CN109950775A - High-precision winding displacement inserts shell method and device - Google Patents

Abstract

The present invention discloses a kind of slotting shell method and device of high-precision winding displacement, is disposed with the first cable clamp, the second cable clamp along winding displacement extending direction from the terminal end of winding displacement, the first cable clamp is between cable terminal and the second cable clamp；It is additionally provided with rubber shell clamping device, rubber shell clamping device includes to press from both sides under folder, rubber shell in rubber shell, and rubber shell is located in rubber shell under folder, rubber shell between folder, and the spigot mouth that corresponding rubber shell tail portion is pressed from both sides in rubber shell is provided with guide channel, and the guide channel is up and down；It comprises the following steps that Step 1: rotational positioning；Step 2: pre-inserted shell；Step 3: reducing clamp distance；Step 4: secondary-plug shell；So, guide channel is set by sandwiched in rubber shell, ensuring terminal in step 1 rotational positioning, each terminal precisely can be aligned reliably into corresponding spigot mouth, and, clamp distance is reduced by step 3, ensure that secondary-plug is fashionable smooth, thus, it improves terminal and inserts shell precision, assembling quality is good, and assembling yield is high.

Description

High-precision winding displacement inserts shell method and device

Technical field

The present invention relates to cables to produce and process field technology, refers in particular to a kind of high-precision winding displacement and inserts shell side method and dress It sets.

Background technique

Currently, winding displacement has been widely used in computer, household electrical appliance, communication apparatus, the signal transmission of digital equipment or electricity In the connection of source, the end pressing of winding displacement has terminal, passes through, cable terminal needs to be inserted into rubber shell to form the connection that winding displacement end is amassed wealth by heavy taxation Part, to facilitate the socket connection between winding displacement and electronic equipment or electronic component.

In the prior art, for cable terminal when inserting shell, there are many deficiencies, such as: 1, the slotting shell of cable terminal is not in place, out Shell position deviation etc. is now inserted, subsequent connective stability and reliability are influenced；2, it is to be easy to appear part conducting wire that cable terminal, which inserts shell, Terminal is not inserted into the phenomenon that rubber shell, causes cable terminal and/or rubber shell impaired, it is bad product occur.

Therefore, it is necessary to develop the new technical solution of one kind to solve the above problems.

Summary of the invention

In view of this, in view of the deficiencies of the prior art, the present invention aims to provide a kind of high-precision rows Line inserts shell method and device, sets guide channel by sandwiched in rubber shell, it is ensured that terminal is in step 1 rotational positioning, each terminal It precisely can reliably align into corresponding spigot mouth, and, clamp distance is reduced by step 3, it is ensured that secondary-plug is fashionable It is smooth, thus, it improves terminal and inserts shell precision, assembling quality is good, and assembling yield is high.

To achieve the above object, the present invention is using following technical solution:

A kind of slotting shell side method of high-precision winding displacement, is disposed with the first winding displacement along winding displacement extending direction from the terminal end of winding displacement Folder, the second cable clamp, the first cable clamp is between cable terminal and the second cable clamp；Rubber shell clamping device is additionally provided with to be used for Rubber shell is clamped, the rubber shell clamping device includes to press from both sides under folder, rubber shell in rubber shell, and the rubber shell is located in folder, glue in rubber shell The spigot mouth that corresponding rubber shell tail portion is pressed from both sides under shell between folder, in the rubber shell is provided with guide channel, and the guide channel is up and down；Packet It includes and has the following steps:

Step 1: rotational positioning: original state, rubber shell clamping device clamps rubber shell and the spigot mouth of rubber shell tail portion is put obliquely It sets；Then, rubber shell clamping device is moved up with rubber shell, the head of terminal is caught in the corresponding guiding pressed from both sides in rubber shell along the vertical direction Slot, until the opening inner bottom wall of the spigot mouth of rubber shell tail portion is taken in the bottom of cable terminal；Again with rubber shell tail portion and cable terminal Overlapping part as rotation fulcrum, rubber shell clamping device is rotated with rubber shell head upwards until horizontal, so that cable terminal Head predetermined be located in rubber shell；

Step 2: pre-inserted shell: the first cable clamp clamps winding displacement positioning in first position, and rubber shell clamping device is with rubber shell in winding displacement Terminal end at towards winding displacement extending direction be displaced, reach pre-inserted shell；

Step 3: reducing clamp distance: reducing the distance between the first cable clamp and terminal, the first winding displacement is clamped in the second position Winding displacement positioning, the second position is between terminal and first position；

Step 4: secondary-plug shell: terminal end of the rubber shell clamping device with rubber shell in winding displacement is displaced towards winding displacement extending direction, is reached At secondary-plug shell.

As a preferred embodiment, the step 3, first by the first cable clamp open, then, rubber shell clamping device with Rubber shell, the second cable clamp clamp winding displacement and be synchronized with the terminal end of winding displacement to be displaced towards winding displacement extending direction, so that the first cable clamp The position change of corresponding winding displacement, then the first cable clamp is closed to clamp winding displacement positioning.

As a preferred embodiment, the step 3 first opens the first cable clamp, and then, the first cable clamp is displaced It is closed to second position point, then by the first cable clamp to clamp winding displacement positioning.

As a preferred embodiment, the head of the terminal in the step 1 is to be caught in rubber shell along the interior leading flank of guide channel The corresponding guide channel of upper folder, winding displacement stores elastic potential energy during being caught in, when terminal is reached in the spigot mouth of rubber shell tail portion, row Line resets forward；

The interior leading flank of the guide channel is flush to the rear end face of the roof of the spigot mouth of rubber shell tail portion, alternatively, the guide channel The convex spigot mouth for being exposed to rubber shell tail portion of interior leading flank roof rear end face rear side.

As a preferred embodiment, the bottom of the terminal is convexly equipped with the elastic slice to extend back, and the elastic slice is located at rubber shell The rear of the overlapping part of tail portion and cable terminal, and, the top of the terminal is equipped with pricking piece, and the pricking piece is located at bullet The rear of piece；

Step 1, the head of cable terminal make a reservation for after being located in rubber shell, and elastic slice is located at the outside of rubber shell；

Step 2, after reaching pre-inserted shell, elastic slice is located inside rubber shell, and the position of pricking piece is located at the outside of rubber shell, punctures Piece does not generate rigid interference to rubber shell.

As a preferred embodiment, the terminal is flipped up by the left and right side of plate；In the leading portion portion of terminal Position, left and right side is spliced to form the roof of terminal again after flipping up, so that the leading portion position structure annular in shape of terminal, described Elastic slice is set to the leading portion position of terminal；At the back segment position of terminal, on left and right side turn down after, upwardly extend to be formed it is aforementioned Pricking piece, the top of the pricking piece exceed the roof at terminal leading portion position upwards；It is the leading portion position by terminal in step 1 Bottom wall stress is in the interior leading flank of guide channel.

A kind of slotting housing apparatus of high-precision winding displacement, includes the first cable clamp, the second cable clamp and rubber shell clamping device, institute State the first cable clamp region between the second cable clamp and rubber shell clamping device；

The rubber shell clamping device includes to press from both sides under folder, rubber shell in rubber shell, and the rubber shell is located in rubber shell and presss from both sides it under folder, rubber shell Between, the spigot mouth that corresponding rubber shell tail portion is pressed from both sides in the rubber shell is provided with guide channel, and the guide channel is up and down；The rubber shell folder It holds mechanism and is also connected with rubber shell translation mechanism, the rubber shell translation mechanism drives the horizontal displacement of rubber shell clamping device；The rubber shell Clamping device is connected with rubber shell rotating mechanism, and the rubber shell rotating mechanism drives the spinning movement of rubber shell clamping device；The rubber shell Clamping device is also connected with rubber shell elevating mechanism, and the rubber shell elevating mechanism drives the upper and lower displacement of rubber shell clamping device；

Second cable clamp is used to control the second cable clamp translation mechanism of its horizontal displacement before being also connected with.

As a preferred embodiment, for controlling the first cable clamp of its horizontal displacement before first cable clamp is also connected with Translation mechanism.

As a preferred embodiment, the top surface pressed from both sides under the rubber shell is recessed with downwards lower accommodation groove, presss from both sides in the rubber shell Bottom surface is concave up to be equipped with upper accommodation groove, and the upper accommodation groove, lower accommodation groove are mutually communicated so that rubber shell is installed with positioning.

As a preferred embodiment, it is formed between adjacent guide channel every rib, the bottom end every rib is extended downwardly to be formed For limiting the limiting section on front side of rubber shell.

The present invention has obvious advantages and beneficial effects compared with the existing technology, specifically, by above-mentioned technical proposal It is found that it is mainly to pass through sandwiched in rubber shell to set guide channel, it is ensured that for terminal in step 1 rotational positioning, each terminal can essence Quasi- reliably contraposition enters corresponding spigot mouth, and, clamp distance is reduced by step 3, it is ensured that secondary-plug is fashionable smooth, To improve terminal and insert shell precision, assembling quality is good, and assembling yield is high.

In order to explain the structural features and functions of the invention more clearly, come with reference to the accompanying drawing with specific embodiment to this hair It is bright to be described in detail.

Detailed description of the invention

Fig. 1 is the perspective representation that shell original state is inserted in embodiments of the present invention；

Fig. 2 is a kind of conductor terminal diagram shown in embodiments of the present invention；

Fig. 3 is the partial enlargement diagram in Fig. 1 at A；

Fig. 4 is the main view that shell original state is inserted in embodiments of the present invention；

Fig. 5 is to move to the opening inner bottom wall of the spigot mouth of rubber shell tail portion in embodiments of the present invention in rubber shell to take in cable terminal Perspective representation when bottom；

Fig. 6 is the partial enlargement diagram in Fig. 5 at B；

Fig. 7 is to move to the opening inner bottom wall of the spigot mouth of rubber shell tail portion in embodiments of the present invention in rubber shell to take in cable terminal Main view when bottom；

Fig. 8 is that rubber shell is rotated upwardly to horizontal position in embodiments of the present invention, so that the head of cable terminal is predetermined to be located at glue Main view in shell；

Fig. 9 is that rubber shell is displaced the main view after reaching pre-inserted shell towards winding displacement extending direction in embodiments of the present invention；

Figure 10 is the state diagram of pre-inserted preceding winding displacement in embodiments of the present invention；

Figure 11 is the state diagram of pre-inserted rear winding displacement in embodiments of the present invention；

Figure 12 is the main view reduced between the first cable clamp and terminal after distance in embodiments of the present invention；

Figure 13 is that the main view after secondary-plug shell is completed in embodiments of the present invention；

Figure 14 is folder in rubber shell in embodiments of the present invention, press from both sides under rubber shell and rubber shell clamp position sectional view.

Description of drawing identification:

201, the first cable clamp 202, the second cable clamp

203, rubber shell clamping device 204, press from both sides in rubber shell

205,206, guide channel are pressed from both sides under rubber shell

207, elastic slice 208, pricking piece

209, upper accommodation groove 210, lower accommodation groove

211, every rib 212, rubber shell flexible deformation clearance position

213, rubber shell a, interior leading flank

B, rear end face.

Specific embodiment

It please refers to shown in Fig. 1 to Figure 14, that show the specific structures of embodiments of the present invention, and it is suitable for displacement types (also referring to split conductor) conductor terminal inserts shell.

A kind of slotting shell side method of high-precision winding displacement, is disposed with first row along winding displacement extending direction from the terminal end of winding displacement Wire clamp 201, the second cable clamp 202, the first cable clamp 201 are located between cable terminal and the second cable clamp 202；It is additionally provided with glue Shell clamping device 203 includes to press from both sides under folder 204, rubber shell in rubber shell for clamping rubber shell 213, the rubber shell clamping device 203 205, the rubber shell is located in rubber shell under folder 204, rubber shell between folder 205, and 204 corresponding rubber shell tail portions are pressed from both sides in the rubber shell Spigot mouth is provided with guide channel 206, and the guide channel 206 is up and down；It comprises the following steps that

As shown in Fig. 1 to Fig. 8 Step 1: rotational positioning: original state, rubber shell clamping device 203 clamp rubber shell and rubber shell tail portion Spigot mouth is placed obliquely；Then, rubber shell clamping device 203 is moved up with rubber shell, the head of terminal is caught in along the vertical direction The corresponding guide channel 206 of folder 204 in rubber shell, until the opening inner bottom wall of the spigot mouth of rubber shell tail portion is taken in the bottom of cable terminal Portion；Again using the overlapping part of rubber shell tail portion and cable terminal as rotation fulcrum, rubber shell clamping device 203 with rubber shell head to Upper rotation is located in rubber shell until level so that the head of cable terminal is predetermined；The head of terminal in the step 1 is edge The interior leading flank of guide channel 206 is caught in the corresponding guide channel 206 of folder 204 in rubber shell, and winding displacement stores elastic potential during being caught in Can, when terminal is reached in the spigot mouth of rubber shell tail portion, winding displacement resets forward；The interior leading flank a of the guide channel 206 is flush to glue The rear end face b of the roof of the spigot mouth of shell tail portion, alternatively, the interior leading flank of the guide channel 206 is convex to be exposed to inserting for rubber shell tail portion The rear side of the rear end face of the roof of port.

As shown in figure 9, Step 2: pre-inserted shell: the first cable clamp 201 clamps winding displacement positioning in first position, at this time second Winding displacement also clamps a winding displacement, and rubber shell clamping device 203 is horizontal towards winding displacement extending direction at the terminal end of winding displacement with rubber shell Displacement, reaches pre-inserted shell；Comparison diagram 10 and Figure 11, after pre-inserted, terminal head enters correcting after shell, and fan-beam projections reduce, quite Then the conducting wire position of the front side of the first cable clamp 201, wire rod can deform.

Shown in comparison diagram 9 and Figure 12, Step 3: reducing clamp distance: reduce between the first cable clamp 201 and terminal away from From the first winding displacement clamps winding displacement positioning in the second position, and the second position is between terminal and first position；Specifically in which way It realizes and reduces the distance between the first cable clamp 201 and terminal, with no restriction, such as: mode one: first by the first cable clamp 201 It opens, then, rubber shell clamping device 203 clamps the terminal end direction that winding displacement is synchronized with winding displacement with rubber shell, the second cable clamp 202 The displacement of winding displacement extending direction so that the position change of the corresponding winding displacement of the first cable clamp 201, then by the first cable clamp 201 be closed with Clamp winding displacement positioning；Mode two: the step 3 first opens the first cable clamp 201, and then, the first cable clamp 201 is displaced It is closed to second position point, then by the first cable clamp 201 to clamp winding displacement positioning.Certainly, when the first cable clamp 201 is in second It sets after clamping winding displacement positioning, if the further position of mobile second cable clamp 202, with no restriction.

As shown in figure 13, Step 4: secondary-plug shell: rubber shell clamping device 203 is with rubber shell in the terminal end direction of winding displacement The displacement of winding displacement extending direction, reaches secondary-plug shell.

As shown in Fig. 2, which show a kind of conductor terminals of embodiments of the present invention, and certainly, winding displacement of the present invention Shell side method is inserted to be not limited to apply on the conductor terminal of this kind of structure.Herein, the bottom of the terminal is convexly equipped with prolongs backward The elastic slice 207 stretched, the elastic slice 207 are located at the rear of the overlapping part of rubber shell tail portion and cable terminal, and, the terminal Top is equipped with pricking piece, and the pricking piece is located at the rear of elastic slice 207；As shown in fig. 6, step 1, the head of cable terminal is pre- After being positioned in rubber shell, elastic slice 207 is located at the outside of rubber shell；As shown in figure 9, step 2, after reaching pre-inserted shell, elastic slice 207 Inside rubber shell, still, at this point, elastic slice 207 is not in formation overhead kick (following rubber shell flexible deformation clearance positions in rubber shell 212), the position of pricking piece is located at the outside of rubber shell, and pricking piece does not generate rigid interference to rubber shell.The terminal is by plate Left and right side flip up；At the leading portion position of terminal, left and right side is spliced to form the roof of terminal again after flipping up, So that the leading portion position structure annular in shape of terminal, the elastic slice 207 are set to the leading portion position of terminal；In the back segment portion of terminal , after turning down on left and right side, upwardly extend to form aforementioned pricking piece, the top of the pricking piece exceeds terminal leading portion upwards The roof at position；It is the leading portion position bottom wall stress by terminal in step 1 in the interior leading flank of guide channel 206.9 He of comparison diagram It is to be inserted into pricking piece in rubber shell firmly in the secondary-plug girdle section of step 4, to form terminal in rubber shell shown in Figure 13 Hardness inserting, for elastic slice 207 also in forming reverse hook type positioning in rubber shell, assembling positioning is firm.

It include the first winding displacement next, introducing a kind of slotting housing apparatus of winding displacement that can insert shell side method using aforementioned winding displacement The 201, second cable clamp 202 of folder and rubber shell clamping device 203, first cable clamp 201 are located at the second cable clamp 202 and rubber shell Region between clamping device 203；

Referring especially to shown in Fig. 1, Fig. 3, Figure 14, the rubber shell clamping device 203 includes to press from both sides under folder 204, rubber shell in rubber shell 205, the rubber shell is located in rubber shell under folder 204, rubber shell between folder 205, and inserting for 204 corresponding rubber shell tail portions is pressed from both sides in the rubber shell Port is provided with guide channel 206, and the guide channel 206 is up and down；The rubber shell clamping device 203 is also connected with rubber shell translation Mechanism, the rubber shell translation mechanism drive 203 horizontal displacement of rubber shell clamping device；The rubber shell clamping device 203 is connected with glue Shell rotating mechanism, the rubber shell rotating mechanism drive 203 spinning movement of rubber shell clamping device；The rubber shell clamping device 203 is also It is connected with rubber shell elevating mechanism, the rubber shell elevating mechanism drives 203 upper and lower displacement of rubber shell clamping device；First cable clamp 201 have the first opening and closing control mechanism for controlling its opening and closing；Second cable clamp 202 has for controlling its opening and closing Second opening and closing control mechanism；Second cable clamp 202 is flat for controlling the second cable clamp 202 of its horizontal displacement before being also connected with Telephone-moving structure.First cable clamp 201 is used to control 201 translation mechanism of the first cable clamp of its horizontal displacement before being also connected with.

The top surface that 205 are pressed from both sides as shown in Fig. 3 and Figure 14, under the rubber shell is recessed with downwards lower accommodation groove 210, in the rubber shell The bottom surface of folder 204 is concave up to be equipped with upper accommodation groove 209, and the upper accommodation groove 209, lower accommodation groove 210 are mutually communicated for rubber shell It is installed with positioning.The inner bottom surface of lower accommodation groove 210 is provided with rubber shell flexible deformation clearance position 212, when elastic slice 207 is completely inserted into Behind position, rubber shell 213 is squeezed by elastic slice 207, is bent downwardly deformation, elastic slice in the corresponding rubber shell flexible deformation clearance position 212 of rubber shell 213 207 in formation reverse hook type positioning in rubber shell 213.Formed between adjacent guide channel 206 every rib 211, the bottom end every rib 211 to Lower extension is to form the limiting section for limiting on front side of rubber shell.

Preferably, whole device is full-automatic, and therefore, each automechanism is uniformly controlled by main control unit, main Control unit carrys out each automechanism movement of coordinated control according to respective feedback signal, thus, realize each automechanism movement matching, Certainly, for automation, for intelligent device, electric control part has been known technology in the industry, is mainly emphasized in the present invention pair Cable terminal inserts assemble method when rubber shell, and, a kind of apparatus structure of practicable this method is provided, herein no longer to electricity Control part (such as program, control principle etc.) repeats.Rubber shell translation mechanism, rubber shell rotating mechanism, rubber shell elevating mechanism, second 202 translation mechanism of cable clamp, 201 translation mechanism of the first cable clamp etc., these realize the mechanism of automation movement, are also industry Interior known technology can flexibly be driven using motor, cylinder etc. and realize different driving movement, herein, to the knot of each driving mechanism Structure is not made to limit to, as long as can be realized corresponding holding function.

And, it should be noted that term " center ", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", The orientation or positional relationship of the instructions such as "outside" is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of describing this hair Bright and simplified description, rather than the position of indication or suggestion meaning or element must have a particular orientation, with specific orientation Construction and operation, therefore be not considered as limiting the invention.Unless otherwise clearly defined and limited, term " installation ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally connect It connects；It can be mechanical connection, be also possible to be electrically connected；It can be directly connected, can also indirectly connected through an intermediary, it can To be the connection inside two elements.For the ordinary skill in the art, concrete condition can be regarded and understand above-mentioned art The concrete meaning of language in the present invention.

Design focal point of the invention is that mainly passing through sandwiched in rubber shell sets guide channel, it is ensured that terminal is in step 1 When rotational positioning, each terminal precisely can be aligned reliably into corresponding spigot mouth, and, clamp is reduced by step 3 Distance, it is ensured that secondary-plug is fashionable smooth, thus, it improves terminal and inserts shell precision, assembling quality is good, and assembling yield is high.

The above described is only a preferred embodiment of the present invention, be not intended to limit the scope of the present invention, Therefore any subtle modifications, equivalent variations and modifications to the above embodiments according to the technical essence of the invention, still Belong in the range of technical solution of the present invention.

Claims (10)

1. a kind of high-precision winding displacement inserts shell side method, it is characterised in that: successively set from the terminal end of winding displacement along winding displacement extending direction It is equipped with the first cable clamp, the second cable clamp, the first cable clamp is between cable terminal and the second cable clamp；It is additionally provided with rubber shell Clamping device includes to press from both sides under folder, rubber shell in rubber shell for clamping rubber shell, the rubber shell clamping device, and the rubber shell is located in The spigot mouth that corresponding rubber shell tail portion is pressed from both sides in rubber shell under folder, rubber shell between folder, in the rubber shell is provided with guide channel, the guide channel Up and down；It comprises the following steps that

Step 1: rotational positioning: original state, rubber shell clamping device clamps rubber shell and the spigot mouth of rubber shell tail portion is put obliquely It sets；Then, rubber shell clamping device is moved up with rubber shell, the head of terminal is caught in the corresponding guiding pressed from both sides in rubber shell along the vertical direction Slot, until the opening inner bottom wall of the spigot mouth of rubber shell tail portion is taken in the bottom of cable terminal；Again with rubber shell tail portion and cable terminal Overlapping part as rotation fulcrum, rubber shell clamping device is rotated with rubber shell head upwards until horizontal, so that cable terminal Head predetermined be located in rubber shell；

Step 2: pre-inserted shell: the first cable clamp clamps winding displacement positioning in first position, and rubber shell clamping device is with rubber shell in winding displacement Terminal end at towards winding displacement extending direction be displaced, reach pre-inserted shell；

Step 3: reducing clamp distance: reducing the distance between the first cable clamp and terminal, the first winding displacement is clamped in the second position Winding displacement positioning, the second position is between terminal and first position；

Step 4: secondary-plug shell: terminal end of the rubber shell clamping device with rubber shell in winding displacement is displaced towards winding displacement extending direction, is reached At secondary-plug shell.

2. high-precision winding displacement according to claim 1 inserts shell side method, it is characterised in that: the step 3, first by first Cable clamp opens, and then, rubber shell clamping device clamps the terminal end direction that winding displacement is synchronized with winding displacement with rubber shell, the second cable clamp The displacement of winding displacement extending direction so that the first cable clamp corresponds to the position change of winding displacement, then the first cable clamp is closed with the row of clamping Line positioning.

3. high-precision winding displacement according to claim 1 inserts shell side method, it is characterised in that: the step 3, first by first Cable clamp opens, and then, the first cable clamp is moved to second position point, then the first cable clamp is closed and is determined to clamp winding displacement Position.

4. high-precision winding displacement according to claim 1 inserts shell side method, it is characterised in that: terminal in the step 1 Head is to be caught in the corresponding guide channel pressed from both sides in rubber shell along the interior leading flank of guide channel, and winding displacement stores elastic potential during being caught in Can, when terminal is reached in the spigot mouth of rubber shell tail portion, winding displacement resets forward；

The interior leading flank of the guide channel is flush to the rear end face of the roof of the spigot mouth of rubber shell tail portion, alternatively, the guide channel The convex spigot mouth for being exposed to rubber shell tail portion of interior leading flank roof rear end face rear side.

5. high-precision winding displacement according to claim 4 inserts shell side method, it is characterised in that: the bottom of the terminal is convexly equipped with The elastic slice to extend back, the elastic slice are located at the rear of the overlapping part of rubber shell tail portion and cable terminal, and, the terminal Top is equipped with pricking piece, and the pricking piece is located at the rear of elastic slice；

Step 1, the head of cable terminal make a reservation for after being located in rubber shell, and elastic slice is located at the outside of rubber shell；

Step 2, after reaching pre-inserted shell, elastic slice is located inside rubber shell, and the position of pricking piece is located at the outside of rubber shell, punctures Piece does not generate rigid interference to rubber shell.

6. high-precision winding displacement according to claim 5 inserts shell side method, it is characterised in that: the terminal is by plate Left and right side flips up；At the leading portion position of terminal, left and right side is spliced to form the roof of terminal again after flipping up, with So that the leading portion position structure annular in shape of terminal, the elastic slice are set to the leading portion position of terminal；At the back segment position of terminal, After turning down on left and right side, upwardly extend to form aforementioned pricking piece, the top of the pricking piece exceeds terminal leading portion position upwards Roof；It is the leading portion position bottom wall stress by terminal in step 1 in the interior leading flank of guide channel.

7. a kind of high-precision winding displacement inserts housing apparatus, it is characterised in that: include the first cable clamp, the second cable clamp and rubber shell folder Hold mechanism, first cable clamp region between the second cable clamp and rubber shell clamping device；

The rubber shell clamping device includes to press from both sides under folder, rubber shell in rubber shell, and the rubber shell is located in rubber shell and presss from both sides it under folder, rubber shell Between, the spigot mouth that corresponding rubber shell tail portion is pressed from both sides in the rubber shell is provided with guide channel, and the guide channel is up and down；The rubber shell folder It holds mechanism and is also connected with rubber shell translation mechanism, the rubber shell translation mechanism drives the horizontal displacement of rubber shell clamping device；The rubber shell Clamping device is connected with rubber shell rotating mechanism, and the rubber shell rotating mechanism drives the spinning movement of rubber shell clamping device；The rubber shell Clamping device is also connected with rubber shell elevating mechanism, and the rubber shell elevating mechanism drives the upper and lower displacement of rubber shell clamping device；

Second cable clamp is used to control the second cable clamp translation mechanism of its horizontal displacement before being also connected with.

8. high-precision winding displacement according to claim 7 inserts housing apparatus, it is characterised in that: first cable clamp is also connected with Preceding the first cable clamp translation mechanism for being used to control its horizontal displacement.

9. high-precision winding displacement according to claim 7 inserts housing apparatus, it is characterised in that: the top surface pressed from both sides under the rubber shell to Under be recessed with lower accommodation groove, the bottom surface pressed from both sides in the rubber shell is concave up to be equipped with upper accommodation groove, the upper accommodation groove, lower accommodation groove phase It mutually penetrates through so that rubber shell is installed with positioning.

10. high-precision winding displacement according to claim 7 inserts housing apparatus, it is characterised in that: formed between adjacent guide channel Every rib, the bottom end every rib is extended downwardly to be formed for limiting the limiting section on front side of rubber shell.