also include being arranged at the tune for being used to adjust the pressure that dynamic chuck 422 supports cable 22 in second base 41 Regulating device (not shown).In the present embodiment, clamp cable 22 in the second clamp assemblies 42 and protective layer 222 is smoothed out with the fingers to the process got off In, when distance is bigger between elastic tube smoothing-out machine structure 4 and blocking mechanism 2, then there is more protective layers 222 to be peeled off from core 221, Protective layer 222 also can be less and less from the adhesive force between core 221.That is, between core 221 and protective layer 222 Adhesive force is changed with the change of distance between elastic tube smoothing-out machine structure 4 and blocking mechanism 2.Adjusting means can adjust dynamic Chuck 422 is connected to the pressure on cable 22, according to adhesive force size between protective layer 222 and core 221, uses adjusting means Be connected to using different pressure on cable 22, avoid the occurrence of because move the strength that is applied on cable 22 of chuck 422 it is too small go out It is existing to occur skidding between elastic tube smoothing-out machine structure 4 and cable 22 or because the strength that dynamic chuck 422 is applied on cable 22 is too big And add the adhesive force between protective layer 222 and core 221.Under the regulation of adjusting means, separation protective layer 222 is improved With the speed of core 221.Alternatively, under the regulation of adjusting means, pressure that dynamic chuck 422 is connected on cable 22 be with The distance between elastic tube smoothing-out machine structure 4 and blocking mechanism 2 are in inverse ratio, that is to say, that elastic tube smoothing-out machine structure 4 and blocking mechanism 2 it Between distance it is bigger, protective layer 222, which is stripped, to get off also more, and the adhesive force between protective layer 222 and core 221 is also got over Small, adjusting means reduces the pressure that dynamic chuck 422 is connected on cable 22；Conversely, between tube smoothing-out machine structure and blocking mechanism 2 away from From smaller, protective layer 222, which is stripped, to get off also fewer, and the adhesive force between protective layer 222 and core 221 is also bigger, adjusts The dynamic chuck 422 of regulating device rise is connected to the pressure on cable 22.

Further, Fig. 1 to Fig. 8 is referred to, as a kind of embodiment of tube bundle extracting machine provided by the utility model, Adjusting means is including the guide rail 431 being arranged in second base 41, the regulating part 433 being slidably arranged on guide rail 431, and Spring 432；Dynamic chuck 422 is slidably arranged on guide rail 431 and between regulating part 433 and clamp first 421, spring 432 Both ends be connected to dynamic chuck 422 and regulating part 433 respectively；Adjusting means also includes being used to adjust regulating part 433 and dynamic chuck The adjuster (not shown) of 422 spacing, adjuster are arranged in second base 41 and are connected in regulating part 433.In this reality Apply in example, the both ends of spring 432 are connected between dynamic chuck 422 and regulating part 433 respectively, and dynamic chuck 422 is for abutting On cable 22, the degree of the compression of spring 432 can just be changed by changing the distance between regulating part 433 and dynamic chuck 422, and The state of spring 432 of different compression degrees, dynamic chuck 422 will be caused to apply different strength on cable 22.It is simple next Say, if adjuster make it that regulating part 433 and the distance between dynamic chuck 422 are shorter, the degree that spring 432 is compressed also is got over Height, the pressure that dynamic chuck 422 is connected on cable 22 are also bigger；If adjuster causes between regulating part 433 and dynamic chuck 422 Distance it is longer, the degree that spring 432 is compressed is also smaller, and the pressure that dynamic chuck 422 is connected on cable 22 is also smaller.Its In, adjuster changes the mode of distance between regulating part 433 and dynamic chuck 422, can be using promotion type power set (such as Cylinder) directly control, can also be using the cooperation of motor and gear come realize change regulating part 433 and dynamic chuck 422 it Between distance function, as long as adjuster can adjust the distance between regulating part 433 and dynamic chuck 422, do not make herein only One limits.

Further, adjuster includes the lead screw motor 4341 being arranged in second base 41, and lead screw motor 4341 has Rotating shaft 4342, there is external screw thread in rotating shaft 4342, the screwed hole (not shown) coordinated with external screw thread offered on regulating part 433, Rotating shaft 4342 is arranged in screwed hole, and the bearing of trend of rotating shaft 4342 is identical with the bearing of trend of guide rail 431.In the present embodiment, The drive shaft 4342 of lead screw motor 4341 rotates, rotating shaft 4342 rotate during, regulating part 433 can by with rotating shaft 4342 Be threaded in rotating shaft 4342 and slide, that is to say, that rotating shaft 4342 is adjusted by the threaded connection between regulating part 433 Save the position of regulating part 433.Regulation process is fairly simple.Rotating shaft 4342 is controlled to be rotated toward different directions, it becomes possible to easily will Regulating part 433 moves toward different directions, it is achieved thereby that the control of compression and elongation of the regulating part 433 to spring 432.Spring The chucking power that 432 compression or elongation state are had influence between clamp first 421 and dynamic chuck 422, i.e., by controlling screw mandrel electric The rotation of machine 4341, the chucking power between clamp first 421 and dynamic chuck 422 can be controlled.

Further, Fig. 1 to Fig. 8 is referred to, as a kind of embodiment of tube bundle extracting machine provided by the utility model, Guide rod 4343 is fixed with dynamic chuck 422, positioning hole (not shown) is offered on regulating part 433, spring 432 is sheathed on guide rod On 4343, guide rod 4343 is arranged in positioning hole, and the bearing of trend of guide rod 4343 is identical with the bearing of trend of guide rail 431.At this In embodiment, under the guiding of guide rod 4343, spring 432 is not would tend to occur during compression or elongation toward spring 432 Radial direction bending, ensure that spring 432 work stability.Specifically, the quantity of guide rod 4343 is two, every conduit It is upper to be arranged with a spring 432 respectively, in this way, the dynamic elastic force by spring 432 between chuck 422 and regulating part 433 is more It is average.

Further, Fig. 1 to Fig. 8 is referred to, as a kind of embodiment of tube bundle extracting machine provided by the utility model, Adjusting means also includes the guide rail substrate 4344 being arranged between guide rail 431 and second base 41, is arranged at the one end of guide rail 431 Guide rail limited block 4345, guide rail substrate 4344 are connected in the 3rd driver 43；Guide rail 431 is fixed on guide rail substrate 4344 On, dynamic chuck 422 is arranged between guide rail limited block 4345 and spring 432.In the present embodiment, when the 3rd driver 43 drives Guide rail substrate 4344 moves chuck 422 and regulating part along guide rail 431 and toward during moving on the direction away from clamp first 421 The distance between 433 can be increasingly longer, until dynamic chuck 422 is connected on guide rail limited block 4345, now, clamp first 421 with Disengaged position will be initially formed between dynamic chuck 422.After being separated between clamp first 421 and dynamic chuck 422, it can incite somebody to action Cable 22 takes out that (or cable 22 is put into clamp first 421 and dynamic folder from the gap between clamp first 421 and dynamic chuck 422 In gap between first 422).Similarly, when the 3rd driver 43 driving guide rail substrate 4344 is along guide rail 431 and toward close to clamp head During being moved on 421 direction, the distance between clamp first 421 and dynamic chuck 422 come it is nearer, until both be in contact or It is dynamic to start to remain disengaged from state between chuck 422 and guide rail limited block 4345 after both persons are connected on cable 22 respectively, when When this disengaged position occurs, the can of regulating part 433 is by controlling to adjust the position relationship of part 433 and dynamic chuck 422 To change the pressure that dynamic chuck is applied on cable 22.Now it is that chuck 422 is connected to positioned at dynamic chuck 422 and clamp head On cable 22 between 421, so as to which cable 22 is located between dynamic chuck 422 and clamp first 421.

Further, Fig. 1 to Fig. 8 is referred to, as a kind of embodiment of tube bundle extracting machine provided by the utility model, First clamp assemblies 33 include being fixed on determines core pulling pincers 331, the dynamic core pulling being arranged in first base 31 in first base 31 Pincers 332, and be fixed in first base 31 and for driving dynamic core pulling pincers 332 towards determining the movement of core pulling pincers 331 and can be by core 221 are clamped in the fourth drive 333 determined between core pulling pincers 331 and dynamic core pulling pincers 332.In the present embodiment, fourth drive Core 221 is clamped in dynamic core pulling pincers 332 and determines core pulling by the above-mentioned dynamic core pulling pincers 332 of 333 drivings to clamp between 331.Whole process letter Folk prescription is just.

Further, fourth drive 333, including：

First cylinder 3331, is arranged in first base 31；

First output plate 3332, it is connected on the first cylinder 3331, dynamic core pulling pincers 332 are fixed on the first output plate On 3332.

In the present embodiment, the first cylinder 3331 drives the first output plate 3332 to move, and dynamic core pulling pincers 332 are fixed on first On output plate 3332 so that the first cylinder 3331 can control the motion of dynamic core pulling pincers 332.Alternatively, the first cylinder 3331 exists Under stretching state, core 221 is located in dynamic core pulling pincers 332 and determines core pulling pincers by the dynamic core pulling pincers 332 of the first output plate 3332 driving Between 331.In a contracted state, relieving is located in dynamic first cylinder 3331 by the dynamic core pulling pincers 332 of the first output plate 3332 driving Core pulling clamps 332 and determines the core 221 between core pulling pincers 331.

Further, the first driver 32, including：

Second cylinder 321, is arranged on board 1；

Second output plate 322, it is connected on the second cylinder 321, first base 31 is fixed on the second output plate 322 On.

In the present embodiment, the second cylinder 321 drives the activity of the second output plate 322, and first base 31 is fixed on the second gas On cylinder 321 so that the second cylinder 321, which can drive to be arranged in first base 31, determines core pulling pincers 331 and dynamic core pulling pincers 332. Alternatively, when the second cylinder 321 is under stretching state, the second output plate 322 driving first base 31 is toward close to blocking mechanism 2 Move in direction；When the second cylinder 321 in a contracted state, the second output plate 322 driving first base 31 is toward away from blocking mechanism 2 Direction movement.First driver 32 can easily control the distance between first base 31 and blocking mechanism 2.

Further, Fig. 7 and Fig. 8 are referred to, as a kind of embodiment of tube bundle extracting machine provided by the utility model, Blocking mechanism 2 includes the baffle plate 21 being fixed on board 1, offers the through hole 211 for being available for core 221 to pass through on baffle plate 21, leads to The convex edge 212 moved for the axial one end of block protective layer 222 along through hole 211 is convexly equipped with the inwall of hole 211.In the present embodiment In, core 221 can be gone through from through hole 211, and protective layer 222 can not then pass through the through hole under the stop of convex edge 212 211, relatively simple for structure, easy production and dependable performance.

Specifically, convex edge 212 is enclosed with the inwall of through hole 211 sets the accommodating cavity to be formed for accommodating the one end of cable 22 and (does not scheme Show).In the present embodiment, one end of cable 22 is fixed in accommodating cavity so that and cable 22 has obtained good fixation, meanwhile, Core 221 is through through hole 211, and cable 22 is not in rock when core 221 are pulled, and improves protective layer 222 With the separating rate between core 221.

Further, Fig. 7 and Fig. 8 are referred to, as a kind of embodiment of tube bundle extracting machine provided by the utility model, Convex edge 212 is located on the inwall of through hole 211.In the present embodiment, the convex edge 212 that ring is set can effectively prevent the guarantor of cable 22 Sheath 222 is gone through from through hole 211, ensure that cable 22 will be steady in separation process between protective layer 222 and core 221 It is qualitative.Certainly, in the present embodiment, convex edge 212 is located on the inwall of through hole 211, but in other examples, it is convex It can also be arranged on along 212 on the baffle plate 21 in the outside of through hole 211, as long as the convex edge 212 can prevent protective layer 222 logical through this Hole 211, unique restriction is not done herein.

Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit the utility model All any modification, equivalent and improvement made within the spirit and principle of utility model etc., should be included in the utility model Protection domain within.

Claims (10)

1. tube bundle extracting machine, for the protective layer for separating the core in cable Yu being wrapped in outside the core, it is characterised in that：It is described to take out Core machine includes board, for being available for the core to pass through and stopping the blocking mechanism that the protective layer passes through, be movably arranged in On the board be used for clamp the core pulling clamping mechanism through the core of the blocking mechanism, and be movably arranged in The elastic tube smoothing-out machine structure for being used to clamp the cable for not passing through the blocking mechanism on the board；The core pulling clamp machine Structure and the elastic tube smoothing-out machine structure are respectively arranged at the opposite sides of the blocking mechanism.

2. tube bundle extracting machine as claimed in claim 1, it is characterised in that：The core pulling clamping mechanism includes being arranged on the board And can be towards the first base away from blocking mechanism side movement, for driving the first driving of the first base movement Device, and be arranged in the first base be used for clamp the first clamping group through the core of the blocking mechanism Part；

The elastic tube smoothing-out machine structure includes being arranged on the board and can be towards the away from blocking mechanism opposite side movement Two bases, for driving the second driver of the second base movement, and it is arranged in the second base and is used to press from both sides The second clamp assemblies of the cable of the blocking mechanism are not passed through firmly.

3. tube bundle extracting machine as claimed in claim 2, it is characterised in that：Second clamp assemblies include being fixed on second bottom Clamp head on seat, it is movably arranged in the dynamic chuck in the second base, and for driving the dynamic chuck by described in Cable is connected to the 3rd driver on the clamp head, and the 3rd driver is connected with the dynamic chuck.

4. tube bundle extracting machine as claimed in claim 3, it is characterised in that：Second clamp assemblies also include being arranged at described second The adjusting means for being used to adjust the pressure that the dynamic chuck supports the cable on base.

5. tube bundle extracting machine as claimed in claim 4, it is characterised in that：The adjusting means includes being arranged in the second base Guide rail, the regulating part being slidably arranged on the guide rail, and spring；The dynamic chuck is slidably arranged at the guide rail Go up and be located at the regulating part between the clamp head, the both ends of the spring are connected to the dynamic chuck and the tune respectively Save part；The adjusting means also includes being used to adjust the regulating part and the adjuster of the dynamic chuck spacing, the adjuster It is arranged in the second base and is connected in the regulating part.

6. tube bundle extracting machine as claimed in claim 5, it is characterised in that：Guide rod is fixed with the dynamic chuck, on the regulating part Positioning hole is offered, the spring housing is on the guide rod, and the guide rod is arranged in the positioning hole, and the guide rod prolongs It is identical with the bearing of trend of the guide rail to stretch direction.

7. tube bundle extracting machine as claimed in claim 5, it is characterised in that：The adjusting means also includes being arranged at the guide rail and institute The guide rail substrate between second base is stated, is arranged at the guide rail limited block of described guide rail one end, the guide rail substrate drive connection In the 3rd driver；The guide rail is fixed on the guide rail substrate, and the dynamic chuck is arranged at the guide rail limited block Between the spring.

8. tube bundle extracting machine as claimed in claim 2, it is characterised in that：First clamp assemblies include being fixed on first bottom Determine core pulling pincers on seat, the dynamic core pulling pincers being arranged in the first base, and be fixed in the first base and be used for Driving the dynamic core pulling pincers, determine core pulling pincers mobile and can be clamped in the core and described determine core pulling pincers and described move and take out towards described Fourth drive between core pincers.

9. the tube bundle extracting machine as described in any one of claim 1 to 8, it is characterised in that：The blocking mechanism is described including being fixed on Baffle plate on board, the through hole for being available for the core to pass through is offered on the baffle plate, is convexly equipped with and is used on the through-hole wall Stop the convex edge that the axial one end of the protective layer along the through hole is moved.

10. tube bundle extracting machine as claimed in claim 9, it is characterised in that：The convex edge is located on the inwall of the through hole.