CN104319600B - A kind of automatically wear heat-shrink tube press automatically overlap thermal shrinking pipe apparatus - Google Patents

Abstract

A kind of automatically wear heat-shrink tube press automatically overlap thermal shrinking pipe apparatus, cut pyrocondensation pipe support including what be arranged side by side and wear pyrocondensation pipe support；Cutting and be provided with two feed mechanisms on the side of pyrocondensation pipe support from top to bottom side by side, the front of each feed mechanism is provided with tube cutting mechanism, and the dead ahead of each tube cutting mechanism is provided with tube-conveyer tool hands；The front wearing pyrocondensation pipe support is provided with clamp mechanical hand, and the dead astern of clamp mechanical hand is provided with detent mechanism；The side wearing pyrocondensation pipe support is provided with two poling mechanical hands from top to bottom side by side, two poling mechanical hands are driven thus can move up and down simultaneously by vertical driving mechanism, and two poling mechanical hands are respectively driven by a transversal driving mechanism thus the forward and backward movement that can mutually stagger.The beneficial effects of the present invention is: adopt said structure, it may be achieved the actions such as automatization's heat-shrink tube feeding, cutting, transfer and suit, be not only simple in structure compact, rationally distributed, and production efficiency is high, the qualification rate of product high.

Description

A kind of automatically wear heat-shrink tube press automatically overlap thermal shrinking pipe apparatus

Technical field

The present invention relates to a kind of automatically wear heat-shrink tube press automatically overlap thermal shrinking pipe apparatus.

Background technology

Presently, there are such a wiring harness structure, this wiring harness structure is made up of cable, terminal head and heat-shrink tube, terminal head is pressed on the current-carrying part of the end of cable, and shrinkable sleeve is contained in outside the current-carrying part of terminal head and cable, then to heat-shrink tube heating thus heat-shrink tube is thermally bonded together with cable and terminal head.In prior art, generally by being manually sleeved on the terminal head of cable by thermoplastic tube, not only production efficiency is low, and the qualification rate of product is also low.

Summary of the invention

In order to overcome, prior art exists above-mentioned deficiency, the present invention provide a kind of simple and compact for structure, production efficiency is high, the qualification rate of product is high, can automated production automatically wear heat-shrink tube press automatically overlap thermal shrinking pipe apparatus.

This invention address that the technical scheme of its technical problem is: a kind of automatically wear heat-shrink tube press automatically overlap thermal shrinking pipe apparatus, cut pyrocondensation pipe support including what be arranged side by side and wear pyrocondensation pipe support；

The described side cutting pyrocondensation pipe support is provided with two feed mechanisms forwarded by two heat-shrink tubes respectively from top to bottom side by side, the front of each described feed mechanism is provided with tube cutting mechanism thermoplastic tube cut into chunks, the dead ahead of each described tube cutting mechanism is provided with the tube-conveyer tool hands for transferring heat-shrink tube, the left and right movement that two described tube-conveyer tool palmistrys stagger mutually；

The described front wearing pyrocondensation pipe support is provided with the clamp mechanical hand that cable is clamped, and the dead astern of this clamp mechanical hand is provided with the detent mechanism that the terminal head on cable is positioned；

The described side wearing pyrocondensation pipe support is provided with the poling mechanical hand at two rears being positioned at described detent mechanism from top to bottom side by side, two described poling mechanical hands are driven thus can move up and down simultaneously by vertical driving mechanism, and two described poling mechanical hands are respectively driven by a transversal driving mechanism thus the forward and backward movement that can mutually stagger；

When described clamp machinery has clamped cable on hand, the terminal head of cable is positioned by described detent mechanism, described vertical driving mechanism drives two described poling mechanical hands to move or move down and make the dead astern that one of them described poling mechanical hand is positioned at described detent mechanism on simultaneously, described poling mechanical hand moves forward thus being enclosed within the terminal head of cable by thermoplastic tube under described transversal driving mechanism drives, another described poling mechanical hand is relative with tube-conveyer tool hands one of them described, and thermoplastic tube is moved to described poling machinery on hand by described tube-conveyer tool hands.

Further, described vertical driving mechanism include being vertically provided at described in wear pyrocondensation pipe support vertically drive cylinder, this vertically drives the outfan of cylinder to be provided with poling support；

Each described transversal driving mechanism includes the horizontal drive motor being horizontally installed on described poling support, the output shaft of this horizontal drive motor is connected to leading screw, this leading screw is provided with nut seat, the relatively described poling support of this nut seat slides laterally, this nut seat is provided with a poling and moves cylinder, this poling moves the outfan of cylinder and is provided with a described poling mechanical hand, and described poling mechanical hand moves under the drive of cylinder thus forward and backward movement at described poling.

In use, by vertically driving cylinder to drive two transversal driving mechanisms and two poling mechanical hands move on simultaneously or move down, leading screw is driven to rotate forward or backwards by horizontal drive motor, nut seat match with leading screw thus relative poling support laterally before, rear slip, thus before driving poling mechanical hand, rear movement, can also move before cylinder drives poling mechanical hand again by poling, rear movement, when horizontal drive motor drives the reach of poling mechanical hand by nut seat, then poling moves cylinder when also driving poling mechanical hand to move forward, poling mechanical hand is thus being contained in shrinkable sleeve on the terminal head on detent mechanism.

Further, each described feed mechanism includes a pair feeding guide wheel and drives feeding guide wheel described in a pair to synchronize feeding motor in relative rotation, the feeding channel of heat-shrink tube traverse it is formed between feeding guide wheel described in a pair, the front of this feeding channel is provided with a described tube cutting mechanism, and the rear of described feeding channel is provided with passage.In use, heat-shrink tube, from traverse in passage, is subsequently placed in the feeding channel between a pair feeding guide wheel, and a pair feeding guide wheel of then feeding driven by motor synchronizes to relatively rotate, and is transported to tube cutting mechanism from by heat-shrink tube under the extruding of a pair feeding guide wheel.

Further, each described tube cutting mechanism is cut on pyrocondensation pipe support and can relative or heterodromous upper cutter head and lower tool rest described in including being slidably installed in, described upper cutter head is provided with upper cutter, the lower section being provided with described upper cutter on described lower tool rest the lower cutter matched with described upper cutter, described upper cutter head is vertically provided with upper rack, described lower tool rest is provided with the lower tooth bar paralleled with described upper rack, the Pipe Cutting gear of the transmission that is simultaneously meshed it is provided with described lower tooth bar and upper rack between this lower tooth bar with described upper rack, this Pipe Cutting gear by Pipe Cutting driven by motor thus rotating.In use, Pipe Cutting motor can directly drive Pipe Cutting gear to rotate forward, can also be rotated forward by belt speed reducer structure deceleration rear drive Pipe Cutting gear, the upper rack being meshed with Pipe Cutting gear moves down, lower tooth bar moves, thus upper rack drives upper cutter head and upper cutter to move down, under lower rack drives, tool rest and lower cutter move, upper cutter matches thus being cut off by heat-shrink tube with lower cutter, then Pipe Cutting gear rotates backward under the drive of Pipe Cutting motor, the upper rack being meshed with Pipe Cutting gear moves, lower tooth bar moves down, thus upper rack drives, upper cutter head and upper cutter move, under lower rack drives, tool rest and lower cutter move down, Pipe Cutting action next time can be carried out.

Further, described in cut pyrocondensation pipe support and be provided with two and send pipe to move cylinder, send the outfan that pipe moves cylinder to be provided with a described tube-conveyer tool hands described in each, thus left and right movement under the drive that described tube-conveyer tool hands send pipe to move cylinder described in corresponding.In use, by send pipe move cylinder drive the tube-conveyer left and right movement of tool hands, when send pipe move cylinder drive tube-conveyer tool hands move to right time, tube-conveyer tool hands is thus moving to poling machinery on hand by heat-shrink tube.Further, described detent mechanism include being arranged on described in wear on pyrocondensation pipe support upper positioning cylinder and lower positioning cylinder, the outfan of described upper positioning cylinder is provided with locating detent, the outfan of described lower positioning cylinder is provided with described upper locating detent underface and with described upper locating detent match lower locating detent, this lower locating detent and described upper locating detent are drawn close mutually thus the terminal head on cable is positioned.In use, upper positioning cylinder drives upper locating detent to move down, and meanwhile, lower positioning cylinder drives and moves on lower locating detent, and lower locating detent and upper locating detent are drawn close mutually thus the terminal head on cable is positioned.

The present invention is in use, two heat-shrink tubes are respectively from two feed mechanisms through being placed in corresponding tube cutting mechanism, then feed mechanism is fed forward heat-shrink tube so that heat-shrink tube forward extends out tube cutting mechanism until the length stretched out reaches setting value, then feed mechanism stops feeding, then tube-conveyer tool hands is treated the heat-shrink tube of cut-out and is clamped, heat-shrink tube is cut into chunks by tube cutting mechanism, and general two tube cutting mechanisms are operationally offset from each other；

Meanwhile, single line cable is put on clamp mechanical hand, cable is clamped by clamp mechanical hand, and the terminal head of cable is positioned by detent mechanism, then vertical driving mechanism drives two poling mechanical hands to move down simultaneously, a poling mechanical hand above is positioned at the dead astern of detent mechanism, a following poling mechanical hand and following tube-conveyer tool palmistry pair, and a poling machinery above has clamped heat-shrink tube on hand, and a poling machinery below does not have heat-shrink tube on hand, then a poling mechanical hand above moves forward under corresponding transversal driving mechanism drives and is enclosed within the terminal head of cable by thermoplastic tube, meanwhile, heat-shrink tube is transferred on a following poling mechanical hand by a following tube-conveyer tool hands, thus completing the poling step of first cable；

nullThen take off, from clamp machinery, first cable machined on hand，And second cable is put in clamp machinery on hand，This cable is clamped by clamp mechanical hand，And the terminal head of this cable is positioned by detent mechanism，Then vertical driving mechanism drives the upper shifting simultaneously of two poling mechanical hands，A following poling mechanical hand is positioned at the dead astern of detent mechanism，A poling mechanical hand above and a tube-conveyer tool palmistry pair above，Now，A following poling machinery has clamped heat-shrink tube on hand，And a poling machinery above does not have heat-shrink tube on hand，Then a poling mechanical hand below moves forward and thermoplastic tube is enclosed within the terminal head of cable under corresponding transversal driving mechanism drives，Meanwhile，Heat-shrink tube is transferred to a poling machinery above on hand by a tube-conveyer tool hands above，Thus completing the poling step of second cable，So circulation，Cable automatization can be realized and wear the processing of heat-shrink tube.

The beneficial effects of the present invention is: adopt said structure, it may be achieved the actions such as automatization's heat-shrink tube feeding, cutting, transfer and suit, be not only simple in structure compact, rationally distributed, and production efficiency is high, the qualification rate of product high.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present invention.

Fig. 2 is the angled arrangement schematic diagram cutting pyrocondensation pipe support of the present invention.

Fig. 3 is another angled arrangement schematic diagram cutting pyrocondensation pipe support of the present invention.

Fig. 4 is the angled arrangement schematic diagram wearing pyrocondensation pipe support of the present invention.

Fig. 5 is another angled arrangement schematic diagram wearing pyrocondensation pipe support of the present invention.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.

With reference to Fig. 1 ~ Fig. 5, a kind of automatically wear heat-shrink tube press automatically overlap thermal shrinking pipe apparatus, cut pyrocondensation pipe support 1 including what be arranged side by side and wear pyrocondensation pipe support 2；

The described side cutting pyrocondensation pipe support 1 is provided with two feed mechanisms forwarded by two heat-shrink tubes respectively from top to bottom side by side, each described feed mechanism includes a pair feeding guide wheel 3 and drives feeding guide wheel described in a pair to synchronize feeding motor in relative rotation, the feeding channel 4 of heat-shrink tube traverse it is formed between feeding guide wheel described in a pair, the rear of this feeding channel is provided with passage 5, and the front of this feeding channel is provided with tube cutting mechanism thermoplastic tube cut into chunks；

Each described tube cutting mechanism is cut on pyrocondensation pipe support 1 and can relative or heterodromous upper cutter head 6 and lower tool rest 7 described in including being slidably installed in, described upper cutter head is provided with upper cutter, the lower section being provided with described upper cutter on described lower tool rest the lower cutter matched with described upper cutter, described upper cutter head is vertically provided with upper rack 8, described lower tool rest is provided with the lower tooth bar 9 paralleled with described upper rack, the Pipe Cutting gear 10 of the transmission that is simultaneously meshed it is provided with described lower tooth bar and upper rack between this lower tooth bar with described upper rack, this Pipe Cutting gear is driven thus rotating by Pipe Cutting motor 11；

The dead ahead of each described tube cutting mechanism is provided with the tube-conveyer tool hands 13 for transferring heat-shrink tube, the left and right movement that two described tube-conveyer tool palmistrys stagger mutually, described pyrocondensation pipe support 1 of cutting is provided with two and send pipe to move cylinder 12, the outfan that pipe moves cylinder is sent to be provided with a described tube-conveyer tool hands 13 described in each, thus left and right movement under the drive that described tube-conveyer tool hands 13 send pipe to move cylinder 12 described in corresponding；

The described front wearing pyrocondensation pipe support 2 is provided with the clamp mechanical hand 14 that cable is clamped, the dead astern of described clamp mechanical hand is provided with the detent mechanism that the terminal head on cable is positioned, this detent mechanism include being arranged on described in wear on pyrocondensation pipe support 2 upper positioning cylinder 17 and lower positioning cylinder 18, the outfan of described upper positioning cylinder is provided with locating detent 19, the outfan of described lower positioning cylinder is provided with described upper locating detent underface and with described upper locating detent match lower locating detent 20, this lower locating detent 20 is drawn close thus the terminal head on cable is positioned mutually with described upper locating detent 19；

The described side wearing pyrocondensation pipe support 2 is provided with the poling mechanical hand 15 at two rears being positioned at described detent mechanism from top to bottom side by side, two described poling mechanical hands are driven thus can move up and down simultaneously by vertical driving mechanism, and two described poling mechanical hands 15 are each to be driven thus the forward and backward movement that can mutually stagger by a transversal driving mechanism；

Described vertical driving mechanism include being vertically provided at described in wear on pyrocondensation pipe support 2 vertical drive cylinder 21, this vertically drives the outfan of cylinder to be provided with poling support 22；

Each described transversal driving mechanism includes the horizontal drive motor 23 being horizontally installed on described poling support 22, the output shaft of this horizontal drive motor is connected to leading screw 24, this leading screw is provided with nut seat 25, the relatively described poling support of this nut seat slides laterally, this nut seat is provided with a poling and moves cylinder 26, this poling moves the outfan of cylinder and is provided with a described poling mechanical hand 15, and described poling mechanical hand 15 moves under the drive of cylinder 26 thus forward and backward movement at described poling；

When on described clamp mechanical hand 14, clamping has cable, the terminal head of cable is positioned by described detent mechanism, described vertical driving mechanism drives two described poling mechanical hands 15 to move or move down and make the dead astern that one of them described poling mechanical hand 15 is positioned at described detent mechanism on simultaneously, described poling mechanical hand 15 moves forward thus being enclosed within the terminal head of cable by thermoplastic tube under described transversal driving mechanism drives, another described poling mechanical hand 15 is relative with tube-conveyer tool hands 13 one of them described, thermoplastic tube is moved to described poling mechanical hand 15 by described tube-conveyer tool hands 13.

The present invention is in use, two heat-shrink tubes are respectively from two feed mechanisms through being placed in corresponding tube cutting mechanism, then feed mechanism is fed forward heat-shrink tube so that heat-shrink tube forward extends out tube cutting mechanism until the length stretched out reaches setting value, then feed mechanism stops feeding, then tube-conveyer tool hands 13 is treated the heat-shrink tube of cut-out and is clamped, heat-shrink tube is cut into chunks by tube cutting mechanism, and general two tube cutting mechanisms are operationally offset from each other；

nullMeanwhile，Single line cable is put on clamp mechanical hand 14，Cable is clamped by clamp mechanical hand，And the terminal head of cable is positioned by detent mechanism，Then vertical driving mechanism drives two poling mechanical hands 15 to move down simultaneously，A poling mechanical hand 15 above is positioned at the dead astern of detent mechanism，A following poling mechanical hand 15 is relative with following tube-conveyer tool hands 13，And clamping has heat-shrink tube on a poling mechanical hand 15 above，And a poling mechanical hand 15 below does not have heat-shrink tube，Then a poling mechanical hand 15 above moves forward and thermoplastic tube is enclosed within the terminal head of cable under corresponding transversal driving mechanism drives，Meanwhile，Heat-shrink tube is transferred on a following poling mechanical hand 15 by a following tube-conveyer tool hands 13，Thus completing the poling step of first cable；

nullThen from clamp mechanical hand 14, take off first cable machined，And second cable is put on clamp mechanical hand 14，This cable is clamped by clamp mechanical hand 14，And the terminal head of this cable is positioned by detent mechanism，Then vertical driving mechanism drives the upper shifting simultaneously of two poling mechanical hands 15，A following poling mechanical hand 15 is positioned at the dead astern of detent mechanism，A poling mechanical hand 15 above is relative with a tube-conveyer tool hands 13 above，Now，On a following poling mechanical hand 15, clamping has heat-shrink tube，And a poling mechanical hand 15 above does not have heat-shrink tube，Then a poling mechanical hand 15 below moves forward and thermoplastic tube is enclosed within the terminal head of cable under corresponding transversal driving mechanism drives，Meanwhile，Heat-shrink tube is transferred on a poling mechanical hand 15 above by an above tube-conveyer tool hands 13，Thus completing the poling step of second cable，So circulation，Cable automatization can be realized and wear the processing of heat-shrink tube.

In the course of processing, feed mechanism is in use, heat-shrink tube passes in passage 5, it is subsequently placed in the feeding channel 4 between a pair feeding guide wheel 3, then a pair feeding guide wheel 3 of feeding driven by motor synchronizes to relatively rotate, and is transported to tube cutting mechanism from by heat-shrink tube under the extruding of a pair feeding guide wheel 3；

Tube cutting mechanism is in use, Pipe Cutting motor 11 can directly drive Pipe Cutting gear 10 to rotate forward, belt speed reducer structure deceleration rear drive Pipe Cutting gear 10 can also be passed through rotate forward, the upper rack 8 being meshed with Pipe Cutting gear 10 moves down, lower tooth bar 9 moves, thus upper rack 8 drives upper cutter head 6 and upper cutter to move down, lower tooth bar 9 drives and moves on lower tool rest 7 and lower cutter, upper cutter matches thus being cut off by heat-shrink tube with lower cutter, then Pipe Cutting gear 10 rotates backward under the drive of Pipe Cutting motor 11, the upper rack 8 being meshed with Pipe Cutting gear 10 moves, lower tooth bar 9 moves down, thus upper rack 8 drives, upper cutter head 6 and upper cutter move, lower tooth bar 9 drives lower tool rest 7 and lower cutter to move down, Pipe Cutting action next time can be carried out；

Tube-conveyer tool hands 13 in use, drives the left and right movement of tube-conveyer tool hands 13 by sending pipe to move cylinder 12, when send pipe move cylinder 12 drive tube-conveyer tool hands to move to right time, tube-conveyer tool hands 13 is thus moving to heat-shrink tube on poling mechanical hand 15；

In use, upper positioning cylinder 17 drives upper locating detent 19 to move down to detent mechanism, and meanwhile, lower positioning cylinder 18 drives and moves on lower locating detent 20, and lower locating detent 20 is drawn close thus the terminal head on cable is positioned mutually with upper locating detent 19；

When wearing heat-shrink tube, by vertically driving cylinder 21 to drive two transversal driving mechanisms and two poling mechanical hands move on simultaneously or move down, leading screw 24 is driven to rotate forward or backwards by horizontal drive motor 23, nut seat 25 match with leading screw thus relative poling support 22 laterally before, rear slip, thus before driving poling mechanical hand, rear movement, can also move before cylinder 26 drives poling mechanical hand 15 again by poling, rear movement, when horizontal drive motor 23 drives poling mechanical hand 15 to move forward by nut seat 25, then poling moves cylinder 26 when also driving poling mechanical hand 15 to move forward, poling mechanical hand 15 is thus being contained in shrinkable sleeve on the terminal head on detent mechanism.

Claims (6)

1. one kind automatically wear heat-shrink tube press automatically overlap thermal shrinking pipe apparatus, it is characterised in that: what include being arranged side by side cuts pyrocondensation pipe support and wears pyrocondensation pipe support；

The described side cutting pyrocondensation pipe support is provided with two feed mechanisms forwarded by two heat-shrink tubes respectively from top to bottom side by side, the front of each described feed mechanism is provided with tube cutting mechanism thermoplastic tube cut into chunks, the dead ahead of each described tube cutting mechanism is provided with the tube-conveyer tool hands for transferring heat-shrink tube, the left and right movement that two described tube-conveyer tool palmistrys stagger mutually；

The described front wearing pyrocondensation pipe support is provided with the clamp mechanical hand that cable is clamped, and the dead astern of this clamp mechanical hand is provided with the detent mechanism that the terminal head on cable is positioned；

The described side wearing pyrocondensation pipe support is provided with the poling mechanical hand at two rears being positioned at described detent mechanism from top to bottom side by side, two described poling mechanical hands are driven thus can move up and down simultaneously by vertical driving mechanism, and two described poling mechanical hands are respectively driven by a transversal driving mechanism thus the forward and backward movement that can mutually stagger；

When described clamp machinery has clamped cable on hand, the terminal head of cable is positioned by described detent mechanism, described vertical driving mechanism drives two described poling mechanical hands to move or move down and make the dead astern that one of them described poling mechanical hand is positioned at described detent mechanism on simultaneously, described poling mechanical hand moves forward thus being enclosed within the terminal head of cable by thermoplastic tube under described transversal driving mechanism drives, another described poling mechanical hand is relative with tube-conveyer tool hands one of them described, and thermoplastic tube is moved to described poling machinery on hand by described tube-conveyer tool hands.

2. described in claim 1 automatically wear heat-shrink tube press automatically overlap thermal shrinking pipe apparatus, it is characterized in that: described vertical driving mechanism include being vertically provided at described in wear pyrocondensation pipe support vertically drive cylinder, this vertically drives the outfan of cylinder to be provided with poling support；

Each described transversal driving mechanism includes the horizontal drive motor being horizontally installed on described poling support, the output shaft of this horizontal drive motor is connected to leading screw, this leading screw is provided with nut seat, the relatively described poling support of this nut seat slides laterally, this nut seat is provided with a poling and moves cylinder, this poling moves the outfan of cylinder and is provided with a described poling mechanical hand, and described poling mechanical hand moves under the drive of cylinder thus forward and backward movement at described poling.

3. described in claim 1 or 2 automatically wear heat-shrink tube press automatically overlap thermal shrinking pipe apparatus, it is characterized in that: each described feed mechanism includes a pair feeding guide wheel and drives feeding guide wheel described in a pair to synchronize feeding motor in relative rotation, the feeding channel of heat-shrink tube traverse it is formed between feeding guide wheel described in a pair, the front of this feeding channel is provided with a described tube cutting mechanism, and the rear of described feeding channel is provided with passage.

4. described in claim 1 or 2 automatically wear heat-shrink tube press automatically overlap thermal shrinking pipe apparatus, it is characterized in that: each described tube cutting mechanism include being slidably installed in described in cut on pyrocondensation pipe support and can relative or heterodromous upper cutter head and lower tool rest, described upper cutter head is provided with upper cutter, the lower section being provided with described upper cutter on described lower tool rest the lower cutter matched with described upper cutter, described upper cutter head is vertically provided with upper rack, described lower tool rest is provided with the lower tooth bar paralleled with described upper rack, the Pipe Cutting gear of the transmission that is simultaneously meshed it is provided with described lower tooth bar and upper rack between this lower tooth bar with described upper rack, this Pipe Cutting gear by Pipe Cutting driven by motor thus rotating.

5. described in claim 1 or 2 automatically wear heat-shrink tube press automatically overlap thermal shrinking pipe apparatus, it is characterized in that: described in cut pyrocondensation pipe support and be provided with two and send pipe to move cylinder, the outfan that pipe moves cylinder is sent to be provided with a described tube-conveyer tool hands described in each, thus left and right movement under the drive that described tube-conveyer tool hands send pipe to move cylinder described in corresponding.

6. described in claim 1 or 2 automatically wear heat-shrink tube press automatically overlap thermal shrinking pipe apparatus, it is characterized in that: described detent mechanism include being arranged on described in wear on pyrocondensation pipe support upper positioning cylinder and lower positioning cylinder, the outfan of described upper positioning cylinder is provided with locating detent, the underface being provided with described upper locating detent on the outfan of described lower positioning cylinder the lower locating detent matched with described upper locating detent, this lower locating detent and described upper locating detent are drawn close mutually thus the terminal head on cable is positioned.