CN100429849C - Heat shrinking positioning method and heat shrinking positioning plate for super-thin wire conduit - Google Patents

Abstract

The present invention relates to a heat shrinking and positioning method for a super-thin lead sleeve pipe, which is characterized in that a plurality of heat-shrinkable sleeve pipes are penetrated and sheathed in lead groups which are respectively formed by parallelly connecting one or more than one lead; the lead groups are arranged in transversal spacing grooves of a heat-shrinkable positioning plate, and the flat end of each lead group is aligned to a position stopping part on one end of the heat-shrinkable positioning plate. The heat-shrinkable sleeve pipes on the lead groups are respectively limited on the heat-shrinkable positioning plate, and are arranged in a plurality of longitudinal spacing grooves by a plurality of chock block columns with certain intervals. The lead groups are respectively arranged in different transversal spacing grooves of the heat-shrinkable positioning plate according to the steps to form predeterminate heat-shrinkable positioning plates, and the predeterminate heat-shrinkable positioning plates are orderly baked by a hot air oven based on a conveying belt; the baking temperature and the baking time are determined by the materials of the heat-shrinkable sleeve pipes and the speed of the conveying belt. The heat-shrinkable appearance of each sleeve pipe is detected, and the position of each sleeve pipe is positioned.

Description

Ultrafine wire sleeve pipe pyrocondensation localization method and pyrocondensation location-plate

Technical field

The present invention relates to a kind of wire socket pyrocondensation localization method and specific purpose tool, particularly relate to a kind of ultrafine wire sleeve pipe pyrocondensation localization method and pyrocondensation location-plate.

Background technology

After prior art adds cover heat-shrinkable T bush pyrocondensation typing with a lead or by the lead group that a plurality of leads also become, it is common snapping in the application apparatus again, the lead group that particularly needs one or more ultrafine wire is also become in notebook computer snaps in corresponding position by after the heat-shrinkable T bush pyrocondensation.Because ultrafine wire and computer volume are little, need manual manufacture, method is: according to the diverse location that snaps in the host computer, the sleeve pipe pyrocondensation that wears is positioned at the diverse location of described ultrafine wire group after, in air oven, toast a period of time again.If sleeve pipe location is inaccurate, can't snap in the position of respective host case, but manual operation is easy to make mistakes, process the lead group of such band pyrocondensation locating sleeve if desired in large quantity, just can't carry out.

Summary of the invention

In order to address the above problem, to the invention provides and a kind ofly can accurately locate ultrafine wire sleeve pipe pyrocondensation localization method and the pyrocondensation location-plate that heat-shrinkable T bush can be processed again in enormous quantities.

Technical scheme of the present invention is such:

A kind of ultrafine wire sleeve pipe pyrocondensation localization method may further comprise the steps:

The 1st goes on foot, and a plurality of heat-shrinkable T bushs is set in the lead group that is also become by one or more leads;

The 2nd step placed this lead group in the cross spacing groove that is provided with at interval by a plurality of pyrocondensation position blocks on the pyrocondensation location-plate, and the end that flushes of this lead group is alignd with the position-arresting part of this pyrocondensation location-plate one end;

The 3rd step was each defined in a plurality of heat-shrinkable T bushs on this lead group in a plurality of longitudinal spacing grooves that are provided with at interval by a plurality of block row on this pyrocondensation location-plate, was convenient to the hot-air baking;

The 4th step placed the different cross spacing groove of this pyrocondensation location-plate with a plurality of these lead groups respectively according to above step, formed predetermined pyrocondensation location-plate;

The 5th step, should toast by air oven successively based on conveyer belt by predetermined pyrocondensation location-plate a plurality of, this hot-air baking temperature and time are determined by this heat-shrinkable T bush material and conveyer belt speed;

The 6th step, the sleeve pipe pyrocondensation outward appearance and the position location of detection lead group.

As a further improvement on the present invention, this heat-shrinkable T bush is the half flexible thermal draw of thin-walled and flame retardant type, and moulding material is the additional an amount of fire-retardant and anti-old auxiliary agent of polyolefin.

A kind of pyrocondensation location-plate that is exclusively used in above-mentioned ultrafine wire sleeve pipe pyrocondensation localization method is:

Be installed with the block row of being arranged at interval side by side by a plurality of pyrocondensation position blocks on this pyrocondensation location-plate, the adjacent blockers of these block row is formed for snapping in this lead group cross spacing groove partly of no heat-shrinkable T bush, a plurality of these block row are arranged at intervals at this pyrocondensation location-plate side by side, adjacent these block row are formed for placing the longitudinal spacing groove of this lead group part that has heat-shrinkable T bush, this pyrocondensation location-plate one end is installed with the position-arresting part that flushes end of this lead group that is used to align, and is wherein corresponding with the heat-shrinkable T bush length of this lead group to small part longitudinal spacing well width.

As a further improvement on the present invention, the part longitudinal spacing well width of this pyrocondensation location-plate has the heat-shrinkable T bush length that is several times as much as this lead group, forms the longitudinal region groove, the lead group part of being convenient to place no heat-shrinkable T bush and overlength degree.

As a further improvement on the present invention, this pyrocondensation location-plate, pyrocondensation position block and position-arresting part are high temperature resistant, fire-retardant and the anti-aging material is made.

As a further improvement on the present invention, each pyrocondensation position block of these block row is individually fixed in substrate, form the block plate, this each block plate is provided with side by side at interval, and being fixed in this pyrocondensation location-plate by substrate separately with gluing, embedding or screw mode respectively, adjacent this block plate is formed for placing the longitudinal spacing groove of this lead group that has heat-shrinkable T bush.

The invention has the beneficial effects as follows:

The at first requirement of locating according to the heat-shrinkable T bush of different conductor group, make different pyrocondensation location-plates, the quantity and the width that comprise longitudinal spacing groove on the quantity of required heat-shrinkable T bush and length and this pyrocondensation location-plate are corresponding, the long part of heat-shrinkable T bush spacing can be placed the longitudinal region groove of setting on this pyrocondensation location-plate simultaneously, then the lead group of a plurality of such requirements is placed the cross spacing groove on this pyrocondensation location-plate that is arranged side by side, general operating personnel also can be competent at this operation, the pyrocondensation location-plate of the lead group that will have good positioning in batch again takes out after placing and toasting certain hour as requested in the air oven, finished ultrafine wire sleeve pipe pyrocondensation positioning action, simple to operate like this and accurate, the efficient height is suitable for processing in enormous quantities.

Description of drawings

Fig. 1 is the flow chart of ultrafine wire sleeve pipe pyrocondensation localization method of the present invention;

Fig. 2 is a pyrocondensation location-plate positioning lead schematic diagram of the present invention;

Fig. 3 is a pyrocondensation location-plate positioning lead partial schematic diagram of the present invention.

Embodiment:

Be further described below contrast Fig. 1 to 3:

A kind of ultrafine wire sleeve pipe pyrocondensation localization method is used for will organizing simultaneously ultrafine wire sleeve pipe pyrocondensation location more, may further comprise the steps successively:

The 1st goes on foot, and a plurality of heat-shrinkable T bushs 1 is set in the lead group 2 that is also become by one or more leads;

The 2nd step placed this lead group in the cross spacing groove 32 that is provided with at interval by a plurality of pyrocondensation position blocks 31 on the pyrocondensation location-plate 3, and the end 21 of flushing of this lead group is alignd with the position-arresting part 33 of this pyrocondensation location-plate one end;

The 3rd step was each defined in a plurality of heat-shrinkable T bushs on this lead group in a plurality of longitudinal spacing grooves 35 that are provided with at interval by a plurality of block row 34 on this pyrocondensation location-plate, was convenient to the hot-air baking;

The 4th step placed the different cross spacing groove of this pyrocondensation location-plate with a plurality of these lead groups respectively according to above step, formed predetermined pyrocondensation location-plate;

The 5th step, should toast by air oven successively based on conveyer belt by predetermined pyrocondensation location-plate a plurality of, this hot-air baking temperature and time are determined by this heat-shrinkable T bush material and conveyer belt speed;

The 6th step, the sleeve pipe pyrocondensation outward appearance and the position location of detection lead group.

This heat-shrinkable T bush is the half flexible thermal draw of thin-walled and flame retardant type, and moulding material is the additional an amount of fire-retardant and anti-old auxiliary agent of polyolefin.

Below Fig. 1 is explained:

The many groups of configuration wear the lead 101 of heat-shrinkable T bush: a plurality of heat-shrinkable T bushs are set in the lead group that is also become by one or more leads;

The assembly of many group heat-shrinkable T bush leads places pyrocondensation location-plate 102: this lead group is placed in the cross spacing groove that is provided with at interval by a plurality of pyrocondensation position blocks on the pyrocondensation location-plate, and with this lead group flush the end align with the position-arresting part of this pyrocondensation location-plate one end, a plurality of heat-shrinkable T bushs on this lead group are each defined in a plurality of longitudinal spacing grooves 35 that are provided with at interval by a plurality of block row on this pyrocondensation location-plate, are convenient to the hot-air baking;

Baking configuration back pyrocondensation location-plate 103: the different cross spacing groove that a plurality of these lead groups is placed this pyrocondensation location-plate according to above step respectively, form predetermined pyrocondensation location-plate, should toast by air oven successively based on conveyer belt by predetermined pyrocondensation location-plate a plurality of, this hot-air baking temperature and time are determined by this heat-shrinkable T bush material and conveyer belt speed;

Detect lead group 104: sleeve pipe pyrocondensation outward appearance and the position location of detecting the lead group.

A kind of pyrocondensation location-plate that is exclusively used in described ultrafine wire sleeve pipe pyrocondensation localization method, be installed with the block row of being arranged at interval side by side by a plurality of pyrocondensation position blocks 31 34 on this pyrocondensation location-plate, the adjacent blockers of these block row forms cross spacing groove 32, be used to snap in this lead group part of no heat-shrinkable T bush, a plurality of these block row are arranged at intervals at this pyrocondensation location-plate side by side, adjacent these block row form longitudinal spacing groove 35, be used for placing this lead group part that has heat-shrinkable T bush, this pyrocondensation location-plate one end is installed with the flushing of this lead group that be used to align and holds 21 position-arresting part 33, and is wherein corresponding with the heat-shrinkable T bush length of this lead group to small part longitudinal spacing well width.

The part longitudinal spacing well width of this pyrocondensation location-plate has the heat-shrinkable T bush length that is several times as much as this lead group, form longitudinal region groove 36, be convenient to place the lead group part of no heat-shrinkable T bush and overlength degree, this pyrocondensation location-plate, pyrocondensation position block and position-arresting part are high temperature resistant, fire-retardant and anti-aging material is made, each pyrocondensation position block of these block row is individually fixed in substrate, form the block plate, this each block plate is provided with side by side at interval, and respectively by substrate separately with gluing, embedding or screw mode are fixed in this pyrocondensation location-plate, and adjacent this block plate is formed for placing the longitudinal spacing groove of this lead group that has heat-shrinkable T bush.

Claims (6)

1, a kind of ultrafine wire sleeve pipe pyrocondensation localization method is used for will organizing simultaneously ultrafine wire sleeve pipe pyrocondensation location more, it is characterized in that, may further comprise the steps successively:

The 1st goes on foot, and a plurality of heat-shrinkable T bushs (1) is set in the lead group (2) that is also become by one or more leads;

The 2nd step placed this lead group in the cross spacing groove (32) that is provided with at interval by a plurality of pyrocondensation position blocks (31) on the pyrocondensation location-plate (3), and the end (21) that flushes of this lead group is alignd with the position-arresting part (33) of this pyrocondensation location-plate one end;

The 3rd step was each defined in a plurality of heat-shrinkable T bushs on this lead group in a plurality of longitudinal spacing grooves (35) that are provided with at interval by a plurality of block row (34) on this pyrocondensation location-plate, was convenient to the hot-air baking;

The 4th step placed the different cross spacing groove of this pyrocondensation location-plate with a plurality of these lead groups respectively according to above step, formed predetermined pyrocondensation location-plate;

The 5th step, should toast by air oven successively based on conveyer belt by predetermined pyrocondensation location-plate a plurality of, this hot-air baking temperature and time are determined by this heat-shrinkable T bush material and conveyer belt speed;

The 6th step, the sleeve pipe pyrocondensation outward appearance and the position location of detection lead group.

2, a kind of ultrafine wire sleeve pipe pyrocondensation localization method as claimed in claim 1 is characterized in that, this heat-shrinkable T bush is the half flexible thermal draw of thin-walled and flame retardant type, and moulding material is the additional an amount of fire-retardant and anti-old auxiliary agent of polyolefin.

3, a kind of pyrocondensation location-plate that is exclusively used in claim 1 or 2 described ultrafine wire sleeve pipe pyrocondensation localization methods, it is characterized in that, be installed with the block row of being arranged at interval side by side by a plurality of pyrocondensation position blocks (31) (34) on this pyrocondensation location-plate, the adjacent blockers of these block row is formed for snapping in this lead group cross spacing groove (32) partly of no heat-shrinkable T bush, a plurality of these block row are arranged at intervals at this pyrocondensation location-plate side by side, adjacent these block row are formed for placing the longitudinal spacing groove (35) of this lead group part that has heat-shrinkable T bush, this pyrocondensation location-plate one end is installed with the position-arresting part that flushes end (21) (33) of this lead group that is used to align, and is wherein corresponding with the heat-shrinkable T bush length of this lead group to small part longitudinal spacing well width.

4, pyrocondensation location-plate as claimed in claim 3, it is characterized in that, the part longitudinal spacing well width of this pyrocondensation location-plate has the heat-shrinkable T bush length that is several times as much as this lead group, forms longitudinal region groove (36), the lead group part of being convenient to place no heat-shrinkable T bush and overlength degree.

5, pyrocondensation location-plate as claimed in claim 3 is characterized in that, this pyrocondensation location-plate, pyrocondensation position block and position-arresting part are high temperature resistant, fire-retardant and the anti-aging material is made.

6, pyrocondensation location-plate as claimed in claim 3, it is characterized in that, each pyrocondensation position block of these block row is individually fixed in substrate, form the block plate, this each block plate is provided with side by side at interval, and being fixed in this pyrocondensation location-plate by substrate separately with gluing, embedding or screw mode respectively, adjacent this block plate is formed for placing the longitudinal spacing groove of this lead group that has heat-shrinkable T bush.

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